KR20080024361A - A condenser for refrigerator - Google Patents

Abstract

A condenser for a refrigerator is provided to improve heat exchange efficiency without a limitation on an installation space by enlarging an actual heat radiating area through a corrugated structure of a heat radiating member. A condenser(4) for a refrigerator includes a refrigerant guide pipe(30) guiding refrigerant and a heat radiating member(40) assembled with the refrigerant guide pipe to increase a heat radiating area. The heat radiating member is corrugated, repeating crests and valleys. The heat radiating member is assembled with the refrigerant guide pipe through one of the crests and valleys. The heat radiating member is assembled with the refrigerant guide pipe in a state of forming a plate shape that the refrigerant guide pipe is bent in zigzags. The refrigerant guide pipe is wound several times to form a body with the heat radiating member.

Description

Condenser for Refrigerator {A CONDENSER FOR REFRIGERATOR}

1 is a cross-sectional view schematically showing the overall structure of a refrigerator according to an embodiment of the present invention.

2 is a block diagram showing the configuration of a refrigeration cycle in the refrigerator according to an embodiment of the present invention.

3 illustrates the structure of a condenser for a refrigerator in accordance with a preferred embodiment of the present invention in detail, showing a state viewed from the flow direction of air blown into the condenser.

Figure 4 is a perspective view showing a wrinkle forming process of the heat dissipation member in the condenser for a refrigerator according to an embodiment of the present invention.

5 is a perspective view showing the structure of the refrigerant guide tube in the condenser for a refrigerator according to an embodiment of the present invention.

6 is a perspective view illustrating a state in which a combination of a heat dissipation member and a refrigerant guide tube is completed in a condenser for a refrigerator according to an exemplary embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

4: condenser 30: refrigerant guide tube

40: heat radiating member 41: acid

42: valley

The present invention relates to a condenser for a refrigerator, and more particularly, to a condenser for a refrigerator provided to significantly improve heat exchange efficiency even in a limited space by improving a structure of a heat radiating member coupled to a refrigerant guide tube.

In general, a refrigerator is a device that cools a storage compartment inside a main body with cold generated by an evaporator of a refrigeration cycle, so that the storage stored in the storage compartment is stored in a refrigerated or frozen state.

The refrigeration cycle is provided so that the compressor, the condenser, the expansion device and the evaporator form a closed circuit through the refrigerant pipe. The dual compressor compresses the refrigerant into a gas of high temperature and high pressure, and the condenser compresses the refrigerant delivered from the compressor into a high temperature and high pressure liquid state. Condensation, the high temperature and high pressure liquid refrigerant condensed in the condenser is axially expanded in the course of the expansion device such as a capillary tube and becomes a low temperature low pressure liquid refrigerant, the evaporator evaporates the low temperature low pressure liquid refrigerant through the expansion device To be a low-temperature, low-pressure gaseous refrigerant. Here, the evaporator is installed inside the storage compartment rear, and the condenser is installed in the machine compartment partitioned with the storage compartment inside the main body to exchange heat with external air.

Therefore, the refrigerant circulating in the refrigerating cycle is condensed by exchanging heat with external air in the condenser to release heat around the refrigerator. As the evaporator evaporates, the refrigerant absorbs heat from the air inside the storage compartment. Is switched.

The dual condenser includes a refrigerant guide tube formed of a conventional refrigerant tube, and a plate-shaped heat dissipation member coupled to the refrigerant guide tube to increase the heat dissipation area, and winds the refrigerant guide tube combined with the heat dissipation member to form a cylinder. When the condenser is provided.

Here, the heat dissipation member is in the form of a flat plate, and this conventional refrigerator condenser has a limit in improving heat exchange efficiency because the heat dissipation member is in the form of a simple flat plate.

That is, in order to increase the heat exchange efficiency of such a condenser for a refrigerator, it is preferable to form a large size of the heat dissipation member. Since the condenser installed in the machine room inside the main body is restricted in space, the size of the heat dissipation member taking the form of a flat plate. It can not be formed large according to the user's intention.

The present invention is to solve such a problem, the present invention is to improve the structure of the heat dissipation member coupled to the refrigerant guide tube provides a condenser for a refrigerator provided to significantly improve the heat exchange efficiency even in a limited space. It is.

A condenser for a refrigerator according to the present invention for achieving the above object comprises a refrigerant guide tube for guiding the refrigerant, and a heat dissipation member coupled to the refrigerant guide tube to increase the heat dissipation area, wherein the heat dissipation member is provided with a valley portion and an acid portion. It is provided to be wrinkled so as to be repeated, and the heat dissipation member is characterized in that it is provided to be coupled to the refrigerant guide tube through any one of the peak and valley.

The heat dissipation member is coupled to the coolant guide tube in a state in which the coolant guide tube is banded in a zigzag manner, and the coolant guide tube combined with the heat dissipation member forms a cylinder together with the heat dissipation member. It is characterized in that it is wound many times.

In addition, the fluid inside the refrigerant guide tube is characterized in that the fluid is arranged to pass through between the valleys and the peaks.

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

As shown in FIGS. 1 and 2, the refrigerator according to the present exemplary embodiment includes a main body 10 in which a refrigeration cycle component is installed, and a storage chamber 11 open to the front is formed in the main body 10. And, the front of the main body 10 is provided with a door 20 is hinged rotatably to open and close the storage compartment (11).

In addition, the refrigeration cycle is provided such that the compressor (3), the condenser (4), the expansion device (5) and the evaporator (6) form a closed circuit through the refrigerant pipe (8), and the expansion device (5) is a capillary tube or the like. .

