JP2023166247A - Water heater - Google Patents

Abstract

To form a burring part without distortion even when using an exhaust hood in which the burring portion is closer to the rear.SOLUTION: A water heater includes: a housing of which a rear surface is applied as an installation surface to a vertical surface; and a combustion device installed in the housing and including a burner unit, a heat exchanger, and an exhaust hood 13 with its top face connected to a lower exhaust cylinder. A top surface portion 27 of the exhaust hood 13 is a rectangular plane in a plane view, its four sides are drawn upward into a swelled shape to be continued to each of front, rear, left and right faces through an R portion 31, and a burring portion 33 to which the lower exhaust cylinder 34 is connected, is formed in a raised manner on a peripheral edge of a through hole 32 formed on the top surface portion 27. The through hole 32 is disposed on a position closer to the rear from a center in a longitudinal direction of the top surface portion 27, and the R portion 31A at the rear side, of the top surface portion 27 is formed so that its radius of curvature gradually decreases from the outside in a horizontal direction toward the through hole 32.SELECTED DRAWING: Figure 2

Description

The present disclosure relates to a water heater that includes an exhaust hood above a heat exchanger.

A water heater consists of a housing that houses combustion devices such as a burner, a heat exchanger, and a fan, and an exhaust hood is installed above the combustion device to discharge the combustion exhaust gas that has passed through the heat exchanger. There is. As disclosed in Patent Document 1, this exhaust hood is formed by drawing a metal plate to bulge upward into a dome shape. A through hole is formed in the upper surface of the exhaust hood, and a burring portion rises from the periphery of the hole, and an exhaust pipe protruding from the casing is connected to the burring portion. The downstream end of the exhaust stack is connected to an exhaust pipe arranged outdoors, so that combustion exhaust gas exhausted from the exhaust stack can be discharged outdoors via the exhaust pipe.

JP2020-24076A

In the above conventional water heater, the position of the burring part provided on the exhaust hood is determined so that it can be connected to an existing exhaust pipe. For this reason, the folded part of the meandering heat exchanger tube of the heat exchanger protrudes to the rear of the heat exchanger, causing the heat exchanger to be positioned closer to the front within the casing, and to prevent overheating of the wall surface, the casing If the position of the heat exchanger shifts to the front with respect to the existing exhaust pipe by installing it away from the wall, it is necessary to provide the burring part closer to the rear of the exhaust hood.
However, if the burring part is placed at the rear, the burring part will straddle the flat top surface of the exhaust hood and the R part on the rear side, and when drawing is performed, distortion will occur, causing the burring part to become sizable. Accuracy will deteriorate.

Therefore, an object of the present disclosure is to provide a water heater in which the burring part can be formed without distortion even when using an exhaust hood with the burring part located at the rear.

In order to achieve the above object, the present disclosure includes a housing whose rear surface is an installation surface on a vertical surface;
A combustion device provided in the housing and including a burner, a heat exchanger above the burner, and an exhaust hood provided above the burner and having an exhaust pipe connected to the top surface,
The exhaust hood has a top surface that is a rectangular plane in a plan view, and the four sides of the top surface are drawn into an upwardly bulging shape that is continuous with the front, rear, left, and right surfaces through R parts, and A water heater in which a burring part to which the exhaust pipe is connected is formed upright on the periphery of the formed through hole,
The through hole is disposed at a rearward position from the center of the top surface portion in the front-rear direction, and the R portion on the rear side of the top surface portion has a curvature that gradually decreases as it approaches the through hole from the outside in the left-right direction. It is characterized by being formed to be small.

According to the present disclosure, the burring portion does not straddle the flat top surface portion of the exhaust hood and the R portion on the rear side. Therefore, even when using an exhaust hood in which the burring portion is located toward the rear, the burring portion can be formed without distortion, and the dimensional accuracy of the burring portion can be maintained.

FIG. 3 is a front view of the water heater with the front cover removed. It is a perspective view from the rear of an exhaust hood. FIG. 3 is a plan view of the exhaust hood. (A) shows a partial cross section taken along line AA in FIG. 3, (B) shows a partial cross section taken along line BB in FIG. 3, and (C) shows a partial cross section taken along line CC in FIG. 3, respectively. It is a perspective view from the front of an exhaust hood and a connection part. It is a side view of an exhaust hood and a connection part. FIG. 3 is a plan view of a connecting portion. 8 is a partial sectional view taken along line DD in FIG. 7. FIG. 8 is a partial cross-sectional view corresponding to the cross-section taken along the line DD in FIG. 7, showing a state in which the first air supply and exhaust pipes are connected; FIG. 8 is a partial cross-sectional view corresponding to the cross section taken along the line DD in FIG. 7, showing a state in which the second air supply and exhaust pipe is connected. FIG. FIG. 9 is a sectional view taken along line EE in FIG. 9; 11 is a sectional view taken along line FF in FIG. 10. FIG.

