KR100504905B1 - Discharge apparatus of reciprocating compressor - Google Patents

Abstract

The present invention relates to a discharge device of a reciprocating compressor, comprising: a frame unit installed in an inner space of a casing filled with a lubricating oil, a reciprocating motor for generating a driving force fixed in the frame unit to reciprocate linearly, and the reciprocating Compression unit for sucking and compressing and discharging the fluid by receiving the driving force of the same type motor and a lubricating oil supply unit coupled to the frame unit to supply lubricating oil in the casing to the compression unit and lubricating the suction and compressing the fluid. In the reciprocating compressor for discharging, the discharge cover portion of the discharge valve assembly coupled to one side of the cylinder forming the compression space of the compression unit, and the lubricating oil pumped from the lubricating oil pumping unit of the lubricating oil supply unit to the compression unit Forming a lubricating oil guide passage so that By the configuration is provided with a cover plate formed of an additional lubricant cover integrally, to one so that manufacturing costs are reduced by reducing the number of parts.

Description

Discharge device of reciprocating compressor {DISCHARGE APPARATUS OF RECIPROCATING COMPRESSOR}

The present invention relates to a discharge device of a reciprocating compressor, and in more detail, the discharge cover part for guiding the discharged fluid and the cover plate formed with the lubricating oil cover part for lubricating oil are integrally formed, thereby reducing manufacturing costs. It is to provide a discharge device of the reciprocating compressor to improve the assembly.

In general, the compressor constituting the refrigeration cycle device is a device for compressing the refrigerant gas of the low temperature low pressure state flowing from the evaporator to discharge the high temperature and high pressure state.

The compressor is classified into a rotary compressor, a reciprocating compressor, a scroll compressor, and the like according to a method of compressing a fluid. In particular, the reciprocating compressor sucks and compresses a fluid while the piston moves linearly. There is a method of sucking and compressing the fluid by converting the rotational motion of the drive motor into a reciprocating motion of the piston and a method of sucking and compressing the fluid by reciprocating the piston while the drive motor reciprocates in a straight line.

1 is a longitudinal cross-sectional view showing an example of a conventional reciprocating compressor, as shown in the conventional reciprocating compressor is filled with a certain amount of lubricating oil (O) on the bottom and the gas suction pipe (SP) and gas discharge pipe (DP) is in communication A sealed casing 10 to be installed, a frame unit 20 elastically installed in the casing 10, and fixed to the frame unit 20 so that the mover 33 reciprocates linearly. A reciprocating motor 30, a compression unit 40 coupled to the mover 33 of the reciprocating motor 30 and supported by the frame unit 20, and a mover of the reciprocating motor 30. A resonant spring unit 50 for inducing resonant motion by elastically supporting the 33 in the movement direction, and a lubricating oil O which is mounted on the frame unit 20 and filled in the casing 10, is compressed in the compression unit 40. It consists of a lubricant supply unit 60 for supplying to the sliding portion of.

The frame unit 20 includes a front frame 21 supporting the compression unit 40, an intermediate frame 22 coupled to the front frame 21 to support a front side of the reciprocating motor 30, and The rear frame 23 is coupled to the intermediate frame 22 to support the rear side of the reciprocating motor 30.

The reciprocating motor 30 is coupled to the rear frame 23 and the outer stator 31 and the outer stator 31 installed at a predetermined interval between the intermediate frame 22 and the rear frame 23. The inner stator 32 to be inserted and coupled, and the mover 33 is installed between the outer stator 31 and the inner stator 32 to reciprocate in a straight line.

The compression unit 40 is coupled to the cylinder 41 formed integrally with the front frame 21 and the mover 33 of the reciprocating motor 30 in the compression space P of the cylinder 41. A piston 42 for reciprocating motion, a suction valve 43 attached to the distal end of the piston 42 to restrict the intake of gas while opening and closing the suction flow path F of the piston 42 and the cylinder 41. And a discharge valve assembly 70 mounted on the discharge side of the cylinder to limit the discharge of the compressed gas while opening and closing the compression space P, and the discharge valve assembly 70 is formed to have a predetermined space to form the cylinder 41. A discharge cover 71 coupled to cover one side of the discharge cover, a discharge valve 72 inserted into the discharge cover 71 to open and close a compression space P of the cylinder 41, and the discharge cover. The discharge valve is supported inside the 71 and coupled with the discharge valve 72 to set the position of the discharge valve 72. It comprises a valve spring 73 for elastically supporting the 72, the discharge cover 71 is formed in the form of a cap having a predetermined internal space and the gas discharge pipe (DP) is passed through one side It is formed.