The dual compressor 3 compresses the refrigerant into a gaseous state of high temperature and high pressure, and the condenser 4 condenses the refrigerant transferred from the compressor 3 into a liquid state of high temperature and high pressure. The compressor 3 and the condenser 4 are installed in the machine room 12 partitioned with the storage compartment 11 at the lower part of the main body 10, and the machine room 12 distributes air outside the main body 10 to the inside. It is formed so as to communicate with the outside of the main body 10, a condensation fan (not shown) to one side of the machine room 12 by blowing strong air to the condenser 4 to the heat exchanger with the outside air This is installed.

In addition, the high temperature and high pressure liquid refrigerant condensed in the condenser 4 is axially expanded in the course of passing through the expansion device 5 to become a low temperature low pressure liquid refrigerant, and the evaporator 6 passes through the expansion device 5 at low temperature. The low pressure liquid refrigerant evaporates to form a low temperature low pressure gaseous refrigerant. The evaporator 6 is installed inside the storage compartment 11, and one side of the evaporator 6 circulates the cooled air to the storage compartment 11. The circulation fan 13 is installed to make. For reference, reference numeral 7 denotes a dryer installed in the middle of the refrigerant pipe 8 connecting between the condenser 4 and the expansion device 5, and the dryer 7 is connected to the refrigerant gas condensed in the condenser 4. It removes the moisture contained.

Therefore, the refrigerant circulating in the refrigeration cycle is condensed with the external air in the condenser (4) to condense to release heat to the surroundings, the evaporator (6) heat exchanged with the air in the storage compartment (11) while evaporating the air inside the storage compartment (11) The heat is absorbed, and the air in the storage chamber 11 is converted to cold while heat-exchanging with the evaporator 6 in this way.

3 shows the structure of a condenser 4 for a refrigerator according to the present embodiment.

As shown in FIG. 3, the condenser 4 according to the present embodiment includes a refrigerant guide tube 30 formed of a conventional refrigerant tube, and a heat dissipation member coupled to the refrigerant guide tube 30 to increase a heat dissipation area. It is configured to include a 40, the heat radiating member 40 is provided to wrinkle as a whole.

The configuration of the heat dissipation member 40 provided to have a corrugated structure is such that the actual heat dissipation area can be increased to a large width compared to the existing one, while the overall size of the condenser 4 is not large. The heat exchange efficiency of the condenser installed in the limited space can be improved without any space restrictions. For reference, reference numeral 50 is a bracket for installation of the condenser 4, the condenser 4 is installed on the bottom of the machine room 12 in a state supported by the bracket (50).

As shown in Figure 4, the heat dissipation member 40 is provided in one plate shape formed long to the first one side, and repeatedly bending the heat dissipation member 40 in this state in the opposite direction along the longitudinal direction The peak portion 41 and the valley portion 42 are continuously arranged in a row along the longitudinal direction to form a corrugated structure.

And the refrigerant guide tube 30 is provided to form a plate shape by bending in a zigzag manner as shown in Figure 5, in this state, as shown in Figure 6 and the valleys 42 of the heat radiation member 40 The peak portion 41 of the peak portion 41 is intersected with the longitudinal direction of the refrigerant guide tube 30 to be coupled to the refrigerant guide tube 30, wherein the peak portion of the refrigerant guide tube 30 and the heat dissipation member 40. 41 are joined to each other by welding or caulking. Therefore, the condenser 4 according to the present embodiment, while the actual heat dissipation area is enlarged through the corrugated structure of the heat dissipation member 40, the area of the actual coupling portion between the heat dissipation member 40 and the refrigerant guide tube 30 is rather reduced. Coupling operation of the member 40 and the refrigerant guide tube 30 is made easily.

When the refrigerant guide tube 30 coupled with the heat dissipation member 40 is wound several times in one direction to form a cylinder together with the heat dissipation member 40, the condenser 3 in the state shown in FIG. 3 is completed. In this case, it is possible to form a cylindrical shape dried in various forms such as the cylindrical pillar shape shown in the drawings as well as the cylindrical shape.

Therefore, the condenser 4 according to the present embodiment has no large difference in overall size as compared with the existing condenser, but the heat dissipation area that is actually heat-exchanged with external air due to the heat dissipation member 40 of the corrugated structure is Increased significantly, it is possible to effectively improve the heat exchange efficiency without the space constraints of the installation space.

When the condenser 4 is installed in the machine room 12, the air blown toward the condenser 4 by the condenser fan (not shown) is disposed in the peak portion 41 and the peak portion 41. By allowing the condenser 4 to pass through between the valleys 42 and the valleys 42, the flow of external air blown to the condenser 4 by the condensation fan (not shown) is smooth. desirable.

As described above in detail, the condenser for a refrigerator according to the present invention is provided so that the heat dissipation member coupled to the refrigerant guide tube has a corrugated structure to expand the heat dissipation area. Therefore, the condenser for a refrigerator according to the present invention can increase the actual heat dissipation area to a large width through the corrugated structure of the heat dissipation member without increasing the overall size, thereby improving heat exchange efficiency without space limitation of the installation space. It becomes possible.

Claims (3)

In the heat exchanger for refrigerator having a refrigerant guide tube for guiding the refrigerant and a heat radiating member coupled to the refrigerant guide tube to increase the heat dissipation area, The heat dissipation member is provided to be corrugated so that the valleys and peaks are repeated, the heat dissipation member is provided to be coupled to the refrigerant guide tube through any one of the peaks and valleys. The method of claim 1, The heat dissipation member is coupled to the refrigerant guide tube in a state in which the refrigerant guide tube is formed in a zigzag bending form, and the refrigerant guide tube combined with the heat dissipation member forms a plurality of cylinders together with the heat dissipation member. Refrigerator heat exchanger, characterized in that wound once. The method of claim 2, And a fluid for exchanging heat with the refrigerant inside the refrigerant guide tube passes between the valley portions and the peak portions.

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