A water heating system having a system inlet pipe (1.002), a hot water delivery pipe (1.003) and a hot water return pipe (1.006) connected to a building hot water distribution network (1.024); the water heating system including one or more water heaters (1.001), the or each water heater having a hea
A water heating system having a system inlet pipe (1.002), a hot water delivery pipe (1.003) and a hot water return pipe (1.006) connected to a building hot water distribution network (1.024); the water heating system including one or more water heaters (1.001), the or each water heater having a heater inlet (1.022) and a heater outlet (1.023), a hot water return pipe (1.006) connected between the system inlet and delivery outlet via the building hot water distribution network to form a close loop hot water supply-return circuit; a pump (1.005) connected to circulate water through the hot water supply-return circuit whereby the pump can circulate water through one or more of the water heaters; a valve means (1.007) a first non-return valve adapted to prevent inlet water (water delivered to the system inlet) from flowing into the hot water return pipe or the building hot water distribution network.
대표청구항▼
1. A water heating system connected to a building hot water distribution network, said water heating system comprising: a system water inlet;a water delivery outlet connected to the building hot water distribution network;a hot water return inlet connected to the building hot water distribution netw
1. A water heating system connected to a building hot water distribution network, said water heating system comprising: a system water inlet;a water delivery outlet connected to the building hot water distribution network;a hot water return inlet connected to the building hot water distribution network;multiple water heaters, each water heater comprising: a heater inlet that is connected to the system water inlet to receive water from a water supply and to the hot water return inlet to receive water from the building hot water distribution network; anda heater outlet that is connected to the water delivery outlet to deliver water from the water heater to the building hot water distribution network;a supplemental water flow path connecting the system water inlet to the water delivery outlet, the supplemental water flow path bridging the multiple water heaters and including a flow control device adapted to permit flow from the system water inlet to the water delivery outlet through the supplemental water flow path, simultaneously with flow from the system water inlet to the water delivery outlet through the multiple water heaters, when a pressure differential across the multiple water heaters exceeds a predetermined pressure differential, wherein the supplemental water flow path comprises a water storage tank disposed between the system water inlet and the flow control device and between the hot water return inlet and the flow control device; anda controller communicably coupled to a flow detector and responsive to flow rate information provided by the flow detector to select one or more water heaters of the multiple water heaters to be activated. 2. A system as claimed in claim 1, wherein the flow control device comprises a pressure activated device oriented so a pressure differential between an inlet of the pressure activated device and an outlet of the pressure activated device enables water from the system water inlet to be fed to the water delivery outlet when pressure at the inlet of the pressure activated device exceeds pressure of the pressure activated device outlet by an operating pressure of the pressure activated device. 3. A system as claimed in claim 2, including a non-return valve in the hot water return inlet. 4. A system as claimed in claim 1, wherein each water heater of the multiple water heaters includes a water control valve. 5. A system as claimed in claim 1, including a first temperature sensor sensing a temperature of water delivered to the multiple water heaters via the hot water return inlet, and a pump in the hot water return inlet being controlled by the first temperature sensor, whereby the pump is turned on when the temperature sensed by the first temperature sensor falls below a first predetermined temperature. 6. A system as claimed in claim 1, wherein said system is incorporated within an appliance having fittings for connection to a mains supply or a pre-heated hot water inlet supply, the water delivery outlet and the hot water return inlet. 7. A system as claimed in claim 1, wherein the supplemental water flow path connects the system water inlet and the hot water return inlet to the water delivery outlet. 8. The system as in claim 1, wherein the system water inlet is a mains cold water source. 9. A method of operating a circulating water heating system including multiple water heaters having respective heater inlets connected in parallel to a system water inlet and respective heater outlets connected in parallel to a hot water delivery outlet, the multiple water heaters connected in parallel between the system water inlet and the hot water delivery outlet, a hot water return inlet connecting an end of a building hot water distribution network to the system water inlet, a circulating pump adapted to circulate water through the hot water delivery outlet and the building hot water distribution network and the hot water return inlet and the multiple water heaters, anda supplemental water flow path connected from the system water inlet to the hot water delivery outlet, the supplemental water flow path including a pressure activated device, the method comprising the steps of:sensing a pressure differential across the multiple water heaters;opening the pressure activated device when the pressure differential exceeds a predetermined value so that water flows through the supplemental water flow path simultaneously with flow from the system water inlet to the hot water delivery outlet through the multiple water heaters, wherein the supplemental water flow path includes a water storage tank;sensing a water flow rate of the system by a flow detector; andselecting one or more water heaters of the multiple water heaters based on flow rate information from the flow detector. 10. A method as claimed in claim 9, wherein said system is incorporated within an appliance having fittings for connection to a mains or pre-heated hot water supply inlet, the hot water delivery outlet and the hot water return inlet. 11. The method as in claim 9, wherein the system water inlet is a mains cold water source. 12. A water heating system connected to a building hot water distribution network, said water heating system comprising: a system water inlet;a water delivery outlet connected to the building hot water distribution network;a hot water return inlet connected to the building hot water distribution network;the water heating system including one or more water heaters, each water heater comprising: a heater inlet that is connected to the system water inlet to receive water from a water supply and to the hot water return inlet to receive water from the building hot water distribution network; anda heater outlet that is connected to the water delivery outlet to deliver water from the water heater to the building hot water distribution network;a supplemental water flow path connecting the system water inlet to the water delivery outlet, the supplemental water flow path bridging the water heater or water heaters and including a water storage tank and a flow control device adapted to permit flow from the system water inlet to the delivery outlet through the water storage tank, simultaneously with flow from the system water inlet to the water delivery outlet through the one or more water heaters, when a pressure differential across the water heater or water heaters exceeds a predetermined pressure differential. 13. The system as in claim 12, wherein the system water inlet is a mains cold water source. 14. A system as claimed in claim 13, wherein the flow control device comprises a pressure activated device configured to enable water from the system water inlet to be fed to the water delivery outlet when an inlet pressure at an inlet of the pressure activated device exceeds an outlet pressure at an outlet of the pressure activated device by an operating pressure of the pressure activated device. 15. A system as claimed in claim 13, including a flow detector detecting a level of flow of water through the system and a controller responsive to the flow detector to select one or more water heaters from among the multiple water heaters to be activated. 16. A system as claimed in claim 13, including a first temperature sensor sensing a temperature of water delivered to the multiple water heaters via the hot water return inlet, and a pump in the hot water return inlet being controlled by the first temperature sensor, whereby the pump is turned on when the temperature sensed by the first temperature sensor falls below a first predetermined temperature. 17. A system as claimed in claim 13, further comprising a recirculation path connecting an outlet of the water storage tank and an inlet of the water storage tank, wherein the recirculation path comprises a non-return valve that blocks water flow to the outlet of the water storage tank through the recirculation path. 18. A system as claimed in claim 17, wherein the recirculation path connects the outlet of the water storage tank and the system water inlet.
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이 특허에 인용된 특허 (7)
Phillips David L. (Casselberry FL) Foster Clifton L. (Kissimmee FL), Aircraft deicing apparatus and method.
Herweyer Elliot E. (3055 River Rd. W. ; P.O. Box 257 Goochland VA 23063), Parallel piped fluid heaters with staged flow controlled by magnetic priority valves.
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