KR200217536Y1 - Refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator having a main body forming a cooling chamber and a thermofiller for sensing a temperature of the cooling chamber, and formed in an upper region of an evaporator rear cover coupled to a front side of the evaporator to accommodate the thermofiller. And a flow preventing part protruding into the receiving part in the evaporator front cover coupled to the front surface of the evaporator rear cover and preventing a flow of the thermo filler by contacting a part of the thermo filler. do. Thereby, the flow of a thermofiller can be prevented, and the temperature of a cooling chamber can be detected more correctly.

Description

Refrigerator

The present invention relates to a refrigerator, and in particular, to a refrigerator to prevent the flow of the thermofiller to sense the temperature of the cooling chamber.

The refrigerator main body is provided with a pair of cooling chambers divided up and down in a rectangular cylindrical cabinet, and a door for opening and closing the front opening of each cooling chamber is provided on the front of the main body, respectively.

In each cooling chamber, as shown in FIG. 1 and FIG. 4, the evaporator 3 is provided in order to supply cold air to a cooling chamber, and the cold air from the evaporator 3 is provided in front of the evaporator 3 in a cooling chamber. An evaporator rear cover 10 is supported, in which a blowing fan 5 for supplying air is supported. In front of the evaporator rear cover 10, an evaporator front cover 20 having a plurality of discharge holes 23 for evenly dispersing cold air guided from the blower fan 5 into the cooling chamber is provided.

On the other hand, the cooling chamber is equipped with a thermostat (30) to maintain the temperature in the cooling chamber at a constant level, and a thermo-filler (35) extending from the thermostat (30) to sense the temperature in the cooling chamber, the rear surface of the evaporator On the upper part of the cover 10, a thermosett accommodating part 12 accommodating the thermostat 30 and a thermoscrew accommodating part 11 accommodating the thermofiller 35 are formed. Thermostat receiving portion 12 is formed on the upper side of the evaporator rear cover 10, the thermo filler receiving portion 11 extends from the upper portion of the thermostat receiving portion 12, the upper portion of the evaporator rear cover 10 It is formed long in the horizontal direction. And, the rear surface and the lower surface of the thermo-pillar accommodating portion 11 is attached with a heat insulating material 36 formed of styrofoam to prevent heat transfer from the evaporator (3) installed in the rear of the evaporator rear cover (10). On the other hand, in the upper central region of the evaporator front cover 20 in which the distal end of the thermo-filler 35 is located, a cold air inlet 21 is formed for inflow of cold air in the cooling chamber.

By such a configuration, the thermostat 30 is accommodated in the thermosett accommodating portion 12 formed in the rear cover 10 of the evaporator, and then the thermofiller 35 extending from the thermos 30 is replaced with the thermofiller accommodating portion ( Accept according to 11). Then, when the evaporator front cover 20 is coupled to the front of the evaporator rear cover 10, the thermo filler accommodating portion 11 forms a closed space, the distal end of the thermo filler 35, the evaporator front cover 20 It is located in the cold air inlet hole 21 formed in. Accordingly, the thermofiller 35 detects the temperature in the cooling chamber by the cold air introduced through the cold air inlet hole 21, and the bimetal in the thermostat 30 operates according to the detected temperature to operate the temperature in the cooling chamber. Will be adjusted.

By the way, the thermo-pillar accommodating part 11 of the refrigerator is inevitably formed larger than the diameter of the thermo-pillar 35 in the production process, and, accordingly, the thermo-pillar 35 by vibration generated during operation of the refrigerator device. It will flow in the thermo-pillar accommodating portion (11). Therefore, there is a problem in that the thermofiller 35 is damaged while flowing or does not accurately sense the temperature in the cooling chamber.

Therefore, an object of the present invention is to provide a refrigerator capable of preventing the flow of the thermofiller.

1 is a partially exploded perspective view of a refrigerator;

Figure 2 is an enlarged perspective view of the main part of the refrigerator according to the present invention,

3 is a cross-sectional view of the combination of FIG.

4 is an enlarged cross-sectional view illustrating main parts of a conventional refrigerator.

<Description of the code | symbol about the principal part of drawing>

3: evaporator 10: evaporator rear cover

11: Thermo-pillar accommodating part 12: Thermosted accommodating part

20: evaporator front cover 21: cold air inlet

30: thermostat 35: thermo filler

The object is, according to the present invention, in the refrigerator having a main body for forming a cooling chamber, and a thermofiller for sensing the temperature of the cooling chamber, is formed in the upper region of the rear cover of the evaporator coupled to the front of the evaporator A receptacle for receiving a thermofiller,

It is achieved by the refrigerator characterized in that the evaporator front cover coupled to the front surface of the evaporator rear cover is formed into a protruding into the receiving portion to prevent a flow of the thermo filler in contact with a portion of the thermo filler to prevent the flow of the thermo filler. do.

