JPH06103123B2 - Hot air heater - Google Patents

Description

TECHNICAL FIELD The present invention relates to a warm air heater that starts and stops heating operation according to a heating state of a room or the like.

[Prior Art] In a hot air heater, in order to control the indoor temperature under a constant temperature condition, the start and stop of the heating operation are controlled according to the indoor temperature.

Therefore, a temperature detection means such as a thermistor is provided to detect the room temperature, and when the temperature detected by the temperature detection means becomes higher than the first predetermined temperature, the heating by the heating source is stopped and the temperature is detected. When the temperature becomes lower than the second predetermined temperature that is set lower than the first predetermined temperature for stopping the heating, the heating by the heating source is restarted.

A thermistor and the like for detecting the room temperature are generally provided in the heater body.

[Problems to be Solved by the Invention] As described above, in the warm air heater that detects the room temperature and controls the stop and restart of the heating by the heating source, the heating operation is stopped when the temperature of the room or the like is stopped. It is when the temperature rises sufficiently and the temperature is reliably detected by the thermistor etc. provided in the heater body, so if the temperature distribution in the heated room is not sufficiently uniform, the temperature Is sufficiently heated, it may not be detected by the thermistor etc. of the main body of the heater installed on the floor surface.Therefore, heating operation may be continued more than necessary and overheating may be performed. .

Also, when the heating operation is stopped, the air flow by the convection blower stops, so the temperature detected by the thermistor etc. provided in the heater main body is the heating operation due to the residual heat in the heater main body by the heating source. It will be higher than time. Therefore, the detected temperature becomes lower than the second predetermined temperature when the temperature of the heater main body is sufficiently lowered, and therefore, the actual room temperature becomes lower than the second predetermined temperature. Need time. As a result, the heating operation is restarted only after the indoor temperature has dropped considerably, which may cause the user to feel insufficient heating.

Therefore, there is a problem that comfortable heating cannot be performed.

An object of the present invention is to provide a warm air heater that detects a room temperature and starts and stops a heating operation, and can reduce a change in the indoor temperature and perform comfortable heating. And

[Means for Solving the Problem] In the present invention, the control means includes a time measuring means, and the temperature detected by the temperature detecting means for detecting the temperature of the air heated by the heating means is higher than the first predetermined temperature. Or when the predetermined heating time has elapsed, the heating of the heating means is stopped, and when the detected temperature becomes lower than the second predetermined temperature lower than the first predetermined temperature, the heating of the heating means is restarted. To do this is a technical means.

The control means may be provided with a computing means for determining the predetermined heating time based on the detected temperature during heating of the heating means, and the predetermined heating time may be changed according to the detected temperature.

Further, when the heating stop time of the heating means is timed by the timekeeping means and the timekeeping means becomes lower than the second predetermined temperature, or when the time measured by the timekeeping means exceeds the heating stop time. The heating of the heating means may be restarted.

Furthermore, the heating stop time may be changed according to the detected temperature during heating of the heating means.

[Operation and Effect of Invention] In the invention of claim 1 of the present invention, even if the detected temperature does not rise to the first predetermined temperature, the heating is stopped after the predetermined heating time elapses. At some point, further heating stops. Therefore, since the heating temperature does not rise more than necessary, comfortable heating can be performed.

In the invention of claim 2, since the heating time is determined based on the detected temperature during heating, it is possible to perform heating for a necessary time according to the heating load. Therefore, the heating time will not be too short to lower the heating temperature.

In the invention of claim 3, even if the detected temperature does not become lower than the second predetermined temperature after the heating is stopped, the heating is restarted after the heating stop time elapses, so that the room temperature does not drop too much. .

Therefore, the heating and the heating stop are appropriately performed under the time management, and the change in the temperature of the room or the like is reduced, and the comfortable heating can be performed.

In the invention of claim 4, since the heating stop time is determined based on the detected temperature during heating, the heating stop time can be changed according to the heating load.

Therefore, the heating and the heating stop are appropriately repeated under the time management according to the heating load, so that the temperature change in the room or the like is further reduced and the comfortable heating can be performed.

