KR101661995B1 - Refrigerator - Google Patents

Abstract

A refrigerator according to the present invention includes a main body having a storage room and a machine room formed therein and having a machine room air inlet and a machine room air outlet to allow air to flow in and out of the machine room; A condenser installed in the machine room for exchanging heat between the refrigerant and the air sucked into the machine room air inlet; A compressor installed in the machine room between the condenser and the machine room air outlet; And a machine room blower installed in the machine room so as to be positioned between the condenser and the compressor, wherein the machine room blower includes a turbo fan having an air suction surface on the surface facing the condenser and sucking air to blow air in the circumferential direction; And an air guide for guiding air into the turbo fan and guiding the air blown from the turbo fan toward the compressor, thereby minimizing power consumption and noise and increasing the air volume.

Description

Refrigerator {Refrigerator}

The present invention relates to a refrigerator, and more particularly, to a refrigerator in which a mechanical room blower is disposed between a condenser and a compressor.

2. Description of the Related Art Generally, a refrigerator is a device for cooling a storage room such as a refrigerator compartment and a freezer compartment by using a refrigeration cycle device including a compressor, a condenser, an expansion mechanism and an evaporator.

The refrigerator includes a top-mounted refrigerator having a freezing chamber located on the upper side of the refrigerating chamber and an evaporator disposed on the rear side of the freezing chamber of the refrigerator, a bottom-mounted refrigerator having a freezing chamber located below the refrigerating chamber, and an evaporator disposed behind the freezing chamber, A side-by-side refrigerator in which a refrigerator compartment and a refrigerating compartment are located to the left and right, and an evaporator is installed to the rear of the free compartment, and the like.

In a conventional refrigerator, a machine room in which a compressor and a condenser are installed is formed in a lower portion of the refrigerator. Inside the machine room, a compressor for compressing the refrigerant, a condenser for condensing the refrigerant, And a machine room blower for discharging to the outside of the machine room.

The machine room blower includes an axial fan installed inside the machine room, and a motor connected to the axial fan and the rotary shaft is arranged long in the longitudinal direction of the machine room.

The conventional refrigerator has a machine room air inlet and a machine room air outlet through which the outside air is sucked into the machine room, and the compressor, the condenser, and the machine room blower are arranged in the order of the machine room blower, the condenser and the compressor in the air flow direction.

When the machine room blower is driven, the outside air is sucked into the machine room air intake port, passes through the axial fan, exchanges heat with the condenser, condenses the refrigerant, dissipates the compressor, and is discharged to the outside through the machine room air outlet.

KR10-09260662009.11.03

In the refrigerator according to the related art, the machine room blower is formed as an axial fan, and the axial fan blows the air sucked from the outside to the condenser, which causes a large flow loss, power consumption and noise.

A main body having a machine room air inlet port and a machine room air outlet port formed with a storage room and a machine room and allowing air to flow in and out of the machine room; A condenser installed in the machine room for exchanging heat between the refrigerant and the air sucked into the machine room air inlet; A compressor installed in the machine room to be positioned between the condenser and the machine room air outlet; And a machine room blower installed in the machine room so as to be positioned between the condenser and the compressor, wherein the machine room blower includes a turbo fan having an air suction surface on a surface facing the condenser and sucking air to blow air in a circumferential direction; And an air guide for guiding air into the turbo fan and guiding the air blown from the turbo fan toward the compressor.

And a motor connected between the turbo fan and the compressor such that a rotating shaft connected to the turbo fan horizontally extends in the longitudinal direction of the machine room.

The air guide includes a bell mouth for guiding air into the turbo fan, and a housing connected to the bell mouth and surrounding the periphery of the turbo fan.

The housing includes a connection portion connected to an outer end of the bell mouth and a peripheral portion bent at an outer end of the connection portion and having an inner diameter expanded toward a direction of the compressor.

The circumferential portion is formed so that an end thereof facing the compressor is rounded.

The circumferential portion is formed such that the diameter of the end portion facing the compressor is equal to or greater than the height of the compressor.

The machine room blower further includes a motor connected to the rotational center of the turbo fan and disposed between the turbo fan and the compressor.

A main body having a compartment formed with the storage compartment and the machine compartment, a front surface of the storage compartment being opened, and a rear surface of the machine compartment being opened; A door opening and closing the storage chamber; And a back cover coupled to a rear surface of the machine room, the machine room air inlet port and the machine room air outlet port being spaced apart from each other in the longitudinal direction of the machine room, and the machine room air inlet port facing the condenser.

In the refrigerator according to the present invention, the turbo fan is installed between the condenser and the compressor, thereby minimizing power consumption and noise, and increasing the airflow.

Also, since the air blown by the turbo fan in the circumferential direction of the turbo fan is guided to spread widely toward the compressor while minimizing the flow resistance, the flow resistance and noise of the air blown from the turbo fan are minimized.

