KR200315370Y1 - control of a cold and heating cabinet - Google Patents

Abstract

The present invention relates to a cold and cold device of the integrated cold storage cabinet, and more specifically, the body and the first storage unit and the second storage unit is installed to enable the opening and closing of food, the first and second storage unit of the refrigeration and warmth In the cold and cold storage device consisting of a cold and cold device that allows the optional use of the function, it is located between the first storage unit and the second storage unit to diffuse the heat in both directions to facilitate the production of cold and cold storage to reduce the cost The present invention also relates to a cold and warm device that minimizes the installation area.

That is, the first storage part 10 and the second storage part 11 having the heat diffusion members 30 and 30 ′ provided on the wall surfaces of the first and second storage parts 10 and 11 are positioned on a line. The heater sink 20 is positioned between each of the first and second storage units 10 and 11 to form a through hole 4 and 4 ′ communicating with the first and second storage units 10 and 11. One surface of the thermoelectric elements 21 (21 ') of different poles in each through hole (4) (4') is in contact with the heater sink 20, the other side of the first and second storage (10, 11) The blocks 22 and 22 ′ are brought into close contact with the heat diffusion members 30 and 30 ′ provided on the wall surface thereof, and the thermoelectric elements 21 and 21 ′ are operatively connected by the operation switch 23.

Description

Cooling device of integrated cold storage cabinet {control of a cold and heating cabinet}

The present invention relates to a cold and cold device of the integrated cold storage cabinet, and more specifically, the body and the first storage unit and the second storage unit is installed to enable the opening and closing of food, the first and second storage unit of the refrigeration and warmth In a cold and cold cabinet consisting of a cold and cold device that allows the optional use of a function, the installation area of the cold and cold device is minimized to increase the storage capacity of the first and second storage units and the heat efficiency of the heater sink, and also to facilitate the production. It relates to a cold temperature device to reduce the.

In general, the cold and cold storage device of the cold and cold storage is located at the upper or lower portion of each of the first and second storage units to provide a separate cold and cold device to operate the effects of the cold, hot and cold.

However, the cold storage device installed separately in the first and second storage units occupies a considerable amount of installation area inside the cold storage cabinet, thereby making it difficult to store a large amount of food because the size of the first and second storage units is reduced. In addition, by providing a separate cold and warm device, the problem of increasing the manufacturing cost of the cold and cold cabinet and the assembly is not simple and difficult, it was inconvenient.

Therefore, while increasing the storage capacity of the first and second storage unit to easily store a large amount of food, it is easy to manufacture, it is possible to reduce the manufacturing cost and to prefer the cold and cold device of the cold and hot refrigerator that can increase the heat efficiency of the heater sink Was done.

The present invention is to solve the above-mentioned conventional problems, in order to reduce the installation area of the cold temperature device to accommodate a large amount of food as described above, the thermoelectric across both heater sinks between the first storage unit and the second storage unit By placing the device, the heat absorption and heat dissipation are diffused to the first and second storage parts in both directions, and thus a cold and cold device that enables refrigeration and warming is created.

This will be described in more detail together with the accompanying drawings as follows.

Figure 1 is a front view of the cold and hot refrigerator is implemented

2 is a cross-sectional view of the present invention

3,4 is another embodiment cross-sectional view of the present invention

Figure 5 is a detailed illustration showing a thermal diffusion member of the present invention

Figure 6 is another detailed illustrative view showing the thermal diffusion member of the present invention.

* Description of the symbols for the main parts of the drawings *

1: cold and cold 2: body

3: chiller 4,4 ': through hole

10: first storage unit 11: second storage unit

20: heater think 21,21 ': thermoelectric element

22,22 'Block 23: Operation Switch

24: Ventilation fan 30,30 ': Thermal diffusion member

31: heat sink 32: cooling sink

33: heat dissipation fan 34: cooling fan

35: drawer 36,36 ': conductor

The body (2) having the first storage unit (10) and the second storage unit (11) installed to be openable so that food can be stored therein, and the first and second storage units (10), (11) In the normal cold storage cabinet (1) consisting of a cold and cold device (3) that allows the selective use of the function,

As shown in FIGS. 2 and 3, the first storage unit 10 and the second storage unit 11 in which the thermal diffusion members 30 and 30 ′ are provided on the walls of the first and second storage units 10 and 11. Is positioned on a line and the heater sink 20 is positioned between each of the first and second storage units 10 and 11 to communicate with the first and second storage units 10 and 11. '), And one surface of the thermoelectric elements (21) and 21' of the different poles in each through hole (4) and (4 ') contact the heater sink 20 and the other side of the first and second storage portions The blocks 22, 22 'are brought into close contact with the heat diffusion members 30, 30' provided on the wall of the walls 10 and 11, and the thermoelectric elements 21, 21 'are operated by the operation switch 23. It worked.

