KR200159693Y1 - Connecting pipe structure in ref. - Google Patents

Abstract

The present invention relates to a piping method of the connection pipe between the compressor and the hot pipe of the refrigerator, the piping structure of the connection pipe of the existing refrigerator is bent downward at the inlet portion drawn parallel to the floor from one side of the compressor and bypassed by the evaporation plate. Compressor is operated by a simple spool consisting of the first middle part which rises vertically and the second middle part that is vertically bent upward from the upper part of the machine room and the outlet part connected to the hot pipe side. There has been a problem that the vibration transmitted from the hot pipe as it is transmitted to the hot pipe as it is, and to solve this problem, the first intermediate portion is formed by bending vertically upward from the inlet portion drawn out parallel from the compressor side to the bottom to solve this problem. Bend vertically from the first intermediate portion Vertically bent upwards to the position beyond, and then vertically bent upwards to the compressor, and then horizontally bent and vertically bent downwards to form a second intermediate part by vertically bending the compressor to form a second intermediate part. The second intermediate part and the hot pipe Piping structure consisting of side and outlet.

Description

Connecting pipe of the refrigerator

The present invention relates to a connection pipe of a refrigerator, and more particularly, to a connection pipe of a refrigerator, which is installed between a compressor and a hot pipe of a refrigerator and passes a high-temperature, high-pressure refrigerant gas discharged from the compressor.

In general, a refrigerator is provided with a cooling system for supplying cold air at a time, and a machine room 30 is formed at the bottom of the refrigerator, as shown in FIG. 1, and a compressor 15 for compressing a refrigerant at a high temperature and high pressure therein. The condenser 20 for condensing the high temperature refrigerant gas into a liquid refrigerant and a cooling fan 25 for forcibly cooling the compressor 15 and the condenser 20 are installed.

In addition, since the compressor 15 disposed in the machine room 30 of the refrigerator has a function of compressing the refrigerant at high temperature and high pressure, noise and vibration are generated during operation. 40) has become the main cause of noise and vibration.

Therefore, minimizing the vibration of the compressor 15 is the best way to reduce the vibration of the refrigerator (40).

Looking at the path through which the vibration of the refrigerator 40 is transmitted, the structure of the fixing part provided at the bottom of the body of the compressor 15 and the fixing part for supporting the compressor 15 is mounted with rubber, a spring, and the like through the compressor. (15) Although the vibration is significantly reduced and transmitted, since the suction pipe, which is a refrigerant return passage, and the connection pipe, which is a refrigerant discharge passage, are directly connected to the compressor 15, the vibration of the compressor 15 is immediately transmitted. It is desirable to make the pipe state a vibration absorbing structure so as to minimize the transmission.

As shown in FIG. 2, the connection pipe of the refrigerator may be bent downward at an inlet portion 1 ′ drawn out from one side of the compressor 15 in parallel with the bottom to bypass the evaporation plate, and then vertically raised. 2 ') and the second intermediate portion 3' vertically bent above the compressor 15 at the upper side of the machine room 30 and the outlet portion 4 'connected to the hot pipe side.

Therefore, when the compressor 15 of the refrigerator is operated, the vibration generated from the compressor 15 is transferred to the hot pipe disposed on the front of the refrigerator as it is on the connection pipe 10 to cause shaking of the refrigerator 40 main body and the door. There was a problem.

The present invention has been made in view of such a conventional problem, the connection pipe of the refrigerator having a geometrical shape modified to reduce the vibration caused by the compressor operation during operation of the cooling system of the refrigerator to the refrigerator body through the hot pipe. The purpose is to provide.

This object of the present invention is to be bent vertically upward from the inlet portion to be drawn out parallel to the floor from one side of the compressor to form a middle portion, and bend vertically from the first middle portion to extend horizontally to the position beyond the top of the compressor second It is achieved by forming an intermediate portion and bending upwardly vertically at the second intermediate portion and vertically bent downwardly above the compressor 15 to form the second intermediate portion, the lower pipe side and the outlet portion.

1 is a rear view showing a machine room of a general refrigerator,

2 is a main part of a machine room of a refrigerator showing a piping state of a connection pipe according to the prior art,

3 is a main part of the machine room of the refrigerator showing the piping state of the connection pipe according to the present invention.

* Explanation of symbols for main parts of the drawings

1: entrance part 2: first intermediate part

3: second intermediate portion 4: exit portion

10: connection pipe 15: compressor

30: machine room

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the present invention will be described in more detail.

3 is a rear view of the refrigerator showing a pipe connection state according to the present invention, and other devices in the machine room are omitted for convenience.

As shown in the figure, a compressor 15 is installed at one side of the machine room 30 of the refrigerator.

In addition, two refrigerant pipes are connected to one side of the outer circumference of the compressor 15, and only a part of the upper portion of the compressor 15 is connected to the suction pipe 11 through which the circulating refrigerant flows from the cooler, and the compressor 15 and the hot pipe connected to the lower side thereof. And a connection pipe 10 used as a passage for feeding the hot pipe to the high-temperature, high-pressure refrigerant gas discharged from the compressor 15.

