IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0100774
(2002-03-18)
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발명자
/ 주소 |
- Carter, Randall E.
- Kohli, Leslie F.
- Schumacher, Brian D.
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출원인 / 주소 |
- Precision Thermoplastic Components, Inc.
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대리인 / 주소 |
Robert R. Hussey Co., LPA
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인용정보 |
피인용 횟수 :
16 인용 특허 :
11 |
초록
▼
An actuator and tube overcap assembly has an actuator having an inlet and an outlet. A tube has a fluid passageway therethrough and an inlet end connected to the outlet of the actuator and an extension portion extending therefrom. An overcap is removably affixed to the actuator and has a top and a s
An actuator and tube overcap assembly has an actuator having an inlet and an outlet. A tube has a fluid passageway therethrough and an inlet end connected to the outlet of the actuator and an extension portion extending therefrom. An overcap is removably affixed to the actuator and has a top and a side extending therefrom. The top and side of the overcap have an inner surface. The overcap has internal tube retaining portions having a tube retaining surface. The tube retaining surface extends away from the inner surface of the top and is spaced from the inner surface of the side with the tube extension positioned therebetween. A valve is provided by substantially closing the fluid passageway of the tube. A method for making the assembly is also provided.
대표청구항
▼
An actuator and tube overcap assembly has an actuator having an inlet and an outlet. A tube has a fluid passageway therethrough and an inlet end connected to the outlet of the actuator and an extension portion extending therefrom. An overcap is removably affixed to the actuator and has a top and a s
An actuator and tube overcap assembly has an actuator having an inlet and an outlet. A tube has a fluid passageway therethrough and an inlet end connected to the outlet of the actuator and an extension portion extending therefrom. An overcap is removably affixed to the actuator and has a top and a side extending therefrom. The top and side of the overcap have an inner surface. The overcap has internal tube retaining portions having a tube retaining surface. The tube retaining surface extends away from the inner surface of the top and is spaced from the inner surface of the side with the tube extension positioned therebetween. A valve is provided by substantially closing the fluid passageway of the tube. A method for making the assembly is also provided. ally rectangular-shaped stand surface that faces a support surface of the base when the flap is upright, and wherein a side edge of the stand surface protrudes beyond and forms a tangent with an external contour surface of the hinge pin. 3. The container according to claim 1, further comprising a connecting mechanism arranged in an overlapping region between narrow front ends of two adjacent flaps so as to releasably connect the flaps when the flaps are placed in a position extending substantially perpendicular to the base which prevents the connecting mechanism from coming loose of its own accord, wherein the connecting mechanism is provided as a connecting element permanently arranged in a flap which projects in a direction towards the other flap and cooperates with a connecting seat having elastically deformable retaining elements provided in a congruent arrangement on the other flap. 4. A container, comprising a base and at least two flaps that form side walls which are adjustably joined to the base by hinge mechanisms and having supporting and centering elements arranged in an overlapping region between a front face of one side wall and an internal surface of the other side wall, provided in the form of projections and recesses, which, when the side walls are in the upright position, locate one with the other to produce a releasable positive connection and several projections and recesses lie adjacent to one another in a vertical row adjacent to the edges of the side wall, wherein the supporting and centering elements are arranged in the plane of a flap running in several different spatial directions relative to one another, wherein each of the flaps has a peripheral ridge and a reinforcing brace located inwardly therefrom in a direction toward a center of the flap, the supporting and centering elements extending from the peripheral ridge in a direction towards the reinforcing brace and across a thickness of the flap, wherein notches are provided in the peripheral ridge of one flap for receiving part regions of the supporting and centering elements of the other flap. 5. The container according to claim 1, wherein the retaining shoulder defines a cover element and a measurement between the front edge of the flaps facing the base and, facing it, an adjacently lying surface-part of the end region of the hinge pin is slightly larger than a thickness of the cover element. 6. The container according to claim 5, wherein a distance to an end region adjoining the cover element corresponds to a thickness of the cover element. 