JPH0828869A - Combustion device - Google Patents

Abstract

PURPOSE:To provide a combustion device in which an incomplete combustion can be prevented and a normal combustion at a burner can be continued even in the case that a combustion fan is rotated at the maximum number of rotation, a requisite amount of air corresponding to a required amount of combustion may not be obtained. CONSTITUTION:There is provided a fan control means 23 for controlling the number of rotation of a combustion fan 10 in such a manner that a detected air volume detected by an air volume sensor 13 during combustion at a burner may coincide with an air volume for getting a set combustion amount. This combustion device is comprised of a valve control means 26 for controlling a proportional valve 9 in respect to a degree of opening corresponding to an amount of supplying fuel for the burner. The valve control means 26 is provided with means 27 for controlling the proportional valve 9 to a degree of opening calculated in response to a detected air volume in such a manner that it may become a fuel supplying amount capable of being ignited normally at the burner in accordance with the detected air volume when the combustion fan 10 is rotated at the maximum number of rotation and a detected air volume detected by the air volume sensor 13 is lower than an air volume to get a set combustion amount.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a combustion device such as a water heater.

[0002]

2. Description of the Related Art For example, in a hot water heater, a combustion amount (set combustion amount) of a burner required to match a hot water temperature detected by a hot water temperature sensor with a set temperature set by a user is obtained, and a combustion fan It is generally known that the number of revolutions of the proportional valve provided in the fuel supply path to the burner is controlled in accordance with the set number of revolutions determined according to the set amount of combustion and Has been.

In this type of combustion device, the rotation speed of the combustion fan is set on the assumption that the rotation speed of the combustion fan and the amount of air blown from the combustion fan to the burner (air supply amount) always correspond to each other. Although the engine speed is controlled to the set speed, the load of the combustion fan changes due to clogging of the exhaust port, clogging of the air supply port, etc. Even if there is, the actual air flow (air supply) from the combustion fan to the burner changes. Therefore, even if the rotation speed of the combustion fan is controlled to the set rotation speed determined according to the set combustion amount, the actual blown air amount to the burner is not always maintained at an appropriate amount.

Therefore, in this type of combustion apparatus, an actual air flow rate to the burner is detected every moment by an air flow rate sensor (wind speed sensor) arranged in the air flow passage from the combustion fan to the burner, and the burner is set to burn. It is also known that the amount of air to be blown (air amount) is set according to the amount, and the rotation speed of the combustion fan is controlled moment by moment so that the actual air amount matches the set air amount (for example, actual Kaihei 1-29561). See Japanese Utility Model Publication No. 60-143251). In this type of combustion device, even if the set air volume cannot be obtained at the set rotation speed due to exhaust gas clogging, the rotation speed of the combustion fan is corrected.

However, when the exhaust fan is clogged and the load on the combustion fan becomes extremely large, air is blown according to the set combustion amount of the burner even if the combustion fan is rotated at the maximum rotation speed. Could not occur, which could result in incomplete combustion.

[0006]

SUMMARY OF THE INVENTION The present invention aims to improve such a combustion device. More specifically, even if the combustion fan is rotated at the maximum rotation speed, an air volume corresponding to the required combustion quantity can be obtained. An object of the present invention is to provide a combustion device capable of preventing incomplete combustion and continuing normal combustion of a burner even when there is no such combustion.

[0007]

In order to achieve the above object, the first aspect of the present invention is directed to a burner, a combustion fan for blowing combustion air to the burner, and a combustion fan for supplying the combustion air to the burner. An air volume sensor for detecting the air volume, a proportional valve provided in the fuel supply path to the burner, a combustion volume setting means for setting the combustion volume of the burner, and the air volume sensor detected during the combustion operation of the burner. Detected air volume
Depending on the fan control means for controlling the rotation speed of the combustion fan so as to match the air flow rate corresponding to the set combustion amount, and the fuel supply amount to the burner for obtaining the set combustion amount during the combustion operation of the burner. In a combustion apparatus comprising: a valve control unit that controls the proportional valve to an opening degree, the valve control unit is configured such that the combustion fan is rotated at a maximum rotation speed and the detected air volume detected by the air volume sensor is the set combustion rate. When the air volume is smaller than the air volume corresponding to the air volume, a means for controlling the proportional valve to an opening degree obtained on the basis of the detected air volume is provided so that the burner has a supply amount of fuel capable of normally burning by the detected air volume. It is characterized by being provided.

