KR20050040428A - Accumulator connecting apparatus for rotary compressor - Google Patents

Abstract

The present invention relates to an accumulator connection device of a rotary compressor, and the present invention relates to an eccentric rotation of a rolling piston inside a cylinder while the rotor rotates, and to a straight line in the radial direction according to the eccentric rotation of the rolling piston between the inlet and outlet of the cylinder. A rotary compressor for sucking and compressing and discharging refrigerant gas through a moving vane, comprising: an accumulator housing for connecting liquid to a cylinder inlet and separating liquid refrigerant from sucked refrigerant gas, and the other end thereof connected to a lower end of the accumulator housing. Gas guide tube made of steel material to penetrate the compressor casing and inserted into the inlet of the cylinder, and extrapolated and welded to the gas guide tube and coupled to the outer peripheral surface of the compressor casing to block the leakage of refrigerant gas (copper) And made of soldering to the gas guide tube It is made of a sealing connecting pipe, which can reduce the number of parts for connecting the accumulator to the compressor, thereby simplifying the assembly and reducing the production cost, and also prevents gas leakage due to processing or assembly errors. Can be.

Description

Accumulator connecting device of rotary compressor {ACCUMULATOR CONNECTING APPARATUS FOR ROTARY COMPRESSOR}

The present invention relates to an accumulator of a rotary compressor, in particular, accumulator connection device of the rotary compressor that can simplify the process by reducing the production cost and the number of parts by changing the connection pipe connecting the accumulator to the compressor all steel (steel) It is about.

In general, a rotary compressor applied to an air conditioner or the like is eccentrically coupled to the rotating shaft coupled to the electric mechanism part of the compression mechanism of the compression mechanism, and the rolling piston sucks and discharges the refrigerant while rotating in the compression space of the circular cylinder.

Rotary compressors usually have a liquid refrigerant separation device called an accumulator on the suction side because gas refrigerant and liquid refrigerant may be introduced together by direct suction of the refrigerant.

A rotary compressor having a conventional accumulator is as shown in FIG.

As shown in the drawing, in the conventional rotary compressor, the stator 2 and the rotor 3, which are electric drive units, are provided inside the casing 1, and a rotating shaft 4 is provided at the center of the rotor 3, among others. It is pressurized and the lower part of the rotating shaft 4 is provided with the compression mechanism part which suction-compresses refrigerant gas.

The compression mechanism is provided with a circular cylinder 5 fixed to the inner circumferential surface of the casing 1, and an upper bearing 6A and a lower bearing 6B which are in close contact with both sides of the cylinder 5 and supported by the rotating shaft 4 therethrough. And the rolling piston 7 which is eccentrically rotated in the cylinder 5 while rotating in rotation with the rotating shaft 4 and the linear movement during the pivoting motion of the rolling piston 7 by being pressed against the outer circumferential surface of the rolling piston 7. Vane (not shown) for dividing the cylinder 5 into a suction space and a compression space, and an accumulator 10 disposed on one side of the casing 1 and connected to the middle of the suction port 5a of the cylinder 5. have.

The accumulator 10 has a predetermined inner space, and an upper end thereof includes a housing 11 for connecting the refrigerant pipe P, and a housing so as to separate the gas refrigerant and the liquid refrigerant from the refrigerant flowing through the refrigerant pipe P. 11) an oil separation screen 12 installed at the upper end of the inner portion, a gas guide tube 13 inserting and fixing the housing 11 deeply through the lower half so as to be positioned below the oil separation screen 12, and a cylinder Inserted into the inlet (5a) of the (5) and the double connecting pipe 14 and the two pipes (13) surrounding both the double connecting pipe (14) and the gas guide tube (13) in communication with the gas guide tube (13) ) Consists of a sealing connection pipe 15 for sealing by connecting (14).

The gas guide tube 13 is formed by bending a round tube made of iron (steel) in an L shape so that one end is inserted into the housing 11 to a predetermined depth and welded to the other end. A copper cap 16 is covered and fixed to easily connect the connecting pipe 14 and the sealing connecting pipe 15.

