IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0566563
(2004-07-29)
|
등록번호 |
US-8534506
(2013-09-17)
|
우선권정보 |
DE-103 35 842 (2003-08-05) |
국제출원번호 |
PCT/EP2004/008524
(2004-07-29)
|
§371/§102 date |
20060828
(20060828)
|
국제공개번호 |
WO2005/016551
(2005-02-24)
|
발명자
/ 주소 |
- Bohnisch, Karsten
- Jasper, Bernhard
|
출원인 / 주소 |
- Seaquist Perfect Dispensing GmbH
|
대리인 / 주소 |
Wood, Phillips, Katz, Clark & Mortimer
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
16 |
초록
▼
A dispenser pack for a free-flowing medium includes a metering pump, a container that is tightly connected to said metering pump and that can be ventilated by the pump, and a closing cap. The free-flowing medium within the container is enclosed by a bag made of a flexible material with an upper aper
A dispenser pack for a free-flowing medium includes a metering pump, a container that is tightly connected to said metering pump and that can be ventilated by the pump, and a closing cap. The free-flowing medium within the container is enclosed by a bag made of a flexible material with an upper aperture rim of the bag being tightly connected in one part/piece to a wall of the container, and a space between the inside of the container wall and the outside of the bag being at atmospheric pressure.
대표청구항
▼
1. A dispenser pack comprising a standard metering pump and a container that is tightly connected to said metering pump, comprising a closing cap that can be attached to a neck of the container, having a cylindrical wall that encloses an axial aperture that is arranged above an internal flange;a ret
1. A dispenser pack comprising a standard metering pump and a container that is tightly connected to said metering pump, comprising a closing cap that can be attached to a neck of the container, having a cylindrical wall that encloses an axial aperture that is arranged above an internal flange;a retainer for attaching the pump within the aperture of the closing cap, wherein an exterior flange of the retainer can be pressed against an annular seal on an outer face of the container neck so as to be sealed by the closing cap;a flow path defined between the retainer and the pump;a pump housing comprising a pump cylinder that surrounds a pump chamber, the retainer being a separate component from the pump housing;a pump piston which is arranged in the pump chamber so as to be slidable in a sealed manner and comprises a piston shaft which protrudes outward from the pump chamber and at its outer end comprises an activation and dispensing head;an axial outlet channel that extends through the piston shaft and the pump piston and connects the pump chamber to a dispensing aperture of the activation head;an inlet valve and an outlet valve for a free-flowing medium; anda helical compression spring which impinges on the pump piston,the volume of the container that contains the free-flowing medium can be adjusted to the decrease of the volume of the free-flowing medium to be dispensed from the container; andthe annular seal having an inner hole rim resting against the outside of the pump housing so as to close the flow path to prevent ventilation of the container through the flow path, andwherein the annular seal comprises an annular lip which forms the hole rim and is pressed radially inward in the form of a truncated cone across an annular space in the flow path against the cylindrical outside of the pump housing so as to seal the flow path, the annular lip having a radial thickness that provides a radial space between the annular lip and the retainer. 2. The dispenser pack according to claim 1, wherein the thickness of the annular lip is reduced towards its outer end. 3. The dispenser pack according to claim 1, wherein an upper end of the pump housing comprises an aperture and a lower end of the pump housing comprises a suction pipe nipple. 4. The dispenser pack according to claim 3, wherein the aperture of the suction pipe nipple is freely exposed. 5. The dispenser pack according to claim 1, wherein the medium within the container is enclosed by a bag made of a flexible material, with an upper aperture rim of that bag being tightly connected to the wall of the container, while in a space between the inside of the container wall and the outside of the bag air at atmospheric pressure is contained. 6. The dispenser pack according to claim 5, the aperture rim of the bag has been injection-molded to the bottom end of the container neck. 7. The dispenser pack according to claim 5, wherein the bag and the container have been formed in one piece. 8. A dispenser pack comprising a standard metering pump and a container that is tightly connected to said metering pump, comprising a closing cap that can be attached to a neck of the container, having a cylindrical wall that encloses an axial aperture that is arranged above an internal flange;a retainer for attaching the pump within the aperture of the closing cap, wherein an exterior flange of the retainer can be pressed against an annular seal on an outer face of the container neck so as to be sealed by the closing cap;a ventilation channel formed between the retainer and the pump, wherein the ventilation channel is connectable to the environment in an operable or assembled state of the dispenser pack;a pump housing comprising a pump cylinder that surrounds a pump chamber, the retainer being a separate component from the pump housing;a pump piston which is arranged in the pump chamber so as to be slidable in a sealed manner and comprises a piston shaft which protrudes outward from the pump chamber and at its outer end comprises an activation and dispensing head;an axial outlet channel that extends through the piston