JP6868481B2 - Hot air heater - Google Patents

Description

This specification relates to a hot air heater.

Patent Document 1 describes a housing provided with an air supply port and an air outlet, a burner that burns fuel to heat air, and air taken in from the room through the air supply port and passed through the burner to open the air outlet. A blower fan that blows air into the room through the air and a hot air heater equipped with a control device are disclosed. This hot air heater can perform post-fan operation to operate the blower fan when the heating by the burner is completed.

Japanese Unexamined Patent Publication No. 10-9564

Not only a burner that burns fuel to heat air, but also a hot air heater equipped with an electric heater that converts electric power into heat to heat air is known. In such a hot air heater, it is necessary to perform a post-fan operation in order to cool the inside of the housing not only when the heating by the burner is finished but also when the heating by the electric heater is finished.

In general, an electric heater has a higher specific heat than a burner, and the temperature of the electric heater is less likely to drop than that of a burner in post-fan operation. Therefore, if the post-fan operation is performed in the same manner when the heating by the burner is finished and when the heating by the electric heater is finished, the burner is unnecessarily cooled or the electric heater is not sufficiently cooled. There is a risk of becoming. In a hot air heater equipped with a burner and an electric heater, a technique capable of appropriately cooling the burner and the electric heater in post-fan operation is expected.

The present specification provides a technique for solving the above problems. The present specification provides a technique capable of appropriately cooling a burner and an electric heater in a post-fan operation in a hot air heater including a burner and an electric heater.

This specification discloses a hot air heater. The hot air heater is via a housing equipped with an air supply port and an air outlet, a burner that burns fuel to heat the air, an electric heater that converts electric power into heat to heat the air, and an air supply port. It is equipped with a blower fan that takes in air from the room, passes it through a burner and an electric heater, and sends the air into the room through an outlet, and a control device. The hot air heater can perform a first heating operation in which heating is performed by a burner and a second heating operation in which heating is performed by an electric heater without heating by a burner. After the end of the first heating operation, the hot air heater executes the first post-fan operation in which the blower fan is operated for the first duration. At the end of the second heating operation, the hot air heater executes a second post-fan operation in which the blower fan is operated for the second duration. In the hot air heater, the second duration in the second post-fan operation performed after the end of the second heating operation is the end of the first heating operation performed with the same heating capacity as the heating capacity in the second heating operation. It is set longer than the first duration in the first post-fan operation to be performed later.

In the above configuration, the second duration in the second post-fan operation performed after the end of the second heating operation (heating operation in which heating is performed by the electric heater without heating by the burner) is the heating in the second heating operation. It is set longer than the first duration in the first post-fan operation performed after the end of the first heating operation (heating operation in which heating by the burner is performed) performed with the same heating capacity as the capacity. According to the above configuration, the burner can be appropriately cooled in the first post-fan operation, and the electric heater can be appropriately cooled in the second post-fan operation.

In the above-mentioned hot air heater, the first duration in the first post-fan operation performed after the end of the first heating operation is the first increase rate following the increase in the heating capacity during the execution of the first heating operation. The second duration in the second post-fan operation performed after the end of the second heating operation follows the increase in the heating capacity during the execution of the second heating operation. The second increase rate may be set to increase, and the second increase rate may be set lower than the first increase rate.

In the above configuration, when the heating capacity is increased during the execution of the first heating operation, the first duration is increased at the first increase rate following the increase in the heating capacity, so that the heating capacity is immediately increased. Even when the heating operation is completed, the first duration in the first post-fan operation can be appropriately set. Further, in the above configuration, when the heating capacity is increased during the execution of the second heating operation, the heating capacity is increased by increasing the second duration at the second increase rate following the increase in the heating capacity. Even if the heating operation ends immediately after the heating operation is performed, the second duration in the second post-fan operation can be appropriately set. In general, since the electric heater has a higher specific heat than the burner, the heating capacity of the electric heater is increased in the second heating operation as compared with the temperature rise of the burner when the heating capacity of the burner is increased in the first heating operation. In this case, the temperature rise of the electric heater becomes more gradual. According to the above configuration, since the second increase rate is set lower than the first increase rate, the first duration of the first post-fan operation and the second duration of the second post-fan operation are appropriately set. Can be set.

