KR19990021528U - Refrigerator heatsink - Google Patents

Abstract

Disclosed is a heat dissipation device of a refrigerator having an improved structure to improve a heat dissipation efficiency by a blower fan by installing a venturi tube at one end of a machine room provided at a rear lower end of the refrigerator to install a coil capacitor. It is provided at the rear lower end of the refrigerator and comprises a machine room 100 consisting of the upper and lower plate 110, the side plate 130 and the inner plate 120, the compressor 200 and the coil condenser 300 and the coil provided in the machine room, In the heat dissipation device of the refrigerator provided with a blowing fan 400 to be adjacent to the condenser to radiate the coil condenser, the upper and lower plates 110 and the inner plate 120 of the predetermined position of the machine room 100 to form a double-sided surface The venturi tube unit 140 is provided, the coil capacitor 300 is installed in the venturi tube unit 140, and the blowing fan 400 is installed at a position adjacent to the coil capacitor. The heat dissipation device of the present invention refrigerator having such a configuration has an effect of improving the heat dissipation efficiency of the coil capacitor because the wind speed is increased by the blowing of the blowing fan through the coil capacitor installed in the venturi tube by Bernoulli's formula.

Description

Refrigerator heatsink

The present invention relates to a heat dissipation device of a refrigerator, and more particularly, each side of a machine room where a coil capacitor extending from a compressor is installed to have a convex surface to act as a venturi tube, thereby preventing from a radiating fan. The present invention relates to a heat dissipation device of a refrigerator having an improved structure such that a flow rate of air to be blown is increased to improve a heat dissipation effect of a coil capacitor.

In general, the refrigerator is divided into a freezer compartment and a refrigerating compartment by a predetermined trimming plate, and food is accommodated in an inner space in which a plurality of pockets and shelves are formed, and a machine room is formed at the lower rear of the refrigerating compartment.

A compressor and a condenser pipe are installed in the machine room, and an evaporator and a blast fan are installed at the rear of the freezer to circulate cold air generated from the refrigerant into the inside of the refrigerator for cooling and cooling. By expanding the refrigerant of the high temperature and high pressure by the operation of the compressor to the condenser and evaporator communicated through the refrigerant pipe by the operating pressure of the compressor to expand and evaporate the refrigerant in the refrigerant pipe. Through the interaction between the components to form a refrigerant cycle, the refrigerant circulated through the refrigerant pipe is operated to freeze and cool the inside of the refrigerator.

In the refrigerator as described above, as shown in FIG. 1, a plurality of coil capacitors 20 extending from the compressor 10 are wound in a quadrangular shape so as to have a hollow portion 21 so as to be adjacent to the compressor 10. And the hollow portion 21 has a structure in which the blowing fan 30 and the evaporation name 40 is installed.

In the heat radiation device of the refrigerator configured as described above, the coil capacitor 20 is radiated by the blower fan 30, and the defrost water collected in the evaporation name 40 is evaporated into the air by the heat of the coil capacitor 20 and at the same time the coil capacitor Since heat is evaporated by taking heat from the coil 20, the heat radiation of the coil capacitor 20 proceeds.

However, the heat dissipation device of the conventional refrigerator as described above has a long extension length of the coil capacitor 20, the material cost is increased, the volume of the coil capacitor 20 is large, occupies a large space of the machine room 50, thereby increasing the width of the machine room. The enlargement is a factor that enlarges the volume of the refrigerator relative to the performance of the refrigerator.

In addition, because the blower fan 30 is installed in the hollow portion 21 and the heat dissipation efficiency is lowered due to the loss of the blow amount generated by the blower fan, a structure capable of actively utilizing the airflow generated by the blower fan 30 is required. It is done.

The present invention has been made to solve the above problems, has the following objectives.

First, the object of the present invention is to provide a heat dissipation device of a refrigerator having an improved structure to reduce material cost by reducing a pipe extension length of a coil capacitor.

Second, the purpose of the present invention is to provide a heat dissipation device of a refrigerator having a reduced structure in order to reduce an unnecessary volume of the refrigerator by reducing the space occupied by the machine room occupied by the coil capacitor by reducing the volume of the coil capacitor.

Third, the heat dissipation device of the refrigerator in which the structure of the machine room where the coil condenser is installed is formed by a venturi tube to reduce the loss of air flow generated from the blower fan to improve heat dissipation efficiency. The purpose is to provide.

1 is a cross-sectional view schematically showing a machine room structure of a conventional refrigerator;

Figure 2 is a cross-sectional view showing the operating state of the heat radiation device of the present invention refrigerator;

3 is a cross-sectional view illustrating main parts of a heat dissipation device of a refrigerator of the present invention.

