Patent Grant
10801748
The present disclosure relates generally to water heaters, and more particularly to water heaters with a top water outer outlet.
Typical fuel-fired water heaters use fuels, such as natural gas, propane or oil, to heat water contained in a water tank of such water heaters. With such water heaters, a heat exchanger that sits in the tank is typically used to heat the water. In some water heaters, hot gas passes through a heat exchanger once to heat the water. In other water heaters, the heat exchanger may include multiple branches, and the hot gas passes through the heat exchanger multiple times to heat the water. The multiple-branched heat exchanger can result in improved thermal efficiency. However, the arrangement of the multiple branches of the heat exchanger in the tank can present challenges to providing a top water outlet without degrading thermal efficiency of a water heater. In some cases, water heaters with a top water outlet may be preferable. Thus, a solution that allows for the construction of a water heater with a top water outlet and using a multiple-pass heat exchanger may be desirable.
The present disclosure relates generally to water heaters, and more particularly to water heaters with a top water outlet. In some example embodiments, a fuel-fired water heater having a top water outlet includes a water tank and a top cover assembly having the top water outlet to output water from the water tank. The water heater further includes a multi-pass heat exchanger that includes flue tubes positioned in the water tank. The water heater also includes a first plenum and a second plenum at a top end portion of the water heater. The first plenum provides a first hot gas flow path from a first set of the flue tubes to a second set of the flue tubes, and the second plenum provides a second hot gas flow path from a third set of the flue tubes to a fourth set of the flue tubes.
In another example embodiment, a fuel-fired water heater having a top water outlet includes a water tank and a top cover assembly having the top water outlet to output water from the water tank. The water heater further includes a multi-pass heat exchanger positioned in the water tank, where the multi-pass heat exchanger includes a first-pass flue tube, a first set of second-pass flue tubes, a second set of second-pass flue tubes, a first set of third-pass flue tubes, and a second set of third-pass flue tubes. The water heater also includes a first top plenum at a top end portion of the water heater and a second top plenum at the top end portion of the water heater, where the first plenum provides a first hot gas flow path from the first set of second-pass flue tubes to the first set of third-pass flue tubes and where the second plenum provides a second hot gas flow path from the second set of second-pass flue tubes to the second set of third-pass flue tubes.
These and other aspects, objects, features, and embodiments will be apparent from the following description and the appended claims.
Reference will now be made to the accompanying drawings, which are not necessarily drawn to scale, and wherein:
The drawings illustrate only example embodiments and are therefore not to be considered limiting in scope. The elements and features shown in the drawings are not necessarily to scale, emphasis instead being placed upon clearly illustrating the principles of the example embodiments. Additionally, certain dimensions or placements may be exaggerated to help visually convey such principles. In the drawings, the same reference numerals that are used in different drawings designate like or corresponding, but not necessarily identical elements.
In the following paragraphs, example embodiments will be described in further detail with reference to the figures. In the description, well-known components, methods, and/or processing techniques are omitted or briefly described. Furthermore, reference to various feature(s) of the embodiments is not to suggest that all embodiments must include the referenced feature(s).
Turning now to the figures, particular example embodiments are described.
In some example embodiments, the top cover assembly includes top flues that interface with second-pass and third-pass flue tubes of the multi-pass heat exchanger. The multi-pass heat exchanger has a configuration that allows the location of the water outlet 110 in the top cover assembly 104 at the top end of the water heater 100. The bottom assembly may also include a bottom flue that interfaces with the third-pass flue tubes of the multi-pass heat exchanger, where the hot gas exits the water heater 100 through a hot gas outlet in the bottom assembly 106.
During operation of the water heater 100, unheated water enters the water tank 102 through the water inlet 112, and gas is heated by the combustion system 108. The unheated water gets heated inside the water tank by hot gas flowing through the multi-pass heat exchanger. The resulting heated water exits the water tank 102 through the top water outlet 110 in the top cover assembly 104. The hot gas that flows through the multi-pass heat exchanger may exit the water tank through a hot gas outlet in the bottom assembly 106.
The water heater 100 provides a top water outlet location along with the high efficiency of a multi-pass heat exchanger. By providing the top water outlet 110, the water heater 100 provides a fuel-fired water heater with a top water outlet location that is preferable in some installations.
In some example embodiments, the water heater 100 and/or one or more components of the water heater 100 may have a different shape than shown without departing from the scope of this disclosure. In some alternative embodiments, the water inlet 112 may be at a different location than shown without departing from the scope of this disclosure. In some alternative embodiments, the top water outlet 110 may be at a different location on the top cover assembly than shown without departing from the scope of this disclosure.
