KR20200062645A - valve assembly for compressor - Google Patents

Abstract

The present invention provides a valve assembly for a compressor, including a valve base, a valve plate, a valve guard, a coil spring, and a spring support unit. In particular, the spring support unit is formed to support the coil spring to be compressed and restored in a correct shape at a correct position while supporting the coil spring to be fixed to a specific position, thereby preventing movement imbalance of each part generated during lifting of the valve plate.

Description

Valve assembly for compressors

The present invention relates to a valve assembly, and more particularly, to a valve assembly for a compressor according to a new form that enables the valve plate to be stably operated, and smoothly and accurately open and close.

In general, a compressor is a mechanical device that increases pressure by compressing a gas (air or refrigerant, etc.), and is classified into various types such as a reciprocating compressor, a centrifugal compressor, an axial compressor, a rotary compressor, and an injection compressor.

Here, the reciprocating compressor is a compressor that sucks and compresses gas by a reciprocating motion of a piston provided inside the cylinder, and the compressed gas is discharged to the outside through the discharge side valve assembly.

When the pressure of the compression space reaches the set pressure, the discharge side valve assembly is configured to open a flow path (a passage communicating with the compression space and the discharge space) while the valve plate is operated, wherein the valve plate is an elastic member. It is made to open or close the discharge port by return movement or spaced movement.

As the elastic member of the valve assembly, a leaf spring such as that disclosed in Patent Publication No. 10-2017-0126548, Patent Registration No. 10-0422364, etc. is mainly used, but these plate springs have recently been developed as the structure is complicated. There is provided a technique using a coil spring, and in this regard, it is as proposed in Patent No. 10-0895105.

However, in the technique using the coil spring according to the prior art as an elastic member, when the valve plate is operated, each coil spring that presses each part of the valve plate does not perform only the correct up and down compression operation at the correct position. Due to the occurrence of torsion or bending, a variation in the pressing force for each part of the valve plate was generated, thereby causing the valve plate to vibrate.

That is, in the related art, as the coil spring is freely fixed and flows freely, when the coil spring is operated, it is greatly affected by external force. As the restoration was done, the valve plate was forced to tremble.

Patent Publication No. 10-2017-0126548 Registered Patent No. 10-0422364 Registered Patent No. 10-0895105

The present invention has been devised to solve various problems according to the above-described prior art, and the object of the present invention is to enable the operation of the valve plate to be stably performed, but also to provide a smooth and accurate opening and closing operation. It is to provide a valve assembly for a compressor according to.

According to the valve assembly for a compressor of the present invention for achieving the above object, a valve base formed with a plurality of inlet holes through which the fluid gas flows; A valve plate that opens and closes each inlet hole while being elevated and lowered according to the pressure of the fluid gas flowing through each of the inlet holes; A valve guard that is fixed to the valve base and serves to limit the lifting operation of the valve plate, and a plurality of mounting grooves are recessed and formed along the periphery of the valve plate; A coil spring positioned in each mounting groove of the valve guard and supporting elastic movement of the valve plate; It is characterized in that it is configured to include a spring support that is installed in the mounting groove to support the coil spring to be compressed or restored along a fixed position.

Here, the spring support portion includes a base plate fixed to the corresponding portion while being positioned to cover the end face in the mounting groove, and an operating member installed to press the valve plate while being elevated along the guide of the inner wall surface of the mounting groove It characterized in that, the coil spring is made to be located between the base plate and the operating member.

In addition, the base plate is made to be fixed in the mounting groove of the valve guard by a coupling pin, one end of the coil spring is characterized in that made to be fixed to the base plate by the coupling pin.

In addition, the operation member is formed so that the opposing surface with the valve plate forms a flat surface, and the receiving groove is recessed on the opposite surface with the base plate, and one end of the coil spring is compressed while being accommodated in the receiving groove. And to be restored.

Along with this, a vent hole for releasing the pressure inside the mounting groove is formed through the opposite surface of the operating member with the valve plate.

