IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0913921
(2004-08-06)
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등록번호 |
US-7779790
(2010-09-13)
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발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Choate Hall & Stewart LLP
|
인용정보 |
피인용 횟수 :
10 인용 특허 :
34 |
초록
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In various aspects, the present invention provides an electric tankless liquid heater system capable of delivering liquid, such as, for example, water, with an acceptable increase in output liquid temperature upon a sudden and substantial decrease in liquid demand. In various aspects, the electric t
In various aspects, the present invention provides an electric tankless liquid heater system capable of delivering liquid, such as, for example, water, with an acceptable increase in output liquid temperature upon a sudden and substantial decrease in liquid demand. In various aspects, the electric tankless liquid heater comprises an inlet manifold and a plurality of liquid heaters the inlets of which are connected in a parallel flow relationship by the inlet manifold, and the outlets of which are each connected to a separate outlet conduit, and which is configured to provide water to a plurality of automatic water fixtures with a less than about 2° F. (about 1.1° C.) increase in output water temperature upon about a one-and-a-half-fold or greater decrease in water demand that occurs in less than about 500 milliseconds as measured by the increase time of the inlet liquid pressure.
대표청구항
▼
What is claimed is: 1. A tankless liquid heater comprising: an inlet manifold; a plurality of liquid heaters each having a liquid inlet and a liquid outlet, the liquid inlets of the plurality of liquid heaters being connected in a parallel flow relationship by the inlet manifold and each of the plu
What is claimed is: 1. A tankless liquid heater comprising: an inlet manifold; a plurality of liquid heaters each having a liquid inlet and a liquid outlet, the liquid inlets of the plurality of liquid heaters being connected in a parallel flow relationship by the inlet manifold and each of the plurality of liquid heaters having one or more electrical resistance heating elements for heating liquid flowing through said liquid heater; each of the plurality of liquid heaters further comprising: a housing having a liquid inlet channel integrally including the liquid inlet and a liquid outlet channel integrally including the liquid outlet, the housing defining a central passage opening into an exterior housing surface; and a heating cartridge resident in the central passage, the heating cartridge supporting interiorly of the housing the one or more electrical resistance heating elements; and a separate outlet conduit connected to the liquid outlet of each liquid heater; wherein the plurality of liquid heaters is adapted to deliver water with less than about a 3° F. increase in output water temperature upon about a two-fold or greater decrease in water demand, the decrease in water demand occurring in less than about 2 seconds. 2. The tankless liquid heater of claim 1, wherein the tankless liquid heater is capable of delivering water with less than about a 2° F. increase in output water temperature. 3. The tankless liquid heater of claim 1, wherein the tankless liquid heater is capable of delivering water with less than about a 1° F. increase in output water temperature. 4. The tankless liquid heater of claim 1, wherein the decrease in water demand is about a three-fold or greater decrease in water demand. 5. The tankless liquid heater of claim 1, wherein the outlet water temperature is in the range between about 104 to about 106° F. prior to the decrease in water demand. 6. The tankless liquid heater of claim 1, wherein the input water flow rate is in the range between about 0.5 gpm to about 1.5 gpm prior to the decrease in water demand. 7. The tankless liquid heater of claim 1, wherein the decrease in water demand occurs in less than about 1 second. 8. The tankless liquid heater of claim 1, wherein the decrease in water demand occurs in less than about 500 milliseconds. 9. The tankless liquid heater of claim 1, wherein the decrease in water demand occurs in less than about 250 milliseconds. 10. The tankless liquid heater of claim 1, wherein the decrease in water demand occurs in less than about 75 milliseconds. 11. The tankless liquid heater of claim 1, wherein the time it takes for the decrease in water demand to occur is determined by a time during which the inlet liquid pressure increases substantially. 12. The tankless liquid heater of claim 1, wherein the plurality of liquid heaters comprises 3 or more liquid heaters. 13. The tankless liquid heater of claim 1, wherein the one or more electrical resistance heating elements are sheathless. 