KR0173829B1 - Warm wind air conditioner - Google Patents

Abstract

[purpose]

In a warm air heater that stops the operation of the heating source once when the detected room temperature exceeds a predetermined temperature and performs a post purge that continuously operates the convection fan for a predetermined time, the room temperature control is appropriately performed without discomfort to the user. To be done.

[Configuration]

When the detected room temperature detected by the room temperature sensor 4 exceeds the first reference temperature, the second combustion control means 7 stops the combustion of the combustor and continues to operate the convection fan motor 32 for a predetermined period. After the post purge is completed, the reference temperature changing unit 72 sets the second reference temperature (= set temperature) to a first reference temperature higher than the second reference temperature (= set temperature) during post purging. Change it.

Description

Hot air heater

1 is a configuration of the FF gas hot air heater according to an embodiment of the present invention.

2 is a block diagram of the FF gas hot air heater.

3 is a flowchart showing the operation of the FF gas hot air heater.

4 is a graph showing the relationship between elapsed time and temperature in the FF gas heater.

* Explanation of symbols for main parts of the drawings

A: FF gas hot air heater (hot air heater)

1 housing 2 burner (heating source)

3: convection fan 4: room temperature sensor

5: room temperature setter

7: second combustion control means (heating control means)

10: indoor air 11: inlet

12: outlet 30: warm air

71: reference temperature determining unit 72: reference temperature changing unit

T: Room temperature for detection T ₁ : First reference temperature

T ₂ : 2nd reference temperature T _S : Setting room temperature

The present invention relates to a warm air heater.

Conventionally, a combustion chamber accommodating a gas burner as a heating source, a heat exchange part leading to the combustion chamber, a heat exchange part, a blower passage communicating with an inlet and a blower outlet, and a convection fan provided in the blower passage are provided in the main body case. FF gas hot air heaters are known.

In this gas hot air heater, an intake cylinder extending outwardly of the main body case is connected to the upstream side of the combustion chamber, and an exhaust cylinder is connected to the downstream side via a heat exchanger.

The convection fan draws indoor air through the suction port and blows the indoor air heated by the heat exchanger from the jet port to the room.

The room temperature sensor is installed near the suction port, for example, and the room temperature setter is installed in the operation portion of the main body case.

The combustion controller controls the opening degree of the proportional valve installed in the gas supply path in a stepless manner or in a plurality of stages so that the detection temperature detected by the temperature sensor becomes the target temperature set by the room temperature setter.

However, in the case of a warm air heater having a large maximum combustion amount, the room temperature may exceed the set temperature even if the combustion controller minimizes the burn amount of the gas burner (the room temperature is relatively high and the set room temperature is set relatively low).

This situation is solved by providing a combustion controller that once stops the combustion of the gas burner when the detected room temperature exceeds a predetermined temperature. Specifically, if the detection room temperature during combustion exceeds the first reference temperature determined according to the set room temperature, the combustion controller stops combustion of the gas burner, and then the detection room temperature drops below the second reference temperature lower than the first reference temperature. If it resumes combustion.

However, the inventors of the present invention have found that the warm air heater provided with the combustion controller has a disadvantage as shown below.

In a warm air heater, when the combustion of a gas burner stops, operation of a convection fan is continued (so-called post purge) and the overheating of a cabin is continued until predetermined time passes or the temperature in a cabin falls below predetermined temperature.

Since the convection fan operates during this post purge, the room temperature sensor can accurately detect the room temperature because the air in the room flows. However, when the post purge ends, the convection fan stops, so that the air in the room does not flow to the room temperature sensor.

Therefore, the change in the detected room temperature detected by the room temperature sensor after the end of the post purge is usually shifted against the change in the actual room temperature (see the solid line and the double-dotted line of FIG. 4). Therefore, the phenomenon that the detection room temperature by the room temperature sensor exceeds the second reference temperature is detected even though the actual room temperature falls below the second reference temperature and the combustion temperature is reached. In this case, the user feels cold because combustion is not resumed.

