The present invention relates to heating water and maintaining water at two different temperatures in a single tank.
In one embodiment, the invention provides a water heating apparatus including a tank divided into first and second chambers, wherein water in the first chamber has a first temperature and water in the second chamber has a second temperature. The water heating apparatus also includes a first outlet for supplying water from the first chamber to a first recipient, a first thermostat configured to measure the first temperature, a second thermostat configured to measure the second temperature, means for heating water in the second chamber, a pump having a pump inlet in fluid communication with the second chamber and a pump outlet in fluid communication with the first chamber, and a controller configured to initiate pumping of water from the second chamber to the first chamber when the first thermostat indicates the first temperature is below a predetermined first value. The controller is also configured to initiate heating of water in the second chamber when the second thermostat indicates the second temperature is below a predetermined second value, the second value being greater than the first value.
In another embodiment the invention provides a water heating and distribution system including a tank divided into first and second chambers, wherein water in the first chamber has a first temperature and water in the second chamber has a second temperature. The water heating and distribution system also includes a first outlet, a first recipient for receiving water from the first chamber via the first outlet, a first thermostat configured to measure the first temperature, a second thermostat configured to measure the second temperature, means for heating water in the second chamber, a pump having a pump inlet in fluid communication with the second chamber and a pump outlet in fluid communication with the first chamber, and a controller configured to initiate pumping of water from the second chamber to the first chamber when the first thermostat indicates the first temperature is below a predetermined first value. The controller is also configured to initiate heating of water in the second chamber when the second thermostat indicates the second temperature is below a predetermined second value, the second value being greater than the first value.
In another embodiment the invention provides a method of storing water at two temperatures, the method including providing a tank divided into first and second chambers, storing water in the first chamber at a first temperature, storing water in the second chamber at a second temperature, and heating water in the second chamber when the second temperature is below a predetermined second value. The method also includes pumping water from the second chamber to the first chamber when the first temperature is below a predetermined first value, the first values being less than the second value, and permitting water flow from the first chamber to the second chamber while pumping water from the second chamber to the first chamber.
Other aspects of the invention will become apparent by consideration of the detailed description and accompanying drawings.
Before any embodiments of the invention are explained in detail, it is to be understood that the invention is not limited in its application to the details of construction and the arrangement of components set forth in the following description or illustrated in the following drawings. The invention is capable of other embodiments and of being practiced or of being carried out in various ways. Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. The use of “including,” “comprising,” or “having” and variations thereof herein is meant to encompass the items listed thereafter and equivalents thereof as well as additional items. Unless specified or limited otherwise, the terms “mounted,” “connected,” “supported,” and “coupled” and variations thereof are used broadly and encompass both direct and indirect mountings, connections, supports, and couplings. Further, “connected” and “coupled” are not restricted to physical or mechanical connections or couplings.
The tank 12 also includes a first or lower outlet conduit 30 for supplying water from the lower chamber 16, and includes a second or upper outlet conduit 34 for supplying water from the upper chamber 18. First and second recipients 32, 36 receive water via the lower and upper conduits 30, 34, respectively, which is explained in greater detail below. Water can be drawn from either or both of the first and second outlet conduits 30, 34 independently.
In the illustrated embodiment, the boiler 14 is configured to receive water from the upper chamber 18 via a boiler inlet conduit 40, heat the water, and return the heated water to the upper chamber 18 via a boiler outlet conduit 42. As explained in greater detail below, the boiler 14 only heats water in the upper chamber 18 when necessary. In alternative embodiments, the water in the tank 12 can be heated with an electric heating element positioned inside the tank, with a gas burner such as those found on conventional gas water heaters, by a conventional water heater, or by any other suitable means. The tank 12 includes a relief valve 43 near the top of the tank 12 to relieve excess pressure that may build within the tank 12 when water is heated.
A pump 44 is connected to the upper chamber 18 via a pump inlet conduit 46, and is connected to the lower chamber 16 via a pump outlet conduit 48. The pump 44 transfers hot water from the upper chamber 18 to the lower chamber 16.
In the illustrated embodiment of
When the second thermostat 52 indicates the second temperature has dropped below the assigned second value, the controller 50 sends a signal to the boiler 14 to cycle and heat water in the upper chamber 18. When the second temperature has met the second value, the controller 50 sends a signal to the boiler 14 to cease cycling and heating.
When the first thermostat 51 indicates the first temperature has dropped below the assigned first value, the controller 50 sends a signal to the pump 44 to transfer warmer water from the upper chamber 18 to the lower chamber 16. When water is pumped from the upper chamber 18 to the lower chamber 16, water from the lower chamber 16 flows through the apertures in the baffle 20 into the upper chamber 18. When the first temperature has met the first value, the controller 50 sends a signal to the pump 44 to cease pumping.
In some embodiments, it may be more economical to operate the pump 44 continuously, rather than turn it on and off as required. In these embodiments, a control valve 55 may be included in the pump inlet conduit 46 (see
The heating of water in the upper chamber 18 and the pumping of water from the upper chamber 18 to the lower chamber 16 occur independently. To minimize wasted energy, the controller 50 only activates the boiler 14 or the pump 44 when necessary. The controller 50 is preferably configured to have some tolerance to avoid constantly turning the boiler 14 and pump 44 on and off. For example, if the assigned first value is 140 F for the lower chamber 16, the controller 50 may pump water from the upper chamber 18 into the lower chamber 16 until the first temperature reaches 142 F before turning off the pump 44, and also may not turn the pump 44 on until the first temperature falls to 138 F. A similar principle could be applied to the upper chamber 18 and the boiler 14. These values are only an example, and could be varied to minimize actuation of the boiler 14 and pump 44 while keeping the first and second temperatures within suitable ranges, depending on the requirements of the first and second recipients 32, 36.
When water is drawn from the first outlet conduit 30, replacement water fills the lower chamber 16 from the cold water inlet. When water is drawn from the second outlet conduit 34, replacement water enters the upper chamber 18 through the apertures in the baffle 20 from the lower chamber 16, and replacement water fills the lower chamber 16 from the cold water inlet. The controller 50 is constantly monitoring the first and second temperatures and controlling heating and pumping to maintain the first and second temperatures, even when water is being drawn from either or both of the lower and upper chambers 16, 18.
The water heating apparatus 10 can be used in numerous applications, including potable water systems and hydronic heating systems.
The water heating apparatus 10 as illustrated in
Also illustrated in
In the illustrated embodiments in
In the illustrated embodiment of
This application is a divisional of U.S. application Ser. No. 11/458,495, filed Jul. 19, 2006, the entire contents of which are incorporated herein by reference.
Number | Date | Country | |
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Parent | 11458495 | Jul 2006 | US |
Child | 12632876 | US |