IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0385964
(2006-03-21)
|
등록번호 |
US-7343848
(2008-03-18)
|
발명자
/ 주소 |
- Maher,Patrick
- Stephens,Jeffrey S.
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
5 |
초록
▼
A self-vacuum arrangement for pneumatic equipment is provided. A Venturi device having first and second ports and a central tap is provided. A first check valve having a first port operably coupled with the central tap of the Venturi device is configured to prevent pneumatic flow from the central ta
A self-vacuum arrangement for pneumatic equipment is provided. A Venturi device having first and second ports and a central tap is provided. A first check valve having a first port operably coupled with the central tap of the Venturi device is configured to prevent pneumatic flow from the central tap through the first check valve. Optionally included is a second valve having a first port operably coupled with the first port of the Venturi device, and a second port operably coupled with the second port of the Venturi device.
대표청구항
▼
What is claimed is: 1. A self-vacuum arrangement, comprising: a head cap for a pneumatic actuator, the head cap comprising: a Venturi device having a first port, a second port, and a central tap; and a first check valve having a first port operably coupled with the central tap of the Venturi device
What is claimed is: 1. A self-vacuum arrangement, comprising: a head cap for a pneumatic actuator, the head cap comprising: a Venturi device having a first port, a second port, and a central tap; and a first check valve having a first port operably coupled with the central tap of the Venturi device and configured to prevent pneumatic flow from the central tap through the first check valve. 2. The self-vacuum arrangement of claim 1, further comprising a second check valve having a first port operably coupled with the first port of the Venturi device and a second port operably coupled with the second port of the Venturi device. 3. The self-vacuum arrangement of claim 2, wherein the second check valve prevents pneumatic flow through the second check valve from the first port of the second check valve to the second port of the second check valve. 4. The self-vacuum arrangement of claim 3, wherein the Venturi device is configured to draw pneumatic flow into the central tap of the Venturi device through the first check valve when pneumatic flow occurs through the Venturi device from the first port of the Venturi device to the second port of the Venturi device. 5. The self-vacuum arrangement of claim 4, wherein the first port of the Venturi device and the first port of the second check valve are pneumatically coupled with an interior of a cylinder of a pneumatic actuator, the second port of the Venturi device and the second port of the second check valve are pneumatically coupled with a pneumatic port of the pneumatic actuator, and a second port of the first check valve is pneumatically coupled with a void associated with the pneumatic actuator. 6. The self-vacuum arrangement of claim 5, wherein the void is a space between a rod seal and a rod wiper of the pneumatic actuator. 7. The self-vacuum arrangement of claim 5, wherein the void is a space between a first seal and a second seal of a pneumatic coupler attached to the pneumatic actuator. 8. The self-vacuum arrangement of claim 5, wherein pneumatic flow occurs through the Venturi device from the first port of the Venturi device to the second port of the Venturi device when a piston moves within the interior of the cylinder of the pneumatic actuator. 9. The self-vacuum arrangement of claim 2, wherein the first and second check valves comprise ball valves. 10. A pneumatic actuator comprising the self-vacuum arrangement of claim 1. 11. A self-vacuum arrangement, comprising: a vacuum-generating cartridge attachable to a pneumatic actuator, the vacuum-generating cartridge comprising: a Venturi device having a first port, a second port, and a central tap; and a first check valve having a first port operably coupled with the central tap of the Venturi device and configured to prevent pneumatic flow from the central tap through the first check valve. 12. The self-vacuum arrangement of claim 11, further comprising a second check valve having a first port operably coupled with the first port of the Venturi device and a second port operably coupled with the second port of the Venturi device. 13. The self-vacuum arrangement of claim 12, wherein the second check valve prevents pneumatic flow through the second check valve from the first port of the second check valve to the second port of the second check valve. 14. The self-vacuum arrangement of claim 13, wherein the Venturi device is configured to draw pneumatic flow into the central tap of the Venturi device through the first check valve when pneumatic flow occurs through the Venturi device from the first port of the Venturi device to the second port of the Venturi device. 