JPH06147524A - Air conditioner - Google Patents

Abstract

PURPOSE:To prevent noise caused by an outdoor machine by executing an air-conditioning without using a compressor by execution of heat exchange with air by generating hot heat or cold heat owing to the Peltier effect by thermoelectric conversion unit arranged on an air guiding plate. CONSTITUTION:When a thermoelectricity conversion unit 8 is energized, a p-type semiconductor composite element 9 generates or absorbs heat, and air that is inhaled in an air conditioner body 1 is subjected to a heat exchange by heat generation or heat absorption of the p-type semiconductor composite element 9, becomes warm air or cool air and is blown into a room and an air-conditioning in the room is executed. As this, as a heat source of an air- conditioning, the heat generation or heat absorption of the thermoelectric conversion unit 8 which uses the Peltier effect is used and therefore no outdoor machine is necessary and noises of an outdoor fan and a compressor can be prevented. Besides, an air guiding plate 7 is so bent as to have Japanese letter '<' shape section at a position where an air quantity of an indoor fan 5 becomes large, and a contact area with the p-type semiconductor composite element 9 is made to be large, and a rising of a heat exchange efficiency can be planned.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner equipped with a thermoelectric conversion unit utilizing the Peltier effect.

[0002]

2. Description of the Related Art Conventionally, air conditioners for heating and cooling have been
Connect the compressor, heat exchanger, expansion device in order with refrigerant piping,
A refrigeration cycle in which a refrigerant such as Freon gas is enclosed is used to warm the air passing through the heat exchanger into warm air or cool it into cold air by using the adiabatic expansion effect of the refrigerant to conditioned the air in the room. .

[0003]

By the way, in the conventional air conditioner, since the soot is compressed by the compressor provided in the refrigeration cycle, noise accompanying the on / off operation of the compressor becomes a problem. . The present invention has been made in view of the present situation, and an object of the present invention is to provide an air conditioner that does not require a compressor and therefore does not have a risk of noise due to an outdoor unit.

[0004]

As a means for achieving the above object, the present invention provides two types of indoor fans arranged inside the air conditioner main body, an air guide plate installed on the back side of the indoor fans. Different semiconductor composite elements are arranged, one semiconductor composite element is arranged on one surface of the air guide plate, the other semiconductor composite element is arranged on the other surface of the air guide plate, and two kinds of different semiconductor composite elements are connected to each other by direct current at the electrode portion. A thermoelectric conversion unit,
And a DC power source connected to the thermoelectric conversion unit. In the present invention, the position where the air flow rate of the indoor fan of the air guide plate is large is bent in a V-shaped cross section, and the thermoelectric conversion unit is arranged in this part, so that the thermal efficiency can be increased.

If a polarity converter for converting the polarity of the power supply current is arranged between the thermoelectric conversion unit and the DC power source,
The semiconductor composite element on the indoor fan side of the thermoelectric conversion unit is caused to generate heat and absorb heat, thereby enabling cooling and heating. Also, on the lower side of the air guide plate where the thermoelectric conversion unit is arranged,
A drain receiver that collects the drain water dripping from the heat conversion unit is provided, and the drain water collected in this drain receiver and the drain hose that also discharges the exhaust heat from the thermoelectric conversion unit are connected to simplify the configuration. become.

[0006]

In the air conditioner according to the present invention, the thermoelectric conversion unit provided on the air guide plate is used to generate hot heat or cold heat by the Peltier effect, and this heat is exchanged with the air to use the refrigerant and the compressor. Not air conditioning is possible.

Further, by bending a portion of the air guide plate where the air volume of the indoor fan is large in a V-shaped cross section and disposing the thermoelectric conversion unit in this portion, the thermal efficiency between the air and the thermoelectric conversion unit is increased. To do.

Further, since the drain hose and the exhaust hose are used in common, only one hole can be formed in the wall, and the hole for the refrigerant pipe used in the conventional air conditioner can be used as it is. Becomes

Further, it is possible to switch between cooling and heating by converting the polarity of the commutation of power feeding to the thermoelectric conversion unit by the polarity converter. Further, if the thermoelectric conversion unit is driven by the solar battery, it is possible to cool and heat the room even if the commercial power source is lost.

