IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0465403
(2003-06-18)
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발명자
/ 주소 |
- Anderson, Jr., James D.
- Davis, Gerald F.
- Fowler, John R.
- Greer, David E.
- Gray, Trevor D.
- Howard, Timothy L.
- Komplin, Steven R.
- Russell, Matthew J.
- Shadwick, David T.
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출원인 / 주소 |
- Lexmark International, Inc.
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대리인 / 주소 |
Taft, Stettinius & Hollister, LL
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인용정보 |
피인용 횟수 :
6 인용 특허 :
104 |
초록
▼
A regulator adapted to regulate the throughput of an ink between an ink source and a print head includes: (a) a pressurized chamber including an ink inlet in fluid communication with and ink source, an ink outlet in fluid communication with a print head, and at least one flexible wall; and (b) a lev
A regulator adapted to regulate the throughput of an ink between an ink source and a print head includes: (a) a pressurized chamber including an ink inlet in fluid communication with and ink source, an ink outlet in fluid communication with a print head, and at least one flexible wall; and (b) a lever including a flexible arm extending along a portion of the flexible wall and an opposing arm operatively coupled to a seal biased to close the ink inlet when the lever is in a first position and to open the ink inlet to allow fluid communication between the ink inlet and the pressurized chamber when the lever is pivoted to a second position; where a lower pressure differential across the flexible wall causes the flexible wall to actuate the flexible arm, pivoting the lever to the first position (inlet closed), where a higher pressure differential across the flexible wall causes the flexible wall to actuate the flexible arm to pivot the lever to the second position (inlet open), and where a pressure change from the lower pressure differential to the higher pressure differential across the flexible wall causes the flexible wall to actuate and flex the flexible arm without causing the lever to pivot.
대표청구항
▼
1. A regulator adapted to regulate the throughput of an ink between an ink source and a print head, the regulator comprising:a pressurized chamber including an ink inlet adapted to provide fluid communication with an ink source, an ink outlet adapted to provide fluid communication with a print head,
1. A regulator adapted to regulate the throughput of an ink between an ink source and a print head, the regulator comprising:a pressurized chamber including an ink inlet adapted to provide fluid communication with an ink source, an ink outlet adapted to provide fluid communication with a print head, and at least one exterior flexible wall having an inner surface facing an interior of the pressurized chamber; anda lever including a flexible arm extending along a portion of the exterior flexible wall and an opposing arm operatively coupled to a seal, the seal closing the ink inlet when the lever is in a first position and opening the ink inlet to allow fluid communication between the ink inlet and the pressurized chamber when the lever is pivoted to a second position, the lever being biased to the first position;wherein a higher pressure differential across the exterior flexible wall causes the exterior flexible wall to apply a force against the flexible arm contacting the exterior flexible wall, overcoming the bias, to thereby pivot the lever to the second position, opening the ink inlet;wherein a lower pressure differential across the exterior flexible wall causes the force applied by the exterior flexible wall against the flexible arm contacting the exterior flexible wall to weaken, succumbing to the bias, which pivots the lever back to the first position, closing the ink inlet; andwherein a pressure change from the lower pressure differential to the higher pressure differential across the exterior flexible wall causes the force applied by the exterior flexible wall to increase and flex the flexible arm without overcoming the bias. 2. The regulator of claim 1, wherein a fulcrum of the lever is positioned in-between the seal and the flexible arm. 3. The regulator of claim 1, wherein the lever is located at last partly within the pressurized chamber. 4. The regulator of claim 1, wherein the exterior flexible wall directly contacts the flexible arm. 5. The regulator of claim 1, wherein the exterior flexible wall comprises a polymer film. 6. The regulator of claim 1, wherein the exterior flexible wall is operatively mounted to the exterior of the pressurized chamber over a hole extending through a wall of the pressurized chamber. 7. The regulator of claim 1, wherein the pressurized chamber comprises a cap and a body. 8. The regulator of claim 7, wherein the cap includes the ink inlet. 9. The regulator of claim 7, wherein the body includes the ink outlet. 10. The regulator of claim 7, wherein the cap and body are mounted together by welding. 11. The regulator of claim 1, wherein the ink inlet and the ink outlet spatially oppose one another. 