KR20180036669A - A refrigerator including a machine room having a pass-through part - Google Patents

Abstract

The present invention relates to a refrigerator. More specifically, the present invention relates to the refrigerator having a plurality of communication holes and communication units through which air can pass so as to smoothly perform heat radiation of inner components of a machinery room. To this end, the present invention comprises: a main body having a storage room; the machinery room disposed in the main body; and the communication units disposed on both side surfaces of the machinery room to enable the air to pass therethrough.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a refrigerator including a machine room having a communication part,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a refrigerator, and more particularly, to a refrigerator having a plurality of communicating portions through which air is passed so as to smoothly radiate heat inside the machine room.

A refrigerator is a household appliance that performs refrigeration or refrigerated storage of a stored product using a refrigerant cycle.

A typical configuration of a refrigerator includes a main body having a storage chamber and a door for opening and closing the storage chamber. The main body includes a machine room in which a compressor, a condenser, and a condensing fan are accommodated.

In the case of a machine room, it may be disposed on the rear side of the lower portion of the main body, or may be disposed on the upper portion of the main body.

The flow of refrigerant for freezing or refrigeration operation is as follows. The refrigerant is compressed by the compressor, the compressed refrigerant is condensed by the condenser, expanded by an expansion device such as a capillary, and expanded. The refrigerant whose temperature has dropped is moved to the evaporator which is disposed adjacent to the storage chamber and evaporated.

Cooled cool air having been heat-exchanged with the evaporator flows into the storage chamber, so that refrigeration or freezing operation becomes possible.

However, since the temperature inside the machine room remarkably increases due to the operation of the compressor or the heat radiation of the condenser, a heat dissipation structure inside the machine room is required.

In the conventional refrigerator, a communication hole is formed on the rear surface, the front surface, or the bottom surface of the machine room to dissipate heat in the machine room. However, such a heat dissipation structure also has a problem that heat dissipation inside the machine room is not smooth.

An object of the present invention is to provide a refrigerator which can smoothly radiate heat inside a machine room.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein,

A machine room provided in the main body; And a communication portion provided on both side surfaces of the machine room to allow air to communicate therewith.

Wherein the machine room is provided at a rear lower portion of the main body,

A compressor, a condenser, and a condensing fan are provided in the machine room,

Wherein the communicating portion comprises:

A first communicating part provided at one side of the machine room and adjacent to the condensing fan, and a second communicating part provided adjacent to the compressor.

Wherein the communication unit comprises: an opening formed on both sides of the machine room;

And a communication grill portion provided in the opening,

The communication grill portion includes a frame portion contacting a rim of the opening;

A plurality of ribs arranged to be surrounded by the frame portion and spaced apart from each other; And a plurality of communication holes partitioned by the plurality of ribs.

The ribs are arranged to be inclined downward from the inside of the machine room toward the outside so that the inside of the machine room is not exposed to the outside.

An insertion hole provided around the opening;

And a locking piece provided on the inner surface of the communication grill portion and inserted into the insertion hole and slidably moved along the rim of the opening so as to be engaged with the rim.

And an engaging groove provided on the upper portion of the communication grill portion and fitted into the upper edge of the opening.

A first support portion provided at one side of the coupling groove to be in contact with an outer edge of the opening; And a second support portion provided on the other side of the coupling groove and spaced apart from the first support piece so as to be in contact with an inner edge of the opening,

And the second support portion is provided with a guide slope portion for guiding the engagement between the engagement groove and the rim of the opening.

The rim of the first and second support portions and the opening may be coupled by a fastening member,

A first fastening hole provided in the first supporting portion to fasten the fastening member, a second fastening hole provided in the second supporting portion, and a third fastening hole provided in the rim of the opening, And a fixing part which is connected to the second fastening hole at one side thereof and to which the fastening member is inserted and fixed.

Wherein the condensing fan is provided as an axial flow fan,

And the first communication portion and the second communication portion are disposed on an extension of the rotation axis of the condensing fan.

According to another aspect of the present invention,

A machine room in which a compressor, a condenser, and a condensing fan are installed;

And a machine room cover covering the machine room,

The air introduced into the machine room flows through the bottom surface of the machine room, the cover of the machine room, and the side surface of the machine room, and the air discharged from the machine room is discharged through the machine room floor, the machine room cover, .

