최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0869616 (1997-06-05) |
등록번호 | US-8087547 (2012-01-03) |
발명자 / 주소 |
|
출원인 / 주소 |
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인용정보 | 피인용 횟수 : 12 인용 특허 : 25 |
The squeeze container is made of a flexible material and is configured to store and dispense viscous fluid. The squeeze container is fitted with an automatic dispensing nozzle which allows flow when the container is squeezed and cuts off flow when the squeezing forces are removed. A stand is associa
The squeeze container is made of a flexible material and is configured to store and dispense viscous fluid. The squeeze container is fitted with an automatic dispensing nozzle which allows flow when the container is squeezed and cuts off flow when the squeezing forces are removed. A stand is associated with the squeeze container, designed to hold the container in the nozzle down position. The stand may serve as a cover to protect the material before dispensing. The container may have a refill aperture and cap as well as a suspension device incorporated therein.
1. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a liquid t
1. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a liquid therein, or, a viscous fluid therein, or, a food product therein, or, a food liquid therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, shampoo therein, or, lotion therein, or, a gel therein, or, an oil therein, or, a cream therein, or, a hand care liquid product therein, or, a body care product therein, or, a sun screen product therein, or, a sun related product therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having a cap fastening device; said cap fastening device engages said squeeze bottle fastening device;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is located entirely outside of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said automatic dispensing cap having automatic bi-directional dispensing features; said automatic dispensing cap having an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;said cap body and said automatic valve are made of two different materials;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 2. The automatic dispensing apparatus of claim 1 wherein said automatic dispensing cap has means for dispensing said fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface; whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 3. The automatic dispensing apparatus of claim 1 wherein said automatic valve is coupled across one side only of said aperture in said cap wall. 4. The automatic dispensing apparatus of claim 1 including means for coupling said automatic valve to said cap body. 5. The automatic dispensing apparatus of claim 1 wherein said automatic valve is integrally formed with said cap body. 6. The automatic dispensing apparatus of claim 1 wherein said automatic valve is integrally molded with said cap body. 7. The automatic dispensing apparatus of claim 1 wherein said dispensing cap has a spout, and said automatic valve is coupled to said spout; or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 8. The automatic dispensing apparatus of claim 1 wherein the lip of said squeeze bottle has a lip inner diameter and said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle. 9. The automatic dispensing apparatus of claim 1 wherein there is a fluid tight seal between the lip of said squeeze bottle and said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element. 10. The automatic dispensing apparatus of claim 1 wherein said support base has substantially a round shape; or, said resilient squeeze bottle has a cross sectional shape that is substantially round. 11. The automatic dispensing apparatus of claim 1 wherein said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle. 12. The automatic dispensing apparatus of claim 1 wherein said dispensing cap has a squeeze bottle end and a support base end; and, said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap. 13. The automatic dispensing apparatus of claim 1 wherein said squeeze bottle fastening device is squeeze bottle threads, and said cap fastening device is cap threads. 14. The automatic dispensing apparatus of claim 1 wherein said cap fastening device is cap threads; said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 15. The automatic dispensing apparatus of claim 1 wherein said dispensing cap has an inner skirt and an outer skirt; and, cap threads are integrally formed on the inner surface of said inner skirt. 16. The automatic dispensing apparatus of claim 1 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and, said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface. 17. The automatic dispensing apparatus of claim 1 wherein said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface. 18. The automatic dispensing apparatus of claim 1 wherein said automatic valve is bonded to said cap body. 19. The automatic dispensing apparatus of claim 1 wherein said resilient squeeze bottle is made of a material that is translucent; or, said squeeze bottle is made of a material that is opaque;or, said squeeze bottle is made of a material that is colored. 20. The automatic dispensing apparatus of claim 1 wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 21. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having said liquid therein, or, a viscous fluid therein, or, food product therein, or, a food liquid therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, shampoo therein, or, lotion therein, or, a gel therein, or, an oil therein, or, a cream therein, or, a hand care liquid product therein, or, a body care product therein, or, a sun screen product therein, or, a sun related product therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having a cap fastening device; said cap fastening device engages said squeeze bottle fastening device;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across one side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are made of two different materials;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 22. The automatic dispensing apparatus of claim 21 wherein said automatic dispensing cap has means for dispensing said fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface; whereby a fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 23. The automatic dispensing apparatus of claim 21 wherein said automatic valve is located entirely outside said aperture. 24. The automatic dispensing apparatus of claim 21 including means for coupling said automatic valve to said cap body. 25. The automatic dispensing apparatus of claim 21 wherein said automatic valve is integrally formed with said cap body. 26. The automatic dispensing apparatus of claim 21 wherein said automatic valve is integrally molded with said cap body. 27. The automatic dispensing apparatus of claim 21 wherein said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature. 28. The automatic dispensing apparatus of claim 21 wherein said automatic valve is coupled across said support base side of said aperture in said cap wall; said automatic dispensing cap having means for coupling said automatic valve to said cap body;or, said automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded with said cap body. 29. The automatic dispensing apparatus of claim 21 wherein said dispensing cap has a spout, and said automatic valve is coupled to said spout; or said automatic valve is integrally formed to said spout;or said automatic valve is integrally molded to said spout;or said automatic valve is to bonded to said spout. 30. The automatic dispensing apparatus of claim 21 wherein the lip of said squeeze bottle has a lip inner diameter and said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle. 31. The automatic dispensing apparatus of claim 21 wherein there is a fluid tight seal between the lip of said squeeze bottle and said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element, and there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element. 32. The automatic dispensing apparatus of claim 21 wherein said support base has substantially a round shape; or, said resilient squeeze bottle has a cross sectional shape that is substantially round. 33. The automatic dispensing apparatus of claim 21 wherein said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle. 34. The automatic dispensing apparatus of claim 21 wherein said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap. 35. The automatic dispensing apparatus of claim 21 wherein said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface. 36. The automatic dispensing apparatus of claim 21 wherein said cap fastening device is cap threads; said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 37. The automatic dispensing apparatus of claim 21 wherein said dispensing cap has an inner skirt and an outer skirt; and, cap threads are integrally formed on the inner surface of said inner skirt. 38. The automatic dispensing apparatus of claim 21 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface. 39. The automatic dispensing apparatus of claim 21 wherein said automatic valve is bonded to said cap body. 40. The automatic dispensing apparatus of claim 21 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored. 41. The automatic dispensing apparatus of claim 21 wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 42. An automatic dispensing cap for use with a resilient squeeze bottle; said squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and a squeeze bottle lip; said automatic dispensing cap comprising: a cap body;said cap body having a cap fastening device; said cap fastening device having means for attaching said cap body to said resilient squeeze bottle;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is located entirely outside of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 43. The automatic dispensing cap of claim 42 wherein said automatic dispensing cap has means for dispensing a fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface; whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 44. The automatic dispensing cap of claim 42 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 45. The automatic dispensing apparatus of claim 42 wherein said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature. 