The double connecting pipe 14 is formed of a copper (copper) system as a circular pipe, the outer pipe 14A to be welded to the sealing connecting pipe 15 and the inside of the outer pipe (14A) is pressed into the cylinder (5) It consists of an inner tube 14B made of steel so as to maintain the insertion strength at the suction port 5a.

Sealing connecting pipe 15 is formed of a copper (copper) so that the copper cap 16 of the gas guide pipe 13 and the outer pipe (14A) of the double connecting pipe 14 can be joined by a copper solder welding on both sides thereof. Doing.

In the drawings, reference numeral 6a denotes a discharge port, 8 a discharge valve, 9 a muffler, 12a a screen hole, and 17 a guide tube holder.

The conventional rotary compressor as described above operates as follows.

That is, when power is applied to the stator 2, the rotor 3 rotates inside the stator 2, and the rotating shaft 4 rotates with the rolling piston 7 eccentrically rotating in the cylinder 5. In addition, the refrigerant gas is sucked into the suction space of the cylinder (5) in accordance with the eccentric rotation of the rolling piston (7) is continuously compressed to a constant pressure, the pressure of the compression space of the cylinder (5) passes the critical pressure of the casing (1) At the moment when the pressure is higher than the pressure in the cylinder, the discharge valve 8 mounted on the upper bearing 6A is opened, and compressed gas is discharged into the casing 1 in the compression space, and the discharge gas is discharged from the casing 1 and the stator 2. ) Through the gap or between the stator (2) and the rotor (3) to the upper and discharged to the refrigeration cycle system via the gas discharge pipe (DP).

At this time, in the refrigerant introduced into the housing 11 of the accumulator 10 through the refrigerant pipe P, the gas refrigerant passes through the oil separation screen 12 through the gas guide tube 13 and the double connecting tube 14. While the liquid is sucked into the suction space of the cylinder 5, the liquid refrigerant is caught by the oil separation screen 12 and accumulated in the bottom of the housing 11 through the screen hole 12a and accumulated in the bottom of the housing 11. Was to repeat a series of processes to rise while vaporizing by the surrounding heat to be sucked into the suction space of the cylinder (5) through the gas guide tube (13).

However, in the accumulator of the conventional rotary compressor as described above, in order to connect the housing 11 to the compressor, the gas guide tube 13, the double connecting tube 14, and the sealing connecting tube 15 must be connected to each other and the gas must be connected. At the end of the guide tube 13, not only the copper cap 16 is inserted, but also the double connecting tube 14 must also be provided with an outer tube 14A made of copper for welding and an inner tube 14B made of iron to support it. Therefore, there is a problem that gas leakage occurs due to an assembly error when the copper assembly 16 is pressed into the end of the gas guide tube 13 that is steel-based, as well as the productivity decreases due to the increase of the assembly labor. In view of this, the gas guide tube 13 is formed of steel, and is inserted and connected directly to the inlet 5a of the cylinder 5, and the sealing coupling pipe 15 is also made of steel (steel). Although this may be combined with the gas guide pipe 13 and the sealing connection pipe 15 by the high temperature heat generated CO ₂ welding in this case excessive sparking occurs as well as the penetration of the casing (1) into the casing (1) The cylinder 2 inside the casing 1 may be deformed due to the high heat of welding. In addition, when the entire gas guide tube 13 is made of copper, the production cost increases, as well as the strength is weak, there was a problem that the housing 1 can not be firmly supported.

The present invention has been made in view of the problems of the accumulator of the conventional rotary compressor as described above, by reducing the number of parts when connecting the housing to the compressor to simplify the assembly process can be connected tightly and firmly while lowering costs and increasing productivity It is an object of the present invention to provide an accumulator coupling device for a rotary compressor.