7. The container according to claim 6, wherein a pivot stop is provided on the front edge between two hinge pins on at least one flap, the pivot stop being operational at least when the flap is in an upright position, the pivot stop projecting into an arc circumscribed by an advance angular distance in a pivoting direction required to place the flap upright, the pivot stop having a stand surface that faces a support surface of the base when the flap is upright, and wherein the difference between the thickness and the measurement is the same as a distance between the stand surface of the pivot stop and the support surface. 8. The container according to claim 7, wherein a difference between the thickness and the measurement is smaller than the distance between the stand surface and the support surface. 9. The container according to claim 1, wherein the hinge pin has a connecting link as well as end regions projecting along the longitudinal central axis. 10. The container according to claim 1, wherein the end region of the hinge pin has a peripheral conical guide surface at the front face. 11. The container according to claim 1, wherein the groove has a groove floor of a concave design. 12. The container according to claim 1, wherein the groove has two end regions and one of the end regions is closed off across a diameter extending around the groove by means of the retaining shoulder and a cover element. 13. The container according to claim 12, wherein in conjunction with the cover element, the retaining shoulder forms a housing chamber for the end region of the hinge pin. 14. The container according to claim 1, wherein a diameter of the groove is the same size as or slightly larger than a diameter of the hinge pin. 15. The container according to claim 1, wherein the groove is arranged in part regions of the peripheral ridge. 16. The container according to claim 1, wherein an open length of the groove is at least the same as or slightly longer than the length of the hinge pin. 17. The container according to claim 1, wherein the distance between the retaining shoulder and the stop is greater than the length of the connecting link as measured in the longitudinal direction of the longitudinal central axis of the connecting link. 18. The container according to claim 1, wherein the recess comprises a radially circumferential recess arranged between a front face of the retaining shoulder facing the stop and the stop and wherein the recess has a curvature length. 19. The container according to claim 18, wherein the recess is designed so as to leave free a pivoting range for the connecting link matching the dimension of the curvature length. 20. The container according to claim 1, wherein an end region of the side wall facing the opening of the groove has an inclined surface extending in a direction towards the central longitudinal axis. 21. The container according to claim 1, wherein a width of the opening of the groove is the same size as the diameter of the hinge pin. 22. The container according to claim 21, wherein the opening width of the groove is slightly smaller than the diameter of the hinge pin. 23. The container according to claim 1, wherein the groove floor has a recess which matches an external contour of the hinge pin. 24. The container according to claim 2, wherein the stand surface of the pivot stop is arranged at a slight distance above the support surface of the base when the flaps are upright. 25. The container according to claim 24, wherein when the flaps are in a position perpendicular to the base, the front edges of the flaps are parallel with the support surface and spaced apart therefrom by a height of the flaps. 26. The container according to claim 1, wherein the hinge pins retained by the connecting links at a distance from the front edge are arranged in pairs. 27. The container according to claim 26, wherein the hinge-pin pairs include a pair of hinge pins lying adjacent to a longitudinal center of the flaps and additional hinge pin pairs adjacent opposite ends of the flaps, and wherein the hinge-pin pair adjacent the longitudinal center of the flaps have a smaller distance between the individual hinge pins than the hinge-pin pairs arranged in adjacent the ends. 28. The container according to claim 27, wherein a respective pivot stop is arranged between the individual hinge pins of each of the hinge-pin pairs. 29. The container according to claim 28, wherein a length of the pivot stops between the hinge-pin pairs in a direction towards the ends of the flaps is smaller than a distance between the hinge-pin pairs. 30. The container according to claim 2, wherein a length of the pivot stop in the direction of the hinge pin is smaller than a length of a recess provided in the bearing housing for receiving the pivot stop. 31. The container according to claim 30, wherein the difference between the length of the pivot stop and the length of the recess in the bearing housing corresponds to a length of the end region of the hinge pin projecting beyond the connecting link. 32. The container according to claim 2, wherein a height of the pivot stops is the same size as a width of the bearing housing. 