KR20160135417A - Dual plate check valve - Google Patents

Abstract

The present invention relates to a dual plate check valve, preventing a coupling portion of a valve from being exposed to the outside of a valve body and having a simple coupling structure of the valve. According to the present invention, the dual plate check valve is coupled to the inside of the valve body to prevent both end parts of a hinge pin of the valve from being exposed to the outside of the valve body.

Description

DUAL PLATE CHECK VALVE

The present invention relates to a dual plate check valve, and more particularly, to a dual plate check valve in which a coupling structure of a valve body is simply improved while preventing a joint portion of the valve body from being exposed to the outside of the valve body.

Generally, a check valve is a valve that is installed in a piping so that the fluid flows only in one direction. Since the check valve is operated by a fluid flow in a piping, it is usefully used as a control valve without requiring any external power. Typical check valves include lift check valves, swing check valves, disc check valves, single plate check valves, and dual plate check valves.

The dual plate check valve of the above-mentioned check valve is a spring mounted on two discs divided into a semicircular shape so that the two disks can be opened and closed by elasticity of the spring. By controlling the spring constant, Can be easily controlled and can be opened and closed even in a very minute differential pressure state, and it is not only designed according to the requirements of the system but also has a good advantage of a sudden closing.

However, in the conventional dual plate check valve described above, the hinge pin for allowing the two discs to be resiliently supported by the spring passes through the valve body, that is, the hinge pin extends from one side of the outer circumferential surface of the valve body to the other side of the outer circumferential surface, Both ends of the hinge pin are exposed on the outer circumferential surface of the valve body, and as a result, the operating time of the check valve becomes longer, and the fluid leaks between the valve body and the hinge pin.

Various methods have been sought for solving such problems. Examples of such methods are Korean Patent Publication No. 2009-0078019, Korean Patent No. 1149547, Korean Patent No. 1335439, &Quot; Shinan No. 0448982. "

In the above-mentioned patents, patents, and registrations, dual plate check valves are disclosed that allow the hinge pin to be mounted on the valve body without machining through holes extending from the outer circumferential surface to the inner circumferential surface of the valve body.

However, the dual plate check valves disclosed in the aforementioned patents, patents and registration utility models apply deformation through machining to the valve body to secure both ends of the hinge pin on the outer circumferential surface of the valve body, Since the components for fixing the hinge pin to the valve body are assembled, assembly is complicated, assembly tolerance occurs in the assembly part, and the components are repeatedly thermal expansion or contraction due to the temperature difference of the flowing fluid, .

In addition, the dual plate check valves disclosed in the aforementioned patents, registered patents, and registered utility models are complicated in structure, resulting in low productivity, low manufacturing cost, and inefficiency in maintenance such as replacement of discs and springs .

SUMMARY OF THE INVENTION It is a first object of the present invention to provide a dual plate check valve capable of preventing leakage of leakage between a joint portion of a valve body and a valve body by preventing a joint portion of the valve body from being exposed to the outside of the valve body .

A second object of the present invention is to simplify the coupling structure of the valve element, thereby making it possible to improve the quality of the check valve and improve the assemblability thereof, thereby realizing cost reduction and facilitating maintenance of the valve element To provide a dual plate check valve.

The technical objects to be achieved by the present invention are not limited to the above-mentioned technical problems.

According to an aspect of the present invention, there is provided a dual plate check valve in which a valve seat having an opening formed therein and having openings divided into two sides is formed, the inside of which is divided into a fluid inlet and a fluid outlet by a valve seat Valve body; And a valve body having a pair of disc plates and a torsion coil spring for automatically opening and closing the opening by the fluid pressure flowing through the fluid inlet and the opening, and a valve body having both ends of the hinge pin supporting the disc plates and the torsion coil spring Is coupled to the inside of the valve body so as not to be exposed to the outside of the valve body.