In order to achieve the object of the present invention, while rotating the rotating body eccentrically rotating the rolling piston inside the cylinder, and through the vane to linearly move in the radial direction in accordance with the eccentric rotation of the rolling piston between the inlet and outlet of the cylinder A rotary compressor for suction-compressing and discharging refrigerant gas, comprising: an accumulator housing connected to a cylinder inlet and separating liquid refrigerant from sucked refrigerant gas; a lower end of the accumulator housing is connected to the lower end of the cylinder, and the other end thereof passes through the compressor casing. Gas guide tube made of steel-based material to be inserted into the suction port, and extrapolated and welded to the gas guide tube and coupled to the outer peripheral surface of the compressor casing to be made of copper-based material to block the leakage of refrigerant gas Consisting of a sealing connector that is soldered to a gas guide tube An accumulator unit provides a connection of the rotary compressor of ranging.

EMBODIMENT OF THE INVENTION Hereinafter, the accumulator connection apparatus of the rotary compressor by this invention is demonstrated in detail based on one Example shown in an accompanying drawing.

4 is a cross-sectional view showing an example of a rotary compressor having an accumulator coupling device of the present invention, FIG. 5 is a cross-sectional view showing an enlarged portion “B” of FIG. 4, and FIG. 6 is an exploded view of the accumulator coupling device of the rotary compressor of the present invention. It is a cross section shown.

As shown in the drawing, in the rotary compressor according to the present invention, the casing 1 and the stator 2 and the rotor 3 which are the electric mechanism parts are provided inside the casing, and in the center of the rotor 3 therein. The rotary shaft 4 is press-fitted, and the lower portion of the rotary shaft 4 is configured by providing a compression mechanism for suction compression of the refrigerant gas.

The compression mechanism is provided with a circular cylinder 5 fixed to the inner circumferential surface of the casing 1, and an upper bearing 6A and a lower bearing 6B which are in close contact with both sides of the cylinder 5 and supported by the rotating shaft 4 therethrough. And the rolling piston 7 which is eccentrically rotated in the cylinder 5 while rotating in rotation with the rotating shaft 4 and the linear movement during the pivoting motion of the rolling piston 7 by being pressed against the outer circumferential surface of the rolling piston 7. A vane (not shown) for dividing the cylinder 5 into a suction space and a compression space, and an accumulator 100 disposed on one side of the casing 1 and connected to the middle of the suction port 5a of the cylinder 5. Is done.

The accumulator 100 has a predetermined inner space and an upper end thereof includes a housing 110 connecting the refrigerant pipe P, and the housing so as to separate the gas refrigerant and the liquid refrigerant from the refrigerant flowing through the refrigerant pipe P. An oil separation screen 120 installed at an upper half of the gas guide tube 130 having one end inserted into a lower end of the housing 110 and the other end inserted into the inlet 5a of the cylinder 5; Extrapolated to the gas guide tube 130 is made of a sealing connecting pipe 140 coupled to the outer peripheral surface of the casing (1).

The gas guide tube 130 is formed by bending the entire steel round tube in the shape of an L (L) shape, one end of which is inserted into the housing 110 at a predetermined depth and then welded to the other end. It penetrates through the casing 1 and press-fits to the inlet 5a of the cylinder 5 mentioned above.

Sealing connecting pipe 140 is formed of a copper (copper) the whole is soldered and coupled with silver lead in the state inserted into the outer peripheral surface of the gas guide tube (130). To this end, after winding the wire mixed with silver and copper at the end portion of the sealing connecting pipe 140 and the gas guide tube 130 and applying a heat of about 700 ~ 800 ℃ about the sealing connector ( 140, soaked between the gas guide tube 130 and to be welded.

In the drawings, the same reference numerals are given to the same parts as in the prior art.

In the drawings, reference numeral 6a denotes a discharge hole, 8 a discharge valve, 9 a muffler, 121 a screen hole, and 150 a guide tube holder.

The rotary compressor of the present invention as described above operates as follows.

