KR100186434B1 - Accumulator of a closed type rotary compressor - Google Patents

Abstract

The present invention relates to the accumulator (10) of the hermetic rotary compressor, in particular to reduce the vibration and noise generated in the process of separating the oil contained in the refrigerant flowing into the compressor, the refrigerant inlet communicating with the evaporator on the top of the sealed container ( 12a) is formed, and the inlet opening 12a is provided with a filtration screen 13, and the lower lid 16 which forms the support tube 18 extended by a predetermined length on the inner axis of the sealed container is sealed. A suction pipe 15 coupled to the lower end of the container and flowing out of the sealed container to discharge the purified and purified refrigerant into the compressor cylinder 7 is tightly inserted into and coupled to the support tube 18 of the lower cover 16. As the suction pipe 15 is located at the center, the liquid refrigerant is prevented from flowing into the cylinder 7 of the compressor to prevent abnormal explosion in the cylinder 7. High, vibration and noise is significantly reduced to improve the reliability of the product, and also to the accumulator of the hermetic rotary compressor that is easy to assemble work to reduce the productivity and manufacturing cost.

Description

Accumulator of Hermetic Rotary Compressor

The present invention relates to an accumulator of a hermetic rotary compressor, and more particularly, to an accumulator of a hermetic rotary compressor for reducing vibration and noise generated in the process of separating oil contained in a refrigerant flowing into the compressor.

A typical hermetic rotary compressor has a hermetic container 1 forming an outer case, as shown in FIG. 2, and is composed of a stator 2 and a rotor 3 on the inside of the hermetic container 1. The electric mechanism unit is installed, and the upper shaft (5) and the lower portion of the rotating shaft (4) and the lower portion of the rotating shaft (4) is fixed to the inner diameter of the rotor (3) in the inner lower portion of the sealed container (1) The cylinder 7 in which the bearing 6 is coupled by a bowl and the rolling piston 8 which rotates while contacting the inner diameter of the cylinder 7 and the high pressure inside the cylinder 7 are always in contact with the rolling piston 8. Compressor section is formed of a vane (not shown) and the like to serve as the separation plate of the low pressure.

In addition, a discharge tube 9 through which the high-pressure refrigerant gas formed in the sealed container 1 is discharged is formed in the upper part of the sealed container 1, and the lower part of the sealed container 1 is sprayed inside to lubricate and In addition to cooling, oil circulating in the refrigeration cycle is filled, and the oil and refrigerant mixed in the refrigerant are accumulated at the lower side of the sealed container 1 before the refrigerant discharged from the evaporator during the refrigeration cycle flows into the compressor. The accumulator 10 which isolate | separates and installs is provided.

In the hermetic rotary compressor as described above, the refrigerant flowing out of the accumulator 10 flows into the compression mechanism and is compressed and discharged as a high temperature and high pressure refrigerant gas, and the discharged refrigerant gas is discharged in an upper portion of the sealed container 1. Discharged through (9).

The conventional structure of the accumulator 10 of the hermetic rotary compressor as described above is as follows.

As shown in FIG. 2, the conventional accumulator has a container-shaped body having an inlet 12a connected to an evaporator (not shown) of a refrigerating cycle at an upper portion thereof. A screen 13 for filtering is provided, and a plurality of through holes are formed in the lower portion of the screen 13 to support the screen 13. In addition, the upper end is opened in the body and the suction pipe 15 is connected to the cylinder 7 of the compression mechanism through the lower portion of the body is installed, the oil is accumulated in the suction pipe 15 located in the body outflow The oil recovery hole 15a is formed, and the suction pipe 15 is supported by the lower cover 16.

3 illustrates another embodiment of the accumulator 10, and has a structure in which an intermediate support 17 is press-welded to an upper end of the suction pipe 15 inside the accumulator 10.

Accumulator 10 as described above is the oil and gas discharged from the evaporator with the operation of the compressor when the refrigerant in the liquid combination state is introduced into the body through the inlet (12a) and the screen 13, through the screen (13) The foreign matter is filtered, the filtered oil and the liquid refrigerant is directly lowered, the oil is discharged through the oil recovery hole (15a), the refrigerant is introduced into the cylinder (7) through the suction pipe (15). In addition, the liquid refrigerant gathered in the lower part is vaporized and introduced into the cylinder 7 through the suction pipe 15.

However, in the conventional accumulator as described above, through-holes formed in the screen holder 14 are formed at the end side of the suction pipe 15 so that the liquid refrigerant flowing through the screen 13 when introduced into the suction pipe 15 is introduced. Is sucked into the cylinder, there is a problem of generating an abnormal explosion sound in the cylinder (7).

In particular, the conventional accumulator shown in FIG. 2 has a problem in that vibration noise is aggravated because the end portion of the suction pipe 15 that actually vibrates most severely is not fixed.

