KR20100018726A - A refrigerator - Google Patents

Abstract

PURPOSE: A refrigerator with a machine room cover is provided to improve the efficiency of the cooling cycle by mounting a machine room cover which enlarges the flow area of the air. CONSTITUTION: A refrigerator comprises a machine room cover(60), an air inlet(63), a discharge unit, and a flow path extension unit. The machine room cover covers the opened front side of a machine room(20). The air inlet is formed on the machine room cover and the air flows in the inside of the machine room. The discharge unit is formed on the other side of the air inlet, and the air is discharged to outside of the machine room. The flow path extension expands the flow area of the air about the air inlet and the discharge unit. The flow path extension is respectively installed on the edge of the machine room cover. The flow path extension is formed by cutting out the edge of the machine room cover.

Description

Refrigerator {A Refrigerator}

The present invention relates to a refrigerator, and more particularly, to a refrigerator having a machine room cover capable of improving cooling performance for a compressor and a condenser that generate heat inside the machine room.

In general, a refrigerator includes a main body and a storage compartment formed inside the main body to store food. The storage compartment may be divided into a freezing compartment and a refrigerating compartment, and a door for opening and closing the freezing compartment and the refrigerating compartment, respectively, is installed at the front of the main body. In addition, the main body is provided with a machine room equipped with components for performing a refrigeration cycle, such as a compressor and a condenser, to supply cold air to the freezer compartment and the refrigerating compartment.

1 is a partially exploded perspective view of a machine room region of a refrigerator. As shown in FIG. 1, the machine room 120 is provided in a lower rear region of the main body 110. In the machine room 120, a compressor 130 compresses a refrigerant, a condenser 140 condensing the refrigerant compressed by the compressor 130, and a temperature is generated due to the heat generated by the compressor 130 and the condenser 140. Blowing fan 150 for cooling the inside of the elevated machine room 120 is installed.

In the machine room 120, a drain pipe (not shown) for discharging defrost water generated from an evaporator (not shown) and water generated in a storage chamber, and a tray (not shown) for defrost water and moisture discharged from the drain pipe are provided. Is installed.

In addition, the machine room 120 is provided with a bottom plate 170 forming a bottom such that the compressor 130, the condenser 140, and the blowing fan 150 are placed thereon. The bottom plate 170 is formed of a rectangular plate. Intake holes (not shown) and discharge holes (not shown) are formed at both sides of the edge of the bottom plate 170, that is, the regions where the compressor 130 and the blower fan 150 are placed to allow air to pass therethrough. .

On the other hand, the front surface of the machine room 120 is covered by the machine room cover 160. A bolt hole 165 is formed in the machine room cover 160 and coupled to the main body 110 through the bolt 168. The machine room cover 160 includes an intake unit 163 through which air is introduced into the machine room 120, and a discharge unit 167 through which hot air inside the machine room 120 is discharged to the outside.

Here, the intake unit 163 is disposed at the position where the blowing fan 150 is installed, and the discharge unit 167 is disposed at the position where the compressor 130 is installed.

The refrigerator having such a configuration generates heat while the compressor 130 and the condenser 140 installed in the machine room 120 repeat the refrigeration cycle, so that the air inside the machine room 120 increases in temperature.

At this time, the blowing fan 150 rotates to cool the overheated compressor 130 and the condenser 140. When the blowing fan 150 rotates, outside air flows into the machine room 120 through the intake hole 163 formed in the machine room cover 160 and the intake hole formed in the bottom plate 170, and the machine room cover 160. The hot air inside the machine chamber 120 is discharged to the outside through the discharge hole 167 formed in the discharge plate 167 and the discharge hole formed in the bottom plate 170.

However, the air flowing into the machine room 120 and the air discharged to the outside of the machine room 120 may generate flow resistance in each region, making it difficult to efficiently cool the compressor and the condenser. Therefore, since the temperature of the compressor and the condenser increases inside the machine room, the efficiency of the refrigeration cycle may be lowered.

Accordingly, it is an object of the present invention to provide a refrigerator capable of increasing the heat dissipation efficiency of a compressor and a condenser in a machine room and reducing power consumption.

In order to achieve the above object, the present invention provides a machine room cover that covers a machine room with a front opening; An air intake unit formed in the machine room cover and introducing air into the machine room; A discharge part formed at the other side of the intake part and discharging air to the outside of the machine room; And it provides a refrigerator including a flow path expansion portion provided in the machine room cover to expand the flow area of the air to the intake and discharge portion.