For reference, when the DC switch is supplied to each of the thermoelectric elements 21 and 21 'by the operation switch 23, the thermoelectric elements 21 and 21' are different from each other by the Peltier effect. When a current flows in a thermoelectric circuit composed of thermoelectric semiconductor elements, one side is endothermic and the other side is dissipated.

Accordingly, the heat dissipating surfaces of the thermoelectric elements 21 and 21 ′ are closely contacted with the blocks 22 and 22 ′ with high thermal conductivity to be connected to the heat dissipation sink 31, and the thermoelectric elements 21 and 21 ′ are in close contact with each other. The block 22 and 22 'are in close contact with the endothermic surface of the cooling sink 32.

As shown in FIG. 6, the thermal diffusion members 30 and 30 ′ are blocks 22 and 22 ′ in close contact with one surface of the thermoelectric elements 21 and 21 ′ positioned at both ends of the heater sink 20. ), The conductors 36 and 36 'having high thermal conductivity, such as aluminum, may be formed on the outer surfaces of the first and second storage units 10 and 11 to indirectly transfer heat.

As another example of the thermal diffusion members 30 and 30 ′, as shown in FIG. 5, the blocks 22 and 22 are in close contact with one surface of the thermoelectric elements 21 and 21 ′ positioned at both ends of the heater sink 20. The heat dissipation sink 31 and the cooling sink 32 in close contact with each other, and the heat dissipation fan 33 and the cooling fan 34 are installed thereon, and the heat dissipation generated from the thermoelectric elements 21 and 21 ' The endotherm is to be directly diffused into the first and second storage units 10 and 11.

Referring to the operation of the present invention configured as described above, when the direct current power is applied to the thermoelectric elements 21, 21 'in the operation switch 23, the heat radiation and heat absorption on each surface of the thermoelectric elements 21, 21' Will occur.

Then, heat absorption and heat dissipation are easily generated at both ends of the heater sink 20 in contact with the thermoelectric elements 21 and 21 ′ by the Peltier effect, so that the heat diffusion members of the first and second storage units 10 and 11 ( 30) (30 ') to diffuse the heat.

The heater sink 20 generated by the thermoelectric elements 21 and 21 ′ may be vented by the ventilation fan 24 to reduce the overload of the heater sink 20.

In addition, the present invention, as shown in FIG. 4, the first and second storage parts 10 and 11 may be formed as a drawer 35 so that the lap is easily used.

Therefore, the present invention minimizes the installation area of the cold and warm device to store a large amount of food in the first and second storage units of the integrated cold storage cabinet as described above. Cooling and warming is possible on both sides, so the heat efficiency of the heater sink can be increased, and the installation is simple and easy to manufacture and reduce the manufacturing cost.

Claims (3)

The body (2) having the first storage unit (10) and the second storage unit (11) installed to be openable so that food can be stored therein, and the first and second storage units (10), (11) In the normal cold storage cabinet (1) consisting of a cold and cold device (3) that allows the selective use of the function, The first storage part 10 and the second storage part 11 provided with the heat diffusion members 30 and 30 'on the wall surfaces of the first and second storage parts 10 and 11 are positioned on a line, respectively. The heater sink 20 is positioned between the first and second storage parts 10 and 11 to form a through hole 4 and 4 ′ communicating with the first and second storage parts 10 and 11, respectively. One surface of the thermoelectric elements 21, 21 ′ of different poles in the through holes 4, 4 ′ is in contact with the heater sink 20, and the other surface thereof is a wall surface of the first and second storage units 10, 11. The blocks 22 and 22 'are brought into close contact with the heat diffusion members 30 and 30' provided in the thermoelectric elements 30 and 30 ', and the thermoelectric elements 21 and 21' are operatively connected by the operation switch 23. Cooling device of integrated cold storage. According to claim 1, wherein the thermal diffusion members 30, 30 'is in contact with one surface of the thermoelectric elements 21, 21' located at both ends of the heater sink 20, the first and second storage unit 10 ( 11) to form a conductor (36, 36 ') with high thermal conductivity, such as aluminum, on the outer surface of the integrated cold and cold refrigerator, characterized in that the transfer of heat dissipation and heat absorption generated in the thermoelectric elements (21) (21'). Chiller. The heat dissipation member (30) and the 30 'of the heat dissipation member (31) and the cooling sink (32) in contact with the thermoelectric elements (21, 21') located at both ends of the heater sink (20). Each of them is provided with a heat radiating fan 33 and a cooling fan 34 installed thereon to transfer heat radiation and endothermic generated from the thermoelectric elements 21 and 21 'to the first and second storage units 10 and 11. Cooling device of integrated cold storage, characterized in that.