Specifically, a pair of hinge pin mounting portions, to which both end portions of the hinge pin are coupled, are formed facing each other on one side surface of the valve seat and the inner circumferential surface of the fluid outlet portion to protrude toward the center of the fluid outlet portion.

More specifically, the hinge pin mounts are formed between the openings and the inner circumferential surface of the fluid outflow that follows, so that the hinge pin can be engaged transversely between the openings.

Specifically, each of the hinge pin mounting portions is formed with a releasable groove into which the end portion of the hinge pin is fitted, extending from the lower central portion of each hinge pin mounting portion toward the fluid flow direction side, and at the lower or other side of each hinge pin mounting portion, An entrance is formed so as to be inserted into the recess.

More specifically, an entrance formed in one of the hinge-pin mounting portions is rotationally symmetrical with an entrance formed in another hinge-pin mounting portion, and both end portions of the hinge pin are inserted into the fluid outlet portion and inserted into the removal groove through the entrance.

As described above, the dual plate check valve according to the present invention is characterized in that the hinge pin mounting portion, to which the valve body is coupled, that is, both end portions of the hinge pin are integrally formed inside the valve body and is not exposed to the outside of the valve body, It is possible to provide a valve body and to prevent leakage of water between the joint portion of the valve body and the valve body.

Further, since the hinge pin of the valve body is coupled to the hinge pin mounting portion formed inside the valve body by a single operation, the dual plate check valve according to the present invention can be easily mounted to the valve body There is an advantage in that maintenance of the valve body can be facilitated.

In addition, the dual plate check valve according to the present invention is capable of improving the assembly and assembling performance of the check valve because both ends of the hinge pin of the valve body are coupled to the valve body by only a pair of hinge pin mounting portions formed inside the valve body , Thereby enabling cost savings to be realized.

1 is an exploded perspective view of a dual plate check valve according to the present invention,
2 is a perspective view showing the inside of the valve body shown in Fig. 1, and Fig.
FIG. 3 and FIG. 4 are views showing a state of engagement of the valve body shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same components are denoted by the same reference symbols whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

The dual plate check valve 100 according to the present invention can be used to protect a pump from a fluid flow system, particularly a fluid that is mounted on a discharge portion of a pump and countercurrent flow, or on a pipeline that transfers fluid in a plant or the like And is used to prevent the fluid from flowing backward or to protect the turbine from the fluid flowing backwardly mounted on the discharge portion of the turbine.

1 and 2 show a dual plate check valve according to the present invention. The dual plate check valve 100 according to the present invention includes a cylindrical valve body 110 having a flow path formed therein, and a valve body And a valve body 130 which is coupled to the inside of the valve body 110 so as not to be exposed to the outside and automatically opens and closes the flow path by the pressure of the fluid flowing through the valve body 110.

First, the cylindrical valve body 110 has a cylindrical tubular shape having a relatively short length as shown in FIGS. 1 and 2. In the inside of the valve body 110, as shown in the figure, a flow path is formed. A valve seat 112 having two openings 114a and 114b is integrally formed on the valve body 110 on the flow path. That is, the interior of the valve body 110 is divided into a fluid inlet 116 and a fluid outlet 118 by a valve seat 112 which traverses the flow passage, and the fluid inlet 116 and the fluid outlet 118 Are connected to each other by two openings 114a and 114b to form one flow path.

Here, the openings 114a and 114b are formed by dividing the valve seat 112 on both sides with respect to a virtual center line dividing the valve seat 112 into two sides. Any one of the openings 114a may have a substantially D shape or a semicircular shape And another opening 114b has a shape symmetrical to any one opening 114a with reference to a virtual center line (refer to FIG. 2). A packing 120 in which the disk plates 134a and 134b of the valve body 130 to be described later are closely contacted is formed on one side of the valve seat 112 facing the fluid outflow portion 118, 0.0 > 114a < / RTI > It will be appreciated by those skilled in the art that the configuration of the valve body 110 is well known in the art.

