KR100301513B1 - Discharge valve assembly for compressor - Google Patents

Abstract

The present invention relates to a discharge valve assembly of a compressor, conventionally the discharge valve and the valve plate for opening and closing the compression space of the cylinder repetitively moving the opening and closing the compression space of the cylinder in the process of elastically supporting the discharge valve and the valve plate As the coil spring rotates little by little while repeating contraction and tension, abrasion occurs between the coil spring, the valve plate, and the discharge valve, and the complicated path for discharging the pressurized gas in the compression space of the cylinder is complicated. The present invention has a problem that the gas discharge is not performed smoothly, the present invention is inserted into the discharge cover to cover one side of the cylinder and the opening and closing member for opening and closing the compression space of the cylinder and inserted into the discharge cover and supported In addition, including an elastic member for supporting the opening and closing member Sex and by only reduces the resistance of the discharge gas discharged from the compression space of the cylinder, not inhibit relative movement between the parts to facilitate the discharge of the gas and to prevent the wear of the components, and will allow one to reduce the number of parts as well.

Description

Discharge valve assembly of compressor {DISCHARGE VALVE ASSEMBLY FOR COMPRESSOR}

The present invention relates to a discharge valve assembly of a compressor, and in particular, to reduce the discharge resistance of the discharge gas discharged by being pressed in the compression space of the cylinder by the reciprocating motion of the piston, and to prevent wear caused by the relative movement of the parts The present invention relates to a discharge valve assembly of a compressor for reducing the number of components of a component.

Generally, the compressor includes a hermetically sealed container having a predetermined internal space, an electric mechanism part installed inside the hermetically sealed container to generate a driving force, and a compressor mechanism part for sucking and compressing gas by receiving the driving force of the electric mechanism part. It is.

The compressor mechanism for sucking and compressing the refrigerant gas is configured to include a cylinder having a compression space formed therein and a piston inserted into the cylinder to linearly reciprocate in response to a driving force of the electric mechanism. And the end of the cylinder is coupled to the discharge valve assembly for discharging the compressed gas in the compression space by the piston reciprocating linearly.

The cylinder to which the piston is coupled and the discharge valve assembly mounted to the end of the cylinder are one example, as shown in FIG. 1.

The cylinder 10 includes a cylinder body part 11 having a compression space P formed therein, and a mounting part 12 protruding to a predetermined width and thickness on an upper outer circumferential surface of the cylinder body part 11. In the compression space (P), the piston 20 is linearly reciprocated by the driving force transmitted from the electric mechanism. In addition, a gas flow path F through which gas is introduced is formed in the piston 20, and an intake valve 21 for opening and closing the gas flow F at the end of the piston 20 is fastened by a screw 22. have.

And the discharge valve assembly 30 is formed in the form of a cap coupled to cover one side of the cylinder 10 and the discharge cover 31 is inserted into the discharge cover 31 is the compression space of the cylinder 10 A discharge valve 32 for opening and closing (P), a valve plate 33 seated on the discharge valve 32, and a valve plate 33 and a discharge valve 32 inserted into the discharge cover 31. It is comprised including the coil spring 34 which supports.

As shown in FIG. 2, the discharge valve 32 is formed by forming a plurality of support parts 32b extending to have a predetermined width and length at the edge of the disc part 32a having a predetermined thickness. The through hole 32c corresponding to the size of the head portion of the screw 22 that fixes the suction valve 21 is formed in the center of the disc portion 32a. The diameter of the disc portion 32a is larger than the inner diameter of the compression space P of the cylinder, and the diameter of the circle formed by the end of the support portion 32b corresponds to the inner diameter of the discharge cover 31. As shown in FIG. 3, the valve plate 33 is formed by forming a plurality of support portions 33b extended to have a predetermined width and length at the edge of the thin disc portion 33a. The diameter of the disc portion 33a is larger than the inner diameter of the compression space P of the cylinder, and the diameter of the circle formed by the end of the support portion 33b is formed to correspond to the inner diameter of the discharge cover 31. The coil spring 34 is inserted between the inner surface of the discharge cover 31 and one surface of the valve plate 33 to compress the valve plate 33 and the discharge valve 32 to the cylinder 10 end.

The operation of the conventional discharge valve assembly as described above is as follows.

