IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0702744
(2007-02-05)
|
등록번호 |
US-7475703
(2009-01-13)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Grundfos Pumps Corporation
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
10 인용 특허 :
32 |
초록
▼
A thermostatically controlled bypass valve includes a housing having a first inlet port and a first discharge port located proximate to one another, wherein the first inlet port is configured to receive hot water, and the first discharge port is configured to discharge the hot water. The housing has
A thermostatically controlled bypass valve includes a housing having a first inlet port and a first discharge port located proximate to one another, wherein the first inlet port is configured to receive hot water, and the first discharge port is configured to discharge the hot water. The housing has a second inlet port and a second discharge port located proximate to one another, wherein the second inlet port is configured to receive cold water, and the second discharge port is configured to discharge the cold water. The first and second inlet and discharge ports are formed integral with one another as part of the housing, and the housing includes a passage permitting recirculating flow between the first and second inlet ports. A thermally sensitive actuating member is disposed in a chamber in the housing, wherein the thermally sensitive actuating member extends when heated and contracts when cooled. A bias spring is disposed in the chamber in the housing, wherein the bias spring engages the thermally sensitive actuating member and urges the thermally sensitive actuating member to contract. The thermally sensitive actuating member extends to close the passage and contracts to open the passage based on a temperature of the thermally sensitive actuating member.
대표청구항
▼
What is claimed is: 1. A water pump and bypass valve sub-system for use in a water circulating system, the sub-system comprising: a thermostatically controlled bypass valve configured to be located proximate a fixture in the water circulating system, the valve comprising: a housing having a hot wat
What is claimed is: 1. A water pump and bypass valve sub-system for use in a water circulating system, the sub-system comprising: a thermostatically controlled bypass valve configured to be located proximate a fixture in the water circulating system, the valve comprising: a housing having a hot water port and a cold water port, the hot water port being configured to communicate with a hot water supply line, the cold water port being configured to communicate with a cold water supply line, the housing having a fluid path permitting recirculating flow between the hot and cold water ports; and a thermal actuator disposed within the housing, the thermal actuator changing state when heated and when cooled to block and permit recirculating flow based on a temperature of the thermal actuator; and a water pump configured to be located in the water circulation system remote from the fixture, the pump being configured to pump water through the water circulating system to the bypass valve. 2. The sub-system of claim 1, further comprising a check valve connected in parallel with the pump, the check valve being configured to permit water to bypass the pump when a flow rate of the water circulating system exceeds a capacity of the pump. 3. The sub-system of claim 1, wherein the hot and cold water ports are threaded to facilitate direct connection to flexible hoses that form part of the hot and cold water supply lines, respectively. 4. The sub-system of claim 1, wherein the hot water port includes a hot inlet port and a hot discharge port located proximate to and integral with one another, the hot inlet port being configured to receive hot water, the hot discharge port being configured to discharge the hot water, the cold water port and the hot inlet and discharge ports being formed integral with one another as part of a one-piece body. 5. The sub-system of claim 1, wherein the cold water port includes a cold inlet port and a cold discharge port located proximate to one another, the cold inlet port being configured to receive cold water, the cold discharge port being configured to discharge the cold water, the hot water port and the cold inlet and discharge ports being formed integral with one another as part of a one-piece body. 6. The sub-system of claim 1, further comprising a screen positioned within the housing between the hot water port and the thermal actuator. 7. The sub-system of claim 1, wherein the bypass valve further comprises a bias spring disposed in the housing, the bias spring urging the thermal actuator to contract. 8. The sub-system of claim 1, further comprising an over-travel spring disposed within the housing, the over-travel spring allowing movement of thermal actuator. 9. The sub-system of claim 1, further comprising a control timer that turns the pump on and off, the control timer being adjustable by a user to direct the pump to operate for a period during which hot water is desired. 10. The sub-system of claim 1, wherein the thermal actuator constitutes one of a bimetallic member, a memory alloy member and a wax filled cartridge. 11. The sub-system of claim 1, wherein the thermal actuator changes between first and second states through a snap action. 12. The sub-system of claim 1, wherein the thermal actuator constitutes a bimetallic member. 13. The sub-system of claim 12, wherein the bimetallic member constitutes a bimetallic spring. 14. The sub-system of claim 1, further comprising a flow switch for detecting the flow of water in the hot water supply line, the flow switch operatively connected to the water pump and suitable for shutting off the water pump when the flow of water in the hot water supply line exceeds a flow rate capacity of the bypass valve. 15. The sub-system of claim 1, further comprising a normally closed flow switch that monitors a flow through the water circulating system, the flow switch preventing the pump from turning on when the flow is larger than a maximum flow permitted through the bypass valve. 16. The sub-system of claim 1, wherein the housing includes a chamber having an open end, the thermal actuator being loaded into the chamber through the open end and held in the chamber with a retention member. 17. The sub-system of claim 1, wherein the water pump is configured to be located remote from the fixture. 18. The sub-system of claim 1, wherein the bypass valve includes a body holding the thermal actuator, and the bypass valve including a rod member that is moved by the thermal actuator when the thermal actuator changes state. 