Further, in a second aspect of the present invention, the combustion amount setting means is configured such that the combustion fan is rotated at a maximum rotation speed and an air amount detected by the air amount sensor corresponds to the set combustion amount. When it is smaller, a means for forcibly setting the combustion amount corresponding to the detected air flow is provided.

[0009]

In the first aspect of the present invention, when exhaust gas clogging is progressing and the air volume corresponding to the set combustion amount cannot be obtained even though the number of revolutions of the combustion fan is maximum, The valve control means obtains the opening degree of the proportional valve based on the detected air volume detected by the air volume sensor when the combustion fan is rotating at the maximum, and controls the proportional valve to the opening degree.

More specifically, when the detected air volume is smaller than the air volume corresponding to the set combustion volume at the maximum rotation of the combustion fan, the rotational speed of the combustion fan is increased further to set the detected air volume. It is not possible to match the air volume with the combustion volume. When such a situation occurs, first, it is conceivable to reduce the fuel supply amount so that the burner normally burns at the air volume actually obtained at the maximum rotation of the combustion fan, that is, the detected air volume. Therefore, in order to reduce the amount of fuel supplied to the burner, the valve control means reduces the opening of the proportional valve. By doing so, it becomes possible to bring the burner into a normal combustion state in accordance with the actually obtained air volume.

Further, in the second aspect of the present invention, when the detected air volume is smaller than the air volume corresponding to the set combustion amount at the maximum rotation of the combustion fan, the combustion amount setting means sets the already set combustion amount. The amount is compulsorily changed to the combustion amount corresponding to the detected air amount.

As a result, the combustion fan and the proportional valve are controlled by the fan control means and the valve control means, respectively, so that the combustion amount changed as described above is obtained. That is, the combustion fan is controlled to rotate at the maximum rotation speed by the fan control means, but the proportional valve is connected to the burner for obtaining the changed set combustion amount by the valve control means. Since the opening degree is controlled according to the fuel supply amount, the burner can be brought into a normal combustion state.

[0013]

DESCRIPTION OF THE PREFERRED EMBODIMENTS First, a first embodiment corresponding to the first aspect of the present invention will be described with reference to FIGS. FIG. 1 is a system configuration diagram of the combustion apparatus of the present embodiment, FIG. 2 is a block configuration diagram of a main part of the combustion apparatus of FIG. 1, FIG. (B) is a diagram showing the relationship between the rotational speed and the opening of the gas proportional valve.

The combustion apparatus of this embodiment is a water heater,
In the figure, 1 is a heat exchanger 2 and a burner 3 for heating the heat exchanger 2.
Water heater main body having a built-in water heater, 4 is a water pipe piped through the heat exchanger 2, 5 is a flow sensor for detecting the flow rate of water flowing through the water pipe 4 on the upstream side of the heat exchanger 2, and 6 is heat exchange A temperature sensor for detecting the temperature at which the water flowing through the water pipe 4 flows downstream of the vessel 2, 7 is a gas supply pipe for supplying gas to the burner 3,
Reference numeral 9 denotes an open / close solenoid valve and a gas proportional valve which are sequentially provided in the gas supply pipe 7 from the upstream side thereof, 10 denotes a combustion fan for blowing combustion air to the burner 3, 11 denotes a fan motor for driving the combustion fan 10, and 12 Is a rotation speed sensor composed of a Hall element or the like for detecting the rotation speed of the combustion fan 10,
Reference numeral 13 is an air flow sensor such as a hot-wire air flow sensor arranged in the air passage 14 from the combustion fan 10 to the burner 3, 15 is an operation unit for the user to set the hot water temperature, and 16 is an operation unit 15. The fan motor 1 according to the set temperature of the hot water and the detection signals of the sensors 5, 6, 12 and 13
1, a controller for controlling the gas proportional valve 9, etc., 17 is an igniter for igniting the burner 3, and 18 is the burner 3
It is a frame rod that detects the combustion state such as the presence or absence of misfire.

The burner 3 and the heat exchanger 2 are housed in a combustion chamber 19 in the water heater body 1, and the combustion chamber 19
An exhaust port 20 communicates with the upper part of the. The upstream side of the water pipe 4 is connected to a water pipe (not shown), and the downstream side is connected to a hot water tap (not shown) of a kitchen or a bathroom.