In the above-mentioned hot air heater, the first duration in the first post-fan operation performed after the end of the first heating operation is the first reduction rate following the reduction in the heating capacity during the execution of the first heating operation. The second duration in the second post-fan operation performed after the end of the second heating operation follows the reduction in the heating capacity during the execution of the second heating operation. The second reduction rate may be set to reduce, and the second reduction rate may be set lower than the first reduction rate.

In the above configuration, when the heating capacity is reduced during the execution of the first heating operation, the heating capacity is reduced immediately after the heating capacity is reduced by reducing the first duration at the first reduction rate following the reduction in the heating capacity. Even when the heating operation is completed, the first duration in the first post-fan operation can be appropriately set. Further, in the above configuration, when the heating capacity is reduced during the execution of the second heating operation, the heating capacity is reduced by reducing the second duration at the second reduction rate following the reduction in the heating capacity. Even if the heating operation ends immediately after the heating operation is performed, the second duration in the second post-fan operation can be appropriately set. In general, since the electric heater has a higher specific heat than the burner, the heating capacity of the electric heater is reduced in the second heating operation as compared with the temperature decrease of the burner when the heating capacity of the burner is reduced in the first heating operation. In this case, the temperature of the electric heater drops more slowly. According to the above configuration, since the second reduction rate is set lower than the first reduction rate, the first duration of the first post-fan operation and the second duration of the second post-fan operation can be appropriately set. Can be set.

It is a figure which shows typically the structure of the gas fan heater 2 which concerns on Example. It is a figure which shows typically the electric system of the gas fan heater 2 which concerns on Example. It is a table which shows the correspondence relationship between the fan rotation speed, and the post-fan time with respect to the heating capacity of the burner 10 and the heating capacity of the electric heater 24 in the gas fan heater 2 according to the embodiment. It is a graph explaining the state of the update of the post fan time in the gas fan heater 2 which concerns on an Example.

(Example)
The gas fan heater 2 according to the embodiment of the hot air heater will be described with reference to FIG. The gas fan heater 2 takes in air from the room through the air supply port 4 on the back surface, burns the fuel gas using the sucked air as combustion air, and blows the air heated by the combustion of the fuel gas into the air outlet 6 on the front surface. The room is heated by sending it out from the room. The gas fan heater 2 is a so-called open type gas fan heater.

The gas fan heater 2 takes in indoor air from a gas supply pipe 8 for supplying fuel gas, a burner 10 for burning fuel gas from the gas supply pipe 8, and an air supply port 4, and blows out heated air. A blower fan 12 sent out from 6 into the room, a control unit 14 for controlling the operation of the gas fan heater 2, an operation unit 16 for the user to operate the operation of the gas fan heater 2, and a housing 18 for accommodating these are provided. There is.

The air supply port 4 is formed on the upper side of the back surface of the housing 18, and the air outlet 6 is formed on the lower side of the front surface of the housing 18. Inside the housing 18, a part of the air flowing in from the air supply port 4 is supplied to the burner 10 as combustion air, and the rest is mixed with the combustion exhaust gas of the burner 10 and guided to the outlet 6. The passage 20 is formed. The blower fan 12 is arranged in the internal air passage 20 on the downstream side of the burner 10 (between the burner 10 and the air outlet 6). The air supply port 4 is provided with an air filter 22 that suppresses the intrusion of dust and the like.

An electric heater 24 is provided between the blower fan 12 and the air outlet 6 in the internal air passage 20. The electric heater 24 generates heat when energized and heats the air passing through the internal air passage 20. The electric heater 24 includes a plurality of heat generating parts, and the energization can be switched on / off for each of the heat generating parts. The electric heater 24 can switch the heating capacity by switching the number of heat generating portions to be energized.

