KR100389431B1 - The structure of condencer cooling for refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator, and relates to a condenser cooling structure of a refrigerator for maintaining heat exchange efficiency of the refrigerator surrounded by a shield by forming a through hole in a protective cover installed at the bottom of the condenser.

The constitution of the present invention includes an air inlet 132 through which air is introduced into the machine room 102 by the blower fan 104, a condenser 112 that performs heat exchange with air introduced into the air inlet 132, The air discharged through the heat exchanger with the condenser 112 is discharged to the outside of the machine room 102 and the air discharged through the air discharge port 134 is installed in the lower portion of the condenser 112 It comprises a protective cover 112 "is provided with a through-hole 112" a for recycling to the condenser 112. According to such a configuration, even when the outside of the refrigerator is surrounded by the shield 120 and the air is not sucked smoothly through the air inlet 132 through the through (112 "a) of the protective cover 112" By sucking air toward the condenser 112, the cooling efficiency of the condenser 112 can be maintained.

Description

The structure of condencer cooling for refrigerator

The present invention relates to a refrigerator, and to a condenser cooling structure of a refrigerator which maintains cooling efficiency of the condenser by forming a through hole in a protective cover of the condenser.

The refrigerator is a device for keeping the storage compartment at a low temperature through a heat exchange cycle. The heat exchange cycle is largely composed of a compression process, a condensation process, an expansion process, and an evaporation process. Hereinafter, the present invention relates to a cooling structure for increasing the heat exchange efficiency of the condensation process. In addition, the present invention is applied when the condenser is installed on the bottom of the refrigerator.

Hereinafter, a configuration of a condenser cooling structure of a refrigerator according to the prior art will be described in detail with reference to the accompanying drawings.

1 is a front view schematically showing a machine room including a condenser cooling structure according to the prior art. As shown, it can be seen that the outside of the refrigerator is surrounded by the shield 20. In other words, by inserting the refrigerator into a space similar to the external shape, the outside of the refrigerator is surrounded by the shield 20.

And the machine room 2 is formed in the lower part of the refrigerator. Specifically, a space is formed at the lower rear side of the refrigerator, and some devices necessary for the heat exchange cycle are mounted in the space.

The compressor 6 and the blowing fan 4 are provided inside the machine room 2, and the condenser 12 is provided adjacent to the machine room 2. As shown in FIG. 1, the condenser 12 is installed inside the case 12 ′, and the lower part of the case 12 ′ protects the condenser 12 from external shocks. A protective cover 12 "for guiding air to the condenser 12 is provided.

2 is a plan view of FIG. 1. As shown, since the shield 20 surrounds the outside of the refrigerator, it can be seen that the rear surface of the refrigerator is close to one side of the shield 20. The compressor 6 and the blower fan 4 are installed in the rear of the machine room 2, and the condenser 12 is installed in front of the machine room 2.

In addition, an air inlet 32 through which air is introduced into the front of the condenser 12 is formed, and an air outlet 34 through which the inlet air is discharged is formed on a rear surface of the machine room 2. .

On the other hand, the cooling flow flowing by the blowing fan 4 is well shown in the drawing. The cooling flow is discharged to the rear of the refrigerator after contacting the compressor 6 in the rear of the machine room 2 via the condenser 12 in the front of the machine room (2).

3 is a right side view of FIG. 2. As shown, it can be seen that a predetermined space is formed between the bottom surface and the bottom surface 20a of the protective cover 12 ". On the drawing, the machine room 2 formed by the blowing fan 4 is shown. The flow of air inside is well shown, ie, the air discharged from the back of the machine room 2 flows through the space between the back of the refrigerator and the shield 20 and a part of the bottom and bottom of the protective cover 12 ". It shows well that it flows through the space formed between the surface (20a).

Hereinafter, the operation of the condenser cooling structure according to the prior art will be described in detail with reference to the accompanying drawings.

Air forcibly introduced into the inside of the machine room 2 through the blower passes through the condenser 12 and performs heat exchange with the refrigerant in the condenser 12. In other words, the high temperature and high pressure refrigerant is converted into a low temperature and high pressure refrigerant.

At this time, the heat exchange efficiency of the condenser 12 depends not only on the size of the surface area of the condenser 12 in contact with the air but also on the amount of air passing through the condenser 12. That is, the large amount of air passing through the condenser 12 per unit time is because it has the same meaning as the area of contact between the condenser 12 and the air becomes wider.

On the other hand, the air passing through the condenser 12 is directed to the compressor 6 installed at the rear of the blowing fan 4 to cool the compressor 6. Then, it is to be discharged to the rear of the machine room (2) through the air outlet (34).

However, according to the cooling structure of the conventional condenser, the following problems are raised.

That is, since the cross-sectional area of the air formed adjacent to the condenser 12 is formed at a minimum in consideration of the thermal efficiency of the condenser 12 as described above, a shield (at the rear of the machine room 2, that is, the rear of the refrigerator) 20) and the shield 20 is in close contact with the machine room 2, the air is not smoothly discharged through the back of the machine room (2).

Therefore, since the air is not discharged through the rear surface of the machine room 2, the flow of air in the machine room 2 is stagnant, which causes a problem that the heat exchange efficiency of the condenser 12 is lowered.

An object of the present invention for solving the above problems is to provide a condenser cooling structure of a refrigerator that can increase the heat exchange efficiency of the condenser by making the air flow in the machine room even if the back of the machine room is surrounded by a shield.

1 is a main front view of a refrigerator schematically showing a condenser cooling structure according to the related art.

2 is a plan view of main parts of a refrigerator schematically showing a condenser cooling structure according to the related art.

3 is a side view of main parts of a refrigerator schematically showing a condenser cooling structure according to the related art.

