KR930000943B1 - Stirling cycle type refrigerator - Google Patents

Abstract

The refrigerator does not use the freon gas restricted as a cooling medium because of air pollution, but obtains the cooling effect by using the stirling cycle method. The refrigerator comprises a stirling module (11) equipped at a main body (30); a heat pipe (16) connected with a radiator (13) of the stirling module (11); a linear motor (23) for setting a cooling temparature; a voltage controller (14) supplying a variable voltage according to the set cooling temperature. The heat pipe (15) for cooling, includes a cap type condensing member (15b), and an evaporating member (15a) connected with a plurality of cooling pipes (15c). Another heat pipe (16) for radiating, includes a cylindrical evaporating member (16a), and a condensing member (16b) connected with a plurality of radiation pipes (16c).

Description

Stirring Cycle Refrigerator

1 is a cross-sectional view of a conventional sterling cycle type refrigerator.

2 to 4 is a view showing a temporary example of a sterling cycle type refrigerator according to the present invention, Figure 2 (a) is a cross-sectional view showing the overall configuration, (b) is a control block diagram.

3 is a view showing a connection structure of a heat absorber and a heat pipe.

4 is a view showing a connection structure of a heat radiator and a heat pipe.

5 is a block diagram showing a case in which the cold air generator applied to the present invention is applied to the air conditioner.

Figure 6 is a schematic cross-sectional view of the main portion of the Stirling module for explaining the operation principle of the cold air generating unit applied to the present invention.

* Explanation of symbols for main parts of the drawings

10: cold air generator 11: Stirling module

12: heat absorber 13: radiator

14: voltage control device 15: refrigeration heat pipe

16: heat dissipation heat pipe 15a, 16a: evaporation unit

15b, 16b: Condensation unit 30: Sterling cycle system refrigerator body

31: freezer 32: cold storage room

33: cold air flow path 34: temperature sensor

35: cold air circulation fan 40, 41: heat exchanger

42,43: Blowing fan

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sterling cycle type refrigerator, and more particularly, to a sterling cycle type refrigerator in which a refrigeration effect can be obtained by using a sterling cycle as a refrigeration cycle without using a refrigerant such as Freon gas, which is restricted in use due to air pollution. .

As shown in FIG. 1, a conventional Stirring cycle refrigerator has a compressor 1 for compressing a refrigerant, a condenser 2 for condensing the refrigerant, and an expansion valve or capillary tube for expanding the refrigerant ( 3) and a refrigerating cycle consisting of an evaporator (4) having a refrigerating effect by evaporating the expanded refrigerant, and sends the air cooled by the evaporator (4) to the freezing chamber (6) and the refrigerating chamber (7) in the Stirling cycle type refrigerator. The cold air circulation fan 5 is provided.

As described above, the conventional sterling cycle type refrigerator has a refrigerant compressed in the compressor 1 to become a high temperature and high pressure steam and flows to the condenser 2, and condenses in the condenser 2 to a liquid state of high temperature and high pressure. (3), where the high-temperature and high-pressure liquid refrigerant expands in an adiabatic state to become a low-temperature, low-pressure liquid, vapor mixed state, and passes through the evaporator (4) to cool the air of the stir cycle cycle refrigerator by latent heat of evaporation. After cooling, the refrigerant itself is completely evaporated and flows back into the compressor 1.

The air in the Stirling Cycle Type Refrigerator is cooled by passing through the evaporator 4 by the cold air circulation fan 5 and sent to the freezing chamber 6 and the refrigerating chamber 7 to circulate as shown by the arrows in the figure.

As described above, in the conventional steam compression refrigeration cycle, the refrigerant uses Freon gas (R12), a CFC (chlorofluorocarbon) material, but the CFC material destroys the atmospheric ozone layer and raises the global temperature. Is gradually being strengthened, and thus the development of new refrigerants or a new type of cooling system is required.

In addition, the on / off control by thermostat, which is a control method of a conventional steam compression refrigeration cycle, causes a performance deterioration due to an intermittent operation and has a defect in which a change in set temperature is severe.

The present invention has been made to solve the above-mentioned conventional defects, and to provide a stir cycle cycle refrigerator that can obtain a freezing effect using a stir cycle without using a refrigerant such as freon gas, this When described in detail by the accompanying drawings as follows.