In addition, if the convection fan is operated continuously or intermittently even after the post purge is completed, the above phenomenon does not occur, but cold air is blown out from the hot air heater, causing discomfort to the user. Moreover, although the gas burner was shown as a heating source in the said prior art, there exists a similar problem even if an electric heater etc. are a heating source.

An object of the present invention is to provide a warm air heater that performs a post purge that continuously stops the operation of the heating source when the detection room temperature exceeds a predetermined temperature and continuously operates the convection fan until the predetermined time or the cabin temperature falls below the predetermined temperature. It is to ensure that the room temperature control is performed appropriately without causing discomfort to the user.

In order to solve the above problems, the present invention has the following constitution.

(1) a housing having a suction port and a jet port, a heating source disposed in the housing, a convection fan that receives indoor air from the suction port, and blows off indoor air heated by the heating source as hot air from the jet port; The room temperature sensor which detects the room temperature arrange | positioned near the said suction port, the room temperature setter which sets room temperature, and the reference temperature determination part which determines a 1st, 2nd reference temperature based on the said set room temperature, When the first reference temperature is exceeded, the operation of the heating source is once stopped and a post purge is performed to continuously operate the convection fan for a predetermined time. During the heating stop, the detection room temperature is higher than the first reference temperature. In the warm air conditioner having a heating control means for resuming operation of the heating source when the temperature falls below the low second reference temperature. Heat control means is to have the post when the purge is completed, to change the second reference for changing the reference temperature to a second temperature higher than the second reference temperature during the post-purge temperature portion.

(2) a housing having a suction port and a jet port, a heating source disposed in the housing, a convection fan that receives indoor air from the suction port, and blows out indoor air heated by the heating source as hot air from the jet port; A room temperature sensor for detecting a room temperature disposed in the vicinity of the suction port, a room temperature setter for setting a room temperature, and a reference temperature determination unit for determining first and second reference temperatures based on the set room temperature. In the case where the reference temperature is exceeded, the operation of the heating source is once stopped and a post purge is performed to continuously operate the convection fan until the cabin temperature falls below a predetermined temperature. When the temperature falls below the second reference temperature lower than the first reference temperature, heating control means for restarting the operation of the heating source is obtained. When in a hot air heater for the heating control means ends the post-purge, and has the second reference part to change for changing the reference temperature to a second temperature higher than the second reference temperature during the post-purge temperature.

(3) The second reference temperature having the configuration of (1) or (2), wherein the first reference temperature determined by the reference temperature determination unit is higher than a set room temperature set by the room temperature setter, and the reference temperature determination unit determines The reference temperature is equal to the set room temperature set by the room temperature setter, and the second reference temperature changed by the reference temperature changing unit is equal to the first reference temperature.

(4) a housing having a suction port and a jet port, a heating source disposed in the housing, a convection fan that receives indoor air from the suction port and blows off the indoor air heated by the heating source as hot air from the jet port; It has a room temperature sensor which detects room temperature arrange | positioned near a suction inlet, the room temperature setter which sets room temperature, and the reference temperature determination part which determines a 1st, 2nd reference temperature based on the said set room temperature, The said detection room temperature is the said, When the reference temperature is exceeded, the operation of the heating source is once stopped and a post purge is continued for the predetermined time. During the heating stop, the detection room temperature is lower than the first reference temperature. In the warm air heater provided with heating control means which resumes operation of the said heating source, when it falls below 2 reference temperature. When the post purge is completed, the heating control means corrects the detection room temperature to a temperature lower than the temperature detected by the room temperature sensor and compares it with the second reference temperature.

(5) a housing having a suction port and a jet port, a heating source disposed in the housing, a convection fan that sucks indoor air from the suction port, and blows out indoor air heated by the heating source as hot air from the jet port; A room temperature sensor for detecting a room temperature disposed in the vicinity of the suction port, a room temperature setter for setting a room temperature, and a reference temperature determining unit for determining first and second reference temperatures based on the set room temperature. When the first reference temperature is exceeded, the operation of the heating source is once stopped and at the same time, a post purge is continued to operate the convection fan until the cabin temperature falls below a predetermined temperature. And a heating control means for resuming the operation of the heating source when the temperature falls below the second reference temperature lower than the first reference temperature. Is the heating control means according to the warm air heater is compared when the post-purging is completed, the correction of the detected room temperature to a temperature lower than the temperature detected by the room temperature sensor to the second reference temperature.