[Examples] Next, the present invention will be described based on Examples.

FIG. 2 shows a schematic configuration of a gas fan heater 1 as a warm air heater. The gas fan heater 1 is composed of an air circulation passage 10, a fuel supply passage 20, and a control device 30.

The air circulation path 10 is formed by a casing 10a, and air is sucked from the suction port 12 provided with the filter 11 by the operation of the convection fan 13. A part of the air sucked into the casing 10a is an air introduction pipe 14 as combustion air.
Nozzle 21 installed in the air introduction pipe 14
It is supplied to the fuel mixing chamber 15 together with the fuel gas ejected from. The fuel gas mixed with air in the fuel mixing chamber 15 is
Combustion passes through the burner 16 burner, and combustion gas is sucked in.
The other air sucked from 12 is mixed in the air mixing chamber 17, and is blown into the room from the warm air outlet 18 by the convection fan 13.

The fuel supply passage 20 guides the fuel gas supplied from a fuel supply source (not shown) to the above-mentioned nozzle 21 through the gas pipe 22, and the fuel supply passage 20 has a solenoid valve 23 for shutting off the gas from the upstream side. And a main solenoid valve 24, a governor 25 for supplying gas at a constant pressure, and a proportional valve 26 for adjusting the gas supply amount, respectively, and a bypass pipe 28 provided with a flow rate adjusting screw 27 upstream and downstream of the proportional valve 26. And the bypass pipe 28 ensures a minimum flow rate.

The control device 30 is mainly a microcomputer, and is operated by electric power constantly supplied by inserting a power plug (not shown) into a power line outlet, and the control device 30 includes an operation switch 31 and a switch operated by a user. A room temperature controller 32 and a room temperature sensor 33 including a thermistor for detecting the room temperature are provided.
In addition, in the vicinity of the burner 16, a thermocouple 34 for detecting the temperature of the flame due to combustion and a sparkler for ignition.
35 and are equipped.

As shown in FIG. 3, the control device 30 includes a combustion amount control unit 36,
It has the respective functional units of the air flow rate control unit 37 and the sequence control unit 38, and controls the heating capacity as follows.

The combustion amount control unit 36 sets the temperature set by the room temperature controller 32.
The combustion amount of the burner 16 is determined based on T set and the detected temperature T detected by the room temperature sensor 33, and the energization current to the proportional valve 26 is controlled based on it to adjust the combustion amount of the burner 16. .

The air flow rate control unit 37 controls the convection fan 13 based on the combustion amount of the burner 16. Here, based on the output voltage of the thermocouple 34 for detecting the combustion temperature of the burner 16, when the voltage becomes equal to or higher than a predetermined voltage, the convection fan 13 starts to be driven. At this time, the voltage applied to the convection fan 13 is the thermocouple 34. Is controlled according to the output voltage of.

When the combustion of the burner 16 is stopped, the convection fan 13 is continuously driven for a certain period of time and then stopped.

Sequence control unit 38, when operating the operation switch 31,
Operate the sparker 35 in the specified sequence to
In order to control the room temperature under a certain condition, open 3, 24 and supply the fuel gas to the burner 16 to start combustion.
The combustion of the burner 16 and the operation of the convection fan 13 are controlled, and combustion stop and operation restart are repeated.

Here, when the detected temperature T becomes higher than the stop temperature T stop (= T set +2) which is set to be 2 degrees higher than the set temperature T set, or when the heating operation time t determined by the condition described later has elapsed In either case, the heating operation is stopped.

On the contrary, when the operation is stopped, the detected temperature T is the set temperature T
The heating operation is restarted when the temperature becomes lower than the restart temperature T start (= T set + 1) which is one degree higher than the set temperature or when the heating stop time t ₀ (for example, 8 minutes) elapses. The sequence control unit 38 includes a calculation unit 39 and a timer 40.
Each functional part of is provided.

The calculation unit 39 sequentially stores temperature information indicating the detected temperature T detected by the room temperature sensor 33 in the storage unit 39a, and performs calculation based on the stored temperature information when the heating operation is stopped. The heating load is assumed from the state of change in the detected temperature T, and the heating operation time t according to the heating load is determined.

