JP3683980B2 - Combustion equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a combustion apparatus used for a plurality of applications.
[0002]
[Prior art]
Conventionally, combustion apparatuses used for two purposes such as hot water supply and bath chase, hot water supply and heating, are roughly classified into a two-can two-water type and a one-can two-water type.
The two-can two-water combustion apparatus includes two independent heat exchange units and mutually independent combustion units corresponding to these heat exchange units, and can execute the two functions without interfering with each other. The equipment was large and expensive.
[0003]
A general one-can two-water combustion apparatus includes one common heat exchange unit and one combustion unit. The heat exchanging section is configured by penetrating two water pipes (circulation pipes) for hot water supply and bath bathing through a large number of fin plates. In this device, the configuration is small, simple, and inexpensive. However, when performing either hot water supply or bath remedy, combustion is performed in the same combustion section, and the same heat exchange section is heated. There was a drawback that the functions interfered with each other.
[0004]
Japanese Examined Patent Publication No. 2-17784 discloses an improved canned and two-water type combustion apparatus. In this combustion apparatus, in one frame, heat exchange parts for hot water supply and bath chasing are arranged on the left and right, respectively, and combustion parts corresponding to these heat exchange parts are arranged directly below. The upper part of the frame is a holding cylinder that holds the heat exchange part, and the lower part is a combustion cylinder that surrounds the flame from the combustion part. In this configuration, although the mutual interference between the hot water supply and the bath remedy becomes small, the two heat exchanging parts are accommodated in one frame, so that it is small and inexpensive.
[0005]
[Problems to be solved by the invention]
However, the apparatus disclosed in the above publication cannot meet the demand for further reducing the mutual interference between the hot water supply and the bath remedy unless the internal space of the combustion cylinder is partitioned. Because, if there is no partition, not only the corresponding heat exchanging part but also part of other heat exchanging parts (part close to the boundary between the heat exchanging parts) will be heated by the fluctuation of the flame of the combustion part. It is. Therefore, a partition wall for partitioning the internal space of the combustion cylinder is required, and the manufacturing cost is high.
[0006]
[Means for Solving the Problems]
The invention of claim 1 is characterized in that at least two first and second combustion portions arranged horizontally in one direction and at least first and second at least two corresponding to the combustion portions, respectively. Two heat exchange parts, a common holding cylinder surrounding and holding the plurality of heat exchange parts, a common combustion cylinder extending downward from the holding cylinder and surrounding the flames from the plurality of combustion parts, and the plurality means for supplying gas to the combustion section of, e Bei a common fan for exhausting the combustion gas through said plurality of heat exchange unit supplies combustion air to the plurality of combustion unit, the first heat The exchange part is provided for hot water supply by connecting a water supply pipe and a hot water supply pipe, and the second heat exchange part is used for heating the circulation system by connecting the forward pipe and the return pipe of the circulation system. in a combustion apparatus to be, at least a second combustion unit, a plurality of The gas supply means has a plurality of combustion areas arranged in the arrangement direction of the firing sections, and the gas supply means selectively supplies gas to the first and second combustion sections, and a plurality of combustion areas of the second combustion section. The gas supply means is configured to stop the combustion in the first combustion section and perform the combustion in the second combustion section. The gas supply to the combustion region arranged in the vicinity of the boundary between the two is stopped, and only the air from the fan is allowed to pass through the combustion region . A gas is supplied to all of the plurality of combustion regions of the two combustion sections .
[0007]
According to a second aspect of the invention, the combustion device according to claim 1, said gas supply means during the combustion in the first combustion section is hot water supply by being stopped for predetermined time elapses since the stop includes a first When the combustion in the second combustion section is stopped, the gas supply to the combustion area near the boundary is stopped, and after a predetermined time has elapsed, the gas supply to all the combustion areas is performed during the combustion in the second combustion section. Features.