Embodiments of the present disclosure will be described below based on the drawings.
FIG. 1 is a front view of an example of a water heater, with a front cover removed.
The water heater 1 has a housing 2 that is rectangular in front view. The casing 2 consists of a box body 3 with an open front and a deep bottom from the front and back, and a front cover (not shown) that closes the front of the box body 3 and has a shallower bottom than the box body 3. The box body 3 includes a back plate 4, left and right side plates 5, 5, a top plate 6, and a bottom plate 7. A mounting plate 8 is attached to the front surface of the back plate 4. Brackets 9, 9 for attachment to a vertical surface such as a wall are attached to the upper and lower rear surfaces of the back plate 4, respectively.
Inside the box body 3, a combustion device 10 including a burner unit 11, a heat exchanger 12, and an exhaust hood 13 is installed from the bottom. On the upper side of the exhaust hood 13, a connection part 14 with an air supply/exhaust pipe, which will be described later, is provided. A fan 15 having a fan motor is provided at the bottom of the burner unit 11. A controller (not shown) is provided in front of the fan 15.

The burner unit 11 houses a plurality of burners (not shown) in a lower casing 16. A nozzle stand 17 for supplying fuel gas to the burner is provided on the front surface of the lower casing 16.
The heat exchanger 12 has an upper casing 18 connected to the upper side of the lower casing 16. Inside the upper casing 18, heat exchanger tubes 19 arranged in a meandering manner are provided. The upstream end of the heat transfer pipe 19 is connected to a water supply pipe 20, and the downstream end is connected to a hot water tap pipe 21. The water supply pipe 20 and the hot water outlet pipe 21 are connected to external piping below the bottom plate 7.

The exhaust hood 13 is attached to the upper end of the upper casing 18. As shown in FIGS. 2 and 3, the exhaust hood 13 includes a box-shaped main body portion 25 with an open bottom surface, and a flange portion 26 having a horizontally long rectangular shape in plan view and extending from the lower end of the main body portion 25 in the front, back, left and right directions. It is equipped with The outer periphery of the flange portion 26 is attached to the upper casing 18.
The main body part 25 has a horizontally elongated rectangular shape in plan view formed by drawing a metal plate upward, and includes a top part 27, a front part 28, a rear part 29, and left and right side parts 30, 30. There is. The boundary portions between the top surface portion 27 and each of the front, rear, left, and right surfaces are R portions 31, 31, etc. that curve downward as they move away from the top surface 27 in the front, rear, left, and right directions.
A support bar 22 (FIGS. 1 and 5) extending in the left-right direction is attached to the rear surface portion 29. The support bar 22 is fixed to the mounting plate 8 on the back plate 4 side.

The top surface portion 27 is provided with a through hole 32 that is circular in plan view. The through hole 32 is provided at the center of the left and right sides of the top surface portion 27 and toward the rear. A short cylindrical burring portion 33 that rises upward is formed at the inner edge of the through hole 32 . The reason why the through holes 32 and the burring portions 33 are arranged at the rear is that the folded portions of the meandering heat transfer tubes 19 also protrude to the rear of the upper casing 18 of the heat exchanger 12, so that the combustion device 10 can be moved inside the housing 2. This is because the connecting portion 14 can be connected to an existing supply/exhaust pipe whose external position is fixed since it is disposed closer to the front.

The rear end of the burring portion 33 is close to the rear surface portion 29. Therefore, in the rear R section 31 (hereinafter referred to as "31A" when distinguishing) formed between the top surface section 27 and the rear surface section 29, the through hole 32 shown in FIG. The curvature R1 is the largest at the left and right sides away from the hole 32, and as it approaches the through hole 32, the curvature R2 gradually decreases as shown in FIG. 4(C), the curvature R1 is formed to be the minimum.
Thereby, even if the through hole 32 is provided at the rear of the top surface portion 27, the through hole 32 and the burring portion 33 will not overlap with the rear R portion 31A. Therefore, the burring portion 33 can be easily formed on the flat top surface portion 27.

