KR970004819Y1 - Heat radiating apparatus of water cooling heating machine using thermo-module - Google Patents

Abstract

None.

Description

Heat dissipation device for cold and hot water heater using thermoelectric element

1 is a longitudinal cross-sectional view of a heat sink installation state in a conventional cold and hot water heater

2 is a longitudinal cross-sectional view of the installation state of the present invention heat dissipation device

3 is a partial perspective view of the heat sink of the present invention

* Explanation of symbols for main parts of the drawings

1, 2: cold, water heater body 3, 4: thermoelectric element

5: temperature sensor 6: blowing fan

7: heat sink 11: heat insulating material

71: thermoelectric element receiving groove 72: heat dissipation fin

721 holes

The present invention increases the cooling efficiency by smoothly convection the heat and cold air generated by the endothermic and exothermic reaction of the thermoelectric element in the cold and hot water heaters that provide coolly cooled or warmly heated water using a thermoelectric module. It relates to a heat dissipation device for cold and water heaters using a thermoelectric element.

Refrigerant gas such as Freon, which is used in general cold and water heaters, is penetrated through the ozone layer of the earth, and its use is regulated worldwide. When the refrigerant gas is used as described above, the compressor, evaporator, condenser and The same configuration has to be provided, so the device is complicated and occupies a large volume.

Therefore, in recent years, a lot of cold, hot water heaters and similar products (for example, cold, warmer, etc.) using thermoelectric elements that are very small in size and endothermic and exothermic in response to the direction of electricity supply have been developed and distributed. It is becoming.

However, as shown in FIG. 1, the conventional cold and hot water heaters are provided on one side surface of each of the cold and hot water heater bodies 30 and 40, which are formed such that the outside has a predetermined volume of the inner space surrounded by the heat insulating materials 31 and 41. The thermoelectric elements 32 and 42 are respectively provided to supply power voltages with different polarities, and the partition 52 having several holes 521 between the contact surfaces 51 of a predetermined width has a predetermined interval. The heat dissipation plate 50 formed integrally with each other is installed between the thermoelectric elements 32 and 42 mounting surfaces of the cold and hot water heater bodies 30 and 40, and a blower fan 60 is installed in a right angle direction of the heat dissipation plate 50. It was made to be a configuration.

However, such a configuration forms a partition 52 at regular intervals between the contact surfaces 51 of a predetermined width in which the heat dissipation plate 50 is in direct contact with the cold and hot water heater bodies 30 and 40. 52 has a configuration in which a plurality of holes 521 are drilled, so that the contact area of air is very small, the heat dissipation efficiency is very low, and the heat dissipation efficiency is lowered. Since the bolts are to be fixed by being positioned between one side of the bodies 30 and 40, there is a problem that the production cost of the product is increased because the assembly is very bad.

An object of the present invention is to facilitate the convection of heat and cold air generated in cold and hot air using a thermoelectric element to increase the cooling effect, as well as to improve the assembly of the heat sink to reduce the production cost of the product It is to provide a heat dissipation device for cold and water heaters using the element.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 2 and 3, the heat dissipation device of the present invention is formed independently of each of the bodies enclosed by the heat insulating material 11 and has a predetermined volume of internal space at the center of the cold and hot water heater bodies 1 and 2. In the cold and hot water heaters each of which is provided with a thermoelectric element (3, 4) for performing endothermic and exothermic reactions and a temperature sensor (5) for detecting the internal temperature and controlling the driving of the thermoelectric elements (3, 4). , The water heater body (1, 2) is integrally formed with respect to the horizontal direction, the heat dissipation plate (7) is installed on the rear of the cold, water heater body (1, 2) is formed a thermoelectric element receiving groove 71 on one side However, the heat dissipation fins 72 having several holes 721 drilled on the other side thereof are formed to protrude to a predetermined height at a predetermined interval, and the blowing fan 6 causing the wind toward the heat sink 7 is the water heater body 2. It is characterized by being installed on the side.

Here, reference numeral 12 is a tubular body into which purified water flows in, 13 is a faucet through which cold and hot water is discharged, and 8 is a bolt that fixes the heat sink 7 to the cold and hot water heater bodies 1 and 2.