As described above, the valve assembly for a compressor of the present invention is defective in operation such as being compressed in a warped or inclined state out of position as its coil spring for pressurizing the valve plate is supported by the spring support. This is prevented, thereby having the effect that the valve plate can be moved up and down accurately without fluctuations in each part.

In addition, the valve assembly for a compressor of the present invention has an effect that enables accurate lifting operation because the valve plate is lifted while preventing undesired rotation by the guide pin and guide of the moving movement by the bush.

In addition, the valve assembly for the compressor of the present invention has the effect of accurately limiting the separation distance (operation distance of the valve plate) between the valve base and the valve guard, while the valve plate can be accurately lifted and operated through the additional provision of the bush. .

1 is a sectional view of main parts illustrating a state in which a valve assembly for a compressor is installed according to an embodiment of the present invention
2 is an enlarged view of part “A” of FIG. 1;
Figure 3 is a bottom view showing to explain the valve base of the valve assembly for a compressor according to an embodiment of the present invention
4 is a plan view illustrating a valve base in a valve assembly for a compressor according to an embodiment of the present invention
5 is a plan view illustrating a valve plate in a valve assembly for a compressor according to an embodiment of the present invention
Figure 6 is a bottom view showing to explain the bottom structure of the valve guard valve assembly for a compressor according to an embodiment of the present invention
Figure 7 is a cross-sectional view showing to explain the operating state of the valve assembly for a compressor according to an embodiment of the present invention
8 is an enlarged view of a portion “B” of FIG. 7
9 is a sectional view of main parts illustrating a state in which a valve assembly for a compressor of the present invention is applied to a suction side valve assembly;

Hereinafter, a preferred embodiment of the valve assembly for a compressor of the present invention will be described with reference to FIGS. 1 to 9.

Prior to the description of the embodiment, the description of the valve assembly for a compressor of the present invention will be described based on the direction shown through each drawing.

Along with this, the valve assembly for a compressor of the present invention will be described as an example of a discharge side valve assembly for discharging compressed fluid gas.

Attached Figure 1 is a cross-sectional view of a main part illustrating a state in which a valve assembly for a compressor is installed according to an embodiment of the present invention, Figure 2 is an enlarged view of a portion "A" of Figure 1, Figure 3 is an embodiment of the present invention It is a bottom view showing to explain the valve base of the valve assembly for a compressor according to, Figure 4 is a plan view showing to explain the valve base of the valve assembly for a compressor according to an embodiment of the present invention, Figure 5 is an embodiment of the present invention A plan view illustrating a valve plate in a valve assembly for a compressor according to an example, and FIG. 6 is a bottom view illustrating a bottom structure of a valve guard in a valve assembly for a compressor according to an embodiment of the present invention.

As shown in these drawings, the valve assembly for the compressor according to the embodiment of the present invention is largely the valve base 100, the valve plate 200, the valve guard 300, the coil spring 400 and the spring support ( 500), in particular, the spring support 500 allows the coil spring 400 to be fixed at a specific position, while the coil spring 400 can be compressed and restored to the correct shape at the correct position. It is configured to be supported so as to prevent the movement imbalance of each part generated during the lifting operation of the valve plate 200.

This will be described in more detail for each configuration.

First, the valve base 100 is provided to partition a communication portion between the outlet chamber 11 and the outlet chamber 12 in the compressor housing 10.

Here, the outlet chamber 11 is a space where fluid gas (air or refrigerant gas, etc.) compressed in a compression chamber (not shown) in the compressor housing 10 flows out of the compression chamber and is temporarily stored. The discharge chamber 12 is a space temporarily stored before the fluid gas discharged through the outlet chamber 11 is discharged outside the compressor housing 10.

The valve base 100 is formed of a circular or polygonal flat plate, and is fixedly installed on the partition wall 13 blocking the outlet chamber 11 and the outlet chamber 12. At this time, the outer rim portion of the valve base 100 is formed to protrude outward, and is made to be seated on a portion formed between the outlet chamber 11 and the outlet chamber 12 to communicate with each other of the partition walls 13.

