JPH0842924A - Method and apparatus for heat storage warm air heating - Google Patents

Abstract

PURPOSE:To use stored heat energy without wasting by performing warm air heatings with less power consumption in succession among warm air heating only with heat storage by a heat storage member, warm air heating only with heat of a warm air heater, and warm air heating where there are added warm air from the heat storage member and warm air by the heat of the warm air heater. CONSTITUTION:Once heat storage in a heat storage member 4 is completed and an operation instruction is issued, air is sent to both of a heat storage tank 2 and a PTC heater 7 with the rotation of an air fan 13 by an air fan motor 12, and each air (warm air) raised in temperature by receiving radiation heats from the heat storage tank 2 and the PTC heater 7 is sent from a fan air outlet 8. At this time, a warm air control part 27 compares a room temperature signal from a room temperature sensor 16 with a target temperature, and when a room temperature reaches the target temperature or higher, the control part 27 issues a switching instrument of the side of the heat storage tank 2 to a switching driving part 23 to interrupt power supply to the PTC heater 7. Also thereafter, when the room temperature reaches the target temperature or higher, the operation is switched to an air fan operation where the fan air to the side of the heat storage tank 2 is closed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat storage hot-air heating device that sends the heat stored in a heat storage material and the heat generated by a heat dissipation heater as hot air.

[0002]

2. Description of the Related Art FIG. 4 is a block diagram of a heat storage type warm air heater. A heat storage tank 2 is arranged inside the housing 1 of the heater. The heat storage tank 2 has a heat storage heater 3 arranged at the center thereof, and a heat storage material 4 covers the periphery of the heat storage heater 3.

This heat storage material 4 has a good electrical insulating property,
And a material having excellent thermal conductivity, such as MgO or Fe ₂ O
It is made of bricks obtained by firing oxides such as ₃ , Al ₂ O ₃ , and SiO ₂ .

Around the heat storage tank 2, a heat insulating material 5 is provided.
Have been placed and are being thermally cut off. The heat insulating material 5 has an opening formed below, and an air layer heat insulating portion 6 is formed between the heat insulating material 5 and the heat storage tank 2.

A ceramic heater (PTC heater) 7 is provided below the opening of the heat insulating material 5. Note that actually two PTC heaters 7 are provided. The front surface of the lower part of the housing 1 where these PTC heaters 7 are arranged,
A blower port 8 and an intake port 9 are formed on the rear surface,
A warm air louver 10 is formed at the blower port 8 among them.

A shutter 11, which is a blower switching mechanism, is provided on the intake 9 side. The shutter 11 is rotated in the direction of the arrow to adjust the amount of air flow, and the amount of air flowing to the heat storage tank 2 side is adjusted by the rotation angle.

A blower motor 12 is provided on the rear surface of the housing 1, and a blower fan 13 is attached to its rotation shaft. On the other hand, an operation board 14 is provided on the top of the housing 1. The operation board 14 has a function of performing power on / off, heating operation start, heat storage completion time, temperature setting, hot air start time, selection of the heat storage heater 3 or the PTC heater 7, and a manual operation for these functions. The end 15 is provided on the upper surface of the housing 1.

A room temperature sensor 16 for detecting room temperature is provided on the back surface of the housing 1. With such a configuration, when the heat storage heater 3 is energized, the heat generated from the heat storage heater 3 is stored in the heat storage material 4.

The heat storage operation for the heat storage material 4 is stopped,
When a heating operation is performed on the manual operation panel 15 such as operation buttons, the blower fan 13 is rotationally controlled.

The air sucked by the rotation of the blower fan 13 is blown to the heat storage heater 3 side and each PTC heater 7 side. Also, the air sent to the heat storage heater 3 side receives heat from the heat storage tank 2 and its temperature rises,
The air is blown as warm air from the air outlet 8.

At the same time, the air sent to the side of each PTC heater 7 receives heat from each PTC heater 7 and its temperature rises, and is combined with the warm air from the heat storage tank 2 and sent. In such warm air heating, temperature control is performed according to the temperature control flowchart shown in FIG.

When the room temperature is lower than the target temperature while the heat from the heat storage tank 2 is being blown as warm air, the two PTC heaters 7 are energized in steps # 1 to # 3. The warm air from the heat storage tank 2 and the warm air from each PTC heater 7 are sent.

In this state, when the room temperature reaches or exceeds the target temperature, the process proceeds to step # 4 and the PTC heaters 7 for the two heaters are heated.
Is switched to the single PTC heater 7. This one
If the room temperature drops below the target temperature in step # 5 due to the warm air from the PTC heater 7 of the book, step # 5 is executed again.
Returning to 1 and returning to warm air heating by the two PTC heaters 7.