12. The regulator of claim 1, wherein an exterior surface of the exterior flexible wall is exposed to a fluid having a substantially constant pressure. 13. The regulator of claim 12, wherein the fluid is the atmosphere. 14. The regulator of claim 12, wherein the fluid is ink within an ink reservoir. 15. The regulator of claim 1, wherein:the lever includes a bearing pin; andthe pressurized chamber includes a seat adapted to receive the bearing pin of the lever. 16. The regulator of claim 1, wherein the lever includes a strip of spring metal. 17. The regulator of claim 16, wherein the strip of spring metal includes a first encapsulated end and an opposing second spoon-shaped end. 18. The regulator of claim 17 wherein:the encapsulated end is encapsulated with a body of plastic material; andthe body of plastic encapsulating me includes a pair of bearings forming a fulcrum of the lever and includes a cavity securing a sealing plug therein that contacts and seals against the ink inlet when the lever is in the first position. 19. A fluid regulator adapted to regulate the throughput of an ink between an ink source and a print head, the regulator comprising:a pressurize chamber including a substantially rigid chamber housing, an ink inlet in fluid communication with an ink source, an ink outlet in flui d communication with a print head, and at least one exterior flexible wall having an inner surface facing an interior of the pressurized chamber, where the exterior flexible wall is generally taut with respect to the chamber housing; anda valve biased to restrict fluid communication between the ink source and the pressurized chamber;wherein the exterior flexible wall actuates the valve to overcome the bias in response to a predetermined pressure differential across the exterior flexible wall to provide fluid communication between the ink source and the pressurized chamber;wherein the fluid communication between the pressurized chamber and the ink source decreases the pressure differential across the exterior flexible wall; andwherein the valve restricts fluid communication between the ink source and the pressurized chamber when the pressure differential across the exterior flexible wall is less than the predetermined pressure differential. 20. The regulator of claim 19, wherein the valve includes a pivotable lever having an ink inlet seal operatively coupled to a first arm of the lever. 21. The regulator of claim 20, wherein:the pivotable lever is biased in a first direction, positioning the seal to resect fluid communication between the ink source and the pressurized chamber; andthe exterior flexible wall actuates the pivotable lever to a second direction to overcome the bias in response to a predetermined pressure differential across the exterior flexible wall, repositioning the seal to provide fluid communication between the ink source and the pressurized chamber. 22. The regulator of claim 20, wherein a fulcrum of the pivotable lever is positioned in-between the seal and the flexible arm. 23. The regulator of claim 20, wherein the exterior flexible wall directly actuates the pivotable lever. 24. The regulator of claim 19, wherein the exterior flexible wall comprises a polymer film. 25. The regulator of claim 19, wherein the exterior flexible wall is operatively mounted to the exterior of the pressurized chamber over a hole extending through a wall of the pressurized chamber. 26. The regulator of claim 19, wherein the pressurized chamber comprises at least two components. 27. The regulator of claim 26, wherein the at least two components are welded together. 28. The regulator of claim 26, wherein one of the at least two components includes both the ink inlet and the ink outlet. 29. The regulator of claim 26, wherein a first component includes the ink inlet and a second component includes the ink outlet. 30. The regulator of claim 20, wherein:the pivotable lever includes a bearing pin; andthe pressurized chamber includes a seat adapted to receive the bearing pin of the pivotable lever. 31. The regulator of claim 30, wherein the bearing pin is positioned in-between the seal and the flexible arm. 32. The regulator of claim 20, wherein at least a second arm opposing the first arm of the pivotable lever is flexible, thereby enabling flexation before actuation. 33. The regulator of claim 32, wherein the second arm contacts and is activated upon by the flexible wall. 34. The regulator of claim 20, wherein:the pivotable lever includes a first encapsulated end and a second spoon-shaped end, the first encapsulated end including:a seat securing the seal therein, at least in part, by a friction fit, anda bearing pin adapted to be received within a seat of the pressurized chamber. 