KR20070113052A - Kimch refrigerator - Google Patents

Abstract

A kimchi refrigerator having an integrated suction pipe is provided to install a T-shaped connecting pipe between suction pipes to simplify a manufacturing process and parts. A main body cabinet(33) has two or more inner casings(37) for storing kimchi, and a cooling element. Evaporator pipes(44,45) are installed at a circumference of each inner casing, wherein a refrigerant cooled by the cooling element circulates through the evaporator pipes. A plurality of suction pipes(47,48,49) connect the evaporator pipes with the cooling element. A T-shaped connecting pipe(46) collects the plurality of suction pipes. The suction pipe includes a coil part(50) wound in a predetermined number.

Description

Kimchi refrigerator with integrated suction pipe {Kimch refrigerator}

1 is a cross-sectional view of a kimchi refrigerator according to the prior art,

Figure 2 is a cross-sectional view showing the kimchi refrigerator in the kimchi refrigerator having an integrated suction pipe according to the present invention,

Figure 3 is a perspective view of the suction pipe and the T-shaped connector in the kimchi refrigerator having an integrated suction pipe according to the present invention.

(Explanation of symbols for the main parts of the drawing)

31; Kimchi Refrigerator 32; Door opening

33; Main cabinet 34; door

35; Outer casing 36; storeroom

37; Inner casing 38; Bottom plate

39; Partition plate 40; machine room

41; Compressor 42; heater

43; Condenser 44; First evaporator pipe

45; Second evaporator pipe 46; T-shaped connector

47; First suction pipe 48; 2nd suction pipe

49; Third suction pipe 50; Coil

The present invention relates to a refrigerator, and more particularly, to a kimchi refrigerator having an integrated suction pipe provided with a T-shaped connecting pipe at the point where the suction pipe joins.

1 is a cross-sectional view of a kimchi refrigerator according to the prior art.

As shown in FIG. 1, the conventional kimchi refrigerator 1 includes a main cabinet 3 having an upwardly open door opening 2 and a rotatably installed upper part of the main cabinet 3. It has the door 4 which opens and closes 2).

First, the main body cabinet 1 has an outer casing 5 forming an outer appearance, and a tubular interior which is housed in the outer casing 5 with an outer casing 5 and a foam material impact interval to form a storage compartment 6. The machine room 10 is formed by a partition plate 9 having a casing 7 and arranged in the lower region of the outer casing 5 with a lower plate 8 of the inner casing 7 and a foam material filling gap therebetween.

In the machine room 10, a compressor 11 for compressing a refrigerant at a high temperature and high pressure is provided, and in the foam filling space formed between the outer casing 5 and the inner casing 7, heat is generated to store the storage chamber 6 The storage chamber 6 by using a heater 12 for raising the internal temperature in the cavity 11, a condenser 13 for receiving the compressed refrigerant from the compressor 11 and condensing it into a liquid phase, and a refrigerant compressed from the compressor 11. First and second evaporator pipes 14 and 15 for cooling the internal temperature are provided.

The first and second evaporator pipes 14 and 15 have a circular cross section and are spirally wound along the circumferential direction of the inner casing 7 so as to contact the outer wall surface of the inner casing 7.

As a result, cool air of the refrigerant flowing in the first and second evaporator pipes 14 and 15 is transferred to the inner casing 7 to exchange heat with the air in the storage chamber 6 to form a temperature in the storage chamber 6 at a low temperature. do.

Meanwhile, the collecting pipe 16 receives the refrigerant from the first and second evaporator pipes 14 and 15 and provides the refrigerant to the compressor 11.

Specifically, the collecting pipe 16 is provided in the machine room 10 is installed at the point where the first and second suction pipes 17 and 18 connected with the first and second evaporator pipes 14 and 15, The refrigerant in the first and second suction pipes 17 and 18 joins through the collecting pipe 16.