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings. FIG. 1 shows an air conditioner according to a first embodiment of the present invention. In the figure, reference numeral 1 is an air conditioner body in which a back plate 2 is made of a heat insulating material. An air inlet 3 is formed in the upper front part of the air conditioner, an air outlet 4 is formed in the lower front part, and an indoor fan 5 formed of a cross flow fan is arranged inside the air conditioner body 1. Therefore, the indoor air is sucked into the air conditioner main body 1 from the air suction port 3 by rotating and driving the indoor fan 5 in the direction of the arrow by a fan motor (not shown), and after a predetermined heat exchange. The air is blown out into the room through a blow-out louver 6 provided at the air blow-out port 4.

On the rear side of the indoor fan 3 in the air conditioner body 1, as shown in FIG. 1, an air guide plate 7 for guiding the indoor air sucked from the air suction port 3 to the air outlet 4 is provided. A thermoelectric conversion unit 8 which is installed and acts as a heat exchanger is arranged on the air guide plate 7.

The thermoelectric conversion unit 8 includes an air guide plate 7
P-type semiconductor composite element 9 and air guide plate 7 provided on the front side of the
The n-type semiconductor composite element 10 provided on the rear surface side of the
Are connected alternately and connected to a DC power supply (not shown). Therefore, when a direct current is passed from the P-type semiconductor composite element 9 toward the n-type semiconductor composite element 10, a heat generation phenomenon occurs in the P-type semiconductor composite element 9 due to the Peltier effect, and the air conditioner main body is discharged from the air intake port 3. The air sucked in 1 is heat-exchanged to become warm air, and when a direct current is passed from the n-type semiconductor composite element 10 toward the P-type semiconductor composite element 9, the P-type semiconductor composite element 9 absorbs heat. A phenomenon occurs, and the air sucked into the air conditioner main body 1 from the air suction port 3 is heat-exchanged and becomes cold air. That is,
The P-type semiconductor composite element 9 of the thermoelectric conversion unit 8 acts as a heat exchange air blower, and the air intake unit 3 allows the air conditioner body 1
By exchanging heat with the air sucked in, the air blown into the room is made into warm air or cold air.

As shown in FIG. 1, the portion of the air guide plate 7 where the thermoelectric conversion unit 8 is arranged is bent in a V-shaped cross section at a position where the air volume of the indoor fan 5 is large. By disposing the P-type semiconductor composite element 9 in the V-shaped portion, the heat exchange between the room air sucked from the air suction port 3 and the P-type semiconductor composite element 9 is sufficiently performed, and the thermal efficiency can be improved. it can. The thermal efficiency is increased by making the area of the P-type semiconductor composite element 9 larger than the area of the n-type semiconductor composite element 10. At the lower end of the air guide plate 7,
As shown in FIG. 1, a drain receiver 12 that collects the drain water dropped from the thermoelectric conversion unit 8 is formed, and the drain water collected in the drain receiver 12 is the drain hose 1
It is designed to be discharged to the outside through the chamber 3.

Further, the upper end portion of the exhaust passage 14 formed between the air chamber inner plate 7 and the rear plate 2 has an air conditioner body 1
Is connected to an intake / exhaust passage 15 formed inside the upper end of the.
As shown in FIG. 1, an exhaust temperature sensor 16 and an intake / exhaust fan 17 are installed in the intake / exhaust passage 15, and the intake / exhaust passage 15 is provided with an intake / exhaust passage at the indoor end. A louver 18 is provided, and an intake / exhaust duct 19 is connected to an outdoor end of the intake / exhaust passage 15.