19. A water pump and bypass valve sub-system for use in a water circulating system, the sub-system comprising: a bypass valve configured to be located proximate a fixture in the water circulating system, the bypass valve comprising: a housing having a hot water port and a cold water port, the hot water port being configured to communicate with a hot water supply line, the cold water port being configured to communicate with a cold water supply line, the housing having a fluid path permitting recirculating flow between the hot and cold water ports; a thermal actuator disposed within the housing, the thermal actuator changing state when heated and when cooled to block and permit recirculating flow based on a temperature of the thermal actuator; and a screen positioned within the housing between the hot water port and the thermal actuator; and a water pump configured to be located in the water circulation system, the pump being configured to pump water through the water circulating system to the bypass valve. 20. The sub-system of claim 19, wherein the hot water port includes a hot inlet port and a hot discharge port, the hot inlet port being configured to receive hot water, the hot discharge port being configured to discharge the hot water, wherein the cold water port includes a cold inlet port and a cold discharge port, the cold inlet port being configured to receive cold water, the cold discharge port being configured to discharge the cold water, the cold inlet and discharge ports and the hot inlet and discharge ports being formed integral with one another as part of a one-piece body. 21. The sub-system of claim 19, wherein the thermal actuator constitutes one of a bimetallic member, a memory alloy member and a wax filled cartridge. 22. The sub-system of claim 19, wherein the thermal actuator changes between first and second states through a snap action. 23. The sub-system of claim 19, wherein the thermal actuator constitutes a bimetallic member. 24. The sub-system of claim 19, wherein the bimetallic member constitutes a bimetallic spring. 25. The sub-system of claim 19, further comprising a control timer that turns the pump on and off. 26. The sub-system of claim 19, wherein the housing includes a chamber having an open end, the thermal actuator being loaded into the chamber through the open end and held in the chamber with a retention member. 27. A water pump and bypass valve sub-system for use in a water circulating system, the sub-system comprising: a bypass valve configured to be located proximate a fixture in the water circulating system, the bypass valve comprising: a housing having a hot water port and a cold water port, the hot water port being configured to communicate with a hot water supply line, the cold water port being configured to communicate with a cold water supply line, the housing having a fluid path permitting recirculating flow between the hot and cold water ports; and a thermal actuator disposed within the housing, the thermal actuator changing state when heated and when cooled to block and permit recirculating flow based on a temperature of the thermal actuator; a water pump configured to be located in the water circulation system, the pump being configured to pump water through the water circulating system to the bypass valve; and a control timer that turns the pump on and off, the control timer being adjustable by a user. 28. The sub-system of claim 27, wherein the hot water port includes a hot inlet port and a hot discharge port, the hot inlet port being configured to receive hot water, the hot discharge port being configured to discharge the hot water, wherein the cold water port includes a cold inlet port and a cold discharge port, the cold inlet port being configured to receive cold water, the cold discharge port being configured to discharge the cold water, the cold inlet and discharge ports and the hot inlet and discharge ports being formed integral with one another as part of a one-piece body. 29. The sub-system of claim 27, wherein the thermal actuator constitutes one of a bimetallic member, a memory alloy member and a wax filled cartridge. 30. The sub-system of claim 27, wherein the thermal actuator changes between first and second states through a snap action. 31. The sub-system of claim 27, wherein the thermal actuator constitutes a bimetallic member. 32. The sub-system of claim 31, wherein the bimetallic member constitutes a bimetallic spring. 33. The sub-system of claim 27, wherein the housing includes a chamber having an open end, the thermal actuator being loaded into the chamber through the open end and held in the chamber with a retention member. 34. A water pump and bypass valve sub-system for use in a water circulating system, the sub-system comprising: a bypass valve configured to be located proximate a fixture in the water circulating system, the bypass valve comprising: a housing having a hot water port and a cold water port, the hot water port being configured to communicate with a hot water supply line, the cold water port being configured to communicate with a cold water supply line, the housing having a fluid path permitting recirculating flow between the hot and cold water ports; a thermal actuator disposed within the housing, the thermal actuator changing state when heated and when cooled to block and permit recirculating flow based on a temperature of the thermal actuator; and a check valve arranged in the housing to block flow through the fluid path in a direction from the cold water port to the hot water port; and a water pump configured to be located in the water circulation system, the pump being configured to pump water through the water circulating system to the bypass valve. 35. The sub-system of claim 34, wherein the hot water port includes a hot inlet port and a hot discharge port, the hot inlet port being configured to receive hot water, the hot discharge port being configured to discharge the hot water, wherein the cold water port includes a cold inlet port and a cold discharge port, the cold inlet port being configured to receive cold water, the cold discharge port being configured to discharge the cold water, the cold inlet and discharge ports and the hot inlet and discharge ports being formed integral with one another as part of a one-piece body. 36. The sub-system of claim 34, wherein the thermal actuator constitutes one of a bimetallic member, a memory alloy member and a wax filled cartridge. 37. The sub-system of claim 34, wherein the thermal actuator changes between first and second states through a snap action. 38. The sub-system of claim 34, wherein the thermal actuator constitutes a bimetallic member. 39. The sub-system of claim 38, wherein the bimetallic member constitutes a bimetallic spring. 40. The sub-system of claim 39, further comprising a normally closed flow switch that monitors a flow through the water circulating system, the flow switch preventing the pump from turning on when the flow is larger than a maximum flow permitted through the bypass valve. 41. The sub-system of claim 39, wherein housing includes a chamber having an open end, the thermal actuator being loaded into the chamber through the open end and held in the chamber with a retention member. 42. The sub-system of claim 39, wherein the bypass valve further includes a screen positioned within the housing between the hot water port and the thermal actuator.
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