The resonant spring unit 50 has a spring support 51 coupled to the connecting portion of the mover 33 and the piston 42, and the front resonant spring 52 supporting the front side around the spring support 51. And a rear resonant spring 53 supporting the rear side of the spring support 51.

The lubricant supply unit 60 is mounted to the lower end of the frame unit 20 and vibrates with the frame unit 40 to pump the lubricant O of the casing 10 while vibrating with the frame unit 40, and the lubricant pumping unit. It consists of the lubricating oil supply flow path 62 formed in the said frame unit 20 so that the exit side of the 61 and the compression unit 40 may communicate.

The lubricating oil pumping part 61 includes a lubricating oil cylinder 61A mounted on the lower end of the front frame 21 as shown in FIG. 2, a lubricating oil suction cover 61B and a lubricating oil discharge cover mounted on both front and rear sides of the lubricating oil cylinder 61A. 61C, a lubricating oil piston 61D slidingly inserted into the lubricating oil cylinder 61A to pump the lubricating oil O, and a lubricating oil spring 61E and 61E for elastically supporting both ends of the lubricating oil piston 61D. And a lubricating oil suction valve 61F mounted between the lubricating oil piston 61D and the lubricating oil spring 61E to restrict the suction of the lubricating oil O, and between the front frame 21 and the lubricating oil discharge cover 61C. It consists of a lubricant discharge valve 61G for restricting the discharge of the lubricant, one end of the one end is pressed into the lubricant suction cover (61B) is coupled and the other end is in communication with the lubricant O filled in the casing (10) Lubricating oil suction pipe 61H is included.

The lubricating oil supply passage 62 communicates with the lubricating oil suction hole 62A, which is formed through the front frame 21 and the lubricating oil discharge cover 61C, through the lower inner circumferential surface of the cylinder 41, and the lubricating oil suction hole 62A. Lubricating oil pocket 62B formed intaglio along the outer circumferential surface of the piston 42, and lubricating oil discharge hole which is connected to the lubricating oil pocket 62B and penetrates through the upper half of the front frame 21 from the upper inner circumferential surface of the cylinder 41. It consists of 62C.

The conventional reciprocating compressor as described above operates as follows.

When a flux is formed between the outer stator 31 and the inner stator 32 by applying power to the reciprocating motor 30 formed inside the reciprocating compressor, the outer stator 31 and the inner stator 32 are formed. The mover 33 placed in the gap between the axial movements is continuously reciprocated by the resonant spring unit 50 while moving in the direction of the flux, and the piston 42 reciprocates in the cylinder 41. While the volume of the compression space P is changed, a series of processes of repeatedly sucking and compressing gas into the compression space and discharging the gas are repeatedly performed, and the discharged gas penetrates through the discharge cover 71. It is discharged to the outside through DP).

At this time, the lubricating oil cylinder 61A of the lubricating oil pumping part 61 vibrates together due to the vibration caused by the reciprocating motion of the piston 31, and the lubricating oil piston 61D inertia lubricates the lubricating oil of the casing 10 by the lubricating oil suction pipe ( 61H) is sucked and pumped, and this lubricant flows through the lubricant discharge valve 61G, and is then guided to the lubricant discharge cover 61C to guide the lubricant suction hole 62A and the lubricant along the lubricant supply flow path 62. The sliding portion between the piston 42 and the cylinder 41 is lubricated while flowing into the pocket 62B. Then, it flowed along 62C of lubricating oil discharge holes, and was recovered, returning to the casing 10. As shown to FIG.

However, in the reciprocating compressor as described above, the discharge cover 71 which is bolted to the cylinder 41 and the discharge cover 71 are adjacent to the discharge cover 71, and the lubricant is bolted to the front frame 21. Since the discharge cover 61C is formed separately, there is a problem in that the manufacturing cost and the number of assembling work are increased to increase the manufacturing cost.

SUMMARY OF THE INVENTION An object of the present invention devised in view of the above is to provide a discharge device for a reciprocating compressor in which the manufacturing cost is reduced by improving the structure of the reciprocating compressor to reduce the processing cost and the assembly labor.