5 is a front perspective view of the exhaust hood 13 and the connecting portion 14, FIG. 6 is a side view, FIG. 7 is a plan view of the connecting portion, and FIG. 8 is a sectional view taken along the line DD in FIG.
A cylindrical lower exhaust pipe 34 is connected to the burring portion 33 . The lower exhaust pipe 34 is a cylinder that is fitted onto the burring part 33 and extends upward.
The connecting portion 14 includes an outer cylinder 40, an inner cylinder 41, and a connecting plate 42.
The outer cylinder 40 extends upward through a through hole (not shown) provided in the top plate 6 of the box body 3. A flange plate 43 extending radially outward is attached to the entire circumference of the lower end of the outer cylinder 40. Above the exhaust hood 13, the mounting plate 8 is provided with a receiving plate 44 (FIGS. 1 and 8) to which the flange plate 43 is fixed. A through hole 45 is formed in the bottom surface of the receiving plate 44 to open the lower end opening of the outer tube 40 into the housing 2 .
An outer large diameter portion 46 is formed at the upper portion of the outer cylinder 40. The outer large diameter portion 46 expands upward and then becomes larger in diameter than the lower portion and extends upward. An outer small diameter portion 47 having a smaller outer diameter is formed at the upper part of the outer large diameter portion 46, and a step-shaped outer regulating portion 48 is formed between the outer large diameter portion 46 and the outer small diameter portion 47 over the entire circumference. is formed. An inwardly folded portion 49 is formed at the upper end of the outer cylinder 40 over the entire circumference.

The inner cylinder 41 is a cylinder whose lower end is fitted onto the lower exhaust pipe 34 within the outer cylinder 40 and extends upward. A ring-shaped lower holding portion 50 is formed at the lower end of the inner cylinder 41 to hold an O-ring 51 that comes into contact with the outer peripheral surface of the lower exhaust pipe 34 . A constricted portion 52 is formed above the lower holding portion 50 . An upper exhaust pipe 53 is provided inside the constricted portion 52. The upper exhaust pipe 53 is a cylinder located coaxially above the lower exhaust pipe 34, and is fixed such that its lower outer circumferential surface abuts the inner circumferential surface of the constricted portion 52 over the entire circumference. The upper part of the upper exhaust pipe 53 is formed with a tapered part 54 that tapers upward, and a small-diameter tip part 55 is formed upward on the upper side of the tapered part 54. Above the constricted portion 52 , the inner cylinder 41 extends upward outside the tip 55 and forms a ring-shaped space S between the inner tube 41 and the tip 55 . An end portion of a sensor tube 56 that penetrates the outer tube 40 and the inner tube 41 from the outside in the radial direction projects into the space S. The sensor tube 56 is used to house a temperature sensor (not shown) and detect the temperature of the combustion exhaust gas in the space S.

On the outside of the tip portion 55, the inner tube 41 is formed with a tapered lower regulating portion 60 that widens upward. A belt-shaped middle holding part 61 that swells outward is formed on the upper side of the lower regulating part 60 . A band ring-shaped seal plate 62 is held inside the middle holding part 61.
A tapered upper restricting portion 63 is formed on the upper side of the seal plate 62 and expands upward. A ring-shaped upper holding part 64 for holding an O-ring 65 is formed above the upper regulating part 63 .
The connecting plates 42 are plate-shaped and are arranged radially between the inner peripheral surface of the outer cylinder 40 and the outer peripheral surface of the inner cylinder 41, and three connecting plates 42 are arranged at equal intervals in the circumferential direction of both cylinders 40 and 41. The outer cylinder 40 and the inner cylinder 41 are coaxially connected. Each connecting plate 42 includes a lower plate part 66 connected to the inner peripheral surface of the outer cylinder 40, an upper plate part 67 connected to the outer peripheral surface of the inner cylinder 41, and a lower plate part 66 and an upper plate part 67. It consists of a connecting inclined plate part 68. The lower plate part 66 is fixed above the outer regulating part 48 of the outer cylinder 40, and the upper plate part 67 is fixed above the upper holding part 64 of the inner cylinder 41.