Here, the heating operation time t [minutes] is the detected temperature T n [deg] when the heating operation is stopped, and the detected temperature T n _-1 [deg 1 minute before the heating stored in the storage unit 9a is stopped. ], It calculates | requires by t = K / (Tn-Tn- ₁ ). Here, K [min · deg] is a constant, and in this embodiment, K = 8.

The storage unit 39a stores a plurality of pieces of temperature information, the stored temperature information is shifted when new temperature information is stored, and the oldest one is deleted.

Therefore, when the heating load is small and the room temperature rises quickly, the heating operation time t is set short, and conversely, when the heating load is large, the heating operation time t is set long.

Next, the operation of the gas fan heater 1 of the present embodiment having the above configuration will be described with reference to FIG.

The heating operation in which the operation switch 31 is turned on is started (step 1), and the sparker 35 starts the ignition operation. Sparker
When the operation of 35 is detected, the original solenoid valve 23 and the main solenoid valve 24 are opened, and the proportional valve 26 is supplied with an ignition current.

The fuel gas is ejected from the nozzle 21, passes through the air introduction pipe 14, is mixed with the air supplied to the fuel mixing chamber 15, becomes a mixture, and is ignited by the burner 16. When ignition is detected by the thermocouple 34, the sparker 35 stops operating.

For 60 seconds after ignition, the strong heating operation is forcibly performed, the proportional valve 26 is controlled to the maximum opening degree, and the burner 16 burns with the maximum combustion amount (step 2).

After 60 seconds have elapsed, the combustion amount is determined based on the set temperature T set of the room temperature controller 32 and the detected temperature T detected by the room temperature sensor 33, the proportional valve 26 is controlled accordingly, and the convection fan is controlled. A voltage determined based on the output voltage of the thermocouple 34 according to the combustion amount of the burner 16 is applied to the motor of 13, and the burner 16 is supplied from the hot air outlet 18
The amount of warm air is blown according to the temperature.

Further, during the heating operation, the detected temperature T detected by the room temperature sensor 33 is sequentially stored in the storage unit 39a as temperature information.

When the room temperature gradually rises and the detected temperature T detected by the room temperature sensor 33 becomes higher than the stop temperature T stop which is 2 degrees higher than the set temperature T set (YES in step 3),
The heating operation is stopped (step 4).

When the heating operation is stopped, timer 40 sets the heating stop time.
Timing of t ₀ starts.

At this time, the computing unit 39 determines the heating operation time t at the time of re-operation based on the temperature information stored in the storage unit 39a (step 5).

When the heating stop time t ₀ has elapsed (YE
S), or the detected temperature T during the time of heating stop time t ₀
However, when the temperature falls below the restart temperature T start (YES in step 7), the heating operation is restarted (step 8).

Even in this restarted heating operation, the strong heating operation is forcibly performed during the first 60 seconds (step 9), and control by the detection signal of the room temperature sensor 33 is not performed. This allows
When the heating is restarted, the detection temperature T detected by the room temperature sensor 33 is 2 degrees higher than the set temperature T set
Even with the stop, the ignition operation for starting the heating is not stopped immediately after it is started, and the user is not misunderstood that an abnormality has occurred.

When 60 seconds have passed, heating operation is performed based on the set temperature T set and the detected temperature T, and during this heating operation, the detected temperature T detected is 2 degrees higher than the set temperature T set
When it becomes higher than stop (YES in step 10) or when the heating operation time t determined by the calculation unit 39 elapses (YES in step 11), the heating operation stops (step). 4).

Therefore, when the heating load is small and the room is heated quickly, the heating operation time t is determined to be short, and the heating operation time t elapses before the stop temperature T stop is reached. The heating operation can be stopped before the temperature becomes too high.

On the contrary, when the heating load is large and the room is not heated easily, the heating operation time t is determined to be long. If the temperature inside the room becomes sufficiently high and the stop temperature T stop is detected during that time, the heating operation is stopped at that time.