First, the piston 20 is linearly reciprocated in the compression space P inside the cylinder 10 by receiving the driving force of the electric mechanism. At this time, as shown in Figure 4, when the piston 20 moves in the bottom dead center direction (a direction), the discharge valve 32 is in contact with the end of the cylinder 10 to block the compression space (P) while the suction force The gas is sucked into the compression space P through the gas flow path F and the suction valve 21 of the piston. When the piston 20 moves from the bottom dead center to the top dead center direction (b direction), the discharge valve 32 supported by the coil spring 34 reaches the top dead center while the gas sucked into the compression space P is compressed. And the valve plate 33 is opened and the gas compressed in the compression space P is discharged between the guide portions 32b of the discharge valve and between the guide portions 33b of the valve plate 33.

When the piston 20 moves from the top dead center to the bottom dead center (a direction) after the discharging process, the discharge valve 32 and the valve plate 33 are returned by the restoring force of the coil spring 34 and the cylinder 10 The cylinder compression space (P) is blocked while in contact with the end of the).

As described above, the discharge valve 32 and the valve plate 33 open and close the compression space P of the cylinder 10 while repeatedly moving up and down while being elastically supported by the coil spring 34.

However, the conventional discharge valve assembly as described above burns the discharge valve 32 and the valve plate 33 in the process of opening and closing the compression space P of the cylinder while the discharge valve 32 and the valve plate 33 move repeatedly. The coil spring 34, which is sexually supported, rotates little by little while repeating contraction and tension, causing wear to occur due to the relative movement between the coil spring 34, the valve plate 33, and the discharge valve 32. .

In addition, the gas pressurized in the compressed space (P) of the cylinder is discharged through the discharge valve 32 and the valve plate 33 has a disadvantage that the discharge resistance is large and the discharge is not made smoothly during the gas discharge.

The object of the present invention devised in view of the above problems is to reduce the discharge resistance of the discharge gas discharged by being pressurized in the compression space of the cylinder by the reciprocating motion of the piston, as well as to reduce the wear caused by the relative motion of the parts. It is to provide a discharge valve assembly of a compressor to be prevented.

In addition, another object of the present invention to provide a discharge valve assembly of the compressor to reduce the number of components of the component.

1 is a front sectional view showing a conventional compressor cylinder and a discharge valve assembly;

2 is a plan sectional view of a discharge valve constituting a discharge valve assembly of a conventional compressor;

3 is a plan sectional view of a valve plate constituting a discharge valve assembly of a conventional compressor;

4 is a front sectional view showing an operating state of a discharge valve assembly of a conventional compressor;

5 is a front sectional view showing a compressor discharge valve assembly of the present invention;

6 is a plan view of the opening and closing member constituting the compressor discharge valve assembly of the present invention,

7 is a plan view of the elastic member constituting the compressor discharge valve assembly of the present invention;

Figure 8 is a front sectional view showing an operating state of the compressor discharge valve assembly of the present invention.

(Explanation of symbols for the main parts of the drawing)

20; Piston 40; cylinder

50; Discharge cover 51; Discharge cover jam

60; Opening and closing member 61; Opening member through hole

62; Switching member gas discharge groove 70; Elastic member

71; Elastic member opening and closing plate 72; Elastic member extension

73; Elastic member support P; Cylinder compression space

In order to achieve the object of the present invention as described above, a cylinder, a piston for reciprocating the inside of the cylinder, a discharge cover coupled to cover one side of the cylinder, and inserted into the discharge cover to the compression space of the cylinder Opening and closing member which is opened and closed and is formed in contact with the upper surface of the opening and closing member, the opening and closing plate portion for covering the through hole of the opening and closing member and extends to a predetermined length with a predetermined interval at the edge of the opening and closing plate portion A discharge valve assembly of a compressor is provided, comprising an elastic member having a plurality of extensions and each of the extensions bent to a predetermined length and supported by an inner side of the discharge cover.

Hereinafter, the compressor discharge valve assembly of the present invention will be described according to the embodiment shown in the accompanying drawings.

In the compressor discharge valve assembly of the present invention, as shown in FIG. 5, a piston 20 is first inserted into a cylinder 40 to receive a driving force from an electric mechanism part and reciprocate. The cylinder 40 is provided with a mounting portion 42 protruding to a certain thickness and height on one side outer peripheral surface of the cylindrical cylinder body portion 41 having a compression space P formed therein, the piston 20 Is inserted into the compression space P of the cylinder.

The discharge cover 50 is formed in the form of a cap having a predetermined internal space therein, the engaging portion 51 is formed therein, and the discharge hole 52 is formed on one side. The discharge cover 50 is coupled to contact the cylinder mounting portion 42 while wrapping the front end portion of the cylinder body portion 41.

