KR100311379B1 - Apparatus for damping gas of discharge valve assembly - Google Patents

Abstract

The present invention relates to a damping device of a valve assembly, the present invention is a discharge valve for opening and closing the compression space of the cylinder while the rear surface is elastically supported by the valve spring and detachable from the front end surface of the linear cylinder, opening and closing of the discharge valve The cushioning elastic member is interposed elastically between the surface and the front end surface of the corresponding cylinder to reduce the amount of impact with the cylinder when the discharge valve is closed, thereby reducing the collision speed at which the discharge valve strikes the front end surface of the cylinder. By slowing down the discharge valve, noise and vibration due to collision with the cylinder can be minimized.

Description

Damping device for valve assembly {APPARATUS FOR DAMPING GAS OF DISCHARGE VALVE ASSEMBLY}

The present invention relates to a damping device of a valve assembly, and more particularly to a damping device of a valve assembly suitable for reducing the impact force with a cylinder when the discharge valve is closed.

In the general valve assembly, the axial valve assembly discharges the compressed gas while the piston integral to the mover of the motor reciprocates linearly in the cylinder, and FIG. 1 shows such an axial discharge valve assembly (hereinafter, referred to as a discharge valve assembly). (Abbreviated as).

As shown in the related art, the conventional discharge valve assembly has a predetermined discharge space S2 at the front end surface of the cylinder 2 in which the piston 1 is inserted into the mover (not shown) of the motor to linearly reciprocate. The discharge cover 11 is provided and fixed to the discharge cover 11 to be attached to and detached from the front end surface of the cylinder (1) during the reciprocating movement of the piston (1) to open and close the cylinder (2) to limit the discharge of the compressed gas ) Both ends are supported on the plastic discharge valve 12 and the inner circumferential surface of the discharge cover 11, and the central part supports the discharge valve 12 to support the reciprocating motion of the piston 1. It consists of a plate-shaped valve spring 13 for elastically supporting the reciprocating motion of the discharge valve 12 by the.

The discharge cover 11 is equipped with a discharge pipe 14 communicating with a loop pipe (not shown) on one side thereof, and a support end portion on which the valve spring 13 is mounted and fixed on the inner circumferential surface thereof during compression of the piston 1. 11a is formed.

The discharge valve 12 has a diameter larger than the inner diameter of the cylinder 2 and smaller than the inner diameter of the discharge cover 11, and the inner surface facing the piston 1 is flat while the discharge valve 11 faces the discharge cover 11. The outer surface is formed to be convex in a dome shape so that the valve spring 13 can be in close contact with the support end (11a) of the discharge cover (11).

The valve spring 13 is a rectangular leaf spring, and both ends of the outer surface thereof are in close contact with the support end portion 11a formed on the inner circumferential surface of the discharge cover 11, while the inner surface center portion is disposed at the center of the outer surface of the discharge valve 12. In close contact with each other, it is supported between the discharge cover 11 and the discharge valve 12.

In the drawings, reference numeral 1a denotes a refrigerant passage, 3 denotes a suction valve, 4 denotes a caulking pin, and S1 denotes a compression space.

The conventional discharge valve assembly as described above is operated as follows.

When the piston 1 integrated in the mover (not shown) of the linear motor (not shown) is linearly reciprocated in the cylinder 2, the refrigerant flow path 1a formed inside the piston 1 The refrigerant gas is sucked into the compression space (S1) of the cylinder (2), compressed, and then discharged to the outside through the discharge space (S2) of the discharge cover (11).

That is, when the piston 1 moves backward, new refrigerant gas is injected along the refrigerant passage 1a of the piston 1 to open the suction valve 3 mounted on the front end surface of the piston 1. While flowing into the compression space (S1).

The refrigerant gas introduced into the compression space (S1) is compressed by being pushed by the piston (1) during the forward movement of the piston (1) and pushes the discharge valve (12) at some point, wherein the discharge space ( The compressed gas filled in S2 is pushed by the discharge valve 12 to be discharged to the outside through the discharge pipe 14, and the refrigerant gas compressed in the compression space S1 is discharged to the cylinder 2. When it is spaced apart from the front end surface of the inlet through the gap between the discharge valve 12 and the discharge cover 11 is introduced into the empty discharge space (S2).

