KR102333150B1 - Valve with integrated joint - Google Patents

Abstract

Provided is a joint-integrated valve, which comprises: a ring-shaped support which is disposed at a point where pipes are spaced apart from each other, and is provided with a valve body therein; a ring-shaped sealing part which encloses the end of the pipes spaced apart from an outer circumferential surface and both sides of the support together; and a connector which encloses the outer circumferential surface of the sealing part, wherein one end on the one pipe side of the connector is coupled to an outer circumferential surface of the one pipe, and the other end on the other pipe side of the connector is coupled to an outer circumferential surface of the other pipe.

Description

Joint-integrated valve {VALVE WITH INTEGRATED JOINT}

The present invention easily connects separated pipes, and by simultaneously embedding a valve body therein, it is possible to simultaneously perform a connection and a valve shielding function, and effectively performs sealing of the connection part and sealing of the valve body, and has excellent durability, and the pipe It relates to a joint-integrated valve that does not impair connectivity and sealing properties even during the flow of

In the case of a long-distance connection or a pipe with multiple bends, it is sometimes necessary to connect the pipes to each other in the middle. Also, in some cases, an on/off valve should be installed as a safety device in the piping.

In the prior art, when connecting these separate pipes, it was very difficult to install the pipe by connecting the pipe from the beginning and then installing the pipe, and there was a problem in that it was difficult to replace the valve or the pipe when the pipe was old.

In addition, since the pipe connecting mechanism and the valve are separately installed, the cost is increased, and there is a problem in that the installation and maintenance are disadvantageous.

Accordingly, there is a need for a pipe connection mechanism or a valve that can be installed together with a valve when connecting the pipe, while satisfying both the connectivity and sealing properties.

The matters described as the background art above are only for improving the understanding of the background of the present invention, and should not be accepted as acknowledging that they correspond to the prior art already known to those of ordinary skill in the art.

KR 10-2020-0132087 A

The present invention has been proposed in order to solve this problem, and it is possible to easily connect the separated pipes, and to simultaneously perform the connection and shielding functions of the valve body by embedding the valve body therein, and sealing the connection part and the valve body. It is intended to provide a joint-integrated valve that seals effectively, has excellent durability, and does not damage connectivity and sealing properties even during pipe flow.

The joint-integrated valve according to the present invention for achieving the above object is a joint-integrated valve that connects pipes spaced apart by a certain distance and has a valve body therein, has a ring shape, and is disposed at a point between the pipes spaced apart, a support provided with a valve body therein; A sealing portion having a ring shape, enclosing the outer peripheral surface of the support and the ends of the pipe spaced apart on both sides together; and a connector that surrounds the outer circumferential surface of the sealing part, one end of the one pipe side is coupled to the outer circumferential surface of the one pipe side, and the other end of the other pipe side is coupled to the outer circumferential surface of the other pipe.

The support and the sealing part are molded of a resin material, and the support may have greater hardness or strength than the sealing part.

The support may be disposed between both sides of the pipe, and one end may face the end of the one pipe, and the other end may face the end of the other pipe.

The support may be fitted by sliding in the vertical direction between the spaced apart both sides of the pipe.

Through-holes through which the valve shaft passes in the vertical direction may be formed in the support and the sealing portion, respectively.

A coupling groove is formed on the outer circumferential surface of the support in the circumferential direction, and a protrusion that is inserted into the coupling groove and engages in the inner circumferential surface of the sealing part may be formed along the circumferential direction.

Through-holes through which the valve shaft passes in the vertical direction may be formed in the coupling groove of the support and the protrusion of the sealing part, respectively.

On the outer circumferential surface of the support, protruding flanges protruding outward from both sides of the coupling groove are formed in the circumferential direction, and on the inner circumferential surface of the sealing part, pressurizing parts protruding inward from both sides of the protrusion are formed in the circumferential direction. A fitting groove is formed, and the protruding flange of the support is inserted into the fitting groove and can be caught in the longitudinal direction of the pipe.

A flow space may be formed between the fitting groove and the protruding flange at a corner point located on the outside of the protruding flange.

The sealing part is cut open and coupled in a manner that surrounds the support from the outside of the support, and corresponding step shapes are formed at both ends of the sealing part, and the step shapes of both ends are matched with each other, and the outer circumferential surface in the coupled and coupled state A continuous curved surface can be achieved.

The connector is composed of an upper part and a lower part, and the upper part and the lower part can be fastened to each other in a state where the upper part presses the upper part of the sealing part and the lower part presses the lower part of the sealing part.

