IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0600058
(2008-05-14)
|
등록번호 |
US-8485397
(2013-07-16)
|
우선권정보 |
EP-07108363 (2007-05-16); NO-20072522 (2007-05-16) |
국제출원번호 |
PCT/EP2008/055904
(2008-05-14)
|
§371/§102 date |
20091113
(20091113)
|
국제공개번호 |
WO2008/138948
(2008-11-20)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Renner, Otto, Boisselle & Sklar, LLP
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
8 |
초록
▼
The invention relates to a measuring actuator, a measuring cap, a protective cover, a measuring unit, and a device for fixed and variable measuring and discharging of fluid from a container. The actuator being configured for detachable and movable connection to the cap and adapted for sealing off fl
The invention relates to a measuring actuator, a measuring cap, a protective cover, a measuring unit, and a device for fixed and variable measuring and discharging of fluid from a container. The actuator being configured for detachable and movable connection to the cap and adapted for sealing off fluid when in a non-actuated state and to discharge fluid when in an actuated state, the actuator including at least two openings, a discharge opening and a fluid inflow opening; the cap-including at least three openings, a discharge opening and an actuator receiving opening and a fluid inflow opening; the measuring unit including the cap, the actuator, and a spring; the cover for protecting the measuring unit being configured for attachment to the cap and/or the measuring unit; and the measuring device including the cover, the cap, the actuator, the spring, and the container.
대표청구항
▼
1. A measuring actuator for fixed and variable measuring of fluid in a container, wherein the actuator is configured for actuation by a finger and for detachable and movable sealing connection to a cap and adapted for sealing off fluid when in a non-actuated state and to discharge the fluid when in
1. A measuring actuator for fixed and variable measuring of fluid in a container, wherein the actuator is configured for actuation by a finger and for detachable and movable sealing connection to a cap and adapted for sealing off fluid when in a non-actuated state and to discharge the fluid when in an actuated state, the actuator comprising at least two openings, a discharge opening at a first substantially flat end and a fluid inflow opening at a second substantially flat end configured to face the container, wherein the measuring actuator has a first sealing at the first actuator end around the discharge opening and a second sealing arranged closer to the fluid inflow opening, whereby each sealing extends continuously and circumferentially around the actuator in a plane being parallel with the ends of the actuator, and the first sealing and the second sealing are adapted to be in constant sealing engagement with the cap, whereby the fluid is sealed off such that no leakage of fluid occurs in the non-actuated state and the actuated state, wherein each sealing is at least one continuous protrusion, wherein the first sealing comprises two protrusions, a first sealing protrusion arranged closer to the first actuator end and a second sealing protrusion arranged closer to the second actuator end. 2. A measuring actuator according to claim 1, wherein the first sealing protrusion is adapted to be in constant sealing engagement with the cap while the second protrusion is adapted to move in and out of sealing engagement with the cap when the actuator is actuated. 3. A measuring actuator according to claim 2, wherein the second sealing at the second actuator end comprises one protrusion being adapted to be in constant sealing engagement with the cap when the actuator is actuated. 4. A measuring actuator according to claim 1, wherein the measuring actuator has a touch surface at the first end for actuation by means of the finger. 5. A measuring actuator according to claim 1, wherein the measuring actuator comprises at least one opening for air intake at the first actuator end. 6. A measuring actuator according to claim 5, wherein the air opening is arranged substantially opposite the discharge opening. 7. A measuring actuator according to claim 5, wherein the air opening is configured as cut-in portions evenly distributed circumferentially around the periphery of the actuator adjacent the first actuator end. 8. A measuring actuator according to claim 7, wherein the discharge opening and the air opening are parts of one and the same opening. 9. A measuring actuator according to claim 7, wherein each of the discharge opening and the air opening is a cut-in portion. 10. A measuring actuator according to claim 1, wherein the sealing protrusions at the first actuator end are arranged around the edge of the discharge opening. 11. A measuring actuator according to claim 10, wherein one sealing protrusion is arranged around the edge of the discharge opening, wherein the edge around which the one sealing protrusion is around is the edge that is closer to the first actuator end, and the other sealing protrusion is arranged around the other edge of the discharge opening, which other edge is closer to the second actuator end. 12. A measuring actuator according to claim 1, wherein the actuator comprises two different materials. 13. A measuring actuator according to claim 1, wherein the actuator comprises a core and an outer layer. 14. A measuring actuator according to claim 13, wherein the core is made of a rigid material. 15. A measuring actuator according to claim 13, wherein the outer layer is made of a non-rigid material. 16. A measuring actuator according to claim 14, wherein the core is made of a rigid plastic. 17. A measuring actuator according to claim 15, wherein the outer layer is made of a flexible or elastic material. 18. A measuring actuator according to claim 15, wherein the outer layer is made of a non-rigid plastic. 19. A measuring actuator according to claim 15, wherein the outer layer is a rubber-like material. 20. A measuring actuator according to claim 1, wherein the first actuator end is closed and the second actuator end is open forming the fluid inflow opening. 