That is, when the rotor 3 rotates by applying power to the stator 2 of the electric mechanism part, the rotating shaft 4 of the compression mechanism part rotates together with the rotor 3, and the rolling piston 7 moves the cylinder 5. Eccentrically rotates in the inner space, and the refrigerant gas is sucked into the suction chamber of the cylinder (5) by the eccentric rotation of the rolling piston (7) and is continuously compressed to a certain pressure, and the compression chamber pressure is higher than the pressure in the casing (1). At this moment, it is discharged into the casing 1 and discharged to the refrigeration cycle system via the gas discharge pipe DP.

At this time, the gas refrigerant in the refrigerant flowing into the housing 110 of the accumulator 100 through the refrigerant pipe P passes through the oil separation screen 120 and the suction space of the cylinder 5 through the gas guide tube 130. While the liquid refrigerant is directly sucked into the oil separation screen 120, the liquid refrigerant is filtered through the screen hole 121 and accumulated at the bottom of the housing 110, and the liquid refrigerant accumulated at the bottom of the housing 110 is formed by ambient heat. As the vaporization rises and repeats a series of processes that are sucked into the suction space of the cylinder (5) through the gas guide tube (130).

Here, the entire gas guide tube 130 communicating the housing 110 of the accumulator and the suction port 5a of the cylinder 5 is made of steel, and inserted into the suction port 5a of the cylinder 5. The outer circumferential surface of the gas guide tube 130 is formed of a copper (copper) system and sealingly coupled with a sealing connecting tube 140 fixed to the outer circumferential surface of the casing 1, and then the gas guide tube 130 and the sealing connecting tube with silver solder ( Weld 140). To this end, after winding with a silver copper wire on the outer circumferential surface of the gas guide tube 130 and applying a certain temperature of heat, the silver copper wire melts soaked between the gas guide tube 130 and the sealing connecting tube 140, the two pipes 130 It is to join 140 by welding.

In this way, when the accumulator is connected to the compressor by welding with only the gas guide pipe and the sealing connection pipe, the number of parts and the number of assembling work can be reduced, and the production cost can be reduced, and the gas leakage due to processing or assembly error is not delayed. To prevent it.

The accumulator coupling device of the rotary compressor according to the present invention includes a gas guide tube communicating with the intake port of the accumulator housing and the cylinder with iron, and a sealing connector tube for preventing gas leakage between the gas guide tube and the compressor casing is formed of copper. By welding the gas guide pipe and the sealing connection pipe with silver lead, the number of parts for connecting the accumulator to the compressor can be reduced, thereby simplifying the assembly and reducing the production cost. Gas leakage can be prevented beforehand.

1 is a cross-sectional view showing an example of a conventional rotary compressor.

2 is an enlarged cross-sectional view of part “A” of FIG. 1;

3 is an exploded cross-sectional view showing an accumulator coupling device in a conventional rotary compressor;

4 is a cross-sectional view showing an example of a rotary compressor provided with an accumulator coupling device of the present invention;

5 is an enlarged cross-sectional view of part “B” of FIG. 4;

Figure 6 is an exploded cross-sectional view of the accumulator coupling device in the rotary compressor of the present invention.

** Description of symbols for the main parts of the drawing **

1: casing 5: cylinder

110: housing 120: oil separation screen

130: gas guide tube 140: sealing connector

150: guide holder

Claims (2)

The rotary body rotates and rotates the rolling piston eccentrically inside the cylinder, and sucks and compresses the refrigerant gas through a vane that linearly moves radially in accordance with the eccentric rotation of the rolling piston between the inlet and outlet of the cylinder. In the compressor, Connected to the inlet of the cylinder accumulator housing for separating the liquid refrigerant from the refrigerant gas sucked in, and connected to the lower end of the accumulator housing and the other end is made of steel (steel) material to be inserted into the inlet of the cylinder through the compressor casing It is a sealing connecting pipe that is extrapolated to the gas guide tube and the gas guide tube, welded to the outer circumferential surface of the compressor casing, and made of copper-based material to block the leakage of refrigerant gas. Accumulator connection device of the rotary compressor, characterized in that made. The method of claim 1, Accumulator connecting device of the rotary compressor, characterized in that the gas guide pipe and the sealing connection pipe is coupled with silver.