In addition, the third suction pipe 19, which is composed of one through the collecting pipe 16, is located in the machine room 10 and connected to the compressor 11.

In addition, the first and second suction pipes 17 and 18 have a separate refrigerant circulation structure, and the refrigerant is joined in the collecting pipe 16.

However, the conventional Kimchi refrigerator requires a separate part for collecting the first and second suction pipes 17 and 18, and the first and second suction pipes 17 and 18 are connected to the collecting pipe 116. The two places need to be welded to connect, which leads to a complicated manufacturing process.

The present invention has been made in order to solve the above problems, it is an object of the present invention to provide a kimchi refrigerator having an integrated suction pipe is a simple manufacturing process and does not require a separate part.

According to an aspect of the present invention for achieving the above object, the body cabinet is provided with two or more inner casing and cooling means for storing kimchi; An evaporator pipe installed around each of the inner casings and circulating a refrigerant cooled by the cooling means; A suction pipe connecting the evaporator pipe and the cooling means; And a tee-shaped connecting pipe for collecting the plurality of suction pipes, wherein the suction pipes further include a coil part wound in a predetermined number.

In addition, the coil unit may be made of any one of a rectangle, a circle, an oval, and a pentagon.

In addition, each of the coil portion may be made of the same size or different sizes.

Hereinafter, with reference to the accompanying drawings illustrating a preferred embodiment of the kimchi refrigerator piping structure according to the present invention.

Figure 2 is a cross-sectional view showing a kimchi refrigerator in a kimchi refrigerator having an integrated suction pipe according to the present invention, Figure 3 is a perspective view showing a suction pipe and a tea-shaped connector in the kimchi refrigerator having an integrated suction pipe according to the present invention. .

As shown in FIGS. 2 to 3, the kimchi refrigerator 31 has a main cabinet 33 having an upwardly open door opening 32, and is rotatably installed at an upper portion of the main cabinet 33. It has the door 34 which opens and closes 32.

First, the main body cabinet 33 has an outer casing 35 for forming an outer appearance, and a cylindrical interior for accommodating the outer casing 35 and the outer casing 35 with a foam material impact interval to form a storage compartment 36. The machine room 40 is formed by a partition plate 39 having a casing 37 and arranged in a lower region of the outer casing 35 with a lower plate 38 of the inner casing 37 and a foam material filling gap therebetween.

In the machine room 40, cooling means and heating means are provided, and the cooling means and the heating means are foamed material formed between the compressor 41 for compressing the refrigerant at high temperature and high pressure, and the outer casing 35 and the inner casing 37. In the filling space, a heater 42 which generates heat to raise the internal temperature in the storage chamber 36, a condenser 43 which receives the compressed refrigerant from the compressor 41 and condenses it into a liquid phase, and the compressor 41. And the first and second evaporator pipes 44 and 45 for cooling the temperature inside the storage chamber 36 using the refrigerant compressed from the same.

The first and second evaporator pipes 44 and 45 have a circular cross section and are spirally wound along the circumferential direction of the inner casing 37 so as to contact the outer wall surface of the inner casing 37.

As a result, the cool air of the refrigerant flowing inside the first and second evaporator pipes 44 and 45 is transferred to the inner bouquet ys 37 to exchange heat with air in the storage chamber 36 to form a low temperature in the storage chamber 36. Done.

Meanwhile, the tee-shaped connecting pipe 46 is installed at the lower region of the outer casing 35 and is provided at a point connecting the first and second suction pipes 47 and 48.

Specifically, the tee-shaped connecting pipe 46 is provided in the foam material provided between the inner casing 37 and the partition plate 39.

Additionally, the tee connector 46 is installed at the connection point of the first and second suction pipes 47 and 48 connected to the first and second evaporator pipes 44 and 45, and the tee connector is provided. Through 46, the refrigerant in the first and second suction pipes 47 and 48 joins.

