KR200308188Y1 - Refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator having an evaporating dish receiving defrost water from an evaporator and a refrigerant from the compressor, which has evaporation pipes extending along the bottom plate of the evaporating plate, wherein the evaporating plate is formed from a bottom plate surface. Protruding to include at least one pipe fixing projection for fixing the evaporation pipe position. As a result, the evaporation pipe can be firmly positioned on the evaporation plate to suppress vibration and noise of the evaporation pipe and to increase the evaporation efficiency of the defrost water.

Description

Refrigerator

The present invention relates to a refrigerator having an evaporating plate for receiving defrost water from an evaporator and a refrigerant from the compressor, and having an evaporating pipe extending along the bottom plate of the evaporating plate. The present invention relates to a refrigerator capable of firmly fixing an evaporation plate to suppress vibration and noise of an evaporation pipe and to increase evaporation efficiency of defrost water.

In general, a refrigerator includes a machine room equipped with a compressor, a relatively low temperature freezer and a relatively high temperature freezer, and a freezing system for cooling the food contained in the freezer and the freezer. The refrigeration system of the refrigerator comprises a compressor for compressing a refrigerant, a condenser for condensing the refrigerant from the compressor, and an evaporator for evaporating the refrigerant from the condenser to generate cold air supplied to the freezing compartment and the refrigerating compartment, respectively.

On the other hand, the evaporator that generates the cold air to be supplied to the freezer compartment and the refrigerating compartment, the frost is generated because the surface temperature is much lower than the temperature of the ambient air, this deterioration of heat transfer efficiency of the evaporator. Thus, defrost heaters are provided around the evaporator and periodically operated to remove frost generated on the surface of the evaporator. As such, the defrost water that is dissolved in the defrosting process is received through the evaporating plate provided in the lower portion of the refrigerator body through the drain plate and the defrost hose installed at the lower portion of the evaporator.

3 is an exploded perspective view of a conventional refrigerator machine room. As shown in this figure, the machine room 110 formed at the lower portion of the refrigerator body 108 is blocked at the lower end by the bottom plate 112 and between the partition wall 117 formed at the center of the bottom plate 112. In this case, the compressor 111 and the evaporation plate 118 are arranged to face each other. The compressor 111 compresses the refrigerant from an evaporator (not shown) to a high temperature and a high pressure to provide a condenser (not shown), and a cooling fan 113 is installed in the partition wall 117 to cool the compressor 111. It is. In addition, the evaporation plate 118 is formed flat on the bottom plate 112 to have a wide bottom plate surface, and receives defrost water through a defrost hose 116 extending from an evaporator (not shown).

An evaporation pipe 114 through which a high temperature and high pressure refrigerant from the compressor 111 passes is provided in the evaporation plate 118. The evaporation pipe 114 serves to transfer the refrigerant from the compressor 111 to a condenser (not shown) and extends zigzag along the bottom plate of the evaporation plate 118. In order to prevent the vibration and noise of the evaporation pipe 114 generated during the transfer of the compressed refrigerant to the bottom plate surface of the evaporation plate 118, dustproof rubber 120 is coupled to various parts of the evaporation pipe 114. have. Thus, the defrost water from the evaporator (not shown) to be contained in the evaporation plate 118 is evaporated by the high temperature refrigerant passing through the evaporation pipe 114.

However, in such a conventional refrigerator, since only the dustproof rubber 120 is interposed between the evaporation plate 118 and the evaporation pipe 114, the interval between the bottom plates of the evaporation plate 118 of the evaporation pipe 114 is uniform. It is difficult to maintain, and accordingly, since the evaporation of the defrost water does not occur smoothly, there is a problem that a portion of the remaining defrost water may occur.

Accordingly, an object of the present invention is to provide a refrigerator capable of firmly positioning an evaporation pipe on an evaporation plate to suppress vibration and noise of the evaporation pipe and to increase the evaporation efficiency of the defrost water.

1 is an exploded perspective view of a refrigerator machine room according to the present invention.

Figure 2 is an enlarged cross-sectional view of the pipe fixing projection area.

3 is an exploded perspective view of a conventional machine room corresponding to FIG. 1.