33. The container according to claim 2, wherein the pivot stop has a stand surface that faces a support surface of the base when the flaps are upright, and wherein a distance between the longitudinal central axis of the hinge pin an d the stand surface of the pivot stop is not greater than a distance between the longitudinal central axis of the groove and an internal side wall of the bearing housing facing the flap. 34. The container according to claim 3, wherein the connecting element is designed as a mushroom-head projection. 35. The container according to claim 34, wherein the elastically deformable retaining elements have projections which locate behind the mushroom-headed projections. 36. The container according to claim 3, wherein the connecting seats are of a circular or square or polygonal design. 37. The container according to claim 3, wherein the connecting seats are oblong slots. 38. The container according to claim 3, wherein the connecting seats are arranged at an angle in a peripheral region of the flaps. 39. The container according to claim 3, wherein a width of the front end of the projection is smaller than an opening width of the retaining elements facing the front end of the projection. 40. The container according to claim 3, wherein recesses are arranged along the retaining elements in order to impart a resilient design thereto. 41. The container according to claim 4, wherein the supporting and centering elements are of an S-shaped or L-shaped design. 42. The container according to claim 4, wherein at least one of the flaps has stop ridges at opposite ends thereof projecting beyond a surface of the flap that faces an opposite one of the flaps, and wherein a depth of the notches corresponds to a height of the part regions of the supporting and centering elements measured perpendicular to the stop ridge. 43. The container according to claim 42, wherein external faces of the supporting and centering elements abut with external faces of the supporting and centering elements of the stop ridge in a positive fit. 44. The container according to claim 4, wherein a height of the supporting and centering elements on one flap is the same as a height of the supporting and centering elements on another flap that adjoins therewith. 45. The container according to claim 44, wherein external faces of the supporting and centering elements of the respective adjoining flaps have inclined surfaces matching one another. 46. The container according to claim 42, wherein the supporting and centering elements of one flap taper in a direction toward the stop ridge of an adjoining flap. 47. The container according to claim 46, wherein the supporting and centering elements of the flap having the stop ridge taper in a direction towards the adjoining flap. 48. The container according to claim 4, wherein the flaps include side end walls and wherein the hinge mechanisms include bearing housings formed on the base for receiving the hinge pin of the flaps forming the longitudinal side walls, and wherein a length of the flaps forming the side end walls is the same as or slightly smaller than an internal width between opposing side surfaces of the bearing housings. 49. The container according to claim 48, wherein the flaps forming the longitudinal side walls have stop ridges formed on their opposite ends, and wherein an internal width between the stop ridges of each of the flaps forming the longitudinal side walls is the same as or slightly larger than a maximum distance between front end faces of the bearing housing facing away from one another. 50. The container according to claim 4, wherein the flaps include flaps forming side walls which have bar-like longitudinal stays, vertical stays and diagonal supporting elements. 51. The container according to claim 4, wherein centering recesses are arranged in a longitudinal side edge of the side walls for receiving matching centering projections in the base of another one of the containers when multiple containers are stacked. 52. The container according to claim 1, wherein an axis of the hinge pin is arranged at a distance from an internal surface of the flap to which the hinge pin is attached, in a direction normal to said in ternal surface, said distance being greater than half the thickness of said flap. 53. The container according to claim 4, wherein at least one of the flaps includes a reinforcing brace formed as a hollow section. 54. The container according to claim 4, wherein a total thickness of the base of the peripheral ridge with the bearing housings in the front end region of the flap corresponds to a sum of the thickness of the flap plus a thickness of the hinge pin and a thickness of the cover element. 55. The container according to claim 4, wherein a total thickness of the peripheral ridges with the bearing housings for the flaps is greater than a total a thickness of the peripheral ridges with the bearing housings in the region of the flaps by a thickness of the flaps. 