[0008]
According to a third aspect of the present invention, there are provided at least two first and second combustion portions arranged horizontally in one direction, and at least first and second at least two corresponding to the combustion portions. Two heat exchange parts, a common holding cylinder surrounding and holding the plurality of heat exchange parts, a common combustion cylinder extending downward from the holding cylinder and surrounding the flames from the plurality of combustion parts, and the plurality means for supplying gas to the combustion section of, e Bei a common fan for exhausting the combustion gas through said plurality of heat exchange unit supplies combustion air to the plurality of combustion unit, the first heat The exchange part is provided for hot water supply by connecting a water supply pipe and a hot water supply pipe, and the second heat exchange part is used for heating the circulation system by connecting the forward pipe and the return pipe of the circulation system. in a combustion apparatus to be, the first boundary of the second heat exchange section Directly below, a third combustion section is disposed between the first and second combustion sections, and the gas supply means is configured to operate at the third combustion section during single combustion in the first combustion section and during single combustion in the second combustion section. The gas supply to is stopped, and gas is supplied not only to the first combustion part and the second combustion part but also to the third combustion part in the simultaneous combustion of the first and second combustion parts .
[0009]
A fourth aspect of the present invention is the combustion apparatus according to any one of the first to third aspects, wherein each combustion section is configured by arranging thin burner elements, and each burner element introduces gas and air into a lower portion. And a flame port for blowing out a mixed gas of air and gas on the upper surface, and in a gas supply stop state, only air is introduced from the introduction port and blown upward from the flame port. .
A fifth aspect of the present invention is the combustion apparatus according to any one of the first to fourth aspects, wherein in each heat exchange section, a number of vertical fin plates extend in the direction in which the heat exchange sections are arranged, and the direction in which the heat exchange sections are arranged The flow pipes through which the fluid passes are penetrating through the fin plates in a direction perpendicular to the arrangement direction of the heat exchange parts.
A sixth aspect of the present invention is the combustion apparatus according to the fifth aspect, wherein a common fin plate is formed by connecting the fin plates of the first and second heat exchanging portions. An opening is formed at the boundary between the first and second heat exchange parts.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a first embodiment of the present invention will be described with reference to FIGS. FIG. 1 shows a one-can two-water combustion apparatus having two functions of hot water supply and bath remedy. This combustion apparatus is configured by connecting an exhaust unit 10, a heat exchange unit 20, a burner unit 30, and a fan 40 in order from the top.
[0011]
As shown in FIGS. 1 and 4, the heat exchanging unit 20 includes a frame 21 having a rectangular cross section and having upper and lower ends opened, and two heat exchanging portions 23 and 24 accommodated in the frame 21. . The upper part of the frame 21 serves as a holding cylinder 21a for holding the heat exchanging parts 23 and 24, and the lower part is provided as a combustion cylinder 21b. The combustion cylinder 21 b is connected to the frame 31 of the burner unit 30.
[0012]
The heat exchange part 23 (first heat exchange part) is provided for hot water supply, and the heat exchange part 24 (second heat exchange part) is provided for bath chase. These heat exchange parts 23 and 24 are arranged in the horizontal X-axis direction. A water supply pipe 51 and a hot water supply pipe 52 are connected to the hot water supply heat exchanger 23. A plug 53 is provided at the end of the hot water supply pipe 52. A circulation fitting 58 for a bathtub 57 is connected to the bath exchanging heat exchanging section 24 via an outward pipe 55 and a backward pipe 56. The return pipe 56 is provided with a pump 59. The outgoing pipe 55, the backward pipe 56, and the bathtub 57 constitute a circulation system.
[0013]
As shown in FIGS. 1 and 4, the heat exchange unit 20 has a large number of thin common fin plates 25 accommodated in a holding cylinder 21 a of a frame 21. The common fin plate 25 is vertical and extends long in the X-axis direction across both the heat exchanging parts 23 and 24, and is arranged at equal intervals in the Y-axis direction (which is horizontal and perpendicular to the X-axis).
[0014]
Each common fin plate 25 has a portion located in the hot water heat exchange section 23, that is, a first fin plate 25 a, and a portion located in the bath chase heat exchange portion 24, that is, a second fin plate 25 b. Thus, the manufacturing cost can be reduced by using the common fin plate 25. An opening 25c is formed at a bridge portion between the first fin plate 25a and the second fin plate 25b, and the thermal interference between the fin plates 25a and 25b is reduced by the opening 25c.
