KR100498373B1 - Discharge pipe connection structure for scroll compressor - Google Patents

Abstract

The present invention relates to a discharge pipe connecting structure of a scroll compressor, comprising: a casing for forming a sealed space therein, an involute-shaped wrap, and a fixed scroll and a rotating scroll for compressing a refrigerant cooperatively; A discharge pipe connection of a scroll compressor having a discharge cover coupled to the discharge side to form an accommodation space for the discharge refrigerant therein, and a discharge pipe coupled to communicate with the discharge cover so that the refrigerant inside the discharge cover can be discharged. In the structure, the discharge cover is formed in the discharge cover so that the female screw portion is provided, the discharge pipe is formed with a male screw portion to be screwed to the female screw portion, and the discharge cover through the sealing member between the discharge port and the discharge pipe. Insert the discharge pipe from the outside of the screw to be screwed together The features. As a result, by welding the discharge cover and the discharge pipe to each other, the welding operation of the discharge pipe and the discharge cover can be eliminated during the assembly process, thereby preventing a delay in production time due to welding and facilitating assembly.

Description

Discharge pipe connection structure of scroll compressor {DISCHARGE PIPE CONNECTION STRUCTURE FOR SCROLL COMPRESSOR}

The present invention relates to a discharge pipe connection structure of a scroll compressor, and more particularly, it is possible to eliminate the welding work of the discharge pipe and the discharge cover during the assembly process can prevent the delay of the production time due to welding and the assembly Disclosed is a discharge pipe connection structure of a scroll compressor.

1 is a cross-sectional view of a conventional scroll compressor, Figure 2 is an enlarged view of the main portion of FIG. As shown in these figures, the scroll compressor includes a casing 11 for forming a closed space therein, a compression part 21 disposed inside the casing 11 to compress the refrigerant, and a compression part 21. A main motor 47 and a sub which are respectively disposed on the upper and lower sides of the electric motor part 41 for providing a driving force to the electric motor part 41 and rotatably supporting the rotating shaft 44 of the electric motor part 41. A frame (not shown) is provided.

The electric motor part 41 includes a stator 42 fixedly disposed inside the casing 11, a rotor 43 rotatably disposed inside the stator 42, and an axis of the rotor 43. It is provided with a rotating shaft 44 which is integrally rotatably coupled to the eccentric portion 45 is formed on one side.

The compression unit 21 is fixed to the inner upper region of the casing 11 with an involute-shaped fixed wrap 23 and a discharge hole 24 formed in the center so that the compressed refrigerant can be discharged. A fixed scroll 22 and an involute swing wrap 33 which forms a compressed space of the refrigerant in cooperation with the fixed wrap 23 are coupled to the eccentric portion 45 of the rotating shaft 44 to fix the scroll. The rotating scroll 32 which compresses a refrigerant | coolant by making relative motion with respect to (22) is comprised.

The casing 11 has a cylindrical casing body 12a open at both sides in an up and down direction, an upper cap 12b coupled to block an upper region of the casing body 12a, and a lower portion of the casing body 12a. It has a lower cap (not shown) coupled to block the region.

On the other hand, the upper side of the fixed scroll 22 is coupled to the discharge cover 51 for forming a receiving space of the discharge refrigerant is compressed to temporarily receive the refrigerant discharged through the discharge hole 24, the discharge cover 51 At one side, a discharge port 52 is formed to discharge the refrigerant. Ends of the discharge pipes 61 introduced into the discharge openings 52 through the upper cap 12b of the casing 11 are connected to each other. In the boundary area between the discharge cover 51 and the discharge pipe 61, a welding portion 57 is formed to fix the discharge pipe 61 and maintain airtightness, and the discharge pipe 61 is formed on the upper cap 12b. Is provided with a discharge pipe guide (13). Welds 14 and 15 are formed in the boundary region of the upper cap 12b and the discharge pipe guide 13 and the boundary region of the discharge pipe 61 and the discharge pipe guide 13 so that they can be integrally coupled to each other. have.