And the opening and closing member 60 for opening and closing the compression space (P) of the cylinder in the discharge cover 50 is inserted. As shown in FIG. 6, the opening and closing member 60 is formed to have a predetermined thickness and area, and a through hole 61 is formed therein, and a gas discharge groove 62 is provided at an edge thereof. The opening and closing member 60 is preferably formed of a circular plate having a diameter corresponding to the inner diameter of the discharge cover 50, a plurality of gas discharge grooves 62 having a predetermined width and depth at the edge thereof is formed and the gas discharge The groove 62 is formed with a guide portion 63 having a predetermined width and length. That is, the inside of the guide portion 63 has a circular area and the circular area blocks the compression space P of the cylinder.

As shown in FIG. 7, the elastic member 70 includes a plurality of extension portions 72 to have a predetermined width and length at an edge of the opening and closing plate portion 71 having a predetermined area to block the through hole 61. Is formed and is bent and extended to each of the extension parts 72, and the support part 73 is supported by the locking part 51 of the discharge cover 50. The elastic member 70 is formed of an elastic plate material, the opening and closing plate portion 71 of the elastic member is folded so as to block the through-hole 61 of the opening and closing member and the discharge portion so that the support portion 73 is supported by the locking portion 51 It is inserted into 50 and combined.

Hereinafter, the operational effects of the compressor discharge valve assembly of the present invention will be described.

First, the piston 20 is linearly reciprocated in the compression space P inside the cylinder 40 by receiving the driving force of the electric mechanism part. At this time, as shown in FIG. 8, when the piston 20 moves in the bottom dead center direction (c direction), the opening / closing member 60 is supported at the end of the cylinder 40 in a state supported by the elastic member 70. While contacting to block the compression space (P), the gas is sucked into the compression space (P) through the gas flow path (F) and the suction valve 21 of the piston by the suction force. The elastic member 70 supporting the opening / closing member 60 in the closed state of the opening / closing member 60 has an extension part 72 except for the support portion 73 and the opening / closing plate 71 being in contact with the opening / closing member 60. It becomes a state.

When the piston 20 moves in the top dead center direction (d direction) from the bottom dead center, the opening and closing member 60 supported by the elastic member 70 reaches a top dead center while the gas sucked into the compression space P is compressed. Is opened, and the support portion 73 of the elastic member 70 supported by the catching portion 51 of the discharge cover 50 receives the force, and the extension portion 72 and the opening / closing plate portion 71 are bent. The gas discharged into the through hole 61 flows out between the extension portion 72 and the extension portion 72, and at the same time, the gas discharged into the gas discharge groove 62 flows out between the support portion 73 and the support portion 73 of the elastic member. As the gas is compressed from the cylinder 40 is discharged.

When the piston 20 moves from the top dead center to the bottom dead center (c direction) after the discharging process, the opening and closing member 60 is returned by the restoring force of the elastic member 70 to be in contact with the end of the cylinder 40. The cylinder compression space P is blocked.

As such, the opening and closing member 60 repeatedly moves up and down while being elastically supported by the elastic member 70 to open and close the compression space P of the cylinder to discharge the gas.

According to the present invention, the compressed gas compressed in the cylinder 40 is discharged between the through hole 61 of the opening and closing member and the extension portion 72 of the elastic member, and at the same time, the gas discharge groove 62 and the support portion 73 of the opening and closing member 60 are opened. The discharge resistance is small, so that the discharge of gas is smooth. In addition, since the support member 73 of the elastic member is supported by the catching portion 51 of the discharge cover, the support member 73 is supported by the elasticity of the support member 73. ) And the relative movement of the elastic member 70 is suppressed to prevent the wear of the parts.

In addition, since the opening and closing member 60 for opening and closing the compression space (P) of the cylinder and the elastic member 70 for supporting it is reduced compared to the conventional parts.

As described above, the discharge valve assembly of the compressor according to the present invention has a low discharge resistance of the discharged gas to facilitate the discharge of the gas to increase the discharge efficiency, and further suppresses the relative movement between the parts to wear between parts By preventing the increase in reliability and the number of parts is reduced, there is an effect that can increase the manufacturing cost and assembly productivity.

Claims (1)

A cylinder, a piston reciprocating inside the cylinder, a discharge cover coupled to cover one side of the cylinder, an opening / closing member inserted into the discharge cover to open and close the compression space of the cylinder, and having a through hole formed at the center thereof; A plurality of extension parts and a plurality of extension parts which are positioned in contact with the upper surface of the opening and closing member to cover the through-holes of the opening and closing member, and the plurality of extension parts which extend to a predetermined length at predetermined intervals on the edge of the opening and closing plate part; The discharge valve assembly of the compressor, characterized in that it comprises a resilient member having a support portion which is bent and extended to the inside of the discharge cover.