In some example embodiments, the second-pass flue tubes 204-206 extend out radially from the first-pass flue tube 202 and curve/turn generally upward toward the top opening of the water tank 102. The second-pass flue tubes 204-206 are attached to the first-pass flue tube 202 forming a hot gas flow path from the first-pass flue tube 202 to the second-pass flue tubes 204-206. The hot gas in the first-pass flue tube 202 is provided by the combustion system 108, which can be a down-fired system, as more clearly illustrated in
In some example embodiments, the second-pass flue tubes 204-210 may be substantially parallel to the first-pass flue tube 202 after curving/turning upward. The second-pass flue tubes 204-210 may branch out from the first-pass flue tube 202 proximal to a bottom end of the water tank 102 and may extend upward for a substantial portion of the height of the water tank 102. In some example embodiments, the second-pass flue tubes 204-210 may have curves or other variations in extending upward toward the top opening of the water tank 102. Top ends of the second-pass flue tubes 204-210 may be terminated in top flues in the top cover assembly 104 of the water heater 100 or may otherwise be in fluid communication with the top flues in the top cover assembly 104 of the water heater 100. For example, the second-pass flue tubes 204, 206 may be terminated in a first top plenum 302, and the second-pass flue tubes 208, 210 may be terminated in a second top plenum 304.
In some example embodiments, the third-pass flue tubes 212-226 may extend in the cavity of the water tank 102 from the top end of the water tank 102 to a bottom end of the water tank 102. Top end openings of the third-pass flue tubes 212-226 may be terminated or may otherwise be in fluid communication with the top plenums 302, 304 in the top cover assembly 104. Hot gas from the second-pass flue tubes 204-210 flows to the third-pass flue tubes 212-226 through the top plenums 302, 304 in the top cover assembly 104. For example, the top end openings of the third-pass flue tubes 212-218 may be terminated in the first top plenum 302 to receive hot gas from the second-pass flue tubes 204, 206, and the top end openings of the third-pass flue tubes 220-226 may be terminated in the second top plenum 304 to receive hot gas from the second-pass flue tubes 208, 210.
In some example embodiments, the bottom end openings of the third-pass flue tubes 212-226 may be terminated in the bottom assembly 106 through openings in a top cover 228 of the bottom assembly 106. For example, the bottom assembly 106 may include a bottom flue 306, and hot gas flowing through the third-pass flue tubes 212-226 may flow to the bottom flue 306 and exit the bottom assembly 106 through a hot gas outlet 310 of the bottom assembly 106.
In some example embodiments, the first-pass flue tube 202, the second-pass flue tube 204-210, and the third-pass flue tubes 212-226 may be configured with respect to each other to allow for placing the hot water outlet 110 in the top cover assembly 104 of the water heater 100. For example, the second-pass flue tube 204-210 may be intermingled with the third-pass flue tubes 212-226 around the first-pass flue tube 202. The second-pass flue tubes 204, 206 are less than ninety degrees apart from each other, and the second-pass flue tubes 208, 210 are less than ninety degrees apart from each other. Further, the second-pass flue tubes 204, 206 are each greater than 90 degrees apart from the second-pass flue tubes 208, 210. Each second-pass flue tube 204-210 is also flanked by one of the third-pass flue tubes 212-226, where two of the third-pass flue tubes 212-226 are interspersed between two of the second-pass flue tubes 204-210.
In general, the third-pass flue tubes 212-226 are each spaced from an adjacent one of the second-pass flue tubes 204-210 by the same circumferential distance with respect to the first-pass flue tube 202. As such, compared to third-pass flue tubes that are between second-pass flue tubes separated by less than ninety degrees, extras space exists between third-pass flue tubes that are between second-pass flue tubes separated by more than ninety degrees. To illustrate, the separation between the third-pass flue tubes 212, 226 is larger than the separation between the third-pass flue tubes 214, 216, which are between the second-pass flue tube 204, 206 that are separated by less than ninety degrees. The separation between third-pass flue tubes 218, 220 is larger than the separation between the third-pass flue tubes 222, 224, which are between the second-pass flue tube 208, 210 that are separated by less than ninety degrees. The extra spaces between the third-pass flue tubes 212, 226 and between the third-pass flue tubes 218, 220 allow the water heater 100 to have the top water outlet 110 without degrading the thermal efficiency of the water heater 102.
In some alternative embodiments, the second-pass flue tubes 204-210 and the third-pass flue tubes 212-226 may be interspersed with each other in a different arrangement without departing from the scope of this disclosure. In some alternative embodiments, the flue tubes of the heat exchanger 230 may have different absolute and relative dimensions than shown without departing from the scope of this disclosure. In some alternative embodiments, the heat exchanger 230 may include fewer or more flue tubes than shown without departing from the scope of this disclosure.
