KR20090100772A - Refrigerator and cooling passage structure for machinery room thereof - Google Patents

Abstract

PURPOSE: A refrigerator and a machine room coolant path of the same are provided to minimize the flow resistance of the air by simplifying an air path. CONSTITUTION: A refrigerator comprises a machine room frame(20), a blower(46), a main case(10), and a cover of the machine room(30). The machine room frame forms a machine room(21). An opening is formed at the machine room. The opening makes the air induced to the machine room through an air inlet(31). A compressor(42) and a condenser(43) are equipped at the machine room. The blower blows the air to cool the machine room. The main case covers a part of the machine room frame. The air inlet is formed at the main case. The cover of the machine room covers the machine room.

Description

Refrigerator and cooling passage structure for machinery room

This embodiment relates to a refrigerator and its machine room cooling passage structure.

Generally, a refrigerator is a device that keeps food at a low temperature. The internal space of the refrigerator is largely composed of a storage room and a machine room. The storage compartment and the machine compartment are partitioned by a machine compartment frame.

The machine room is equipped with a compressor and a condenser. The machine room is provided with a fan for cooling the compressor and the condenser. And, the machine room cover is coupled to the rear side of the machine room frame, the base is coupled to the lower side of the machine room frame.

In addition, an air inlet and an air outlet are formed in the machine room cover to allow air to flow by the fan. Of course, an air inlet and an air outlet may also be formed in the base.

Therefore, when the fan is operated, outside air is introduced into the machine room through the air inlet, and the introduced air is discharged to the outside through the air outlet after cooling the condenser and the compressor.

An object of the present embodiment is to propose a refrigerator and its machine room cooling flow path structure that can increase the air volume of the air to cool the machine room more effectively.

Another object of the present embodiment is to propose a refrigerator and its machine room cooling flow path structure in which the flow path of increased air is simplified to minimize flow path resistance.

According to an aspect of the present disclosure, a refrigerator includes a machine room frame forming a machine room including a compressor and a condenser; A blowing device for blowing air for cooling the machine room; A main body case covering at least a portion of the machine room frame; And a machine room cover covering the machine room, wherein the main body case is formed with an air inlet through which air is introduced, and the machine room frame has an opening through which the air introduced through the air inlet is introduced into the machine room. It features.

According to another aspect of the present invention, there is provided a machine room cooling channel structure of a refrigerator including: a first channel configured to allow air to enter a machine room from one side of a refrigerator; And a second flow path for allowing air to flow into the machine room from the rear of the refrigerator.

According to the proposed embodiment, not only the air is introduced into the machine room through the machine room cover, but also the air flows into the machine room through the side case, so that the amount of air introduced into the machine room is increased to effectively cool the machine room. There is an advantage to this.

In addition, the air introduced through the side case flows in a substantially straight line until it is moved to the compressor side. Therefore, there is an advantage that the flow path of the air is simplified to minimize the flow resistance of the air.

Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a refrigerator showing a machine room according to the present embodiment.

1 shows a state where the machine room cover is separated.

Referring to FIG. 1, the refrigerator 1 according to the present exemplary embodiment includes a main body case 10 forming an outer shape of the refrigerator 1. In addition, the inside of the main body case 10 is provided with a machine room frame 20 for forming a machine room 21.

The machine room cover 30 for shielding the machine room 21 is coupled to the rear side of the machine room frame 20, and the base 41 is coupled to the bottom of the machine room frame 20. Thus, the machine room 21 is substantially formed by the machine room frame 20, the machine room cover 30, and the base 41.

In detail, the machine room 21 passes through a compressor 42 for compressing a refrigerant, a condenser 43 for condensing at low temperature by dissipating heat from the refrigerant compressed in the compressor 42, and the condenser 43. A capillary tube 44 is provided to allow a refrigerant to expand at low pressure, and a blower 46 is provided to allow air to flow to cool the machine chamber 21. The blower 46 includes a blower fan and a fan motor.

And, below the condenser 43 is provided with a defrost water receiver 45 for storing defrost water. In addition, a dryer 47 is provided between the condenser 43 and the capillary tube 44 based on the flow of the refrigerant to remove moisture or impurities from the liquid refrigerant passing through the condenser 43. .

In addition, the compressor 42, the condenser 43, and the blower 46 are installed in the base 40. In addition, although the air blower 46, the condenser 43, and the compressor 41 are arranged in the machine room 21 based on the flow direction of the air, the present invention is not limited thereto.

Meanwhile, the main body case 130 includes a pair of side cases and a rear case. In addition, a plurality of air inlets 13 are formed in the side case 11 adjacent to the blower 46 among the side cases. Therefore, when the blower 46 is operated, external air is introduced through the air inlet 13 and penetrates the machine room frame 20 into the machine room 21. The flow of air introduced through the air inlet 13 will be described later.

In the following description, it is noted that "side case" means a side case adjacent to the blower 46 among a pair of side cases.

In addition, the machine room cover 30 may be fastened to the machine room frame 20 by, for example, a screw. In addition, the machine room cover 30 is provided with a plurality of air inlets 31 through which air is introduced and a plurality of air outlets 32 through which air cooled by the machine room 21 is discharged.

