KR20220153398A - Damping check valve for air compressor - Google Patents

Abstract

The present invention relates to a check valve for an air compressor having an air flow path formed from a lower valve body to an upper valve body. The check valve for an air compressor includes: a valve plate composed of a plurality of annular plates elastically supported by a coil spring from an inner upper surface of the upper valve body; a valve base housed in the lower valve body to be in contact with lower parts of the plurality of annular plates under the valve plate; and a damper formed between the lower parts of the plurality of annular plates and the valve base to maintain airtightness between the valve plate and the valve base when air pressure introduced from the lower valve body is smaller than the elastic force of the coil spring. Therefore, the check valve for an air compressor is capable of improving airtightness by blocking a leaked air flow, thereby improving compression efficiency with the air compressor as well as increasing the lifespan of the check valve.

Description

Damping check valve for air compressor {DAMPING CHECK VALVE FOR AIR COMPRESSOR}

The present invention relates to a damping check valve for an air compressor in which air leakage is prevented by ensuring airtightness.

In general, power plants use compressed air for control and working fluid, and a reciprocating type air compressor is used to supply the compressed air. A reciprocating air compressor is a type of compressor that sucks in and compresses air by reciprocating motion of a piston inside a cylinder, and the compressed gas is discharged to the outside through a valve. Here, a plate type check valve installed in a cylinder is used as the valve.

In a reciprocating type air compressor, air before compression is supplied into a cylinder through a check valve, and air compressed by a piston in the cylinder is discharged out of the cylinder through the check valve. Such a plate-type check valve has a structure in which the valve is opened when the set pressure is higher and closed when the lower pressure is lower.

However, the conventional check valve has a problem in that, due to poor airtightness during use, the compressed air that has been discharged in the closed state is introduced back into the cylinder, resulting in an increase in operating time due to a decrease in air compression efficiency. .

Korean Patent Publication No. 10-2004-0038319

In view of the above problems, the present invention ensures airtightness in a plate-type check valve to prevent leaking air flow, thereby increasing the compression efficiency of the air compressor to save motor power and reducing failure due to valve leakage, thereby reducing valve life. It is an object of the present invention to provide a damping check valve for an air compressor that enables stable facility operation by reducing costs and reducing maintenance requirements through increase.

The damping check valve for an air compressor of the present invention is a check valve for an air compressor in which an air flow path is formed from a lower valve body to an upper valve body, wherein a plurality of annular shapes elastically supported by coil springs from the inner upper surface of the valve upper body When the valve plate made of a plate, the valve base accommodated in the lower valve body so as to come into contact with the lower portion of the plurality of annular plates under the valve plate, and the air pressure flowing from the lower valve body are smaller than the elastic force of the coil spring In order to maintain airtightness between the valve plate and the valve base, a damper is formed between a plurality of lower portions of the annular plates and the valve base.

The cross section of the lower portion of the annular plate forms a curve, but the width becomes narrower toward the bottom.

The damper includes a damper fixing part installed in an accommodation groove formed in the valve base and a damper contact part forming an airtight seal with the valve plate.

The shape of the cross section of the receiving groove is the shape of the upper and lower beams for fixing the damper fixing part.

An end surface of the damper fixing part and an end surface of the damper contact part each have a trapezoidal shape, and an upper side of the damper contact part having a trapezoidal cross section forms an airtight seal with the valve plate.

An upper side and a lower side of the cross section of the trapezoidal damper fixing part and the cross section of the damper contacting part are parallel to each other.

In the cross section of the damper fixing part, an angle between the oblique side and the lower side of the cross section of the damper fixing part is the same as the left oblique angle and the right oblique angle of the trapezoid.

In the cross section of the damper contact part, an angle formed between an oblique side and a lower side of the cross section of the damper contact part is smaller than a right oblique angle of the trapezoid.

The check valve for an air compressor of the present invention has an effect of realizing an increase in compression efficiency of an air compressor and a reduction in motor power by securing the airtightness of a plate-shaped check valve.

In addition, there is an economical effect of reducing valve material and maintenance costs through an increase in valve life by reducing the occurrence of failures due to valve leakage and the demand for maintenance accordingly.

1 is an exploded perspective view of a damping check valve for an air compressor according to the present invention.
2 is a combined perspective view of the damping check valve for the air compressor of FIG. 1;
3 and 4 show a valve plate and a valve base in a check valve for an air compressor
5 is a cross-sectional view of a damping check valve for an air compressor according to an embodiment of the present invention.
6 is a cross-sectional view of an accommodation groove formed in a valve base and a damper in the damping check valve for an air compressor according to the present invention.
7 is a cross-sectional view of a damper in the damping check valve for an air compressor according to the present invention.

Hereinafter, a damping check valve for an air compressor according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing the configuration of a check valve for an air compressor according to the present invention, and FIG. 2 is a combined perspective view of FIG. 1 shown.

1 and 2, the damping check valve 100 for an air compressor is composed of a valve upper body 10, a valve plate 30, a valve base 40, and a valve lower body 60. A coil spring 20 is positioned between the valve upper body 10 and the valve plate 30, and serves as a check valve by opening and closing the air flow path with a vertical movement through the coil spring 20.