Since the heat radiating structure is provided on the rear surface of the machine room or on the side surface other than the bottom surface, the amount of air flowing is increased, and the heat radiation inside the machine room is more effectively achieved.

Particularly, in the case of the communication part on the side of the machine room, since the flow path of the air determined by the communication part and the condensing fan is linear, the flow loss of the air can be minimized.

When the heat radiation inside the machine room is effectively carried out, the condensation temperature can be remarkably lowered compared to the past, so that the cycle effect is enhanced and the power consumption can be reduced.

On the other hand, since the ribs constituting the communicating portion are arranged in an oblique line, the inside of the machine room is not seen from the outside, which is advantageous in appearance.

1 is a perspective view of a refrigerator according to the present invention
2A is a front view of the inside of a machine room according to the present invention.
2B is a front view of the machine room cover according to the present invention.
3 is a perspective view showing the communication grill unit according to the present invention mounted on a side surface of the main body.
4 is an exploded perspective view showing the communication grill portion according to the present invention mounted on a side surface of the main body.
FIG. 5 is a sectional view showing the top of the communication grill part and the upper rim of the open mouth according to the present invention.
6A and 6B are side cross-sectional views illustrating a process of mounting the upper rim of the upper portion of the communication grill portion and the open mouth according to the present invention.
7 is a front view showing that air is introduced into and discharged from the machine room according to the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1, the refrigerator according to the present invention includes a main body 1 having a storage chamber and a machine room 10 provided in the main body 1. As shown in FIG.

1, the machine room 10 is provided at the rear lower portion of the main body 1. However, the machine room 10 is not limited thereto.

A compressor 20 for compressing the refrigerant, a condenser 30 for condensing the compressed refrigerant, a condenser 30 for supplying air in the direction of the condenser, 30 for radiating heat to the outside.

Here, the condensing fan 40 is preferably an axial flow fan, but the present invention is not limited thereto.

The machine room 10 is covered by a machine room cover 50 which is selectively mounted on the rear lower portion of the main body 10 to prevent the internal configuration of the machine room 10 from being exposed to the outside .

A communication hole 11 through which air flows in and out is provided in the lower portion of the machine room 10. A communication hole 51 is also provided in the machine room cover 50 to guide the flow of air.

Here, the communication holes 11 formed on the bottom surface of the machine room 10 are respectively provided below the compressor 20 and the condensing fan 40.

The communication holes 51 provided in the machine room cover 50 are also provided adjacent to the condenser 30 and the compressor 20, respectively.

Accordingly, when the condensing fan 40 operates, air flows through the communication holes 11 and 51. [

The communication holes 11 and 51 are provided in the bottom surface of the machine room 10 and the machine room cover 50 so that air is introduced from below the machine room 10 and from the machine room cover 50 direction.

Due to the operation of the condensing fan 40, the introduced air circulates through the condenser 40 and the compressor 20 to cool them, so that the communication holes 51 and 52, which are provided in the machine room cover 50, And passes through the communication hole 11 provided in the lower portion of the compressor 20, and is discharged to the outside.

The present invention also includes a communication part 100 disposed on both sides of the machine room 10 in addition to the communication holes described above.

The communication unit 100 includes an opening 110 formed on both sides of a casing of the main body 10 and a communication grill unit 120 mounted on the opening 110.

2, a communication hole provided at the bottom of the machine room 10 is defined as a lower communication hole 11, and a communication hole provided at a lower portion of the condensation fan 40 is defined as a first lower communication hole 11, Hole 11a, and the communication hole provided in the lower portion of the compressor 20 will be referred to as a second lower communication hole 11b.

A partition member 70 is provided under the bottom of the machine room 10. The partition member 70 is provided between the first lower communication hole 11a and the second lower communication hole 11b.

Air flows into the first lower communication hole 11b and flows through the condensing fan 40, the condenser 30 and the compressor 20 in sequence, And is discharged to the second lower communication hole 11b.

However, in the absence of the partition member 70, the hot air discharged from the second lower communication hole 11b can be directly introduced into the first lower communication hole 11a. As a result, There is a problem.

Therefore, it is possible to prevent the high-temperature air discharged from the first lower communication hole 11a from being directly introduced into the first lower communication hole 11a by the partition member 70.