In addition, the valve base 100 is formed with a plurality of inlet holes 110 communicating with the inside of the outlet chamber 11, and each of these inlet holes 110 has a plurality of arcs when viewed from the bottom or plane.弧), or may be provided in plural along the circumferential direction of the valve base 100 while being formed as a simple circular through hole. This is as shown in FIGS. 3 and 4 attached.

Along with this, a fastening hole 120 for installing the fastening bolt 610 is formed through the center of the valve base 100.

Next, the valve plate 200 is configured to open and close each inlet hole 110 of the valve base 100.

The valve plate 200 is formed of a plate-shaped plate material covering the upper surface of the valve base 100, and is made to be elevated according to the pressure in the outlet chamber 11 flowing through each inlet hole 110. That is, when the pressure in the outlet chamber 11 is higher than the set pressure, the valve plate 200 is moved upward to operate to open each inlet hole 110, and the pressure in the outlet chamber 11 is increased. When the pressure is lower than the set pressure, the valve plate 200 moves downward to operate to close each inlet hole 110.

In addition, the valve plate 200 is formed of a ring-shaped plate in which a through hole 210 is formed so that the fastening bolt 610 passes through the center, wherein the through hole 210 is the diameter of the fastening bolt 610. It is made to be large compared to.

Along with this, a cylindrical bush 620 is provided around the fastening bolt 610 passing through the through hole 210 of the valve plate 200, and the valve plate 200 supports the bush 620. It is installed so that it can be correctly lifted in the vertical direction without being inclined to either side while receiving.

Next, the valve guard 300 is a portion provided to limit the lifting operation of the valve plate 200.

The valve guard 300 is made to be fixedly installed on the valve base 100 by the fastening bolt 610. At this time, the valve guard 300 is made to be spaced apart by a predetermined distance from the valve base 100 while being placed on the upper surface of the cylindrical bush 620 located in the through hole 210 of the valve plate 200. That is, the bush 620 determines the separation distance (up and down operating distance of the valve plate) between the valve guard 300 and the valve base 100, the valve base 100 is the valve plate 200 of This will limit the distance traveled.

Along with this, a plurality of mounting grooves 310 are recessed along the circumferential portion on the bottom surface of the valve guard 300. The mounting groove 310 is a groove provided to mount the coil spring 400 and the spring support 500, which will be described later, and are respectively formed at radially symmetrical positions based on the center of the valve guard 300.

On the other hand, the opposite side between the valve base 100 and the valve guard 300 penetrates through the valve plate 200, and both ends of the support pins 630 are inserted into the valve base 100 and the valve guard 300, respectively. This is further provided. That is, through the additional provision of the support pin 630, the assembly of the valve base 100, the valve plate 200, and the valve guard 300 can be accurately performed, and the valve plate 200 is also in the correct position. It was made to be able to ascend along. At this time, reference numerals 102, 202 and 302 shown in FIGS. 4 to 6 are pinholes to which the support pins 630 are coupled.

In addition, a plurality of communication holes 201 and 301 are formed in the valve plate 200 and the valve guard 300 to communicate with each other while being positioned to face each other. That is, when the valve plate 200 is moved upward and each inlet hole 110 of the valve base 100 is opened, a part of the compressed fluid gas flowing from the inlet hole 110 is partially connected to the valve plate ( 200) is discharged through the spaced gap between the valve base 100 and the remaining part is discharged while sequentially passing through each of the communication holes 201 and 301 so that the compressed fluid gas in the outlet chamber 11 can be discharged as quickly as possible. I made it possible. At this time, the respective communication holes 201 and 301 are formed at positions not coinciding with each inflow hole 110 of the valve base 100 so that the valve plate 200 is in close contact with the upper surface of the valve base 100. In this state, the discharge of the fluid gas through each of the communication holes 201 and 301 is not made.

Next, the coil spring 400 is configured to provide elastic movement of the valve plate 200.