The opening portion of the valve body 110 to open and close the inner circumferential surface of the fluid outlet portion 118, that is, the openings 114a and 114b, A pair of hinge pin mounting portions 122a and 112b are formed on both ends of the hinge pin 132 of the hinge pin 132 to be detachably fitted.

The hinge pin mounting portions 122a and 122b are formed to face on the inner peripheral surface of the fluid outlet portion 118 which adjoins one side of the valve seat 120 so as not to interfere with the openings 114a and 114b and the packing 120, And is formed so as to protrude toward the central portion of the portion 118.

Each of the hinge pin mounting portions 122a and 122b has detachable grooves 124a and 124b in which the ends of the hinge pin 132 are inserted. The detachable grooves 124a and 124b are formed in the respective hinge pin mounting portions 122a and 122b, To the fluid flow direction side. An entrance 125a or 125b is formed on one side or the other side of the hinge pin mounting portions 122a and 122b so that the end of the hinge pin 132 of the valve body 130 can be inserted into the removal groove 124a.

The entrance 125a formed in one hinge pin mounting portion 122a and the entrance 125b formed in another hinge pin mounting portion 122b are rotationally symmetrical with respect to the center of the fluid outlet 118. [

Here, the pair of hinge pin mounting portions 122a and 122b are preferably formed between the openings 114a and 114b as shown in FIGS.

At one end and the other end of the valve body 110, flange portions 126a and 126b may be integrally formed by welding or the like so as to be bent outward so as to be connected to the fluid flow system.

The valve body 130 is detachably mounted on the hinge pin mounting portions 122a and 122b of the valve body 110 thus formed.

The valve body 130 can automatically open and close the openings 114a and 114b by the pressure of the fluid flowing in the flow passage. The valve body 130 is supported by the hinge pin 132 Two disc plates 134a and 134b, and a torsion coil spring 136. [

The disk plates 134a and 134b are rotatably supported by the hinge pin 132 such that the end faces thereof face each other. The disc plates 134a and 134b rotatably supported by the hinge pin 132 are positioned at the center of the hinge pin 132 when the fluid pressure acts through the fluid inlet 116 and the two openings 114a and 114b The openings 114a and 114b are opened to allow the fluid to flow by being rotated toward the fluid flow direction. The torsion coil spring 136 is supported on the hinge pin 132 so as to press the disk plates 134a and 134b rotated toward the fluid flow direction side to one side of the valve seat 112. The torsion coil spring 136, The disk plates 134a and 134b are rotated to one side of the valve seat 112 to close the openings 114a and 114b when no fluid pressure acts on the disk plates 134a and 134b.

That is, when the pressure of the fluid flowing through the openings 114a and 114b is larger than the spring constant of the torsion coil spring 136, the disc plates 134a and 134b compress the torsion coil spring 136 and move the hinge pin 132 When the pressure of the fluid is smaller than the spring constant of the torsion coil spring 136, the compressed torsion coil spring 136 is restored to the disk plate 134a And 134b to close the openings 114a and 114b.

At this time, both ends of the hinge pin 132 supporting the two disk plates 134a and 134b and the torsion coil spring 136 are inserted from the outside of the fluid outflow portion 118 onto the inner circumferential surface of the fluid outflow portion 118 And is engaged with the detachable grooves 124a and 124b of the respective hinge pin mounting portions 122a and 122b.

That is, the hinge pin 132 is inserted on the inner circumferential surface of the fluid outlet portion 118 so that both ends of the hinge pin 132 are not interfered with the hinge pin mounting portions 122a and 122b. Both ends of the hinge pin 132, as shown in FIG. 3, When the hinge pin 132 is rotated toward the entrance and exit ports 125a and 125b so as to face the entrance 125a and 125b of the respective attachment and detachment grooves 124a and 124b (See Fig. 4).

Since the valve body 130 coupled to the hinge pin mounting portions 122a and 122b presses the disc plates 134a and 134b toward the valve seat 112 when no fluid pressure acts on the torsion coil spring 136, Both ends of the pin 132 are not separated from the detachable grooves 124a and 124b.