[Claims 1 and 2]

The convection fan sucks indoor air from the suction port, and the indoor air heated by the heating source is blown off from the jet port as warm air.

The reference temperature determining unit of the heating control means determines the first reference temperature and the second reference temperature based on the set room temperature set by the room temperature setter.

The heating control means stops the operation of the heating source once when the detected room temperature exceeds the first reference temperature and continues the convection fan for a predetermined time (until the temperature in the cabin drops below the predetermined temperature in the case of claim 2). A post purge is activated.

Since the convection fan is rotating during post purge, indoor air flows to the room temperature sensor disposed near the suction port, and the room temperature is accurately detected. If the detected room temperature drops below the second reference temperature during the post purge, the heating control means resumes the operation of the heating source.

In addition, if a predetermined time (in the case of claim 2, the cabin temperature falls below a predetermined temperature) while the detection room temperature does not decrease to the second reference temperature, the post purge ends and the rotation of the convection fan stops. Air does not flow to the room temperature sensor. Therefore, the detection room temperature detected by the room temperature sensor is detected to be higher than the actual room temperature.

However, when the post purge ends, the reference temperature change unit changes the second reference temperature to a temperature higher than the second reference temperature during the post purge, so that when the actual room temperature is close to the temperature drop state only after the operation of the heating source is resumed. The heating control means resumes operation of the heating source.

In this way, in the warm air heater adopting this configuration, the room temperature control is performed appropriately so that the user does not feel the cold. In addition, since the cold air is not emitted, the user is not offended.

[In claim 3]

The convection fan sucks indoor air from the inlet port, and the indoor air heated by the heating source is blown off from the jet port as warm air.

The reference temperature determining unit of the heating control means determines the first reference temperature higher than the set room temperature and the second standard temperature at the same temperature as the set room temperature based on the set room temperature set by the room temperature setter.

The heating control means stops the operation of the heating source once the detected room temperature exceeds the first reference temperature and at the same time, the post purge which continuously operates the convection fan for a predetermined time (or until the cabin temperature falls below the predetermined temperature). Is done.

In the post purge, since the convection fan is rotating, indoor air flows to the room temperature sensor disposed near the suction port, and the room temperature is detected accurately. When the detection room temperature falls below the second reference temperature (= below the set room temperature) during the post purge, the heating control means resumes the operation of the heating source.

If a predetermined time (in the case of claim 2, the cabin temperature falls below a predetermined temperature) has elapsed while the detection room temperature does not decrease to the second reference temperature (= set room temperature), the post purge is terminated and Because the rotation stops, indoor air does not flow to the room temperature sensor. Therefore, the detection room temperature detected by the room temperature sensor is detected to be higher than the actual room temperature.

However, when the post purge ends, since the reference temperature change unit changes the second reference temperature to the first reference temperature higher than the second reference temperature (= set room temperature) during the post purge, the actual room temperature must resume operation of the heating source. The heating control means resumes the operation of the heating source at the time when the temperature decreases to the temperature.

In this way, in the warm air heater adopting this configuration, the room temperature control is performed appropriately so that the user does not feel the cold. In addition, since the cold air is not emitted, the user is not offended.

[Claims 4 and 5]

The convection fan sucks indoor air from the inlet port, and the indoor air heated by the heating source is blown off from the jet port as warm air.

The reference temperature determination unit of the heating control means determines the first reference temperature and the second reference temperature based on the set room temperature set by the room temperature setter.

The heating control means stops the operation of the heating source once when the detected room temperature exceeds the first reference temperature, and performs a post purge for continuously operating the convection fan for a predetermined time.

Since the convection fan is rotating during post purge, indoor air flows to the room temperature sensor disposed near the suction port, and the room temperature is accurately detected. When the detection room temperature falls below the second reference temperature during the post purge, the heating control means resumes the operation of the heating source.