One end and the other end of the sealing portion may be pressed between the connector and the pipe.

A concave groove is formed on the outer circumferential surface of the end of the pipe in the circumferential direction, and at one end and the other end of the connector, convex portions protruding inward from the inner circumferential surface are respectively formed along the circumferential direction, and the convex portion of the connector is inserted into the concave groove of the pipe. can

An installation space is formed between the convex parts on both sides of the inner circumferential surface of the connector, and the sealing part may be seated in the installation space inside the connector.

The inner circumferential surface of the sealing portion may be in close contact with the outer circumferential surface of the pipe, and the outer diameter of the support may be greater than the outer diameter of the pipe.

According to the joint-integrated valve of the present invention, it is possible to easily connect the separated pipes, and by embedding the valve body therein at the same time, it is possible to perform the connection and the shielding function of the valve body at the same time, and the sealing of the connection part and the sealing of the valve body are effectively performed It has excellent durability, and the connection and sealing properties are not damaged even when the pipe is flowing.

1 is an exploded perspective view of a joint-integrated valve according to an embodiment of the present invention.
Figure 2 is a view showing a coupled state of the joint-integrated valve according to an embodiment of the present invention.
Figure 3 is a view showing the support of the joint-integrated valve according to an embodiment of the present invention.
Figure 4 is a view showing a sealing portion of the joint-integrated valve according to an embodiment of the present invention.
5 to 8 are views showing an installation process of the joint-integrated valve according to an embodiment of the present invention.
9 is a detailed cross-sectional view of a joint-integrated valve according to an embodiment of the present invention.
10 is a cross-sectional view showing a tilting state of the joint-integrated valve according to an embodiment of the present invention.

1 is an exploded perspective view of a joint-integrated valve according to an embodiment of the present invention, FIG. 2 is a view showing a coupled state of the joint-integrated valve according to an embodiment of the present invention, and FIG. 3 is an embodiment of the present invention It is a view showing the support of the joint-integrated valve according to the example, Figure 4 is a view showing the sealing part of the joint-integrated valve according to an embodiment of the present invention, Figures 5 to 8 are Figures 3 is according to an embodiment of the present invention It is a view showing an installation process of the joint-integrated valve, FIG. 9 is a detailed cross-sectional view of the joint-integrated valve according to an embodiment of the present invention, and FIG. 10 is a cross-sectional view showing a tilting state of the joint-integrated valve according to an embodiment of the present invention am.

1 is an exploded perspective view of a joint-integrated valve according to an embodiment of the present invention. The joint-integrated valve according to the present invention connects pipes 100 spaced apart by a predetermined distance, and is a joint-integrated valve having a valve body therein. , a ring shape, disposed at a point between the pipes 110 and 120 spaced apart, the support 200 provided with a valve body 500 therein; A sealing portion 300 having a ring shape and enclosing the ends of the pipes 110 and 120 spaced apart from the outer circumferential surface and both sides of the support 200 together; And surrounding the outer circumferential surface of the sealing portion 300, one end of the pipe 110 side is coupled to the outer circumferential surface of the one pipe 110, the other end of the other pipe 120 side is coupled to the outer circumferential surface of the other pipe 120 The connector 400; includes.

The present invention relates to a joint-integrated valve that connects the ends of the pipe 100 separated from each other and simultaneously implements the function of the shielding valve therebetween.

Specifically, the joint-integrated valve of the present invention is composed of a support 200 , a sealing part 300 and a connector 400 . The present invention connects the pipes 100 spaced apart by a certain distance, and is a joint-integrated valve having a valve body therein. The support 200 has a ring shape having a certain height as shown in FIGS. 1 and 3, and the pipes 110 and 120 It is arranged at a point between the spaced apart, the valve body 500 is provided therein.

In addition, the sealing part 300 has a ring shape having a predetermined height as shown in FIGS. 1 and 4 , and surrounds the outer peripheral surface of the support 200 and the ends of the pipe 100 spaced apart from both sides together.

Both the support 200 and the sealing part 300 are molded of a resin material, but the support 200 may have greater hardness or strength than the sealing part 300 . In the case of the support 200, since it is a configuration that directly supports the valve body, it should not be deformed by pressure, and accordingly, it is necessary to maintain concentricity by using a material having a higher hardness or strength.

On the other hand, in the case of the sealing part 300, since it is a configuration responsible for the actual sealing from the outside, it is deformed by pressure when fastening from the outside using a ductile material and is in close contact with it so that the sealing can be maintained as well as possible.

