KR100569934B1 - Radiating apparatus of built-in refrigerator - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat dissipation device for a built-in refrigerator for improving heat dissipation for a condenser in a machine room of a refrigerator, in particular, a refrigerator installed in a built-in cabinet.

A heat dissipating device of a built-in refrigerator according to the present invention includes a refrigerator main body installed in a built-in cabinet; A machine room provided below the rear surface of the refrigerator main body and provided with a compressor, a condenser, and a blowing fan; A holder which is bent into an “L” shape and faces the machine room bottom surface to support the left / right ends of the condenser; A tray trip plate having a predetermined step to support the condenser and the blowing fan; And means for securing the holder to the bottom of the machine room.

Built-in, Refrigerator, Machine Room, Condenser, Heat Resistant

Description

Radiating apparatus of built-in refrigerator

1 is a perspective view showing an installation state of a conventional general built-in refrigerator.

2 is a side sectional view taken along the line A-A 'of FIG.

Figure 3 is an embodiment showing the structure of the machine room of a conventional built-in refrigerator.

Figure 4 is a perspective view showing a tray drip plate of a conventional conventional built-in refrigerator.

5 is a perspective view showing a condenser radiator in a built-in refrigerator according to an embodiment of the present invention.

6 is a coupled state of FIG.

<Description of Symbols for Main Parts of Drawings>

30 ... tray trip plate 31 ... fan support

32.Defrost water receiver 33 ... Base surface

34.Blowing fan 35 ... Condenser

36 ... holder 36a ... heat sink

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat dissipation device for a built-in refrigerator for improving heat dissipation for a condenser in a machine room of a refrigerator, in particular, a refrigerator installed in a built-in cabinet.

In general, a refrigerator is a device that is used for long-term storage of fresh food, and can be broadly divided into a main body having a food storage room for refrigerating and freezing food and a refrigeration cycle for dissipating the food storage room.

Since the refrigerator basically has a certain size, when the refrigerator is installed on one wall of a kitchen or living room, the refrigerator is seen as an outer shape protruding from the wall by the size thereof. There was a problem that the installation structure is not aesthetically good and its utilization is reduced in space.

As an example for solving this problem, as shown in FIG. 1, the refrigerator may be installed in the built-in cabinet 10 as one built-in furniture or installed in a sink.

The built-in refrigerator is divided into a machine room in which a main body is installed with a storage chamber and a refrigerant circulation device for maintaining the inside of the storage chamber at a low temperature. When the built-in refrigerator is installed, heat exchange is smoothly performed in a machine room where air flow is likely to be blocked due to the built-in structure, and a technology for more effectively dissipating heat generated has emerged as an important problem.

2 is a schematic configuration diagram showing a conventional built-in refrigerator.

Referring to FIG. 2, the refrigerator main body 11 installed in the built-in cabinet 10, the baseboard 14 installed in the lower part of the front surface, the machine room 15 provided on the rear surface of the refrigerator main body 11, and the refrigerator main body ( 11 is a heat dissipation passage consisting of a suction passage 18a communicated through the lower portion of the fingerboard 13 supporting the base plate 13 and the vent hole 14a of the base 14 and a discharge passage 18b located at the rear of the refrigerator body. It is composed.

A brief description of the built-in refrigerator as described above is as follows.

1 and 2, in the built-in cabinet 10, a refrigerator main body 11 is installed in a space provided as a built-in furniture, and the refrigerator main body 11 is provided with a front door panel 12 and a rear wall surface ( 17) located between the lower fingerboard 13 and the baseboard 13 and the upper cabinet. Here, the base 14 is installed to improve the appearance of the lower part of the built-in cabinet 10 and block the inflow of dirt.

In addition, a lower portion of the rear surface of the refrigerator main body 11 is provided with a machine chamber 15 protected by the back cover 16, and outside air is sucked in and discharged into the machine chamber 15, and a compressor, a condenser, and a blower fan are disposed therein. It is composed.

The built-in cabinet 10 generates heat dissipation passages 18a and 18b to effectively dissipate heat generated inside the machine room 15. The heat dissipation passage is divided into a suction passage 18a at the bottom of the refrigerator main body and a discharge passage 18b at the rear of the refrigerator main body.

Here, outside air flows into the vent hole 14a of the base plate 14 installed in the lower part of the front surface of the built-in sheet 10, and the introduced air is the fingerboard 13 and the bottom surface installed in the lower portion of the built-in sheet 10. It is discharged to the outside through the discharge flow path 18b between the refrigerator main body 11 and the wall surface 17 through the suction flow path 18a between.