The gas supply pipe 8 is provided with an electromagnetic on-off valve 26 for opening and closing the gas supply pipe 8 and a motor-driven flow rate adjusting valve 27 for adjusting the opening degree of the gas supply pipe 8. A fuel gas such as city gas (for example, a gas containing methane gas (CH4) as a main component, such as 13A) is supplied to the gas supply pipe 8 from the outside of the gas fan heater 2. The burner 10 is provided with an igniter 28 above the flame opening. The burning capacity of the burner 10 can be adjusted by adjusting the flow rate of the fuel gas to be burned.

An indoor temperature sensor 30 is provided on the back surface of the housing 18. The indoor temperature sensor 30 detects the temperature of the indoor air sucked into the housing 18 from the air supply port 4. As the indoor temperature sensor 30, various types such as a thermocouple and a thermistor can be used.

As shown in FIG. 2, the operation unit 16 includes an operation switch 34 for instructing the user to start and stop the heating operation by the gas fan heater 2, and a mode selection unit 36 for selecting the operation mode for the heating operation by the gas fan heater 2. It is provided with a temperature setting unit 38 for setting a heating target temperature, a display unit 40 for displaying various information such as an operation mode, a heating target temperature, and a room temperature. The operation mode of the heating operation by the gas fan heater 2 is selected from the burner independent mode, the electric heater independent mode, and the burner electric heater combined mode. In the burner independent mode, the gas fan heater 2 heats the air by the burner 10 and does not heat the air by the electric heater 24. In the electric heater independent mode, the gas fan heater 2 heats the air by the electric heater 24 and does not heat the air by the burner 10. In the burner electric heater combined mode, the gas fan heater 2 performs both heating of air by the burner 10 and heating of air by the electric heater 24.

The control unit 14 controls the operation of the blower fan 12, the electric heater 24, the on-off valve 26, the flow rate adjusting valve 27, the igniter 28, and the like. The control unit 14 includes a memory 42 for storing various programs and data, and a timer 44 for timing.

The control unit 14 can adjust the heating capacity of the burner 10 in multiple stages when the burner 10 heats the air. In this embodiment, the heating capacity of the burner 10 is set to the first stage, the second stage having a higher heating capacity than the first stage, the third stage having a higher heating capacity than the second stage, and the third stage. The 4th stage, which has a higher heating capacity, the 5th stage, which has a higher heating capacity than the 4th stage, the 6th stage, which has a higher heating capacity than the 5th stage, and the 7th stage, which has a higher heating capacity than the 6th stage. , The case where the adjustment is possible in seven steps will be described as an example. The control unit 14 adjusts the opening degree of the flow rate adjusting valve 27 according to the heating capacity of the burner 10 to adjust the amount of fuel gas supplied to the burner 10, and also adjusts the rotation speed of the blower fan 12 to adjust the air. Adjust the amount of air blown.

The control unit 14 can adjust the heating capacity of the electric heater 24 in multiple stages when the air is heated by the electric heater 24. In this embodiment, a case where the heating capacity of the electric heater 24 can be adjusted in two stages, a weak one and a strong one having a higher heating capacity than the weak one, will be described as an example. The control unit 14 adjusts the electric power supplied to the electric heater 24 according to the heating capacity of the electric heater 24, and adjusts the rotation speed of the blower fan 12 to adjust the amount of air blown. In the gas fan heater 2 of this embodiment, the heating capacity when the electric heater 24 is used to heat the air with the electric heater 24 as the second stage is determined by the burner 10 with the heating capacity of the burner 10 as the second stage. It is almost the same as the heating capacity when heating air. Further, the heating capacity when the heating capacity of the electric heater 24 is weakened and the air is heated by the electric heater 24 is compared with the heating capacity when the heating capacity of the burner 10 is set as the first step and the air is heated by the burner 10. Low.