Here, the flow preventing portion may be formed of at least one flow preventing rib protruding toward the receiving portion from the front cover of the evaporator.

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

In the cooling chamber, as described with reference to FIG. 1, the back surface of the plate-shaped evaporator on which the evaporator 3 for exchanging heat in the cooling chamber and the blower fan 5 for discharging cold air from the evaporator 3 are supported. The cover 10 is provided in front of the evaporator 3. In front of the evaporator rear cover 10, the evaporator rear cover 10 has a predetermined space, and has a plurality of discharge holes 23 for evenly dispersing cold air guided from the blowing fan 5 into the cooling chamber. An evaporator front cover 20 is provided. The evaporator rear cover 10 is formed in a rectangular plate shape, and each edge thereof protrudes toward the evaporator front cover 20 to form a side wall.

On the other hand, the evaporator front cover 20 is formed in almost the same shape as the evaporator rear cover 10, the rear surface of the evaporator front cover 20 is formed to protrude toward the evaporator rear cover 10 in a predetermined inner side from each edge. The side wall is formed. Here, each side wall of the evaporator front cover 20 is formed with a hook 22 which is movable in the horizontal direction of the plate surface, each of the side wall of the evaporator rear cover 10, the hook groove 13 is accommodated in the hook 22 Is formed.

The cooling chamber is equipped with a thermostat 30 for maintaining a temperature in the cooling chamber at a constant level, and a thermofiller 35 extending from the thermostat 30 and sensing a temperature in the cooling chamber. On the upper part of the evaporator rear cover 10, a thermosett accommodating part 12 accommodating the thermostat 30 and a thermoscrew accommodating part 11 accommodating the thermofiller 35 are formed. Thermostat receiving portion 12 is partitioned by a rib protruding forward from the plate surface of the evaporator rear cover 10 on the upper side of the evaporator rear cover 10, the thermo filler receiving portion 11 is a thermostat receiving It extends from the top of the portion 12 is partitioned by a rib formed in the transverse direction long on the top of the evaporator rear cover (10). As shown in FIGS. 2 and 3, the ribs of the thermofiller accommodating part 11 are formed to have substantially the same width as the sidewalls of the rear cover 10 of the evaporator, and the rear surface of the thermofiller accommodating part 11 is formed. The lower surface is attached with a heat insulating material 36, such as styrofoam, to prevent heat transfer from the evaporator installed at the rear of the evaporator rear cover 10.

On the other hand, in the upper central region of the evaporator front cover 20 in which the distal end of the thermofiller 35 is located, a cold air inlet 21 is formed for inflow of cold air in the cooling chamber, and the cold air inlet 21 On both sides, a flow preventing rib 40 protruding toward the rear cover 10 of the evaporator is formed. The flow preventing rib 40 is elongated along the transverse direction of the evaporator front cover 20, and the tip of the flow preventing rib 40 toward the evaporator rear cover 10 faces the evaporator front cover 20. It is cut in a recessed gentle curve.

By this structure, the thermosett 30 is accommodated in the thermosett accommodating portion 12 formed in the rear cover 10 of the evaporator, and then the thermofiller 35 from the thermos 30 is transferred to the thermospiller accommodating portion 11. To accommodate. Then, when the evaporator front cover 20 is pressed toward the evaporator rear cover 10, the engaging surface of the evaporator front cover 20 is in contact with the inner surface of the side wall of the evaporator rear cover 10, and the hook 22 is locked. 13, the evaporator front cover 20 and the evaporator rear cover 10 are combined. At this time, the flow preventing rib 40 formed on the front cover 20 of the evaporator is accommodated in the thermo filler accommodating part 11 to be in contact with the thermo filler 35, while pressing and fixing the thermo filler in a direction opposite to the flow direction. In addition, since the front end portion of the flow preventing rib 40 forms a gentle curve, the contact area with the thermofiller 35 may be expanded to further improve the flow preventing effect.

Accordingly, by preventing the flow of the thermo filler 35 in the thermo filler accommodating portion 11, damage to the thermo filler 35 can be prevented and the temperature of the cooling chamber can be measured more accurately.

As described above, according to the present invention, it is possible to more accurately sense the temperature of the cooling chamber by preventing the flow of the thermofiller.

Claims (2)

In the refrigerator which has a main body which forms a cooling chamber, an evaporator which cools the said cooling chamber, and a thermofiller which senses the temperature of the said cooling chamber, An accommodation portion formed in an upper region of an evaporator rear cover coupled to a front surface of the evaporator to accommodate the thermofiller; And a flow preventing part protruding into the receiving part to the evaporator front cover coupled to the front surface of the evaporator rear cover to prevent a flow of the thermo filler by contacting a portion of the thermo filler. The method of claim 1, The flow preventing unit is a refrigerator, characterized in that at least one flow preventing rib protruding toward the receiving portion from the front cover of the evaporator.