KR102011940B1 - Check valve for bending section using multiful spring tension - Google Patents

Abstract

The present invention relates to a check valve for a bent section using the tension of a spring, which uses a spring that is distributed and installed at a plurality of locations so as to individually produce an elastic supporting force at each location, in order to open and close a flow path at a bent section where a flow direction of a fluid rapidly changes, while blocking a reverse direction flow of the fluid. Furthermore, the present invention can effectively prevent cavitation caused by a damage to a disk and an impact on the fluid. To this end, the present invention is characterized by comprising: a valve main body installed such that a lower end portion may be located in a pipe in a state of penetrating a wall body of the pipe in a downward direction at an upper location situated on the outside of a bent section where an introduction unit and a discharge unit of the pipe are connected; a spring installed downwards from the valve main body while being distributed and installed at a plurality of locations so as to individually produce an elastic supporting force at each location; and a disk which blocks the introduction unit of the pipe in a state of being elastically supported with a lower end portion of the spring, and rises with respect to a forward direction flow of a fluid flowing from the introduction unit to the discharge unit to open a flow path so as to allow the flow of the fluid while blocking the flow of the fluid with respect to the reverse direction flow of the fluid flowing from the discharge unit to the introduction unit.

Description

CHECK VALVE FOR BENDING SECTION USING MULTIFUL SPRING TENSION}

The present invention relates to a check valve, and in particular, the reverse flow of the fluid while opening and closing the flow path in the bending section in which the flow direction of the fluid is rapidly changed by using a spring that is distributed to a plurality of points to be able to exert an elastic support force at each point individually In addition, the present invention relates to a check valve for bending sections using multiple spring tensions, which effectively prevents cavitation due to disk damage and fluid shock.

In general, the swing check valve is installed in the pipe through which the fluid passes to prevent the backflow of the fluid flowing in the pipeline and to flow in only one direction to control the flow of the fluid. When the fluid flows normally in the pipeline, When the fluid is opened by the pressure of the fluid and the fluid flows back due to a pump malfunction or other reasons, it automatically closes and blocks the fluid flow back.

As shown in FIGS. 1 and 2, the conventional swing check valve 51 includes a valve body 52 having an inlet 52a and an outlet 52b, and a hinge penetrated inside the valve body 52. A torsional coil 54 which opens and closes the inlet port 52a while rotating about the shaft 53 and a torsion coil inserted into the outer circumferential surface of the hinge shaft 53 to pressurize the valve opening and closing disk 54. It is configured to include a spring (55).

In the conventional swing check valve configured as above, the valve opening / closing disk is automatically opened by the pressure of the fluid when the fluid is normally flowing in the pipeline, and the valve is returned due to the malfunction of the pump or other reasons. The opening and closing disk swings in the reverse direction to close the inlet of the valve body quickly, thereby preventing the backflow of the fluid and preventing the water shock phenomenon.

However, the swing check valve according to the related art has a problem such as a disk damage caused by the impact on the valve body during the swing operation of the disk and cavitation generation due to water shock.

Moreover, the swing check valve of the prior art has a problem that it is not suitable when it is necessary to be installed in the bending section in which the flow of fluid inevitably changes because it has a structure suitable for being used in the middle of the pipe in the same direction.

Korean Utility Model Publication No. 1999-0023054 (1999.07.05)

Accordingly, the present invention has been proposed to solve the conventional problems as described above, and an object of the present invention is to distribute the fluid in a plurality of points by using a spring to exert an elastic support force at each point flow direction of the fluid The present invention provides a check valve for a bending section using multiple spring tensions to block the reverse flow of the fluid while opening and closing the flow path in the rapidly changing bending section, and to effectively prevent cavitation due to a disk damage and a fluid shock.