As shown in FIG. 3, in the gas fan heater 2 of this embodiment, the rotation speed of the blower fan 12 (referred to as the fan rotation speed in FIG. 3) according to the heating capacity of the burner 10 and the heating capacity of the electric heater 24. Is preset. For example, in the burner independent mode, the rotation speed of the blower fan 12 when the heating capacity of the burner 10 is set to the first stage, the second stage, the third stage, the fourth stage, the fifth stage, the sixth stage, and the seventh stage. Are 400 rpm, 500 rpm, 600 rpm, 700 rpm, 800 rpm, 900 rpm, and 1000 rpm, respectively. Further, in the burner electric heater combined mode, the rotation speed of the blower fan 12 is 1000 rpm when the heating capacity of the burner 10 is set to the seventh stage and the heating capacity of the electric heater 24 is weakened. Further, in the electric heater independent mode, the rotation speeds of the blower fan 12 when the heating capacity of the electric heater 24 is weak and strong are 300 rpm and 500 rpm, respectively.

In the gas fan heater 2 of the present embodiment, in any of the burner independent mode, the burner electric heater combined mode, and the electric heater independent mode, in order to cool the inside of the housing 18 after the heating operation is executed, the inside of the housing 18 is cooled. Perform post-fan operation. The rotation speed of the blower fan 12 in the post-fan operation is, for example, 600 rpm. As shown in FIG. 3, the duration of the post-fan operation (hereinafter, also referred to as the post-fan time) is preset according to the heating capacity of the burner 10 and the heating capacity of the electric heater 24 in the heating operation.

As shown in FIG. 4, in the gas fan heater 2 of the present embodiment, the control unit 14 determines the duration of the post-fan operation (post-fan time) to be performed after the heating operation is completed during the heating operation. , Always updated. Then, when the gas fan heater 2 finishes the heating operation, the control unit 14 executes the post-fan operation based on the post-fan time set at that time. Note that FIG. 4 illustrates a case where the heating capacity of the gas fan heater 2 changes as follows during the period t1, t2, t3, t4, t5, t6, t7, t8 during which the heating operation is performed. There is. In the period t1, the gas fan heater 2 is performing the heating operation in the burner independent mode in which the heating capacity of the burner 10 is set to the sixth stage. In the period t2, the gas fan heater 2 performs the heating operation in the burner independent mode in which the heating capacity of the burner 10 is set to the seventh stage. In the period t3, the gas fan heater 2 performs the heating operation in the burner electric heater combined mode in which the heating capacity of the burner 10 is set to the seventh stage and the heating capacity of the electric heater 24 is weakened. In the period t4, the gas fan heater 2 performs the heating operation in the burner independent mode in which the heating capacity of the burner 10 is set to the seventh stage. In the period t5, the gas fan heater 2 performs the heating operation in the burner independent mode in which the heating capacity of the burner 10 is set to the sixth stage. In the period t6, the gas fan heater 2 performs the heating operation in the electric heater independent mode in which the heating capacity of the electric heater 24 is strengthened. In the period t7, the gas fan heater 2 performs the heating operation in the electric heater independent mode in which the heating capacity of the electric heater 24 is weakened. In the period t8, the gas fan heater 2 performs the heating operation in the electric heater independent mode in which the heating capacity of the electric heater 24 is strengthened.

