KR101700835B1 - Hydraulic or Pneumatic Check Valve - Google Patents

Abstract

The present disclosure relates to a hydraulic or pneumatic check valve in which a fluid or gas is prevented from directly contacting a spring and flow resistance and turbulence are not formed, so that the fluid can be moved smoothly. A hydraulic or pneumatic check valve according to the present disclosure includes: a body; a first coupler; a second coupler; a check poppet; a guide ring; an adjuster; and an elastic member.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydraulic check valve,

The present disclosure relates to a hydraulic / pneumatic check valve that maintains a pressure in a hydraulic / pneumatic circuit below a set value.

In general, a check valve discharges part or all of the working fluid or gas flowing in the pipe when the pressure of the pipe reaches the set pressure of the valve in the oil / pneumatic system so that the pressure in the pipe is kept below the set value.

1 is a cross-sectional view showing a conventional check valve.

1, a conventional check valve 10 includes a valve body 12 having inlet and outlet holes 12a and 12b formed on both sides thereof, A valve poppet 16 which is embedded in the valve body 12 and closes the inflow hole 12a by the elastic force of the spring 14, A plug 18 having a fluid passage 18a formed at the center thereof and having a spring 14 fixed therein and a coupling port 20 coupled to the outlet hole 12b to fix the plug 18 therein.

 However, in the conventional check valve having the above-described structure and structure, when a fluid or gas introduced into the outflow hole is discharged to the outflow hole through the inside of the valve body when the outflow hole is opened, There is a problem that noise is generated due to direct contact with the spring during discharge of the fluid or gas because the structure passes through the built-in spring inside the body.

Further, since the fluid or the gas comes into direct contact with the spring, flow resistance and turbulence are formed, and the fluid or gas can not be smoothly moved.

Korean Published Patent No. 10-2012-0079224 (Jul. 12, 2012)

The present disclosure is to provide a hydraulic / pneumatic check valve in which fluid or gas is prevented from coming into direct contact with the spring, and flow resistance and turbulence are not formed, so that the fluid or gas can move smoothly.

In addition, it is an object of the present invention to provide an oil / air pressure check valve that can prevent a noise generated due to a fluid or a gas coming into direct contact with a spring.

A hydraulic / pneumatic check valve according to an embodiment includes a body having a first connecting portion formed at one side and a second connecting portion formed at the other side; A first coupler including an inner passage, an outlet passage communicating with the inner passage, a seating surface extending radially at an end of the outlet passage, and a first flange screwed into the first connecting portion; A second coupler including a second flange threaded into the second connection and a sleeve extending from the second flange and defining a discharge passage communicating with the outlet passage; A poppet head having a pressure receiving portion that is seated on the seating surface of the first coupler and receives oil / air pressure supplied through the outflow passage of the first flange, and a check passage formed behind the pressure receiving portion, A poppet body formed in close contact with an inner circumferential surface of the body so as to form a predetermined inlet chamber in a space between the outer surface of the flange and the inside of the body and a discharge port extending from the poppet body into the sleeve of the second coupler, A check poppet including a poppet guide forming an inner chamber directly communicating with the flow path; A guide ring coupled to the outside of the Fobet guide; An adjuster coupled to the outside of the sleeve of the second coupler to provide a preset preload; And an elastic member provided between the guide ring and the adjuster and elastically supporting the back surface of the poppet body by a preload.

According to the embodiment, the check passage forms a plurality of check passages behind the pressure receiving portion of the poppet head.

According to the embodiment, the sealing ring is provided on at least one side of the seating surface of the first coupler.

According to the embodiment having the above-described configuration, it is possible to prevent the fluid or the gas from directly coming into direct contact with the spring, so that the flow resistance and the turbulence are not formed and the fluid or the gas can smoothly move.

Further, there is an effect that the noise generated due to the direct contact of the fluid or the gas to the spring can be prevented.

1 is a cross-sectional view showing a conventional check valve;
2 is an exploded perspective view of a hydraulic / pneumatic check valve according to an embodiment of the present disclosure;
3 is a cross-sectional view of a hydraulic / pneumatic check valve according to one embodiment of the present disclosure;
4 is an operational cross-sectional view of a hydraulic / pneumatic check valve according to one embodiment of the present disclosure;
5 is an operational state diagram of an adjuster according to one embodiment of the present disclosure;
6 is a cross-sectional view of a hydraulic / pneumatic check valve according to another embodiment of the present disclosure;

Embodiments of the present disclosure will now be described in more detail with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are defined in consideration of the functions in this disclosure, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 2 is an exploded perspective view of a hydraulic / pneumatic check valve according to an embodiment of the present disclosure, and FIG. 3 is a sectional view of a hydraulic / pneumatic check valve according to an embodiment of the present disclosure.

Referring to FIGS. 2 and 3, the hydraulic / pneumatic check valve 100 according to an embodiment includes a body 110, a first coupler 120, a second coupler 130, a check poppet 140, (150), an adjuster (160), and an elastic member (170).