46. The automatic dispensing cap of claim 42 wherein said cap fastening device is cap threads; said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 47. The automatic dispensing cap of claim 42 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle, or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said automatic dispensing cap has an integrally formed annular sealing element, and there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element when said squeeze bottle is securely fastened to said automatic dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt; and cap threads are integrally formed on the inner surface of said inner skirt. 48. An automatic dispensing cap for use with a resilient squeeze bottle; said squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and a squeeze bottle lip; said automatic dispensing cap comprising: a cap body;said cap body having a cap fastening device; said cap fastening device having means for attaching said cap body to said resilient squeeze bottle;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said support base having a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle, or, said support base having a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across one side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said automatic dispensing cap having automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 49. The automatic dispensing cap of claim 48 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, the lip of said squeeze bottle has a lip inner diameter; and,said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 50. The automatic dispensing cap of claim 48 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said automatic dispensing cap has an integrally formed annular sealing element, and there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element when said squeeze bottle is securely fastened to said automatic dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and cap threads are integrally formed on the inner surface of said inner skirt. 51. The automatic dispensing cap of claim 48 including a resilient squeeze bottle; said resilient squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a liquid therein, or, a viscous fluid therein, or, a food product therein, or, a food liquid therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, shampoo therein, or, lotion therein, or, a gel therein, or, an oil therein, or, a cream therein, or, a hand care liquid product therein, or, a body care product therein, or, a sun screen product therein, or, a sun related product therein. 52. The automatic dispensing apparatus of claim 51 wherein said resilient squeeze bottle is made of a material that is translucent; or, said squeeze bottle is made of a material that is opaque;or, said squeeze bottle is made of a material that is colored;or, said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 53. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a liquid therein, or, a viscous fluid therein, or, a food product therein, or, a food liquid therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, shampoo therein, or, lotion therein, or, a gel therein, or, an oil therein, or, a cream therein, or, a hand care liquid product therein, or, a body care product therein, or, a sun screen product therein, or, a sun related product therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having a cap fastening device; said cap fastening device engages said squeeze bottle fastening device;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across one side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said automatic dispensing cap having automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface;said automatic dispensing cap having means for dispensing said fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface;whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 54. The automatic dispensing apparatus of claim 53 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said valve is located entirely outside of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, the lip of said squeeze bottle has a lip inner diameter; and,said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 55. The automatic dispensing cap of claim 53 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said automatic dispensing cap has an integrally formed annular sealing element, and there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element when said squeeze bottle is securely fastened to said automatic dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and cap threads are integrally formed on the inner surface of said inner skirt. 56. The automatic dispensing apparatus of claim 53 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored;or, said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 57. An automatic dispensing cap for use with a resilient squeeze bottle; said squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and a squeeze bottle lip; said automatic dispensing cap comprising: a cap body;said cap body having a cap fastening device; said cap fastening device having means for attaching said cap body to said resilient squeeze bottle;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across one side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said automatic dispensing cap having automatic bi-directional dispensing features; said automatic dispensing cap having an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface;said automatic dispensing cap having means for dispensing a fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface;whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 58. The automatic dispensing cap of claim 57 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said automatic valve is bonded to said cap body;or, said valve is located entirely outside of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, the lip of said squeeze bottle has a lip inner diameter; and,said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 59. The automatic dispensing cap of claim 57 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle, or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said automatic dispensing cap has an integrally formed annular sealing element, and there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element when said squeeze bottle is securely fastened to said automatic dispensing cap;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and cap threads are integrally formed on the inner surface of said inner skirt. 60. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having squeeze bottle threads, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a liquid therein, or, a viscous fluid therein, or, a food product therein, or, a food liquid therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, shampoo therein, or, lotion therein, or, a gel therein, or, an oil therein, or, a cream therein, or, a hand care liquid product therein, or, a body care product therein, or, a sun screen product therein, or, a sun related product therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having cap threads; said cap threads engage said squeeze bottle threads;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said support base having a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base having a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across one side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said automatic dispensing cap having automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 61. The automatic dispensing apparatus of claim 60 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve is bonded to said cap body;or, said valve is located entirely outside of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature. 62. The automatic dispensing apparatus of claim 60 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, there is a fluid tight seal between the neck of said squeeze bottle and said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and said cap threads are integrally formed on the inner surface of said inner skirt. 63. The automatic dispensing apparatus of claim 60 wherein said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 64. The automatic dispensing apparatus of claim 60 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 65. The automatic dispensing apparatus of claim 60 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored. 66. The automatic dispensing apparatus of claim 60 said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 67. An automatic dispensing cap for use with a resilient squeeze bottle; said squeeze bottle having squeeze bottle threads, a squeeze bottle neck, a squeeze bottle mouth, and a squeeze bottle lip; said automatic dispensing cap comprising: a cap body;said cap body having cap threads; said cap threads having means for attaching said cap body to said resilient squeeze bottle;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said support base having a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle;or, said support base having a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across one side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 68. The automatic dispensing cap of claim 57 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve is bonded to said cap body;or, said valve is located entirely outside of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature. 