[0015]
The first fin plate 25a and the second fin plate 25b of the common fin plate 25 are respectively connected with a first water pipe 26 and a second water pipe 27 (circulation pipe) that are different from each other. The first water pipe 26 has a plurality of straight pipe portions 26a that extend in the Y-axis direction through the first fin plate 25 and the holding cylinder 21a, and a bend portion 26b that connects these straight pipe portions 26a. . Similarly, the second water pipe 27 also has a straight pipe portion 27a and a bend portion 27b.
[0016]
As shown in FIG. 1, the burner unit 30 includes a box-shaped frame 31 having an open upper end, and a burner assembly 32 accommodated in the frame 31. A fan 40 is attached to the bottom wall of the frame 31.
[0017]
As shown in FIG. 2, the burner assembly 32 is configured by arranging a large number of first burner elements 33 (burner elements) and second burner elements 34 (burner elements) alternately in the X-axis direction without gaps. Yes. These burner elements 33 and 34 have a thin vertical flat plate shape extending in the Y-axis direction. As shown in FIG. 3, the burner elements 33 and 34 have introduction ports 33a and 34a on one side of the lower end, and a number of flame ports 33b and 34b on the upper surface. 34b. In FIG. 3, the flame ports 33 b and 34 b are shown in a small number in order to simplify the drawing.
[0018]
The burner elements 33 and 34 receive gas from a nozzle portion of a nozzle block 70 (to be described later) and air from the fan 40 through introduction ports 33a and 34a, and mix both of them in the internal cavities 33c and 34c. Gas is blown out from the flame outlets 33b, 34b. In the first burner element 33, since the inlet 33a is relatively narrow and the amount of air introduced is small, the gas concentration of the mixed gas becomes higher than the ideal concentration (the gas concentration not excessive or insufficient for combustion). On the other hand, since the inlet 34a of the second burner element 34 is relatively wide and has a large amount of air introduced, the gas concentration of the mixed gas becomes lower than the ideal concentration.
When the fan 4 is driven and no gas is supplied to the inlets 33a, 34a of the burner elements 33, 34, only air from the fan 40 is introduced into the inlets 33a, 34a, and this air is introduced from the flame outlets 33b, 34b. Blow out.
[0019]
The burner assembly 32 is roughly divided into a hot water supply combustion section 35 (first combustion section) and a bath pursuit combustion section 36 (second combustion section). These combustion sections 35 and 36 are arranged side by side in the X-axis direction as shown in FIGS. 1 and 2, and each is constituted by a predetermined number of burner elements 33 and 34. The hot water supply combustion section 35 is disposed directly below the hot water supply heat exchange section 23, and the bath chasing combustion section 36 is disposed directly below the bath chasing heat exchange section 24. The boundary P ′ between the combustion parts 35 and 36 is located directly below the boundary P between the heat exchange parts 23 and 24.
[0020]
Further, the bath remedy combustion section 36 is divided into two combustion regions 36a and 36b. The combustion region 36a is separated from the boundary P ′ between the combustion portions 35 and 36, and the combustion region 36b is disposed in the vicinity of the boundary P ′. The combustion regions 36a and 36b are constituted by a predetermined number of burner elements 33 and 34, respectively. The number of burner elements 33, 34 in the combustion region 36b is less than that in the combustion region 36a.
[0021]
As shown in FIG. 1, the means 60 for supplying gas to the burner assembly 32 has a main pipe 61 and three branch pipes 62, 63, 64 branched from the main pipe 61. The main pipe 61 is provided with a main electromagnetic on-off valve 65 and an electromagnetic proportional valve 66, and the branch pipes 62, 63, 64 are provided with auxiliary electromagnetic on-off valves 67, 68, 69, respectively. A nozzle block 70 is connected to the branch pipes 62, 63 and 64. The nozzle block 70 has three passages connected to the branch pipes 62, 63, and 64, respectively, and has three groups of nozzle portions respectively connected to the three passages. One group of nozzles faces the inlets 33a, 34a of the burner elements 33, 34 of the hot water supply combustion unit 35, and the other two groups of nozzles are respectively 2 of the bath addition combustion unit 36. It opposes the inlets 33a, 34a of the burner elements 33, 34 in the two combustion regions 36a, 36b.