1 is a perspective view of a refrigerator according to an embodiment of the present invention,
2 is a front view showing a machine room of an embodiment of a refrigerator according to the present invention,
FIG. 3 is a partially cut-away sectional view of the turbo fan and the air guide shown in FIG. 2,
FIG. 4 is a cross-sectional view illustrating a machine room of a refrigerator according to an embodiment of the present invention.

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

1 is a perspective view of an embodiment of a refrigerator according to the present invention.

1, the refrigerator includes a machine room air inlet port 2 and a machine room air outlet port 4, in which a storage room F and a machine room M are formed and air is flown into and from the machine room M, (Not shown).

The main body 6 is provided with an evaporator and a cool air circulating fan in the storage room F and a compressor, a condenser, an expansion mechanism, and a mechanical room blower are installed in the machine room M.

The main body 2 includes a main body 8 having a compartment F (R) and a machine room M defined therein, a front face of the storage compartment F (R) being open and a rear face of the machine room M being opened, A door 10 and 12 for opening and closing the machine room M and a door 10 and 12 for opening and closing the machine room M and a machine room air inlet 2 and a machine room air outlet port 4, And a back cover (14).

The main body 8 has a main body air inlet port 2 for sucking outside air such as a machine room air inlet port 2 of the back cover 14 on one side closer to the machine room air inlet port 2 on the left and right sides of the machine room M A machine room air discharge opening 4 of the back cover 14 is provided on the other side of the left and right sides of the machine room M closer to the machine room air discharge opening 4, A body air outlet (not shown) may be formed.

The back cover 14 is formed with a gap between the main body 8 and the main body 8 to allow the outside air to be sucked into the machine room air inlet port 2 as well as between the main body 8 and the main body 8, The main body 8 may be provided with a gap for discharging the main body 8.

FIG. 2 is a front view showing a machine room of a refrigerator according to an embodiment of the present invention, FIG. 3 is a partially cut-away sectional view of the turbo fan and the air guide shown in FIG. 2, and FIG. An exemplary machine room is shown in a plan view.

The refrigerator according to the present embodiment includes a condenser 20 installed in a machine room M for exchanging heat between refrigerant and air sucked into the machine room air inlet 2 and a condenser 20 disposed between the condenser 20 and the machine room air outlet 4, And a mechanical room blower 40 installed in the machine room M between the condenser 20 and the compressor 30. The compressor 30 is installed in the machine room M,

The condenser 20 is for condensing the refrigerant compressed in the compressor 30 with surrounding air and condensing the refrigerant tube through which the refrigerant passes and the fins installed in the refrigerant tube. The refrigerant tube is connected to the compressor 30, It is connected to the piping.

The condenser 20 is connected to an expansion mechanism (not shown) through a refrigerant pipe, and the refrigerant condensed in the condenser 20 flows into the expansion mechanism and is expanded in the expansion mechanism.

The compressor 30 is connected to an evaporator and a refrigerant pipe to compress refrigerant evaporated in the evaporator. Heat is generated during compression of the refrigerant. The refrigerant passes through the condenser 20 and flows toward the machine room air outlet 4 And is discharged into the flowing air.

The machine room blower 40 causes the outside air of the main body 6 to be heat exchanged with the condenser 20 and the compressor 30. The external air of the main body 6 is supplied to the machine room air inlet 2 to cool the refrigerant while passing through the condenser 20 and then radiating heat to the compressor 30 and then discharged back to the outside.

The mechanical blower 40 passes through the condenser 20 before the air sucked into the machine room air inlet 2 is sucked into the mechanical blower 40 and is sucked into the mechanical blower 40 after passing through the condenser 20. [ The flow resistance is smaller and the noise is smaller than when the air blown from the mechanical blower 40 is in contact with the condenser 20.

The machine room blower 40 includes a turbo fan 42 in which an air suction surface A is positioned on a surface facing the condenser 20 and sucks air to blow in a circumferential direction B, And an air guide 50 for guiding the air blown from the turbo fan 42 toward the compressor 30.

 The turbo fan 42 is smaller in flow resistance and power consumption than the axial flow fan and has a larger air flow rate than the same power consumption.

The machine room blower 40 further includes a motor 46 having a rotation shaft 44 connected to the turbo fan 42. The motor 46 is rotated by the rotation shaft 44 in the longitudinal direction of the machine room B And is installed between the turbo fan 42 and the compressor 30. [

That is, the condenser 20, the compressor 30 and the mechanical room blower 40 are arranged in the flow direction of the air in the flow direction of the air in such a manner that the condenser 20, the turbo fan 42, the motor 44, 30).

The air guide 50 includes a bell mouth 52 for guiding air into the turbo fan 42 and a housing 54 connected to the bell mouth 52 and surrounding the circumference B of the turbo fan 42. [ .

The bell mouth 52 assists the air exchanged with the condenser 20 to be sucked into the turbo fan 42 while passing through the condenser 20 while being positioned between the turbo fan 42 and the condenser 20.