2 (b), the communication hole provided in the machine room cover 50 is referred to as a cover communication hole 51, and a cover communication hole 51 provided adjacent to the condensation fan 40, And the cover communication hole provided adjacent to the compressor 20 is referred to as a second cover communication hole 51b.

When the condensing fan 40 operates in this state, air flows into the first cover communicating hole 51a and the condensing fan 40, the condenser (see FIG. 2A), the compressor 20 And is discharged to the second cover communication hole 51b to perform the heat radiation function.

As shown in FIGS. 2 (a) and 2 (b), the communicating part 100 is divided into a first communicating part 1100 and a second communicating part 2100. The first communicating part 1100 Is disposed adjacent to the condensing fan (40), and the second communication portion (2100) is disposed adjacent to the compressor (40).

The first communicating part 1100 and the second communicating part 2100 are disposed on an extension line L of the rotary shaft 41 of the condensing fan 40 constituted by an axial flow fan.

Therefore, the air flow path formed by the condensing fan 40 has a straight line shape leading to the first communicating part 1100, the condensing fan 40, and the second communicating part 2100.

When the condensing fan 40 operates, the first communicating part 1100 is an inlet part through which air flows, and the second communicating part 2100 is a discharging part through which air is discharged.

In this configuration, when the condensing fan 40 operates, air flows in through the first lower communicating hole 11a, the first cover communicating hole 51a, and the first communicating portion 1100 do.

The air thus introduced cools the refrigerant while exchanging heat with the condenser 30 and the compressor 20 to cool the second lower communicating hole 11b, the second cover communicating hole 51b, and the second communicating portion 2100).

Fig. 3 shows the communication part 100 according to the present invention.

The communication part 100 includes an opening 110 provided on a side surface of the main body and a communication grill part 120 mounted on the opening 110.

The communication grill part 120 includes a frame part 121 to be brought into contact with the rim of the opening 110 and a rib 122 which is surrounded by the frame part 121 and forms a plurality of communication holes 122 123).

The ribs 123 are provided in a plurality of vertical ribs 123a and vertical ribs 123b perpendicular to the vertical ribs 123a.

A space is formed between the horizontal ribs 123b and the horizontal ribs 123b and between the vertical ribs 123a and the vertical ribs 123a and the vertical ribs 123a and the horizontal ribs 123b The communication hole 124 is formed in the communication grill part 120 to allow air to flow in and out.

Here, the horizontal ribs 123b of the ribs are preferably arranged to be inclined downward in the outward direction from the inside of the machine room (see FIG. 1)

The reason why the horizontal ribs 123b are arranged in this manner is to prevent the inside of the machine room from being visible outside the machine room.

The communication grill part 120 is fixed to the side surface of the main body by a fastening member 200 such as a screw. To this end, the frame part 121 of the communication grill part 120 and the fastening member 200 are inserted.

Therefore, the fastening member 200 is fastened through the fastening hole 130, so that the communication grill part 120 can be fixed to the rim of the opening 110.

4 shows a state in which the communication grill part 120 is mounted on the opening 110. FIG.

The opening 110 further includes an insertion hole 111 extending to both sides of the periphery, i.e., the periphery of the opening.

On the other hand, a locking piece 130 inserted into the insertion hole 111 is provided on the rear or inner surface of the communication grill part 120.

It is preferable that the insertion holes 111 are spaced apart from each other in the vertical direction along the opening opening 110 and that the locking pieces 130 are also arranged in accordance with the positions and the number of the insertion holes 111.

When the assembler attaches the communication grill part 120 in the direction of the opening 110 from the side of the main body 1, the engaging piece 130 is inserted into the insertion hole 111, The communication grill portion 120 is lowered.

Then, the latching piece 130 moves to the lower portion of the insertion hole 111, and engages with the rim 112 of the opening.

At this time, the lower end of the latching piece 130 provided at the lowermost part of the latching piece 130 comes into contact with the lower edge 112a of the opening opening 110, so that the downward movement of the communication grill part 120 is restricted

Since the engaging piece 130 is provided in the shape of a letter 'C', it can be caught by the rim portion 112 of the opening 110, so that the communication grill portion 120 is detached outward .

FIG. 5 illustrates the upper edge 112b of the opening 110 and the upper edge of the communication grill 120. Referring to FIG.