[0022]
The upper and lower sides of the burner assembly 32 are connected by a bypass passage 75 in the internal space of the frame 31, and an air volume sensor 76 is provided in the bypass passage 75. The air volume sensor 76 detects the amount of air passing through the bypass passage 75 or the pressure difference between the upper and lower sides of the burner assembly 32, thereby obtaining information on the amount of air blown from the fan 40 through the burner assembly 32.
[0023]
Next, the general operation of the combustion apparatus will be described. When the stopper 53 is opened, water flows through the water supply pipe 51, the water flow pipe 26, and the hot water supply pipe 52. A water flow switch (not shown) provided in the water supply pipe 51 detects this, and in response to this detection signal, the control unit 80 drives the fan 4 and opens the main electromagnetic on-off valve 65 and the auxiliary electromagnetic on-off valve 67. Thus, the combustion control in the hot water supply combustion unit 35 is started. As a result, the first fin plate 25a located directly above the hot water supply combustion section 35 in the common fin plate 25 is mainly heated, and as a result, the water from the water supply pipe 51 passing through the first water flow pipe 26 is heated. And supplied to the hot water supply pipe 52.
[0024]
When the hot water supply is being carried out independently, no combustion is performed in the bath chasing combustion section 36, so only air without combustion from the fan 40 passes through the bath chasing heat exchanging section 24. The water in the second water pipe 27 is not heated. Moreover, the heat which escapes from the heated 1st fin plate 25a to the 2nd fin plate 25b can be restrained little by having formed the opening 25c.
[0025]
When performing bath bathing alone, based on the control of the control unit 80, the fan 40 is driven and the pump 59 is driven to supply water from the bathtub 57 to the return pipe 56, the water pipe 27, and the forward pipe 55. Circulate through. At the same time, the main electromagnetic on-off valve 65 and the auxiliary electromagnetic on-off valve 68 are opened, and combustion in the combustion region 36a of the bath-measuring combustion section 36 is started. As a result, the second fin plate 25b located in the common fin plate 25 directly above the combustion region 36a of the bath reheating combustor 36 is mainly heated. As a result, water from the bathtub 57 passing through the second water pipe 27 is obtained. Is heated and the memorial is performed.
[0026]
When performing the bath bathing alone, combustion is not performed in the hot water supply combustion section 35, and therefore, only air without combustion from the fan 40 passes through the hot water supply heat exchange section 23. The water in the water pipe 26 is not heated. Also, the heat that escapes from the second fin plate 25b to the first fin plate 25a is relatively small.
[0027]
In addition, in the present embodiment, when bath bathing is performed alone, the auxiliary on-off valve 69 remains closed, and only air is blown out in the combustion region 36b in the vicinity of the boundary P ′ between the combustion sections 35 and 36. The blown air flow can serve as an air curtain that prevents the flame from the combustion region 36a from shaking and heating the hot water supply heat exchanging section 23. As a result, it is possible to reliably prevent the water accumulated in the first water pipe 26, in particular, the water accumulated in the straight pipe portion 26a located in the vicinity of the boundary P, from being heated at the initial stage of the hot water supply operation. Thus, it is possible to reliably prevent the disadvantage that the temperature higher than the desired temperature is discharged.
[0028]
In the present embodiment, the burner assembly 32 is constructed by alternately arranging the first and second burner elements 33 and 34. The second burner element 34 blows out a lean mixed gas from the flame opening 34b and burns at a stroke in the vicinity of the flame opening 34b. Therefore, the rising speed of the combustion gas is fast, and the flame is straight and does not fluctuate. Since the first burner element 33 blows out the rich mixed gas from the flame outlet 33b, the first burner element 33 continues to burn as it rises while receiving air from the adjacent second burner element. By the combustion in the first and second burner elements 33 and 34, a flame with relatively little fluctuation is obtained, and the mutual interference between the hot water supply and the bath remedy can be further reduced.