Finally, the connector 400 surrounds the outer circumferential surface of the sealing part 300, one end of the one pipe 110 side is coupled to the outer circumferential surface of the one pipe 110, and the other end of the other pipe 120 side is the other pipe ( 120) to be coupled to the outer circumferential surface. The connector 400 is formed of a metal material to protect the internal configuration, and is fastened from the outside as shown and assembled by bolting (B), etc., through the assembly force of the internal sealing part 300 It provides a pressing force, and through this, the sealing unit 300 performs sealing. In addition, a shaft 520 extends over the connector 400 , and an actuator (not shown) is installed on the connector 400 so that the shaft 520 and the actuator are connected.

According to the joint-integrated valve of the present invention, by inserting the support 200 between the pipes 100 spaced apart and assembling the connector 400 after wrapping the sealing part 300, installation is very easy and separation and It can be fastened for easy maintenance. In addition, it is effective because a valve is provided inside, and the cost is reduced and installation is easy by performing connection and sealing at the same time.

Specifically, the support 200 may be disposed between both sides of the pipe 110 and 120 , and one end may face the end of the one pipe 110 , and the other end may face the end of the other pipe 120 . In addition, the support 200 may be fitted by sliding in the vertical direction between the spaced apart both sides of the pipe (110, 120).

The pipes 100 may exist spaced apart from each other, and in this case, according to the present invention, the support 200 is inserted and positioned between the pipes 100 spaced apart from each other. The support 200 is provided with a butterfly-type valve body 500 , and when the support 200 is inserted, the support 200 is positioned between the ends of the pipe as shown in FIG. 5 . Accordingly, the support 200 may be disposed between the pipes 110 and 120 on both sides, and one end may face the end of the one pipe 110 , and the other end may face the end of the other pipe 120 .

As shown in FIG. 5, both ends of the support 200 are disposed to face both ends of the pipe 100, so that the diameter of the valve body 500 can be made almost similar to the diameter of the pipe 100, so that the valve Make sure that the change in flow rate around the sieve is minimized. In addition, since the support 200 effectively supports the pipe 100 during tilting or sliding of the pipe 100 , the durability of the connection mechanism is ensured.

Meanwhile, the support 200 and the sealing part 300 may have through-holes H1 , H2 , H3 , and H4 through which the valve shaft 520 passes in the vertical direction, respectively. As the shaft 520 passes through the support 200 and the sealing part 300 and is connected to the internal valve body 500 , rotation of the valve body 500 is possible, and the concentricity of the shaft 520 is reliably supported. For the support of the shaft 520 , the through holes H1 , H2 , H3 , and H4 may be respectively formed in the vertical direction so that the shaft 520 completely penetrates the support 200 and the sealing part 300 . The penetrating end of the shaft 520 is inserted into the lower connector 420 so that the rotating shaft is maintained without shaking. In addition, the support 200 is formed of a material with high hardness to stably support the shaft 520 .

And on the outer peripheral surface of the support 200, a coupling groove 210 is formed as a ring-shaped track along the circumferential direction. And on the inner circumferential surface of the facing sealing part 300, a protrusion 310 inserted into the coupling groove 210 and caught may be formed in a track shape along the circumferential direction. Therefore, when the support 200 and the sealing part 300 are coupled, the support 200 and the sealing part 300 are separated or caught in the longitudinal direction of the pipe 100 by the protrusion 310 being inserted into the coupling groove 210 and caught. separation is prevented.

And at the same time, the coupling groove 210 of the support 200 and the protrusion 310 of the sealing part 300 are respectively formed with through-holes H1, H2, H3, H4 through which the valve shaft 520 passes in the vertical direction. The shaft 520 is positioned at a central point where the position is firmly fixed in the longitudinal direction of the pipe 100 so that the shaft 520 can be stably supported.

On the other hand, the sealing part 300 is cut open and coupled to the outside of the support 200 in a way that surrounds the support 200 , and a step shape 340 corresponding to each other is formed at both ends of the sealing part 300 . and the step shapes 340 of both ends are matched to each other, and in the coupled state, the outer peripheral surface may form a continuous curved surface.

That is, the sealing part 300 forms a ring shape in the final combined shape, but surrounds the support 200 during assembly and the sealing part 300 to implement the fitting structure of the protrusion 310 and the coupling groove 210 . It needs to be assembled while surrounding the support 200 in the cut state. To this end, the sealing part 300 needs to be formed to improve the ring, and then to be divided after being formed in a state in which the end is cut or formed in a ring shape. If the sealing part 300 is formed in a straight shape from the beginning, wound and assembled, there is a density difference between the inside and the outside of the sealing part 300, so an imbalance occurs and a springback phenomenon occurs. It is preferable to be divided at the same time or after being molded into the shape.