The connecting pipe 10 has an inlet 1 connected in parallel with the floor from one side of the compressor 15, and a first intermediate part 2 which is bent upwardly from the inlet 1 and extends up to the upper side of the machine room 30. ), A second intermediate portion 3 extending horizontally from the upper end of the first intermediate portion 2 to the position above the compressor 15 and extending horizontally to a position beyond the compressor 15, and the second intermediate portion. It is composed of an outlet portion 4 which is bent upwardly vertically in the section 3 and again vertically bent upwardly over the compressor 15 and connected to the hot pipe side.

Since the inlet 1 is a site where a large load is applied at the time of initial startup of the compressor 15 and the refrigerant gas of high temperature and high pressure is discharged, the vibration is transmitted most strongly, and thus, the intrinsic vibration according to the operation of the compressor 15 itself. In order to attenuate the vibration generated from the flow resistance caused by the discharge of the refrigerant gas, the state parallel to the discharge port of the compressor 15 must be maintained for a predetermined length or more.

To this end, the inlet portion 1 preferably maintains a length of about 60 ± 10 mm in parallel with the discharge port of the compressor (15).

The first intermediate portion 2 extends upwardly substantially perpendicularly to the inlet portion 1 and is drawn out to an adjacent position of the ceiling surface of the machine room 30, and is vertically extended from the end of the inlet portion 1. In order to form a somewhat curved shape, the impact of the discharged refrigerant is alleviated to reduce the vibration caused by the impact.

In addition, the refrigerant gas passing through the inlet portion (1) is gradually introduced into the first intermediate portion (2), the discharge pressure is somewhat reduced and as the upward direction is gradually reduced pressure and stabilized.

To this end, the first intermediate portion 2 is preferably about 2 times the length of the inlet portion 1, and the zoom is preferably about 120 ± 10 mm.

The second intermediate portion 3 is to further stabilize the refrigerant gas stabilized through the first intermediate portion 2 to minimize vibration caused by the flow of the refrigerant gas. The second intermediate portion 3 is disposed below the ceiling surface of the machine room 30. Accordingly, it is parallel to the inlet part 1 and extends toward the one side wall of the machine room 30 through the upper side of the compressor 15, and zooms to about twice the length of the first intermediate part 2. For example, about 240 ± 10 mm.

The outlet part 4 is a part for completely removing the pipe vibration caused by the refrigerant gas pumped through the second middle part 3 and transferring it to the hot pipe side, and from the end of the second middle part 3 to the machine room. After being vertically bent toward the ceiling side of (30) and then again parallel to the second intermediate portion 3 in the opposite direction as the length of the first intermediate portion 2 and at the same time extending vertically again The end portion is connected to the hot pipe of the refrigerator after being parallel with the second intermediate portion 3 and extending in the same direction as the excretion direction.

Such a connection pipe 10 is the vibration of the compressor 15 when the compressor 15 is operated when the vibration is transmitted to the connection pipe 10, the vibration of the inlet (1), the first intermediate portion (2), Passing through the intermediate part 3 and the outlet part 4 is significantly absorbed and reduced and finally delivered to the hot pipe.

The degree of attenuation by the transmission path was measured 10 times by vibration of the connecting pipe 10 during the operation of the compressor 15 by a known vibration test method, and the average value thereof is shown in the table below.

Table 1 is a conventional connection pipe, Table 2 is a vibration test result of the connection pipe according to the present invention.

In comparison with the above measurement results, it can be seen that compared with the existing connection pipe, the connection pipe 10 of the present invention evenly reduced the vibrations during the operation of the compressor 15 in each direction (x, y, z) and each position. have.

As described in detail above, the connection pipe of the present invention is optimized by improving the piping structure of the inlet, the first middle part, the second middle part, and the outlet part, so that the vibration during the compressor operation is greatly reduced as it passes through the connecting pipe. It is a useful design that can significantly reduce the vibration of the refrigerator.

Claims (1)

In the connecting pipe of the refrigerator connecting the compressor 15 and the hot pipe, an inlet 1 connected in parallel from one side of the compressor 15 and a vertically bent upward from the inlet 1 are machine room 30. The first intermediate part 2 which extends to about twice the length of the inlet part 1 and an upper side thereof, and is horizontally extended above the compressor 15 from an upper end of the first intermediate part 2 to the machine room 30. The second intermediate portion 3 and the second intermediate portion (3), which are kept flat with the inlet heel (1) along the adjacent lower side of the ceiling surface and extend about two times the length of the first intermediate portion (2). It is bent vertically from the end of 3) toward the ceiling side of the machine room 30, and then again parallel to the second intermediate part 3 in the opposite direction to the length of the first intermediate part 2 and at the same time again. After extending vertically, it is parallel with the second intermediate portion 3 and is in the same direction as the excretion direction Connecting pipe of the refrigerator, characterized in that it consists of an outlet part (4) connected to the hot pipe of the refrigerator after extending in the direction of the incense.