KR200322613Y1 - Cooler and power generation using thermoelectric module - Google Patents

Abstract

The present invention relates to a cooling and power generation device, and more specifically, to cooling by using a thermoelectric element that can extend the life of a battery by generating a part of power supplied to the device by using high heat generated from a computer or a small electronic device. And a power generation apparatus.

Cooling and power generation apparatus using a thermoelectric element according to the present invention is provided with a thermoelectric cooling element in the center and an endothermic plate for absorbing heat on one side of the thermoelectric cooling element, the heat absorbing plate on the other side of the thermoelectric cooling element Cooling unit is provided with a heat generating plate for generating heat endotherm through; A heat absorbing plate is attached to the heat generating plate of the cooling unit through an adhesive means and absorbs heat generated from the heat generating plate, and a thermoelectric generator for converting heat energy absorbed on the other side of the heat absorbing plate into electrical energy is output. It is characterized in that it comprises a power generation unit which is provided with a heat generating plate for generating heat on the other side of the thermoelectric generator.

Description

Cooling and power generation device using thermoelectric device {Cooler and power generation using thermoelectric module}

The present invention relates to a cooling and power generation device, and more particularly to a cooling and power generation device using a thermoelectric element that generates power by using heat transferred from the outside and heats the inside of the equipment by using a heat pipe. It is about.

Computers or electronic equipment generate heat as they are driven, and when these devices are used for a long time, high heat is generated inside them, which greatly affects each device constituting the equipment. Accordingly, inside the computer or electronic equipment, a separate ventilation device is essentially provided inside the computer or electronic equipment to exhaust heat generated from the equipment itself to the outside.

However, the ventilation device as described above is forcibly exhausting heat generated from the inside using a blower fan, which shortens battery life by generating noise as well as power consumption by the blower fan.

Accordingly, there is an urgent need for a cooling device that combines power generation that can easily cool high heat generated from electronic devices and improve battery life.

The present invention is derived to solve the above problems, the present invention is to absorb the heat generated inside the equipment by using a thermoelectric element to cool, and to generate a part of the power supplied to the equipment by using the heat absorbed heat An object of the present invention is to provide a cooling and power generation apparatus using a thermoelectric device.

In addition, the object of the present invention is to provide a cooling and power generation apparatus using a thermoelectric element capable of generating a greater amount of electricity by improving the performance of heat transfer generated inside the equipment.

In addition, an object of the present invention is to provide a cooling and power generation apparatus using a thermoelectric element capable of cooling heat generated from a cooling and generation apparatus using a thermoelectric element using a loop type heat pipe.

1 is a schematic diagram of a cooling and power generation apparatus using a thermoelectric device according to an embodiment of the present invention.

FIG. 2 is an enlarged view of a portion A shown in FIG. 1. FIG.

<Explanation of symbols for the main parts of the drawings>

DESCRIPTION OF SYMBOLS 1 Cooling part 11 Thermoelectric cooling element 12 Endothermic plate 13 Heat generating plate

DESCRIPTION OF SYMBOLS 3 Generation part 31 Thermoelectric power generation element 32 Endothermic plate 33 Heat generating plate

5: bonding means

7: air conditioner

71: evaporator 72: condenser 73: blower fan 74: heat pipe

Cooling and power generation apparatus using a thermoelectric element according to an aspect of the present invention for achieving the above object is provided with a thermoelectric cooling element in the center and a heat absorbing plate for absorbing heat on one side of the thermoelectric cooling element, A cooling unit provided on the other side of the thermoelectric cooling element, wherein a heat generating plate for generating heat absorbed through the heat absorbing plate is provided; A heat absorbing plate is attached to the heat generating plate of the cooling unit through an adhesive means and absorbs heat generated from the heat generating plate, and a thermoelectric generator for converting heat energy absorbed on the other side of the heat absorbing plate into electrical energy is output. It is characterized in that it comprises a power generation unit which is provided with a heat generating plate for generating heat on the other side of the thermoelectric generator.

According to this aspect of the present invention, the cooling and power generation apparatus using the thermoelectric element according to the present invention absorbs high temperature heat generated therein through a cooling unit equipped with the thermoelectric cooling element when using a computer or a small electronic device. At the same time, the heat absorbing plate is brought into close contact with the heat generating plate of the cooling unit, and the heat absorbed from the cooling unit is converted into electrical energy through the power generation unit including the thermoelectric power generation element. Since it can be used as a driving power source of the thermoelectric cooling element, it is possible to reduce the power consumption of a conventional computer or small electronic equipment.