The upper part of the communication grill part 120 includes a first support part 141 disposed to face the outer surface of the upper rim 112b of the opening part and a second support part 141 spaced apart from the first support part 141, And a second support portion 142 disposed so as to face the inner surface of the upper rim 112b.

An engaging groove 143 is formed between the first supporting portion 141 and the second supporting portion 142 so that the upper rim 112b of the opening 110 is fitted and fixed to the engaging groove 143 .

The first support portion 141 is provided with a first fastening hole 141a into which the fastening member 200 is inserted and the second fastening hole 142 is formed with a second fastening hole 141a through which the fastening member 200 is inserted. And a third fastening hole 143a through which the fastening member 200 passes is formed on the upper rim 112b of the opening.

A fixing portion 145 is provided at the rear of the second support portion 142 to communicate with the second fastening hole 142a and to fix the fastening member 200 therein.

A female screw thread 145a corresponding to the thread of the fastening member 200 is provided in the fixing portion 145.

Accordingly, the fastening member 200 sequentially passes through the first fastening hole 141a, the third fastening hole 143a, and the second fastening hole 142a, and is inserted and fixed in the fixing portion 145, And connects the communication grill portion 120 with the upper rim 112b of the opening 110. [

When the communication grill part 120 is mounted on the opening 110 on the upper side of the second support part 142, the upper edge 112b of the coupling hole 143 and the opening 110, A slant guide 150 for guiding the coupling between the slant surfaces.

6 illustrates that the upper part of the communication grill part 120 is coupled to the upper rim 112b of the opening 110

The communication grill portion 120 is first tilted so that the inclined guide portion 150 is brought into contact with the lower end portion of the upper rim 112b of the opening opening 110 as shown in Figure 6 (a) Thereby raising the portion 120.

When the inclined guide unit 150 moves along the lower edge of the upper edge 112b of the opening 110, the upper edge 112b of the opening 110 is pressed against the first support 141, 2 support portions 142 of the base portion 142

4 and 130 are also inserted into the insertion holes (FIGS. 4 and 111) and then slightly moved downward so that the engaging pieces 111 are inserted into the rim portion 110 of the opening 110 112). ≪ / RTI >

6 (b), when the communication grill part 120 is mounted on the opening 110, the first, second, and third fastening holes 141a, 143b, 142a are aligned in a line.

When the fastening member 200 is inserted in this state, the fastening member 200 sequentially passes through the first fastening hole 141a, the third fastening hole 143a, and the second fastening hole 142a, And is fitted and fixed to the portion 145.

The communication grill part 120 may be fixed to the side surface of the main body 1 through such a process.

Hereinafter, the operation of the present invention will be described with reference to FIG.

When the refrigerant cycle starts, the compressor 20 operates to compress the refrigerant to a high-temperature and high-pressure state. The compressed refrigerant moves to the condenser 30 and is condensed. At this time, the condensing fan 40 operates to move air in the direction of the condenser 30 so that a heat exchange operation is performed.

The refrigerant thus condensed is returned to the compressor 20 through the expansion process and the evaporation process.

When the condensing fan 40 rotates, air flows into three routes.

That is, when the first communication portion 1100 flows into the first lower communication hole 11a through the first cover communication hole 51a and the second communication hole 11a, (Direction ③).

The introduced air is heat-exchanged with the condenser 30 via the condensing fan 40, and the compressor 20 is cooled.

The heat-exchanged air is discharged to the outside through the second lower communication hole 11b, the second cover communication hole 51b, and the second communication portion 2100.

The flow of air through the lower communication holes 11 and the cover communication holes 51 is different from the flow direction in the machine room and the flow direction of the air so that the direction of the air can not be changed.

That is, the air flowing in and out of the lower communication hole 11 flows in a direction perpendicular to the bottom surface of the machine room 10, while the air inside the machine room 10 moves horizontally with respect to the bottom surface of the machine room. And the direction of flow is perpendicular to the flow direction.

The air flowing in and out of the cover communication hole 51 flows in a direction perpendicular to the face of the machine room cover 50 while the air inside the machine room 10 moves horizontally with respect to the face of the machine room cover 50 , The flow direction of the air and the flow direction are perpendicular to each other.

In this case, a flow loss of air occurs. Since the movement of the air between the first communication portion 1100 and the second communication portion 2100 is linear, the communication between the lower communication holes 11, There is an advantage that the flow loss can be remarkably reduced as compared with the air flow by the holes 51.