In this structure, when the built-in refrigerator is operated, the compressor, the condenser, and the blowing fan provided in the machine room 15 installed at the lower rear side of the refrigerator main body 11 are operated. At this time, the air sucked through the suction flow path 18a located in the lower part of the refrigerator main body is guided inside the machine room and passes out through the discharge path at the rear of the refrigerator main body through the condenser and the blowing fan.

3 is a front view illustrating a machine room structure of a conventional built-in refrigerator.

Referring to FIG. 3, a compressor 15a on one side, a condenser 15b on the center, and a blower fan 15c on the other side are installed in the machine room 15 installed at the lower rear of the refrigerator main body, and a blower fan 15c may be installed. When activated, the outside air is sucked through the suction hole 16a of the back cover 16, and the air discharged by the blower fan 15c is heat exchanged with the condenser 15b and the compressor 15a, and then the back cover 16 It exits the discharge hole 16b of the).

At this time, the heat exchanged air inside the machine room 15 is discharged to the outside through the discharge passage 18b, and at the same time has a circulation process in which air is introduced through the suction passage 18a.

In addition, referring to FIG. 4 for the condenser 15b and the fan 15c supporting structure installed in the conventional refrigerator machine room 15, the condenser 15b and the fan 15c supporting structure installed in the machine room 15 are shown. The tray drip plate 20 has a wire-tube type condenser 15b for exchanging refrigerant, and a blower to more efficiently discharge heat from the wire-tube type condenser 15b to the outside. The fan 15c which functions is provided, respectively.

On the other hand, when fixing the conventional wire-tube type condenser 15b to the tray drip plate 20, first, the "L" shaped support plate 23 is fastened to both sides of the condenser 15b.

Subsequently, an adhesive (not shown) is applied to a surface forming the horizontal surface of the support plate 23, and then into the guide groove 22 of the flange 21 integrally formed in a bent structure at the upper end of the tray drip plate 20. The support plate 23 to which the condenser 15b is coupled is inserted and fixed.

That is, as the adhesive applied to the support plate 23 is dried while the support plate 23 is inserted into the guide groove 22 of the flange 21, the inner surface of the support plate 23 and the guide groove 22 are firmly adhered to each other. The fixing of the condenser 15b is completed. The fan 15c is also fixed to the tray drip plate 20 in the same manner as the wire-tube type condenser 15b.

In this way, the material of the tray drip plate 20 is an insulator in which heat conduction is not made, and can support vibration generated when the condenser 15b is operated. In addition, it is coupled to the structure receiving the defrost water generated from the evaporator through the inner groove (20a).

In order to improve the heat dissipation efficiency in the machine room 15, the heat dissipation of the condenser 15b is made only of the blower fan 15c and the condenser 15b itself of the machine room, and the condenser for heat dissipation of the larger condenser is performed. It is necessary to increase its heat transfer area or to improve the flow path structure. However, it is difficult to form an appropriate flow path in a narrow machine room such as a built-in refrigerator.

The present invention has been made to solve the above problems, by installing a member for increasing the heat conduction between the condenser and the bottom inside the machine room provided in the lower back of the built-in refrigerator, so as to improve the heat transfer area of the condenser The purpose is to provide a heat sink of a built-in refrigerator.

The heat dissipation device of the built-in refrigerator according to the present invention for achieving the above object,

A refrigerator body installed in a built-in cabinet;

A machine room provided below the rear surface of the refrigerator main body and provided with a compressor, a condenser, and a blowing fan;

A holder which is bent into an “L” shape and faces the machine room bottom surface to support the left / right ends of the condenser;

A tray trip plate having a predetermined step to support the condenser and the blowing fan;

And means for securing the holder to the bottom of the machine room.

Preferably, the holder is "L" shaped, characterized in that one side is supported so as to support both ends of the condenser and the other side is adhered to the machine room bottom surface is characterized in that it conducts the heat of the condenser.

Preferably, the tray trip plate has a fan support for supporting the blower fan to one side, a defrost water receiver receiving defrost water to the other side, the condenser is seated on the center, and the left / right holder contacts the machine room bottom surface. It characterized in that it comprises a base surface formed to be stepped with respect to the fan support.

Preferably, the holder is characterized in that the material having a predetermined rigidity and high thermal conductivity.

Here, the condenser is preferably characterized in that it is a screw fin heat exchanger (application number 10-1999-0002485).

Hereinafter, with reference to the accompanying drawings as follows.

Figure 5 is a perspective view showing a condenser radiator of the built-in refrigerator according to the present invention, Figure 6 is a combined state diagram.

Referring to FIG. 5, a condenser 35 is installed inside the machine room to condense the compressed refrigerant, a blower fan 34 facing the condenser 35 to cool the inside of the machine room, and the condenser 35. And a tray trip plate 30 for supporting the blower fan 34, and an “L” shaped holder 36 supporting both sides of the condenser 35 and being in surface contact with the bottom of the machine room. do.