According to an additional aspect of the present invention, the cooling and power generation apparatus using the thermoelectric element further includes a conventional air conditioner composed of an evaporation unit and a condensation unit, and one side of the evaporation unit is in close contact with the other side of the heating plate of the power generation unit. And absorbs heat generated from the heat generating plate.

According to this aspect of the present invention, the cooling and power generation apparatus using the thermoelectric device according to the present invention can cool the heat generated in the power generation unit through the evaporator of the air conditioner in close contact with the heat generating plate of the power generation unit.

These and further aspects of the present invention will become more apparent through the following preferred embodiments with reference to the accompanying drawings. Hereinafter, the present invention will be described in detail to enable those skilled in the art to easily understand and reproduce the present invention.

1 is a schematic view of a cooling and power generation apparatus using a thermoelectric device according to an embodiment of the present invention, Figure 2 is an enlarged view of a portion A shown in FIG.

As shown in FIGS. 1 and 2, the cooling and power generation apparatus using the thermoelectric device according to the present invention, unlike the conventional simple cooling device using the thermoelectric element, has a cooling unit provided with the thermoelectric cooling element 11 in reverse inverse. The heat generating plate 13 of (1) and the heat absorbing plate 32 of the power generation unit 3 provided with the thermoelectric generator 31 are in close contact with each other to absorb heat generated inside the electronic device through the cooling unit 1. By cooling the inside while absorbing heat generated in the cooling unit through the power generation unit 3 to generate power.

That is, the cooling unit 1 is provided with a thermoelectric cooling element 11 at the center, and one side of the thermoelectric cooling element 11 is provided with a heat absorbing plate 12 for absorbing heat, and the thermoelectric cooling element 11 On the other side of the) is provided with a heat generating plate 13 for generating heat absorbed by the heat absorbing plate 12. In the embodiment of the present invention, the thermoelectric cooling element 11 is a p-type device and n-type Π-type series circuit pn thermocouples in which a device is bonded to a metal electrode The current in the p-type device flows from the n-type to the p-type so that the electrodes of both branch ends are-and +, respectively. The electrons in the positive electrode move to the positive pole, and both holes and electrons have heat from the upper pn junction electrode and move to the lower bifurcated electrode, so it is cooled at the upper junction and absorbs heat from the surroundings. Insulates Heat from Semiconductor Thermoelectrics As such, since the present invention is already known before the filing date of the present invention, a detailed description of these structures and operations will be omitted.

On the other hand, the power generation unit 3 converts thermal energy into electrical energy, and is attached to the heat generating plate 13 of the cooling unit through an adhesive means 5 to absorb heat generated by the heat generating plate 13. Plate 32 is provided, and the other side of the heat absorbing plate 32 is provided with a thermoelectric power generation element 31 for converting the heat energy absorbed through the heat absorbing plate 32 into electrical energy and outputted, The other side of the thermoelectric generator 31 is provided with a heat generating plate 33 for generating heat. That is, the power generation unit 3 generates a large amount of electricity as the heat supplied from the outside is high temperature.

In the embodiment of the present invention, the thermoelectric generator 31 is a semiconductor thermoelectric element in which a p-type element and an n-type element are metal-bonded in a π-type like the above-mentioned thermoelectric cooling element. When the temperature difference is generated, electrons move in the n-type device, and holes in the p-type device receive heat energy, and thus the total energy is increased. Therefore, the thermoelectric generator moves to the low temperature side. The side is charged with-, the high temperature side with +, and in the p-type device opposite to the n-type. Due to this, the lower p-type device forms a space charge of +, and the n-type device forms a space charge of -pole, so that a current flows, and it is already known before the filing date of the present invention. The description will be omitted.

Meanwhile, in the embodiment of the present invention, the heat generating plate 13 of the cooling unit and the heat absorbing plate 32 of the power generation unit are adhered through the thermally conductive grease 5. By using the thermally conductive grease in close contact with each other, the air layer can be prevented from being formed between the heat generating plate of the cooling unit and the heat absorbing plate of the power generating unit, thereby improving heat transfer efficiency.

Therefore, the cooling and power generation apparatus using the thermoelectric element according to the present invention through the configuration as described above can be used as a part of the power supplied from the power generation unit to the equipment, it is possible to reduce the power consumption according to the operation of the equipment, especially the battery In the portable electronic device using the battery, the use time of the battery according to the use of the electronic device can be extended.

Hereinafter, a cooling and power generation apparatus using a thermoelectric element using a loop type heat pipe according to another embodiment of the present invention will be described with reference to FIG. 1.