The controller 16 is composed of an electronic circuit including a microcomputer,
As shown in FIG. 2, the set temperature given from the operation unit 15, the incoming water temperature detected by the incoming water temperature sensor (not shown), the hot water outlet temperature detected by the temperature sensor 6, and the flow rate sensor 5 are detected. A combustion amount setting unit 21 that sets the combustion amount of the burner 3 required to match the outlet heated water temperature with the set temperature is provided from the generated flow rate. Further, the controller 16 sets the target air volume (combustion air supply volume) from the combustion fan 10 to the burner 3 corresponding to the set combustion volume set by the combustion volume setting section 21.
And the combustion fan 1 detected by the target air volume (set air volume) set by the air volume setting unit 22 and the air volume sensor 13.
The fan control unit 23 controls the number of revolutions of the combustion fan 10 via the fan motor 11 according to the actual air flow rate of 0 or the like. The fan control unit 23 controls the combustion fan 1
A correction unit that corrects the rotation speed of the combustion fan 10 according to the air volume detected by the air volume sensor 13 when the target air volume is not obtained even if 0 is rotated at the set rotation speed set by the air volume setting unit 22. 24 are provided. The controller 16 also includes a maximum rotation speed determination unit 25 that determines whether or not the rotation speed detected by the rotation speed sensor 12 is the maximum, and the rotation of the combustion fan 10 detected by the rotation speed sensor 12. A valve control unit 26 that controls the opening of the gas proportional valve 9 in accordance with the number and the like to control the gas supply amount to the burner 3.
When the determination unit 25 provided in the valve control unit 26 determines that the combustion fan 10 is rotating at the maximum rotation speed, the gas proportional valve 9 is opened when the target air volume is not obtained. And a correction unit 27 that controls the degree to correct the gas supply amount to the burner 3 according to the air volume detected by the air volume sensor 13.

When the water pipe 4 starts to flow, the controller 16 detects this through the flow rate sensor 5,
In response to the detection, the fan control unit 23 rotationally drives the combustion fan 10 via the fan motor 11 and opens the electromagnetic valve 8 of the gas supply pipe 7 to start the gas supply to the burner 3, and further Burner 3 via igniter 17
Ignites and starts hot water supply operation.

When it is detected by the flow rate sensor 5 that the water passage through the water pipe 4 is completed, the controller 16 closes the electromagnetic valve 8 to shut off the gas supply to the burner 3 and the fan control section. The combustion fan 10 is stopped by 23, thereby ending the hot water supply operation. The operation for terminating the hot water supply operation is also performed when the frame rod 18 detects a misfire of the burner 3 during the hot water supply operation.

Next, the operation of the water heater of this embodiment will be described.

When the hot water supply operation is started as described above, first, the temperature sensor 6 is set by the combustion amount setting unit 21.
The burn amount of the burner 3 required to match the hot water temperature detected by the operating temperature with the set temperature set by the operation unit 15 is set based on the detection data of the incoming water temperature, the hot water temperature, the flow rate, and the like. Further, the air volume setting unit 22 of the controller 16 sets a target air volume from the combustion fan 10 to the burner 3 corresponding to the set combustion amount set by the combustion amount setting unit 21 according to a predetermined data table or the like.

Next, the controller 16 controls the combustion fan 10 by the fan controller 23. That is,
The fan control unit 23 uses the combustion fan 1 corresponding to the target air volume.
The rotation speed of 0 is set according to predetermined data, and the combustion fan 10 is driven via the fan motor 11 at the set rotation speed. The data used at this time is
For example, the solid line a in FIG. 3A indicates the relationship between the number of revolutions of the combustion fan 10 and the air volume obtained at the time of normality when the exhaust port 20 is not blocked at the number of revolutions. . In FIG. 3A, “N _MAX ” is the maximum rotation speed of the combustion fan 10, and “F _MAX ” is the maximum air volume obtained at the maximum rotation speed of the combustion fan 10 during normal operation.

At this time, the correction unit 24 of the fan control unit 23
When the air volume detected by the air volume sensor 13 is smaller than the target air volume, the actual air volume is increased by increasing the rotational speed of the combustion fan 10 above the initial rotational speed (set rotational speed). When the air volume detected by the sensor 13 is larger than the target air volume, the rotational speed of the combustion fan 10 is reduced below the initial rotational speed (set rotational speed) to reduce the actual air volume. As a result, the rotation speed of the combustion fan 10 is corrected so that the target air volume and the actual air volume match.