69. The automatic dispensing cap of claim 67 wherein said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 70. The automatic dispensing cap of claim 67 wherein said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches). 71. The automatic dispensing cap of claim 67 wherein said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 72. The automatic dispensing cap of claim 67 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, there is a fluid tight seal between the neck of said squeeze bottle and said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and said cap threads are integrally formed on the inner surface of said inner skirt. 73. The automatic dispensing cap of claim 67 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 74. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said squeeze bottle having squeeze bottle threads, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a liquid therein, or, a viscous fluid therein, or, a food product therein, or, a food liquid therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, shampoo therein, or, lotion therein, or, a gel therein, or, an oil therein, or, a cream therein, or, a hand care liquid product therein, or, a body care product therein, or, a sun screen product therein, or, a sun related product therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having cap threads; said cap threads engage said squeeze bottle threads;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across one side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface;said automatic dispensing cap having means for dispensing said fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface;whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 75. The automatic dispensing apparatus of claim 74 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve is bonded to said cap body;or, said valve is located entirely outside of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature. 76. The automatic dispensing apparatus of claim 74 wherein said cap threads have any diameter; or, said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches);or, said cap threads any diameter between 24 millimeters (substantially 0.937 inches) and 38 millimeters (substantially 1.43 inches). 77. The automatic dispensing apparatus of claim 74 wherein said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches). 78. The automatic dispensing apparatus of claim 74 wherein said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 79. The automatic dispensing apparatus of claim 74 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle, or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle, or, said support base has any cross sectional area therebetween;or, there is a fluid tight seal between the neck of said squeeze bottle and said dispensing cap;or, said automatic dispensing cap has an integrally formed annular sealing element, and there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and cap threads are integrally formed on the inner surface of said inner skirt. 80. The automatic dispensing apparatus of claim 74 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 81. The automatic dispensing apparatus of claim 74 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored. 82. The automatic dispensing apparatus of claim 74 wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 83. An automatic dispensing cap for use with a resilient squeeze bottle; said squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and a squeeze bottle lip; said automatic dispensing cap comprising: a cap body;said cap body having a cap fastening device; said cap fastening device having means for attaching said cap body to said resilient squeeze bottle;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across one side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface;said automatic dispensing cap having means for dispensing a fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface;whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 84. The automatic dispensing cap of claim 83 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve is bonded to said cap body;or, said valve is located entirely outside of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature. 85. The automatic dispensing cap of claim 83 wherein said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 86. The automatic dispensing cap apparatus of claim 83 wherein said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches). 87. The automatic dispensing cap of claim 83 wherein said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 88. The automatic dispensing cap of claim 83 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle, or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, there is a fluid tight seal between the neck of said squeeze bottle and said dispensing cap;or, said automatic dispensing cap has an integrally formed annular sealing element, and there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and cap threads are integrally formed on the inner surface of said inner skirt;or, there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap;or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 89. An automatic dispensing cap for use with a resilient squeeze bottle; said squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and a squeeze bottle lip; said automatic dispensing cap comprising: a cap body;said cap body having a cap fastening device; said cap fastening device having means for attaching said cap body to said resilient squeeze bottle;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said dispensing cap has a squeeze bottle end and a support base end; said support base end of said dispensing cap having a larger cross sectional area than said squeeze bottle end of said dispensing cap;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across one side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 90. The automatic dispensing cap of claim 89 wherein said automatic dispensing cap has means for dispensing a fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface; whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 91. The automatic dispensing cap of claim 89 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, the lip of said squeeze bottle has a lip inner diameter; and,said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 92. The automatic dispensing cap of claim 89 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and cap threads are integrally formed on the inner surface of said inner skirt. 93. The automatic dispensing cap of claim 89 wherein said cap fastening device is cap threads; said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 94. The automatic dispensing cap of claim 89 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 95. The automatic dispensing cap of claim 89 including a resilient squeeze bottle; said resilient squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a liquid therein, or, a viscous fluid therein, or, a food product therein, or, a food liquid therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, shampoo therein, or, lotion therein, or, a gel therein, or, an oil therein, or, a cream therein, or, a hand care liquid product therein, or, a body care product therein, or, a sun screen product therein, or, a sun related product therein. 96. The automatic dispensing apparatus of claim 95 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored. 97. The automatic dispensing apparatus of claim 95 wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 98. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a liquid therein, or, a viscous fluid therein, or, a food product therein, or, a food liquid therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, shampoo therein, or, lotion therein, or, a gel therein, or, an oil therein, or, a cream therein, or, a hand care liquid product therein, or, a body care product therein, or, a sun screen product therein, or, a sun related product therein;said automatic dispensing cap is securely fastened to said squeeze bottle;said automatic dispensing cap having a cap body;said cap body having a cap fastening device; said cap fastening device engages said squeeze bottle fastening device;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across said support base side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 99. The automatic dispensing apparatus of claim 98 wherein said automatic dispensing cap has means for dispensing said fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface; whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 100. The automatic dispensing apparatus of claim 98 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or,said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 101. The automatic dispensing apparatus cap of claim 98 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and cap threads are integrally formed on the inner surface of said inner skirt. 102. The automatic dispensing apparatus of claim 98 wherein said cap fastening device is cap threads; said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 103. The automatic dispensing apparatus of claim 98 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 104. The automatic dispensing apparatus of claim 98 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored;or, wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 105. An automatic dispensing cap for use with a resilient squeeze bottle; said squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and a squeeze bottle lip; said automatic dispensing cap comprising: a cap body;said cap body having a cap fastening device; said cap fastening device having means for attaching said cap body to said resilient squeeze bottle;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across said support base side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 106. The automatic dispensing cap of claim 105 wherein said automatic dispensing cap has means for dispensing a fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface; whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 107. The automatic dispensing cap of claim 105 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 108. The automatic dispensing cap of claim 105 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and cap threads are integrally formed on the inner surface of said inner skirt. 