As shown in FIG. 1, a cooling and power generation apparatus using a thermoelectric device according to the present invention is configured to externally heat heat generated by the power generation unit 3 through an air conditioner 7 having a loop type heat pipe 74. Heat dissipation.

That is, the evaporator 71 of the air conditioner is in close contact with the heat generating plate 33 of the power generation unit to radiate heat generated from the condensation unit 72 to the outside through the loop-type heat pipe 74.

At this time, the loop type heat pipe 74 is sealed in a vacuum state by inserting a working fluid such as water into a pipe through a pipe connecting body. When heat is supplied through the evaporator 71, the phase of the working fluid inside It is a high-performance heat transfer device to transfer the heat to the condensation unit 72 in the form of steam through the change.

Accordingly, in the cooling and power generation apparatus using the thermoelectric element according to the present invention, when power is supplied to the thermoelectric cooling element 11 of the cooling unit, the heat generated inside the electronic device is the cooling unit 1 and the power generation unit 3. ) Is sequentially passed to the evaporator 71, which is in close contact with the heat generating plate 33 of the power generation unit, in which electrical energy is output from the power generation unit 3.

And the heat transferred to the evaporator 71 through the transfer process as described above is transferred to the working fluid inside the evaporator to cause a phase change. That is, the working fluid is changed into steam through the phase change, and the steam moves to the condenser 72. The steam moved to the condensation unit 72 transfers heat to the air through the fan 73 provided outside, returns to the liquid phase, and returns to the evaporation unit 71. Since the transfer phenomenon is continuously performed, cooling and power generation can be simultaneously performed.

However, in the embodiment of the present invention, the air conditioner is not limited to the air conditioner using the loop type heat pipe as described above, and the heat generated from the thermoelectric element by using an air conditioner or a conventional air conditioner using a single tube type heat pipe to the outside. It is also possible to radiate heat.

As described above, the cooling and power generation apparatus using the thermoelectric device according to the present invention is different from the conventional simple cooling device using the thermoelectric element, and the reverse part, the cooling unit with the thermoelectric cooling element and the power generation unit with the thermoelectric generator. By being able to generate electricity through close contact with each other, not only can the battery life of the device requiring the battery be extended, but also it can be used as part of the power supply, thereby reducing the power consumption of the electronic device. Can be.

In addition, by using the thermally conductive grease in close contact with the cooling unit with a thermoelectric cooling element and the power generation unit with a thermoelectric power generation element, it is possible to prevent the formation of an air layer between the heat generating plate of the cooling unit and the heat absorbing plate of the power generation unit, and thus heat transfer efficiency. This can improve the amount of electricity generated thereby.

In addition, by heat dissipating heat generated from a cooling and power generation device using a thermoelectric element using an air conditioner provided with a loop type heat pipe, it is possible to obtain a greater effect on the performance of heat transfer than a single tube type heat pipe.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many other various modifications are possible without departing from the scope of the present invention from this description. Therefore, the scope of the present invention should be interpreted by the utility model claims described to include many such modifications.

Claims (4)

The thermoelectric cooling element 11 is provided at the center, and one end surface of the thermoelectric cooling element 11 is provided with a heat absorbing plate 12 for absorbing heat, and the other end surface of the thermoelectric cooling element 11 is the heat absorbing plate. A cooling unit (1) provided with a heat generating plate (13) for generating heat endothermic through (12); A heat absorbing plate 32 is attached to the heat generating plate 13 of the cooling unit through an adhesive means 5 to absorb heat generated from the heat generating plate 13, and is provided on the other side of the heat absorbing plate 32. The thermoelectric power generation unit 31 is provided to convert the endothermic heat energy into electrical energy and outputs the power generation unit having a heat generating plate 33 for generating heat on the other side of the thermoelectric power generation element 31. 3); Cooling and power generation apparatus using a thermoelectric element comprising a. The method of claim 1, wherein the bonding means 5 comprises: Cooling and power generation apparatus using a thermoelectric element, characterized in that the thermally conductive grease. According to claim 1 or 2, wherein the cooling and power generation apparatus using the thermoelectric device is: Further comprising a conventional air conditioner (7) consisting of the evaporator 71 and the condensation unit 72, one side of the evaporator 71 is in close contact with the other side of the heat generating plate 33 of the power generation unit to generate heat Cooling and power generation apparatus using a thermoelectric element, characterized in that for absorbing heat generated from the plate (33). 4. The air conditioner (7) of claim 3, wherein: Cooling and power generation apparatus using a thermoelectric element, characterized in that the evaporation unit 71 and the condensation unit 72 is connected through a loop type heat pipe (74).