In some example embodiments, the flue cover 406 and the tank cover plate 402 may define the first top plenum 302, and the flue cover 408 and the tank cover plate 402 may define the second top plenum 304. The gaskets 412, 414 may provide a more reliable seal of the top plenums 302, 304. As more clearly illustrated in
To illustrate, the tank cover plate 402 may have tube holes 504, 506, 508, 510 that are sized to receive the second-pass flue tubes 204, 206, 208, 210, respectively. The tank cover plate 402 may have tube holes 512, 514, 516, 518, 520, 522, 524, 526, that are sized to receive the third-pass flue tubes 212, 214, 216, 218, 220, 222, 224, 226, respectively. The tank cover plate 402 also includes a water outlet hole 502 that may be aligned with the top water outlet 110 of the water heater 100. For example, a water outlet pipe may be extended down into the water tank 102 through the water outlet hole 502. By arranging the tube holes 504-510 and the tube holes 512-526 to correspond to the second-pass flue tubes 204-210 and the third-pass flue tubes 212-226, respectively, adequate space is provided in the tank cover plate 402 to place the water outlet hole 502 such that the water heater 100 can include the top water outlet 110 in the top cover assembly 104.
In some example embodiments, a central opening 530 may be positioned to align with the first-pass flue tube 202 and to receive a mounting flange 602 above the first-pass flue tube 202. As shown more clearly in
In some example embodiments, mounting standoffs, such as a mounting standoff 528 may be used to securely attach the flue covers 406, 408 to the tank cover plate 402 using, for example, screws. By using the mounting standoffs, screws that are used to attach the flue covers 406, 408 to the tank cover plate 402 can avoid penetrating through the tank cover plate 402.
In some example embodiments, the flue cover 406 may be positioned on the tank cover plate 402 covering the tube holes 504, 506, and 512-518, and the flue cover 408 may be positioned on the tank cover plate 402 covering the tube holes 508, 510, and 520-526. As described with respect to
Because the flue tubes of the heat exchanger 230 are matched with respective holes of the tank cover plate 402, the flue cover 406 covers the second-pass flue tubes 204, 206 and the third-pass flue tubes 212-218 and defines a top flue structure together with the tank cover plate 402. Because the flue tubes of the heat exchanger 230 are matched with respective holes of the tank cover plate 402, the flue cover 408 covers the second-pass flue tubes 208, 210 and the third-pass flue tubes 220-226 and defines another top flue structure together with the tank cover plate 402. The top plenum 302 provides one hot gas flow path from the second-pass flue tubes 204, 206 to the third-pass flue tubes 212-218. The top plenum 304 provides another hot gas flow path from the second-pass flue tubes 208, 210 to the third-pass flue tubes 220-226.
To illustrate, the hot gas is provided by the combustion system 108 through the first-pass flue tube 202, where a portion of the hot gas flows to the second-pass flue tubes 204, 206 and is routed through the top plenum 302 to the third-pass flue tubes 212-218. That portion of the hot gas is then transferred to the bottom flue 306 and exits through the hot gas outlet 310. Another portion of the hot gas from the first-pass flue tube 202 flows to the second-pass flue tubes 204, 206 and is routed through the top plenum 304 to the third-pass flue tubes 220-226. That portion of the hot gas is then transferred to the bottom flue 306 and exits through the hot gas outlet 310.
In some alternative embodiments, the heat exchanger 230 may include fewer or more flue tubes than shown and the tank cover plate 402 may have corresponding number of openings without departing from the scope of this disclosure. In some alternative embodiments, the flue covers 406, 408 may be connected at their respective ends 710, 712 that are away from the water outlet hole 502. For example, the flue covers 406, 408 may be joined to form a generally horse-shoe shaped single flue while allowing the water outlet hole 502 to be in the same position as shown without departing from the scope of this disclosure. In some alternative embodiments, the flue covers 406, 408 may have different sizes and may cover different numbers of the holes of the tank cover plate 402 and corresponding flue tubes of the heat exchanger 230.
Although particular embodiments have been described herein in detail, the descriptions are by way of example. The features of the embodiments described herein are representative and, in alternative embodiments, certain features, elements, and/or steps may be added or omitted. Additionally, modifications to aspects of the embodiments described herein may be made by those skilled in the art without departing from the spirit and scope of the following claims, the scope of which are to be accorded the broadest interpretation so as to encompass modifications and equivalent structures.
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| 20190203974 A1 | Jul 2019 | US |