15. The self-vacuum arrangement of claim 14, wherein the first port of the Venturi device and the first port of the second check valve are pneumatically coupled with an interior of a cylinder of a pneumatic actuator, the second port of the Venturi device and the second port of the second check valve are pneumatically coupled with a pneumatic port of the pneumatic actuator, and a second port of the first check valve is pneumatically coupled with a void associated with the pneumatic actuator. 16. The self-vacuum arrangement of claim 15, wherein the void is a space between a rod seal and a rod wiper of the pneumatic actuator. 17. The self-vacuum arrangement of claim 15, wherein the void is a space between a first seal and a second seal of a pneumatic coupler attached to the pneumatic actuator. 18. The self-vacuum, arrangement of claim 15, wherein pneumatic flow occurs through the Venturi device from the first port of the Venturi device to the second port of the Venturi device when a piston moves within the interior of the cylinder of the pneumatic actuator. 19. The self-vacuum arrangement of claim 12, wherein the first and second check valves comprise ball valves. 20. A pneumatic actuator comprising the self-vacuum arrangement of claim 11. 21. A self vacuum arrangement for a pneumatic actuator, comprising: means for creating a vacuum in a void associated with the pneumatic actuator when a gas is forced from an interior of a cylinder of the pneumatic actuator to a pneumatic port of the pneumatic actuator; means for preventing pneumatic flow into the void from the vacuum-creating means; and means for directing pneumatic flow between the pneumatic port and the interior of the cylinder, wherein pneumatic flow from the pneumatic port to the interior of the cylinder circumvents the vacuum-creating means, and wherein pneumatic flow from the interior of the cylinder to the pneumatic port is forced through the vacuum-creating means. 22. The self-vacuum arrangement of claim 21, wherein the vacuum-creating means is a Venturi device. 23. The self-vacuum arrangement of claim 21, wherein pneumatic flow from the interior of the cylinder is caused by movement of a piston within the interior of the cylinder. 24. The self-vacuum arrangement of claim 21, wherein the vacuum-creating means draws contaminants from the void toward the pneumatic port. 25. A pneumatic actuator comprising the self-vacuum arrangement of claim 21. 26. A head cap for a pneumatic actuator, the head cap comprising the self-vacuum arrangement of claim 21. 27. A vacuum-generating cartridge attachable to a pneumatic actuator, the vacuum-generating cartridge comprising the self-vacuum arrangement of claim 21. 28. A self-vacuum arrangement, comprising: a Venturi device having a first port, a second port, and a central tap; a first check valve having a first port operably coupled with the central tap of the Venturi device and configured to prevent pneumatic flow from the central tap through the first check valve; a second check valve having a first port operably coupled with the first port of the Venturi device and a second port operably coupled with the second port of the Venturi device, wherein the second check valve prevents pneumatic flow through the second check valve from the first port of the second check valve to the second port of the second check valve; the Venturi device is configured to draw pneumatic flow into the central tap of the Venturi device through the first check valve when pneumatic flow occurs through the Venturi device from the first port of the Venturi device to the second port of the Venturi device; and the first port of the Venturi device and the first port of the second check valve are pneumatically coupled with an interior of a cylinder of a pneumatic actuator, the second port of the Venturi device and the second port of the second check valve are pneumatically coupled with a pneumatic port of the pneumatic actuator, and a second port of the fast check valve is pneumatically coupled with a void associated with the pneumatic actuator. 29. The self-vacuum, arrangement of claim 28, wherein the Venturi device, the first check valve, and the second check valve are located within a head cap of the pneumatic actuator. 30. The self-vacuum arrangement of claim 28, wherein the Venturi device and the first check valve are located external to the pneumatic actuator. 31. The self-vacuum arrangement of claim 28, wherein the void is a space between a rod seal and a rod wiper of the pneumatic actuator. 32. The self-vacuum arrangement of claim 28, wherein the void is a space between a first seal and a second seal of a pneumatic coupler attached to the pneumatic actuator. 33. The self-vacuum arrangement of claim 28, wherein pneumatic flow occurs through the Venturi device from the first port of the Venturi device to the second port of the Venturi device when a piston moves within the interior of the cylinder of the pneumatic actuator. 34. The self-vacuum arrangement of claim 28, wherein the first and second check valves comprise ball valves.
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