Figure 2 (a) (b) is a cross-sectional view showing an embodiment of the Stirling cycle type refrigerator according to the present invention, as shown therein, according to the present invention the cold air generator 10 is a stirling module 11, and its sterling It consists of a refrigeration heat pipe (15) connected to the heat absorber (12) of the module (11), and a heat dissipation heat pipe (16) connected to the radiator (13) of the stirling module (11). The stirling module 11 of the generator 10 has a configuration in which a voltage control device 14 for controlling the applied voltage is connected.

The cold air generator 10 as described above is used to replace the conventional steam compression cooling cycle in the Stirling cycle refrigerator.

2 is a configuration in which a stir cycle refrigerator of the present invention shown in (a) is provided with a cold air generator 10 at a rear portion of a main body 30 having a freezer compartment 31 and a refrigerator compartment 32. The temperature sensor 34 is provided in the cold air circulation path 33 between the 31 and the refrigerating chamber 32, and the voltage control device 14 of the cold air generator 10 is provided inside the refrigerating chamber 32. And the cold air circulation fan 35 is provided above the rear part of the freezing chamber 31.

FIG. 2 (b) is a control block diagram of a stirling cycle refrigerator according to the present invention. As shown therein, a cold air generator for supplying cold air to the stirling cycle refrigerator 30 and its stirring cycle refrigerator 30 is shown. 10, the temperature control sensor 34 installed in the Stirling cycle type refrigerator 30, and the voltage control to control the voltage applied to the cold air generator 10 according to the temperature detected by the temperature sensor 34 The device 14 and a switch 18 for selecting a freezing mode and setting a freezing temperature.

6 is a view showing a similar sterling module to explain the configuration and operation principle of the sterling module used in the present invention, as shown, the displacer 21 and the piston 22 in the inner circumference of the cylinder 20 A linear motor 23 is installed outside the lower portion of the cylinder 20, and a heat absorber 12 and a radiator 13 are connected to an upper portion of the cylinder 20, and a regenerator (between them) is provided. 24) is connected.

In addition, an upper operating space 25 is disposed above the displacer 21, a lower operating space 26 is disposed between the displacer 21 and the piston 22, and a reaction space 27 is formed below the piston 22. .

Such a stirling module operates in reverse cycle with the known principle of the stirling engine. That is, instead of applying heat to the heat absorber 12 and releasing heat from the ice heat 13 to obtain power by isothermal expansion and isothermal compression, the piston 22 is moved by applying an equal force to the linear motor 23 to isothermal expansion. In this case, a cooling effect is obtained in the heat absorber 12, and during compression, the heat is radiated from the radiator 13 so as to be isothermally compressed.

In this way, when the cooling effect occurs in the heat absorber 12 of the cold air generator 10 is transferred to the freezer compartment 31 by the freezing heater pipe 15 to cool the air in the Stirling cycle type refrigerator, cold air circulation The fan 35 is sent to each part of the Stirling cycle type refrigerator, that is, the freezer compartment 31 and the refrigerating compartment 32, and the heat discharged from the radiator 13 of the cold air generator 10 is connected to the radiator 13. The heat dissipation heat pipe 16 protruding to the outside of the Stirling cycle refrigerator is discharged to the outside of the Stirling Cycle refrigerator.

7 is a view for explaining the configuration and operation principle of the heat pipe, as shown in the evaporator 17a for absorbing heat on one side of the vessel 17, the condensation unit for dissipating heat on the other side (17b), the intermediate portion is provided with an insulating portion (17c), the operation principle of the working fluid in the container (e.g. liquid ammonia, methyl alcohol) absorbs heat from the evaporation portion (17a) By evaporating, the condensation unit 17b emits heat to condense and transfer heat.

The temperature control of the Stirling cycle type refrigerator as described above is performed by the voltage controller 14 according to the set temperature, the voltage controller 14 is linear motor 23 of the cold air generator 10 according to the set temperature. It is configured to control the voltage supplied to proportionally.