That is, when the compressed fluid gas existing in the outlet chamber 11 of the compressor housing 10 is discharged from the outlet chamber 11, the valve plate 200 is moved and moved by the restoring force of the coil spring 400 Each inlet hole 110 of the valve base 100 is to be closed.

The coil spring 400 is configured to be located in each mounting groove 310 of the valve guard 300 while being installed on the spring support 500 to be described later.

Next, the spring support 500 is a part that is installed in each of the mounting grooves 310 while supporting the coil spring 400 in each mounting groove 310 to be compressed or restored along a fixed position.

Each spring support 500 as described above is positioned to cover the end surface in the mounting groove 310, and is lifted along with the guide of the base plate 510 fixed to the corresponding portion and the inner wall surface of the mounting groove 310. It comprises a working member 520 is installed to press the valve plate 200. At this time, the coil spring 400 is made to be positioned between the base plate 510 and the operating member 520.

Here, the base plate 510 is made to be fixed in the mounting groove 310 of the valve guard 300 by a coupling pin 511, and one end of the coil spring 400 is the coupling pin 511 It is made to be fixed to the base plate 510 by. That is, the coil spring 400 is fixed to the base plate 510 so that the coil spring 400 can be prevented from being twisted or tilted while leaving the position unintentionally.

In addition, the operation member 520 is formed so that the opposite surface with the valve plate 200 forms a flat surface, and the receiving surface 521 is recessed and formed on the opposite surface with the base plate 510, and the coil One end of the spring 400 is made to be compressed and restored while being accommodated in the receiving groove 521. That is, the operation member 520 is configured to perform an elevating operation in a state in contact with the inner circumferential surface of the mounting groove 310, and the coil spring 400 is accurately positioned within the operation member 520 without bending deformation or distortion. By allowing compression and restoration only in the up and down direction, the valve plate 200 can be moved up and down with the same restoring force at all positions without tilting to either side.

At this time, a vent hole 522 for releasing the pressure inside the mounting groove 310 is formed through the opposing surface of the operation member 520 with the valve plate 200. That is, it is possible to prevent malfunction of the operation member 520 by allowing the inside of the mounting groove 310 to be formed in an enclosed environment, but an open environment to the surrounding space.

In the following, it will be described in more detail the operating state of the valve assembly for a compressor according to the above-described embodiment of the present invention.

First, in the first state in which the compressor does not perform the compression operation, the valve plate 200 is moved downward to be in close contact with the upper surface of the valve base 100, whereby each inlet hole 110 of the valve base 100 is Is closed.

At this time, the operating member 520 constituting each spring support 500 is moved downward by the restoring force of the coil spring 400 to press each part of the valve plate 200 uniformly, whereby the valve plate 200 is The valve base 100 is maintained in close contact with the top surface.

When the operation control of the compressor is performed in this initial state, the compression operation is performed to continuously compress the fluid gas supplied to the compression chamber (not shown) in the compressor.

In addition, the fluid gas compressed in the compression chamber as described above flows out to the outflow chamber 11, whereby the pressure in the outflow chamber 11 is temporarily increased and the pressure in the outflow chamber 11 is increased. As the coil spring 400 is compressed, the valve plate 200 gradually moves upward to open each inlet hole 110 of the valve base 100.

Accordingly, the compressed gas fluid in the outlet chamber 11 passes through each inlet hole 110 of the valve base 100, and thus a part of the fluid gas passing through each inlet hole 110 is a valve base. In addition to passing through the gap between the 100 and the valve plate 200 into the discharge chamber 12, the remaining portions of the fluid gas are each communicating holes 201 and 301 formed in the valve plate 200 and the valve guard 300 ), and is provided into the discharge chamber 12.

In addition, when the compressed fluid gas existing in the outflow chamber 11 is completely discharged by the above-described process, the valve moves as the operating member 520 of each spring support 500 moves downward by the restoring force of each coil spring 400. The plate 200 is pressed downward, whereby the valve plate 200 closes each inlet hole 110 of the valve base 100 while being in close contact with the upper surface of the valve base 100.

