KR100378819B1 - Apparatus for suction valve of compressor - Google Patents

Abstract

The present invention relates to a fixing device of a suction valve for a compressor, the present invention is coupled to the actuator of the drive motor to reciprocate in a straight line to reciprocate in a straight line together in the interior of the cylinder and the same direction as the reciprocating direction therein And a piston having a refrigerant flow path formed at a front end thereof with a valve flow space having a predetermined depth, a suction valve inserted into the valve flow space of the piston and moving in a direction opposite to the direction of movement of the piston to open and close the refrigerant flow path of the piston. And a guide stopper disposed on an outer surface of the intake valve and slidingly penetrating the intake valve at the center thereof to engage the front end surface of the piston, thereby configuring a guide stopper for limiting the opening degree of the intake valve. Even if it is used for a long time because a certain part is not subjected to concentrated stress, the suction valve It can prevent damage from occurring.

Description

Fixing device for compressor suction valve {APPARATUS FOR SUCTION VALVE OF COMPRESSOR}

The present invention relates to a fixing device of a suction valve for a compressor, and more particularly to a fixing device of a suction valve for a compressor that can prevent damage caused by fatigue when opening and closing the suction valve.

In general, the suction valve of the compressor is disposed on the suction side of the compression space to limit the suction degree of the fluid while opening and closing according to the pressure difference between both sides during the suction and compression movement of the piston, Figure 1 is a linear compressor equipped with such a suction valve The longitudinal cross-sectional view which showed an example of the following.

As shown in the drawing, a conventional linear compressor includes an annular frame 1 installed inside a casing V filled with oil on a bottom surface thereof, and a cover 2 fixedly installed on one side of the frame 1. And an inner stator assembly 4A fixed to the center of the frame 1 in the transverse direction, an outer stator assembly 4A fixed to the outer circumferential surface of the frame 1 supporting the cylinder 3, and an inner stator assembly thereof ( An outer stator assembly 4B fixed with a predetermined gap on the outer circumferential surface of 4A), a magnet assembly 5 interposed in the gap between the inner outer stator assemblies 4A, 4B, and forming a mover of the linear motor, and the magnet A piston 6 which is integrally fixed to the assembly 5 and sucks and compresses refrigerant gas while sliding inside the cylinder 3, and the magnet assembly 5 is provided between the inner and outer stator assemblies 4A and 4B. Even if the resonance is continuously An inward resonant spring 7A and an outward resonant spring 7B, and a discharge valve assembly 8 mounted at the tip of the cylinder 3 to limit discharge of compressed gas during reciprocating movement of the piston 6; It consists of

The piston 6 has a head portion 6b formed on the front side of the body portion 6a having a predetermined length, and a connecting portion 6c connected to the magnet assembly 5 on the rear side of the body portion 6a. Is formed, and a coolant flow path F for guiding the coolant gas to the cylinder 3 is formed in the trunk portion 6a and the head portion.

In addition, a suction valve 9 which restricts the suction of the refrigerant gas through the refrigerant passage F is fastened and fixed to the front surface of the head 6b of the piston 6 by a fixing bolt B.

In the figure, reference numeral 6e denotes a gas cylinder, 9a an opening and closing portion, 9b a through hole for valve fastening, DP a discharge tube, SP a suction tube, and O is an oil feeder.

The conventional linear compressor as described above is operated as follows.

That is, when a current is applied to the inner and outer stator assemblies 4A and 4B so that the magnet assembly 5 linearly reciprocates, the piston 6 coupled thereto reciprocates linearly inside the cylinder 3. The pressure difference is generated in the cylinder (3), and the refrigerant gas in the casing (V) is sucked into the cylinder (3) through the refrigerant flow path (F) of the piston (6) by the pressure difference in the cylinder (3). The process of compression ejection is repeated.

At this time, during the suction stroke in which the piston (6) moves to the rear side, the refrigerant gas is pushed down by the suction valve (9) while passing through the refrigerant passage (6d) and the gas passage (6e), the suction valve (9) Is firmly mounted to the piston 6 so that the reliability of the compressor can be maintained firmly without being deviated from the reciprocating motion of the piston 6. For this reason, as shown in FIG. 2, a method of fastening the suction valve 9 to the front end surface of the head part 6b of the piston 6 by using a separate fixing bolt B has been proposed.

In the conventional suction valve fixing device, the suction valve 9 is fastened by the fixing bolt B, but this is due to the characteristics of the fixing bolt B while the suction valve 9 is continuously opened and closed in the long term use of the compressor. Fine loosening occurs, which causes the suction valve 9 to rotate slightly around the fixing bolt B, and the opening and closing portion 9a and the gas inlet 6e are inconsistent, thereby greatly reducing the reliability of the compressor. there was.

In view of these problems, as shown in FIGS. 3A and 3B, a method of directly attaching the suction valve 9 to the front end surface of the piston 6 by welding (W) has been proposed, and also shown in FIGS. 4A and 4B. As shown in the drawing, a welding medium inserting groove 6f is formed in the front end surface of the piston 6, and a separate welding medium M is press-fitted into the welding medium inserting groove 6f, and the suction valve is inserted into the welding medium M. 9) has been proposed to install by welding (W).

