KR20090080240A - Machinery room of a refrigerator and method for manufacturing thereof - Google Patents

Abstract

A machinery room of a refrigerator and a manufacturing method thereof are provided to reduce noise generation due to friction between a base plate and a defrosted water tray by integrating both into a single body. A machinery room of a refrigerator includes a base plate(110), and a defrosted water tray(113) integrated into the base plate by folding at least a part(114) of the base plate downward by drawing technique and receiving defrosted water from an evaporator, and a condenser for evaporating the defrosted water.

Description

Machinery room of a refrigerator and method for manufacturing thereof

An embodiment of the present invention relates to a machine room of a refrigerator and a method of manufacturing the same.

An embodiment of the present invention relates to a machine room of a refrigerator and a method of manufacturing the same, and more particularly, to a machine room of a refrigerator to improve a machine room structure of a refrigerator to prevent noise caused by friction between machine room components.

In general, a refrigerator is a device that keeps food fresh for a period of time by keeping the inside of the refrigerator at a low temperature as the refrigerant cycle is repeated compression, condensation, expansion and evaporation.

The refrigerator is largely composed of a freezer compartment, a refrigerating compartment and a machine compartment. Here, an evaporator is installed in a predetermined space formed at the rear side of the freezing chamber, and a compressor and a condenser are installed in the machine room.

Hereinafter, a machine room structure of a general refrigerator will be described with reference to FIG. 1.

Referring to Figure 1, the machine room 10 is installed at the rear of the storage compartment (refrigeration chamber or freezing compartment) lower part. In addition, the machine room 10 includes a base plate 10a provided at a lower portion, a compressor 11 provided at an upper side of the base plate 10a, a condenser 12, a capillary tube 13, A water receiving fan 15 and a blowing fan 18 for cooling the inside of the machine room 10 are included.

The compressor 11, the condenser 12, and the blower fan 18 are installed side by side, and have a structure in which outside air blown by the blower fan 18 is heat-exchanged with the compressor 11 and the condenser 12.

In addition, a machine room cover (not shown) may be provided on the rear side of the machine room 10 to allow the machine room 10 to be blocked from the outside. In addition, an air suction hole (not shown) and an air discharge hole (not shown) corresponding to the blowing fan 18 may be formed in the machine room cover.

On the other hand, the lower side of the condenser 12 is provided with a defrost water receiver 15 for storing the defrosted water from the evaporator.

However, according to the machine room structure of the conventional refrigerator, the base plate 10a forming the lower surface of the machine room 10 and the defrosting water receiver 15 seated on the upper side of the base plate 10a are constituted by separate members. do.

In this case, when the compressor 11 is operated, vibration by the compressor 11 is transmitted to the base plate 10a, and vibration is generated in the base plate 10a.

Then, a predetermined friction is generated between the base plate 10a and the defrosting water receiver 15, and noise is generated accordingly.

In particular, when the compressor is stopped and the refrigerator is interrupted, when the compressor is restarted to supply cold air, the noise caused by the base plate 10a and the defrosting water receiver 15 may increase.

Therefore, according to the conventional refrigerator machine room structure, the user feels a great inconvenience due to noise, and eventually there is a problem that the reliability of the product is reduced.

In addition, when the base plate 10a and the defrosting receiver 15 are constituted by separate members, there is a problem in that a material cost for the configuration is increased. In addition, a fastening member or a packing member for fastening the base plate 10a and the defrosting water receiver 15 may be added to reduce noise generated in the machine room, thus increasing manufacturing costs.

An embodiment of the present invention has been proposed to solve the above problems, and an object of the present invention is to provide a machine room of a refrigerator to improve the machine room structure of the refrigerator to prevent noise caused by friction between machine room components.

In addition, it is an object to reduce the cost required to manufacture the base plate of the machine room by allowing the base plate of the refrigerator machine room and the defrosting receiver.

Machine room of the refrigerator according to an embodiment of the present invention for solving the problems as described above, Base plate to form a bottom; Defrost water drip tray provided in the base plate, the defrost water is introduced into the base plate; And a condenser for dissipating heat of condensate so that the defrost water stored in the defrost drip tray is evaporated, wherein the defrost drip tray is integrally formed with the base plate.

In addition, the manufacturing method of the machine room of the refrigerator according to an embodiment of the present invention, cutting the plate-like material to form a base plate corresponding to the bottom surface of the refrigerator machine room; And bending the base plate downward by a drawing process to form a defrost water storage space in which a defrost water is stored in the base plate.

According to the embodiment according to the configuration as described above, since the base plate and the defrosting receiver which forms the lower surface of the machine room of the refrigerator are integrally formed, the noise caused by the friction between the base plate and the defrosting receiver is reduced during the operation of the refrigerator. The advantage is that it can be.