35. A print cartridge comprising:an ink reservoir containing an ink supply;a print head; anda regulator for regulating the flow of ink between the ink supply and the print head, the regulator including:a pressurized chamber including an ink inlet in fluid communication with the ink supply and an ink outlet in fluid communication with the print head,an inlet seal positionable between a closed position closing the ink inlet and an open position opening the ink inlet,a bias biasing the inlet seal to the closed position, anda pressure actuator adapted to overcome the bias and position the inlet seal to the open position when a pressure differential between the inside of the pressurized chamber versus the outside of the pressurized chamber increases to a predetermined level;wherein the pressure actuator includes a floating diaphragm having an inner surface facing the inside of the pressurized chamber and an outer surface facing the outside of the pressurized chamber. 36. The print cartridge of claim 35, wherein the pressure actuator includes a lever having a first arm and an opposing second arm, the first arm being operatively coupled to the inlet seal and the second arm being operatively coupled to the diaphragm, the lever being pivotable between a first position in which the inlet seal is in the closed position and a second position in which the inlet seal is in the open position. 37. The print cartridge of claim 36, wherein the diaphragm contracts inwardly with respect to the pressurized chamber as the pressure differential increases. 38. The print cadge of claim 37, wherein the second arm of the lever is a flexible arm. 39. The print cartridge of claim 35, wherein the regulator is positioned within the ink reservoir such that the outer surface of the diaphragm is exposed to the interior of the ink reservoir. 40. The print cartridge of claim 35, further comprising a plurality of ink reservoirs and a respective plurality of regulators positioned therein. 41. A method of regulating the throughput of ink from an ink source to an inkjet print head, the method comprising the step of;automatically actuating a valve in response to a higher pressure differential across an exterior wall of a pressurized ink chamber where such actuation is operative at the higher pressure differential to open the valve allowing fluid communication between an ink source and the pressurized ink chamber and decreasing the higher pressure differential across the exterior wall, and operative at a resulting lower pressure differential to close the valve so as to inhibit fluid communication between the ink source and the pressurized ink chamber, where a substantial portion of an exterior surface of the exterior wall is capable of being positioned in a convex orientation. 42. The method of claim 41, wherein the valve comprises a lever operatively coupled to a seal that selectively restricts fluid communication between the pressurized ink chamber and the ink source. 43. The method of claim 41, wherein an area surrounding the pressurized chamber includes an ink reservoir, which is the ink source. 44. A method of regulating the throughput of ink from an ink source to an inkjet print head, the method comprising the steps of:separating a first body of ink from a second body of ink utilizing at least in part a flexible barrier;deforming the flexible barrier in response to a pressure differential between the first body of ink and second body of ink; andopening a valve in response to the deformation of the barrier, wherein opening of the valve facilitates fluid communication between the first body of ink and the second body of ink and decreases the deformation of the barrier, thereafter closing the valve. 45. The method of claim 44, wherein the step of open a valve includes the step of actuating a lever operatively coupled between the valve and the flexible barrier. 46. The method of claim 45, wherein the lever is biased to close the valve. 47. An ink cartridge comprising:a plurality of individual ink reservoirs maintained to inhibit commingling of the respective inks within the plurality of individual reservoirs, while at least two of the plurality of individual ink reservoirs share a common wall; anda plurality of ink regulators adapted to regulate the throughput of an ink within each of the plurality of individual reservoirs between the plurality of individual ink reservoirs and a print head outlet, each ink regulator comprising:a pressurized chamber including an ink inlet adapted to provide fluid communication with an ink source, an ink outlet adapted to provide fluid communication with a print head, and at least one exterior flexible wall having an inner surface facing an interior of the pressurized chamber; anda lever including a flexible arm extending along a portion of the exterior flexible wall and an opposing arm operatively coupled to a seal, the seal closing the ink inlet when the lever is in a first position and opening the ink inlet to allow fluid communication between the ink inlet and the pressurized chamber when the lever is pivoted to a second position, the lever being biased to the first position;wherein a higher pressure differential across the exterior flexible wall causes the exterior flexible wall to apply a force against the flexible arm contacting the exterior flexible wall, overcoming the bias, to thereby pivot the lever to the second position, opening the ink inlet;wherein a lower pressure differential across the exterior flexible wall causes the force applied by the exterior flexible wall against the flexible arm contacting the exterior flexible wall to weaken, succumbing to the bias, which pivots the lever back to the first position, closing the ink inlet; andwherein a pressure change from the lower pressure differential to the higher pressure differential across the exterior flexible wall causes the force applied by the exterior flexible wall to increase and flex the flexible arm without overcoming the bias. 48. The ink cartridge of claim 47, wherein the common wall is non linear. 