[0029]
When performing hot water supply and bath pursuit at the same time, the auxiliary on-off valves 67, 68 and 69 are all opened, and the bath combusting combustion part 36 is combusted not only in the combustion region 36a but also in the combustion region 36b. Bath memorial can be performed efficiently and in a short time.
[0030]
The fan 40 is controlled by the control unit 80 so that the mixing ratio of gas and air in the combustion sections 35 and 36 becomes a desired value based on feedback information of the air flow rate from the air volume sensor 76. Not only when both hot water supply and bath remedy are executed simultaneously, but also when only one of them is executed, the internal space of the combustion cylinder 23b is not partitioned by the partition wall, so one air quantity sensor 76 is used. The above control can be performed based on only the detection information.
[0031]
In the above embodiment, when the bath chase is singly combusted, the gas supply stop and combustion stop state to the combustion region 36b may be limited to a predetermined time, for example, about 5 minutes from the hot water supply stop. In particular, during this period, the hot water in the water flow pipe 26 is not yet cooled, and is likely to become high temperature due to the heat of the flame from the combustion region 36b of the bath chase combustor 36. After the predetermined time has elapsed, even when performing bath bathing alone, gas is supplied not only to the combustion zone 36a but also to the combustion zone 36b, and combustion is performed in all the combustion zones 36a and 36b. It can be executed efficiently and in a short time.
[0032]
FIG. 5 shows a second embodiment of the present invention. In the second embodiment, components corresponding to those in the first embodiment described above are denoted by the same reference numerals and description thereof is omitted. This second embodiment differs from the first embodiment described above only in the burner assembly 32. That is, the burner assembly 32 includes a hot water supply combustion section 35 disposed almost directly below the hot water heat exchange section 23 and a bath supplement combustion section 36 disposed substantially directly below the bath replacement heat exchange section 24. In addition, a boundary combustion part 37 (third combustion part) is provided between the combustion parts 35 and 36 and located immediately below the boundary P between the heat exchange parts 23 and 24. The boundary combustion unit 37 receives gas supply from the branch pipe 64.
[0033]
In the second embodiment, when hot water supply is being executed alone, only the auxiliary electromagnetic on-off valve 67 is opened and gas is supplied to the hot water supply combustion unit 35. Only the electromagnetic on-off valve 68 is opened, and the gas is supplied to the combustor 36 for bath pursuit. When such hot water supply is performed alone or when bath bathing is performed alone, the auxiliary electromagnetic opening / closing valve 69 remains closed, and the boundary combustion unit 37 maintains a state where combustion is stopped. As a result, mutual thermal interference can be reliably prevented by the air curtain from the air flow from the boundary combustion section 37, and the same effect as in the first embodiment can be obtained.
[0034]
In the second embodiment, when the hot water supply and the bath remedy are performed simultaneously, all of the auxiliary electromagnetic on-off valves 67, 68 and 69 are opened, and the hot water supply combustion section 35 and the bath remedy combustion 36 are simultaneously burned. In addition, combustion is also performed in the boundary combustion portion 37. As a result, hot water supply and bath memorial can be performed efficiently.
[0035]
A heating circulation system may be connected to the heat exchanging unit 24 instead of the bath tracking circulation system.
The present invention may be applied to a combustion apparatus having three functions. For example, in the third embodiment of FIG. 6, the hot water supply heat exchanging unit 23 and the hot water supply combustion unit 35 are arranged on the left side of the hot water supply heat exchange unit 24 and the hot water supply combustion unit 36, and the right side is heated. A heat exchanging unit 24 and a heating combustion unit 36 are arranged. As in the first embodiment, the bath combusting unit 36 and the heating combusting unit 36 have a plurality of combustion regions 36a and 36b, respectively. When the combustion is not performed in the portion 35, the combustion region 36b in the vicinity of the boundary P ′ remains stopped. When the combustion is performed in the hot water supply combustion portion 35, the combustion region 36b is also combusted. Is called. Since other configurations and operations are the same as those in the first embodiment, the corresponding components are denoted by the same reference numerals in the drawing, and detailed description thereof is omitted.
