HOT WATER CIRCULATING APPARATUS

Abstract

A tank-style residential and light commercial hot water heater is provided. The tank-style residential and light commercial hot water heater can include a tank, an intake nipple for receiving a liquid into the tank, an outflow nipple for dispensing the liquid from the tank after heating, and a dedicated return nipple having a valve. The dedicated return nipple is configured to couple to a hot water recirculating system, and the valve is configured to open when the dedicated return nipple is coupled to the hot water recirculating system to allow the dedicated return nipple to receive a recirculated form of the liquid dispensed from the outflow nipple back into the tank. When not in use with a hot water recirculating system, the valve may be closed.

Claims

1. A system for heating and circulating water comprising: a reservoir for heating, holding, and dispensing water comprising: a tank; one or more heating elements; a first fitting for intake of unheated water; a second fitting for the removal of heated water; a third fitting with a valve to drain the tank; and a fourth fitting with a valve for return of the heated water after circulation outside of the tank; and a circulation system for circulating the heated water, the circulating system having: an intake coupled to the second fitting, an outlet coupled to the fourth fitting, a central portion therebetween and distributed in a loop through a home or other structure, and a pump that circulates the heated water from the intake, through the loop, and back to the outlet, wherein the fourth fitting is a dedicated interface between the reservoir and the circulation system.

2. The system of claim 1, wherein the first fitting feeds the unheated water to a bottom portion of the tank below the one or more heating elements, wherein the second fitting is coupled to a top portion of the tank above the one or more heating elements and draws the heated water from the top portion of the tank, wherein the fourth fitting is coupled to the top portion of the tank and returns the heated water to the top portion of the tank.

3. The system of claim 2, wherein the fourth fitting returns the heated water to the tank at a first point below a second point at which the second fitting draws the heated water from the tank.

4. The system of claim 1, wherein the first fitting feeds the unheated water to a bottom portion of the rank below the one or more heating elements, wherein the second fitting is coupled to a top portion of the tank above the one or more heating elements and draws the heated water from the top portion of the tank, wherein the fourth fitting is coupled to the side of the tank at a location above a midpoint and below the second fitting and returns the heated water to the upper portion of the tank.

5. A tank-style residential and light commercial hot water heater comprising: a tank; an intake nipple for receiving a liquid into the tank; an outflow nipple for dispensing the liquid from the tank after heating; and a dedicated return nipple having a valve, wherein the dedicated return nipple is configured to couple to a hot water recirculating system, and wherein, the valve is configured to open when the dedicated return nipple is coupled to the hot water recirculating system to allow the dedicated return nipple to receive a recirculated form of the liquid dispensed from the outflow nipple back into the tank.

6. The tank-style residential and light commercial hot water heater of claim 5, wherein the intake nipple is configured to feed the liquid to a bottom portion of the tank below one or more heating elements of the tank, wherein the outflow nipple is coupled to a top portion of the tank above the one or more heating elements and is configured to draw the liquid from the top portion of the tank after being heated by the one or more heating elements, wherein the dedicated return nipple is coupled to the top portion of the tank and is configured to return the recirculated form of the liquid to the top portion of the tank.

7. The system of claim 6, wherein the dedicated return nipple is configured to return the heated water to the tank at a first point below a second point at which the outflow nipple draws the liquid from the tank.

8. The tank-style residential and light commercial hot water heater of claim 5, wherein the intake nipple is configured to feed the liquid to a bottom portion of the tank below one or more heating elements of the tank, wherein the outflow nipple is coupled to a top portion of the tank above the one or more heating elements and is configured to draw the liquid from the top portion of the tank after being heated by the one or more heating elements, wherein the dedicated return nipple is coupled to a side of the tank between a middle portion and the top portion and is configured to return the recirculated form of the liquid to the trop portion of the tank.

9. A method comprising: filling a tank of a tank-style residential or light commercial hot water heater with a liquid from a bottom portion of the tank via a cold water inlet of the tank; heating the liquid with one or more heating elements in the tank; dispensing the liquid as heated from a top portion of the tank into a hot water dispensing and recirculating system via a hot water outlet of the tank; returning at least some of the liquid to the tank from the hot water dispensing and recirculating system via a dedicated return nipple of the tank, the dedicated return nipple being located above a midpoint of the tank to limit mixing of the at least some of the liquid returned to the tank with additional liquid held in the bottom of the tank or fed into the bottom of the tank via the cold water inlet.

10. The method of claim 9, wherein the hot water outlet is coupled to a top portion of the tank above the one or more heating elements, and wherein the dedicated return nipple is coupled to the top portion of the tank

11. The method of claim 10, wherein the dedicated return nipple is coupled to the top portion of the tank at a distance below the hot water inlet.