Here, the coupling relationship between the two disc plates 134a and 134b supported by the hinge pin 132 and the torsion coil spring 136 is a well-known technique widely used in the related art, and thus a detailed description thereof will be omitted.

The upper, lower, or upper and lower ends of the respective disk plates 134a and 134b are engaged with the hinge pin mounting portions 122a and 122b to avoid interference with the hinge pin mounting portions 122a and 122b when the valve body 130 is coupled to the hinge pin mounting portions 122a and 122b And may be provided in a sheared state.

In the dual plate check valve 100 thus formed, the hinge pin mounting portions 122a and 122b, to which the coupling portion of the valve body 130, that is, both end portions of the hinge pin 132 are coupled, It is possible to provide the valve body 110 having an excellent appearance because it is integrally formed with the valve body 110 and is not exposed to the outside of the valve body 110. In addition to the leakage of water between the coupling portion of the valve body 130 and the valve body 110 And to prevent them from originating.

The dual plate check valve 100 according to the present invention is configured such that the hinge pin 132 of the valve body 130 is coupled to the hinge pin mounting portions 122a and 122b formed in the valve body 110 in a single operation Therefore, not only a skilled worker can easily mount the valve body 130 on the valve body 110, but also the maintenance of the valve body 130 can be facilitated.

In the dual plate check valve 100 according to the present invention, both ends of the hinge pin 132 of the valve body 130 are connected to the valve body 110 by only a pair of hinge pin mounting portions 122a and 122b formed in the valve body 110 110), it is possible to improve the quality of the check valve 100 and to assemble it, thereby realizing cost reduction.

The dual plate check valve 100 is not limited to the configuration and operation of the embodiments described above. The embodiments may be configured so that all or some of the embodiments may be selectively combined so that various modifications may be made.

The tilting plate check valve 100 as well as the tilting disk check valve or the swing check valve having the hinge can be applied in a similar manner.

100: Dual plate check valve 110: Valve body
112: valve seat 114a, 114b: opening
122a, 122b: Hinge pin mounting portions 124a, 124b:
130: valve body 132: hinge pin
134a, 134b: disk plate 136: torsion coil spring

Claims (5)

A dual plate check valve in which a flow path is formed inside and a valve seat having openings divided into two sides is formed in the flow path,
A valve body in which the interior is divided into a fluid inlet and a fluid outlet by the valve seat; And
And a valve body having a pair of disc plates and a torsion coil spring for automatically opening the opening by the fluid pressure flowing through the fluid inlet and the opening,
And both ends of the hinge pin supporting the disk plates and the torsion coil spring are coupled to the inside of the valve body so as not to be exposed to the outside of the valve body.
The method according to claim 1,
Wherein a pair of hinge pin mounting portions to which both end portions of the hinge pin are coupled are formed to face each other on a side surface of the valve seat and an inner circumferential surface of the fluid outlet portion to protrude toward the center of the fluid outlet portion.
The method of claim 2,
Wherein the hinge pin mounting portions are formed in the inner peripheral surface of the fluid outlet portion between the openings so that the hinge pin can be coupled across the openings.
The method of claim 2,
Wherein each of the hinge pin mounting portions is formed with a releasable groove into which the end portion of the hinge pin is fitted extending from the lower center portion of each hinge pin mounting portion toward the fluid flow direction side,
The dual plate check valve according to any one of claims 1 to 5, wherein the hinge pin mounting portion is formed at one or both of a lower side and an opposite side of the hinge pin mounting portion.
The method of claim 4,
The hinge-pin mounting portion of any one of the hinge-pin mounting portions is formed so as to be rotationally symmetrical with the doorway formed in another hinge-pin mounting portion,
And both end portions of the hinge pin are inserted into the fluid outlet portion and inserted into the detachable groove through the inlet and outlet.

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