The flow path expansion part may be provided at each of the edges of the machine room cover which is outside of the intake part and the discharge part.

The flow path expansion part may be an opening formed by cutting an edge of the machine room cover.

The flow path expansion part may include an intake expansion hole provided below the intake part and a discharge expansion hole provided above the discharge part.

The flow path expansion part may further include a mesh network.

In addition, in order to achieve the above object, the present invention is the front of the machine room is opened and the blowing fan and the compressor is installed; A machine room cover covering the front surface; An air intake unit formed at a machine room cover at a location where the blower fan is installed and air is introduced into the machine room; A discharge part formed in a machine room cover at a position where the compressor is installed, and in which air is discharged to the outside of the intake part and the machine room; And it may include a refrigerator including an intake expansion hole provided on the outside of the intake portion, the discharge expansion hole provided on the outside of the discharge portion and including an opening for expanding the flow area of the air to the intake portion and the discharge portion. .

Since the refrigerator according to the present invention described above has a machine room cover for expanding the flow area of air, the efficiency of the refrigeration cycle of the refrigerator can be improved by increasing the heat radiation efficiency of the compressor and the condenser mounted inside the machine room, and the power consumption of the refrigerator. Can be reduced.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention that can specifically realize the above object will be described.

Figure 2a is a rear perspective view of the refrigerator according to the first embodiment of the present invention, Figure 2b is a front view of the machine room cover of Figure 2a.

As shown in FIG. 2, the refrigerator according to the first embodiment of the present invention may include a machine room 20 having a front surface opened and a machine room cover 60 covering the machine room 20.

The machine room 20 is provided in the lower rear region of the main body 10. In the machine room 20, the compressor 30 compresses the refrigerant, the condenser 40 condensing the refrigerant compressed by the compressor 30, and the temperature of the compressor 30 due to the heat generated by the compressor 30 and the condenser 40. Blowing fan 50 for cooling the inside of the elevated machine room 20 may be installed in a left to right direction in order.

In the machine room 20, a drain pipe (not shown) for discharging defrost water generated from an evaporator (not shown) and water generated in a storage chamber, and a tray (not shown) for defrost water and moisture discharged from the drain pipe are provided. Is installed.

The bottom of the machine room 20 is equipped with a bottom plate 70 on which the compressor 30, the condenser 40, the blowing fan 50, and the like are placed. The bottom plate 70 is made of a plate of rectangular shape. Intake holes (not shown) and discharge holes (not shown) are formed at both sides of the edge of the bottom plate 70, that is, in the areas where the compressor 30 and the blowing fan 50 are placed, so that air can pass therethrough. .

The machine room cover 60 may be formed of a plate of a rectangular shape. A plurality of bolt holes 65 are formed in the edge region of the machine room cover 60 to allow the machine room cover 60 to be coupled to the body 10 through the bolts 68.

One side of the machine room cover 60 is formed with an intake portion 63 for introducing air into the machine room 20. In the present embodiment, the intake portion 63 is formed in the right region of the machine room cover 60, and is configured in a form in which a plurality of vertically long holes are formed to form two rows.

The other side of the machine room cover 60 is formed with a discharge portion 67 to discharge the air to the outside of the machine room 20. In the present embodiment, the discharge portion 67 is formed in the left region of the machine room cover 60, and is configured in such a manner that a plurality of long holes formed horizontally are formed to form two rows.

On the other hand, the machine room cover 60 is formed with flow path expansion sections 81 and 83 for expanding the flow area of air to the intake section 63 and the discharge section 67. In the present embodiment, the flow path expansion portions are provided at the edges of the machine room cover 60 that are outside the intake portion 63 and the discharge portion 67, respectively.

That is, the flow path expansion part is formed at the left edge of the machine room cover 20 so as to be adjacent to the intake part expansion hole 81 formed at the right edge of the machine room cover 20 so as to be adjacent to the intake part 63 and the discharge part 67. It may be formed of the discharge portion expansion hole 83 formed.

In the present embodiment, the intake part expansion hole 81 and the discharge part expansion hole 83 are each formed of an opening formed by cutting the left and right edges of the machine room cover 60.

Since the flow path expansion portion expands the flow area of air for the intake portion 63 and the discharge portion 67, more air can be introduced into the machine chamber 20, and more air is introduced into the machine chamber 20. It can be discharged to the outside.