In addition, the third suction pipe 49 formed as one through the T-shaped connecting pipe 46 is located in the machine room 40 and connected to the compressor 41.

In addition, the first and second suction pipes 47 and 48 are welded to the tee-shaped connecting pipe 46, respectively, and the type pipe portion 46 is connected to the third suction pipe 49 again.

Specifically, the first, second and third suction pipes 47, 48 and 49 and the T-shaped connecting pipe 46 are connected to each other and integrated.

On the other hand, it is preferable that the first and second suction pipes 47 and 48 are provided in the tee-shaped connecting pipe 46 after the coil part 50 is formed.

Specifically, the first and second suction pipes 47 and 48 are provided in the T-shaped connecting pipe 46 after the coil part 50 is formed to completely evaporate the refrigerant flowing in the pipe.

In an embodiment, the coil unit 50 may be made of any one of a rectangle, a circle, an oval, and a pentagon.

Specifically, the coil unit 50 may be formed in a rectangular, circular, elliptical, pentagonal shape in the case of unavoidable due to the internal structure of the kimchi refrigerator, it may be made of other shapes.

In addition, the coil part 50 is not easily deformed due to the rigidity of the first and second suction pipes 47 and 48 when the coil part 50 is wound in a circular shape, and thus the first, second, and first parts made of one assembly are formed. 3 Suction pipes (47, 48, 49) and the T-shaped connecting pipe (46) facilitates handling and logistics movement.

In an embodiment, the coil portions 50 of the first and second suction pipes 47 and 48 may be the same size or different sizes.

Specifically, when the number of times the first and second suction pipes 47 and 48 having separate refrigerant circulation structures are wound on the inner casing 37 is different, the nose is inversely proportional to the number of times wound on the inner casing 37. The number of turns of the portion 50 is determined.

 On the other hand, the operation of the kimchi refrigerator having an integrated suction pipe according to the present invention is as shown in FIG.

The refrigerant flowing into the suction port (not shown) of the compressor 41 provided in the machine room 40 is compressed and discharged into a high-temperature, high-pressure gas state from a low-temperature, low-pressure gas state.

At the same time, the refrigerant discharged by being connected to the compressor 41 through a pipe is condensed through the condenser 43, and the condensed refrigerant cools the temperature inside the storage compartment 36 through an expansion valve (not shown). And the second evaporator pipes 44 and 45.

In addition, the refrigerant heat exchanged through the first and second evaporator pipes 44 and 45 may be joined in the T-shaped connecting pipe 46 via the first and second suction pipes 47 and 48.

In addition, the joined refrigerant is sucked back into the compressor 41 via the third suction pipe 49 to generate a new refrigerant cycle.

Accordingly, the kimchi refrigerator having an integrated suction pipe according to the present invention has an advantage that the manufacturing process is simplified by providing a T-shaped connecting pipe 46.

The present invention relates to a kimchi refrigerator having an integrated suction pipe. Since the T-shaped connecting pipe is integrally provided between the suction pipes, the manufacturing process and the parts are simplified, thereby reducing the cost.

In addition, since the suction pipe is wound in a circular shape, the present invention has an effect of facilitating the handling and movement of the suction pipe and the T-shaped connecting pipe which are integrally completed.

Claims (3)

A main body cabinet having at least two inner casings and cooling means for storing kimchi; An evaporator pipe installed around each of the inner casings and circulating a refrigerant cooled by the cooling means; A suction pipe connecting the evaporator pipe and the cooling means; And T-shaped connecting pipe for collecting the plurality of suction pipes, The kimchi refrigerator having an integrated suction pipe, characterized in that the suction pipe further comprises a coil portion wound in a predetermined number. The method of claim 1, Kimchi refrigerator having an integrated suction pipe, characterized in that each of the coil portion is made of any one of a square, a circle, an oval, a pentagon. The method of claim 2, The kimchi refrigerator having an integrated suction pipe further comprising each of the coil portion is made of the same size or different sizes.

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