1: Body 10: Machine room
11: Lower communicating hole 20: Compressor
30: condenser 40: condensing fan
50: machine room cover 51: cover communication hole
100: communicating part 110: opening part
120: communication grill part 121: frame part
122; The communication hole 123: rib
141: first support portion 142: second support portion
143: coupling groove 145:
200: fastening member

Claims (17)

A body provided with a storage chamber;
A machine room provided at a lower portion of the main body and having a compressor and a condenser disposed therein;
A first communication part 1100 provided on one side of the machine room and through which air flows;
A second communication part 2100 provided on the other side of the machine room to discharge air;
A machine room cover (50) for shielding the rear surface of the machine room;
A first cover communication hole (51a) formed in the machine room cover to be disposed adjacent to the first communication portion;
A second cover communication hole (51b) formed in the machine room cover so as to be disposed adjacent to the second communication portion; And
And an axial flow type condensing fan (40) having a rotation axis disposed on an extension of the first communication portion and the second communication portion. The method according to claim 1,
And a part of the second cover communication hole (51b) is arranged higher than the first cover communication hole (51a). The method according to claim 1,
And the second cover communication hole (51b) is arranged to be wider than an area formed by the first cover communication hole (51a). The method according to claim 1,
Wherein the condensing fan is disposed adjacent to the first communication part than the second communication part. The method according to claim 1,
Wherein the condensing fan supplies air in the direction of the condenser to dissipate heat in the condenser. The method according to claim 1,
One of the first communication portion and the second communication portion includes an opening 110 formed in the main body 10 and a communication grill portion 120 mounted in the opening 110 Refrigerator. The method according to claim 6,
The communication grill part 120 includes a frame part 121 to be brought into contact with the rim of the opening 110 and a rib 122 which is surrounded by the frame part 121 and forms a plurality of communication holes 122 123,
And the horizontal ribs (123b) of the ribs are disposed to be inclined downward in the outward direction from the inside of the machine room. The method according to claim 1,
The first communicating part 1100 is disposed adjacent to the condensing fan 40 and the second communicating part 2100 is disposed adjacent to the compressor 40,
Wherein the first communication part (1100) is an inlet part through which air flows and the second communication part (2100) is a discharge part through which air is discharged when the condensing fan (40) operates. . The method according to claim 1,
Air flows into the first cover communication hole 51a and flows through the condensing fan 40 and the condenser 30 and the compressor 20 when the condensing fan 40 operates, 2 cover communication hole (51b). A body provided with a storage chamber;
A machine room provided at a lower portion of the main body and having a compressor and a condenser disposed therein;
A first lower communication hole (11a) provided on a bottom surface of the machine room and through which air flows;
A second lower communication hole (11b) provided on the other side of the machine room for discharging air;
A machine room cover (50) for shielding the rear surface of the machine room;
A first cover communication hole (51a) formed in the machine room cover so as to be disposed adjacent to the first lower communication hole;
A second cover communication hole (51b) formed in the machine room cover so as to be disposed adjacent to the second lower communication hole; And
And an axial flow type condensing fan (40) having a rotation axis disposed on an extension of the first lower communication hole and the second lower communication hole. 11. The method of claim 10,
A first communication part 1100 provided on one side surface of the machine room and through which air flows,
And a second communication part (2100) provided on the other side of the machine room to discharge air. 11. The method of claim 10,
And a part of the second cover communication hole (51b) is arranged higher than the first cover communication hole (51a). 11. The method of claim 10,
And the second cover communication hole (51b) is arranged to be wider than an area formed by the first cover communication hole (51a). 11. The method of claim 10,
Wherein the condensing fan is disposed adjacent to the first communication part than the second communication part. 11. The method of claim 10,
The first lower communication hole 11a is provided at a lower portion of the condensing fan 40,
And the second lower communication hole (11b) is provided under the compressor. 16. The method of claim 15,
A partition member (70) is provided below the floor of the machine room (10)
Wherein the partition member (70) is provided between the first lower communication hole (11a) and the second lower communication hole (11b). 11. The method of claim 10,
Air flows into the first lower communication hole 11b and flows through the condensing fan 40, the condenser 30 and the compressor 20 in sequence, And is discharged to the second lower communication hole (11b).

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