In order to achieve the object of the present invention as described above, a certain amount of lubricating oil filled casing, the frame unit elastically installed in the casing, the reciprocating motor is fixed to the frame unit to generate a driving force to reciprocate linearly; , A compression unit for sucking and compressing refrigerant by discharging and releasing refrigerant while linearly reciprocating in a cylinder forming a compression space by connecting a piston to a mover of a reciprocating motor, and lubricating oil pumping part is coupled to a frame unit to vibrate together and A reciprocating compressor including a lubricating oil supply unit for supplying a lubricating oil of a lubricating oil to a compression unit through a lubricating oil guiding passage provided in the frame unit, the reciprocating compressor comprising: a discharge cover part configured to cover the discharge side of the cylinder to form a discharge space; Lubricant in the frame unit The discharge apparatus of a reciprocating compressor, characterized in that the cover plate constituting the one-piece cover extends from the lubricating oil by the discharge portion to the cover portion bokgae a flow path is provided.

Hereinafter, a discharge device of a reciprocating compressor, which is an embodiment of the present invention, will be described in detail with reference to the accompanying drawings.

Figure 3 is a longitudinal sectional view showing the internal structure of the reciprocating compressor equipped with the discharge device is an embodiment of the present invention, Figure 4 is a partial cross-sectional view showing an enlarged portion of the reciprocating compressor shown in Figure 3, As shown therein, the reciprocating compressor, which is an embodiment of the present invention, includes a sealed casing 10 in which a predetermined amount of lubricant O is filled on a bottom thereof, and a gas suction pipe SP and a gas discharge pipe DP are installed in communication with each other. A frame unit 20 elastically installed inside the casing 10, a reciprocating motor 30 fixed to the frame unit 20, and the mover 33 reciprocates linearly, and the reciprocating type Compression unit 40 coupled to the mover 33 of the motor 30 supported by the frame unit 20 and the mover 33 of the reciprocating motor 30 elastically support in the movement direction to resonate A resonance spring unit 50 for inducing a movement, and It is composed of a lubricating oil supply unit 60 is attached to the frame unit 20 and supplies the lubricating oil O filled in the casing 10 to the sliding portion of the compression unit 40.

In the discharge device of the reciprocating compressor according to the embodiment of the present invention as described above, other parts except for the discharge valve assembly 170 and the lubricating oil supply unit 160 mounted on the compression unit 40 have the same shape as the conventional structure. Therefore, the description of the frame unit 20, the reciprocating motor 30, the compression unit 40, the resonant spring unit 50 and the like will be described with reference to Figs.

The discharge valve assembly 170 mounted on the discharge side of the cylinder 41 to limit the discharge of the compressed gas while opening and closing the compression space P is formed to have a predetermined space and coupled to cover one side of the cylinder 41. A cover plate 171 having a discharge cover part 171a formed therein, a discharge valve 172 inserted into the discharge cover part 171a to open and close a compression space P of the cylinder 41, and the And a valve spring 173 supported inside the discharge cover 171a and coupled to the discharge valve 172 to elastically support the discharge valve 172 while setting the position of the discharge valve 172. The discharge cover part 171a is formed in a cap shape having a predetermined internal space, and the gas discharge pipe DP penetrates one side thereof.

The lubricating oil supply unit 160 is mounted to the lower end of the frame unit 20 and lubricating oil pumping unit 161 for pumping the lubricating oil O of the casing 10 while vibrating with the frame unit 40, and lubricating oil pumping. It consists of a lubricating oil supply passage 162 formed in the frame unit 20 to communicate the outlet side of the portion 161 and the compression unit 40.

The lubricating oil pumping part 161 is a lubricating oil cylinder 161A mounted on the lower end of the front frame 21 as shown in FIG. 2, and a lubricating oil suction cover 161B and a lubricating oil discharge cover mounted on both front and rear sides of the lubricating oil cylinder 161A. 161C, a lubricating oil piston 161D that is slidably inserted into the lubricating oil cylinder 161A to pump the lubricating oil O, and a lubricating oil spring 161E and 161E that elastically supports both ends of the lubricating oil piston 161D. And a lubricating oil suction valve 161F which is mounted between the lubricating oil piston 161D and the lubricating oil spring 161E to restrict the suction of the lubricating oil O, and is mounted between the front frame 21 and the lubricating oil cover part 161C. It consists of a lubricating oil discharge valve (161G) for limiting the discharge of lubricating oil, one end of the one end is pressed into the lubricating oil suction cover (161B) is coupled and the other end is in communication with the lubricating oil (O) filled in the casing (10) Lubricant suction tube (161H) is included The discharge cover part 161C mounted on the front frame 21 extends from the discharge cover part 171a of the cover plate 171, thereby discharging the discharge cover part 161c and the discharge cover part 161C. The cover plate 171 formed integrally with 171a is coupled to the bolt.