Hereinafter, the post-fan time update process by the control unit 14 will be described. As shown in FIG. 3, when the heating operation is executed in the burner independent mode, the heating capacity of the burner 10 in the heating operation is the first stage, the second stage, the third stage, the fourth stage, the fifth stage, and the sixth stage. The post-fan time corresponding to the case of the seventh stage is, for example, 100 seconds, 110 seconds, 120 seconds, 130 seconds, 140 seconds, 150 seconds, 160 seconds. If the heating operation ends immediately after the heating capacity of the burner 10 is switched, the post-fan time corresponding to the heating capacity of the burner 10 before the switch and the heating capacity of the burner 10 after the switch are set. The post-fan time is set between the corresponding post-fan times. Specifically, when the heating capacity of the burner 10 is increased during the heating operation in the burner independent mode (for example, the heating capacity of the burner 10 is switched from the period t1 to the period t2 in FIG. 4). When is switched from the 6th stage to the 7th stage), the control unit 14 increases the post-fan time corresponding to the heating capacity of the burner 10 (for example, the 6th stage) before increasing the post-fan time (for example, the 6th stage). From 150 seconds) to the post-fan time (eg 160 seconds) corresponding to the heating capacity of the burner 10 after the increase (eg 7th stage) at a given rate of increase dT1 / dt (eg 2 seconds / sec). increase. On the contrary, when the heating capacity of the burner 10 is reduced during the heating operation in the burner independent mode (for example, as in the switching from the period t4 to the period t5 in FIG. 4, the heating capacity of the burner 10 becomes the second. When switching from the 7th stage to the 6th stage), the control unit 14 reduces the post-fan time to the post-fan time (for example, 160 seconds) corresponding to the heating capacity of the burner 10 (for example, the 7th stage) before reducing the post-fan time. ) To the post-fan time (for example, 150 seconds) corresponding to the heating capacity of the burner 10 after reduction (for example, the sixth stage), with a predetermined reduction rate dT2 / dt (for example, -2 seconds / second). Let me.

Further, as shown in FIG. 3, when the heating operation is executed in the electric heater independent mode, the post-fan time corresponding to the case where the heating capacity of the electric heater 24 in the heating operation is weak or strong is, for example, 140 seconds. It is 180 seconds. If the heating operation ends immediately after the heating capacity of the electric heater 24 is switched, the post-fan time corresponding to the heating capacity of the electric heater 24 before the switching and the post-fan time after the switching are performed. The post-fan time is set during the post-fan time corresponding to the heating capacity. Specifically, when the heating capacity of the electric heater 24 increases during the heating operation in the electric heater independent mode (for example, as in the switching from the period t7 to the period t8 in FIG. 4, the electric heater 24 When the heating capacity of the electric heater 24 is switched from weak to strong), the control unit 14 increases the post-fan time to correspond to the heating capacity (for example, weak) of the electric heater 24 before increasing the post-fan time (for example, 140 seconds). ) To the post-fan time (for example, 180 seconds) corresponding to the heating capacity (for example, strong) of the electric heater 24 after the increase, the increase rate is dT3 / dt (for example, 1 second / sec). On the contrary, when the heating capacity of the electric heater 24 is reduced during the heating operation in the electric heater independent mode (for example, heating of the electric heater 24 as in the switching from the period t6 to the period t7 in FIG. 4). When the capacity is switched from strong to weak), the control unit 14 reduces the post-fan time from the post-fan time (for example, 180 seconds) corresponding to the heating capacity (for example, strong) of the electric heater 24 before the reduction. The post-fan time (for example, 140 seconds) corresponding to the heating capacity (for example, weak) of the electric heater 24 after the reduction is reduced by a predetermined reduction rate dT4 / dt (for example, -1 second / sec).

As shown in FIG. 3, in the gas fan heater 2 of the present embodiment, the post-fan time (for example, 180 seconds) corresponding to the case where the heating capacity of the electric heater 24 is strong in the heating operation in the electric heater independent mode is set. , Set longer than the post-fan time (for example, 110 seconds) corresponding to the case where the heating capacity is the same in the heating operation in the burner single mode (that is, when the heating capacity of the burner 10 is the second stage). Has been done. This is because the electric heater 24 has a higher specific heat than the burner 10, so that the electric heater 24 after the end of the heating operation in the electric heater independent mode is more than the burner 10 after the end of the heating operation in the burner independent mode. This is because the temperature does not easily drop. By setting the post-fan time as described above, the burner 10 and the electric heater 24 can be reliably cooled without unnecessarily lengthening the post-fan operation time.