[0036]
The fourth embodiment shown in FIG. 7 also performs hot water supply, bath tracking, and heating. As in the second embodiment of FIG. 5, a boundary combustion unit 37 is arranged immediately below the boundary P between the hot water supply heat exchange unit 23 and the left-side bath-replacement heat exchange unit 24, and the hot water supply heat exchange unit The boundary combustion part 37 is also arranged just below the boundary P between the heat exchanger 23 for heating and the right adjacent heat exchanger 24. Each boundary combustion section 37 stops combustion when combustion is performed only in one of the adjacent left and right combustion sections 35 and 36, and when combustion is performed in both combustion sections 35 and 36, boundary combustion is performed. The part 37 also performs combustion. Other configurations and operations are the same as those in the preceding embodiment.
[0037]
In the above-described two embodiments, instead of alternately using the first and second burner elements 33 and 34 that perform light and dark combustion independently, a large number of common burner elements may be used. This common burner element is, for example, a burner element that performs rich combustion on both sides, and a burner element that performs light combustion on the center. Moreover, in the said embodiment, the combustion part 35 for hot water supply may have a several combustion area | region, and may perform selective combustion by selectively supplying the gas to these combustion area | regions according to a request | requirement calorie | heat amount.
[0038]
【The invention's effect】
As described above, according to the first aspect of the present invention, during the single combustion in the second combustion section, the combustion in the combustion region located in the vicinity of the boundary of the combustion section is stopped to cause the second combustion section. It is possible to minimize the amount of combustion heat that reaches the first heat exchanging portion, and it is possible to minimize thermal interference while being a small combustion device.
More specifically, since the combustion in the combustion region near the boundary is stopped when the circulation system is heated alone, it is possible to minimize the combustion heat from reaching the first heat exchange section for hot water supply. It is possible to prevent hot water having a temperature higher than the desired temperature at the start of hot water supply from being discharged.
Further, at the time of simultaneous combustion of the first and second combustion sections, combustion is performed in the entire combustion region of the second combustion section, so that the second heat exchange section can be efficiently heated.
[0039]
According to the invention of claim 2 , when the circulation system is heated alone, the period during which combustion in the combustion region near the boundary is stopped is limited to a predetermined time from the end of hot water supply. In other periods, the circulation system can be efficiently heated.
[0040]
According to the invention of claim 3 , since the combustion in the third combustion part is stopped during the single combustion in the first combustion part or the second combustion part, the combustion heat in the combustion part is transferred to the other combustion parts. It is possible to minimize the spread to the corresponding heat exchange section, and it is possible to minimize the thermal interference while being a small combustion apparatus.
According to the invention of claim 4 , the air flow from the burner element in the combustion stopped state becomes an air curtain, and thermal interference can be reliably prevented.
According to the invention of claim 5 , the arrangement of the fin plate and the water pipe allows the combustion apparatus to be further reduced in size, and nevertheless, thermal interference is reduced by assuming the inventions of claims 1-4. Can be suppressed.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a combustion apparatus showing an embodiment of the present invention.
FIG. 2 is a plan view of a burner assembly used in the combustion apparatus.
FIGS. 3A and 3B are schematic perspective views showing first and second burner elements constituting the burner assembly, respectively.
FIG. 4 is a plan sectional view of a heat exchange unit used in the combustion apparatus.
FIG. 5 is a view corresponding to FIG. 1 showing a second embodiment of the present invention.
FIG. 6 is a view corresponding to FIG. 1 showing a third embodiment of the present invention.
FIG. 7 is a view corresponding to FIG. 1 and showing a fourth embodiment of the present invention.