Referring to the operation and effect of the device of the present invention configured as described above are as follows.

First, the thermoelectric elements 3 and 4 installed on the rear surfaces of the cold and water heater bodies 1 and 2 supply power voltages with opposite polarities, respectively, so that the thermoelectric elements 3 and 4 endothermic and generate heat. It causes a reaction so that the water filled in the inner space of the body (1, 2) is cooled below a predetermined temperature or warmed up above a predetermined temperature, which is suitable for people to drink.

That is, since the thermoelectric element 3 installed in the cold water body 1 performs an endothermic reaction at a portion attached to the body 1, the water in the cold water body 1 may be cooled below a predetermined temperature. As described above, when the endothermic reaction occurs in a portion in contact with the body 1, heat of a predetermined temperature or the like is generated in the protrusion of the thermoelectric element 3 in contact with the heat sink 7.

On the contrary, since the thermoelectric element 4 installed in the water heater body 2 performs an exothermic reaction at a portion attached to the water heater body 2, the water in the water heater body 2 may be heated to a predetermined temperature or more. When the exothermic reaction occurs in the portion in contact with the body 2 as described above, the portion protruding from the body to be in contact with the heat sink 7 is cooled below a predetermined temperature.

On the back of the cold and water heater bodies 1 and 2, the thermoelectric element accommodating grooves 71 in which the thermoelectric elements 3 and 4 are directly and tightly received, and several heat dissipation fins 72 are integrated at a predetermined height with a predetermined interval. The heat and cold air generated in the thermoelectric elements 3 and 4 is directly conducted to the heat dissipating plate 7 by installing the heat dissipating plate 7 which protrudes.

The heat and cold conducted in this way may be heat-exchanged with air through several heat-dissipating fins 72 protruding from the other side of the heat sink 7 to a predetermined height or more, thereby lowering the heat to some extent.

However, this natural convection method has some limitations in completely cooling the heat generated in the thermoelectric element 3 installed in the cold water body 1.

Therefore, in the present invention, a plurality of holes 721 are drilled in the heat dissipation fins 72 of the heat dissipation plate 7 so that the air flows freely, and the blower fan 6 forcibly causing the wind is provided with the water heater body 2. This was solved by installing on) side.

That is, when the wind of the blower fan 6 is blown from the water heater body 2 side, the cold air generated in the thermoelectric element 4 on the water heater side and conducted to the heat sink 7 is forced to convection to the cold water generator side generating warm air. The heat dissipation efficiency can be greatly improved.

In addition, since the heat sink 7 does not have contact surfaces on both sides as in the prior art, the heat sink 7 has a contact surface on only one side, and since the cold and hot water heater bodies 1 and 2 are integrally formed in the horizontal direction, the heat sink 7 is installed. The operation is very simple and the production cost of the product can be reduced.

As described above, according to the present invention, it is possible to smoothly convection hot and cold air generated from cold and hot water heaters using thermoelectric elements by natural convection and forced air flow, thereby increasing the heat dissipation effect and installing on the cold / hot water body. It is a very useful design, such as to improve the assembly of the heat sink is to significantly reduce the production cost of the product.

Claims (1)

The thermoelectric elements 3 and 4 which are formed independently of each other surrounded by the heat insulating material 11 and perform endothermic and exothermic reactions on the cold and hot water heater bodies 1 and 2 having a predetermined volume of internal space in the center thereof, In the cold and hot water heaters each having a temperature sensor 5 that detects a temperature and controls driving of the thermoelectric elements 3 and 4, the cold and hot water heater bodies 1 and 2 are integrally formed in the horizontal direction. The heat dissipation plate 7 installed at the rear of the cold and hot water heater bodies 1 and 2 forms a thermoelectric element accommodating groove 71 on one side thereof, and a heat dissipation fin 72 having several holes 721 perforated on the other side thereof. Is formed to protrude to a predetermined height at a predetermined interval, the blower fan 6 forcibly causing wind to the heat sink 7 is installed on the water heater body 2 side characterized in that the cold air can be convection to the warmer side Heat dissipation device for cold and water heaters using thermoelectric elements.