* Explanation of symbols for the main parts of the drawings

10: machine room 11: compressor

12 bottom plate 13 cooling fan

14: evaporation pipe 16: defrost hose

18: evaporation plate 20: pipe fixing protrusion

21: spaced protrusion 22: elastic member

The above object is, according to the present invention, in the refrigerator having an evaporation plate for receiving the defrost water from the evaporator, and a refrigerant from the compressor, the evaporation pipe extending along the bottom plate surface of the evaporator plate, the evaporation plate It is achieved by a refrigerator characterized in that it comprises at least one pipe fixing protrusion protruding from the bottom plate surface to fix the evaporation pipe.

The pipe fixing protrusions may be disposed to face each other with the evaporating pipe interposed therebetween, and the pipe fixing protrusions may protrude a predetermined height from the bottom plate surface to face the evaporating pipe from the bottom plate surface. It may be desirable to further include a spacer spaced apart from a predetermined interval. In addition, it may be preferable to further include an elastic member fixed to the pipe fixing protrusion to elastically contact with the evaporation pipe.

Hereinafter, with reference to the accompanying drawings will be described in detail for the subject innovation.

1 is an exploded perspective view of a refrigerator machine room according to the present invention, Figure 2 is an enlarged cross-sectional view of the pipe fixing projection area. As shown in these figures. The machine room 10 formed at the lower part of the refrigerator main body 8 is blocked at the lower end by the bottom plate 12, and the compressor 11 is evaporated with the partition wall 17 formed at the center of the bottom plate 12 therebetween. The plates 18 are arranged to face each other. The compressor 11 compresses the refrigerant from an evaporator (not shown) to a high temperature and a high pressure to provide a condenser (not shown), and a cooling fan 13 is installed in the partition wall 17 to cool the compressor 11. It is. In addition, the evaporation plate 18 is formed flat on the bottom plate 12 to have a wide bottom plate surface, and is supplied with defrost water through a defrost hose 16 extending from an evaporator (not shown).

An evaporation pipe 14 through which the high temperature and high pressure refrigerant from the compressor 11 passes is provided in the evaporation plate 18. The evaporation pipe 14 serves to transfer the refrigerant from the compressor 11 to a condenser (not shown), and extends zigzag along the bottom plate of the evaporation plate 18.

On the other hand, the vibration and noise of the evaporation pipe 14 generated during the transfer of the compressed refrigerant is prevented from being transmitted to the bottom plate surface of the evaporation plate 18, and from the evaporator (not shown) accommodated in the evaporation plate 18. A plurality of pipe fixing protrusions 20 are formed on the bottom plate surface of the evaporating plate 18 in order to smoothly evaporate the defrost water by the evaporating pipe 14 through which a high temperature refrigerant flows.

The pipe fixing protrusion 20 protrudes upward from the bottom plate surface of the evaporating plate 18 and is disposed to face each other with the evaporating pipe 14 through which the compressed refrigerant flows in order to securely position the evaporating pipe 14. It is. A spaced protrusion 21 protruding a predetermined height from the bottom plate surface of the evaporating plate 18 is further formed between the pipe fixing protrusions 20 arranged to face each other, so that the distance between the evaporating pipe 14 and the evaporating plate 18 is fixed. Keep it. In addition, an elastic member 22 is coupled to each pipe fixing protrusion 20 so that the pipe fixing protrusions 20 disposed to face each other and the evaporating pipes 14 are elastically contacted.

By the above-described configuration, the evaporation pipe 14 through which the high temperature refrigerant flows is maintained at a constant distance from the bottom plate surface of the evaporation plate 18 by the spacer 21, and the pipe fixing protrusion 20 is maintained. Since it is firmly fixed to the evaporation plate 18, evaporation of the defrost water received in the evaporation plate 18 can be made smoothly.

As described above, according to the present invention, the evaporation pipe can be firmly fixed to the evaporation plate to suppress vibration and noise of the evaporation pipe and increase the evaporation efficiency of the defrost water.

Claims (4)

The present invention relates to a refrigerator having an evaporating plate receiving defrost water from an evaporator and an evaporating pipe extending along the bottom plate surface of the evaporating plate. The evaporating plate comprises a pipe fixing protrusion protruding from the bottom plate surface to fix the evaporation pipe. The method of claim 1, And the pipe fixing protrusions are disposed to face each other with the evaporating pipe interposed therebetween. The method of claim 2, And a spaced apart protrusion between the pipe fixing protrusions facing each other, the spacer protrusion protruding a predetermined height from the bottom plate surface and spaced apart from the bottom plate surface by a predetermined distance. The method of claim 2, And a resilient member fixed to the pipe fixing protrusion to elastically contact the evaporation pipe.