shaft and the piston and connects the pump chamber to a dispensing aperture of the activation head; an inlet valve and an outlet valve for a free-flowing medium; anda helical compression spring which impinges on the pump piston,wherein the volume of the container that contains the free-flowing medium can be adjusted to the decrease of the volume of the free-flowing medium to be dispersed from the container,wherein the annular seal has an inner hole rim resting against the outside of the pump housing so as to close the ventilation channel to prevent ventilation of the container through the ventilation channel, andwherein the annular seal comprises an annular lip which forms the hole rim and is pressed radially inward in the form of a truncated cone across an annular space in the ventilation channel against the cylindrical outside of the pump housing so as to seal the ventilation channel, the annular lip having a radial thickness that provides a radial space between the annular lip and the retainer. 9. The dispenser pack according to claim 8, wherein the thickness of the annular lip is reduced towards its outer end. 10. The dispenser pack according to claim 8, wherein the medium within the container is enclosed by a bag made of a flexible material, with the upper aperture rim of that bag being tightly connected to the wall of the container, while in a space between the inside of the container wall and the outside of the bag air at atmospheric pressure is contained. 11. The dispenser pack according to claim 10, wherein the bag and the container have been formed in one piece. 12. The dispenser pack according to claim 10, wherein the aperture rim of the bag has been injection-moulded to the bottom end of the container neck. 13. The dispenser pack according to claim 8, wherein an upper end of the pump housing comprises an aperture and a lower end of the pump housing comprises a suction pipe nipple. 14. The dispenser pack according to claim 13, wherein the aperture of the suction pipe nipple is freely exposed. 15. A dispenser pack comprising a standard metering pump and a container that is tightly connected to said metering pump, comprising a closing cap that can be attached to a neck of the container, having a cylindrical wall that encloses an axial aperture that is arranged above an internal flange;a retainer for attaching the pump within the aperture of the closing cap, wherein an exterior flange of the retainer can be pressed against an annular seal on an outer face of the container neck so as to be sealed by the closing cap;a pump housing comprising a pump cylinder that surrounds a pump chamber, the retainer being a separate component from the pump housing;a pump piston which is arranged in the pump chamber so as to be slidable in a sealed manner and comprises a piston shaft which protrudes outward from the pump chamber and at its outer end comprises an activation and dispensing head;a ventilation channel for ventilation of the container formed between the retainer and the pump, wherein during operation of the pump a first end of the ventilation channel is temporary connectable to the environment and a second end is connected to a space between the retainer and pump housing;a sealing lip formed at the top of the pump piston, wherein in a home position of the pump piston the sealing lip and the retainer form a closure for the first end of the ventilation channel, and wherein the closure can be opened by movement of the pump piston;an axial outlet channel that extends through the piston shaft and the piston and connects the pump chamber to a dispensing aperture of the activation head;an inlet valve and an outlet valve for a free-flowing medium; anda helical compression spring which impinges on the pump piston in the direction of its home position,wherein the volume of the container that contains the free-flowing medium can be adjusted to the decrease of the volume of the free-flowing medium to be dispersed from the container,wherein the annular seal has an inner hole rim resting against the outside of the pump housing so as to close the second end of the ventilation channel to prevent ventilation of the container through the channel, andwherein the annular seal comprises an annular lip which forms the hole rim and is pressed radially inward in the form of a truncated cone across an annular space in the ventilation channel against the cylindrical outside of the pump housing so as to seal the second end of the ventilation channel, the annular lip having a radial thickness that provides a radial space between the annular lip and the retainer. 16. The dispenser pack according to claim 15, wherein the thickness of the annular lip is reduced towards its outer end. 17. The dispenser pack according to claim 15, wherein the medium within the container is enclosed by a bag made of a flexible material, with the upper aperture rim of that bag being tightly connected to the wall of the container, while in a space between the inside of the container wall and the outside of the bag air at atmospheric pressure is contained. 18. The dispenser pack according to claim 17, wherein the bag and the container have been formed in one piece. 19. The dispenser pack according to claim 17, wherein the aperture rim of the bag has been injection-moulded to the bottom end of the container neck. 20. The dispenser pack according to claim 15, wherein an upper end of the pump housing comprises an aperture and a lower end of the pump housing comprises a suction pipe nipple. 21. The dispenser pack according to claim 20, wherein the aperture of the suction pipe nipple is freely exposed.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.