In the water heater 1 configured as described above, two types of first supply/exhaust pipes 70 and second supply/exhaust pipes 80 can be selectively connected to the connection part 14, as shown in FIGS. 9 and 10. It becomes.
First, the first air supply/exhaust pipe 70 includes a first air supply pipe 71 and a first exhaust pipe 72 coaxially. The first air supply pipe 71 is a cylinder having an outer diameter that allows it to be inserted into the outer cylinder 40 of the connecting portion 14 from above. The lower end of the first air supply pipe 71 can come into contact with the upper end of the lower plate portion 66 of the connecting plate 42 when inserted into the outer cylinder 40 .
The first exhaust pipe 72 is a cylinder having an outer diameter that allows it to be inserted into the inner cylinder 41 from above. The lower end of the first exhaust pipe 72 projects further downward than the lower end of the first air supply pipe 71, forming a first tapered part 73 whose diameter decreases as it goes downward. When inserted into the inner cylinder 41, the first tapered part 73 can come into contact with an upper restriction part 63 provided on the inner cylinder 41.

Therefore, when connecting the first air supply/exhaust pipe 70 to the connecting portion 14, the first air supply pipe 71 is inserted into the outer cylinder 40, and the first exhaust pipe 72 is inserted into the inner cylinder 41 from above. Then, as shown in FIGS. 9 and 11, the lower end of the first air supply pipe 71 comes into contact with the upper end of the lower plate part 66 of each connecting plate 42, and the first tapered part 73 of the first exhaust pipe 72 contacts the inner cylinder. 41, and further insertion is restricted. At this time, the O-ring 65 of the inner cylinder 41 contacts the outer peripheral surface of the first exhaust pipe 72 over the entire circumference, thereby sealing between the inner cylinder 41 and the first exhaust pipe 72.

Next, the second air supply/exhaust pipe 80 includes a second air supply pipe 81 and a second exhaust pipe 82 coaxially. The second air supply pipe 81 is a cylinder having an inner diameter that can be fitted onto the outer cylinder 40 of the connecting portion 14 from above. At the lower part of the second air supply pipe 81, a second lower contact portion 83 is provided which has a tapered shape and expands downward. The second lower contact portion 83 can come into contact with the outer restriction portion 48 provided on the outer tube 40 as it is fitted onto the outer tube 40 . A tapered second upper contact portion 84 that expands downward is also provided above the second lower contact portion 83 . The second upper contact portion 84 can contact the folded portion 49 at the upper end of the outer cylinder 40 at the same time as the second lower contact portion 83 contacts the outer restriction portion 48 .
The second exhaust pipe 82 is a cylinder having an outer diameter that allows it to be inserted into the inner cylinder 41 from above. The lower part of the second exhaust pipe 82 has an outer diameter smaller than the outer diameter of the first exhaust pipe 72 of the first supply/exhaust pipe 70 and the inner diameter of the upper regulating part 63 of the inner cylinder 41, so that the lower end part It is made to protrude downward from the lower end of the air supply pipe 81. The lower end of the second exhaust pipe 82 is provided with a second tapered portion 85 whose diameter decreases as it goes downward.

Therefore, when connecting the second air supply/exhaust pipe 80 to the connecting portion 14, the second air supply pipe 81 is fitted onto the outer cylinder 40 from above, and the second exhaust pipe 82 is inserted into the inner cylinder 41 from above. Then, as shown in FIGS. 10 and 12, the second lower contact part 83 of the second exhaust pipe 81 contacts the outer restriction part 48 of the outer cylinder 40, and the second upper contact part 84 contacts the folded part 49. When they come into contact with each other, further external fitting is regulated. At this time, the second exhaust pipe 82 passes through the O-ring 65 and the seal plate 62, and the second tapered portion 85 at the lower end approaches or contacts the lower regulating portion 60. In this inserted state, the lip of the inner circumferential surface of the seal plate 62 contacts the outer circumferential surface of the second exhaust pipe 82 over the entire circumference, thereby sealing between the inner cylinder 41 and the second exhaust pipe 82 .

(Effects of disclosure regarding connections with supply and exhaust pipes)
The water heater 1 of the above embodiment includes a first air supply/exhaust pipe 70 coaxially provided with a first air supply pipe 71 corresponding to the outer cylinder 40 and a first exhaust pipe 72 corresponding to the inner cylinder 41 in the connecting part 14; A second air supply/exhaust pipe 80 coaxially includes a second air supply pipe 81 that corresponds to the outer cylinder 40 and has an inner diameter larger than the outer diameter of the first air supply pipe 71, and a second exhaust pipe 82 that corresponds to the inner cylinder 41. can be selectively connected.
The first air supply and exhaust pipe 70 can be connected to the connecting portion 14 by inserting the first air supply pipe 71 into the outer cylinder 40 and by inserting the first exhaust pipe 72 into the inner cylinder 41. The second air supply/exhaust pipe 80 can be connected by fitting the second air supply pipe 81 onto the outer cylinder 40 and inserting the second exhaust pipe 82 into the inner cylinder 41 .
According to this configuration, both the first and second supply/exhaust pipes 70 and 80 of two types having different diameters can be connected to the connecting portion 14.