[Explanation of symbols]
21 Frame 21a Holding cylinder 21b Combustion cylinder 23 Heat exchange part for hot water supply (first heat exchange part)
24 Heat exchanger for bath memorial (second heat exchanger)
25a, 25b Fin plates 26, 27 Water pipe (flow pipe)
35 Hot water combustion section (first combustion section)
36 Combustion part for bath memorial (second combustion part)
36a, 36b Combustion region 37 Boundary combustion part (third combustion part)
33, 34 Burner element (burner element)
40 Fan 51 Water supply pipe 52 Hot water supply pipe 55 Outward pipe 56 Return pipe 60 Gas supply means P, P ′ boundary

Claims (6)

First and second at least two combustion sections arranged horizontally in one direction, and first and second at least two heat exchange sections respectively disposed above and corresponding to the combustion section; A common holding cylinder that surrounds and holds the plurality of heat exchange units, a common combustion cylinder that extends downward from the holding cylinder and surrounds the flames from the plurality of combustion units, and supplies gas to the plurality of combustion units means for, example Bei a common fan for exhausting the combustion gas through said plurality of heat exchange unit supplies combustion air to the plurality of the combustion section,
The first heat exchange section is provided for hot water supply by connecting a water supply pipe and a hot water supply pipe, and the second heat exchange section is connected to the circulation pipe by connecting a forward pipe and a return pipe of the circulation system. In the combustion apparatus used for heating
At least the second combustion section has a plurality of combustion regions arranged in the direction in which the plurality of combustion sections are arranged, and the gas supply means performs selective supply of gas to the first and second combustion sections, Selectively supply gas to the multiple combustion areas of the second combustion section,
The gas supply means is disposed in the vicinity of the boundary between the first and second combustion portions among the plurality of regions , particularly when combustion is stopped in the first combustion portion and combustion is performed in the second combustion portion. The gas supply to the combustion region is stopped, and only the air from the fan is allowed to pass through the combustion region . During simultaneous combustion in the first and second combustion units, the plurality of combustion regions of the second combustion unit Combustion apparatus characterized by supplying gas to all . The gas supply means supplies gas to the combustion region near the boundary during combustion in the second combustion section for a predetermined time after hot water supply is stopped by stopping combustion in the first combustion section. 2. The combustion apparatus according to claim 1 , wherein after the supply is stopped and a predetermined time elapses, gas is supplied to all combustion regions during combustion of the second combustion section. First and second at least two combustion sections arranged horizontally in one direction, and first and second at least two heat exchange sections respectively disposed above and corresponding to the combustion section; A common holding cylinder that surrounds and holds the plurality of heat exchange units, a common combustion cylinder that extends downward from the holding cylinder and surrounds the flames from the plurality of combustion units, and supplies gas to the plurality of combustion units means for, example Bei a common fan for exhausting the combustion gas through said plurality of heat exchange unit supplies combustion air to the plurality of the combustion section,
The first heat exchange section is provided for hot water supply by connecting a water supply pipe and a hot water supply pipe, and the second heat exchange section is connected to the circulation pipe by connecting a forward pipe and a return pipe of the circulation system. In the combustion apparatus used for heating
A third combustion section is disposed between the first and second combustion sections directly below the boundary between the first and second heat exchange sections.
The gas supply means stops the gas supply to the third combustion section at the time of single combustion of the first combustion section and at the time of single combustion of the second combustion section, and at the time of simultaneous combustion of the first and second combustion sections A combustion apparatus that supplies gas not only to the first combustion section and the second combustion section but also to the third combustion section. Each combustion section is formed by arranging thin burner elements. Each burner element has an inlet for introducing gas and air in the lower part and a flame outlet for blowing out a mixed gas of air and gas on the upper surface. In the gas supply stop state, only the air is introduced from the introduction port and blown upward from the flame port, The combustion apparatus according to any one of claims 1 to 3 . In each heat exchange section, a large number of vertical fin plates extend in the direction in which the heat exchange sections are arranged, and are arranged in a direction orthogonal to the direction in which the heat exchange sections are arranged. The combustion apparatus according to any one of claims 1 to 4 , wherein the fin plate is penetrated in a direction orthogonal to the direction.   Above 1 , A common fin plate is formed by connecting the fin plates of the second heat exchange section. , The combustion apparatus according to claim 5, wherein an opening is formed at a boundary of the second heat exchange part.

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