KR100463511B1 - Refrigerator with two evaporators - Google Patents

Abstract

The refrigerator equipped with two evaporators according to the present invention is a freezer compartment evaporator and a refrigerator compartment evaporator are continuously connected by one refrigerant pipe, and the temperature control of the freezer compartment and the refrigerating compartment uses a separate device such as a conventional three-way valve. It is possible to achieve without increasing the productivity of the entire refrigerator, a pair of refrigerant pipes through which the refrigerant flows, the cooling fins connecting the two refrigerant pipes and the defrosting pipe integrally formed in the center of the cooling fins a plurality of times It is configured to be bent and comprises two evaporators provided separately for the freezer and the refrigerating chamber, the refrigerant pipes 52, 62 of the two evaporators (50, 60) is characterized in that consisting of one continuous pipe , The refrigerant pipe 52 constituting the freezer compartment evaporator 50 is longer than the refrigerant tube 62 constituting the refrigerator compartment evaporator 60, and the two evaporators 50, 60 are provided. The correlation (56, 66) and to also characterized by being a single continuous tube.

Description

Refrigerator with two evaporators

The present invention relates to a refrigerator, and more particularly, to an evaporator for cooling air introduced into a freezer compartment and a refrigerating compartment through a heat exchange action using a refrigerant.

In general, a refrigerator is used to freeze or refrigerate food and the like, and a large-capacity refrigerator having a freezer evaporator and a freezer evaporator, as shown in FIG. 1, includes a freezer compartment 10a and a refrigerator compartment 10b therein. A case 10 constituting the storage space separated by the plurality of doors and each door 12 mounted on one side of the case 10 to open and close the freezing compartment 10a and the refrigerating compartment 10b, and the compressor 20 and the condenser ( 30) and a capillary tube 40 (see FIG. 2) and a refrigeration cycle such as refrigeration and refrigerating chamber evaporators 50 and 60, including devices for lowering the temperature of the freezing compartment 10a and the refrigerating compartment 10b. Bar and blowing fan 70 for introducing the air cooled by each evaporator (50, 60) into the freezer compartment (10a) and the refrigerating chamber (10b) is also provided separately.

Here, the general evaporator is composed of a refrigerant pipe through which the refrigerant flows, a cooling fin for widening the heat exchange area of the refrigerant pipe, and a defrost pipe for removing frost formed on the refrigerant pipe and the cooling fin. According to the linkage structure of the correlation is formed in various forms, the integrated evaporator of these, as shown in Figure 2 of the pair of refrigerant pipes (52, 62), the defrosting pipes (56, 66) is located and each of the refrigerant pipes (52) And 62 and the defrosting pipes 56 and 66 are connected by cooling fins 54 and 64, and the cooling fins 54 and 64 are provided with a plurality of cooling louvers 55 and 65.

Therefore, in the refrigerator, when the compressor 20 compresses the low temperature low pressure gaseous refrigerant to high temperature and high pressure, as shown in FIG. 3, the compressed high temperature high pressure gaseous refrigerant is cooled and condensed while passing through the condenser 30, thereby increasing the high pressure. After becoming liquid, the temperature and pressure are lowered while passing through the capillary tube 40, and the evaporator 50, 60 is changed into a gaseous state of low temperature and low pressure in each evaporator 50, 60, taking heat from the surroundings, ) To cool the surrounding air, and the amount of refrigerant flowing into the refrigerant pipes 52 and 62 of the evaporators 50 and 60 is stored at the freezing chamber 10a and the refrigerating chamber 10b at the branch points of the evaporators 50 and 60. According to the temperature of the three-way valve (80) and the like is adjusted by the adjusting device.

That is, when the temperature of the freezer compartment 10a rises above the reference value, the three-way valve 80 blocks the refrigerant tube 62 of the refrigerating chamber evaporator 60 and the refrigerant to the refrigerant tube 52 of the freezer compartment evaporator 50. By inducing the flow of the freezer compartment evaporator 50 to make the cooling action more active, thereby lowering the temperature of the freezer compartment 10a intensively, and when the temperature of the refrigerating compartment 10b becomes higher than the reference value, the refrigerating compartment ( By intensively lowering the temperature of 10b), when one freezer cools the freezer compartment 10a and the freezer compartment 10b at the same time, the thermodynamic loss caused by the temperature band difference between the freezer compartment 10a and the refrigerator compartment 10b is reduced. Can be reduced.

However, according to the related art, the amount of refrigerant flowing into the refrigerant pipes 52 and 62 of each of the evaporators 50 and 60 must be adjusted according to the temperatures of the freezing chamber 10a and the refrigerating chamber 10b. It requires a separate mechanism such as, etc., and not only the configuration for the separate operation of the defrost pipe, but also the refrigerant pipe 52 branched to each evaporator (50, 60) in one main refrigerant pipe circulating the refrigerant For the construction of the 62, the production cost of the entire refrigerator is also high because it is difficult to manufacture such as connecting the refrigerant pipes 52, 62 of each evaporator 50, 60 to the main refrigerant pipe through a connecting operation such as welding. Problem occurs.