* Explanation of symbols for main parts of the drawings

100 machine room 110 top and bottom

120 Inner plate 140 Venturi tube

200 ... Compressor 300 ... coil condensor

400 ... blast fan

The heat dissipation device of the present invention refrigerator for achieving the above object is provided in the lower end of the refrigerator and the machine room consisting of the upper and lower plates, the side plate and the inner plate, the compressor and the coil capacitor and the refrigerant pipe provided in the machine room, the coil capacitor In the heat dissipation device of the refrigerator provided adjacent to and provided with a blowing fan for radiating the coil capacitor,

The upper and lower plates and the inner plate of the predetermined position of the machine room are formed in a double-sided surface to provide a venturi tube part, a coil capacitor is installed in the venturi tube part, and a blowing fan is installed at a position adjacent to the coil capacitor. It is done.

In addition, the venturi tube may be formed by combining a plurality of plates having convex surfaces at one end of the upper and lower plates and the inner plate of the machine room, respectively.

The heat dissipation device of the present invention refrigerator configured as described above may improve the heat dissipation effect of the coil capacitor installed in the venturi tube because the wind speed is increased by the blowing air generated by the blowing fan passing through the venturi tube by the principle of the Bernoulli equation. There is a feature that works.

Hereinafter, a heat dissipation device of a refrigerator according to 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 refrigerator is provided with a machine room 100 provided at a lower rear portion of the refrigerator and including a top and bottom plates 110, a side plate 130, and an inner plate 120. do.

In the machine room 100, a compressor 200 for compressing a refrigerant at a high temperature and high pressure, a coil condenser 300 extending from a compressor, and various refrigerant pipes 210 are installed, and the coil capacitor 300 is installed. Blowing fan (400) for radiating heat is installed adjacent to the coil capacitor (300).

In addition, the venturi tube 140 is formed by integrally forming the upper and lower plates 110 and the inner plate 120 of the predetermined positions of the machine room 100 where the coil condenser 300 is installed in a double-sided surface. The coil capacitor 300 is installed in the venturi tube part 140 and has a structure in which a blowing fan 400 is provided at a predetermined position of the machine room 100 adjacent to the coil capacitor 300.

Meanwhile, a plurality of plates 510 and 520 having convex surfaces are provided in plural to be coupled to one end of the upper and lower plates 110 and the inner plate 120 of the machine room 100 to form a venturi tube 140. In addition, a coil condenser 300 may be provided in the venturi tube 140.

The heat dissipation device of the present invention refrigerator configured as described above is operated so that the heat dissipation action is efficiently performed through the air blowing generated by the blast fan 400 in the coil capacitor 300 installed in the venturi tube part 140.

That is, the blowing air of the blowing fan 400 passing through the venturi tube part 140 operates to act on the heat dissipation of the coil capacitor 300 without losing the amount of blowing because the wind speed is increased by Bernoulli's theorem. do.

The heat dissipation device of the refrigerator according to the present invention configured as described above has the following advantages.

First, one end of the machine room 100, in which the pipe of the coil condenser 300 is installed, is formed with a convex surface on the inner plate 120 and the upper and lower plates 110, thereby forming a venturi tube. The loss of the blowing amount of the blast fan 400 is reduced, and when the blowing air passes through the venturi tube 140, the wind speed increases according to the Bernoulli's theorem, so that the blowing fan 400 The heat radiation efficiency is increased.

Second, as the volume of the coil condenser 300 is reduced according to the diameter in the venturi tube 140, the space of the machine room 100 occupied by the coil condenser 300 can be efficiently utilized. Not only the assembly work of 300 is easy, but the material cost is reduced.

On the other hand, the present invention as described above, of course, various modifications can be made without departing from the scope of the technical idea of the present invention.

Claims (2)

A refrigerator provided in the lower end of the refrigerator and having a machine room including an upper plate, a side plate and an inner plate, a compressor, a coil capacitor and a refrigerant pipe provided in the machine room, and a blowing fan provided adjacent to the coil capacitor to radiate the coil capacitor. In the radiator of The upper and lower plates and the inner plate of the predetermined position of the machine room are formed in a double-sided surface to provide a venturi tube part, a coil capacitor is installed in the venturi tube part, and a blowing fan is installed at a position adjacent to the coil capacitor. Radiator of refrigerator. The heat dissipation device of a refrigerator according to claim 1, wherein a venturi tube part is formed by combining a plurality of plates having convex surfaces at one end of the upper and lower plates and the inner plate of the machine room.