By the way, in such a conventional scroll compressor, one end of the discharge pipe 61 is inserted into the discharge port 52 of the discharge cover 51, and the boundary area between the outer surface of the discharge cover 51 and the discharge pipe 61 is inserted. The upper cap 12b is integrally welded to the casing body 12a in a state in which the other end of the discharge pipe 61 passes through the inside of the discharge pipe guide 13 so as to be welded integrally. In addition to the delay of the production time, there is a problem that it takes a long time to assemble because the assembly is not easy.

Therefore, an object of the present invention, it is possible to eliminate the welding work of the discharge pipe and the discharge cover during the assembly process, can prevent the delay of the production time due to welding, the discharge pipe connection structure of the scroll compressor that can facilitate the assembly To provide.

According to the present invention, there is provided a casing for forming a sealed space therein, and an involute-shaped wrap having a fixed scroll and a rotating scroll for compressing a refrigerant mutually, and coupled to the discharge side of the fixed scroll. In the discharge pipe connection structure of the scroll compressor having a discharge cover having a discharge cover for forming a receiving space for the discharge refrigerant in the discharge cover and the discharge pipe is connected in communication with each other so that the refrigerant inside the discharge cover is discharged, the A discharge port is formed in the discharge cover so that the female screw part is provided, and the discharge pipe is formed with a male screw part to be screwed to the female screw part, and the discharge pipe is discharged from the outside of the discharge cover through a sealing member between the discharge hole and the discharge pipe. The scroll compressor, characterized in that for inserting the pipes to be screwed together It is achieved by the discharge pipe connecting structure.

Here, the tapered section is formed on the outer surface of the end portion of the discharge pipe coupled to the discharge cover from the end portion over a predetermined length section along the longitudinal direction, and the male screw portion is effectively formed in the tapered section.

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

3 is a view illustrating a discharge pipe connection structure of a scroll compressor according to an embodiment of the present invention, and FIG. 4 is an enlarged view of a main part of FIG. 3. The same and equivalent parts as those described above and shown in the drawings will be described with the same reference numerals for convenience of description. As shown in these figures, the scroll compressor includes a casing 11 for forming a closed space therein, a compression part 21 for compressing a refrigerant disposed in the upper upper region of the casing 11, and a compression part. An electric motor portion 41 providing a driving force to the 21, a main frame 47 and a subframe disposed to rotatably support the upper region and the lower region of the rotation shaft 44 of the electric motor portion 41; The discharge cover 51 includes a discharge cover 51 forming a temporary receiving space of the discharge refrigerant on the discharge side of the compression unit 21, and a discharge pipe 61 screwed to one side of the discharge cover 51 by passing through the casing 11. It is composed.

The electric motor part 41 includes a stator 42 disposed inside the casing 11, a rotor 43 rotatably disposed inside the stator 42, and a shaft center of the rotor 43. One side is integrally rotatably coupled and the other side has a rotating shaft 44 is formed with an eccentric portion (45).

Compression section 21 has a fixed wrap 23 of the involute shape, the fixed scroll 22 is fixedly disposed inside the casing 11, and the involute-shaped turning wrap (corresponding to the fixed wrap 23) A rotating scroll (32) provided with the upper surface of the main frame (47) and coupled to the eccentric portion (45) of the rotating shaft (44) to suck and cool the refrigerant while turning about the fixed scroll (22). Equipped with. A discharge hole 24 is formed in the center region of the fixed scroll 22 so that the compressed refrigerant can be discharged.

The casing 11 has a cylindrical casing body 12a open at both sides in an up and down direction, an upper cap 12b coupled to block an upper region of the casing body 12a, and a lower portion of the casing body 12a. It consists of a lower cap (not shown) coupled to block the area. One side of the upper cap 12b is provided with a discharge pipe guide 13 to be coupled so that the discharge pipe 61 passes.

