IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0803844
(2001-03-12)
|
발명자
/ 주소 |
- Fusco, Michael T.
- St. Pierre, William
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
31 인용 특허 :
52 |
초록
▼
A no spill training cup includes a cup and cover with a drinking spout in the cover. The cover also has a vent opening for maintaining the ambient pressure in the cup with the vent opening being covered by a hydrophobic membrane that allows the flow of air into the cup but prevents liquid from flowi
A no spill training cup includes a cup and cover with a drinking spout in the cover. The cover also has a vent opening for maintaining the ambient pressure in the cup with the vent opening being covered by a hydrophobic membrane that allows the flow of air into the cup but prevents liquid from flowing out of the cup through the vent opening. A valve housing is attached to the cover on the inlet side of the spout. The valve includes a diaphragm supported in the housing and biased to engage a valve seat in the housing to prevent flow of liquid from the cup to the spout. When a child sucks on the spout, the pressure on the outlet side of the diaphragm causes it to disengage the valve seat and allow the liquid to flow out of the cup through the spout. When the child stops sucking on the spout, the valve immediately returns to its closed position on the seat so as to prohibit the flow of liquid from the cup through the spout.
대표청구항
▼
A no spill training cup includes a cup and cover with a drinking spout in the cover. The cover also has a vent opening for maintaining the ambient pressure in the cup with the vent opening being covered by a hydrophobic membrane that allows the flow of air into the cup but prevents liquid from flowi
A no spill training cup includes a cup and cover with a drinking spout in the cover. The cover also has a vent opening for maintaining the ambient pressure in the cup with the vent opening being covered by a hydrophobic membrane that allows the flow of air into the cup but prevents liquid from flowing out of the cup through the vent opening. A valve housing is attached to the cover on the inlet side of the spout. The valve includes a diaphragm supported in the housing and biased to engage a valve seat in the housing to prevent flow of liquid from the cup to the spout. When a child sucks on the spout, the pressure on the outlet side of the diaphragm causes it to disengage the valve seat and allow the liquid to flow out of the cup through the spout. When the child stops sucking on the spout, the valve immediately returns to its closed position on the seat so as to prohibit the flow of liquid from the cup through the spout. device for holding the first and second valves at the positions of opening the first and second bypass conduit ports when the hydraulic pressure source is inoperative. 3. A power steering system according to claim 2, wherein the holding device comprises springs for urging the valves toward the positions of opening the bypass conduit ports, respectively. 4. A power steering system according to claim 1, further comprising a reservoir disposed upstream of the hydraulic pressure source for collecting system fluid. 5. A power steering system according to claim 4, wherein the reservoir collects system fluid leaking from the hydraulic pressure source. 6. A power steering system according to claim 4, wherein when the hydraulic pressure source is inoperative, the first and second chambers of the hydraulic cylinder are communicated with the reservoir through the first and second valves held in the positions of opening the first and second bypass conduit ports. 7. A power steering system according to claim 1, wherein the hydraulic pressure source comprises a fluid pump driven to rotate in a forward direction for supplying the pressure fluid to the first communication conduit and in a reverse direction for supplying the pressure fluid to the second communication conduit. 8. A power steering system according to claim 1, further comprising pressure differential generating devices disposed in the respective first and second communication conduits for generating pressure differentials by which the first and second valves are opened and closed. 9. A power steering system according to claim 8, wherein each of the pressure differential generating devices comprises a pressure control valve. 10. A power steering system according to claim 8, wherein each of the pressure differential generating devices comprises an orifice. 11. A power steering system according to claim 8, further comprising third and fourth communication conduits provided to the first and second communication conduits in a way as to bypass the differential pressure generating devices, respectively and check valves disposed in the third and fourth communication conduits for allowing flow of the pressure fluid only in one direction from the first and second chambers of the hydraulic cylinder to the hydraulic pressure source, respectively. 12. A power steering system according to claim 1, wherein the first and second valves are in the form of poppet valves and comprise valve bodies and a connecting rod, the valve bodies being connected by the connecting rod so as to constitute an integral unit. 13. A power steering system according to claim 1, wherein the first and second valves are in the form of poppet valves and comprise valve bodies axially aligned and axially movable toward and away from each other, the valve bodies having stem portions which are brought into contact with each other when one of the first and second valves is in the position of closing corresponding one of the first and second bypass conduit ports. 