Air flow control apparatus
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0719898
(2010-03-09)
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등록번호 |
US-8267666
(2012-09-18)
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발명자
/ 주소 |
- Gruber, Christopher
- Shumate, David O.
- Happe, Jr., James W.
- Salmons, Steven R.
- VanHorn, Jeffrey P.
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출원인 / 주소 |
- Campbell Hausfeld/Scott Fetzer Company
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
8 인용 특허 :
7 |
초록
▼
An apparatus includes a valve housing having an inlet port, a first chamber with a first outlet port, and a second chamber with a second outlet port. A first valve opens between the inlet port and the first chamber under a first level of pneumatic pressure at the inlet port. A second valve opens bet
An apparatus includes a valve housing having an inlet port, a first chamber with a first outlet port, and a second chamber with a second outlet port. A first valve opens between the inlet port and the first chamber under a first level of pneumatic pressure at the inlet port. A second valve opens between the first chamber and the second chamber under a second, greater level of pneumatic pressure in the first chamber. A third valve opens between the second chamber and the first chamber under a third level of pneumatic pressure in the second chamber, with the third level being less than the first level.
대표청구항
▼
1. An apparatus comprising: a valve housing having an inlet port, a first chamber with a first outlet port, and a second chamber with a second outlet port;a first valve configured to open a pneumatic flow path from the inlet port to the first chamber in response to a first level of pneumatic pressur
1. An apparatus comprising: a valve housing having an inlet port, a first chamber with a first outlet port, and a second chamber with a second outlet port;a first valve configured to open a pneumatic flow path from the inlet port to the first chamber in response to a first level of pneumatic pressure at the inlet port;a second valve configured to open a pneumatic flow path from the first chamber to the second chamber in response to a second, greater level of pneumatic pressure in the first chamber; anda third valve configured to open a pneumatic flow path from the second chamber to the first chamber in response to a third level of pneumatic pressure in the second chamber, with the third level being less than the first level. 2. An apparatus as defined in claim 1 wherein the first, second, and third valves are check valves. 3. An apparatus as defined in claim 2 wherein the first and second valves are spring-loaded check valves, and the third valve is a flapper check valve. 4. An apparatus as defined in claim 1 further comprising a compressor, a sensor responsive to pneumatic pressure in the second chamber, and a controller configured to respond to the sensor by turning the compressor off if the pneumatic pressure in the second chamber reaches a fourth level greater than the second level. 5. An apparatus comprising: a valve housing having an inlet port, a first chamber with a first outlet port, and a second chamber with a second outlet port;a first spring-loaded check valve configured to open a pneumatic flow path from the inlet port to the first chamber under pneumatic pressure at the inlet port;a second spring-loaded check valve configured to open a pneumatic flow path from the first chamber to the second chamber under pneumatic pressure in the first chamber; anda flapper check valve configured to open a pneumatic flow path from the second chamber to the first chamber under pneumatic pressure in the second chamber. 6. An apparatus as defined in claim 5 further comprising a compressor, a sensor responsive to pneumatic pressure in the second chamber, and a controller configured to respond to the sensor by turning the compressor off if the pneumatic pressure in the second chamber reaches a predetermined elevated level. 7. An apparatus as defined in claim 6 wherein the first spring-loaded check valve is configured to open under a first level of pneumatic pressure, the second spring-loaded check valve is configured to open under a second level of pneumatic pressure greater than the first level, and the flapper check valve is configured to open under a third level of pneumatic pressure less than the first level. 8. An apparatus comprising: a compressor;a tank;a pneumatic output line;a first valve configured to open a pneumatic flow path from the compressor to the output line in response to a first level of pneumatic pressure;a second valve configured to open a pneumatic flow path from the output line to the tank in response to a second, greater level of pneumatic pressure; anda third valve configured to open a pneumatic flow path from the tank to the output line in response to a third level of pneumatic pressure less than the first level. 9. An apparatus as defined in claim 8 wherein the first, second and third valves are check valves. 10. An apparatus as defined in claim 9 wherein the first and second valves are spring-loaded check valves, and the third valve is a flapper check valve. 11. An apparatus as defined in claim 8 further comprising a sensor responsive to pneumatic pressure in the tank, and a controller configured to respond to the sensor by turning the compressor off if the pneumatic pressure in the tank reaches a predetermined storage level greater than the second level. 