21. A measuring actuator according to claim 3, wherein the measurement actuator comprises at least one opening for air intake at the first actuator end. 22. A measuring cap for fixed and variable measuring of fluid, wherein the cap is configured for leak-proof and removable attachment to a container and detachable reception of a measuring actuator, the cap comprising at least three openings, a discharge opening and an actuator receiving opening at a first end and a fluid inflow opening at a second end being configured for leak-proof and removable attachment to the container, wherein the measuring cap has at least one fluid catching edge at the first end, the fluid catching edge extending circumferentially around the cap in a plane being perpendicular to the centre axis of the cap and adapted to guide any leakage of fluid to the discharge opening, such that any leaking fluid joins the fluid coming out of the discharge opening in a discharge direction, andthe measuring cap has at least one spout extending radially from the cap, whereby the cross-section area of the at least one spout of the cap increases in the discharge direction of the fluid. 23. A measuring cap according to claim 22, wherein the measuring cap comprises at least one cap air opening for air intake at the first end. 24. A measuring cap according to claim 23, wherein the cap air opening is arranged substantially opposite the discharge opening. 25. A measuring cap according to claim 23, wherein the cap air opening is configured as a cut-in portion adjacent the first end. 26. A measuring cap according to claim 23, wherein the cap air opening is arranged in alignment with the discharge opening. 27. A measuring cap according to claim 23, wherein the cap air opening is arranged at a different distance from each end than the discharge opening. 28. A measuring cap according to claim 27, wherein the cap air opening is arranged closer to the second end than the discharge opening. 29. A measuring cap according to claim 22, wherein the fluid catching edge is a flange extending radially from the cap and circumferentially around the first end. 30. A measuring cap according to claim 22, wherein the fluid catching edge is arranged at a distance from the first end such that a freely, in the longitudinal direction of the cap protruding end portion of the first end is formed. 31. A measuring cap according to claim 22, wherein the fluid catching edge has a varying projecting length around the first end. 32. A measuring cap according to claim 31, wherein the fluid catching edge has a substantially constant projecting length at the cap air opening and the discharge opening and a varying projecting length between these openings. 33. A measuring cap according to claim 32, wherein the fluid catching edge protrudes with the constant projecting length around at least one quarter of the cap circumference at the cap air opening side and at least along the whole width of the discharge opening with a transcending varying length between these openings. 34. A measuring cap according to claim 22, wherein the fluid catching edge has recesses evenly distributed around its circumference such that a releasable engagement with a protective cover is achieved. 35. A measuring cap according to claim 23, wherein the cap air opening is arranged in alignment with the discharge opening. 36. A measuring cap according to claim 23, wherein the cap air opening is arranged at a different distance from each cap end than the discharge opening. 37. A measuring unit for fixed and variable measuring of fluid, wherein the measuring unit is configured for leak-proof and removable attachment to a container, the unit comprising a cap, a measuring actuator operatively and detachably connected to the cap, and a spring for biasing the actuator, wherein the cap is a measuring cap for fixed and variable measuring of fluid, wherein the cap is configured for leak-proof and removable attachment to a container and detachable reception of a measuring actuator, the cap comprising at least three openings, a discharge opening and an actuator receiving opening at a first end and a fluid inflow opening at a second end being configured for leak-proof and removable attachment to the container, and wherein the measuring cap has at least one fluid catching edge at the first end, the fluid catching edge extending circumferentially around the cap in a plane being perpendicular to the centre axis of the cap and adapted to guide any leakage of fluid to the discharge opening, such that any leaking fluid joins the fluid coming out of the discharge opening, andthe measuring actuator comprises a measuring actuator for fixed and variable measuring of fluid in a container, wherein the actuator is configured for actuation by a finger and for detachable and movable sealing connection to a cap and adapted for sealing off fluid when in a non-actuated state and to discharge fluid when in an actuated state, the actuator comprising at least two openings, a discharge opening at a first substantially flat end and a fluid inflow opening at a second substantially flat end configured to face the container, wherein the measuring actuator has a first sealing at the first actuator end around the discharge opening and a second sealing arranged closer to the fluid inflow opening, whereby each sealing extends continuously and circumferentially around the actuator in a plane being parallel with the ends of the actuator, and the first sealing and the second sealing are adapted to be in constant sealing engagement with the cap, whereby the fluid is sealed off such that no leakage of fluid occurs in the non-actuated state and the actuated state, wherein each sealing is at least one continuous protrusion, andwherein the first sealing comprises two protrusions, a first sealing protrusion arranged closer to the first actuator end and a second sealing protrusion arranged closer to the second actuator end. 38. A cover for protecting a measuring unit for fixed and variable measuring of fluid, wherein the cover is configured for leak-proof and removable attachment to a container and the measuring unit, wherein the measuring unit is a measuring unit according to claim 37, andwherein the cover is substantially hollow for receiving the measuring unit and has a closed first end being adapted for covering the cap and an open second end being adapted for detachable guarantee closure against the measuring unit, andwherein the closed first end comprises protrusions evenly distributed around the inner circumference such that these protrusions are able to face the container and are in engagement with the measuring unit for enabling the transferring of torsional force between the cover and the measuring unit when the cover is attached to the measuring unit. 39. A container for fixed and variable measuring of fluid, wherein the container comprises a measuring unit according to claim 37. 