In order to improve such a problem, the structure of the accumulator as shown in FIG. 3 has been presented, but this is because a separate intermediate support (17) for supporting the suction pipe (15) is forcibly pressed and welded, so that an unnecessary additional process occurs. Production is difficult, and there was a problem that the production cost increases accordingly.

Accordingly, the present invention has been made to solve the above problems, by providing a means to firmly support the suction pipe without any additional process to minimize the generation of vibration and noise, by fixing the suction pipe in the center of the compressor It is an object of the present invention to provide an accumulator structure of a hermetic rotary compressor in which liquid refrigerant is not introduced.

1 is a longitudinal sectional view of a hermetic rotary compressor to which the accumulator according to the present invention is applied.

2 is a longitudinal sectional view of a hermetic rotary compressor to which an accumulator according to the prior art is applied.

3 is a longitudinal sectional view showing another embodiment of the accumulator according to the prior art.

* Explanation of symbols for main parts of the drawings

7: cylinder 8: rolling piston

10: accumulator 12a: inlet

13: Screen 14: Screen Holder

15: suction pipe 15a: oil recovery work

16: lower cover 18: support tube

Accumulator of the hermetic rotary compressor according to the present invention for achieving the above object is formed a refrigerant inlet for communicating with the evaporator on the top of the sealed container, the screen for filtration is installed inside the inlet, a predetermined length on the inner central axis of the sealed container. The lower cover forming the extended support tube is coupled to the lower end of the sealed container, and the suction tube for flowing out the purified and purified refrigerant into the closed cylinder into the compressor cylinder is tightly inserted into the support tube of the lower cover. It is.

In addition, the length of the lower cover support tube is characterized in that it is formed to support more than two-thirds of the length of the suction pipe inserted into the sealed container.

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

As shown, the accumulator 10 of the hermetic compressor according to the present invention includes a cylindrical hermetic container, a suction tube 15 inserted into the hermetic container and connected to the inside of the cylinder 7 of the compressor, and inside the hermetic container. The screen holder 14 positioned above the end of the inserted suction pipe 15 and the screen 13 coupled to the screen holder 14 are configured as in the related art.

That is, a cylindrical closed container having an inlet 12a connected to an evaporator (not shown) of a refrigerating cycle at the top, and a screen 13 for filtering dirt is installed under the inlet 12a, the screen (13) In the lower part, a plurality of through holes are formed therein, and a screen holder 14 supporting the screen 13 is provided. In addition, an upper end is opened in the sealed container and a suction pipe 15 connected to the cylinder 7 through the lower portion of the sealed container is installed, and oil accumulated in the suction pipe 15 located inside the sealed container is leaked out. The oil return hole 15a is formed, and the suction pipe 15 is supported by the lower cover 16 which forms the support pipe 18 extended on the inner central axis of the sealed container.

Referring to the operation of the present invention having the structure as described above are as follows.

When the refrigerant passing through the evaporator constituting the refrigeration cycle flows into the inlet 12a of the accumulator 11, dirt is filtered through the screen 13, and the liquid refrigerant not mixed with the vaporized refrigerant in the filtered refrigerant and oil mixed therethrough Flow through the ball falls to the lower portion of the sealed container, the air coolant is introduced into the suction pipe 15 through the suction hole is sucked into the cylinder 7 of the compressor is compressed. The liquid refrigerant dropped to the lower part of the sealed container is vaporized and introduced into the suction hole, and oil is introduced into the cylinder 8 through the oil recovery hole 15a when a predetermined amount or more is filled.

In this case, the suction pipe 15 generates vibration noise as the vibration sound generated in the cylinder 7 is transmitted. In the present invention, the suction tube 15 does not need to install a separate intermediate support 17 to the existing lower cover 16. The suction pipe 15 is firmly supported by the formed support pipe 18, thereby preventing vibration and noise transmitted from the compressor.

The effects of the present invention that can be expected by the configuration and action as described above are as follows.

The accumulator of the hermetic rotary compressor according to the present invention prevents the liquid refrigerant from flowing into the cylinder 7 of the compressor because the suction pipe 15 is located at the center of the compressor, thereby preventing abnormal explosion in the cylinder 7. In addition, the vibration and noise is significantly reduced to improve the reliability of the product, and also the assembly work is simple, there is an effect that can reduce the productivity and manufacturing cost.

Claims (2)

A refrigerant inlet for communicating with the evaporator is formed on the upper part of the sealed container, and a filtration screen is installed inside the inlet, and a lower cover having a support tube extended by a predetermined length on the inner center axis of the sealed container is coupled to the lower end of the closed container. The accumulator of the rotary compressor of claim 1, wherein a suction pipe for flowing out the refrigerant separated into the sealed container and flowing out into the compressor cylinder is tightly inserted into the support pipe of the lower cover. The accumulator of the hermetic rotary compressor according to claim 1, wherein the lower cover support tube is formed to support at least two thirds of the suction tube length inserted into the sealed container.