The housing 54 is molded integrally with the bell mouth 52.

The housing 54 includes a connecting portion 56 connected to the outer end of the bell mouth 52 and a peripheral portion 58 which is bent at the outer end of the connecting portion 56 to surround the periphery of the turbo fan 42, And the surface facing toward the movable member 30 is opened.

The circumferential portion 58 is formed such that the diameter D of the end portion 60 facing the compressor 30 is larger or smaller than the height H of the compressor 30.

The circumferential portion 58 is bent in a direction in which the compressor 30 is positioned at the outer end of the connecting portion 56 and is formed so that the inner diameter is expanded toward the compressor 30.

The circumference 58 is formed to be rounded such that the end 60 facing the compressor 30 extends radially outwardly of the circumference 58.

On the other hand, the back cover 14 is formed at a position where the machine room air intake port 2 is opposed to the condenser 20.

Hereinafter, the operation of the present invention will be described.

First, when the motor 46 of the outdoor air blower 40 is driven, a suction force is generated between the turbo fan 42 of the machine room M and the machine room air inlet port 2 and around the machine room air inlet port 2, (6) The air around the machine room air inlet (2) in the outside air passes through the machine room air inlet (2) and sucked into the machine room (M).

The air sucked into the machine room M flows toward the turbofan 42 and is first contacted with the condenser 20, exchanges heat with the condenser 20, is heated, and passes through the condenser 20.

The air that has passed through the condenser 20 flows between the condenser 2 of the bell mouth 52 and is guided to the bell mouth 52 and sucked into the turbo fan 42.

The air sucked by the turbo fan 42 is blown in the circumferential direction of the turbo fan 42 to be brought into contact with the inner surface of the circumferential portion 58 of the housing 54 and then guided by the circumferential portion 58 of the housing 54 The flow direction is switched to the direction in which the compressor 30 is located.

At this time, the air guided to the peripheral portion 58 of the housing 54 is formed so that the inner diameter of the peripheral portion 58 gradually increases toward the direction of the compressor 30, so that the air spreads in the direction of the compressor 30 The flow is smoothly guided and spreads more widely as it passes through the end portion of the peripheral portion 58.

That is, the heat-exchanged air in the condenser passes through the machine room blower 40 while minimizing the flow path resistance, and then flows to the compressor 30 to radiate heat to the compressor 30.

Air that radiates heat to the compressor (30) passes through the machine room air outlet (4) and is discharged to the outside of the main body (6).

2: machine room air inlet 4: machine room air outlet
6: Main body 12: Main body
14: back cover 20: condenser
30: compressor 40: machine room blower
42: Turbo fan 44: Rotor shaft
46: motor 50: air guide
52: Bell mouth mouse 54: Housing
56: connecting portion 58:

Claims (8)

A body formed with a storage room and a machine room, and having a machine room air inlet and a machine room air outlet to allow air to flow in and out of the machine room;
A condenser installed in the machine room for exchanging heat between the refrigerant and the air sucked into the machine room air inlet;
A compressor installed in the machine room to be positioned between the condenser and the machine room air outlet;
A machine room blower installed in the machine room to be positioned between the condenser and the compressor,
The condenser, the machine room blower and the compressor are arranged in a line,
The machine room blower,
A turbo fan having an air intake surface on a surface facing the condenser and sucking air to blow air in a circumferential direction;
And an air guide for guiding air into the turbo fan and guiding the air blown from the turbo fan toward the compressor,
The air-
An annular bell mouth for guiding air to a suction surface of the turbo fan;
And a housing extending in a direction from the bell mouth to the compressor for guiding air blown by the turbo fan and surrounding an outer periphery of the turbo fan and having an opening through which the guided air is directed toward the compressor Refrigerator. The method according to claim 1,
And a rotating shaft connected to the turbo fan is installed between the turbo fan and the compressor horizontally in the longitudinal direction of the machine room. delete The method according to claim 1,
Wherein the housing includes a connecting portion connected to an outer end of the bellmouth, and a circumferential portion bent at an outer end of the connecting portion and having an inner diameter expanded toward the opening, 5. The method of claim 4,
The inner diameter of the peripheral portion
The inner circumferential surface of the circumferential portion being continuously extended to form a curved surface progressing to the opening, 5. The method of claim 4,
And the diameter of the opening is greater than or equal to the height of the compressor. 5. The method of claim 4,
Wherein the machine room blower further comprises a motor connected to the rotational center of the turbofan and positioned between the turbofan and the compressor. The method according to any one of claims 1, 2, and 4 to 7,
The main body includes:
A main body in which the storage room and the machine room are partitioned and the front surface of the storage room is opened and the back surface of the machine room is opened;
A door opening and closing the storage chamber;
And a back cover coupled to a back surface of the machine room, the machine room air inlet port and the machine room air outlet port being spaced apart from each other in a longitudinal direction of the machine room, and the machine room air inlet port facing the condenser.

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