When the heating operation is stopped, the heating operation time t is determined again according to the change state of the detected temperature T (step 5).

Therefore, the next heating operation time t is once determined by heating and is determined according to the temperature in the room, so a more appropriate heating operation time t is determined.

After the heating operation is stopped, the heating stop time t ₀ is measured again, and the detected temperature T detected when the heating stop time t ₀ elapses or during the heating stop time t ₀ is restarted T star
When it falls below t, the heating operation is restarted, and the heating operation is performed according to the newly determined heating operation time t.

Thereafter, the heating operation and the operation stop are repeated until the user operates the operation switch 31 to stop the operation of the gas fan heater 1, and the fluctuation of the indoor temperature is reduced.

As described above, according to the present invention, for example, as shown in FIG. 4, even when the restart temperature T start and the stop temperature T stop are not detected, the heating operation is performed when the predetermined heating stop time t ₀ has elapsed. Is restarted or the heating operation is stopped when the calculated heating operation time t elapses. Therefore, even if the detected temperature T detected by the room temperature sensor 33 differs from the actual indoor temperature, The temperature does not drop too much, the room temperature does not rise too much, and in the restarted heating operation, the operating time t is determined according to the heating load. The width can be reduced.

Next, a second embodiment of the present invention will be described.

In the second embodiment, the heating stop time t ₀ given as the fixed time in the above embodiment is changed to the detected temperature T during the heating operation in step 5 in FIG. 1 as in the heating operation time t. The heating stop time t ₀ according to the heating load is calculated.

Therefore, in the second embodiment, since the heating stop time t ₀ can be changed, excess heating can be prevented in early spring, early winter, etc. when the heating load is small, and comfortable heating can be performed.

In the above embodiments, the gas fan heater is described, but an FF (forced air supply / exhaust) type warm air heater, a heater using other fuel, and a warm air heater by electric heating such as an electric heater, It may be a vehicle-mounted heater.

[Brief description of drawings]

FIG. 1 is a flow chart for explaining the operation of a control device for a gas fan heater according to an embodiment of the present invention, FIG. 2 is a schematic diagram of a gas fan heater according to the present embodiment, and FIG. FIG. 4 is a block diagram showing the functional configuration of the control device for the gas fan heater according to the embodiment, and FIG. 4 is a time chart showing the relationship between the change in the room temperature and the operating state in this embodiment. In the figure, 1 ... Gas fan heater (warm air heater), 13 ...
Convection fan (blower), 16 ... Burner (heating means), 30
...... Control device (control means), 33 ...... Room temperature sensor (temperature detection means), 39 ...... Calculation section (calculation means), 40 ...... Timer (time measurement means).

Claims (4)

[Claims] 1. A blower provided in a casing having an inlet and an outlet, heating means for heating the air passing through the casing by the operation of the blower, and heating by the heating means. Temperature detecting means for detecting the temperature of the air, and when the detected temperature detected by the temperature detecting means becomes higher than a first predetermined temperature, heating of the heating means is stopped, and the detected temperature is the first predetermined temperature. In a warm air heater having a control means for restarting the heating of the heating means when the temperature becomes lower than a second predetermined temperature lower than the temperature, the control means includes a time measuring means, and the detected temperature is the first temperature. The hot air heater is characterized in that the heating of the heating means is stopped either when the temperature becomes higher than the predetermined temperature or when the predetermined heating time elapses. 2. The control means includes an arithmetic means for determining the predetermined heating time based on the detected temperature during heating of the heating means, and changing the predetermined heating time according to the detected temperature. The warm air heater according to claim 1, which is characterized in that. 3. The clocking means clocks a heating stop time of the heating means, and the control means clocks when the detected temperature becomes lower than the second predetermined temperature or by the clocking means. The warm air heater according to claim 1 or 2, wherein heating of the heating means is restarted when a time has passed the heating stop time. 4. The control means comprises arithmetic means for determining the heating stop time based on the detected temperature during heating of the heating means, and the heating stop time is changed according to the detected temperature. The warm air heater according to claim 3, which is characterized in that.