56. The container according to claim 4, wherein the base has rims projecting above an underside thereof. 57. The container according to claim 56, wherein the flaps include a pair of flaps forming end walls of the container, and wherein a dimension of the rims in a side view of the base and a dimension of the rims in a front view of the base substantially correspond respectively to an internal width between the longitudinal side walls in their upright position and an internal width between the end walls in their upright position. 58. The container according to claim 4, wherein the flaps include a pair of flaps forming end walls of the container, wherein each of the flaps forming the end walls and the longitudinal side walls has a peripheral ridge, and the flaps forming the longitudinal side walls have stop ridges formed at their opposite ends, and wherein the peripheral ridge for the flaps forming the longitudinal side walls projects outward beyond front edges of the peripheral ridges for the flaps forming the end walls by a dimension. 59. The container according to claim 58, wherein said dimension corresponds approximately to a thickness of the stop ridges of the flaps forming the longitudinal side walls. 60. The container according to claim 58, wherein a height of the flaps forming the side walls is greater than the half width of the base. 61. The container according to claim 58, wherein the flaps forming the side walls overlap with one another when pivoted to a transport position overlying the base and a thickness of the overlapping flaps is not greater than the thickness of one of the individual flaps. 62. The container according to claim 53, wherein an external side face of the reinforcing brace engages in a groove extending opposite in a reinforcing brace of an oppositely lying flap. 63. The container according to claim 1, wherein the flaps are arranged to be pivoted into a transport position overlying the base, and wherein the flaps when in the transport position form an overlapping region. 64. The container according to claim 63, wherein reinforcing ribs are arranged in the overlapping region of the flaps. f the groove is the same size as or slightly larger than a diameter of the hinge pin. 15. The container according to claim 1, wherein the groove is arranged in part regions of the peripheral ridge. 16. The container according to claim 1, wherein an open length of the groove is at least the same as or slightly longer than the length of the hinge pin. 17. The container according to claim 1, wherein the distance between the retaining shoulder and the stop is greater than the length of the connecting link as measured in the longitudinal direction of the longitudinal central axis of the connecting link. 18. The container according to claim 1, wherein the recess comprises a radially circumferential recess arranged between a front face of the retaining shoulder facing the stop and the stop and wherein the recess has a curvature length. 19. The container according to claim 18, wherein the recess is designed so as to leave free a pivoting range for the connecting link matching the dimension of the curvature length. 20. The container according to claim 1, wherein an end region of the side wall facing the opening of the groove has an inclined surface extending in a direction towards the central longitudinal axis. 21. The container according to claim 1, wherein a width of the opening of the groove is the same size as the diameter of the hinge pin. 22. The container according to claim 21, wherein the opening width of the groove is slightly smaller than the diameter of the hinge pin. 23. The container according to claim 1, wherein the groove floor has a recess which matches an external contour of the hinge pin. 24. The container according to claim 2, wherein the stand surface of the pivot stop is arranged at a slight distance above the support surface of the base when the flaps are upright. 25. The container according to claim 24, wherein when the flaps are in a position perpendicular to the base, the front edges of the flaps are parallel with the support surface and spaced apart therefrom by a height of the flaps. 26. The container according to claim 1, wherein the hinge pins retained by the connecting links at a distance from the front edge are arranged in pairs. 27. The container according to claim 26, wherein the hinge-pin pairs include a pair of hinge pins lying adjacent to a longitudinal center of the flaps and additional hinge pin pairs adjacent opposite ends of the flaps, and wherein the hinge-pin pair adjacent the longitudinal center of the flaps have a smaller distance between the individual hinge pins than the hinge-pin pairs arranged in adjacent the ends. 28. The container according to claim 27, wherein a respective pivot stop is arranged between the individual hinge pins of each of the hinge-pin pairs. 29. The container according to claim 28, wherein a length of the pivot stops between the hinge-pin pairs in a direction towards the ends of the flaps is smaller than a distance between
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