That is, when the temperature in the Stirling cycle type refrigerator detected by the temperature sensor 34 becomes higher than the set temperature, the voltage supplied to the linear motor 23 is increased to increase the stroke of the piston 22 to increase the cooling effect. On the contrary, when the temperature in the Stirling cycle refrigerator is lower than the set temperature, the supply voltage is lowered to reduce the stroke of the piston 22, thereby reducing the cooling effect.

3 shows a connection structure between the heat absorber 12 and the refrigeration heat pipe 15. As shown in FIG. 3, the condensation part 15b of the refrigeration heat pipe 15 is formed in a cap shape. The cap-shaped condensation unit 15b is covered with the heat absorber 12 of the cold air generator 10 and fixed. The evaporation unit 15a of the heat pipe 15 includes a plurality of cooling tubes 15c. It can be formed integrally in communication and attach the cooling fin (15d) to the attention can increase the cooling effect.

4 (a) and 4 (b) show a connection structure between the radiator 13 and the heat dissipation heat pipe 16. As shown in FIG. 4, the evaporator 16a of the heat dissipation heat pipe 16 is cylindrical. And the cylindrical evaporator 16a to form a circumferential wall of the radiator 13 and to fill the inside with a liquid 19 having a large specific heat and convective heat transfer coefficient such as water, and the like. The condensation part 16b of () is a structure which formed the several heat dissipation pipes 16c in integral communication.

5 is a view showing a case in which a cold air generator according to the present invention is applied to an air conditioner, and as shown in FIG. 5, the evaporation unit of the refrigerating heat pipe 15 connected to the heat absorber 12 of the cold air generator 10 ( The heat exchanger 40 of the indoor unit is used as the heat exchanger 40 of the outdoor unit, and the condenser 16b of the heat pipe 16 for refrigeration connected to the radiator 13 of the cold air generator 10 is the heat exchanger 41 of the outdoor unit. The fan 42 and 43 for blowing are provided in one side of the 40 and 41, respectively.

The air conditioner circulates the cold air of the indoor unit heat exchanger 40 to the fan 42 to cool the room, and blows and heats the heat of the outdoor unit side heat exchanger 41 to the fan 43.

As described above, the Stirring cycle refrigerator of the present invention can obtain a cooling effect by the Stirring cycle without using a CFC-based refrigerant, and thus has a special effect of not causing environmental pollution problems such as ozone layer destruction and global temperature rise. Conventional steam compression refrigeration cycle control method is the on-off control method of the compressor by the thermostat. On the contrary, since the temperature control of the Stirling cycle type cold air generator of the present invention is a proportional control method of changing the voltage, it is possible to use a low-cost variable resistor or transformer as a control element and maintain the set temperature much more constant than control by the thermostat. And, there is an advantage that can prevent the performance degradation by intermittent operation.

Claims (4)

In the cooling device in which the heat pipe for refrigeration 15 is connected to the heat absorber 12 of the steaming module 11, the stirling module 11 is installed in the refrigerator main body 30, and the radiator of the stirling module 11 is provided. The heat dissipation heat pipe 16 is connected to the 13, and the voltage control device 14 for varying the voltage according to the cooling temperature set in the linear motor 23 of the Stirling module 11 is connected. Stirring cycle refrigerator. According to claim 1, wherein the refrigeration heat pipe 15 has a condensation portion (15b) is formed in a cap shape, the cap-shaped condensation portion (15b) is fixed by covering the heat absorber 12 of the cold air generator (10) Evaporation unit (15a) is a Stirling cycle type refrigerator, characterized in that the plurality of cooling tube (15c) is formed in integral communication with the cooling fins (15d) is attached to the surrounding. The heat dissipation heat pipe (16) according to claim 1, wherein the heat dissipation heat pipe (16) has a cylindrical shape such that the cylindrical evaporation portion (16a) forms a circumferential wall of the radiator (13) of the cold air generator (10). Stirring cycle type refrigerator, characterized in that the liquid (19) having a large specific heat and convection heat transfer coefficient is filled, the condensation portion (16b) is formed so that the plurality of heat dissipation pipes (16c) are integrally communicated. The Stirring cycle refrigerator according to claim 1, wherein the refrigeration heat pipe (15) is installed to be located outside the rear portion of the refrigerator main body (30).