14. The tankless liquid heater of claim 1, wherein the one or more electrical resistance heating elements each include a mechanically stressed portion and an electrically conductive member configured to substantially eliminate electrical current flow through the mechanically stressed portion. 15. The tankless liquid heater of claim 1, wherein one or more of the first plurality of liquid heaters further comprise a flow sensor operably disposed in the liquid inlet channel. 16. The tankless liquid heater of claim 15, wherein the flow sensor is configured to provide a signal to a controller, the controller configured to prevent energizing an electrical resistance heating element of the liquid heater until the flow rate of the liquid through the liquid inlet channel exceeds a predetermined flow rate threshold. 17. The tankless liquid heater of claim 1, wherein one or more of the first plurality of liquid heaters further comprise a temperature sensor operably disposed in the liquid outlet channel. 18. The tankless liquid heater of claim 17, further comprising a controller configured to regulate electrical current flow to one or more electrical resistance heating elements in response to a signal produced by the temperature sensor to maintain an the outlet water temperature below a maximum temperature value in the range between about 102° F. to about 106° F. 19. The tankless liquid heater of claim 17, further comprising a controller configured to regulate electrical current flow to one or more electrical resistance heating elements in response to a signal produced by the temperature sensor to maintain an the outlet water temperature in the range between about 100° F. to about 105° F. 20. The tankless liquid heater of claim 19, wherein the controller is configured to maintain an the outlet water temperature in the range between about 104° F. to about 105° F. 21. A tankless liquid heater comprising: an inlet manifold; a plurality of liquid heaters each having a liquid inlet and a liquid outlet, the liquid inlets of the plurality of liquid heaters being connected in a parallel flow relationship by the inlet manifold and each of the plurality of liquid heaters having one or more electrical resistance heating elements for heating liquid flowing through said liquid heater; the first plurality of liquid heaters comprising: a housing having a liquid inlet channel integrally including the liquid inlet and a liquid outlet channel integrally including the liquid outlet, the housing defining a central passage opening into an exterior housing surface; a heating cartridge resident in the central passage, the heating cartridge supporting interiorly of the housing the one or more electrical resistance heating elements; and each of the electrical resistance heating elements having a mechanically stressed portion and an electrically conductive member configured to substantially eliminate electrical current flow through the mechanically stressed portion; a temperature sensor operably disposed in the liquid outlet channel of one or more of the liquid heaters; a controller configured to regulate electrical current flow to one or more electrical resistance heating elements in response to a signal produced by the temperature sensor to maintain an the outlet water temperature in the range between about 100° F. to about 105° F.; and a separate outlet conduit connected to the liquid outlet of each liquid heater; wherein the plurality of liquid heaters is adapted to deliver water with less than about a 2° F. increase in output water temperature upon about a two-fold or greater decrease in water demand, the decrease in water demand occurring in less than about 500 milliseconds. 22. The tankless liquid heater of claim 21, wherein the sudden decrease in water demand occurs in less than about 250 milliseconds. 23. The tankless liquid heater of claim 21, wherein the sudden decrease in water demand occurs in less than about 75 milliseconds. 24. The tankless liquid heater of claim 21, wherein the time it takes for the decrease in water demand to occur is determined by a time during which the inlet liquid pressure increases substantially. 25. The tankless liquid heater of claim 21, wherein the tankless liquid heater is capable of delivering water with less than about a 1° F. increase in output water temperature. 26. The tankless liquid heater of claim 21 wherein the decrease in water demand is about a three-fold or greater decrease in water demand. 27. The tankless liquid heater of claim 21 wherein the outlet water temperature is in the range between about 104 to about 106° F. prior to the decrease in water demand. 28. The tankless liquid heater of claim 21, wherein the input water flow rate is in the range between about 0.5 gpm to about 1.5 gpm prior to the decrease in water demand. 29. The tankless liquid heater of claim 21, wherein the one or more electrical resistance heating elements are sheathless.
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