As shown in FIG. 4, in the gas fan heater 2 of the present embodiment, during the heating operation in the burner independent mode, the post-fan time is increased at a predetermined rate dT1 / following the increase in the heating capacity of the burner 10. It is increased by dt (for example, 2 seconds / sec), and during the heating operation in the electric heater independent mode, the post-fan time is increased at a predetermined rate dT3 / dt following the increase in the heating capacity of the electric heater 24. It is increased at (for example, 1 second / sec), and the increase rate dT3 / dt is set lower than the increase rate dT1 / dt. This is because the electric heater 24 has a higher specific heat than the burner 10, so that the temperature rise of the burner 10 when the heating capacity of the burner 10 is increased in the burner independent mode is compared with that of the electric heater 24 in the electric heater independent mode. This is because the temperature rise of the electric heater 24 when the heating capacity is increased becomes more gradual. By setting the post-fan time as described above, the burner 10 and the electric heater 24 can be reliably cooled without unnecessarily lengthening the post-fan operation time.

In the gas fan heater 2 of the present embodiment, during the heating operation in the burner independent mode, the post-fan time is reduced by a predetermined reduction rate dT2 / dt (for example, -2 seconds / dt) following the reduction of the heating capacity of the burner 10. The post-fan time is reduced by a predetermined reduction rate dT4 / dt (for example, -1 second / sec) following the reduction in the heating capacity of the electric heater 24 during the heating operation in the electric heater independent mode. It is reduced in seconds), and the reduction rate dT4 / dt is set lower than the reduction rate dT2 / dt. This is because the electric heater 24 has a higher specific heat than the burner 10, so that the temperature of the electric heater 24 is lowered in the electric heater independent mode as compared with the temperature decrease of the burner 10 when the heating capacity of the burner 10 is reduced in the burner independent mode. This is because the temperature drop of the electric heater 24 when the heating capacity is reduced becomes more gradual. By setting the post-fan time as described above, the burner 10 and the electric heater 24 can be reliably cooled without unnecessarily lengthening the post-fan operation time.

In the gas fan heater 2 of this embodiment, when the burner independent mode is switched to the electric heater independent mode during the heating operation as in the switching from the period t5 to the period t6 in FIG. 4, control is performed. Part 14 is in the electric heater independent mode from the post fan time corresponding to the heating capacity of the burner 10 in the burner independent mode to the post fan time corresponding to the heating capacity of the electric heater 24 in the electric heater independent mode. The post-fan time is increased or decreased at a post-fan time increase rate dT3 / dt (eg 1 second / sec) or a reduction rate dT4 / dt (eg -1 sec / sec). On the contrary, in the gas fan heater 2 of the present embodiment, when the electric heater independent mode is switched to the burner independent mode during the heating operation, the control unit 14 heats the electric heater 24 in the electric heater independent mode. From the post-fan time corresponding to the capacity to the post-fan time corresponding to the heating capacity of the burner 10 in the burner-only mode, the rate of increase in the post-fan time in the burner-only mode dT1 / dt (for example, 2 seconds / sec). Alternatively, the reduction rate dT2 / dt (for example, -2 seconds / sec) increases or decreases the post-fan time. By setting the post-fan time as described above, the burner 10 and the electric heater 24 can be reliably cooled without unnecessarily lengthening the post-fan operation time.

As shown in FIG. 3, when the heating operation is executed in the burner electric heater combined mode, the heating capacity of the burner 10 in the heating operation is the seventh stage, and the heating capacity of the electric heater 24 is weak. The post-fan time is, for example, 170 seconds. When the burner independent mode is switched to the burner electric heater combined mode during the heating operation as in the switching from the period t2 to the period t3 in FIG. 4, the control unit 14 controls the burner 10 in the burner independent mode. From the post-fan time corresponding to the heating capacity of the burner (for example, 160 seconds) to the post-fan time corresponding to the heating capacity of the electric heater 24 in the burner electric heater combined mode (for example, 170 seconds), the post in the burner independent mode The post-fan time is increased by the fan time increase rate dT1 / dt (eg 2 seconds / sec). When the burner electric heater combined mode is switched to the burner independent mode during the heating operation as in the switching from t3 to t4 in the period of FIG. 4, the control unit 14 is charged with electricity in the burner electric heater combined mode. From the post-fan time corresponding to the heating capacity of the heater 24 (for example, 170 seconds) to the post-fan time corresponding to the heating capacity of the burner 10 in the burner-only mode (for example, 160 seconds), the post-fan in the burner-only mode The post-fan time is reduced by the time reduction rate dT2 / dt (eg -2 seconds / sec).