When the room temperature reaches the target temperature or higher by the warm air from the single PTC heater 7, the process proceeds to step # 6, and the rotation speed of the blower motor 12 is reduced. As a result, the amount of air blown by the blower fan 13 is reduced.

After that, when the room temperature becomes equal to or lower than the target temperature in step # 7, the process returns to step # 4 and one PT
The warm air is blown by the C heater 7. In addition, shutter 1
There is also one having a function of rotating 1 to block the air flow to the heat storage tank 2 side and adjusting the heat quantity of the warm air.

[0016]

However, in the above temperature control, even if the room temperature reaches the target temperature, two PTCs are
At least one PTC heater 7 among the heaters 7 is energized. Therefore, even if the room temperature reaches the target temperature, the heat of the heat storage tank 2 is sent as warm air and
The heat of the PTC heater 7 of the book is also sent as warm air, and the heat of the heat storage tank 2 is wastefully released.

In addition, since one PTC heater 7 is always energized, power is wasted. Therefore, an object of the present invention is to provide a heat storage hot air heating method and an apparatus thereof that can reduce the power consumption by using the stored heat without waste.

[0018]

According to a first aspect of the present invention, there is provided a heat storage hot air heating method in which heat stored in a heat storage material and heat generated by a heater for hot air are sent as hot air. When controlling the temperature, at least warm air heating by only the heat storage of the heat storage material, warm air heating only by the heat of the warm air heater, or a combination of warm air by the heat storage of these heat storage materials and warm air by the heat of the warm air heater Operation control of wind heating according to the magnitude of each power consumption of these hot air heating,
Thus, the heat storage hot air heating method is intended to achieve the above object.

According to a second aspect of the present invention, there is provided a heat storage hot air heating device for sending, as hot air, the heat stored in the heat storage material and the heat generated by the warm air heater, respectively.
The air blown from the blower fan is switched to either or both of the heat storage material and the heater for hot air, and the hot air heating is performed only by the heat storage of the heat storage material, the warm air heating is performed only by the heat of the warm air heater, or the heat storage of these heat storage materials is performed. A switching mechanism that performs warm air heating that combines the warm air from the hot air and the heat from the warm air heater, and the switching mechanism that controls the switching mechanism according to the power consumption of each warm air heating to operate the ambient temperature to the target temperature. And a temperature control means for controlling the heat storage hot air heating device.

According to the third aspect of the present invention, the temperature control means, when raising the ambient temperature to the target temperature, operates the respective hot air heaters in the order of the warm air heating with the lowest power consumption and lowers the ambient temperature to the target temperature. Stop in the order of hot air heating, which consumes the most electricity.

According to the fourth aspect, when the temperature control means is provided with a plurality of heaters for warm air, when the ambient temperature is raised to the target temperature, the heaters for warm air are increased one by one to energize the heaters. When the temperature is lowered to the target temperature, the energization to the warm air heater is reduced one by one.

[0022]

According to the first aspect of the present invention, when the ambient temperature is raised to the target temperature, warm air heating by only heat storage of the heat storage material, warm air heating by only heat of the warm air heater, or warm air by heat storage of these heat storage materials. And the warm air heated by the heat of the warm air heater are combined in the order of warm air heating that consumes less power.
Further, when the ambient temperature is lowered to the target temperature, the warm air heating that consumes the most power among the warm air heating is stopped in this order, so that the accumulated heat can be used without waste and the power consumption can be reduced.

According to the second aspect of the present invention, the air blown from the air blower fan is switched to either or both of the heat storage material and the heater for warm air by the switching mechanism, and the hot air heating and the heat of the warm air heater are performed only by the heat storage of the heat storage material. The hot air heating by only the hot air, or the hot air heating that combines the hot air by the heat storage of these heat storage materials and the hot air by the heat of the hot air heater, the switching mechanism is switched and controlled according to the magnitude of each power consumption of these hot air heating. Operate the ambient temperature to the target temperature.

According to the third aspect of the present invention, the air blown from the air blower fan is switched to either one or both of the heat storage material and the heater for warm air by the switching mechanism, and the hot air heating and the heat of the warm air heater are performed only by the heat storage of the heat storage material. The operation is performed by warm air heating using only the hot air, or warm air heating that combines warm air from the heat storage of these heat storage materials and warm air from the heat of the warm air heater.