Here, the air inlet 13 formed in the side case 11 may be referred to as a first air inlet, and the air inlet 31 formed in the machine room cover may be referred to as a second air inlet.

2 is a perspective view of the machine room frame according to the present embodiment, and FIG. 3 is a cross-sectional view taken along the line A-A of FIG. 1.

Referring to FIG. 2, a partition part 211 partitioning the machine room 21 and the storage compartment, a pair of side parts 212 and 213 extending rearward from both sides of the partition part 211, and the partition part An upper surface portion 216 extends from the upper side of the portion 211 toward the rear, and a bottom surface portion 217 extending downward from the lower portion of the partition 211.

Here, in the description of the machine room frame 20, "front" means the direction in which the door of the refrigerator is formed based on the partition 211, "rear" means the opposite direction of "front".

In detail, the pair of side portions 212 and 213 include a first side portion 212 and a second side portion 213. In addition, coupling ends 215 for coupling with the machine room cover 30 extend in the lateral direction to each of the side parts 212 and 214.

Hereinafter, the first side portion 212 is described with an example adjacent to the side case (11).

The first side part 212 and the side case 212 are spaced apart at regular intervals, and a space S is formed between the first side part 212 and the side case 212.

In addition, a plurality of openings 213 are formed in the first side portion 212 at least in the vertical direction. At this time, the opening is formed at a position corresponding to the first air inlet in order to minimize the flow resistance of the air introduced through the first air inlet 13.

That is, the opening 213 is at least partially aligned with (facing) the first air inlet 13. The heights of the plurality of openings 213 may be the same as the heights of the plurality of first air inlets 13.

The total flow path area of the plurality of openings 213 may be formed to be the same as the total flow path area of the plurality of first air inlets 13.

Here, the at least a part of the opening 213 is aligned with the first air inlet 13, indicating that at least a part of the air passing through the first air inlet 13 passes linearly through the opening 213. it means.

Of course, in terms of the flow of air, when the size of the opening 213 and the size of the first air inlet 13 are different, all of the openings 213 are aligned with a part of the first air inlet 13. Alternatively, all of the first air inlets 13 may be aligned with all of the openings 213.

Hereinafter, the air flow by the blower will be described.

4 is a perspective view showing the flow of air for cooling the machine room according to the present embodiment.

Referring to FIG. 4, when the blower 46 is operated, external air is introduced through the first air inlet 13 and the second air inlet 32. The air introduced through the first air inlet 13 passes through the space S and passes through the opening 213 to be introduced into the machine room 21. Accordingly, the first air inlet 13, the space part and the opening 213 provide a first flow path 51 through which air enters the machine room 21 from the side of the refrigerator.

On the other hand, the outside air is introduced directly into the machine room 21 through the second air inlet (31). Accordingly, the second air inlet 31 provides a second flow path 52 through which air enters the machine room 21 from the rear of the refrigerator. The air flowing through the first flow passage 51 and the second flow passage 52 is combined in the machine room 21. The combined air is sequentially cooled by the condenser 43 and the compressor 42 via the blower 146, and then discharged to the outside through the air outlet 32.

At this time, the air introduced through the side case flows in a substantially straight line until it is moved to the compressor side. Therefore, there is an advantage that the flow path of the air is simplified to minimize the flow resistance of the air.

According to the present embodiment as described above, not only the air flows into the machine room through the machine room cover, but also the air flows into the machine room through the side case, so that the amount of air introduced into the machine room is increased to effectively the machine room. There is an advantage that can be cooled.

1 is a perspective view of a refrigerator showing a machine room according to the present embodiment.

2 is a perspective view of the machine room frame according to the present embodiment, Figure 3 is a cross-sectional view taken along the line A-A of FIG.

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a perspective view showing the flow of air for cooling the machine room according to the present embodiment.

Claims (9)

A machine room frame forming a machine room including a compressor and a condenser; A blowing device for blowing air for cooling the machine room; A main body case covering at least a portion of the machine room frame; And A machine room cover for covering the machine room is included, The main body case is formed with an air inlet through which air is introduced, And a opening formed in the machine room frame to allow air introduced through the air inlet to enter the machine room. The method of claim 1, The main body case includes a side case covering the side of the machine room frame, The air inlet is formed in the side case refrigerator. The method of claim 2, The machine room frame includes a side portion adjacent to the side case, The opening is formed in the side portion. The method of claim 1, At least a portion of the opening is aligned with the air inlet. The method of claim 1, The opening and the air inlet is formed on the same height relative to the bottom surface. A first flow path through which air enters the machine room from one side of the refrigerator; And The machine room cooling flow path structure of the refrigerator including a second flow path for allowing air to flow into the machine room from the rear of the refrigerator. The method of claim 6, The air flow into the machine room through the first flow path and the second flow path is a machine room cooling flow path structure of the refrigerator is combined at the blower side. The method of claim 6, The first flow path is a machine room cooling flow path structure of a refrigerator passing through the machine room frame forming the machine room and the side case covering the machine room frame side. The method of claim 6, Part of the air on the first flow path of the machine room cooling passage structure of the refrigerator in a linear flow.

Images