KR19990058916A - Refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator, and a refrigerator equipped with a conventional refrigeration cycle device includes a compressor that generates noise in a refrigeration cycle device, a compressor installed in a machine room, and an evaporator that generates cold air, installed in a freezer compartment or a refrigerator compartment, and generates heat. The structure is installed on the back so that the heat dissipation is good, and each component is connected to the refrigerant pipe, so that the structure is complicated and there is a lot of heat loss, the present invention is an expansion unit and the working gas to form a cold air as the working gas is expanded Is equipped with a separate Stirling Cooler, which is composed of a compression part and a driving part that generate heat as it is compressed, and keeps the freezer and the refrigerating compartment cold, thereby simplifying the overall structure and reducing manufacturing costs. To increase efficiency by minimizing heat loss. will be.

Description

Refrigerator

The present invention relates to a refrigerator, and more particularly, to a refrigerator equipped with a separate sterling cooler therein to simplify the overall configuration and increase efficiency.

In general, as shown in FIG. 1, a cold-light cycle apparatus implementing a refrigeration cycle includes a compressor 10 for changing a low-temperature low-pressure gaseous refrigerant into a high-temperature high-pressure gaseous refrigerant, and a high temperature changed in the compressor 10. A condenser 20 for changing the high-pressure gaseous refrigerant into a high-temperature high-pressure liquid state refrigerant, an expansion valve 30 for changing the high-temperature, high-pressure liquid state refrigerant changed in the condenser 20 to a low-temperature low-pressure liquid state refrigerant, and The evaporator 40 absorbs external heat while changing the low-temperature, low-pressure liquid-state refrigerant changed in the expansion valve 30 into a gas state, and each component is connected by the refrigerant pipe 50.

In a typical refrigerator, the refrigeration cycle device is installed, and the food is fresh by maintaining the inside of the refrigerator / refrigerated state by absorbing external heat while the low pressure liquid refrigerant changes into a gaseous refrigerant in the evaporator 40 process. Will be kept. Figure 2 schematically shows an example of the refrigerator, as shown in the refrigerator, the upper freezer compartment 61 of the main body 60 is formed, the refrigerating chamber 62 is formed on the lower portion of the refrigerator and the compressor ( 10) The machine room 63 in which the back is provided is formed. An evaporator 40 and a blowing fan 70 are installed on the rear surface of the freezing chamber 61, and a cold air duct 64 is formed between the freezing chamber 61 and the refrigerating chamber 62 to communicate with the evaporator 40. . And one side of the main body 60 is provided with a door 80 for opening and closing the refrigerating chamber 62 and the freezing chamber 61, respectively.

In the refrigerator, the cold air formed in the evaporator 40 circulates inside the freezing chamber 61 by the blower fan 7C), and a part of the cold air flows downward through the cold air duct 64, so that the inside of the refrigerator compartment 62 After circulating, the refrigerant is re-introduced into the evaporator 40 through the cold air duct 64, and the freezing chamber 61 and the refrigerating chamber 62 are kept cold while repeating the circulation.

However, the conventional refrigerator implemented by mounting the refrigeration cycle apparatus as described above, the compressor 10 generating noise in the refrigeration cycle apparatus is installed in the machine room 63 and the evaporator 40 for generating cold air is the freezing chamber 61. Alternatively, the condenser 20 installed in the refrigerating chamber 62 and generating heat has a disadvantage in that the structure is complicated and heat loss is provided by installing the condenser 20 on the rear surface so as to radiate heat well and connecting each component with the refrigerant pipe 50. .

It is therefore an object of the present invention to provide a refrigerator which can simplify the overall configuration and improve the efficiency.

1 is a piping diagram of a refrigeration cycle apparatus shown in the abbreviation around the main components constituting a typical refrigeration cycle apparatus

2 is a cross-sectional view showing an example of a conventional refrigerator;

3 is a cross-sectional view showing a refrigerator of the present invention;

Figure 4 is a cross-sectional view showing a removable sterling cooler mounted on the refrigerator of the present invention.

* Explanation of symbols for main parts of the drawings

60: body 61: freezer

62: refrigerator compartment 63: machine room

70 ': fan motor 90: separate sterling cooler

91: expansion portion 92: compression portion

92 ': drive unit 80: door

100 connector

In order to achieve the object of the present invention as described above, a freezer compartment is formed in the upper portion, a refrigerating chamber is formed in communication with the freezer compartment in the lower portion, and a main body formed of a machine chamber formed in the lower rear side, and the working gas is expanded to generate external heat. A separate sterling cooler which is installed even when the expansion part to be absorbed and the working gas is compressed and the driving part for generating a driving force and the driving part for generating a driving force is separated and connected to the connecting pipe is located in the freezer compartment, and is coupled to one side of the main body Provided is a refrigerator comprising a door.

One side of the freezer compartment is provided with a refrigerator, characterized in that a fan motor for circulating cold air generated in the expansion unit is installed.