The valve upper body 10 has a plurality of air discharge passages, and a coil spring accommodating groove (not shown) is formed on the inner bottom surface to support the coil spring 20 located on the upper surface of the valve plate 30 and damping check valve serves as the upper casing of

The coil spring 20 serves to open and close the check valve by providing elastic force to the valve plate 30 in the vertical direction while being accommodated in the coil spring receiving groove of the upper valve body 10 .

The valve plate 30 serves as a disk among damping check valve parts for an air compressor and is composed of a plurality of welcome plates, the welcome plates are spaced apart from each other to form an air flow path, and the upper surface of the valve plate 30 While the elastic force by the coil spring 20 located at the action acts, it performs vertical movement that moves up and down according to the pressure of the air.

The valve base 40 serves as a seat among damping check valve parts for an air compressor and has a plurality of air flow passages formed with a plurality of valve plate insertion grooves recessed at regular intervals on the upper surface of the valve base 40 to a certain depth. , The flow of air is blocked or allowed according to the contact or separation of the valve plate 30 .

A damper 50 for airtightness between the valve plate 30 and the valve base 40 is formed on the valve base 40 .

The valve lower body 60 forms a plurality of air passages and serves as a lower casing to accommodate the valve base 40 by fixing the lower portion of the valve base 40 .

As shown in FIG. 2, the damping check valve 100 for the air compressor may be fixed through the entirety of the valve accessories by the fixing bolt 72 and the nut 74, which is not particularly limited and is a common machine Any fixing means used for fastening and fixing parts or the like can be used.

3 and 4 are cross-sectional views illustrating a combination of a valve plate and a valve base in a check valve for an air compressor.

As shown in FIG. 3, the coil spring 20 is formed on the upper surface of the valve plate 30, and the vertical movement of the coil spring 20 due to the pressure of the air introduced into the check valve causes the valve plate 30 to form on the lower surface. ) is contacted with or separated from the valve base 40 according to the vertical movement of the valve base 40 to block or open the air flow path formed in the valve base 40, thereby blocking or allowing the flow of air.

As shown in FIG. 4, the cross section of the lower portion of the plurality of annular plates 31, 32, and 33 constituting the valve plate 30 forms a curve, but the width becomes narrower toward the bottom. As the valve plate 30 moves up and down due to the vertical movement of the coil spring 20 due to the pressure of the air introduced into the check valve, the valve plate insertion groove recessed into the upper surface of the valve base 40 to a certain depth As the lower surface of the annular plate contacts and is inserted or spaced apart, the air flow path formed in the valve base 40 is blocked or opened, thereby blocking or allowing the flow of air.

In general, when compressed air at a pressure of about 8.8 kg/cm ² greater than the elastic force of the coil spring 20 flows into the check valve for the air compressor, the valve base 40 passes through the valve lower body 60 is introduced through a plurality of air passages, pushes the valve plate 30, compresses the coil spring 20, and passes through the valve plate 30 and the valve upper body 10, and the compressed air is discharged.

However, while the conventional check valve for an air compressor performs an opening and closing movement of about 585 times per minute at a high speed, wear due to impact is likely to occur in the valve base 40, and accordingly, the valve plate 30 and the valve base 40 ), so that the valve plate 30 and the valve base 40 come into contact with each other, causing problems such as air leakage in which air flows back into the clearance space even in the closed state of the check valve blocking the air flow. do.

To solve this problem, the damping check valve for an air compressor of the present invention is a damper between the valve plate 30 and the valve base 40 to maintain airtightness between the valve plate 30 and the valve base 40 ( 50) was formed.

5 is a cross-sectional view of a damping check valve for an air compressor according to an embodiment of the present invention.

As shown in FIG. 5, the damper 50 is formed on the inner surface of the air passage part of the valve base 40 or the outer surface of the lower part of the valve plate 30, and the lower part of the valve plate 30 by the elastic force of the coil spring 20 A plurality of annular plates 31 constituting the valve plate 30 while absorbing impact when the lower surface of the valve plate 30 contacts the air passage portion of the valve base 40 through the damper 50 as it moves. 32 and 33 respectively block air leakage while maintaining airtightness between the air passage portions of the valve base 40 .

The damper 50 may be formed to face each other on both inner surfaces of the air passage portion in contact with the valve plate 30 in the valve base 40, or may be formed on both outer surfaces of the lower portion of the valve plate 30. have.

The material of the damper 50 is an elastic material, and considering that the temperature of the compressed air passing through the valve is about 130 ° C to 140 ° C, Viton series having thermal and chemical resistance characteristics and excellent mechanical characteristics It is preferable to use a rubber fluoroelastomer. These fluoroelastomers are not necessarily limited, and any rubber material suitable for the temperature conditions of the compressed air of the present invention can be used.

6 is a cross-sectional view of an accommodation groove formed in a valve base and a damper in the damping check valve for an air compressor according to the present invention.