The body 110 is made of a metal such as brass and has a first connecting portion 112 formed on one side and a second connecting portion 112 formed on the other side.

The first coupler 120 allows the body 110 to be connected to a hydraulic / pneumatic conduit (not shown) of a hydraulic / pneumatic system (not shown).

The first coupler 120 includes an inner passage 122, an outflow passage 124 communicating with the inner passage 122, a seating surface 126 extending radially from an end of the outflow passage 124, And a first flange 128 screwed into the connection portion 112.

The first flange 128 is composed of a flange portion 128a formed on the outer peripheral surface of the first coupler 120 and a male screw portion 128b extending from the flange portion 128a.

A sealing ring 126a is provided on at least one side of the seating surface 126 of the first coupler 120 so that the pressure in the inner flow path 122 of the first coupler 120 is set A fluid or a gas may be introduced into the first coupler 120 by a fine gap formed between the seating surface 126 of the first coupler 120 and the pressure receiving portion 142a of the poppet head 142 which is in close contact with the seating surface 126 To the inlet chamber 116 formed in the space between the outer surface of the first flange 128 and the interior of the body 110. [

The sealing ring 126a has an inlet chamber 116 formed in a space between the outer surface of the first flange 128 and the inside of the body 110 and a sleeve 134 of a second coupler 130 A fluid or gas remaining in the inner chamber 118 formed between the poppet guides 146 is pressed against the seating surface 126 of the first coupler 120 and the poppet head 142 which is in close contact with the seating surface 126. [ To the outflow passage (124) of the first coupler (120) through the fine gap formed between the pressure receiving portion (142a) of the first coupler (120).

The sealing ring 126a absorbs impact generated when the pressure receiving portion 142a of the poppet head 142 is brought into close contact with the seating surface 126 of the first coupler 120. [

A seal or packing ring 129 is formed on the outside of the first flange 128 to maintain airtightness between the first flange 128 and the inlet chamber 116.

The second coupler 130 is connected to a drain valve (not shown) for discharging part or all of the oil / air pressure introduced through the outflow passage 124 of the first coupler 120.

The second coupler 130 includes a second flange 132 that is screwed into the second connection portion 114 and a second flange 132 that extends from the second flange 132 and communicates with the discharge passage 136 (Not shown).

The second flange 132 is composed of a flange portion 132a formed on the outer peripheral surface of the second coupler 130 and a male screw portion 132b extending from the flange portion 132a.

The check poppet 140 is provided in the interior of the body 110 so as to be pivotable to open and close the outflow passage 124 formed in the first coupler 120.

The check poppet 140 is composed of a poppet head 142, a poppet body 144, and a poppet guide 146.

The poppet head 142 includes a pressure receiving portion 142a that is seated on the seating surface 126 of the first coupler 120 and receives oil and air pressure supplied through the outflow passage 124 of the first flange 128, And a check passage 142b formed behind the pressure receiving portion 142a.

At this time, the pressure receiving portion 142a has a planar structure that can be closely attached to the seating surface 126 of the first coupler 120.

The poppet body 144 extends from the poppet head 142 and extends from the inner periphery of the body 110 to form a predetermined inlet chamber 116 in the space between the outer surface of the first flange 128 and the interior of the body 110. [ As shown in Fig.

The poppet body 144 may be arranged at a preset angle? On the longitudinal center line of the check poppet 140, and the angle may be varied according to the requirements of the user such as 45 占 90 占 120 占.

Here, the check passage 142b formed behind the pressure receiving portion 142a of the poppet head 142 is formed between the poppet bodies 144 arranged at a predetermined angle.

The poppet guide 146 extends from the poppet body 144 to the inside of the sleeve 134 of the second coupler 130 and communicates with the inlet chamber 116 and the discharge passage 136 of the second coupler 130, Thereby forming a chamber 118.

Since the inner chamber 118 communicating with the inlet chamber 116 and the discharge passage 136 is formed by the poppet guide 146 and the sleeve 134 of the second coupler 130, Pneumatic pressure discharged through the check passage 142b to the discharge passage 136 does not come into direct contact with the elastic member 170 while passing through the inner chamber 118 so that noise due to contact with the elastic member 170 And flow resistance and turbulence are not formed.

Since the outer circumferential surface of the poppet guide 146 is guided by the inner circumferential surface of the sleeve 134 of the second coupler 130 when the check poppet 140 is perturbed inside the body 110, The operating precision is improved.

That is, the check poppet 140 can perform the perturbation movement with respect to the central axis of the body 140 without the left / right swinging movement, and the pressure receiving portion 142a of the poppet head 142 is positioned on the seating surface of the first coupler 120 126 to prevent leakage of pressure.

Since the inner chamber 118 communicating directly with the inlet chamber 116 and the discharge passage 136 is arranged by the sleeve 134 of the poppet guide 146 and the second coupler 130 to have the same axis, The oil / air pressure introduced through the valve 116 can be discharged without loss of pressure.