However, all of the methods of welding the suction valve 9 to the front end surface of the piston 6 by using the welding (W) as well as the fixing device of the suction valve using the fixing bolt (B) is fixed to the coupling portion. Since it is only locally supported by the bolt (B) or the welding point (W), during the frequent opening and closing operation of the intake valve (9) there was a risk that the intake valve is broken while being easily broken due to the concentrated stress.

The present invention has been made in view of the problems of the conventional fixing device of the suction valve for the compressor, the suction valve of the compressor to prevent the intake valve from receiving the concentrated stress so that it can be operated stably even if used for a long time The purpose is to provide a fixing device.

1 is a longitudinal sectional view showing an example of a conventional linear compressor.

Figure 2a and Figure 2b is a perspective view and a longitudinal sectional view showing a suction valve fixing device of a conventional linear compressor.

3A and 3B are a perspective view and a longitudinal sectional view showing another embodiment of a suction valve fixing device of a conventional linear compressor.

Figures 4a and 4b is a perspective view and a longitudinal sectional view showing another embodiment of the suction valve fixing device of the conventional linear compressor.

Figures 5a and 5b is a perspective view and a longitudinal sectional view showing an example of the fixing device of the suction valve for the present invention compressor.

Figure 6 is a schematic view showing an overlapping state of the suction valve and the guide stopper in the fixing device of the suction valve for the present invention.

Figure 7a and 7b is a longitudinal sectional view showing the operation of the suction valve during the reciprocating movement of the piston in the fixing device of the suction valve for the present invention respectively.

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

3: cylinder 10: piston

10a: refrigerant path 12: head portion

12A: opening and closing surface 12B: sealing surface

12a: Gas cylinder 12b: Fixing groove

20: suction valve 21: sliding ball

30: guide stopper 31: sealing part

31a: gas through hole 32: guide

In order to achieve the object of the present invention, a refrigerant flow path is formed in the same direction as the reciprocating direction and coupled to the mover of the drive motor to reciprocate in a straight line to reciprocate in a straight line together inside the cylinder A piston having a valve flow space having a predetermined depth, a suction valve inserted into the valve flow space of the piston and moving in a direction opposite to the direction of movement of the piston to open and close the refrigerant flow path of the piston, and an outer surface of the suction valve. There is provided a fixing device of the intake valve for a compressor comprising a guide stopper which is located in the center thereof and slides through the intake valve so as to engage the front end surface of the piston to limit the opening degree of the intake valve.

Hereinafter, a fixing device of a suction valve for a compressor according to the present invention will be described in detail based on an embodiment shown in the accompanying drawings.

5A and 5B are a perspective view and a longitudinal sectional view showing an example of the fixing device of the suction valve for the compressor of the present invention, Figure 6 is a schematic view showing the overlapping state of the suction valve and the guide stopper in the fixing device of the suction valve for the compressor of the present invention. 7A and 7B are longitudinal cross-sectional views showing the operation of the suction valve during the reciprocating movement of the piston in the fixing device of the suction valve for the present invention.

As shown therein, the fixing device of the suction valve for a compressor according to the present invention includes a piston 10 coupled to a mover of a linear motor and reciprocating in a straight line in a cylinder (shown in FIG. 1) 3. And a suction valve 20 disposed at the front end surface of the piston 10 to open and close the refrigerant flow path 10a of the piston 10, and the suction valve 20 to be detachable by sliding. It consists of the guide stopper 30 attached to a front end surface.

The piston 10 has a head portion 12 is formed on the front side of the body portion 11 having a predetermined length, and a connecting portion 13 connected to the mover is formed on the rear side of the body portion 11. In the center of the body portion 11, a refrigerant passage 10a for guiding the refrigerant gas to the cylinder 3 is formed.

On the front end surface of the head portion 12 is formed an opening and closing surface 12A detachable to the inner surface of the suction valve 20, the inner surface of the guide stopper 30 is in close contact with the opening and closing surface 12A. Sealing surface 12B is formed.

Between the opening and closing surface 12A and the sealing surface 12B is formed with a valve flow space (not shown) through which the suction valve 20 can flow, and the line of the sealing surface 12B and the head portion 12. It is preferable that the cross section is formed to be equal to the thickness of the guide stopper 30. In addition, a stopper accommodating groove (unsigned) is formed so that the guide stopper 30 is inserted and fixed to the tip of the head portion 12 so that the sealing surface 12B is formed together at the inner side edge of the guide stopper 30 and the outer peripheral surface thereof. It is preferably formed to be negative.

In addition, a plurality of gas passages 12a communicating with the refrigerant passage 10a are formed through the same circumference in the opening and closing surface 12A, and the suction valve 20 is mounted at the center of the opening and closing surface 12A. Fixing groove 12b for the screw is formed.