In addition, if a predetermined time (in the case of claim 4, the cabin temperature falls below a predetermined temperature) while the detection room temperature does not decrease to the second reference temperature, the post purge ends and the rotation of the convection fan stops. Indoor air will not flow to the room temperature sensor. Therefore, the detection room temperature detected by the room temperature sensor is detected to be higher than the actual room temperature.

However, when the post purge ends, the heating control means corrects the detected room temperature to a temperature lower than the temperature detected by the temperature sensor and compares it with the second reference temperature, so that the actual room temperature drops to the temperature at which the operation of the heating source must be resumed. The operation of the heating source is resumed when the state is near.

In this way, in the warm air heater adopting this configuration, since the room temperature control is performed properly, the user does not feel the cold. In addition, since the cold air is not emitted, the user is not offended.

An embodiment (corresponding to claims 1 and 3) of the present invention will be described with reference to FIGS.

The FF gas hot air heater (A) shown in the figure has a housing (1) having an inlet (11) and a blower outlet (12), a combustor (2) in which gas is supplied and combusted, and a hot air blower (12). A convection fan 3 for ejecting from the air, a room temperature sensor 4 for detecting room temperature, a room temperature setter 5 for setting room temperature, and first combustion control means 6 for instructing the combustion amount of the combustor 2 And the reference temperature setting unit 71 for setting the first reference temperature T ₁ and the second reference temperature T ₂ based on the set room temperature T _S , and the second reference temperature when the post purge is completed. Second combustion control means 7 (heating) having a reference temperature changing section 72 for changing (T ₂ ) and instructing the continuous continuation of the combustor 2, the stop of combustion, or the operation or stop of the convection fan 3. Control means). 8 is a combustion fan, 9 is a control unit, 13 is a hot air passage, and 14 is a combustion air passage.

The hot air passage 13 has an inlet 11 for suctioning the indoor air 10 by opening the upper side of the rear of the housing 1 and a spout for spouting the warm air 30 into the room by opening the lower portion of the front surface of the housing 1. 12) is a communication path.

In addition, a filter 111 for removing dust in the room is detachably disposed at the suction port 11, and a guide plate 301 for changing the blowing direction of the warm air 30 is provided at the blowing hole 12. have.

The combustion air passage 14 is a passage communicating with the intake and exhaust ducts of the double structure in which the upstream end side and the downstream end side are extended to the outside, respectively, and are connected to the combustion chamber 21 and the combustion chamber which house the combustor 2. The heat exchange part 141 which discharge | releases the heat | fever of the combustion exhaust gas 22 which generate | occur | produced by the air flow 15 is formed in the passage | path. In addition, the combustion chamber 21 and the heat exchange part 141 are located in the hot air passage 13.

The combustor 2 forms a flame port 231 for ejecting the mixer at the front end, and a gas burner 23, 23 ....... which has a mixer inlet port 232 for suctioning primary air and gas. ) And a gas plate 24 having nozzles 241 and 241... Struck at the mixer inlet 232 of the gas burner 23, and the gas plate 24 has a solenoid valve. The gas is supplied and forcedly combusted by the gas pipelines g sequentially extending the gas proportionality valves 25 and 26.

Moreover, the sparker 28 is arrange | positioned with respect to the gas burner 23, When a high voltage is applied by the sparker drive circuit 281 at the time of an ignition operation, the gas burner 23 is ignited.

An impeller 81 pivoted in the combustion air passage 14 upstream from the combustor 2 with respect to the flow of air in the combustion fan 8 and a combustion fan motor 82 driving the impeller 81 (direct current motor). ) And supplies the received indoor air (10) to the gas burner (23).

The combustion fan 8 is energized via the combustion fan drive circuit 821, rotates at an ignition speed when ignited, and at a temperature controlled rotation speed (1300 rpm to 1), in which combustion air suitable for the required combustion amount is obtained. 360 rpm).

The gas proportional valve 27 is a valve whose direction is controlled in accordance with the amount of energization. When the amount of energization is increased, the gas supply amount to the combustor 2 increases. In addition, when electricity is supplied to the solenoid valves 25 and 26 via the solenoid valve driving circuit 251, the valve is in an open state and gas is supplied to the gas burner 23.