In the case of the sealing part 300 , step shapes 340 corresponding to each other are formed at both ends by division. And after the support 200 is positioned between the pipes 100, the sealing part 300 is coupled to surround the support 200 as shown in FIG. 6, and the end of the step shape 340 of the sealing part 300 is shown. The outer circumferential surface of the sealing part 300 may form a continuous curved surface in a coupled state by being superimposed on each other as shown. In addition, through holes H3 and H4 are formed at the overlapping ends of the sealing portion 300, respectively, so that the shaft 520 is fitted into the through holes H3 and H4 in a state in which the sealing portion 300 is uncovered. (300) so that the temporarily assembled state can be maintained.

On the other hand, on the outer peripheral surface of the support 200, protruding flanges 220 protruding outward from both sides of the coupling groove 210 are formed in the circumferential direction, and on the inner peripheral surface of the sealing part 300, from both sides of the protrusion part 310 to the inside. The protruding pressing part 330 is formed in the circumferential direction to form a circumferential fitting groove 320 between the protruding part 310 and the pressing part 330, and the protruding flange 220 of the support 200 is fitted It is inserted into the groove 320 and may be caught in the longitudinal direction of the pipe 100 . Accordingly, the support 200 and the sealing part 300 are formed with a double locking structure, so that the pressing force is evenly transmitted to the entire sealing part 300 when pressing by the fastening of the connector 400 from the outside.

5 to 8 are views showing the installation process of the joint-integrated valve according to an embodiment of the present invention. In the case of FIG. 5, the support 200 is primarily fitted and the sealing part 300 is coupled. state, and FIG. 6 is a cross-sectional view thereof. And, in the case of FIG. 7, the connector 400 is the final state in which it is fastened, and FIG. 8 is a cross-sectional view thereof.

5 to 6 , first, the support 200 is inserted between the pipes 100 , the valve body 500 is built into the support 200 , and the shaft 520 is assembled. And the sealing part 300 is coupled to surround the outside of the support 200, the sealing part 300 is wrapped, the shaft 520 is inserted through the through holes (H3, H4) of the sealing part 300, the sealing part The provisional assembly of 300 is maintained.

The connector 400 is composed of an upper part 410 and a lower part 420, and the lower part 420 as shown in FIG. 7 in a state where the upper part 410 presses the upper part of the sealing part 300 as shown in FIG. ) is positioned to press the lower part of the sealing part 300 , and in that state, the upper part 410 and the lower part 420 may be fastened to each other. The fastening is made by bolting (B), etc., and the sealing part 300 inside the connector 400 is pressed by the fastening force, and through this, the concentricity of the support 200 and the shaft 520 is implemented and sealing is also implemented. . That is, the sealing part 300 may be pressed between the connector 400 and the pipe 100 .

On the other hand, a concave groove 130 is formed along the circumferential direction on the outer peripheral surface of the end of the pipe 100, and at one end and the other end of the connector 400, a convex portion 430 protruding inward from the inner peripheral surface, respectively, is in the circumferential direction. Accordingly, the convex portion 430 of the connector 400 may be inserted into the concave groove 130 of the pipe 100 . Accordingly, the position of the connector 400 is fixed in the assembled state to the pipe 100 to ensure connectivity and durability.

In addition, an installation space 412 is formed between the convex parts 430 on both sides of the inner circumferential surface of the connector 400 , and the sealing part 300 may be seated in the installation space 412 inside the connector 400 . Accordingly, the separation of the sealing part 300 is prevented, and the concentricity of the valve body can be well maintained. In addition, the inner circumferential surface of the sealing part 300 may be in close contact with the outer circumferential surface of the pipe 100 , and the support 200 may have an outer diameter greater than the outer diameter of the pipe 100 . Through this, both sides of the support 200 can be well supported by the pipe 100 while the position of the support 200 is maintained by the sealing part 300 , and the area of the valve body is the cross-sectional area of the pipe 100 . This is to prevent fluctuations in flow rate in a similar way to

On the other hand, Figure 10 is a cross-sectional view showing the tilting state of the joint-integrated valve according to an embodiment of the present invention, even when one side of the pipe 100 is tilted at a minute angle (about 1 degree), the connectivity and sealing properties of the connecting mechanism are It is guaranteed, and the concentricity of the valve body is maintained.