The suction valve 20 is formed in a disc shape so as to block all of the gas passages 12a of the piston 10, and a sliding hole through the guide portion 32 of the guide stopper 30, which will be described later, through the center thereof. 21) is formed.

The guide stopper 30 is formed in a disc shape and is in close contact with the sealing surface 12B of the head portion 12, and protrudes from the center of the inner surface of the sealing portion 31 to form a suction valve. It consists of a guide portion 32 is inserted into the sliding ball 21 of (20).

The sealing portion 31 is formed with a plurality of gas cylinder holes 31a of circular or arc shape, etc., the screw portion to be screwed into the fixing groove 12b of the opening and closing surface 12A at the end of the guide portion 32 (Unsigned) is formed.

As shown in FIG. 6, the gas through holes 31 a are formed such that the centers of the gas through holes 31 a are positioned on the circumference of the diameter of the intake valve 20 so as to overlap about half by the intake valve 20. desirable.

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

The fixing device of the compressor suction valve according to the present invention as described above has the following effects.

That is, when power is applied to the linear motor and the magnet assembly (shown in FIG. 1) 5 that is a movable member performs linear reciprocating motion, the piston 10 coupled thereto reciprocates linearly inside the cylinder 3. While repeating a series of processes to suck the refrigerant gas filled in the interior of the sealed container (shown in Figure 1) (V) to be compressed and discharged.

Looking at this in more detail as follows.

First, as shown in FIG. 7A, when the piston 10 moves to the right side of the drawing and performs the suction stroke, refrigerant gas is sucked along the refrigerant passage 10a of the piston 10 and then the head portion 12 of the head portion 12 is removed. The suction valve 20 which is blocking the gas passage 12a is pushed out, which causes the suction valve 20 to slide along the guide portion 32 of the guide stopper 30 in the reciprocating direction of the piston 10. The gas passage 12a is opened, and the refrigerant gas flows out through the open gas passage 12a to compress the cylinder 3 through the gas passage 31a formed in the sealing portion 31 of the guide stopper 30. Is sucked into the space.

At this time, the intake valve 20 has an outer surface thereof in contact with the inner surface of the guide stopper 30, the opening degree is limited, while the gas through hole 31a of the guide stopper 30 is the outside of the intake valve 20 It is formed to be exposed to about half the refrigerant gas can flow smoothly.

Subsequently, when the piston 10 moves to the left side of the drawing to perform a compression stroke as shown in FIG. 7B, the suction valve 20, which has been in contact with the guide stopper 30, seeps between its own inertia force and its contact surface. The suction valve 20 slides along the guide portion 32 of the guide stopper 30 toward the opening / closing surface 12A of the piston head 12 so that the inner surface thereof is pushed by the compressed gas. The compressed gas is prevented from flowing back while being in close contact with the opening / closing surface 12A of 12).

At this time, a part of the suction valve 20 is formed to be exposed to the gas through hole 31a of the guide stopper 30, so that the compressed gas sucked into the compressed space of the cylinder 3 during the compression stroke of the piston 10 may be A part flows back through the gas through hole 31a of the guide stopper 30 and pushes out the exposed end of the suction valve 20. As a result, the intake valve 20 is not only inertia of its own but also pushed back by the compressed gas flowing back to quickly block the gas passage 12a of the piston 10.

In this way, when the intake valve is opened and closed, the entire intake valve slides along the guide portion of the guide stopper to open and close the gas opening of the piston, thereby preventing the predetermined portion of the intake valve from being subjected to concentrated stress for a long time use. Even if it is damaged by fatigue can be prevented in advance.

In the fixing device of the compressor suction valve according to the present invention, the suction valve disposed on the front end surface of the piston is configured to open and close the refrigerant flow path of the piston while sliding reciprocating motion by the guide stopper, whereby a predetermined portion of the suction valve is Even if it is used for a long time without being subjected to concentrated stress, the suction valve can prevent the damage caused by fatigue.

Claims (5)

Coupled to the mover of the drive motor which reciprocates in a straight line, the cylinder reciprocates in a straight line together inside the cylinder, and a refrigerant flow path is formed in the same direction as the reciprocating direction. With a piston formed, A suction valve inserted into the valve flow space of the piston and moving in a direction opposite to the direction of movement of the piston to open and close the refrigerant flow path of the piston; Fixing device of the compressor suction valve comprising a guide stopper which is located on the outer surface of the intake valve and slides through the intake valve in the center thereof to engage the front end surface of the piston to limit the opening degree of the intake valve. . The fixing device of the compressor suction valve according to claim 1, wherein a stopper accommodating groove into which the guide stopper is inserted is formed at the same depth as the thickness of the guide stopper on the outer side of the valve flow space. The fixing device of the compressor suction valve according to claim 2, wherein the screw is formed at an end of the guide part and screwed into a fixing groove provided in the front end surface of the piston so as to correspond thereto. The apparatus of claim 1, wherein the guide stopper has a plurality of gas through holes communicating with the refrigerant flow path of the piston when the suction valve is opened. The fixing device of the suction valve of claim 4, wherein a part of the gas through-hole is formed to interfere with the suction valve.