KR20060033267A - Accumulator and rotary comrressor having the same - Google Patents

Abstract

The present invention relates to an accumulator and a rotary compressor having the same, and by improving the rigidity of the accumulator outlet pipe coupled to the rotary compressor, it is possible to prevent breakage of the outlet pipe due to vibration generated during operation of the compressor. It relates to an accumulator and a rotary compressor having the same that can improve the reliability.

To this end, the present invention, the casing is filled with a predetermined amount of oil, the electric mechanism is installed inside the casing to generate a driving force, and the inside of the casing is installed in one side is connected to the suction pipe of the same material is connected A rotary compressor including a compressor mechanism that is operated by receiving power of the electric mechanism part and compresses a refrigerant, comprising: a main body having a receiving space of a liquid refrigerant and a gaseous refrigerant therein; An inlet pipe installed at an upper portion of the main body to introduce a refrigerant; And a discharge pipe installed at a lower portion of the main body so that the gaseous refrigerant separated from the main body can be discharged to the compression mechanism unit and connected to the suction pipe, and formed of a steel material and having a copper coating layer formed on an outer circumferential surface thereof. A rotary compressor provided with an accumulator is provided.

Compressor, Accumulator, Suction Pipe, Outlet Pipe, Steel, Copper Coating

Description

Accumulator and Rotary Compressor with the Same {ACCUMULATOR AND ROTARY COMRRESSOR HAVING THE SAME}

1 is a cross-sectional view showing the structure of a rotary compressor equipped with a conventional accumulator

Figure 2 is a conventional rotary compressor, an enlarged cross-sectional view showing the main portion of the accumulator

3 is a cross-sectional view showing the structure of a rotary compressor equipped with an accumulator according to the present invention.

Figure 4 is an enlarged cross-sectional view showing the main portion of the accumulator according to the present invention;

<Description of Symbols for Main Parts of Drawings>

111: casing 112: stator

113: rotor 114: axis of rotation

115: cylinder 116A, 116B: bearing

117: rolling piston 120: accumulator

121: main body 122: inlet pipe

123: outlet pipe 130: copper coating layer

SP: suction pipe

The present invention relates to an accumulator and a rotary compressor having the same, and more particularly, to improve the rigidity of the accumulator outlet pipe coupled to the rotary compressor, thereby preventing damage to the outlet pipe due to vibration generated during operation of the compressor. It relates to an accumulator capable of preventing and improving reliability and a rotary compressor having the same.

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

1 is a cross-sectional view showing a structure of a rotary compressor equipped with a conventional accumulator, and FIG. 2 is a cross-sectional view showing an enlarged main part of an accumulator as a conventional rotary compressor.

As shown in the drawing, a conventional rotary compressor is provided with a casing 11 filled with a predetermined amount of oil, an electric mechanism part installed inside the casing 11 to generate a driving force, and installed inside the casing 11. It is operated by receiving the power of the electric mechanism part is configured to include a compressor mechanism for compressing the refrigerant.

A discharge pipe DP is installed at an upper portion of the casing 11 to penetrate the wall surface of the casing 11, and a lower side of the casing 11 communicates with the compression mechanism and penetrates the wall surface of the casing 11. Since the suction pipe SP is installed, the suction pipe SP and the discharge pipe DP are generally made of the same material to secure weldability.                         

In addition, the support tube 11a is integrally installed on the lower side outer wall of the casing 11 through a separate connection member (not shown), and the support tube 11a is press-fitted into the suction pipe SP. It is installed to be accommodated to support the suction pipe (SP) and to ensure the sealing property, and also made of the same material to ensure the weldability.

The electric mechanism part includes a stator 12 and a rotor 13 and a rotation shaft 14 which is press-fitted to the center of the rotor 13, and a compression mechanism is provided below the rotation shaft 14. have.

The compressor sphere is fixed to the inner circumferential surface of the casing (11) is a circular cylinder (15) which is in communication with the suction pipe (SP), the first bearing is in close contact with both sides of the cylinder (15) and at the same time the rotating shaft (14) 16A) and the second bearing 16B, the rolling piston 17 slidably rotated in the cylinder 15 while being rotated by the rotational shaft 14 and the outer circumferential surface of the rolling piston 17 to be pressed against the rolling piston. It comprises a vane (not shown) for dividing the cylinder 15 into a suction space and a compression space while performing a linear movement during the turning movement of (17).

The oil passage 14a is formed to penetrate long in the axial direction inside the rotating shaft 14, and an oil feeder (not shown) for sucking up the oil filled in the casing 11 is provided at the lower end of the oil passage 14a. It is installed.