14. A power steering system according to claim 1, wherein the first and second valves are in the form of poppet valves and having valve bodies axially aligned with each other and movable independently, one of the valve bodies having an abutment abuttingly engageable with the other of the valve bodies for thereby controlling a distance between main body portions of the valve bodies in a way as to prevent the first and second valves from closing the bypass conduit ports all at once. 15. A power steering system according to claim 14, wherein the other of the valve bodies has an abutment abuttingly engageable with one of the valve bodies, the first and second valves having the same shape. 16. A power steering system according to claim 14, further comprising pressure differential generating devices disposed in the first and second communication conduits, respectively, the first and second valves controlling opening and closing of the bypass conduit in response to fluid pres sures in conduit portions of the first and second communication conduits upstream of the pressure differential generating devices. 17. A power steering system according to claim 1, further comprising a detecting device for detecting a steering force applied to the steering wheel, and an abnormality judging device for judging that an abnormality has occurred in the power steering system when a steering force detected by the detecting device is equal to or larger than a predetermined value. 18. A power steering system for a vehicle comprising: a double-acting hydraulic cylinder for controlling the direction of a pair of wheels of the vehicle, the hydraulic cylinder having first and second chambers and driven in accordance with a pressure differential between a pressure fluid supplied to the first chamber and that to the second chamber; and a hydraulic circuit for controlling supply and discharge of pressure fluid to and from the first and second chambers of the hydraulic cylinder, the hydraulic circuit including: a hydraulic pressure source; a reservoir; and a pair of first and second valves, the first valve being disposed between the first chamber of the hydraulic cylinder and the reservoir for providing communication therebetween when open and thereby allowing discharge of the pressure fluid from the first chamber of the hydraulic cylinder and obstructing communication therebetween when closed and thereby allowing supply of the pressure fluid from the hydraulic pressure source to the first chamber, the second valve being disposed between the second chamber of the hydraulic cylinder and the reservoir for providing communication therebetween when open and thereby allowing discharge of the pressure fluid from the second chamber of the hydraulic cylinder and obstructing communication therebetween when closed and thereby allowing supply of the pressure fluid from the hydraulic pressure source to the second chamber of the hydraulic cylinder; the first and second valves being opened to communicate the first and second chambers of the hydraulic cylinder with the reservoir when the hydraulic pressure source is inoperative. 19. A power steering system according to claim 18, wherein the hydraulic pressure source comprises a reversible pump, the hydraulic circuit including first and second communication conduits connecting the reversible pump to the first and second chambers of the hydraulic cylinder, respectively and a bypass conduit connecting between the first and second communication conduits, the first and second valves being disposed in the bypass conduit. 20. A power steering system according to claim 19, further comprising a controller for selectively switching a driving direction of the reversible pump for thereby selectively supplying the pressure fluid from the reversible pump to one of the first and second communication conduits. 21. A power steering system according to claim 20, wherein the hydraulic circuit comprises pressure reducing valves disposed in the first and second communication conduits, respectively, for producing a pressure differential across the pressure reducing valves, the first and second valves being opened and closed for thereby opening and closing the bypass conduit in response to the pressure differentials produced by the pressure reducing valves. 22. A power steering system according to claim 21, wherein the bypass conduit has first and second bypass conduit ports which are opened and closed by the first and second valves, respectively. 23. A power steering system according to claim 22, wherein the first and second valves are in the form of poppet valves and axially aligned with each other, the first and second valves having valve bodies and a connecting rod, the valve bodies being connected by the connecting rod so as to constitute an integral unit. 24. A power steering system according to claim 22, wherein the first and second valves are in the form of poppet valves and comprise valve bod
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