Next, the operation of this embodiment will be described.
When power is supplied to the thermoelectric conversion unit 8 so that a direct current flows from the p-type semiconductor composite element 9 toward the n-type semiconductor composite element 10, a heat generation phenomenon occurs in the p-type semiconductor composite element 9, and the air conditioner is introduced from the air intake port 3. The air sucked into the main body 1 is heat-exchanged by the heat-generating p-type semiconductor composite element 9, becomes hot air, and is blown out into the room to heat the room. The air guide plate 7 is bent in a V-shaped cross section at a position where the air volume of the indoor fan 5 is large, and the contact area of the p-type semiconductor composite element 9 is set to be large. The room air sucked in from contacts with the p-type semiconductor composite element 9 in a large area, so that the heat exchange efficiency can be improved.

If the polarity of the current supplied to the thermoelectric conversion unit 8 is reversed, an endothermic phenomenon occurs in the p-type semiconductor composite element 9,
The air sucked into the air conditioner main body 1 from the air suction port 3 is heat-exchanged by the heat-absorbing p-type semiconductor composite element 9 and becomes cold air, which is blown out into the room to cool the room.

Since the heat generation and heat absorption of the thermoelectric conversion unit 8 utilizing the Pertu effect are used as the heat source for heating and cooling the room, the outdoor unit is not required and the noise of the outdoor fan and the compressor is a problem. It never becomes.

FIG. 2 shows a second embodiment of the present invention, in which one thick hose 20 serves both as the intake / exhaust duct 19 and the drain hose 13 in the first embodiment. . That is, the exhaust passage 14 and the intake / exhaust passage 15 are configured as one passage bent in a Z shape as shown in FIG. 2, and the intake / exhaust fan 1 is provided at a lower end portion thereof.
7 is installed and the hose 20 is connected. In other respects, the structure is the same as that of the first embodiment and the operation is the same.

According to this embodiment, however, only one hole can be formed in the wall, and the hole used for the refrigerant pipe of the conventional air conditioner can be used as it is and the exhaust passage can be used. The inside of 14 can be exhausted sufficiently with a simple structure.

3 to 6 show another embodiment of the present invention, which will be described below. The same members as those in each of the above-described embodiments are designated by the same reference numerals, and the description thereof will be omitted. In the embodiment shown in FIGS. 3 and 4, a DC fan motor 31 for driving the indoor fan 5 and a control circuit 32 are incorporated in the air conditioner body 1, and the intake / exhaust duct 19 has an intake / exhaust louver 18. An outdoor damper 33 interlocking with is provided.

The control circuit 32, as shown in FIG.
It is composed of an AC-DC converter 34, a current polarity converter 35 and a controller circuit 36. The AC-DC converter 34 has power from a solar storage battery 38 having a solar panel 37 and power from a commercial power supply 39. Is supplied, and the controller circuit 36 causes the solar battery 3
Only when the output of No. 8 drops, the commercial power source 39 is switched to save energy.

As shown in FIG. 6, the current polarity converter 35 includes a pair of interlocking changeover switches SW ₁ and SW.
It is configured to have _two , and these both changeover switches SW
By switching ₁ and SW ₂ from the contact a side to the contact b side, the polarity of the direct current supplied to the thermoelectric conversion unit 8 is reversed, and thereby switching between heating and cooling is performed. .

7 to 10 show a thermoelectric conversion unit 8
7 shows the energization pattern to each of the semiconductor composite elements 9 and 10. In the energization patterns shown in FIG. 7 and FIG. 8, the semiconductor composite elements 9 are arranged on one surface of the guide plate 7 in a horizontal row with a space therebetween. , The semiconductor composite element 10 is arranged at a portion of the other surface of the guide plate 7 corresponding to the above-mentioned interval, and the semiconductor composite elements 9 and the semiconductor composite elements 10 are alternately connected in a horizontal row through the electrode plate 11, and the semiconductor composite elements 9 are vertically connected. It is a horizontal parallel energization pattern in which a plurality of sets are arranged and connected in parallel. The energization pattern shown in FIG. 9 is a vertical parallel energization pattern obtained by rotating the horizontal parallel energization pattern by 90 degrees, and the energization pattern shown in FIG. 10 is such that all the semiconductor composite elements 9 and 10 are alternated via the electrode plate 11. It is a series energization pattern in which all of them are connected in series. In other respects, the structure is the same as that of the first embodiment and the operation is the same.