Thereafter, during the backward movement of the piston (1), the compression space (S1) is relatively low pressure compared to the discharge space so that the discharge valve 12 to the front end surface of the cylinder (2) by the restoring force of the valve spring (13) It was settled while returning to separate the compression space (S1) and the discharge space (S2).

However, in the conventional discharge valve assembly as described above, the impact generated when the discharge valve 120 is seated on the front end surface of the cylinder (2) by the restoring force of the valve spring 130 after a predetermined discharge stroke There is a problem that the noise and vibration is transmitted to the whole set.

Accordingly, the present invention has been made in view of the problems of the conventional discharge valve assembly as described above, damping device of the valve assembly that can minimize the noise and vibration generated when the discharge valve is returned to the front end surface of the cylinder It is an object of the present invention to provide.

Figure 1 is a longitudinal sectional view showing an example of a conventional discharge valve assembly.

Figure 2a and 2b is a longitudinal sectional view showing the operation of the conventional discharge valve assembly.

Figure 3 is a longitudinal sectional view showing an example of the discharge valve assembly with a damping device of the present invention.

Figures 4a and 4b is a longitudinal sectional view showing the operation of the discharge valve assembly with a damping device of the present invention.

Explanation of symbols on the main parts of the drawings

2: Cylinder 2a: Spring mounting groove

110: discharge cover 111: support end

120: discharge valve 130: restoring valve spring

140: damping valve spring S1: compression space

S2: discharge space

In order to achieve the object of the present invention, the valve member is elastically supported by the valve spring to be detached from the front end surface of the cylinder while opening and closing the compression space of the cylinder, and the opening and closing surface of the valve member and the corresponding A damping device for a valve assembly is provided, which is configured to be elastically interposed between the front end faces of the cylinders, and configured as a cushioning elastic member to relieve an impact with the cylinder when the valve member is closed.

Hereinafter, the damping device of the valve assembly according to the present invention will be described in detail based on the embodiment shown in the accompanying drawings.

Figure 3 is a longitudinal sectional view showing an example of the discharge valve assembly with a damping device of the present invention, Figure 4a and Figure 4b is a longitudinal sectional view showing the operation of the discharge valve assembly with a damping device of the present invention.

As shown therein, the discharge valve assembly with the damping device of the present invention is generally installed at the front end surface side of the cylinder 2 in which the piston 1 is inserted and performs linear reciprocation. The discharge cover 110 is provided with a fixed volume discharge space (S2) having a predetermined volume on the front end surface, and is installed inside the discharge cover 110 and detached from the front end surface of the cylinder (2) while the cylinder ( 2) opening and closing the end surface of the cylinder (2) while opening and closing the discharge valve 120 to limit the discharge of the compressed gas, and the discharge valve 120 reciprocates in the discharge space (S2) of the discharge cover (110) The discharge valve 20 for elastically supporting the discharge valve 20 so as to be mounted between the front end surface of the cylinder 2 and the one side surface of the discharge valve 120 opposite to the front end surface of the discharge valve 20. When the valve 120 is closed, the discharge valve 120 is applied to the front end surface of the cylinder 2 It is configured to include a buffer valve 140 for reducing the force.

The discharge cover 110 has a flange (not shown) is fixed to the frame (not shown) and the like with one end of the cylinder (2), the discharge pipe 150 is in communication with the loop pipe (not shown) on one side Is mounted, the inner end surface is formed with a support end 111 that is fixed by mounting the restoring valve spring 130 in the compression stroke of the piston (1).

The discharge valve 120 has a diameter larger than the inner diameter of the cylinder 2 and smaller than the inner diameter of the discharge cover 110, and the opening / closing surface facing the piston 1 is flat while the discharge valve 110 faces the discharge cover 110. The rear surface is formed to be convex in a dome shape so that the restoring valve spring 130 can be in close contact with the support end 111 of the discharge cover 110.