12. The method of claim 9, wherein the hot water outlet is coupled to a top portion of the tank above the one or more heating elements, and wherein the dedicated return nipple is coupled to a side of the tank between the midpoint and the top portion.

13. The method of claim 12, wherein the dedicated return nipple is coupled above an upper element of the one or more heating elements and below the hot water outlet at the top portion of the tank.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] FIG. 1 is a block diagram of a known hot water system; and

[0016] FIG. 2 is a block diagram of a hot water system in accordance with disclosed embodiments;

DETAILED DESCRIPTION

[0017] While this invention is susceptible of an embodiment in many different forms, specific embodiments thereof will be described herein in detail with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention. It is not intended to limit the invention to the specific illustrated embodiments.

[0018] Embodiments of the claimed invention can include a hot water system that includes dedicated hot water return to interface between the traditional tank-style heater and an existing hot water re-circulating system. Such a dedicated return can include a third nipple or fitting, a return line, and a valve designed to confine return water to the upper portion of the water tank when installed with a recirculating system, or to close the third nipple or fitting for installations lacking a need for a hot water return. In some embodiments, the third nipple or fitting and return line can be placed at the top of the tank along with the cold and hot water nipples or fittings with a vertical pipe added to direct water into the upper portion of the tank (but below the point from which the hot water is drawn and sufficiently distanced so as to not cause the circulation of too limited a quantity of water). In other embodiments, the third nipple or fitting and the return line can be placed on a side of the tank while feeding into the upper portion of the tank (but again, at a distance below that of the hot water intake so as to avoid the direct exchange of water).

[0019] In some embodiments (including for electric and hybrid tanks), the return can be placed immediately above an upper heating element in the upper portion of the hot water tank. In other embodiments of the same style tank, the return can be placed at the top of the hot water tank with a discharge pipe extending down a distance not extending beyond the upper heating element. In embodiments where the hot water tank includes a combustion-heated tank, placement of the return can be similar. In particular, the return can be routed to a location within the upper portion of the combustion-heated tank, whether from the side or the top.

[0020] FIG. 2 is a block diagram of an improved hot water system 200 according to disclosed embodiments. As seen FIG. 2, the improved hot water system 200 can include a storage tank 1, a cold water inlet, nipple, or fitting 2, a hot water outlet, nipple, or fitting 3, an upper heating element 4, a lower heating element 5, a drain 6 with valve and tap fittings, a circulating pump 1, a cold water feed pipe 8, a hot water pipe 9, a hot water recirculating return pipe 10, a dedicated hot water recirculating system return 11, a return nipple or fitting 12 for the dedicated hot water hot water recirculating system return 11, a feed pipe 13, and a valve assembly 14.

[0021] In operation, the upper heating element 4 and the lower heating element 5 heat water or liquid fed into the tank 1 through the cold water inlet or fitting 2 and the cold water feed pipe 8. During periods in which hot water is not being draw from the tank 1 for external use (such as overnight), the circulating pump 10 can constantly draw heated water or liquid out of the tank 1 through the hot water outlet 3 and into the hot water pipe 9, and return the water or liquid, at modestly reduced temperature, to an area between a middle and top of the tank 1. As applied in a two-element electric heater, the return nipple or fitting 12 can be situated such that the water or liquid returned to the tank 1 can be fed into the tank 1 immediately above the upper heating element 4. When a temperature drop to the water or liquid being circulated through the hot water pipe 9 exceeds a predetermined threshold, the returned water or liquid can trigger activation of the upper heating element 4 or, after falling to a bottom of the tank 1 through convention, trigger activation of the lower heating element 5. In the case of a combustion tank, a single heating mechanism can be activated by the temperature drop from the recirculated water or liquid. In either case, the natural separation of hot and cold water will be maintained.

[0022] Following a draw of hot water, a thermocline can rise in the tank 1 and leave the water or liquid at the top of the tank 1 at maximum temperature. Then, additional cold water or liquid can be fed into the tank 1 via the cold water inlet 2 and the cold water feed pipe 8 to a point at which the return water or liquid is fed into the tank 1 by the dedicated hot water recirculating system return 11. At this point, the mixing effect seen in existing tank heaters can occur after the bulk of the tank 1's designed capacity is withdrawn, but after a much greater volume of water has been held and discharged at higher temperature.

[0023] The foregoing design improvements will thus lead to significant improvements in comfort and efficiency in all manner of tank heaters but with particular improvements in the context of hybrid electric resistance/heat pump applications.

[0024] From the foregoing, it will be observed that numerous variations and modifications may be effected without departing from the spirit and scope of tire invention, it is to be understood that no limitation with respect to the specific system or method described herein is intended or should be inferred. It is, of course, intended to cover all such modifications as fall within the spirit and scope of the invention.