Hereinafter, the refrigerator according to the embodiment shown in the accompanying drawings of the present invention will be described.

As shown in FIG. 3, the refrigerator of the present invention includes a freezer compartment 61 and a refrigerator compartment 62 formed at a lower portion thereof in communication with the freezer compartment 61 and having a machine chamber 63 formed at an anatomical rear surface thereof. The main body 60, an expansion unit 91 for absorbing external heat as the working gas is expanded, a compression unit 92 for generating heat while the working gas is compressed, and a driving unit 92 'for generating a driving force are separated. A detachable sterling cooler 90 installed with the expansion part 91 connected to the connection pipe 100 in the freezing compartment 61 and the driving part 92 ′ installed in the machine room 63, and the main body 60. It is configured to include a door 80 coupled to one side of.

The freezing chamber 61 and the refrigerating chamber 62 hinged inside the main body 60 are formed to have a predetermined internal space, and the freezing chamber 61 and the refrigerating chamber 62 are formed to communicate with each other so that cold air flows. The machine room 63 is also formed to have a predetermined space. The heat insulating material is inserted into the main body 60. The door is coupled to one side of the main body 60 to open and close the freezing chamber 61 and the refrigerating chamber 62. One side of the freezing chamber 61 is provided with a fan motor 70 ′ for circulating cold air generated in the expansion part 91 installed in the freezing chamber 61.

Figure 4 schematically shows an example of the separate sterling cooler, as shown in the drawing, the inflation portion 91 is formed to have a predetermined predetermined internal space, the displacer 98 therein is a spring ( Supported by S) and the working gas is expanded by the movement of the displacer 98, one side thereof is in communication with the connecting pipe (100). The drive unit 92 ′ is formed by a motor 94, and the compression unit 92 includes a piston 95 reciprocating by the motor 94, and the compression space 96 is expanded. It is separated from one side of the part 91 and the separated compression space is connected and communicated by the connection pipe (100).

Reference numeral 97 is an expansion space, 93 is a body.

Hereinafter, the operational effects of the refrigerator of the present invention will be described.

In the refrigerator of the present invention, when a current is applied to the motor 94 of the driving unit of the separate sterling cooler 90, the piston 95 is reciprocated by the operation of the motor 94. At this time, when the piston 95 moves toward the compression space 96 in the compression part 92, the working gas in the compression space 96 is compressed and the working gas therein is expanded through the connecting pipe 100. After moving to the inside, it flows through the gas flow path (not shown) and the regenerator (not shown) through the space formed on the upper side of the displacer 98 to the expansion space 97 inside the inflation portion 91. Pressure with the flow causes the displacer 98 to slowly move upwards. In addition, when the piston 95 moves in the opposite direction, the working gas inside the expansion part 91 moves to the compression space 96 side, and the displacer 98 moves downward along with the flow of the working gas. In addition to compressing the working gas in the 98, the working gas in the expansion portion 91 is expanded. As this operation is repeated, the working gas is compressed in the compression space 96 in the compression part to generate heat, and the working gas is expanded in the expansion space 97 in the expansion part to absorb external heat. When cold air is generated while absorbing external heat from the expansion part 91, the cold air circulates through the freezing chamber 61 and the refrigerating chamber 62 by driving the fan motor 70 ′, thereby freezing the chamber 61 and the refrigerating chamber 62. Will keep it cool.

The present invention generates the cold air by using a separate Stirling cooler including the expansion portion 91, the compression portion 92 and the drive portion 92 'makes the structure simple and simple. In addition, since the working gas is moved by connecting the expansion unit 91 in which the working gas is expanded and the compression unit 92 in which the working gas is compressed by the connecting pipe 100, the loss due to the movement path of the working gas compared to the conventional structure. Can be reduced.

The expansion unit 91 for generating cold air can be installed at any position, and vibration is less generated than in the conventional refrigerator. In addition, by directly placing the expansion portion 91 in the cooling portion to reduce the heat loss.

As described above, the refrigerator according to the present invention not only makes the structure compact because the overall configuration is simple, but also reduces the manufacturing cost by simplifying the low-temperature side heat exchanger by placing the expansion part directly at the cooling part. . In addition, there is an effect to increase the efficiency by minimizing the heat loss.

Claims (2)

A freezer compartment is formed at one side, and a refrigerating compartment is formed in communication with the freezer compartment. The main body includes a machine compartment formed at a lower rear side, and an expansion unit for absorbing external heat as the working gas is expanded and the working gas are compressed to generate heat. A compression unit and a drive unit for generating a driving force, the expansion unit connected to the compression unit and the connection pipe is installed to be located in the freezing compartment, and the compression unit and the driving unit are coupled to one side of the main body, and the compression unit and the driving unit installed in the machine room. Refrigerator comprising a door that is configured. The refrigerator of claim 1, wherein a fan motor for circulating cold air generated in the expansion part is installed at one side of the freezing compartment.