In order to achieve the above object, the check valve for the bending section according to the technical concept of the present invention is formed in a vertically formed inlet portion and a horizontally connected form in the upper portion of the inlet fluid flows outflow of the fluid flows out A bent section check valve installed in a pipe having a section to form a bend section to allow forward flow of the fluid and block a reverse flow, and an upper point located outside the bend section to which the inlet and outlet of the pipe are connected. The valve body is installed so that the lower end is located inside the pipe in a state penetrating downward through the wall of the pipe; A spring installed downward from the valve body and distributed to a plurality of points to exert an elastic support force at each point; While blocking the inlet of the pipe while being elastically supported at the lower end of the spring, the flow path is opened while permitting the flow of the fluid while rising against the forward flow of the fluid flowing from the inlet to the outlet, but from the outlet to the inlet. Regarding the reverse flow of the flowing fluid is characterized in that the technical configuration, including a; disk for blocking the flow of the fluid.

Here, the distributed springs may be characterized in that they have the same elastic support.

In addition, the spring is divided into one group of springs for elastically supporting the portion of the disk in the direction of the outflow direction in which contact with the fluid actively occurs, and two groups of springs for elastically supporting the opposite portion, The spring may have a stronger elastic support force than the spring of group 1 so that the disk can rise more toward the spring of group 1 when the disk is in contact with the fluid flowing into the disk. have.

In addition, the spring is divided into one group of springs for elastically supporting the portion of the disk in the direction of the outflow direction in which contact with the fluid actively occurs, and two groups of springs for elastically supporting the opposite portion, The spring is provided with a shorter shorter spring than the group 1 spring, and has a connecting bar for connecting the short spring and the disk, but the lower end of the connecting bar and the disk are hinged to contact the fluid into which the disk is introduced. The lower end of the connecting bar as an axis may be characterized in that it can rise more toward the spring of the first group.

In addition, the valve body is provided with a cylindrical body fixed to penetrate through the wall of the pipe, the spring may be installed with the upper end is inserted into the body of the valve body.

In addition, a cover covering an opening may be installed at an upper end of the valve body exposed to the outside of the pipe, and the cover may include a fitting part to which the upper end of the spring is inserted and supported.

In addition, the disk is composed of a disk-shaped disk body portion, and a cushion portion provided with a stretchable elastic material to be joined to the lower surface of the disk body portion in contact with the fluid flowing from the inlet of the pipe to mitigate the impact. You can do

In addition, the portion of the disk cushion portion circumferential portion in the outflow direction in which contact with the incoming fluid is more active than the other portion can be characterized in that formed in a thicker thickness than the other portion in preparation for contact with the fluid. .

In addition, the lower surface of the cushion portion may be characterized in that the low friction protective film of Teflon material is formed to reduce friction with the fluid.

The check valve for bending section using the multiple spring tension according to the present invention is installed in a plurality of points distributed in the reverse direction of the fluid in the bending section in which the flow direction of the fluid is rapidly changed by using the spring to be able to exert an elastic support force at each point As well as blocking the flow, it is possible to effectively prevent the cavitation due to the disk damage and fluid shock.

In addition, the present invention facilitates the opening of the flow path while the operation of the rotation operation is differentiated by the height of the disc is divided by the spring distributed in a plurality of points.

1 and 2 is a reference diagram for explaining the check valve according to the prior art
3 is a state diagram used in the check valve for bending section according to an embodiment of the present invention
Figure 4 is a longitudinal cross-sectional view for explaining the configuration of the check valve for the bending section according to an embodiment of the present invention
Figure 5 is a cross-sectional view for explaining the arrangement of the spring dispersed in the check valve for the bending section according to an embodiment of the present invention
6a to 6c is a series of reference diagrams for explaining the operation and action of the check valve for the bending section according to an embodiment of the present invention
7 is a longitudinal sectional view for explaining the configuration of the check valve for the bending section according to the first modified embodiment of the present invention;
Figure 8 is a cross-sectional view for explaining the arrangement of the spring dispersed in the check valve for bending section according to the first modified embodiment of the present invention
9 is a longitudinal sectional view for explaining the configuration of the check valve for the bending section according to the second modified embodiment of the present invention;
Figure 10 is a cross-sectional view for explaining the arrangement of the spring distributed in the check valve for bending section according to the second modified embodiment of the present invention

