KR20010054579A - Apparatus for connecting accumulator to rotary compressor - Google Patents

Abstract

PURPOSE: A connection structure between hermetic compressor and accumulator is provided to prevent refrigerant leakage and reduce manufacturing procedures and cost by improving structure of the suction assembly. CONSTITUTION: A suction assembly(70) for connecting a suction port(53) formed at a case(51) of the compressor and an outlet pipe(61) of an accumulator(60), includes a hollow adaptor section and a cylindrical pipe section extended from the adaptor section. The hollow adaptor section and the cylindrical pipe section are formed integrally. The suction assembly is manufactured by a press processing, and made up of steel. The suction assembly has inner and outer surfaces which are metal plated for weldability with the suction port and outlet pipe. The adaptor section of the suction assembly is fixed the suction port of the case through an electric resistance welding procedure(75). The cylindrical pipe section of the suction assembly is fixed to the outlet pipe of the accumulator through a lead welding(77). The adaptor section of the suction assembly has a suction pipe(55) for supplying the refrigerant introduced through the outlet pipe of the accumulator and the suction assembly into the compression chamber(P) of a cylinder(57).

Description

APAPATUS FOR CONNECTING ACCUMULATOR TO ROTARY COMPRESSOR}

The present invention relates to a connection structure of a hermetic compressor and an accumulator, and more particularly, to a connection structure of a hermetic compressor and an accumulator in which the structure of a section assembly used for connecting the inlet of the compressor case and the outlet pipe of the accumulator is changed.

1 is a longitudinal cross-sectional view of a rotary compressor to which a connection structure of a hermetic compressor and an accumulator according to the prior art is applied, FIG. 2 is a cross-sectional view showing part A of FIG. 1 in detail, and FIG. It is a cross section.

1 to 3, the connection structure between the hermetic compressor and the accumulator according to the prior art includes an inlet 13 for suctioning refrigerant from one side of the case 11 of the compressor 10 and accumulating the accumulator 20. ) Is provided with an 'L' type outlet pipe 21 for supplying the refrigerant passing through the accumulator 20 to the compressor 10, and the suction port 13 and the outlet pipe 21 are assembled into the assembly (30). Is connected by).

Here, the section assembly 30 is composed of an adapter 31 formed in the shape of a hollow cone, and a cylindrical pipe 33 inserted into the adapter 31, the adapter 31 and the pipe ( 33) is made of a steel material and a copper material, respectively, and is fixed to each other by the brazing welding material 35.

In addition, the adapter 31 of the section assembly 30 is fixed to the suction port 13 of the case 11 having the same steel material by electric resistance welding 37.

In addition, the pipe 33 of the section assembly 30 is fixed to the outlet pipe 21 of the accumulator 20 having the same material of the same material by the braze welding 39, the outlet pipe 21 and the pipe ( In the braze welding 39 of 39), no flux is used.

In addition, to supply the refrigerant sucked through the outlet pipe 21 and the assembly assembly 30 of the accumulator 20 to the adapter 31 of the assembly assembly 30 to the compression chamber (P) of the cylinder (15). Suction tube 14 is coupled.

However, in the conventional hermetic compressor and accumulator connection structure, the adapter 31 and the pipe 33 are fixed by welding to assemble the assembly assembly 30 through the assembly assembly 30. In order to connect the accumulator 10 and the accumulator 20, the adapter 31 and the pipe 33 need to be welded again. Therefore, the most basic leakage failure in the compressor due to thermal deformation generated through several welding processes is performed. There was a problem of becoming vulnerable.

That is, in the conventional connection structure, when the compressor 10 and the accumulator 20 are connected through the assembly assembly 30 as well as the leakage failure in the assembly assembly 30, the leakage defect of the compressor 10 is generated. There was a problem that a fatal defect occurs in the operation of the compressor 10 itself.

In addition, in the conventional connection structure, the assembly assembly 30 is composed of two components, the adapter 31 and the pipe 33, so that the adapter 31 and the pipe 33 are combined to the assembly assembly 30. Welding process to fix the adapter 31 to the suction port 13 of the compressor 10, welding process to fix the pipe 33 to the outlet pipe 21 of the accumulator 20 There is a lot of manufacturing process to go through such, and this has caused a problem that the assembly work of the compressor 10 is complicated and takes a lot of assembly time, the productivity is low.

In addition, in the conventional connection structure, the pipe 33 constituting the section assembly 30 is made of the same material, and the pipe 33 is connected to the adapter 31 of the section assembly 30 and the outlet pipe 21 of the accumulator 20. In order to fix the soldering material (35) and (39) to be fixed, relatively expensive copper materials and brazing materials were used, and there was a high manufacturing cost problem.

In order to solve this problem, a connection structure according to another conventional embodiment shown in FIGS. 4 and 5 has been developed. 4 is a cross-sectional view illustrating a connection structure between an hermetic compressor and an accumulator according to another embodiment of the prior art, and FIG. 5 is a cross-sectional view illustrating an assembly of a junction according to another embodiment of the prior art.

4 and 5, in the connection structure according to another embodiment of the prior art, the inlet 13 ′ formed in the case 11 ′ of the compressor and the outlet pipe 21 ′ of the accumulator have a cylindrical pipe ( 40) to be connected to each other. That is, the role of section assembly is performed only by the pipe 40.

Here, one end of the pipe 40 is fixed to the inlet 13 'of the case 11' by a silver solder welding 41 using a liquid flux, and the other end of the pipe 40 is an outlet pipe of the accumulator ( 21 ') is fixed by brazing welding 43 without using flux.