Here, the holder 36 is made of a material having high thermal conductivity in order to conduct heat generated from the condenser 25b to the bottom surface.

The heat dissipation device of the built-in refrigerator according to the present invention configured as described above will be described with reference to the accompanying drawings.

First, the refrigerator main body installed in the built-in cabinet is provided with a machine room 15 at the bottom of the rear surface as shown in FIG. 3, in the machine room 15, a compressor 15a on one side and a condenser 15b and a blower fan 15c on the other side. ), A heat dissipation flow path is secured for cooling. In such a machine room, the compressor 15a is connected to an evaporator installed in the refrigerator and compresses the refrigerant, and the condenser 15b condenses the compressed refrigerant to be sent into the refrigerator. At this time, since heat is generated during the operation of the compressor 15a and the condenser 15b, the blower fan 15c for cooling the compressor 15a operates.

A heat dissipation device for supporting and dissipating such a condenser is shown in FIGS. 5 and 6.

5 and 6, the condenser 35 is of a fin-tube type, to which the holder 36 of the “L” shaped structure for supporting the condenser 35 is coupled. That is, the holder 36 is a structure further comprising a heat dissipation portion 36a which is bent from the flat plate holder and extended downward, and is a material of a metal system having a predetermined rigidity and high thermal conductivity, and may be installed in various shapes. have.

In addition, the tray trip plate 30 for supporting the condenser 35 and the blower fan 34 is installed to support the blower fan 34 by one fan support part 31 and the defrost water receiver 32 to the other side. Is installed. In addition, the pan support part 31 and the defrosting water receiver are formed on the center base surface 33 and are lower than the left / right side and have a width corresponding to the width of the condenser, and the height is as high as the protruding portion of the holder 36. 32) is formed integrally with.

In addition, the tray trip plate 30 has the condenser 35 seated on the center base surface 33. The condenser 35 is placed on the base surface 33 and then seated. The holder 36 on the left / right side of the base surface 33 is coupled to the left / right side in the form of interference fit.

At the same time, the heat radiating portion 36a of the holder 36 of the condenser 35 is in surface contact with the bottom of the machine room, and is fastened to the screw hole 38 formed in the bottom of the machine room as the screw 39 at the surface contacted part. The condenser 35 may be fixed to the tray trip plate and the machine room (not shown).

In this structure, when the built-in refrigerator is operated, the condenser 35 and the blower fan 34 inside the machine room also operate in accordance with the operation cycle, so that the heat generated from the condenser 35 is exchanged by the blower fan 34. And cooled.

However, due to the characteristics of the built-in refrigerator, the heat dissipation flow path inside the machine room is weak, so that the heat dissipation of the condenser 35 is limited, so that the heat generated in the condenser 35 is conducted through the holder 36.

In this case, the holder 36 may conduct heat conducted through the condenser 35 back to the machine room bottom surface through the heat dissipation unit 36a, thereby more effectively dissipating the condenser 35. That is, the structure of the holder 36 of the condenser 35 may be extended, and the entire bottom surface may be utilized as one condenser heat transfer area.

In addition, it is possible to receive the defrost water generated in the evaporator through the defrost water receiver 32 formed on one side of the tray trip plate 30.

As described above, the heat dissipation device of the built-in refrigerator according to the present invention heats the holder for supporting the condenser in the machine room installed under the rear surface of the built-in refrigerator and heat-contacts the surface of the machine room by the surface contact with the bottom of the machine room. By supporting the blower fan and the condenser with the trip plate, the heat generated from the condenser is conducted to the machine room bottom surface through the holder, thereby increasing the heat transfer area of the condenser.

Claims (4)

A refrigerator body installed in a built-in cabinet; A machine room provided below the rear surface of the refrigerator main body and provided with a compressor, a condenser, and a blowing fan; A holder made of a material which is bent in an "L" shape to face the machine room bottom surface to support the left and right ends of the condenser, and is made of a material having high rigidity and high thermal conductivity; A tray trip plate having a predetermined step to support the condenser and the blowing fan; And a means for fixing the holder to the bottom of the machine room. The method of claim 1, The holder is a "b" shape, the heat dissipation device of the built-in refrigerator, characterized in that one side is supported to support both ends of the condenser and the other side is attached to the bottom of the machine room to conduct the heat of the condenser. The method of claim 1, The tray trip plate has a fan support for supporting a blower fan on one side, a defrost water receiver receiving defrost water on the other side, the condenser is seated on a center, and the left / right holder is in contact with the machine room bottom surface. A heat dissipation device of a built-in refrigerator, characterized in that it comprises a base surface formed stepped with respect to the support. delete

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