4 is a side view of main parts of a refrigerator schematically showing a condenser cooling structure according to the present invention;

5 is a plan view of main parts of the protective cover in the condenser cooling structure according to the present invention;

Explanation of symbols on the main parts of the drawings

102 .......... machine room 104 .......... blowing fan

106 .......... Compressor 112 .......... Condenser

112 "......... Protection Cover 112" a ........ Ventilation

132 .......... Air intake 134 .......... Air exhaust

f _i ........... air intake into the machine room f _e ..... air exhausted

f _r ........... recycled air

Therefore, a structural feature of the present invention for achieving the above object is an air inlet through which air is introduced into the machine room by a blower fan, a condenser for exchanging heat with air introduced into the air inlet, and the heat exchanger with the condenser. A protective cover having a through hole at a position corresponding to the condenser so that air is discharged to the outside of the machine room and installed at a lower portion of the condenser, and the air discharged through the air outlet is recycled to the condenser; It is configured to include.

According to this configuration, when the shield is formed in close contact with the air outlet, the air discharged through the air outlet is self-circulated back to the inside of the machine room, even though the air is not introduced through the air inlet. It is expected that the condenser can be cooled due to the circulated air.

Hereinafter, a constitution of a condenser cooling structure of a refrigerator according to the present invention will be described in detail with reference to a preferred embodiment shown in the drawings.

Figure 4 is a side view of the machine room schematically showing the condenser cooling structure according to the present invention, Figure 5 is a plan view showing in detail the protective cover in the condenser cooling structure. As shown, an air inlet 132 is formed in front of the machine room 102 to allow external air to flow into the inside of the machine room 102, and the air inlet 132 is located behind the machine room 102. An air outlet 134 through which air introduced through the air is discharged to the outside is formed.

However, the air intake 132 does not necessarily need to be installed in front of the machine room 102. That is, as long as the air introduced through the air inlet 132 can flow toward the condenser 112 to be described below, the installation position of the air inlet 132 can be modified in many other ways.

In addition, the machine room 102 is equipped with a compressor 106 for a heat exchange cycle of a refrigerator, and a blowing fan 104 generating a cooling flow adjacent to the compressor 106 to cool the compressor 106. It is installed.

In addition, a condenser 112 is installed in front of the blowing fan 104. The condenser 112 is a device that performs heat exchange between the refrigerant flowing therein and the air introduced through the air inlet 132. That is, the air flowing into the inside of the machine room 102 by the blowing fan 104 passes through the condenser 112 and performs heat exchange with the refrigerant flowing in the condenser 112.

On the other hand, the air passing through the condenser 112 is guided by a protective cover 112 " installed at the lower portion of the condenser 112. The protective cover 112 " A plurality of through holes 112 " a are formed at positions corresponding to the positions. The protective cover 112 " is installed at the lower portion of the condenser 112, and the air introduced through the air inlet 132 is provided. At the same time to guide the condenser 112 to the air passing through the condenser 112 toward the blowing fan 104. And, in the drawing (f _i ) is the air flow introduced through the air inlet 132, (f _e ) is the air flow discharged through the air outlet 134, (f _r ) is the air outlet The air discharged from 134 is again recycled toward the through hole 112 " a of the protective cover 112 ".

Hereinafter, the operation of the condenser cooling structure of the refrigerator according to the present invention will be described in detail with reference to a preferred embodiment shown in the drawings.

Air forcibly sucked through the air inlet 132 by the operation of the blower fan 104 is guided by the protective cover 112 "and flows toward the condenser 112. And the condenser 112 and The heat-exchanged air is directed to the compressor 106, and heat exchanged again with the compressor 106. Then, the air is discharged through the air outlet 134.

In this case, when the shield 120 is formed in close contact with the air outlet 134, that is, when the circumference of the refrigerator is surrounded by a wall, air is not smoothly discharged to the outside through the air outlet 134. As a result, the air may not be sucked smoothly through the air inlet 132. This is because the flow cross-sectional area of the air passing through the air inlet 132 is minimized in consideration of the heat exchange efficiency of the condenser 112.

In this case, air is raised toward the condenser 112 through the through hole 112 "a formed in the protective cover 112". That is, the air discharged to the air outlet 134 through the space formed between the lower surface and the bottom surface 120a of the protective cover 112 "is recycled to the condenser 112 through the through hole 112" a. It is. Therefore, even though the air is not sucked through the air inlet 132, a flow of air is generated in the condenser 112, and the flow of the air and the condenser 112 perform heat exchange, thereby increasing the heat exchange efficiency of the condenser 112. It can be.

On the other hand, when there is no shield 120 adjacent to the air outlet 134, the air flow is less formed through the through hole 112 "a of the protective cover 112" and the air outlet 134 By being smoothly discharged to the outside through the air inlet 132 is to be smoothly sucked air.

Within this technical scope of the present invention, many other modifications are possible to a person skilled in the art.

Therefore, according to the condenser cooling structure of the refrigerator according to the present invention, the following structural effects are expected.

That is, when the air discharged through the air discharge port is not smoothly discharged due to the shield surrounding the outside of the refrigerator, the air cannot be introduced into the condenser through the air intake port, and thus the air is discharged through the through hole formed in the protective cover. It is possible to cool the condenser by inhaling.

Therefore, even when the refrigerator is inserted into the shield, the effect of maintaining the cooling efficiency of the condenser is expected.

Claims (2)

An air inlet through which air is introduced into the machine room by a blowing fan; A condenser for exchanging heat with air introduced into the air inlet; An air outlet port through which the heat exchanged air with the condenser is discharged to the outside of the machine room; The condenser cooling structure of the refrigerator, which is installed below the condenser, and includes a protective cover having a through hole at a position corresponding to the condenser to recycle the air discharged through the air outlet to the condenser. delete