As shown in FIG. 6, the damper 50 includes a damper fixing part 52 installed in the receiving groove 42 formed in the valve base 40 and a damper contact part 54 forming an airtight seal with the valve plate 30 includes

The shape of the cross section of the receiving groove 42 is the shape of an upper narrow beam formed with a narrow top and a wide bottom to fix the damper fixing part 52 without the upper damper 50 being separated from the valve base 40. trapezoidal shape with

As shown in the drawing, the damper fixing part 52 has a dovetail shape in accordance with the shape of the receiving groove 42 so as not to be separated from the valve base 40 from the compressed air flow.

7 is a cross-sectional view of a damper in the damping check valve for an air compressor according to the present invention.

As shown in FIG. 7, the cross section of the damper fixing part 52 and the cross section of the damper contact part 54 each have a trapezoidal shape, and the upper side 52-1 and the lower side of the cross section of the damper fixing part 52 are 52-2 are parallel to each other, and the upper side 54-1 and the lower side 54-2 of the cross section of the damper contact portion 54 are parallel to each other.

In the cross section of the damper fixing part 52, the angle between the oblique side and the lower side 52-2 of the cross section of the damper fixing part 52 is the left oblique angle θ3 of the trapezoidal damper fixing part and the damper fixing part The right hypotenuse angle θ4 of is formed identically.

In the cross section of the damper contact portion 54, the angle between the oblique side and the lower side 54-2 of the cross section of the damper contact portion 54 is that the left oblique angle θ1 of the trapezoidal damper contact portion is the right oblique angle of the damper contact portion. By making it smaller than (θ2), the gap between the lower surface of the valve plate 30 and the upper side 54-1 of the cross section of the damper contact portion 54, which contact each other as the valve plate 30 moves downward, is eliminated. Effectively improve confidentiality.

In the damping check valve 100 for an air compressor of the present invention, when the air pressure introduced from the valve lower body 60 is less than the elastic force of the coil spring 20, the valve plate 30 due to the elastic force of the coil spring 20 The upper side 54-1 of the damper contact portion 54 having a trapezoidal cross section in the damper 50 is in the shape of the lower part of the plurality of annular plates constituting the valve plate 30 so that the air flow path is blocked according to the downward movement of ). to form confidentiality.

10: valve upper body
20: coil spring
30: valve plate
31, 32, 33: annular plate
40: valve base
42: receiving groove
50: damper
52: damper fixing part
52-1: Upper side of the damper fixing part
52-2: the lower side of the damper fixing part
54: damper contact
54-1: Upper side of damper contact
54-2: the lower side of the damper contact
60: valve lower body
72: fixing bolt
74: nut
θ1: Left oblique angle of the damper contact part
θ2: right oblique angle of the damper contact
θ3: Left oblique angle of the damper fixing part
θ4: Right oblique angle of the damper fixing part
100: check valve for air compressor

Claims (9)

In the check valve 100 for an air compressor in which the air flow path is formed from the lower valve body 60 to the upper valve body 10,
a valve plate 30 formed of a plurality of annular plates elastically supported by a coil spring 20 from an inner upper surface of the valve upper body 10;
a valve base (40) accommodated in the lower valve body (60) to be in contact with lower portions of the plurality of annular plates under the valve plate (30);
When the air pressure introduced from the valve lower body 60 is smaller than the elastic force of the coil spring 20, the plurality of annular plate lower parts and the plurality of annular plate lower parts and the A damping check valve for an air compressor, characterized in that a damper (50) is formed between the valve base (40). According to claim 1,
The damping check valve for an air compressor, characterized in that the cross section of the lower portion of the annular plate is curved and the width becomes narrower toward the bottom. According to claim 2,
The damper includes a damper fixing part 52 installed in the receiving groove 42 formed in the valve base 40 and a damper contact part 54 forming an airtight seal with the valve plate 30 Air, characterized in that Damping check valves for compressors. According to claim 3,
The damping check valve for an air compressor, characterized in that the cross section of the receiving groove (42) has an upper and lower beam shape to fix the damper fixing part (52). According to claim 3,
A damping check valve for an air compressor, characterized in that the cross section of the damper fixing part (52) and the cross section of the damper contact part (54) each form a trapezoidal shape. According to claim 5,
The upper sides 52-1 and 54-1 and the lower sides 52-2 and 54-2 of the cross section of the damper fixing part 52 and the cross section of the damper contact part 54 constituting the trapezoid are parallel to each other, respectively. Damping check valves for air compressors. According to claim 6,
In the cross section of the damper fixing part 52, the angle between the oblique side and the lower side 52-2 of the cross section of the damper fixing part 52 is the same as the left oblique angle θ3 and the right oblique angle θ4 of the trapezoid. Damping check valve for air compressor, characterized in that. According to claim 6,
A damping check valve for an air compressor, characterized in that an airtight seal is formed with the valve plate (30) by the upper side (54-1) of the damper contact portion (54) having a trapezoidal cross section. According to claim 6,
In the cross section of the damper contact portion 54, the angle between the oblique side and the lower side 54-2 of the cross section of the damper contact portion 54 is that the left oblique angle θ1 of the trapezoid is smaller than the right oblique angle θ2. Damping check valve for air compressors to be.

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