On the other hand, the upper side of the fixed scroll 22 is provided with a discharge cover 51 for forming a receiving space so that the refrigerant discharged through the discharge hole 24 is temporarily accommodated, the discharge cover 51 is an aluminum member The fixed scroll 22 side is formed to have an open cap shape by a die casting method or the like. One side of the discharge cover 51 has a discharge port 52 is formed so that the refrigerant is compressed and discharged in the fixed scroll 22 to be temporarily stored to the outside discharge, the inner section of the discharge port 52 is directed inward Tapered portion 54 is formed to gradually reduce the inner diameter as it is. A female screw portion 53 is formed on the inner diameter surface of the discharge port 52, and one end of the discharge pipe 61 is screwed to the female screw portion 53.

At one end of the discharge pipe 61, a tapered section 64 is formed to correspond to the tapered portion 54 of the discharge port 52 so as to be inserted into the discharge port 52 of the discharge cover 51. A male screw portion 63 is formed to be screwed into the female screw portion 53 of the discharge cover 51. A sealing member 65 is interposed between the male screw portion 63 and the female screw portion 53 to prevent leakage of the refrigerant. Here, the sealing member 65 may use a sealing member in the form of an elongated tape as a synthetic resin member, or may use a liquid or fluid sealing member such as an adhesive.

By such a configuration, when the electric motor part 41 and the compression part 21 are housed in the casing 11, the discharge cover 51 is coupled to the upper side of the fixed scroll 22. Next, the upper cap 12b is coupled to the upper end of the casing body 12a, and after the sealing member 65 is wound or coated on the male screw portion 63 of the discharge pipe 61 outside the upper cap 12b. The discharge pipe 61 is inserted into the discharge pipe guide 13 to screw the male screw portion 63 of the discharge pipe 61 to the female screw portion 53 of the discharge port 52. At this time, insertion of the end of the discharge pipe 61 is facilitated by the tapered section 64 formed at the tip of the male screw portion 63. When the coupling is completed, the welding is completed to form the weld 15 in the boundary region of the discharge pipe guide 13 and the discharge pipe 61 to complete the coupling.

As described above, the discharge pipe connection structure of the scroll compressor according to the present invention, by screwing the mutually through the sealing member between the discharge cover and the discharge pipe to eliminate the welding work of the discharge pipe and the discharge cover during the assembly process. It can prevent the delay of the production time due to welding and there is an effect that can facilitate the assembly work.

1 is a cross-sectional view of a conventional scroll compressor,

2 is an enlarged view illustrating main parts of FIG. 1;

3 is a view illustrating a discharge pipe connection structure of a scroll compressor according to an embodiment of the present invention;

4 is an enlarged view illustrating main parts of FIG. 3.

Explanation of symbols on the main parts of the drawings

11 casing 12a casing body

12b: upper cap 22: fixed scroll

32: turning scroll 42: stator

43: rotor 44: rotation axis

45: eccentric 51: discharge cover

52 discharge port 53 female threaded portion

54 taper portion 61 discharge pipe

63: male thread 64: tapered section

65: sealing member

Claims (4)

A casing for forming a sealed space therein, an involute-shaped wrap having a fixed scroll and a rotating scroll for compressing the refrigerant, and coupled to the discharge side of the fixed scroll to form a receiving refrigerant space therein; A discharge pipe connecting structure of a scroll compressor having a discharge cover and a discharge pipe coupled to communicate with the discharge cover so that refrigerant inside the discharge cover can be discharged, the discharge port is provided such that the discharge cover is provided with a female screw part. And a male screw portion formed in the discharge pipe to be screwed to the female screw portion, and inserted into the discharge pipe from the outside of the discharge cover by a sealing member between the discharge port and the discharge pipe to be screwed together. A discharge pipe connection structure of a scroll compressor, characterized by the above-mentioned. delete The method of claim 1, A tapered section is formed on an outer surface of the end portion of the discharge pipe coupled to the discharge cover over a predetermined length section from an end portion along a longitudinal direction, and the male screw portion is formed on the tapered section. Discharge pipe connection structure of scroll compressor. delete