In this case, the warm air operation is performed by the temperature control means in the order of the warm air heating which consumes less power when the ambient temperature is raised to the target temperature, and the power consumption is reduced when the ambient temperature is lowered to the target temperature. Stop in the order of large hot air heating.

According to the present invention, if a plurality of heaters for warm air are provided, the heaters for warm air are increased one by one to energize when the ambient temperature is raised to the target temperature, and the target ambient temperature is set. The power consumption can be further reduced by reducing the power supply to the warm air heater one by one when the temperature is lowered.

[0027]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. The same parts as those in FIG. 4 are designated by the same reference numerals, and detailed description thereof will be omitted. FIG. 1 is a configuration diagram of a heat storage hot air heating device.

The main control unit 20 includes the energizing units 21, 22,
Switching drive unit 23, fan drive unit 24, each input unit 25, 2
6 and the hot air control unit 27 are connected. Each energizing part 2
The heat storage heater 3 is connected to one of the current-carrying parts 21 and 22, and the PTC heater 7 is connected to the other current-carrying part 22.

The switching drive unit 23 has a function of rotating the shutter 11 in the direction of the arrow to adjust the amount of air blown to the heat storage tank 2 side. The fan drive unit 24 has a function of rotationally driving the blower motor 12.

Further, one of the input units 25 and 26 has one input unit 25 which is operated by the operation board 14 to turn on the power.
It has a function of inputting information of OFF, heating operation start, heat storage completion time, temperature setting, and warm air start time.

The other input section 26 has a function of inputting a room temperature signal output from the room temperature sensor 16. The warm air control unit 27 has a function of controlling the energization of the heat storage heater 3 and the PTC heater 7 and the switching operation of the shutter 11 according to the temperature control flowchart shown in FIG.

Specifically, the hot air control unit 27 uses the shutter 1
1 is switched and controlled, and warm air heating only by the heat storage of the heat storage tank 2, warm air heating only by the heat of the PTC heater 7, or warm air by the heat storage of these heat storage tanks 2 and warm air by the heat of the PTC heater 7 are combined. Among the hot air heating, when the ambient temperature is raised to the target temperature, the hot air heating that consumes less power is operated in that order, and when the ambient temperature is lowered to the target temperature, the hot air heating that consumes more power is stopped in that order. It has a function.

Further, since the warm air controller 27 is provided with two PTC heaters 7, when the ambient temperature is raised to the target temperature, the PTC heaters 7 are arranged in the order of decreasing power consumption, that is, PT.
A function to increase and energize the C heater 7 one by one, and to energize the PTC heater 7 in descending order of power consumption, that is, to decrease and energize the PTC heater 7 one by one when lowering the ambient temperature to the target temperature. have.

Next, the operation of the heating device configured as described above will be described. When the heat storage for the heat storage material 4 is completed and the operation instruction is operated on the manual operation panel 15, the operation instruction is output from the operation board 14 and sent to the main control unit 20 through the input unit 25.

The main controller 20 receives the operation command and instructs the warm air controller 27 to execute the warm air control. In step # 10, the warm air control unit 27 issues a strong wind operation command to the fan drive unit 24, and at the same time, sends air to both sides of the heat storage tank 2 and the two PTC heaters 7 to the switching drive unit 23. Issuing a command and the other energization unit 22
To the two PTC heaters 7.

As a result, the blower motor 12 is rotationally driven, and the air taken in by the rotation of the blower fan 13 at this time is blown to both sides of the heat storage tank 2 and the two PTC heaters 7 by switching the shutter 11. .

Therefore, the air sent to the heat storage tank 2 side receives the heat radiation from the heat storage tank 2 to rise in temperature and is blown as warm air from the blower opening 8. Two PTs with this
The air sent to the C heater 7 receives heat from these PTC heaters 7, its temperature rises, merges with the hot air from the heat storage tank 2, and is sent as hot air from the air outlet 8.

As described above, when the warm air control is started, the warm air from the heat storage tank 2 and the warm air from the two PTC heaters 7 are blown, and the room temperature rises as shown in FIG. The rising period a of this warm air control is, for example, 30 minutes.

The power consumption at this time is mainly 2 P
With the TC heater 7, if 600 W per PTC heater 7, it becomes 1200 W. In the warm air operation state of the warm air by the heat storage tank 2 and the warm air by the two PTC heaters 7, the warm air control unit 27 performs step # 11.
At the room temperature signal from the room temperature sensor 16 and the operation board 1
4 is compared with the target temperature set to 4, and when the room temperature reaches or exceeds the target temperature, the process proceeds to step # 12, and the switching drive unit 23
To the heat storage tank 2 side, and also to stop energization of the two PTC heaters 7.