On the other hand, the valve control section 26 of the controller 16
In parallel with controlling the combustion fan 10 as described above, controls the opening of the gas proportional valve 9 to control the gas supply amount to the burner 3. In this case, basically, the valve control unit 2
Reference numeral 6 denotes the combustion fan 1 detected by the rotation speed sensor 12.
The opening of the gas proportional valve 9 corresponding to the actual rotational speed of 0 is set according to predetermined data. The data used at this time is, for example, shown by the solid line b in FIG. 3B, and the gas proportional valve 9 corresponding to the rotation speed of the combustion fan 10 at normal times and the fuel to be supplied at that rotation speed. It shows the relationship with the opening degree of. In FIG. 3B, "POV _MAX " is the maximum opening (maximum proportional valve current) of the gas proportional valve 9 corresponding to the maximum rotation speed N _MAX of the combustion fan 10.

Therefore, when the exhaust port 20 is not clogged or the like, the rotation speed of the combustion fan 10 and the actual air volume correspond to each other. By controlling the opening of the gas proportional valve 9 accordingly, the gas supply amount to the burner 3 corresponds to the air flow rate to the burner 3 controlled to the target air flow rate, and the burner 3 has the required combustion amount. To burn.

When the load on the combustion fan 10 fluctuates due to clogging of the exhaust port 20 or the like, the rotational speed of the combustion fan 10 is set so that the actual air volume and the target air volume match as described above. Since the correction is made, the rotation speed of the combustion fan 10 is increased or decreased even if the air volume to the burner 3 is the same. Therefore, the opening of the gas proportional valve 9 is simply changed to the combustion fan 10
Even if the air volume to the burner 3 is the same, the opening degree of the gas proportional valve 9 changes in accordance with the rotation speed of the combustion fan 10 and the gas supply to the burner 3 is controlled only by controlling according to the rotation speed. The amount changes. Therefore, when the air volume detected by the air volume sensor 13 is smaller than the target air volume in order to cancel the correction of the rotational speed of the combustion fan 10, the valve control unit 26 of the controller 16 determines the rotational speed of the combustion fan 10 as described above. Therefore, the opening of the gas proportional valve 9 is changed to the combustion fan 1
The opening is made smaller than the opening corresponding to the rotational speed of 0, and in the opposite case, the opening of the gas proportional valve 9 is made larger than the opening corresponding to the rotational speed of the combustion fan 10. As a result, the gas supply amount to the burner 3 corresponds to the required combustion amount of the burner 3, and the burner 3 burns smoothly with the required combustion amount.

Further, even when the combustion fan 10 is rotated at the maximum rotation speed, such as when the exhaust port 20 is clogged, it is not possible to blow air according to the set combustion amount of the burner. Sometimes, first, the maximum rotation speed determination unit 25 determines that the combustion fan 10 is rotating at the maximum rotation speed, and thus the valve control unit 2 is operated.
The correction unit 27 of 6 changes the setting to the opening degree of the gas proportional valve 9 according to the actual air volume obtained at the maximum rotation of the combustion fan 10. That is, the correction unit 27 of the valve control unit 26 uses the air volume obtained from the air volume sensor 13 at the maximum rotation of the combustion fan 10 as the rotation speed when the rotation of the combustion fan 10 is normal as shown in FIG. Substitution is performed according to the data shown in FIG. 3 and the rotation speed obtained from the data shown in FIG.
The opening of the gas proportional valve 9 is obtained according to the data shown in (b). More specifically, as shown in FIG. 3A, the correction unit 27 of the valve control unit 26 uses the combustion fan corresponding to the air volume F ₀ obtained from the air volume sensor 13 at the maximum rotation of the combustion fan 10. The number of revolutions N ₀ under normal condition of 10 is obtained,
Next, as shown in FIG. 3B, the opening degree POV ₀ of the gas proportional valve 9 corresponding to the rotation speed N ₀ is obtained. As a result, the opening degree POV ₀ of the gas proportional valve 9 corresponding to the air volume F ₀ obtained from the air volume sensor 13 at the time of maximum rotation of the combustion fan 10 can be obtained, so the correction unit 27 of the valve control unit 26.
Controls the gas proportional valve 9 according to the air volume actually obtained at the maximum rotation of the combustion fan 10. Therefore, even if the combustion fan 10 is rotated at the maximum rotation speed, if the air volume corresponding to the required combustion volume cannot be obtained, the fuel is supplied according to the air volume actually obtained at that time. Combustion can be prevented and normal burner combustion can be continued.