109. The automatic dispensing cap of claim 105 wherein said cap fastening device is cap threads; said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 110. The automatic dispensing cap of claim 105 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 111. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, and, a squeeze bottle lip;said resilient squeeze bottle having a viscous fluid therein, or, a food product therein, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, shampoo therein, or, lotion therein, or, a gel therein, or, an oil therein, or, a cream therein, or, a hand care liquid product therein, or, a body care product therein, or, a sun screen product therein, or, a sun related product therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having a cap fastening device; said cap fastening device engages said squeeze bottle fastening device;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 112. The automatic dispensing apparatus of claim 111 wherein said automatic dispensing cap has means for dispensing said fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface; whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 113. The automatic dispensing apparatus of claim 111 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said valve is coupled across one side only of said aperture in said cap wall;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or,said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 114. The automatic dispensing apparatus of claim 111 wherein said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle; or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and cap threads are integrally formed on the inner surface of said inner skirt. 115. The automatic dispensing apparatus of claim 111 wherein said cap fastening device is cap threads; said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 116. The automatic dispensing apparatus of claim 111 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 117. The automatic dispensing apparatus of claim 111 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored. 118. The automatic dispensing apparatus of claim 111 wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 119. An automatic dispensing cap for use with a resilient squeeze bottle; said squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and a squeeze bottle lip; said automatic dispensing cap comprising: a cap body;said cap body having a cap fastening device; said cap fastening device having means for attaching said cap body to said resilient squeeze bottle;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across one side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 120. The automatic dispensing cap of claim 119 wherein said automatic dispensing cap has means for dispensing a fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface; whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 121. The automatic dispensing cap of claim 119 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 122. The automatic dispensing cap of claim 119 said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle; or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and cap threads are integrally formed on the inner surface of said inner skirt. 123. The automatic dispensing cap of claim 119 wherein said cap fastening device is cap threads; said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 124. The automatic dispensing cap of claim 119 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 125. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, and, a squeeze bottle lip;said resilient squeeze bottle having a viscous fluid therein, or, a food product therein, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, shampoo therein, or, lotion therein, or, a gel therein, or, an oil therein, or, a cream therein, or, a hand care liquid product therein, or, a body care product therein, or, a sun screen product therein, or, a sun related product therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having a cap fastening device; said cap fastening device engages said squeeze bottle fastening device;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said dispensing cap has substantially a continuous seal with said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across one side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 126. The automatic dispensing apparatus of claim 125 wherein said automatic dispensing cap has means for dispensing said fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface; whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 127. The automatic dispensing apparatus of claim 125 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said valve is coupled across one side only of said aperture in said cap wall;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 128. The automatic dispensing apparatus of claim 125 wherein said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle; or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and cap threads are integrally formed on the inner surface of said inner skirt. 129. The automatic dispensing apparatus of claim 125 wherein said cap fastening device is cap threads; said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 130. The automatic dispensing apparatus of claim 125 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 131. The automatic dispensing apparatus of claim 125 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored;or, wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 132. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having squeeze bottle threads, a squeeze bottle neck, and, a squeeze bottle lip;said resilient squeeze bottle having a liquid therein, or, a viscous fluid therein, or, a food product therein, or, a food liquid therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, shampoo therein, or, lotion therein, or, a gel therein, or, an oil therein, or, a cream therein, or, a hand care liquid product therein, or, a body care product therein, or, a sun screen product therein, or, a sun related product therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having an inner skirt and an outer skirt; andcap threads are integrally formed on the inner surface of said inner skirt;said cap threads engage said squeeze bottle threads;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across one side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 133. The automatic dispensing apparatus of claim 132 wherein said automatic dispensing cap has means for dispensing said fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface; whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 134. The automatic dispensing apparatus of claim 132 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or,said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 135. The automatic dispensing apparatus of claim 132 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and cap threads are integrally formed on the inner surface of said inner skirt. 136. The automatic dispensing apparatus of claim 132 wherein said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 137. The automatic dispensing apparatus of claim 132 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 138. The automatic dispensing apparatus of claim 132 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored. 139. The automatic dispensing apparatus of claim 132 wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 140. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a food product therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having a cap fastening device; said cap fastening device engages said squeeze bottle fastening device;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 141. The automatic dispensing apparatus of claim 140 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said valve is coupled across one side only of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 142. The automatic dispensing apparatus of claim 140 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt, and cap fastening device is integrally formed on the inner surface of said inner skirt. 143. The automatic dispensing apparatus of claim 140 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 144. The automatic dispensing apparatus of claim 140 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored;or, wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 145. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque; or, said resilient squeeze bottle is made of a material that is colored;said resilient squeeze bottle having a food product therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having a cap fastening device; said cap fastening device engages said squeeze bottle fastening device;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 146. The automatic dispensing apparatus of claim 145 wherein said automatic dispensing cap has means for dispensing said food fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface; whereby said food fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 147. The automatic dispensing apparatus of claim 145 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said valve is coupled across one side only of said aperture in said cap wall;or, said valve is located entirely outside of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and,said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 148. The automatic dispensing apparatus of claim 145 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt; and cap fastening device is integrally formed on the inner surface of said inner skirt. 