In addition, since the defrost water storage unit is formed to store the defrost water in the base plate itself of the machine room, there is an advantage that the material and process cost for manufacturing the base plate can be reduced.

Hereinafter, with reference to the drawings will be described a specific embodiment of the present invention. However, the spirit of the present invention is not limited to the embodiments presented, and those skilled in the art who understand the spirit of the present invention can easily suggest other embodiments within the scope of the same idea.

2 is a perspective view showing a machine room structure of a refrigerator according to an embodiment of the present invention.

2, in the machine room 100 according to an embodiment of the present invention, a base plate 110, which forms a bottom surface of the machine room 100, on which components of the machine room are seated, and the base plate 110 may be formed. The compressor 120 is provided on the upper side to allow the refrigerant to be compressed into superheated steam of high temperature and high pressure, a condenser 130 for condensing at low temperature by dissipating heat from the refrigerant compressed in the compressor 120, and the condenser ( Capillary tube 140 is included to allow the refrigerant passed through 130 to expand at low pressure. The refrigerant in the two-phase state passing through the capillary tube 140 is evaporated in an evaporator (not shown) installed in a predetermined space at the rear side of the freezing chamber.

In addition, a dryer 150 may be provided between the condenser 130 and the capillary tube 140 to remove moisture or impurities from the liquid refrigerant passing through the condenser 130.

In addition, a defrost water pipe 150 is provided inside the machine room 100 to move defrost water generated by defrosting from the evaporator. The defrost water pipe 150 extends to a position adjacent to the evaporator.

The defrosting operation for the evaporator will be briefly described.

Since the evaporator is operated at a temperature of approximately -20 ° C or its moving, frost freezes on the surface of the evaporator as the evaporator is operated for a long time. This frost degrades the heat exchange performance of the evaporator.

Therefore, the defrosting operation may be performed to stop the cooling system at predetermined intervals and to operate a heater (not shown) installed near the evaporator to remove frost frozen on the surface of the evaporator.

On the other hand, the defrost water storage unit 113 is formed in the lower side of the condenser 130 is stored in the defrost water moving through the defrost water pipe 150 is stored. Here, the defrosting pipe 150 may extend downward to a position adjacent to the defrost water storage 113 so that defrost water can easily fall into the defrost water storage 113.

The defrost water storage unit 113 may be formed in a state spaced apart from a side of the condenser 130 in consideration of the capacity of the defrost water to be stored in the defrost water storage unit 113.

The defrost water storage unit 113 is not provided as a separate member different from the base plate 110, but is formed as a defrost water storage space in the base plate 110 itself.

In addition, one side of the condenser 130, a blowing fan 170 for dissipating heat generated in the machine room 100 to the outside, and a fan motor 160 for providing a driving force to rotate the blowing fan 170. ) Is provided. Therefore, ambient air is introduced into the machine room 100 by the blowing fan 170 and the fan motor 160. In addition, the refrigerant of the condenser 130 is condensed by heat exchange with the introduced air, and the compressor 120 may be cooled by air introduced from the outside.

3 is a perspective view illustrating a base plate of a refrigerator machine room according to an exemplary embodiment of the present invention, and FIG. 4 is a cross-sectional view taken along the line II ′ of FIG. 3.

3 and 4, the base plate 110 of the refrigerator machine room according to the embodiment of the present invention forms a bottom surface of the refrigerator and is provided such that one surface has a substantially rectangular shape.

The base plate 110 includes a storage compartment lower portion 111 provided below the storage compartment such as a freezer compartment or a refrigerator compartment, and a seating portion 112 on which the compressor 120 and the condenser 130 are seated. do. The storage compartment lower side 111 and the seating portion 112 may be partitioned by a protrusion 116 protruding to a predetermined height.

In detail, the seating part 112 is formed in the lower side of the condenser 130, the defrost water storage unit 113, which is a space in which the defrost water moved through the defrost water pipe 150 is stored dropping is formed. .

In addition, the seating part 112 is provided with a defrost water frame 115 provided outside the defrost water storage part 113 to determine the size of the defrost water storage part 113. In addition, the defrost water frame 115 may be composed of four surfaces facing in the up and down and left and right directions.

However, the surface forming the upper portion of the defrost water frame 115 has a shape of the surface bent several times, which is formed due to the structure of the refrigerator, which limits the idea according to an embodiment of the present invention. It can not be said.