The proportional valve current of the ignition level flows in the gas proportional valve 27 through the proportional valve driving circuit 271 at the time of ignition, and the temperature control level corresponding to the temperature control rotation speed of the combustion fan 8 at the time of temperature control. The proportional valve current of flows. In addition, 29 is a frame rod which faces a combustion flame, and detects a flame current.

The convection fan 3 is composed of an impeller 31 pivoted in the hot air passage 13 near the inlet 11 and a convection fan motor 32 (alternating motor) for driving the impeller 31. Airflow 15 directed to the ejection opening 12 is generated. At the time of temperature control, the convection fan 3 flows through the convection fan drive circuit 33 with a current having a level of airflow in proportion to the required combustion amount.

As shown in FIG. 2, the control unit 9 includes a proportional valve driving circuit 271 for driving the gas proportional valve 27 and a solenoid valve driving circuit 251 for opening and closing the solenoid valves 25 and 26; The convection fan drive circuit 33 for driving the convection fan motor 32, the combustion fan drive circuit 821 for feedback control of the combustion fan motor 82, and the sparker drive circuit 281 for driving the sparker 28. And a first combustion control means 6 and a second combustion control means 7, which the operation switch SW, the room temperature sensor 4, the room temperature setter 5, the frame rod 29, and the like are sent out. It has a microcomputer 50 which controls each said drive circuit based on each electric signal.

The first combustion control means 6 is required on the basis of temperature control (set room temperature T _S set by the room temperature setting device 5)-(detection room temperature T detected by the room temperature sensor 4). The combustion amount is calculated, and the combustion fan 8 is feedback-controlled via the combustion fan drive circuit 821 so as to rotate at a temperature controlled rotation speed (1300 rpm to 3600 rpm) at which combustion air suitable for the required combustion amount is obtained.

Moreover, the 1st combustion control means 6 detects the combustion fan 8 and rotation speed at the time of temperature control, calculates | requires the required combustion amount on the basis of this detection rotation speed, and obtains the opening degree from which a required combustion amount is obtained. The proportionality valve driving circuit 271 is used to control the energization of the gas proportionality valve 27.

In the present embodiment, the reference temperature determination unit 71 of the second combustion control means 7 sets the first reference temperature T ₁ based on the set room temperature T _S set by the room temperature setter 5. T _S + 0.33 ° C, the second reference temperature (T ₂ ) is determined as the set room temperature (T _S ), respectively. In addition, the second combustion by changing the reference temperature unit 72 of the control means 7 reviews the post purge is completed to change the second reference temperature (T2) set room temperature (T _S) from a set room temperature T _S + 0.33 ℃ do.

Further, the second combustion control means 7 instructs to stop the combustion of the combustor 2 once for 150 seconds when the detection room temperature T exceeds the set room temperature T + 0.33 ° C. at the time of temperature control. An instruction is given to perform a post purge that keeps the convection fan 3 running. Then, if the detection room temperature T falls below the set room temperature T _S during this combustion stop, the second combustion control means 7 instructs the combustion of the combustor 2 to resume.

Next, the operation of the FF gas hot air heater A will be described based on the flowchart shown in FIG. 3 and the graph shown in FIG.

The first reference temperature T1 is set based on the set room temperature T _S set by the reference temperature determining unit 71 of the second combustion control means 7 of the control unit 9 by the room temperature setter 5. The room temperature (T _S + 0.33 ° C.) and the second reference temperature T ₂ are determined at the set room temperature T _S , respectively.

When the operation switch SW is turned on (step sl), the control unit 9 puts the combustion fan 8 into the operating state s2.

When the prepurge ends (YES in step s3), the control unit 9 puts the igniter in an operating state (step s4).

In step s5, the control unit 9 sets the solenoid valves 25 and 26 to the valve open state, and the gas proportionality valve 27 to the operating state, and advances to step s6.

If ignition is detected in step s6 (YES), the flow proceeds to step s7.

In step s7, the control unit 9 sets the convection fan 3 to an operating state, and proceeds to step s8.

In step s8, the control unit 9 stops the operation of the igniter and proceeds to step s9.