149. The automatic dispensing apparatus of claim 145 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 150. The automatic dispensing apparatus of claim 145 wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 151. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a food product therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having a cap fastening device; said cap fastening device engages said squeeze bottle fastening device;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body;said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface;said dispensing apparatus having a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 152. The automatic dispensing apparatus of claim 151 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said valve is coupled across one side only of said aperture in said cap wall;or, said valve is located entirely outside of said aperture in said cap wall;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 153. The automatic dispensing apparatus map of claim 151 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt, and cap fastening device is integrally formed on the inner surface of said inner skirt. 154. The automatic dispensing apparatus of claim 151 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 155. The automatic dispensing apparatus of claim 151 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored. 156. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a food product therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having a cap fastening device; said cap fastening device engages said squeeze bottle fastening device;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface;said automatic dispensing cap having means for dispensing said food fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface;whereby said food fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 157. The automatic dispensing apparatus of claim 156 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said valve is coupled across one side only of said aperture in said cap wall;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing'cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 158. The automatic dispensing apparatus of claim 156 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and cap fastening device is integrally formed on the inner surface of said inner skirt. 159. The automatic dispensing apparatus of claim 156 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 160. The automatic dispensing apparatus of claim 156 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored. 161. The automatic dispensing apparatus of claim 156 wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 162. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a food product therein, or, a food liquid therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein;said resilient squeeze bottle having a squeeze bottle top and a squeeze bottle bottom;said squeeze bottle top having means for preventing said squeeze bottle from being stored on said squeeze bottle top; andsaid automatic dispensing cap is securely attached to said resilient squeeze bottle bottom;said automatic dispensing cap having a cap body;said cap body having a cap fastening device; said cap fastening device engages said squeeze bottle fastening device;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across one side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 163. The automatic dispensing apparatus of claim 162 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 164. The automatic dispensing apparatus of claim 162 wherein said cap fastening device is cap threads; said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 165. The automatic dispensing apparatus of claim 162 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt, and cap fastening device is integrally formed on the inner surface of said inner skirt. 166. The automatic dispensing apparatus of claim 162 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 167. The automatic dispensing apparatus of claim 162 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored;or, wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 168. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a food product therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein,said resilient squeeze bottle having a squeeze bottle top and a squeeze bottle bottom;said squeeze bottle top having means for preventing said squeeze bottle from being stored on said squeeze bottle top; andsaid automatic dispensing cap is securely attached to said resilient squeeze bottle bottom;said automatic dispensing cap having a cap body;said cap body having a cap fastening device; said cap fastening device engages said squeeze bottle fastening device;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface;said automatic dispensing cap having means for dispensing said food fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface;whereby said food fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 169. The automatic dispensing apparatus of claim 168 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said valve is coupled across one side only of said aperture in said cap wall;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and,said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 170. The automatic dispensing apparatus of claim 168 wherein said cap fastening device is cap threads; said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 171. The automatic dispensing apparatus of claim 168 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt, and cap fastening device is integrally formed on the inner surface of said inner skirt. 172. The automatic dispensing apparatus of claim 168 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 173. The automatic dispensing apparatus of claim 168 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored;or, wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 174. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having squeeze bottle threads, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a food product therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having cap threads; said cap threads engage said squeeze bottle threads;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 175. The automatic dispensing apparatus of claim 174 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said valve is coupled across one side only of said aperture in said cap wall;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic, liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 176. The automatic dispensing apparatus of claim 174 wherein said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 177. The automatic dispensing apparatus of claim 174 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt, and cap fastening device is integrally formed on the inner surface of said inner skirt. 178. The automatic dispensing apparatus of claim 174 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 179. The automatic dispensing apparatus of claim 174 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored;or, wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 180. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having squeeze bottle threads, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque; or, said resilient squeeze bottle is made of a material that is colored;said resilient squeeze bottle having a food product therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having cap threads; said cap threads engage said squeeze bottle threads;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 181. The automatic dispensing apparatus of claim 180 wherein said automatic dispensing cap has means for dispensing said food fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface; whereby said food fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 182. The automatic dispensing apparatus of claim 180 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said valve is coupled across one side only of said aperture in said cap wall;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 183. The automatic dispensing apparatus of claim 180 wherein said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 184. The automatic dispensing apparatus of claim 180 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt, and cap fastening device is integrally formed on the inner surface of said inner skirt. 185. The automatic dispensing apparatus of claim 180 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 186. The automatic dispensing apparatus of claim 180 wherein said dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 187. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having squeeze bottle threads, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a food product therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having cap threads; said cap threads engage said squeeze bottle threads;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface;said automatic dispensing apparatus having a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 188. The automatic dispensing apparatus of claim 187 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said valve is coupled across one side only of said aperture in said cap wall;or, said valve is located entirely outside of said aperture in said cap wall;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 189. The automatic dispensing apparatus of claim 187 wherein said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 190. The automatic dispensing apparatus of claim 187 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt; and cap fastening device is integrally formed on the inner surface of said inner skirt. 