On the other hand, an accumulator 20 is installed outside the rotary compressor to allow the gaseous refrigerant (gas state refrigerant) to be sucked in.

The accumulator 20 includes a main body 21 having a screen (not shown) that separates the liquid refrigerant and the gaseous refrigerant from the inside, and having a receiving space for the liquid refrigerant and the gaseous refrigerant, and the main body 21. Inlet pipe 22 is installed in the upper portion of the refrigerant inlet 22 and the gas phase refrigerant separated from the main body 21 is installed in the lower portion of the main body 21 so that it can flow out into the compression mechanism is connected to the suction pipe (SP) It is comprised including the outflow pipe 23 of the copper material used.

In the drawings, reference numeral 16a denotes a discharge hole, 18 denotes a discharge valve assembly, and 19 denotes a discharge muffler.

The operation of the conventional rotary compressor configured as described above is as follows.

Liquid refrigerant, which is introduced into the main body 21 through the inlet pipe 22 of the accumulator 20 through the refrigeration cycle, is filtered by the screen, flows down the inner surface of the accumulator main body 21, and flows to the bottom surface. The gaseous refrigerant, which is formed by the evaporation of the liquid refrigerant, which flows through the inlet pipe 22 or accumulated on the bottom, is introduced into the rotary compressor through the outlet pipe 23 and the suction pipe SP.

When power is applied to the stator 12, the rotor 13 rotates inside the stator 12. As a result, the rotating piston 14 rotates while the rolling piston 17 rotates in the cylinder 15. In the eccentric rotation of the rolling piston 17, the gaseous refrigerant is sucked into the suction space of the cylinder 15 and is continuously compressed to a predetermined pressure, and the compression space pressure of the cylinder 15 is critical. When the pressure is higher than the pressure in the casing 11 through the pressure, the discharge valve 19 mounted on the first bearing 16A is opened and the refrigerant introduced through the suction pipe SP is inside the casing 11 in the compression space. The discharged refrigerant moves upward through a gap between the casing 11 and the stator 12 or a gap between the stator 12 and the rotor 13 to freeze through the discharge pipe DP. Discharged into the cycle system.

By the way, in the conventional rotary compressor, there is a problem that the connection portion of the accumulator outlet pipe 23 is broken by the vibration generated during the operation of the compressor.

That is, in the related art, since the outlet pipe 23 of the accumulator 20 is made of the same material and press-coupled to the suction pipe SP and welded (W), the vibration is frequently generated due to the operation of the compressor. There was a problem that the connection portion of the cumulator outlet pipe 23 is broken, thereby degrading reliability.

Accordingly, the present invention has been made to solve the above problems, it is possible to prevent the damage of the accumulator outflow pipe due to the vibration generated during the operation of the compressor and to accumulate the accumulator which can improve the reliability It is an object to provide a rotary compressor.

Accumulator according to the present invention for achieving the above object, the main body having a receiving space of the liquid refrigerant and the gaseous refrigerant therein, an inlet pipe installed in the upper portion of the main body and the refrigerant, An accumulator including an outlet pipe installed below the main body to allow the separated gaseous refrigerant to flow out, wherein the outlet pipe is formed of a steel material, and a copper coating layer is formed on an outer circumferential surface thereof. .

In addition, a rotary compressor having an accumulator according to the present invention includes a casing filled with a predetermined amount of oil, an electric mechanism part installed inside the casing to generate a driving force, and installed inside the casing. A rotary compressor having a suction pipe made of the same material and connected to each other, the compressor including a compression mechanism for compressing a refrigerant, the main body having an accommodating space therein for receiving a liquid refrigerant and a gaseous refrigerant therein; An inlet pipe installed at an upper portion of the main body to introduce a refrigerant; And a discharge pipe installed at a lower portion of the main body so that the gaseous refrigerant separated from the main body can be discharged to the compression mechanism unit and connected to the suction pipe, and formed of a steel material and having a copper coating layer formed on an outer circumferential surface thereof. It is characterized by.

In addition, a rotary compressor including an accumulator according to the present invention includes a casing in which a predetermined amount of oil is filled; An electric mechanism part installed inside the casing to generate a driving force; A compression mechanism unit installed inside the casing and connected to one side of the steel suction pipe so as to communicate with each other; A main body installed at an outer side of the casing to include a receiving space of a liquid refrigerant and a gaseous refrigerant therein; An inlet pipe installed at an upper portion of the main body to introduce a refrigerant; And a discharge pipe installed at a lower portion of the main body so that the gaseous phase refrigerant separated from the main body can flow out to the compression mechanism, and connected to the suction pipe, and formed of a steel material weldable to the suction pipe. .                     