The guide ring 150 is coupled to the outside of the poppet guide 146 to support one end of the elastic member 170.

The adjuster 160 is coupled to the outside of the sleeve 134 of the second coupler 130 and is connected to the pressure receiving portion 142a of the poppet head 142 through a predetermined preload (the outflow passage 124 of the first coupler 120) And the other end of the elastic member 170 is supported.

5, a screw 134a may be formed on the sleeve 134 of the second coupler 130 and the adjuster 160 may be coupled to the screw 134a. This is because the pitch of the screw 134a To adjust the preload provided by the adjuster 160 according to equation (I).

The elastic member 170 is installed between the guide ring 150 and the adjuster 160 and elastically supports the rear surface of the poppet body 144 by a preload provided by the adjuster 160, Is used.

6 is a cross-sectional view of an oil / air pressure check valve according to another embodiment of the present disclosure;

6, the oil / air pressure check valve according to another embodiment of the present invention is configured such that the inclined surface 125 is formed on the inner peripheral surface of the outflow passage 124 of the first coupler 120, The cap 142a has a dome-like structure that can be closely contacted with the inclined surface 125. The pressure receiving portion 142a is configured to seal the gap between the poppet head 142 and the inclined surface 125 of the first coupler 120, 2 to 4 except that a sealing ring 142c is provided at a predetermined position on the outer circumferential surface of the housing 142a.

Therefore, a detailed description thereof will be omitted.

Hereinafter, the operation of the oil / air pressure check valve according to one embodiment of the present disclosure having the above-described configuration will be described.

In the hydraulic / pneumatic check valve 100 according to the embodiment of the present disclosure, the first coupler 120 is connected to the oil / pneumatic pipe (not shown) of the hydraulic / pneumatic system, the second coupler 130 is connected to the first / (Not shown) for discharging part or all of the oil / air pressure introduced through the outflow passage 124 of the coupler 120, and the set pressure in the internal flow path 122 of the first coupler 120 3, the valve is closed by the elastic force of the elastic member 170. When the pressure on the side of the inner flow path 122 of the first coupler 120 is higher than the set pressure, The check poppet 140 is lowered while compressing the elastic member 170 by the oil pressure and air pressure and at the same time the pressure receiving portion 142a of the poppet head 142 is lowered from the seating surface 126 of the first coupler 120 The valve is opened and a part or the whole of the oil / air pressure is discharged through the discharge passage 136 of the second coupler 130.

When the pressure of the oil / air pressure is released and the pressure on the side of the inner flow path 122 of the first coupler 120 falls below the set pressure, the compressed elastic member 170 expands and is restored to the pressure receiving portion 142a are brought into close contact with the seating surface 126 of the first coupler 120 to close the valve.

While the embodiments of the present disclosure have been described with reference to the accompanying drawings, those skilled in the art will appreciate that various modifications and changes may be made thereto without departing from the scope of the present disclosure described in the following claims It will be understood.

110; body
112; The first connection
114; The second connection
120; The first coupler
130; The second coupler
140; Check poppet
142; Poppet Head
144; Poppet body
146; Poppet Guide
150; Guide ring
160; Adjoint
170; Elastic member

Claims (6)

A body having a first connecting portion formed on one side and a second connecting portion formed on the other side;
A first coupler including an inner passage, an outflow passage communicating with the inner passage, a seating surface extending radially at an end of the outflow passage, and a first flange screwed into the first connecting portion;
A second coupler including a second flange threaded into the second connection and a sleeve extending from the second flange and defining a discharge passage communicating with the discharge passage;
A poppet head having a pressure receiving portion which is seated on the seating surface of the first coupler and receives oil / air pressure supplied through the outflow passage of the first flange, and a check passage formed behind the pressure receiving portion, A poppet body extending from the poppet body to the inner circumferential surface of the body so as to form a predetermined inlet chamber in a space between the outer surface of the first flange and the inside of the body, A check poppet including a poppet guide forming an inner chamber directly communicating with the discharge chamber of the inlet chamber and the discharge port of the second coupler;
A guide ring coupled to the outside of the poppet guide;
An adjuster coupled to the outside of the sleeve of the second coupler to provide a predetermined preload; And
And an elastic member installed between the guide ring and the adjuster and elastically supporting the rear surface of the poppet body by the preload.
The method according to claim 1,
Wherein the check passage forms a plurality of check passages behind the pressure receiving portion of the poppet head.
The method according to claim 1,
And a sealing ring is provided on at least one side of the seating surface of the first coupler.
The method according to claim 1,
Wherein the pressure receiving portion of the poppet head includes a planar structure in which one side is in close contact with the seating surface of the first coupler by the preload.
The method according to claim 1,
Wherein a sealing or packing ring is formed outside the first flange, and the sealing or packing ring keeps the airtightness of the inlet chamber.
The method according to claim 1,
Wherein the adjuster is coupled to a threaded portion formed on a sleeve of the second coupler, and the preload is adjusted depending on a pitch of the threaded portion.

Images