In the above embodiment, the gas fan heater 2 has been illustrated as an embodiment of the hot air heater, but the hot air heater disclosed in the present specification is not limited to this, and for example, an oil fan. It may be a heater, a gas stove, an oil stove, or the like.

In the above embodiment, the hot air heater uses the air taken in from the room through the air supply port as the combustion air of the burner, and sends the combustion exhaust gas from the burner into the room through the air outlet. Although the case of a so-called open type hot air heater has been described, the hot air heater disclosed in the present specification is not limited to this. The hot air heater disclosed in the present specification uses, for example, the air taken in from the room through the air supply port as the combustion air of the burner, and discharges the combustion exhaust gas from the burner to the outside, so-called half. It may be a closed type hot air heater, or it may be a so-called closed type hot air heater that uses the air taken in from the outside as the combustion air of the burner and discharges the combustion exhaust gas from the burner to the outside. It may be.

Although specific examples of the present invention have been described in detail above, these are merely examples and do not limit the scope of claims. The techniques described in the claims include various modifications and modifications of the specific examples illustrated above. The technical elements described herein or in the drawings exhibit their technical usefulness alone or in various combinations, and are not limited to the combinations described in the claims at the time of filing. In addition, the techniques illustrated in the present specification or drawings can achieve a plurality of purposes at the same time, and achieving one of the purposes itself has technical usefulness.

2: Gas fan heater 4: Air supply port 6: Air outlet 8: Gas supply pipe 10: Burner 12: Blower fan 14: Control unit 16: Operation unit 18: Housing 20: Internal air passage 22: Air filter 24: Electricity Heater 26: On-off valve 27: Flow control valve 28: Igniter 30: Indoor temperature sensor 34: Operation switch 36: Mode selection unit 38: Temperature setting unit 40: Display unit 42: Memory 44: Timer

Claims (3)

A housing with an air supply port and an air outlet,
A burner that burns fuel to heat the air,
An electric heater that converts electric power into heat and heats the air,
A blower fan that takes in air from the room through the air supply port, passes it through the burner and electric heater, and sends the air into the room through the air outlet.
Equipped with a control device
It is possible to execute the first heating operation in which heating is performed by the burner and the second heating operation in which heating is performed by the electric heater without heating by the burner.
After the end of the first heating operation, the first post-fan operation for operating the blower fan for the first duration is executed.
At the end of the second heating operation, the second post-fan operation, in which the blower fan is operated for the second duration, is executed.
The second duration in the second post-fan operation performed after the end of the second heating operation is the same as the heating capacity in the second heating operation. The first post fan performed after the end of the first heating operation performed after the end of the first heating operation. A hot air heater that is set longer than the first duration of operation. The first duration in the first post-fan operation performed after the end of the first heating operation is set to increase at the first increase rate following the increase in the heating capacity during the execution of the first heating operation. Ori,
The second duration in the second post-fan operation performed after the end of the second heating operation is set to increase at the second increase rate following the increase in the heating capacity during the execution of the second heating operation. Ori,
The hot air heater according to claim 1, wherein the second increase rate is set lower than the first increase rate. The first duration in the first post-fan operation performed after the end of the first heating operation is set to be reduced by the first reduction rate following the reduction in the heating capacity during the execution of the first heating operation. Ori,
The second duration in the second post-fan operation performed after the end of the second heating operation is set to be reduced by the second reduction rate following the reduction in the heating capacity during the execution of the second heating operation. Ori,
The hot air heater according to claim 1 or 2, wherein the second reduction rate is set lower than the first reduction rate.

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