Since the solar battery 38 is used as a power source, energy can be saved, and even if the commercial power source 39 is lost or cannot be secured, the room can be cooled and heated. Become.

[0025]

As described above, the first invention of the present invention does not use a refrigeration cycle as a heat source and does not require an outdoor unit. Therefore, a car air conditioner, a large air conditioner, or a computer-related device that is severely installed Also, it can be easily installed, and the noise of the outdoor fan and the compressor does not pose a problem.

Further, in the present invention, since the portion of the air guide plate to which the thermoelectric conversion unit is attached is bent in a V-shaped cross section at a position where the indoor fan air volume is large, sufficient thermal efficiency can be obtained. Also, since the drain hose and the exhaust hose are also used, only one hole can be formed in the wall, and the hole for the refrigerant pipe used in the conventional air conditioner can be used as it is. . Moreover, since it has a polarity converter that converts the polarity of the power supply current to the thermoelectric conversion unit, only by the polarity conversion by the polarity converter,
Air conditioning can be switched. Further, by driving the thermoelectric conversion unit with the solar battery, even if the commercial power source is lost or cannot be secured, the room can be cooled and heated, and energy can be saved.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing an air conditioner according to a first embodiment of the present invention.

FIG. 2 is a sectional view showing an air conditioner according to a second embodiment of the present invention.

FIG. 3 is a partially cutaway front view showing an air conditioner according to a third embodiment of the present invention.

FIG. 4 is a sectional view of FIG. 3 viewed from the right side.

5 is a block diagram showing a configuration of a control circuit and a power supply of FIG.

FIG. 6 is a circuit diagram showing details of the current polarity converter of FIG.

FIG. 7 is an explanatory diagram showing a horizontal parallel energization pattern of thermoelectric conversion units.

8 is a cross-sectional view taken along the line AA of FIG.

FIG. 9 is an explanatory diagram showing a vertical parallel energization pattern of thermoelectric conversion units.

FIG. 10 is an explanatory diagram showing a series energization pattern of the thermoelectric conversion unit.

[Explanation of symbols]

 1 Air Conditioner Main Body 5 Indoor Fan 7 Air Guide Plate 8 Thermoelectric Conversion Unit 9 p-type Semiconductor Composite Element 10 n-type Semiconductor Composite Element 11 Electrode Part 14 Exhaust Path 15 Intake / Exhaust Path 17 Intake / Exhaust Fan Motor 19 Intake / Exhaust Duct 20 Hose 35 Current polarity converter 37 Solar panel 38 Storage battery for solar

Claims (5)

[Claims] 1. An indoor fan arranged inside an air conditioner main body, an air guide plate installed on the back side of the indoor fan, and 2.
Having semiconductor composite elements of different types, one semiconductor composite element is arranged on one surface of the air guide plate, the other semiconductor composite element is arranged on the other surface of the air guide plate, and two different kinds of semiconductor composite elements are connected by an electrode section. An air conditioner including the thermoelectric conversion unit and a DC power source connected to the thermoelectric conversion unit. 2. The air according to claim 1, wherein a position where the air volume of the indoor fan of the air guide plate is large is bent in a V-shaped cross section, and the thermoelectric conversion unit is arranged in the V-shaped portion. Harmony machine. 3. The air conditioner according to claim 1, wherein a polarity converter that converts the polarity of the feeding current is arranged between the thermoelectric conversion unit and the DC power supply. 4. A drain receiver for collecting drain water dropped from the heat conversion unit is provided below the air guide plate in which the thermoelectric conversion unit is arranged, and the drain water collected in the drain receiver and the thermoelectric conversion unit. An air conditioner according to any one of claims 1 to 3, further comprising an exhaust drain hose for discharging exhaust heat from the air conditioner. 5. The air conditioner according to claim 1, wherein the DC power source is a solar battery.