As a result, the blown air from the blower fan 13 is sent only to the heat storage tank 2 side by the switching operation of the shutter 11, and the warm air whose temperature has risen due to the heat radiation from the heat storage tank 2 is blown from the blower opening 8. To be done.

At this time, since the heat radiation from the heat storage tank 2 is warm air, the power consumption is mainly the power consumption of the blower motor 12, and the power supply to the heat storage heater 3 and the PTC heater 7 is cut off.

In this warm air operation state, the warm air control unit 27
Compares the room temperature with the target temperature in step # 13, and if the room temperature has reached the target temperature or higher, step # 1
Move to 4 and start blowing.

In this blowing operation, the blowing operation to the heat storage tank 2 side is closed by the switching operation of the shutter 11, and only the air is blown through the PTC heater 7 side which is not energized.

When the room temperature becomes equal to or lower than the target temperature by this air blowing operation, the hot air control unit 27 returns to step # 12 again, and the hot air having received the heat radiation from the heat storage tank 2 is blown to perform warm air heating. .

In the hot air heating in which hot air having received heat radiation from the heat storage tank 2 is blown, heat remains in the heat storage material 4, and after the ambient temperature reaches the target temperature, as shown in FIG.
Corresponds to the period b. The period b is, for example, one hour after the rising.

Next, if the room temperature is equal to or lower than the target temperature while the warm air is being heated by the heat radiation of the heat storage tank 2, the warm air control unit 27 moves to step # 16 and the energizing unit is operated. An energization command is issued to 21.

The energizing section 21 energizes the heat storage heater 3 to store heat in the heat storage material 4. At this time, the power consumption for energizing the heat storage heater 3 is, for example, 500
W.

When the warm air is blown by the heat radiation of the heat storage tank 2 and the heat is stored in the heat storage material 4 together with this, the temperature drop of the heat storage material 4 is suppressed and the temperature of the hot air is released by the heat radiation of the heat storage tank 2. Wind heating is performed.

In this state, when the room temperature reaches the target temperature or higher, the warm air control section 27 returns from step # 17 to step # 12 again, and the warm air having received the heat radiation from the heat storage tank 2 is blown to warm the room. Wind heating is performed.

However, when the room temperature is equal to or lower than the target temperature in a state where the warm air is blown by the heat dissipation of the heat storage tank 2 and the heat is stored in the heat storage material 4, the hot air control unit 27.
Moves to step # 18 to stop energization of the heat storage heater 3 and one PTC heater 7 for the other energization portion 22.
Issue a power-on command.

That is, if the amount of heat released from the heat storage tank 2 is reduced and the hot air produced by the heat released from the heat storage tank 2 does not reach the target temperature at room temperature, warm air is heated by the heat of the single PTC heater 7.

At this time, the shutter 11 sends the air blown by the blower fan 13 only to the PTC heater 7 side. The power consumption at this time is, for example, 600 W per one PTC heater 7.

Next, when the room temperature reaches the target temperature or higher in the operating state of warm air heating by the one PTC heater 7,
The warm air control unit 27 uses the steps # 19 to # 16.
Then, warm air heating is performed by radiating heat from the heat storage tank 2, and at the same time, heat is stored in the heat storage material 4.

If the room temperature does not reach the target temperature even with warm air heating by this one PTC heater 7, the warm air control unit 27
Moves to step # 20 to energize the heat storage heater 3 to energize one PTC heater 7 to store heat in the heat storage material 4.

Therefore, in a state where heat is stored in the heat storage material 4, warm air is blown by the heat radiation of the heat storage tank 2, and at the same time, warm air is blown by the heat of the single PTC heater 7. The power consumption at this time is the heat storage heater 3 and one PTC heater 7.
Both sides are energized to reach 1100W.

When the room temperature reaches the target temperature or higher in this warm air heating state, the warm air control unit 27 returns from step # 21 to step # 18 to perform warm air heating by one PTC heater 7.

However, if the room temperature is equal to or lower than the target temperature in this hot air heating state, the hot air control unit 27 determines that the step #
Moving to 20, warm air heating by the heat of the heat storage heater 3 is performed,
At the same time, an energization command is issued to the two PTC heaters 7.

As a result, the two PTC heaters 7 are energized, and in addition to the warm air heating by the heat of the heat storage heater 3, the warm air by the heat of the two PTC heaters 7 is blown to warm the air. Heating is done.