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

3 is a cross-sectional view showing the structure of a rotary compressor equipped with an accumulator according to the present invention, Figure 4 is an enlarged cross-sectional view showing the main portion of the accumulator according to the present invention.

Hereinafter will be described with an example applied to the rotary compressor.

However, in describing the present invention, a detailed description of known functions or configurations will be omitted to clarify the gist of the present invention.

As shown in Figures 3 to 4, the rotary compressor equipped with an accumulator according to the present invention, the casing 111 is filled with a predetermined amount of oil, and installed in the casing 111 to drive the driving force It is configured to include a power mechanism for generating and a compressor mechanism for compressing the refrigerant installed in the casing 111 is operated by receiving the power of the power mechanism.

A discharge pipe DP made of the same material is installed at an upper portion of the casing 111 to penetrate the wall surface of the casing 111, and a lower surface of the casing 111 communicates with the compression mechanism and a wall surface of the casing 111. A suction pipe (SP) made of the same material is installed to penetrate.

In addition, the support tube 111a of the same material is integrally installed on the lower side outer wall of the casing 111 through a separate connection member (not shown), and the support tube 111a is a suction pipe SP. It is installed to be press-fitted inside to support the suction pipe (SP) and to ensure the sealing property, and to ensure the weldability.

The electric mechanism part includes a stator 112 and a rotor 113 and a rotation shaft 114 press-fitted to the center of the rotor 113, and a compression mechanism is installed at a lower portion of the rotation shaft 114. have.

The compressor sphere is fixed to the inner circumferential surface of the casing 111 and the circular cylinder 115 is in communication with the suction pipe (SP), the first bearing is in close contact with both sides of the cylinder 115 and the rotating shaft 114 is penetrated ( 116A) and the second bearing 116B, the rolling piston 117 which is eccentrically rotated in the cylinder 115 while being rotated and rotated on the rotating shaft 114, and the rolling piston is pressed against the outer circumferential surface of the rolling piston 117 It comprises a vane (not shown) for dividing the cylinder 115 into a suction space and a compression space while performing a linear movement during the turning movement of (117).

The oil passage 114a is formed to penetrate in the axial direction in the inside of the rotary shaft 114, and an oil feeder (not shown) that sucks up the oil filled in the casing 111 is formed at the lower end of the oil passage 114a. It is installed.

Meanwhile, an accumulator 120 is installed outside the rotary compressor to allow gaseous refrigerant (gas state refrigerant) to be sucked in.

The accumulator 120 includes a main body 121 having a screen (not shown) that separates the liquid refrigerant and the gaseous refrigerant from the inside, and having a receiving space for the liquid refrigerant and the gaseous refrigerant, and the main body 121. Inlet pipe 122 is installed on the upper portion of the main body 121 and the gaseous refrigerant separated from the main body 121 is installed in the lower portion of the main body 121 so as to flow out of the compression mechanism is connected to the suction pipe (SP) Being made of a steel material and the outer peripheral surface is configured to include an outflow pipe 123 of the "L" shape in which the copper coating layer 130 is formed.

The copper coating layer 130 is formed on the outer circumferential surface of the outlet pipe 123 to ensure weldability, can be formed only at the connection portion of the outlet pipe 123 connected to the suction pipe (SP), as well as the outlet pipe 123 It can be formed entirely on the outer peripheral surface of the.

In addition, the copper coating layer 130 of the outlet pipe 123 is press-fitted to the suction pipe (SP) and then fixed to the suction pipe (SP) by welding (W).

In this way, the present invention, by ensuring the stiffness by changing the outflow pipe 123 to a steel material, and by forming a copper coating layer 130 on the outer peripheral surface of the outflow pipe 123, the suction pipe (SP) and the support pipe It is to ensure the weldability with the (111a), it is to prevent the connection portion of the accumulator outlet pipe 123 due to the vibration generated during the operation of the compressor and to improve the reliability.

On the other hand, as another embodiment of the present invention, the outlet pipe 123 is installed in the lower portion of the main body 121 so that the gaseous phase refrigerant separated from the main body 121 of the accumulator 120 can be discharged to the compression mechanism portion, Of course, the suction pipe (SP) connecting the outlet pipe 123 and the cylinder of the compression mechanism can be formed of a steel material, of course.

That is, the outflow pipe 123 installed at the lower portion of the main body 121 and connected to the suction pipe SP so that the gaseous phase refrigerant separated from the main body 121 of the accumulator 120 may flow out into the compression mechanism part is sufficient rigidity. It is formed of a steel material so as to have, but as described above, without the need to form a separate copper coating layer 130 on the outer circumferential surface of the outlet pipe 123 to ensure weldability and the suction pipe (SP) and the outlet pipe (123) It is possible to ensure weldability by forming a weldable steel material.