191. The automatic dispensing apparatus of claim 187 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 192. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having squeeze bottle threads, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a food product therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having cap threads; said cap threads engage said squeeze bottle threads;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface;said automatic dispensing cap having means for dispensing said food fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface;whereby said food fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 193. The automatic dispensing apparatus of claim 192 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said valve is coupled across one side only of said aperture in said cap wall;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 194. The automatic dispensing apparatus of claim 192said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 195. The automatic dispensing apparatus of claim 192 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt; and cap fastening device is integrally formed on the inner surface of said inner skirt. 196. The automatic dispensing apparatus of claim 192 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 197. A dispensing apparatus comprising: a resilient squeeze bottle and a dispensing cap;said resilient squeeze bottle having squeeze bottle threads; said squeeze bottle threads have a diameter of substantially 33 millimeters (substantially 1.31 inches); a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a food product therein, or, a food liquid therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, a liquid therein;said dispensing cap is securely attached to said resilient squeeze bottle;said dispensing cap having a cap body;said cap body having cap threads; said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);said cap threads engage said squeeze bottle threads;said dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;said support base having a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base having a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle. 198. The dispensing apparatus of claim 197 wherein an automatic valve is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body; said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said automatic dispensing cap having automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 199. The dispensing apparatus of claim 198 wherein said dispensing cap has means for dispensing said fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface; whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 200. The dispensing apparatus of claim 197 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt; and cap threads are integrally formed on the inner surface of said inner skirt. 201. The dispensing apparatus of claim 197 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said dispensing cap has a lid that has an open position, and, a closed position;or, said dispensing cap has a lid that is attachable and detachable;or, said dispensing cap has a hinged lid;or, said dispensing cap has an integrally molded hinged lid;or, said dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said dispensing cap has a lid that rotates between a closed position and an open position. 202. The dispensing apparatus of claim 197 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored. 203. The dispensing apparatus of claim 197 wherein said dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 204. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having squeeze bottle threads; said squeeze bottle threads have a diameter of substantially 33 millimeters (substantially 1.31 inches); a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a food product therein, or, a food liquid therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, a liquid therein, or, a viscous fluid therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having cap threads; said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches); said cap threads engage said squeeze bottle threads;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said support base having a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base having a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across one side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 205. The automatic dispensing apparatus of claim 204 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 206. The automatic dispensing apparatus of claim 204 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt, and cap threads are is integrally formed on the inner surface of said inner skirt. 207. The automatic dispensing apparatus of claim 204 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 208. The automatic dispensing apparatus of claim 204 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored;or, wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 209. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having squeeze bottle threads; said squeeze bottle threads have a diameter of substantially 33 millimeters (substantially 1.31 inches); a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a food product therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, shampoo therein, or, lotion therein, or, a gel therein, or, an oil therein, or, a cream therein, or, a hair care product therein, a hand care product therein, or, a body care product therein, or, a sun screen product therein, or, a sun related product therein; or, a viscous fluid therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having cap threads; said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches); said cap threads engage said squeeze bottle threads;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body;said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface;said automatic dispensing cap having means for dispensing said fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface;whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 210. The automatic dispensing apparatus of claim 209 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said valve is coupled across one side only of said aperture in said cap wall;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and,said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 211. The automatic dispensing apparatus of claim 209 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt;and cap threads are integrally formed on the inner surface of said inner skirt. 212. The automatic dispensing apparatus of claim 209 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 213. The automatic dispensing apparatus of claim 209 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored;or, wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 214. A dispensing apparatus comprising: a resilient squeeze bottle and a dispensing cap;said resilient squeeze bottle having squeeze bottle threads; said squeeze bottle threads having a diameter of substantially 38 millimeters (substantially 1.43 inches); a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a food product therein, or, a food liquid therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, a liquid therein, or, a viscous fluid therein;said dispensing cap is securely attached to said resilient squeeze bottle;said dispensing cap having a cap body;said cap body having cap threads; said cap threads having a diameter of substantially 38 millimeters (substantially 1.43 inches); said cap threads engage said squeeze bottle threads;said dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;said support base having a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base having a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle. 215. The dispensing apparatus of claim 214 wherein an automatic valve is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body; said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said automatic dispensing cap having automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 216. The dispensing apparatus of claim 215 wherein said dispensing cap has means for dispensing said fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface; whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 217. The dispensing cap of claim 214 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt, and cap threads are integrally formed on the inner surface of said inner skirt. 218. The dispensing apparatus of claim 214 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said dispensing cap has a lid that has an open position, and, a closed position;or, said dispensing cap has a lid that is attachable and detachable;or, said dispensing cap has a hinged lid;or, said dispensing cap has an integrally molded hinged lid;or, said dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said dispensing cap has a lid that rotates between a closed position and an open position. 219. The dispensing apparatus of claim 214 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored. 220. The dispensing apparatus of claim 214 wherein said dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 221. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having squeeze bottle threads; said squeeze bottle threads having a diameter of substantially 38 millimeters (substantially 1.43 inches); a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a food product therein, or, a food liquid therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, a liquid therein, or, a viscous fluid therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having cap threads; said cap threads having a diameter of substantially 38 millimeters (substantially 1.43 inches); said cap threads engage said squeeze bottle threads;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said support base having a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base having a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said valve is coupled across one side only of said aperture in said cap wall;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 222. The automatic dispensing apparatus of claim 221 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 223. The automatic dispensing apparatus of claim 221 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt, and cap threads are integrally formed on the inner surface of said inner skirt. 224. The automatic dispensing apparatus of claim 221 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 225. The automatic dispensing apparatus of claim 221 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is coloredor, wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 226. An automatic dispensing apparatus comprising: a resilient squeeze bottle and an automatic dispensing cap;said resilient squeeze bottle having squeeze bottle threads; said squeeze bottle threads having a diameter of substantially 38 millimeters (substantially 1.43 inches); a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a food product therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, or, shampoo therein, or, lotion therein, or, a gel therein, or, an oil therein, or, a cream therein, or, a hair care product therein, a hand care product therein, or, a body care product therein, or, a sun screen product therein, or, a sun related product therein; or, a viscous fluid therein;said automatic dispensing cap is securely attached to said resilient squeeze bottle;said automatic dispensing cap having a cap body;said cap body having cap threads; said cap threads having a diameter of substantially 38 millimeters (substantially 1.43 inches); said cap threads engage said squeeze bottle threads;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;an automatic valve that is securely coupled to said cap body; said automatic valve is securely coupled across said aperture in said cap wall of said cap body;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface;said automatic dispensing cap having means for dispensing said fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface;whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 227. The automatic dispensing apparatus of claim 226 including means for coupling said automatic valve to said cap body; or, aid automatic valve is integrally formed with said cap body;or, said automatic valve is integrally molded with said cap body;or, said automatic valve is bonded to said cap body;or, said valve is coupled across one side only of said aperture in said cap wall;or, said automatic valve is located entirely outside of said aperture in said cap wall;or, a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent;or, said automatic valve coupled across said support base side of said aperture in said cap wall;or, said automatic valve integrally formed across said support base side of said aperture in said cap wall;or, said automatic valve integrally bonded across said support base side of said aperture in said cap wall;or, said automatic valve integrally molded across said support base side of said aperture in said cap wall;or, said automatic dispensing cap has automatic bi-directional dispensing features; said automatic dispensing cap has an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;or, the lip of said squeeze bottle has a lip inner diameter; and, said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle;or, said dispensing cap has a spout; and said automatic valve is coupled to said spout;or, said automatic valve is integrally formed to said spout;or, said automatic valve is integrally molded to said spout;or, said automatic valve is to bonded to said spout. 228. The automatic dispensing apparatus of claim 226 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle;or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface;or, said dispensing cap has a squeeze bottle end and a support base end; and said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap;or, said dispensing cap has substantially a frusto conical shape;or, said support base has substantially a round shape;or; said dispensing cap has an inner skirt and an outer skirt, and cap threads are integrally formed on the inner surface of said inner skirt. 229. The automatic dispensing apparatus of claim 226 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 230. The automatic dispensing apparatus of claim 226 wherein said squeeze bottle is made of a material that is translucent; or, said squeeze bottle is made of a material that is opaque;or, said squeeze bottle is made of a material that is colored;or, wherein said automatic dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 231. A one piece automatic dispensing cap for use with a resilient squeeze bottle; said squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and a squeeze bottle lip; said squeeze bottle lip having a squeeze bottle lip inner diameter; said one piece automatic dispensing cap comprising: a cap body;said cap body is made of a material that has substantially rigid properties;said cap body having a cap fastening device; said cap fastening device having means for attaching said cap body to said resilient squeeze bottle;said one piece automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;said one piece automatic dispensing cap having an automatic valve;said automatic valve is integrally formed with said cap body;said automatic valve covers across said aperture in said cap wall of said cap body;said cap body and said automatic valve are made of two different materials;said automatic valve is substantially a flexible, elastic, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;said automatic dispensing cap having automatic bi-directional dispensing features; said automatic dispensing cap having an automatic liquid, or, viscous fluid dispensing feature; and, an automatic air venting feature;said one piece dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface. 232. The one piece automatic dispensing cap of claim 231 wherein said automatic dispensing cap has means for dispensing a fluid with one hand when said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface; whereby said fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 233. The one piece automatic dispensing cap of claim 231 wherein a portion of said automatic valve has a contour inward toward said squeeze bottle; or, said automatic valve has an end wall that has a concave shape; or, said automatic valve has an end wall that has a convex shape; or, said automatic valve has an end wall that has a domed shape; or, said automatic valve has an end wall that has a horizontal shape; or, said automatic valve has a valve diameter; and said valve diameter is smaller than said squeeze bottle lip inner diameter;or, said squeeze bottle is located away from said automatic valve when said squeeze bottle is attached to said one piece automatic dispensing cap;or, said dispensing orifice has a dispensing slit; or, said dispensing orifice has the shape of straight incision bounded by transverse incisions; or, said orifice is in the form of a cross; or, said orifice is in the form of a crescent. 234. The one piece automatic dispensing cap of claim 231 wherein said automatic valve is integrally molded with said cap body. 235. The one piece automatic dispensing cap of claim 231 wherein said automatic valve covers across one side only of said aperture in said cap wall. 236. The one piece automatic dispensing cap of claim 231 wherein said automatic valve covers across said support base side only of said aperture in said cap wall. 237. The one piece automatic dispensing cap of claim 231 wherein said automatic valve is located entirely outside of said aperture in said cap wall. 238. The one piece automatic dispensing cap of claim 231 wherein said dispensing cap has a spout, and said automatic valve is integrally formed to said spout. 239. The one piece automatic dispensing cap of claim 231 wherein said cap fastening device is cap threads; or, said cap fastening device is a cap snap fitting. 240. The one piece automatic dispensing cap of claim 231 wherein said dispensing cap has an inner skirt and an outer skirt; and, said cap fastening device is integrally formed on the inner surface of said inner skirt. 241. The one piece automatic dispensing cap of claim 231 wherein said dispensing cap has an inner skirt and an outer skirt; and, cap threads are integrally formed on the inner surface of said inner skirt. 242. The one piece automatic dispensing cap of claim 231 wherein said cap fastening device is cap threads; said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 243. The one piece automatic dispensing cap of claim 231 wherein said support base has substantially a round shape; or, or said support base has a long axis and a short axis. 244. The one piece automatic dispensing cap of claim 231 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and, said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface; or, said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface. 245. The one piece automatic dispensing cap of claim 231 wherein said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle. 246. The one piece automatic dispensing cap of claim 231 wherein said dispensing cap has a squeeze bottle end and a support base end; and, said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap. 247. The one piece automatic dispensing cap of claim 231 wherein there is a fluid tight seal between the lip of said squeeze bottle, and, said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and, there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element;or, said automatic dispensing cap has a lid that has an open position, and, a closed position;or, said automatic dispensing cap has a lid that is attachable and detachable;or, said automatic dispensing cap has a hinged lid;or, said automatic dispensing cap has an integrally molded hinged lid;or, said automatic dispensing cap has a lid that has an open position, and, a closed position; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said lid is in said closed position; and, when said lid is in said open position;or, said automatic dispensing cap has a hinged lid that has an open position and a closed position; and said dispensing cap supports said squeeze bottle in said dispensing cap down position when said hinged lid is in said closed position; and, when said hinged lid is in said open position;or, said automatic dispensing cap has an integrally molded hinged lid; and, said dispensing cap supports said squeeze bottle in said dispensing cap down position when said integrally molded hinged lid is in said closed position; and, when said integrally molded hinged lid is in said open position;or, said automatic dispensing cap has a lid that rotates between a closed position and an open position. 