The outer diameter of the lower part of the second exhaust pipe 82 is smaller than the outer diameter of the lower part of the first exhaust pipe 72. 42 (an example of a first air supply pipe regulating part) is on the inner surface, and an outer regulating part 48 (an example of a second air supply pipe regulating part) that regulates the external fitting position of the second air supply pipe 81 is on the outer surface. They are separated from each other above and below.
On the other hand, the inner cylinder 41 includes an upper regulating part 63 (an example of a first exhaust pipe regulating part) that regulates the insertion position of the first exhaust pipe 72, and a second exhaust pipe 82 at a position below the upper regulating part 63. A lower regulating section 60 (an example of a second exhaust pipe regulating section) is provided to regulate the insertion position of the exhaust pipe.
Further, on the inner circumferential surface of the inner cylinder 41, an O-ring 65 (an example of a first sealing member) that contacts the outer circumferential surface of the inserted first exhaust pipe 72 and an O-ring 65 (an example of a first sealing member) that contacts the outer circumferential surface of the inserted first exhaust pipe 82 are provided. Seal plates 62 (an example of a second seal member) that abut the outer circumferential surface are provided vertically apart from each other.
When the first air supply/exhaust pipe 70 is connected to the connecting part 14, the first air supply pipe 71 inserted into the outer cylinder 40 is restricted from being inserted into the inner cylinder 41 by the lower plate part 66. Insertion of the first exhaust pipe 72 is restricted by the upper restricting portion 63, and the O-ring 65 abuts against the outer peripheral surface of the first exhaust pipe 72.
On the other hand, when the second air supply/exhaust pipe 80 is connected to the connection part 14 , the second air supply pipe 81 fitted onto the outer cylinder 40 is restricted from being fitted externally by the outer restriction part 48 , and is inserted into the inner cylinder 41 . Insertion of the second exhaust pipe 82 is restricted by the lower regulating portion 60, and the seal plate 62 abuts against the outer circumferential surface of the second exhaust pipe 82.
According to this configuration, the first and second supply and exhaust pipes 70 and 80 can be connected to the connecting portion 14 at appropriate positions. Moreover, it is possible to reliably seal between the inner cylinder 41 and the first and second exhaust pipes 72, 82, thereby making it possible to prevent combustion exhaust gas from leaking.

The upper regulating portion 63 is a tapered portion that tapers downward and has a smaller diameter than the outer diameter of the lower end of the first exhaust pipe 72 and a larger diameter than the outer diameter of the second exhaust pipe 82.
Therefore, the first exhaust pipe 72 can be properly positioned while allowing the second exhaust pipe 82, which is longer than the first exhaust pipe 72, to pass through.
A connecting plate 42 (an example of a connecting member) is installed between the inner surface of the outer cylinder 40 and the outer surface of the inner cylinder 41 to coaxially connect the two cylinders 40 and 41. The upper end of the lower plate portion 66, which is the connection portion with the inner surface, also serves as a first air supply pipe regulating portion.
Therefore, the connection plate 42 can be used to restrict insertion of the first air supply pipe 71, resulting in a rational configuration with a reduced number of parts.

Hereinafter, examples of changes related to the disclosure of the connection portion of the supply and exhaust pipes will be described.
In the above embodiment, the first and second supply and exhaust pipes have different lengths of downward protrusion with respect to the connection part, and the second exhaust pipe is longer than the first exhaust pipe. , it may be reversed, or both exhaust pipes may have the same length. In this case, the first exhaust pipe regulating part and the second exhaust pipe regulating part can be used together (in the above embodiment, either the O-ring or the seal plate can be used as either one).
In the above embodiment, the first air supply pipe regulating section also serves as the connecting plate, but the first air supply pipe regulating section may be formed separately from the connecting plate.
The connecting member is not limited to the connecting plate of the above embodiment. The number and shape can be changed as appropriate. For example, a rod-shaped connecting member may be installed in the radial direction between the outer cylinder and the inner cylinder.
In the above embodiment, the second air supply pipe regulating section and the first and second exhaust pipe regulating sections are tapered regulating sections; however, the regulating section is not limited to this, and the regulating section is formed of ribs, protrusions, etc. that protrude in the radial direction. You may.
In the above embodiment, when the first air supply and exhaust pipes are connected, the first air supply pipe is in contact with the first air supply pipe regulation part, and the first exhaust pipe is in contact with the first exhaust pipe regulation part. Only one of the trachea and the first exhaust pipe may come into contact with the corresponding regulating part, and the movement of the other may be regulated by coming close to the corresponding regulating part. The same applies to the second supply and exhaust pipe.
In the above embodiment, the lower exhaust pipe of the exhaust hood does not need to be placed closer to the rear.