In addition, in such a structure, the above-described support pipe 111a is formed of the same steel material as the outlet pipe 123 and the suction pipe SP.

On the other hand, other components except the outlet pipe 123 and the suction pipe (SP) and the support pipe (111a) is the same as the above-described embodiment will not be repeated description thereof.

In the figure, reference numeral 116a denotes a discharge hole, 118 denotes a discharge valve assembly, and 119 denotes a discharge muffler.

Operation of a rotary compressor equipped with an accumulator according to the present invention is as follows.

The liquid refrigerant of the refrigerant introduced into the main body 121 through the inlet pipe 122 of the accumulator 120 through the refrigeration cycle is filtered by the screen and flows down the inner surface of the accumulator main body 121 to flow to the bottom surface. The gaseous refrigerant, which is formed by evaporation of the liquid refrigerant that is introduced through the inlet pipe 122 or accumulated on the bottom, is introduced into the rotary compressor through the outlet pipe 123 and the suction pipe SP.

When power is applied to the stator 112, the rotor 113 rotates in the stator 112, and the rolling piston 117 rotates in the cylinder 115 while the rotating shaft 114 rotates. In the eccentric rotation of the rolling piston 117, the gaseous refrigerant is sucked into the suction space of the cylinder 115 and is continuously compressed to a predetermined pressure, the pressure of the compression space of the cylinder 115 is critical When the pressure is higher than the pressure in the casing 111 through the pressure, the discharge valve 119 mounted on the first bearing 116A is opened and the refrigerant introduced through the suction pipe SP is inside the casing 111 in the compression space. The discharged refrigerant is moved upward through a gap between the casing 111 and the stator 112 or a gap between the stator 112 and the rotor 113 to freeze through the discharge pipe DP. Discharged into the cycle system.

Although the preferred embodiments of the present invention have been described above by way of example, the scope of the present invention is not limited to these specific embodiments, and may be appropriately changed within the scope described in the claims.

As seen above, according to the accumulator and the rotary compressor provided with the same, the outlet tube of the accumulator is formed of a steel material having sufficient rigidity, and thus the suction tube and the suction tube are caused by vibration generated during operation of the compressor. It is possible to prevent the connection part of the outlet pipe connected to be damaged and to improve the reliability.

In addition, the present invention forms a copper coating layer on the outer circumferential surface of the outlet pipe or by forming the suction pipe of the same material as the outlet pipe, thereby ensuring weldability.

Claims (5)

A main body having an accommodating space for a liquid refrigerant and a gaseous refrigerant therein, an inlet pipe installed at an upper portion of the main body, and a gaseous refrigerant separated from the main body so as to flow out of the main body; In an accumulator comprising an outlet pipe, Accumulating the outlet pipe is formed of a steel material, characterized in that formed by forming a copper coating layer on the outer peripheral surface. A casing filled with a predetermined amount of oil, an electric mechanism unit installed inside the casing to generate a driving force, and a suction pipe made of the same material are connected to one side of the casing, and connected to one side of the casing. In the rotary compressor comprising a compressor mechanism for receiving and operating the compressed refrigerant, A main body having an accommodating space therein for a liquid refrigerant and a gaseous refrigerant; An inlet pipe installed at an upper portion of the main body to introduce a refrigerant; And a discharge pipe installed at a lower portion of the main body so that the gaseous refrigerant separated from the main body can be discharged to the compression mechanism unit and connected to the suction pipe, and formed of a steel material and having a copper coating layer formed on an outer circumferential surface thereof. A rotary compressor provided with an accumulator. The method of claim 2, The copper coating layer is a rotary compressor having an accumulator, characterized in that formed only in the connection portion of the outlet pipe connected to the suction pipe. The method of claim 2 or 3, And a copper coating layer of said outlet pipe is fixed to said suction pipe by welding. A casing in which a predetermined amount of oil is filled; An electric mechanism part installed inside the casing to generate a driving force; A compression mechanism unit installed inside the casing and connected to one side of the steel suction pipe so as to communicate with each other; A main body installed at an outer side of the casing to include a receiving space of a liquid refrigerant and a gaseous refrigerant therein; An inlet pipe installed at an upper portion of the main body to introduce a refrigerant; And a discharge pipe installed at a lower portion of the main body so that the gaseous refrigerant separated from the main body can flow out into the compression mechanism unit and connected to the suction pipe, and formed of a steel material weldable to the suction pipe. Rotary compressor with accumulator.

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