In step s9, the first combustion control means 6 of the control unit 9 performs proportional control to control the rotation speed and the opening degree of the combustion fan 8 and the gas proportional valve 27 so that the required combustion amount is obtained, Proceed to step s10.

If the detection room temperature T is equal to or higher than the set room temperature (Ts + 0.33 ° C) in step s10 (when the detection room temperature T is equal to or higher than the first reference temperature T1) (YES), the process proceeds to step s11. (Elapsed time points 901, 902, 903, 904). If the detected room temperature T is less than the set room temperature (T _S + 0.33 ° C) NO, the flow returns to step s9 to continue the proportional control.

In step s11, the second combustion control means 7 of the control unit 9 issues an instruction for stopping the combustion of the combustor 2 once, and proceeds to step s12. As a result, the solenoid valves 25 and 26 are closed, the gas proportional valve 27 is stopped, and the combustion fan 8 is stopped. In addition, the operation of the convection fan 3 continues until the post purge (for 150 seconds) ends.

It is determined in step s12 whether 150 seconds have elapsed from the combustion stop, and if no (NO) has elapsed, the process proceeds to step s13.

In addition, when it has passed (YES), it progresses to step s14 (lapse point 906, 907). In this case, the second combustion control means (7) changes a reference temperature unit 72 of the second reference temperature (T _2), the set room temperature (T _S), set room temperature from _{(T S + 0.33 ℃) (} = first reference temperature (T1)).

In step s13, the second combustion control means 7 of the control unit 9 determines whether the detection room temperature T falls below the set room temperature T _S (= second reference temperature T ₂ or less) during the post purge. If it is determined whether or not it has not decreased (YES; elapsed time point 905), the flow returns to step s2 to restart the combustor 2.

Since the post purge has ended (time elapsed at 906 and 907), the control unit 9 instructs the operation of the convection fan 3 to stop at step s14, and the process proceeds to step s15.

In step s15, the second combustion control means 7 of the control unit 9 determines whether the detection room temperature T has dropped to the set room temperature (T _S + 0.33 ° C.) or less (= first reference temperature T1 or less). (YES; elapsed time point 906), the flow returns to step s2 to resume combustion of the combustor 2. In addition, when it does not fall (NO; elapsed time point 907), the standby | standby in the state which stopped the convection fan 3 is instruct | indicated.

Next, the advantages of the FF gas hot air heater A of the present embodiment will be described.

After the 150-second post purge ends and the convection fan 3 stops, the room air 10 does not flow to the room temperature sensor 4, so the room temperature T detected by the room temperature sensor 4 (solid line in FIG. 4). ) Is detected higher than the actual room temperature (the dashed-dotted line in FIG. 4).

However, at the end of the post purge, the reference temperature changing unit 72 sets the second reference temperature T ₂ (= setting room temperature T _S ) to the second reference temperature T ₂ (= setting room temperature ( Since the configuration changes to the first reference temperature T1 (= set room temperature (T _S + 0.33 ° C.) higher than T _S )), the actual room temperature drops to the temperature at which combustion must be resumed (time 908). Combustion of the combustor 2 can be resumed.

Therefore, the room temperature control is performed properly so that the user does not feel cold. In addition, since the cold wind is not emitted, the user is not offended.

The present invention includes the following embodiment in addition to the above embodiment.

a. Instead of a post purge configuration in which the convection fan 3 is continuously operated for a predetermined time, the post purge may be performed until the in-flight temperature falls below a predetermined temperature (corresponding to claim 2).

b. In the above embodiment, the second reference temperature is changed, but by lowering and correcting the temperature detected by the room temperature sensor 4, it is possible to predict the actual room temperature and compare the corrected temperature with the second reference temperature.

As a result, combustion can be resumed when the actual room temperature drops to the temperature at which combustion should be resumed (corresponding to claims 4 and 5).

c. The first combustion control means for converting the gas flow rate in accordance with the load may not be provided. In other words, the temperature control may be performed only by the second combustion control means for converting the combustion state and the stationary state.

d. The present invention may be applied to a fan heater of the type which mixes indoor air and combustion air sucked from an intake port and blows it off as warm air.

e. The fuel may be kerosene or the like other than gas, and an electric heater or the like may be used as the heating source.