Next, a second aspect corresponding to the second aspect of the present invention
The embodiment will be described with reference to FIG. FIG. 4 is a block diagram of the essential parts of the apparatus of this embodiment. The combustion device of this embodiment is provided in the water heater of FIG.
The system configuration of the water heater is the same as that of FIG.
In the following description, the same components as those of the water heater of FIG. 1 are designated by the same reference numerals, and detailed description thereof will be omitted.

In the water heater provided with the combustion device of this embodiment, the controller 16 has the combustion amount setting unit 21, the air flow amount setting unit 22, the fan control unit 23, and the maximum rotation speed, as in the first embodiment. A discrimination unit 25 and a valve control unit 26 are provided. The fan control unit 23 is provided with the correction unit 24 as in the first embodiment, but the valve control unit 26 is not provided with the correction unit 27 shown in the first embodiment.

Then, when the determination unit 25 determines that the combustion fan 10 is rotating at the maximum rotation speed, the combustion amount setting unit 21 of the controller 16 of the present embodiment burns in accordance with the detected air flow rate. A correction unit 28 that newly obtains the amount and forcibly changes the set combustion amount to the combustion amount is newly provided.

Further, in the water heater of this embodiment, the operations of the configurations of the air flow rate setting unit 22, the fan control unit 23, and the valve control unit 26 are the same as those in the above-described embodiments.

The operation of the water heater of this embodiment, which is different from the water heater of the first embodiment described above, will now be described.

In the water heater of this embodiment, the operation is started as in the case of the first embodiment. Then, in the normal state or when the exhaust gas is clogged to some extent, the operation is executed similarly to the first embodiment. Further, when the exhaust port 20 is clogged and air cannot be blown according to the set combustion amount of the burner even if the combustion fan 10 is rotated at the maximum rotation speed, first, the maximum rotation speed determination is performed. Part 25
It is determined that the combustion fan 10 is rotating at the maximum rotation speed, and the correction unit 28 of the combustion amount setting unit 21 thereby performs normal combustion with the actual air volume obtained at the maximum rotation of the combustion fan 10. Calculate the amount of combustion. Then, the correction unit 28 forcibly sets the combustion amount obtained at this time in place of the already set set combustion amount. In this way, since the combustion amount is newly set, the fan control unit 2
3 controls the combustion fan 10 to obtain a new combustion amount, and the valve control unit 26 controls the opening of the gas proportional valve 9 accordingly. That is, the air volume setting unit 22 of the controller 16 sets the target air volume from the combustion fan 10 to the burner 3 corresponding to the combustion amount newly set and changed by the combustion amount setting unit 21 according to a predetermined data table or the like. As described above, the newly changed combustion amount is determined based on the actual air amount obtained at the maximum rotation of the combustion fan 10, so this air amount is set as the new target air amount. However, because the exhaust port 20 is in the state of being clogged, the fan control unit 23 cannot obtain the target air flow rate even if the combustion fan 10 is controlled to a rotation speed at which the target air flow rate is normally obtained. Therefore, the fan control unit 2
The correction unit 24 of No. 3 corrects the rotation speed in the same manner as in the first embodiment to increase the rotation speed of the combustion fan 10. at the same time,
Based on the amount of increase in the rotation speed at this time, the valve control unit 2
6 reduces the opening of the gas proportional valve 9 similarly to the first embodiment. Then, when the number of revolutions of the combustion fan 10 is maximized by the correction unit 24 of the fan control unit 23, the target air volume can be obtained, and the valve control unit 26 can supply the gas in an amount matching the air volume obtained at that time. The opening of the gas proportional valve 9 is controlled so as to supply the gas. As described above, in the present embodiment, even if the correction unit 27 of the valve control unit 26 shown in the first embodiment is not provided, as a result, the opening of the gas proportional valve 9 is detected at the maximum rotation of the combustion fan 10. It can correspond to the air volume. Therefore, even if the combustion fan 10 is rotated at the maximum rotation speed and the air volume corresponding to the required combustion amount cannot be obtained, the combustion amount is simply changed and the air volume actually obtained at that time is adjusted. Since gas can be supplied, incomplete combustion can be prevented and normal combustion of the burner can be continued.