40. A container according to claim 39, wherein the container comprises a protective cover for protecting a measuring unit for fixed and variable measuring of fluid, wherein the cover is configured for leak-proof and removable attachment to the container and the measuring unit, wherein the cover is substantially hollow for receiving the measuring unit and has a closed first end being adapted for covering the cap and an open second end being adapted for detachable guarantee closure against the measuring unit, andwherein the closed first end comprises protrusions evenly distributed around the inner circumference such that said protrusions are able to face the container and are in engagement with the measuring unit for enabling transferring of torsional force between the cover and the measuring unit when the cover is attached to the measuring unit. 41. A measuring device for fixed and variable measuring of fluid, wherein the measuring device comprises a measuring unit according to claim 37 and a protective cover for protecting a measuring unit for fixed and variable measuring of fluid, wherein the cover is configured for leak-proof and removable attachment to a container and the measuring unit,wherein the cover is substantially hollow for receiving the measuring unit and has a closed first end being adapted for covering the cap and an open second end being adapted for detachable guarantee closure against the measuring unit, andwherein the closed first end comprises protrusions evenly distributed around the inner circumference such that said protrusions are able to face the container and are in engagement with the measuring unit for enabling transferring of torsional force between the cover and the measuring unit when the cover is attached to the measuring unit. 42. A cover for protecting a measuring unit for fixed and variable measuring of fluid, wherein the cover is configured for leak-proof and removable attachment to a container and the measuring unit, wherein the cover is substantially hollow for receiving the measuring unit and has a closed first end being adapted for covering the cap and an open second end being adapted for detachable guarantee closure against the measuring unit,wherein the first cover end comprises protrusions evenly distributed around the inner circumference such that these protrusions are able to face the container and are in engagement with the measuring unit for enabling the transferring of torsional force between the cover and the measuring unit when the cover is attached to the measuring unit, andwherein the first cover end comprises a protruding inner edge being adapted to bear, as an inner spacing ring, against a free edge of a cap of the measuring unit, which edges protrude in the longitudinal direction of the cap, such that undesired discharging of fluid is prevented. 43. A cover according to claim 42, wherein the cover is adapted for detachable guarantee closure against the container. 44. A cover for protecting a measuring unit for fixed and variable measuring of fluid, wherein the cover is configured for leak-proof and removable attachment to a container and the measuring unit, wherein the cover is substantially hollow for receiving the measuring unit and has a closed first end being adapted for covering the cap and an open second end being adapted for detachable guarantee closure against the measuring unit, andwherein the closed first end comprises protrusions evenly distributed around the inner circumference such that said protrusions are able to face the container and are in engagement with the measuring unit for enabling transferring of torsional force between the cover and the measuring unit when the cover is attached to the measuring unit,wherein the closed first end comprises a protruding inner edge being adapted to bear against the measuring unit such that undesired discharging of fluid is prevented, andwherein the protruding edge bears against a freely longitudinally protruding end portion of a first cap end of a measuring cap for fixed and variable measuring of fluid when the cover is attached to the measuring unit, the measuring cap being configured for leak-proof and removable attachment to the container and detachable reception of a measuring actuator, the cap comprising at least three openings, a discharge opening and an actuator receiving opening at the first end and a fluid inflow opening at a second end being configured for leak-proof and removable attachment to the container, wherein the measuring cap has at least one fluid catching edge at the first end, the fluid catching edge extending circumferentially around the cap in a plane being perpendicular to the centre axis of the cap and adapted to guide any leakage of fluid to the discharge opening, such that any leaking fluid joins the fluid coming out of the discharge opening, wherein the fluid catching edge has a varying projecting length around the first edge end, and wherein the fluid catching flange has a substantially constant projecting length at a cap air opening and the discharge opening and a varying projecting length between said openings.
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