In addition, the present invention has a particularly excellent effect when the present invention is applied to a warm air heater employing a combustor (fuel amount (combustion amount) hardly narrowed to near zero) in which fuel is supplied to a heating source and combusted.

Claims (5)

A housing having a suction port and a jet port, a heating source disposed in the housing, a convection fan that sucks indoor air from the suction port, and blows out indoor air heated by the heating source as hot air from the jet port; It has a room temperature sensor which detects room temperature arrange | positioned in the vicinity, the room temperature setter which sets room temperature, and the reference temperature determination part which determines a 1st, 2nd reference temperature based on the said set room temperature, and the said detected room temperature is a 1st reference temperature If it exceeds, the post-purge that stops the operation of the heating source once and continues to operate the convection fan for a predetermined time, and during the heating stop, the second reference temperature at which the detected room temperature is lower than the first reference temperature A warm air heater provided with heating control means which resumes operation of the said heating source when it falls below, The said heating control Stage is a hot air heater, characterized in that having to change parts of the reference temperature for the post when the purge is completed, changing the second reference temperature as a second temperature higher than the second reference temperature during the post-purge. A housing having a suction port and a jet port, a heating source disposed in the housing, a convection fan that sucks indoor air from the suction port, and blows out indoor air heated by the heating source as hot air from the jet port; It has a room temperature sensor which detects room temperature arrange | positioned in the vicinity, the room temperature setter which sets room temperature, and the reference temperature determination part which determines a 1st, 2nd reference temperature based on the said set room temperature, The said detection room temperature is a said 1st reference | standard. When the temperature is exceeded, the operation of the heating source is once stopped and at the same time, a post purge is performed to continuously operate the convection fan until the temperature in the cabin is lowered below a predetermined temperature. When the temperature falls below the second reference temperature lower than the reference temperature, the temperature is provided with heating control means for restarting the operation of the heating source. A heater, the heating control means is a hot air heater, it characterized in that parts having the reference temperature change to change the said second reference temperature when the post-purge terminates with the second reference temperature higher than the temperature during the post-purge. The first reference temperature determined by the reference temperature determiner is higher than a set room temperature set by the room temperature setter, and the second reference temperature determined by the reference temperature determiner is set by the room temperature. And a second reference temperature changed by the reference temperature changing unit is equal to the first reference temperature. A housing having a suction port and a jet port, a heating source disposed in the housing, a convection fan that sucks indoor air from the suction port, and blows out indoor air heated by the heating source as hot air from the jet port; It has a room temperature sensor which detects room temperature arrange | positioned in the vicinity, the room temperature setter which sets room temperature, the room temperature setter which sets the said, and the reference temperature determination part which determines a 1st, 2nd reference temperature based on the said set room temperature, When the detection room temperature exceeds the first reference temperature, the operation of the heating source is once stopped and a post purge is performed for continuing the convection fan for a predetermined time period. And heating control means for resuming the operation of the heating source when the temperature falls below the second reference temperature lower than the first reference temperature. Is a hot air heater, the heating control means is a hot air heater, characterized in that if the post purge is completed, at a temperature lower than the temperature detected by the room temperature sensor correcting the detected room temperature compared to the second reference temperature. A housing having a suction port and a jet port, a heating source disposed in the housing, a convection fan that sucks indoor air from the suction port, and blows out indoor air heated by the heating source as hot air from the jet port; It has a room temperature sensor which detects room temperature arrange | positioned in the vicinity, the room temperature setter which sets room temperature, and the reference temperature determination part which determines a 1st, 2nd reference temperature based on the said set room temperature, The said detected room temperature is a said 1st reference | standard. When the temperature is exceeded, the operation of the heating source is once stopped, and a post purge is performed to continuously operate the convection fan until the temperature in the cabin is lowered below a predetermined temperature. And heating control means for resuming operation of the heating source when the temperature falls below the second reference temperature lower than the first reference temperature. The hot air heater, wherein the heating control means corrects the detection room temperature to a temperature lower than the temperature detected by the room temperature sensor when the post purge is completed, and compares the temperature with the second reference temperature.