49. The ink cartridge of claim 47, wherein at least two of the plurality of individual reservoirs arc separated by at least one common interior wall that is staggered. 50. The ink cartridge of claim 47, wherein the ink cartridge is operatively coupled to a print head. 51. The ink cartridge of claim 47, wherein at least one ink reservoir of the plurality of individual ink reservoirs of the ink cartridge is in fluid communication with a print head nozzle outlet. 52. An ink regulation system comprising:a plurality of ink regulators adapted to regulate the throughput of an ink between a plurality of individual ink reservoirs and a print head outlet, each ink regulator comprising;a pressurized chamber including an ink inlet adapted to provide fluid communication with at least one of the plurality of ink reservoirs, an ink outlet adapted to provide fluid communication with the print head outlet, and at least one exterior flexible wall having an inner surfacing an interior of the pressurized chamber; anda lever including a flexible arm extending along a portion of the exterior flexible wall and an opposing arm operatively coupled to a seal, the seal closing the ink inlet when the lever is in a first position and to opening the ink inlet to allow fluid communication between the ink inlet and the pressurized chamber when the lever is pivoted to a second position, the lever being biased to the first position;wherein a higher pressure differential across the exterior flexible wall causes the exterior flexible wall to apply a force against the flexible arm contacting the exterior flexible wall, overcoming the bias, to thereby pivot the lever to the second position, opening the ink inlet;wherein a lower pressure differential across the exterior flexible wall causes the force applied by the exterior flexible wall against the flexible arm contacting the exterior flexible wall to weaken, succumbing to the bias, which pivots the lever back to the first position, closing the ink inlet; andwherein a pressure change from the lower pressure differential to the higher pressure differential across the exterior flexible wall causes the force applied by the exterior flexible wall to increase and flex the flexible arm without overcoming the bias. 53. The ink regulation system of claim 52, wherein at least two of the plurality of ink regulators include a common wall. 54. The ink regulation system of claim 52, wherein at least two of the plurality of ink regulators inc lude at least two common walls. 55. The ink regulation system of claim 54, wherein:a first common wall of the at least two common walls includes at least two ink inlets; anda second common wall of the at least two common walls inhibits fluid communication between the at least two ink inlets. 56. The ink regulation system of claim 52, wherein the exterior flexible wall for each of the plurality of ink regulators includes a polymer film. 57. The ink regulation system of claim 56, wherein the plurality of ink regulators include a plurality of openings adapted to have the polymer film mounted thereto, the polymer film spanning and being operatively coupled to the plurality of openings to provide each exterior flexible film for the plurality of ink regulators. 58. The ink regulation system of claim 52, wherein at least two of the plurality of ink regulators are operatively connected to at least two individual ink sources. 59. The ink regulation system of claim 58, wherein the at least two individual ink sources may be replaced by replacement ink sources. 60. The ink regulation system of claim 58, wherein the at least two individual ink sources may be refilled from replacement ink sources. 61. The ink regulation system of claim 52, wherein the plurality of ink regulators are operatively coupled to an on-carrier print head assembly. 62. The ink regulation system of claim 52, wherein:the plurality of ink regulators are operatively coupled to an off-carrier station; andthe plurality of ink regulators are in fluid communication with an on-carrier print head assembly. 63. The ink regulation system of claim 52, wherein at least two of the plurality of individual ink reservoirs are configured to be inseparable from one another. 64. The ink regulation system of claim 52, wherein at least two of the plurality of regulators are configured to be inseparable from one another.
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