The lubricating oil supply passage 162 is in communication with the lubricating oil suction hole 162A, which is formed through the front frame 21 and the lubricating oil discharge cover 161C to the lower inner circumferential surface of the cylinder 41, and the lubricating oil suction hole 162A. Lubricating oil pocket 162B which is engraved along the outer circumferential surface of the piston 42 and the lubricating oil discharge hole which communicates with the lubricating oil pocket 162B and penetrates from the upper inner circumferential surface of the cylinder 41 to the upper half of the front frame 21. (162C).

The conventional reciprocating compressor as described above operates as follows.

When a flux is formed between the outer stator 31 and the inner stator 32 by applying power to the reciprocating motor 30 formed inside the reciprocating compressor, the outer stator 31 and the inner stator 32 are formed. The mover 33 placed in the gap between the axial movements is continuously reciprocated by the resonant spring unit 50 while moving in the direction of the flux, and the piston 42 reciprocates in the cylinder 41. While the volume of the compression space P is changed, a series of processes of repeatedly sucking and compressing gas into the compression space and then discharging the gas are repeatedly performed, and the discharged gas passes through the discharge cover portion 171a of the cover plate 171. It is discharged to the outside through the gas discharge pipe (DP) formed.

At this time, the lubricating oil cylinder 161A of the lubricating oil pumping unit 161 vibrates together due to the vibration by the reciprocating motion of the piston 31, and the lubricating oil piston 161D inertia lubricates the lubricating oil of the casing 10 by the lubricating oil suction pipe ( 161H is sucked and pumped, and this lubricating oil passes through the lubricating oil discharge valve 161G, and is then guided to the lubricating oil cover part 161C of the cover plate 171 to suck the lubricating oil along the lubricating oil supply passage 162. The sliding portion between the piston 42 and the cylinder 41 is lubricated while flowing into the hole 162A and the lubricant oil pocket 162B. Thereafter, the oil was recovered while flowing along the lubricating oil discharge hole 162C and returned to the casing 10.

As described above, in the reciprocating compressor according to the present invention, a discharge cover part coupled to the cylinder 41 to guide the discharged compressed gas to the gas discharge pipe DP and support the valve spring 173 ( Lubricating oil is sucked into the compression unit 140 through the lubricant supply passage 162 so that the lubricant oil sucked and discharged by the lubricant piston 161D of the lubricant pumping unit 161 is introduced into the compression unit 140. The cover plate 171 formed integrally with the lubricating oil cover part 161C coupled to the front frame 21 to be guided up to 162A is mounted, thereby improving assembly.

As described above, the discharge device of the reciprocating compressor according to the present invention is coupled to a cylinder, and guides the discharged compressed gas to the gas discharge pipe and at the same time the discharge cover part supporting the valve spring, and the lubricating oil piston of the lubricating oil pumping part. The cover plate formed integrally with the lubricating oil cover portion coupled to the front frame to guide the lubricating oil to the lubricating oil suction hole so that the lubricating oil sucked and discharged is introduced into the compression unit through the lubricating oil supply passage, thereby providing respective discharge covers and the lubricating oil. Compared with the conventional structure in which the discharge cover is separately installed, the number of parts is reduced and the assembly performance is improved, thereby reducing the labor cost and manufacturing cost.

1 is a longitudinal sectional view showing the internal structure of a reciprocating compressor formed in a conventional structure;

FIG. 2 is an enlarged partial sectional view of a part of the reciprocating compressor shown in FIG. 1;

Figure 3 is a longitudinal sectional view showing the internal structure of a reciprocating compressor equipped with a discharge device which is an embodiment of the present invention,

4 is an enlarged partial sectional view showing a part of the reciprocating compressor shown in FIG. 3;

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

10 casing 20 frame unit

41: cylinder 160: lubricating oil supply unit

161: lube oil pumping unit 161C: lube oil cover

170: discharge valve assembly 171: cover plate

171a: discharge cover

Claims (1)

The piston is coupled to a casing filled with a certain amount of lubricating oil, a frame unit elastically installed inside the casing, a reciprocating motor fixedly mounted to the frame unit to generate a linearly reciprocating driving force, and a mover of the reciprocating motor. Lubricating oil provided in the frame unit by pumping the lubricating oil inside the casing while vibrating together with a compression unit for sucking and compressing refrigerant through a linear reciprocating motion in a cylinder constituting the compression space and the frame unit. In a reciprocating compressor including a lubricant supply unit for supplying a compression unit through a guide passage, A discharge cover part is formed to cover the discharge side of the cylinder to form a discharge space, and a lubricating oil cover part for covering the lubricating oil guide flow path provided in the frame unit extends from the discharge cover part to form an integrated cover plate. Discharge device for reciprocating compressor.