The power consumption at this time is 1200 W by energizing the two PTC heaters 7. If the room temperature reaches the target temperature or higher by this warm air heating, the warm air control unit 27
Returns to step # 12 again.

When the heat storage temperature of the heat storage material 4 falls below a predetermined temperature during the temperature control, the shutter 11 shuts off the air blow to the heat storage tank 2 side. As described above, in the above-described embodiment, when the room temperature is controlled to the target temperature, after the room temperature reaches the target temperature, the operation control is performed in the order of the warm air heating with the small power consumption based on the power consumption of each hot air heating,
That is, warm air heating by the heat of the heat storage tank 2 (almost 0
W), warm air heating by energizing the heat storage heater 3 (500
W), then warm air heating by the heat of the PTC heater 7 (600
W), then hot air and PTC by energizing the heat storage heater 3
Warm air heating that combines warm air from the heat of the heater 7 (1100
W), and moreover, since it is switched to the warm air heating (1200 W) by the heat of the two PTC heaters 7, it can be operated by the warm air heating which rises the fastest to reach the target temperature. It is possible to effectively convert all the heat stored in the heat storage material 4 by wind operation into warm air without waste and use it for heating a room or the like.

Moreover, after the room temperature reaches the target temperature, it is switched to the hot air heating which consumes the least power and is switched to the hot air heating which consumes more power in sequence, so that the power consumption can be reduced without wasting the power consumption. .

Also, the heat quantity of the warm air gradually decreases due to the temperature decrease due to the heat dissipation of the heat storage material 4, but in accordance with the temperature decrease of the heat storage material 4, energization to the heat storage heater 3 and one PT are sequentially performed.
Since warm air heating by the C heater 7, energization of these heat storage heaters 3 and parallel operation of warm air heating by the PTC heater 7 are switched to warm air heating by the two PTC heaters 7, heat is also stored in the heat storage material 4. All of the heat generated can be converted into warm air without waste, and the room can be heated with low power consumption.

[0063]

As described above in detail, according to the present invention, it is possible to provide a heat storage hot air heating method and apparatus capable of reducing the power consumption by using the stored heat without waste.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing an embodiment of a heat storage type warm air heater according to the present invention.

FIG. 2 is a flowchart of temperature control of the heating machine.

FIG. 3 is a diagram showing a temperature control state by the heating device.

FIG. 4 is a configuration diagram of a conventional heat storage type warm air heater.

FIG. 5 is a flowchart of conventional temperature control.

[Explanation of symbols]

 2 ... Heat storage tank, 3 ... Heat storage heater, 4 ... Heat storage material, 7 ... Ceramic heater (PTC heater), 11 ... Shutter, 13 ... Blower fan, 16 ... Room temperature sensor, 20 ... Main control unit, 23 ... Switching drive unit, 27 ... Warm air control unit.

Claims (4)

[Claims] 1. A heat storage hot air heating method in which the heat stored in a heat storage material and the heat generated by a heater for a hot air are sent as hot air, respectively, in the case of controlling an ambient temperature to a target temperature, at least the heat storage material The warm air heating by only the heat storage, the warm air heating by only the heat of the warm air heater, or the warm air heating by combining the warm air by the heat storage of these heat storage materials and the warm air by the heat of the warm air heater The heat storage hot air heating method, characterized in that the operation is controlled according to the magnitude of each power consumption of. 2. A heat storage hot-air heating device that blows heat stored in a heat storage material and heat generated by a warm air heater as hot air, respectively, in a blower fan and blown air from the blower fan to the heat storage material or Switching to either or both of the heaters for warm air, warm air heating only by heat storage of the heat storage material, warm air heating only by heat of the warm air heater, or hot air and warm air by heat storage of these heat storage materials A switching mechanism that performs warm air heating that combines warm air by the heat of the heater, and a temperature control that controls the switching mechanism according to the magnitude of each power consumption of each warm air heating to control the ambient temperature to a target temperature. A heat storage hot air heating device comprising: 3. The temperature control means, when raising the ambient temperature to a target temperature, operating each of the hot air heating units in the order of warm air heating that consumes less power, and lowering the ambient temperature to the target temperature. The heat storage hot air heating device according to claim 2, wherein the hot air heating device has a function of stopping the hot air heating in order of power consumption. 4. The temperature control means, when provided with a plurality of heaters for warm air, increases the heaters for warm air one by one to energize when the ambient temperature is raised to the target temperature, 3. The heat storage hot air heating device according to claim 2, wherein energization to the warm air heater is reduced by one when the ambient temperature is lowered to the target temperature.