The combustion apparatus of the present invention is not limited to the above-mentioned embodiments, and it goes without saying that various modifications are possible. For example, in each of the above embodiments, the combustion fan 10 controlled by the fan control unit 23 is used.
Although the water heater in which the valve control unit 26 controls the opening degree of the gas proportional valve 9 based on the number of revolutions is described, the gas proportional valve controlled by the valve control unit 26 is not limited to such a water heater. 9, the fan control unit 23 controls the rotation speed of the combustion fan 10, or the rotation speed of the combustion fan 10 and the opening degree of the gas proportional valve 9 are respectively set combustion amounts. The present invention can also be applied to those controlled by the fan control unit 23 and the valve control unit 26 based on the above. Further, the present invention can be applied to a fan heater and the like other than the water heater.

[0034]

As is apparent from the above, according to the first aspect of the present invention, the set combustion amount is set even though exhaust clogging is progressing and the rotation speed of the combustion fan is maximum. Even if the required air volume is not obtained, the valve control means determines the opening degree of the proportional valve based on the detected air volume detected by the air volume sensor at the maximum rotation of the combustion fan and opens the proportional valve. Since the proportional valve is controlled every time, the burner can be put into a normal combustion state according to the detected air volume at the maximum rotation of the combustion fan, incomplete combustion is prevented, and normal burner combustion is continued. can do.

According to the second aspect of the present invention, the combustion amount setting means is already set even if the detected air amount is smaller than the air amount required for the set combustion amount at the maximum rotation of the combustion fan. Since the set combustion amount that is set is compulsorily changed to the combustion amount corresponding to the detected air flow, the proportional valve is opened according to the fuel supply amount to the burner corresponding to the detected air flow at the maximum rotation of the combustion fan. Can be controlled. Therefore,
The burner can be brought into a normal combustion state corresponding to the detected air volume at the maximum rotation of the combustion fan, incomplete combustion can be prevented, and normal combustion of the burner can be continued.

[Brief description of drawings]

FIG. 1 is a system configuration diagram of a combustion apparatus according to a first embodiment of the present invention.

FIG. 2 is a block configuration diagram of a main part of the combustion device of FIG.

FIG. 3A is a diagram showing the relationship between the rotation speed of the combustion fan and the air volume, and FIG. 3B is a diagram showing the relationship between the rotation speed of the combustion fan and the opening of the gas proportional valve.

FIG. 4 is a block configuration diagram of a main part of a combustion apparatus according to a second embodiment of the present invention.

[Explanation of symbols]

3 ... Burner, 9 ... Gas proportional valve (proportional valve), 10 ... Combustion fan, 13 ... Air volume sensor, 21 ... Combustion amount setting section (combustion amount setting means), 23 ... Fan control section (fan control means),
26 ... Valve control unit (valve control means).

Claims (2)

[Claims] 1. A burner, a combustion fan for blowing combustion air to the burner, an air flow sensor for detecting an air flow rate from the combustion fan to the burner, and a proportion provided in a fuel supply path to the burner. A valve, a combustion amount setting means for setting the combustion amount of the burner, and a detected air amount detected by the air amount sensor during the combustion operation of the burner, in order to match the air amount corresponding to the set combustion amount of the combustion fan. A fan control means for controlling the number of revolutions, and a valve control means for controlling the proportional valve to an opening degree according to the supply amount of fuel to the burner for obtaining the set combustion amount during combustion operation of the burner are provided. In the combustion apparatus, the valve control means, when the combustion fan is rotated at a maximum rotation speed and the detected air volume detected by the air volume sensor is smaller than the air volume corresponding to the set combustion volume, Defuryou by so that the supply amount of fuel the burner can burn properly, the combustion apparatus comprising means for controlling said proportional valve to an opening degree determined based on the detection air volume. 2. A burner, a combustion fan for blowing combustion air to the burner, an air volume sensor for detecting an air volume from the combustion fan to the burner, and a proportionality provided in a fuel supply path to the burner. A valve, a combustion amount setting means for setting the combustion amount of the burner, and a detected air amount detected by the air amount sensor during the combustion operation of the burner, in order to match the air amount corresponding to the set combustion amount of the combustion fan. A fan control means for controlling the number of revolutions, and a valve control means for controlling the proportional valve to an opening degree according to the supply amount of fuel to the burner for obtaining the set combustion amount during combustion operation of the burner are provided. In the combustion apparatus, when the combustion fan is rotated at the maximum rotation speed and the detected air volume detected by the air volume sensor is smaller than the air volume corresponding to the set combustion volume, the combustion volume setting means. Combustion apparatus comprising means for forcibly setting the combustion amount corresponding to the detection air volume.