12. An apparatus comprising: a compressor;a tank;a pneumatic output line;a valve housing having an inlet port coupled to the compressor to receive compressed air from the compressor, a first chamber with a first outlet port coupled to the output line to provide compressed air to the output line, and a second chamber with a second outlet port coupled to the tank to provide compressed air to the tank;a first valve configured to open a pneumatic flow path from the inlet port to the first chamber in response to a first level of pneumatic pressure at the inlet port;a second valve configured to open a pneumatic flow path from the first chamber to the second chamber in response to a second, greater level of pneumatic pressure in the first chamber; anda third valve configured to open a pneumatic flow path from the second chamber to the first chamber in response to a third level of pneumatic pressure in the second chamber, with the third level being less than the first level. 13. An apparatus as defined in claim 12 wherein the first, second and third valves are check valves. 14. An apparatus as defined in claim 13 wherein the first and second valves are spring-loaded check valves, and the third valve is a flapper check valve. 15. An apparatus as defined in claim 12 further comprising a sensor responsive to pneumatic pressure in the second chamber, and a controller configured to respond to the sensor by turning the compressor off if the pneumatic pressure in the second chamber reaches a fourth level greater than the second level. 16. An apparatus comprising: a compressor;a tank;a pneumatic output line;a valve housing having an inlet port coupled to the compressor to receive compressed air from the compressor, a first chamber with a first outlet port coupled to the output line to provide compressed air to the output line, and a second chamber with a second outlet port coupled to the tank to provide compressed air to the tank;a first spring-loaded check valve configured to open a pneumatic flow path from the inlet port to the first chamber under pneumatic pressure at the inlet port;a second spring-loaded check valve configured to open a pneumatic flow path from the first chamber to the second chamber under pneumatic pressure in the first chamber; anda flapper check valve configured to open a pneumatic flow path from the second chamber to the first chamber under pneumatic pressure in the second chamber. 17. An apparatus as defined in claim 16 further comprising a sensor responsive to pneumatic pressure in the second chamber, and a controller configured to respond to the sensor by turning the compressor off if the pneumatic pressure in the second chamber reaches a predetermined elevated level. 18. An apparatus as defined in claim 17 wherein the first spring-loaded check valve is configured to open under a first level of pneumatic pressure, the second spring-loaded check valve is configured to open under a second level of pneumatic pressure greater than the first level, and the flapper check valve is configured to open under a third level of pneumatic pressure less than the first level.
이 특허에 인용된 특허 (7)
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Hay Wayne W. (Madison WI), Anesthesia breathing circuit with positive end expiratory pressure valve.
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Montgomery,Kevin M.; Abt,Joseph A., Apparatus for use with pneumatic device.
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Lammers, Daniel A., Check valve.
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Tsuchida Masayuki (Yokohama JPX) Inoue Toshio (Yokohama JPX) Mizutani Yoich (Isehara JPX) Suzuki Toshitsugu (Tokyo JPX), Compressor.
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Viebahn, Reiner; Adams, Christoph, Fuel tank.
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Chandra Johan B. ; Abt Joseph A., Pressure control for a reciprocating compressor.
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Farr Glyn P. R. (Leek Wootton GB2), Pump unloader and accumulator charging valve.
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Lin, Cheng-Hsiung, Air maintenance tire.
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Lin, Cheng-Hsiung, Control regulator and pumping system for an air maintenance tire.
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Mulder, Bernardo Arnoldus; Stolk, Theodoor, Device for making a beverage adapted to accurately set a dispense temperature of the beverage.
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McNabb, William; Huggins, Mark; Whitmire, J. Porter, Methods and systems for controlling a garage door opener accessory.
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McNabb, William; Huggins, Mark; Whitmire, J. Porter, Modular garage door opener.
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McNabb, William; Huggins, Mark; Whitmire, J. Porter, Modular garage door opener.
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Whitmire, J. Porter; Zimmerman, Todd; Huggins, Mark; Preus, Michael; Pleasants, Parke; Jenkins, J. Luke; McCracken, Robert E.; Brazell, Kenneth M.; Ohi, Taku; Lagman, C. Eric, Modular garage door opener.
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Whitmire, J. Porter; Zimmerman, Todd; Huggins, Mark; Preus, Michael; Pleasants, Parke; Jenkins, J. Luke; McCracken, Robert E.; Brazell, Kenneth M.; Ohi, Taku; Lagman, C. Eric, Modular garage door opener.
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