The present invention has been made to solve the problems of the prior art as described above, the freezer compartment evaporator and the freezer compartment evaporator are continuously connected by one refrigerant pipe, without using a separate device such as a three-way valve freezer It is an object of the present invention to provide a refrigerator in which the temperature is increased and the temperature of the refrigerating compartment is automatically controlled, thus making the production simple.

In order to achieve the above object, the present invention comprises a pair of refrigerant pipes through which refrigerant flows, a cooling fin connecting the two refrigerant pipes, and a defrost pipe integrally formed at the center of the cooling fins, which are bent a plurality of times, for a freezer compartment and a refrigerating compartment. In the configuration comprising two evaporators provided separately, the refrigerant pipes of the two evaporator is characterized in that consisting of one continuous pipe, the refrigerant pipe constituting the freezer evaporator is a refrigerant pipe constituting the evaporator for the refrigerator compartment. It becomes longer and provides a refrigerator, characterized in that the defrosting of the two evaporators also consists of one continuous tube.

DETAILED DESCRIPTION Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying FIG. 4, and the same parts as in the prior art will be given the same reference numerals.

4 is a side view schematically showing the shape of each evaporator in a refrigerator equipped with two evaporators according to an embodiment of the present invention, wherein the refrigerant pipes 52 and 62 of the two evaporators 50 and 60 are one continuous. It is made of a tube, it is produced by a method such as extrusion molding, bar bent a plurality of times at predetermined intervals, and the refrigerant tube 52 of the freezer compartment evaporator 50 and the refrigerant tube of the refrigerator compartment evaporator 60, respectively. Used as 62.

In addition, the refrigerant pipe 52 constituting the freezer compartment evaporator 50 is longer and bent more than the refrigerant tube 62 constituting the refrigerator compartment evaporator 60.

In addition, the defrost pipes 56 and 66 (see FIG. 2) that perform defrosting on one side of the coolant pipes 52 and 62 are also made of one continuous pipe like the coolant pipes 52 and 62, but have cooling fins. In order to reduce the material cost, it is preferable that the freezer compartment and the refrigerating compartment are not continuously formed and configured only within the operating range of the evaporator.

Therefore, according to the embodiment of the present invention configured as described above, the refrigerant passes through the refrigerant pipes 52, 62 of the respective evaporators 50, 60 and performs heat exchange to sequentially around each evaporator 50, 60. The air is cooled, and the cooled air is supplied to the freezing compartment 10a and the refrigerating compartment 10b by a separate blowing fan 70, respectively, and the length of the refrigerant pipe 52 constituting the freezing compartment evaporator 50 is refrigerated. Since it is longer than the length of the refrigerant pipe 62 constituting the practical evaporator 60, the freezing chamber 10a is cooled more strongly than the refrigerating chamber 10b.

That is, the refrigerant pipe without using a separate mechanism such as a three-way valve 80 (see Fig. 3) for controlling the amount of the refrigerant flowing into the freezer compartment evaporator 50 and the amount of the refrigerant flowing into the refrigerator compartment evaporator 60. Only the structural features of 52 and 62 allow the freezing compartment 10a and the refrigerating compartment 10b to be maintained at different temperatures.

In addition, the frost generated by the moisture contained in the air around each of the evaporators 50, 60 is frozen in the refrigerant pipes 52, 62 and the like, and the action of the defrost pipes 56, 66 formed integrally with the refrigerant pipes 52, 62. Are removed at the same time.

As described above, the refrigerator equipped with two evaporators according to the present invention has a freezer compartment evaporator and a refrigerator compartment evaporator continuously connected by one refrigerant pipe, and separates the temperature control of the freezer compartment and the refrigerator compartment such as a conventional three-way valve. The advantage of being able to achieve without using the device is that it helps to improve the productivity.

1 is a schematic cross-sectional view showing the structure of a refrigerator equipped with two evaporators

Figure 2 is a cut perspective view showing the structure of a typical integrated evaporator

Figure 3 is a schematic diagram showing the elements constituting a refrigeration cycle in a conventional refrigerator equipped with two evaporators

Figure 4 is a side view schematically showing the shape of each evaporator in a refrigerator provided with two evaporators according to an embodiment of the present invention

Explanation of symbols for the main parts of the drawings

10: case 12: door

10a: freezer compartment 10b: cold compartment

20: compressor 30: condenser

40 capillary tube 50 freezer evaporator

52: refrigerant pipe 54: cooling fin

56 defrost pipe 60: evaporator for the refrigerating chamber

62: refrigerant pipe 64: cooling fin

66: defrosting pipe 70: blowing fan

80: three way valve

Claims (3)

A pair of refrigerant pipes through which a refrigerant flows, a cooling fin connecting the two refrigerant tubes, and a defrost pipe integrally formed at the center of the cooling fin are bent a plurality of times, and include two evaporators separately provided for a freezing compartment and a refrigerating compartment. In that done, Refrigerator, characterized in that the refrigerant pipe of the two evaporator is composed of one continuous pipe. The method of claim 1, And a refrigerant pipe constituting the freezer compartment evaporator is longer than a refrigerant tube constituting the refrigerator compartment evaporator. The method of claim 1, Refrigerator, characterized in that the defrost pipe of the two evaporator is composed of one continuous pipe.