However, the connection structure according to another conventional embodiment as described above is able to connect the compressor and the accumulator with only the pipe 40, so that the number of parts and the manufacturing process are shortened, but the pipe 40 is connected to the suction port 13 'of the compressor. Since the welding of the silver solder using the liquid flux (41) must be carried out to fix it, the cost competitiveness is lowered due to the use of expensive silver solder, and the cleanliness management is difficult due to the liquid flux. In order to remove, there was a problem that a separate flux removal process must be added.

In addition, the above-described other conventional embodiments require the preparation of welding equipment and working environment equipment for silver solder welding 41 when the existing production line is configured for electric resistance welding, and deposition of the liquid flux. There was a problem that can not be avoided due to the welding defect and the leakage of the compressor caused by the irregularity.

In the above description, reference numeral 16 denotes a stator, reference numeral 17 denotes a rotor, reference numeral 18 denotes a rotating shaft, and reference numeral 19 denotes a rolling piston.

The object of the present invention devised in view of the above problems is to change the structure of the section assembly used to connect the inlet port of the compressor case and the outlet tube of the accumulator to completely eliminate the leakage defects caused by the section assembly It provides a connection structure between a hermetic compressor and an accumulator that simplifies the process and reduces manufacturing costs.

1 is a longitudinal sectional view of a rotary compressor to which a connection structure of a hermetic compressor and an accumulator according to the prior art is applied;

FIG. 2 is a cross-sectional view showing part A of FIG. 1 in detail;

3 is a cross-sectional view showing a section assembly according to the prior art,

4 is a cross-sectional view showing a connection structure of a hermetic compressor and an accumulator according to another embodiment of the prior art;

5 is a cross-sectional view showing a section assembly according to another embodiment of the prior art;

6 is a cross-sectional view showing a connection structure between the hermetic compressor and the accumulator according to the present invention;

7 is a cross-sectional view showing a section assembly according to the present invention.

<Explanation of symbols for the main parts of the drawings>

51 case 53 inlet

55 suction tube 57 cylinder

60: accumulator 61: outlet pipe

70: section assembly 71: adapter unit

73: pipe portion 75: electrical resistance welding

77: Lead welding

In order to achieve the object of the present invention as described above, and the suction port formed in the casing of the compressor by a caption assembly integrally formed to be made of a hollow cylindrical portion of the adapter portion, and a cylindrical pipe portion extending from the adapter portion; Provided is a connection structure of an accumulator and a hermetic compressor, wherein the outlet pipes of the accumulator are connected to each other.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

6 is a cross-sectional view showing a connection structure between the hermetic compressor and the accumulator according to the present invention, and FIG. 7 is a cross-sectional view showing a section assembly according to the present invention.

6 and 7, the connection structure between the hermetic compressor and the accumulator according to the present invention includes an adapter portion 71 having a cone shape having a hollow inside and a cylindrical pipe portion extending from the adapter portion 71. The suction port 53 formed in the casing 51 of the compressor and the outflow pipe 61 of the accumulator 60 are connected to each other by a cushion assembly 70 integrally formed to form a 73.

Here, the section assembly 70 is produced by press working, the material is made of steel.

In addition, the section assembly 70 is plated on both inner and outer surfaces for weldability with the inlet 53 and the outlet pipe 61 of the case 51.

In addition, the adapter portion 71 of the section assembly 70 is fixed to the suction port 53 of the case 51 by electric resistance welding 75, and the pipe section 73 of the section assembly 70 is an accumulator. It is fixed to the outflow pipe 61 of 60 by the brazing filler metal 77. As shown in FIG.

In addition, the adapter 71 of the assembly assembly 70 supplies the refrigerant sucked through the outlet pipe 61 and the assembly assembly 70 of the accumulator 60 to the compression chamber P of the cylinder 57. Suction tube 55 is coupled to.

As described above, the connection structure of the hermetic compressor and the accumulator according to the present invention is coupled to the inlet port 53 to connect the inlet port 53 of the compressor case 51 and the outlet pipe 61 of the accumulator 60. Since the adapter unit 71 and the pipe unit 73 coupled to the outlet pipe 61 are integrally formed using the assembly assembly 70, the existing assembly assembly, that is, the adapter and the pipe are manufactured separately and then welded. Leakage defects caused by the section assembly 70, which occurred in the case of the fixed section assembly, are fundamentally eliminated, and a welding process for fixing the section assembly 70 to the suction port 53 and the outlet pipe 61, respectively. Since it only needs to pass through, the heat deformation of the compressor is reduced, and thus the most basic leakage defect of the compressor is prevented.

In addition, the present invention has the advantage that the assembly assembly 70 is made of a single piece of steel material not only because the number of parts is reduced, but also the production process is reduced, as the use of expensive copper and lead materials is reduced.

Claims (3)

A hermetic compressor characterized in that the inlet port formed in the case of the compressor and the outlet pipe of the accumulator are connected to each other by a cushion assembly integrally formed so as to consist of a hollow-shaped adapter part having a hollow inside, and a cylindrical pipe part extending from the adapter part. And accumulator connection structure. The method of claim 1, The structure of the junction assembly is a connection structure of the hermetic compressor and the accumulator, characterized in that the steel. The method of claim 1, The section assembly is a connection structure between the hermetic compressor and the accumulator, characterized in that both the inner and outer surfaces are plated for weldability with the inlet and outlet of the case.