248. The one piece automatic dispensing cap of claim 231 including a resilient squeeze bottle; said resilient squeeze bottle having a squeeze bottle fastening device, a squeeze bottle neck, a squeeze bottle mouth, and, a squeeze bottle lip;said resilient squeeze bottle having a liquid therein, or, a viscous fluid therein, or, a food product therein, or, a food liquid therein, or, a viscous food fluid therein, or mustard therein, or, catsup therein, or, honey therein, or, mayonnaise therein, or, an edible gel therein, or, an edible oil therein, or, an edible cream therein, or, shampoo therein, or, lotion therein, or, a gel therein, or, an oil therein, or, a cream therein, or, a hand care liquid product therein, or, a body care product therein, or, a sun screen product therein, or, a sun related product therein. 249. The automatic dispensing apparatus of claim 248 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored. 250. The automatic dispensing apparatus of claim 249 wherein said dispensing apparatus has a safety seal that provides evidence that a fluid has not been dispensed from said resilient squeeze bottle prior to a first use. 251. A method of storing and dispensing a liquid or a viscous fluid utilizing an automatic dispensing apparatus comprising the steps of: providing a resilient squeeze bottle; said resilient squeeze bottle having a squeeze bottle neck, a squeeze bottle mouth, a squeeze bottle lip, and, a squeeze bottle fastening device;providing a liquid, or, a viscous fluid;said liquid, or, said viscous fluid is a food product, or, a liquid food product, or, a viscous food fluid, or, mustard, or, catsup, or, honey, or, mayonnaise, or, an edible gel, or, an edible oil, or, an edible cream;placing said liquid, or, said viscous fluid into said resilient squeeze bottle;conceiving of a design for an automatic dispensing cap;designing said automatic dispensing cap;said automatic dispensing cap having a cap body;said cap body having a cap fastening device; said cap fastening device having means for attaching said cap body to said resilient squeeze bottle;said automatic dispensing cap having a portion that is utilized as a support base when said resilient squeeze bottle is stored in a dispensing cap down position on a horizontal surface;said cap body having a cap wall; said cap wall having a squeeze bottle side and a support base side;said cap wall having an aperture therethrough; said aperture having a squeeze bottle side and a support base side;providing an automatic valve;said cap body and said automatic valve are made of two distinct, different materials;said automatic valve being substantially an elastic, flexible, single layer membrane that has a normally closed dispensing orifice therethrough;said dispensing orifice automatically opens to permit fluid flow through said dispensing orifice in response to increased pressure on one side of said dispensing orifice;said dispensing orifice automatically closes, cutting off fluid flow through said dispensing orifice when the increased pressure ends;securely coupling said automatic valve to said cap body; said automatic valve is securely coupling across one side only of said aperture in said cap wall;said cap body and said automatic valve are coupled together; said cap body and said valve are a self-contained dispensing cap; said self-contained dispensing cap having a stand alone, unitary structure;said automatic dispensing cap having automatic bi-directional dispensing features; said automatic dispensing cap having an automatic liquid or viscous fluid dispensing feature; and, an automatic air venting feature;said dispensing cap having means for preventing said automatic valve from contacting said horizontal surface when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface;said automatic dispensing cap having means for dispensing said fluid with one hand when said squeeze bottle is stored in said dispensing cap down position on said horizontal surface;making said automatic dispensing cap;providing said automatic dispensing cap;attaching said automatic dispensing cap to said resilient squeeze bottle; said cap fastening device engages said squeeze bottle fastening device;positioning said resilient squeeze bottle in said dispensing cap down position on a horizontal surface;storing said resilient squeeze bottle in said dispensing cap down position on said horizontal surface until said liquid or said viscous fluid is positioned adjacent said automatic valve;picking up said resilient squeeze bottle with one hand while said resilient squeeze bottle is stored in said dispensing cap down position on said horizontal surface;and, squeezing said resilient squeeze bottle with one hand to dispense said liquid or said viscous fluid;whereby said liquid or said viscous fluid is dispensed with one hand by lifting and squeezing said resilient squeeze bottle with one hand. 252. The method of claim 251 including means for coupling said automatic valve to said cap body; or said automatic valve is integrally formed with said cap body; or said automatic valve is integrally molded to said cap body; or said automatic valve is bonded to said cap body. 253. The method of claim 251 wherein said automatic valve covers across said support base side only of said aperture in said cap wall. 254. The method of claim 251 wherein said automatic valve is located entirely outside of said aperture in said cap wall. 255. The method of claim 251 wherein the lip of said squeeze bottle has a lip inner diameter and said automatic valve has a valve diameter; and said valve diameter is smaller than said lip inner diameter of said squeeze bottle. 256. The method of claim 251 wherein there is a fluid tight seal between the lip of said squeeze bottle and said automatic dispensing cap; or, said automatic dispensing cap has an integrally formed annular sealing element; and there is a fluid tight seal between said squeeze bottle and said integrally formed annular sealing element. 257. The method of claim 251 wherein said dispensing cap has a spout, and said automatic valve is coupled to said spout; or said automatic valve is integrally formed to said spout; or said automatic valve is integrally molded to said spout; or and said automatic valve is bonded to said spout. 258. The method of claim 251 wherein an annular rim is integrally formed around a perimeter of said dispensing cap; and, said rim contacts said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface. 259. The method of claim 251 wherein said support base has a cross sectional area that is larger than the cross sectional area of the neck of said squeeze bottle; or, said support base has a cross sectional area that is larger than the largest cross sectional area of said squeeze bottle. 260. The method of claim 251 wherein said dispensing cap has substantially a continuous seal between said dispensing cap and said horizontal surface when said squeeze bottle is being stored in said dispensing cap down position on said horizontal surface. 261. The method of claim 251 wherein said dispensing cap has a squeeze bottle end and a support base end; and, said support base end of said dispensing cap has a larger cross sectional area than said squeeze bottle end of said dispensing cap. 262. The method of claim 251 wherein said support base has substantially a round shape; or, said squeeze bottle has a cross sectional shape that is substantially round. 263. The method of claim 251 wherein said dispensing cap has an inner skirt and an outer skirt; and, cap threads are integrally formed on the inner surface of said inner skirt. 264. The method of claim 251 wherein said cap fastening device is cap threads; said cap threads have a diameter of substantially 24 millimeters (substantially 0.937 inches);or, said cap threads have a diameter of substantially 28 millimeters (substantially 1.06 inches);or, said cap threads have a diameter of substantially 33 millimeters (substantially 1.31 inches);or, said cap threads have a diameter of substantially 38 millimeters (substantially 1.43 inches). 265. The method of claim 264 wherein said resilient squeeze bottle has a squeeze bottle top and a squeeze bottle bottom; and, said squeeze bottle top has means for preventing said resilient squeeze bottle from being stored on said squeeze bottle top;and, said automatic dispensing cap is securely fastened to said squeeze bottle bottom. 266. The method of claim 251 wherein said resilient squeeze bottle is made of a material that is translucent; or, said resilient squeeze bottle is made of a material that is opaque;or, said resilient squeeze bottle is made of a material that is colored.
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