(Effects of disclosure regarding exhaust hood)
The water heater 1 of the above configuration includes a casing 2 whose rear surface is an installation surface on a vertical surface, a burner unit 11 (an example of a burner) provided within the casing 2, and a heat exchanger 12 above the casing 2. The combustion device 10 includes an exhaust hood 13 provided above the exhaust hood 13 and to which a lower exhaust pipe 34 (an example of an exhaust pipe) is connected to the upper surface. In the exhaust hood 13, the top surface portion 27 is a rectangular plane in plan view, and its four sides are drawn into an upwardly bulging shape that is continuous with the front, rear, left, and right surfaces via the R portion 31, and the top surface portion A burring portion 33 to which a lower exhaust pipe 34 is connected is formed upright on the periphery of the through hole 32 formed in the hole 27 .
The through hole 32 is arranged at a rearward position from the center in the front-rear direction of the top surface portion 27, and the R portion 31A on the rear side of the top surface portion 27 has a curvature R3 as it approaches the through hole 32 from the outside in the left-right direction. ~R1 is formed so that it gradually becomes smaller.
According to this configuration, the position of the burring portion 33 does not straddle the flat top surface portion 27 of the exhaust hood 13 and the R portion 31A on the rear side. Therefore, even when using the exhaust hood 13 in which the burring part 33 is located toward the rear, the burring part 33 can be formed without distortion, and the dimensional accuracy of the burring part 33 can be maintained.

Hereinafter, examples of changes related to disclosure of the exhaust hood will be described.
The main body of the exhaust hood does not have to have a rectangular shape extending in the left-right direction in plan view as in the above embodiment. It may have a rectangular shape extending in the front-rear direction in plan view or a square shape in plan view.
In the above embodiment, the burring part is arranged at the center of the top surface part in the left-right direction, but it may be arranged to be biased to either the left or right. In this case as well, the rear R portion may be formed such that the curvature decreases as it approaches the burring portion.
The rear position of the burring portion is not limited to the above embodiment, but may be a position closer to the center than the above embodiment.

In addition, common to each disclosure, the water heater may be a latent heat recovery type having a primary heat exchanger and a secondary heat exchanger.
The heat exchanger may be divided into two circuits: a hot water supply circuit and other circuits (for example, a bath circuit or a heating circuit).

1. Water heater, 2. Housing, 3. Box body, 10. Combustion device, 11. Burner unit, 12. Heat exchanger, 13. Exhaust hood, 14. Connection part, 15 ...Fan, 25...Body part, 26...Flange part, 27...Top part, 29...Rear part, 31 (31A)...R part, 32...Through hole, 33...Burring part, 34・・Lower exhaust pipe, 40・・Outer cylinder, 41・・Inner cylinder, 42・・Connection plate, 48・・Outer regulation part, 51, 65・・O ring, 53・・・Upper exhaust pipe, 60・・・Bottom Regulating part, 62... Seal plate, 63... Upper regulating part, 66... Lower plate part, 67... Upper plate part, 68... Inclined plate part, 70... First supply/exhaust pipe, 71... No. 1 air supply pipe, 72...first exhaust pipe, 73...first taper part, 80...second supply/exhaust pipe, 81...second air supply pipe, 82...second exhaust pipe, 83...second Lower contact portion, 84.. Second upper contact portion, 85.. Second tapered portion.

Claims (1)

A housing whose rear surface is an installation surface on a vertical surface;
A combustion device provided in the housing and including a burner, a heat exchanger above the burner, and an exhaust hood provided above the burner and having an exhaust pipe connected to the top surface,
The exhaust hood has a top surface that is a rectangular plane in a plan view, and the four sides of the top surface are drawn into an upwardly bulging shape that is continuous with the front, rear, left, and right surfaces through R parts, and A water heater in which a burring part to which the exhaust pipe is connected is formed upright on the periphery of the formed through hole,
The through hole is disposed at a rearward position from the center of the top surface portion in the front-rear direction, and the R portion on the rear side of the top surface portion has a curvature that gradually decreases as it approaches the through hole from the outside in the left-right direction. A water heater characterized by being formed to be small.

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