In this case, as shown in the enlarged view of FIG. 9 , a flow space 322 is formed between the protruding flange 220 and the protruding flange 220 at the corner point located on the outside of the protruding flange 220 in the fitting groove 320 , this flow space 322 . ) through which the sealing part 300 that is expanded and deformed by pressure is absorbed, and when tilting is performed as shown in FIG. 10 , it is possible to effectively absorb the deformation of the sealing part 300 .

According to the joint-integrated valve of the present invention, it is possible to easily connect the separated pipes, and by embedding the valve body therein at the same time, it is possible to perform the connection and the shielding function of the valve body at the same time, and the sealing of the connection part and the sealing of the valve body are effectively performed It has excellent durability, and the connection and sealing properties are not damaged even when the pipe is flowing.

Although shown and described with respect to specific embodiments of the present invention, it is within the art that the present invention can be variously improved and changed without departing from the spirit of the present invention provided by the following claims. It will be obvious to those of ordinary skill in the art.

100: pipe 200: support
300: sealing unit 400: connector
500: valve body 520: shaft

Claims (15)

A joint-integrated valve that connects pipes spaced apart by a certain distance and has a valve body therein,
a ring-shaped support, which is disposed at a point between the pipes spaced apart, and provided with a valve body therein;
A sealing portion having a ring shape, enclosing the outer peripheral surface of the support and the ends of the pipe spaced apart on both sides together; and
It includes; a connector that surrounds the outer circumferential surface of the sealing part, one end of the pipe side is coupled to the outer circumferential surface of the one pipe side, and the other end of the other pipe side is coupled to the outer circumferential surface of the other pipe side;
The sealing part is cut open and coupled in a manner that surrounds the support from the outside of the support, and corresponding step shapes are formed at both ends of the sealing part, and the step shapes of both ends are matched with each other, and the outer circumferential surface in the coupled and coupled state A joint-integrated valve characterized in that it forms a continuous curved surface. The method according to claim 1,
A joint-integrated valve, characterized in that the support and the sealing part are molded of a resin material, and the support has greater hardness or strength than the sealing part. The method according to claim 1,
The support is disposed between both pipes, and one end faces the end of one pipe, and the other end faces the end of the other pipe. The method according to claim 1,
The joint-integrated valve, characterized in that the support is slid in the vertical direction between the spaced apart both sides of the pipe. The method according to claim 1,
A joint-integrated valve, characterized in that the support and the sealing part have through-holes through which the valve shaft passes in the vertical direction, respectively. 6. The method of claim 5,
A joint-integrated valve, characterized in that a coupling groove is formed along the circumferential direction on the outer circumferential surface of the support, and a protrusion to be inserted into the coupling groove is formed along the circumferential direction on the inner circumferential surface of the sealing part. 7. The method of claim 6,
A joint-integrated valve, characterized in that the through-hole through which the valve shaft passes in the vertical direction is formed in the coupling groove of the support and the protrusion of the sealing part, respectively. 7. The method of claim 6,
On the outer circumferential surface of the support, protruding flanges protruding outward from both sides of the coupling groove are formed in the circumferential direction, and on the inner circumferential surface of the sealing part, pressing parts protruding inward from both sides of the protrusion are formed in the circumferential direction, and between the protrusion and the pressing part in the circumferential direction. A joint-integrated valve, characterized in that it forms a fitting groove, and the protruding flange of the support is inserted into the fitting groove and hung in the longitudinal direction of the pipe. 9. The method of claim 8,
A joint-integrated valve, characterized in that a flow space is formed between the protruding flange and the protruding flange at the corner point located on the outside of the protruding flange in the fitting groove. delete The method according to claim 1,
The connector is composed of an upper part and a lower part, and the upper part and the lower part are fastened to each other in a state where the upper part presses the upper part of the sealing part and the lower part presses the lower part of the sealing part. The method according to claim 1,
A joint-integrated valve, characterized in that the sealing portion is pressed between one end and the other end between the connector and the pipe. The method according to claim 1,
Concave grooves are formed on the outer peripheral surface of the end of the pipe in the circumferential direction, and at one end and the other end of the connector, convex portions protruding inward from the inner peripheral surface are respectively formed along the circumferential direction, and the convex portion of the connector is inserted into the concave groove of the pipe. Joint-integrated valve, characterized in that. 14. The method of claim 13,
A joint-integrated valve, characterized in that an installation space is formed between the convex parts on both sides on the inner circumferential surface of the connector, and the sealing part is seated in the installation space inside the connector. The method according to claim 1,
The joint-integrated valve, characterized in that the inner circumferential surface of the sealing part is in close contact with the outer circumferential surface of the pipe, and the outer diameter of the support is larger than the outer diameter of the pipe.

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