The restoring valve spring 130 is a rectangular leaf spring, and both ends of the outer surface thereof are in close contact with the support end 111 formed on the inner circumferential surface of the discharge cover 110, while the inner side center portion is the outer surface of the discharge valve 120. It is in close contact with the center part and is eventually supported between the discharge cover 110 and the discharge valve 120.

The buffer valve spring 140 is inserted into and fixed to a spring mounting groove 2a that is formed in an annular shape on the front end surface of the cylinder 2 as a compression coil spring smaller than the rigidity of the restoring valve spring 130.

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

In the drawings, reference numeral 1a denotes a refrigerant passage, 3 denotes a suction valve, and S1 denotes a compression space.

The general operation of the discharge valve assembly with a damping device according to the present invention as described above is the same as in the prior art.

That is, when the piston 1 integrated in the mover of the linear motor (not shown) is linearly reciprocated in the cylinder 2, the refrigerant gas is introduced through the refrigerant passage 1a formed inside the piston 1. The process of being sucked into the compression space S1 of the cylinder 2 and compressed, and then again discharged to the outside via the discharge space S2 of the discharge cover 110 is repeated.

Here, when the piston 1 moves backward, new refrigerant gas is injected along the refrigerant passage 1a of the piston 1 to open the suction valve 3 mounted on the front end surface of the piston 1. While being introduced into the compression space (S1), during the forward movement of the piston (1) is pushed by the piston (1) and compressed, at some point while pushing the discharge valve 120 of the discharge cover 110 It flows into the discharge space S2.

Next, during the backward movement of the piston 1, the compression space (S1) is relatively low pressure compared to the discharge space (S2) so that the discharge valve 120 is the cylinder (2) by the restoring force of the restoring valve spring (130) The compressed space S1 and the discharge space S2 are separated from each other by returning to the front end surface of the cross section.

At this time, the pressure in the compression space (S1) of the cylinder (2) becomes relatively low pressure in the process of closing the discharge valve 120, the pressure difference between the compression space (S1) and the discharge space (S2) and the restoring valve The opening and closing surface of the discharge valve 120 is quickly returned by the restoring force of the spring 130 to come into contact with the front end surface of the cylinder 2, but the opening and closing surface of the discharge valve 120 and the line of the cylinder 2 Between the end face and the buffer valve spring 140 for reducing the collision speed of the discharge valve 120 is mounted to reduce the amount of impact between the discharge valve 120 and the cylinder (2).

On the other hand, in the process of returning the discharge valve 120 to the front end surface of the cylinder by the restoring valve spring 130, the buffer valve spring mounted between the discharge valve 120 and the cylinder (2) ( 140 pushes the discharge valve 120 to a certain degree, but the rigidity of the buffer valve spring 140 is less than that of the restoring valve spring 130 so that the discharge valve 120 is connected to the line of the cylinder 2. It will be able to be stably seated on the cross section.

As described above, the damping apparatus of the valve assembly according to the present invention is characterized in that the discharge valve is opened by a restoring valve spring for returning the discharge valve when the discharge valve opened by the forward movement of the piston moves backward. In order to alleviate the impact force generated when the cylinder is in contact with the cylinder, a shock absorbing valve spring for cushioning the discharge valve is provided between the discharge valve and the cylinder, thereby slowing the collision speed at which the discharge valve strikes the front end surface of the cylinder. When the discharge valve is closed, noise and vibration due to collision with the cylinder can be minimized.

Claims (2)

The rear side is elastically supported by the valve spring to be detached from the front end surface of the cylinder and the valve member for opening and closing the compression space of the cylinder, and the elastically interposed between the opening and closing surface of the valve member and the corresponding end surface of the cylinder A damping device for a valve assembly, characterized in that it comprises an elastic member for cushioning to alleviate the impact with the cylinder when one valve member is closed. The damping device of claim 1, wherein the shock absorbing elastic member is formed of a compression coil spring, and one end of the shock absorbing elastic member is inserted into and fixed to a spring mounting groove having an annular shape on a cylinder front end surface.