In particular, when the above-mentioned valve plate 200 moves upward and downward, each of the coil springs 400 is distorted or positioned while the operating member 520 is supported and lifted by the inner circumferential surface of the mounting groove 310 of the valve guard 300. By preventing problems such as being compressed in an inclined state outside, the valve plate 200 is uniformly moved up and down over the entire area, and guide and support pins 630 of the lifting movement by the bush 620 It is lifted while preventing unwanted rotation by.

After all, the valve assembly for a compressor of the present invention is compressed to a warped or inclined state out of place during its operation as the coil spring 400 for pressurization of the valve plate is made to receive the support of the spring support 500 The malfunction of the operation is prevented, whereby the valve plate 200 can accurately move up and down without fluctuation in each part.

That is, the coil spring 400 is fixed to the base plate 510 constituting the spring support 500, and the operating member 520, which is a part of the coil spring 400, is mounted on the valve guard 300. Since it is elevated while being guided by the inner surface of the groove 310, a malfunction may be prevented.

In addition, since the valve assembly for a compressor of the present invention is lifted while preventing the valve plate 200 from being guided by the bush 620 for the movement of the lifting and the unwanted rotation by the support pin 630, the accurate lifting operation is possible. .

In addition, the valve assembly for the compressor of the present invention, the valve plate 200 through the additional provision of the bush 620 can be accurately moved up and down while the separation distance between the valve base 100 and the valve guard 300 (operation of the valve plate Distance).

On the other hand, the valve assembly for a compressor of the present invention is not limited to being implemented only with the discharge side valve assembly of the same compressor as the above-described embodiment.

That is, the valve assembly may be a suction side valve assembly installed on the side where the fluid gas is sucked into the compressor, as shown in FIG. 9 attached thereto.

As such, the valve assembly for a compressor of the present invention can be said to be a useful invention capable of various implementations.

10. Compressor housing 11. Outflow chamber
12. Discharge chamber 13. Bulkhead
100. Valve base 110. Inlet hole
120. Fastening hole 200. Valve plate
210. Through hole 300. Valve guard
310. Mounting groove 201,301. Plumber
400. Coil spring 500. Spring support
510. Base plate 511. Coupling pin
520. Operation member 521. Receiving groove
522. Vent hole 610. Fastening bolt
620. Bush 630. Support pin

Claims (5)

A valve base through which a plurality of inflow holes through which fluid gas flows are formed;
A valve plate that opens and closes each inlet hole while being elevated and lowered according to the pressure of the fluid gas flowing through each of the inlet holes;
A valve guard which is fixed to the valve base and serves to limit the lifting operation of the valve plate, and includes a plurality of mounting grooves recessed along the circumferential surface of the valve plate;
A coil spring positioned in each mounting groove of the valve guard and supporting elastic movement of the valve plate;
A valve assembly for a compressor, characterized in that it is configured to include a spring support that is installed in the mounting groove to support the coil spring to be compressed or restored along a fixed position. According to claim 1,
The spring support is configured to include a base plate fixed to the corresponding portion while being positioned to cover the end face in the mounting groove, and an operation member installed to press the valve plate while being elevated along the guide of the inner wall surface of the mounting groove. Become,
The coil spring is a valve assembly for a compressor, characterized in that made to be located between the base plate and the operating member. According to claim 2,
The base plate is made to be fixed in the mounting groove of the valve guard by a coupling pin,
A valve assembly for a compressor, characterized in that one end of the coil spring is fixed to the base plate by the coupling pin. The method of claim 2 or 3,
The operating member
In addition to being formed so that the opposing surface with the valve plate forms a plane, the receiving groove is recessed and formed on the opposite surface with the base plate,
A valve assembly for a compressor, characterized in that one end of the coil spring is compressed and restored while being accommodated in the receiving groove. The method of claim 4,
A valve assembly for a compressor, characterized in that a vent hole for releasing the pressure inside the mounting groove is formed through the opposite surface of the operating member to the valve plate.

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