In addition, the defrost water frame 115 is provided in the vertical direction of the seating part 112 and the defrost water stored in the defrost water storage unit 113 moves to the outside of the defrost water storage unit 113. A plurality of blocking portions 115a are included so as not to be prevented. That is, the blocking unit 115a may form boundary portions on both sides of the defrost water frame 115.

At least a portion of the protrusion 116 may form a horizontal frame of the defrost water frame 115. That is, the four surfaces of the defrost water frame 115 may be composed of the blocking portion 115a, the protrusion 116 and the front frame 117 on both sides. In addition, the blocking unit 115a, the protrusion 116, and the front frame 117 may protrude upward from the bottom of the base plate 110.

Meanwhile, when the defrost water frame 115 is viewed as a conventional defrost water drip tray, an embodiment of the present invention is characterized in that the defrost water drip tray is integrally formed on the base plate 110.

In addition, the defrost water frame 115 forming the defrost water storage unit 113, that is, the defrost water drip tray, may be coated to prevent corrosion caused by defrost water.

On the other hand, at least a portion of the base plate 110 has a shape recessed downward. In addition, the recessed portion may form a bottom surface of the defrost water storage unit 113.

That is, a part of the base plate 110 in which the defrost water storage unit 113 is formed may be bent downward, and a drawing method may be used to make the base plate 110 bent.

The drawing method is also called drawing processing, and is a processing method of forming a seamless bowl-shaped or tubular product of a desired shape using the malleability of a material.

The drawing method includes a panel beating, which is formed by tapping with a hammer or the like on a suitable pedestal, a die drawing using a die and a punch, and a spinning method of pressing a sheet into a mold on a lathe. Etc. In an embodiment of the present invention, any one of the above-described methods may be used.

A brief look at how the base plate 110 in which the defrost water storage space is formed is manufactured.

First, the plate-shaped material to be formed of the base plate 110 is cut to a size corresponding to the bottom surface of the machine room of the refrigerator. By this cutting process, a substantially rectangular parallelepiped base plate shape is created.

Thereafter, the base plate is drawn to be bent downward using any one of the drawing methods described above. At this time, the size of the defrost water storage space formed by the drawing may be determined in consideration of the capacity of the defrosted water.

In summary, the base plate 110 includes a bent portion 114 having a shape in which a drawing method is applied to at least a portion of the base plate 110 to be bent downward. And, the upper side of the bent portion 114 is a defrost water storage unit 113 is stored defrosting water is formed.

That is, the base plate 110, it can be seen that the conventional defrost water drip tray is provided integrally.

In addition, the space of the defrost water storage unit 113 is increased by the bent portion 114 bent downward, so that a large amount of defrost water can be stored in the defrost water storage unit 113. There is this.

In addition, the stored defrost water may be evaporated by the heat generated by the condenser 130 or by the air flow by the blower fan 170.

As described above, since the defrost water storage unit 113 in which defrost water is stored is formed in the base plate 110, the defrost water drip tray for defrost water storage is not required as in the related art. Therefore, there is no fear of noise caused by friction between the base plate and the defrost water drip tray, which has been conventionally pointed out.

In addition, since the defrost water storage unit 113 may be formed by a drawing method in the manufacturing process of the base plate 110, there is an advantage that the material and the process cost can be reduced accordingly.

1 is a perspective view showing a machine room structure of a conventional refrigerator.

2 is a perspective view showing a machine room structure of a refrigerator according to an embodiment of the present invention.

Figure 3 is a perspective view showing a base plate of the refrigerator machine room according to an embodiment of the present invention.

4 is a cross-sectional view taken along the line II ′ of FIG. 3.

Claims (7)

A base plate forming a bottom surface; A defrost water drip tray provided on the base plate and into which defrost water is defrosted from an evaporator; And Condenser for discharging the heat of condensation so that the defrost water stored in the defrost drip tray is included, The defrost water reservoir is integrally formed with the base plate machine room of the refrigerator. The method of claim 1, The defrost water reservoir is a machine room of the refrigerator, characterized in that at least a portion of the base plate is bent downwardly formed. The method of claim 2, The process of bending the base plate, the machine room of the refrigerator, characterized in that made by a drawing method. The method of claim 1, The defrost water reservoir is a machine room of the refrigerator formed under the condenser. The method of claim 1, The defrost water reservoir is located in the machine room of the refrigerator, characterized in that spaced apart from one side of the condenser. The method of claim 1, The upper side of the base plate, the machine room of the refrigerator provided with a defrost water pipe for allowing the defrost water from the evaporator to move to the defrost water drip tray. Cutting the plate material to form a base plate corresponding to the bottom surface of the refrigerator machine room; And And bending the base plate downward by a drawing process to form a defrost water storage space in which the defrost water is stored in the base plate.

Images