Therefore, the heat dissipation efficiency of the compressor 30 and the condenser 40 mounted in the machine room 20 may be increased to improve the efficiency of the refrigeration cycle of the refrigerator and to reduce power consumption of the refrigerator.

3 is a front view of a machine room cover according to a second embodiment of the present invention.

In the present embodiment, only parts different from the above-described embodiment will be described.

In this embodiment, the flow path expansion part includes an intake part expansion hole 81a and an outlet part expansion hole 83a each formed of an opening formed perpendicularly to the left and right edge regions of the machine room cover 60.

The intake part expansion hole 81a is formed on the right side of the intake part 63, and the discharge part expansion hole 83a is formed on the left side of the discharge part 67.

FIG. 4 is a front view of the machine room cover according to the third embodiment of the present invention. In this embodiment, only portions different from the above-described embodiment will be described.

In this embodiment, the flow path expansion portion includes an intake expansion hole 81b provided below the intake portion 63 and a discharge expansion hole 83b provided above the discharge portion 67.

Therefore, the cool air flows into the intake expansion hole 81b to be supplied to the inside of the machine room 20, and the hot air can be smoothly discharged to the discharge expansion hole 83b.

FIG. 5 is a front view of the machine room cover according to the fourth embodiment of the present invention. In this embodiment, only portions different from the above-described embodiment will be described.

In the present embodiment, the flow path expansion part is formed in a mesh shape, and unlike the above-described embodiment, the intake expansion hole 81c is formed on the right side of the machine room cover 60 to include the intake part.

And the discharge expansion hole (83c) is formed on the left side of the machine room cover 60 to include the discharge portion.

As such, when the flow path extension part is implemented in the form of a mesh, it is possible not only to block foreign matters when air flows into and out of the machine room, but also to allow a balanced flow of air in and out of all areas of the flow path extension part.

Hereinafter, a preferred embodiment of the present invention with reference to the drawings, but the scope of the present invention is not limited thereto.

In the fourth embodiment described above, the flow path expansion part is formed in a mesh form, but in the first to third embodiments, the flow path expansion part also includes a mesh network so that foreign matter does not flow into the machine room from the outside of the machine room. You can do it.

As such, the present invention is not limited to the above-described embodiments, and can be modified by those skilled in the art without departing from the spirit of the present invention, and such modifications will fall within the scope of the present invention.

1 is an exploded perspective view of the rear part of a typical refrigerator.

2A is a rear perspective view of the refrigerator according to the first embodiment of the present invention.

FIG. 2B is a front view of the machine room cover of FIG. 2A; FIG.

3 is a front view of a machine room cover according to a second embodiment of the present invention.

4 is a front view of a machine room cover according to a third embodiment of the present invention.

5 is a front view of a machine room cover according to a fourth embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: main body 20: machine room

30: compressor 40: condenser

50: blower fan 60: machine room cover

61 cover body 63: intake portion

65 discharge part 67 bolt hole

70: machine room bottom plate 80: euro expansion unit

81: intake expansion hole 83: discharge expansion hole

Claims (6)

A machine room cover covering a machine room with a front surface opened; An air intake unit formed in the machine room cover and introducing air into the machine room; A discharge part formed at the other side of the intake part and discharging air to the outside of the machine room; And And a flow path expansion part provided in the machine room cover to expand a flow area of air to the intake and discharge parts. The method of claim 1, And the flow path expansion part is provided at each of the edges of the machine room cover which is outside of the intake part and the discharge part. The method according to claim 1 or 2, The passage expansion unit And an opening formed by cutting an edge of the machine room cover. The method of claim 1, The passage expansion unit An intake expansion hole provided under the intake unit; And a discharge expansion hole provided above the discharge unit. The method according to any one of claims 1, 2 and 4, The flow passage expansion unit further comprises a mesh (mesh). A machine room with a front opening and a blower fan and a compressor installed therein; A machine room cover covering the front surface; An air intake unit formed at a machine room cover at a location where the blower fan is installed and air is introduced into the machine room; A discharge part formed in a machine room cover at a position where the compressor is installed, and in which air is discharged to the outside of the intake part and the machine room; And And an opening configured to expand an air flow area of the intake unit and the discharge unit, including an intake expansion hole provided outside the intake unit and a discharge expansion hole provided outside the discharge unit.

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