With reference to the accompanying drawings will be described in detail with respect to the check valve for the bending section according to embodiments of the present invention. As the inventive concept allows for various changes and numerous modifications, particular embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to the specific form disclosed, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the drawings, similar reference numerals are used for similar elements. In the accompanying drawings, the dimensions of the structure is shown to be larger than the actual size for clarity of the invention, or to reduce the actual size to understand the schematic configuration.

In addition, terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component. On the other hand, unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art and shall not be construed in ideal or excessively formal meanings unless expressly defined in this application. Does

3 is a state diagram used in the check valve for the bending section according to an embodiment of the present invention.

As shown, the bent section check valve 100 according to the embodiment of the present invention is formed in a vertical shape is formed in a horizontally connected form in the upper portion of the inlet (P1) and the inlet (P1) the fluid flows It is installed to the pipe forming the bent section with the outlet (P2) to be discharged is configured to effectively prevent the cavitation due to the disk damage and fluid shock while allowing the forward flow of the fluid and block the reverse flow.

Hereinafter, the check valve for the bending section according to the embodiment of the present invention will be described in detail.

Figure 4 is a longitudinal cross-sectional view for explaining the configuration of the check valve for the bending section according to an embodiment of the present invention, Figure 5 is to explain the arrangement of the spring distributed in the check valve for the bending section according to an embodiment of the present invention 6A to 6C are a series of reference diagrams for explaining the operation and action of the check valve for the bending section according to the embodiment of the present invention.

As shown, the check valve for the bending section according to an embodiment of the present invention comprises a valve body 110, a disk 120, a plurality of distributed springs 130, the cover 140, the main components It is done by.

The valve body 110 has a lower end portion inside the pipe in a state that penetrates downwardly through the wall of the pipe at an upper point located outside the bending section where the inlet portion P1 and the outlet portion P2 of the pipe are connected. Is installed. As can be seen in the configuration of the valve body 110 in the case of the check valve for the bent section according to an embodiment of the present invention in the form of horizontally connected in the inlet (P1) and the inlet (P1) the fluid flows in the upper portion It is suitable for the pipe which is formed and has an outlet portion P2 through which the fluid flows out to form a bending section. (However, the direction and position of the inlet portion (P1) and the outlet portion (P2) of the pipe, the position and the direction of the bending section check valve according to the embodiment of the present invention installed correspondingly are absolute relative to each other only absolute For example, it should be understood that the direction and position of the pipes and check valves included in the drawings may change.)

Here, the valve body 110 is provided with a cylindrical body fixed through the wall of the pipe, the cover 140 is installed at its upper end and the spring 130 and the disk 120 from the inside downward do.

The disk 120 is installed in the state of being elastically supported at the lower end of the spring 130, and as shown in Figures 6a to 6c normally intercept the inlet (P1) of the pipe (Fig. 6a) the inlet The forward flow of the fluid flowing from P1 to the outlet P2 is opened while the flow path is opened to allow the fluid to flow (FIG. 6C), but the fluid flowing from the outlet P2 to the inlet P1 is increased. For the reverse flow, the flow of fluid is blocked (Figure 6b). As described above, the present invention does not open and close the flow path in the form of a swing due to the magnetic weight and fluid pressure of the disk 120, but the operation of blocking and permitting the flow path is made more clearly because the flow path is opened and closed by the elastic support force by the spring 130. It is done.

In addition, the disk 120 is not provided with a conventional disk-shaped disk to perform the check function more effectively in the bending section of the pipe is provided with a unique form. To this end, the disk 120 is joined to the disk-shaped disk body portion 120a and the lower surface of the disk body portion 120a to contact the fluid flowing from the inlet portion P1 of the pipe to mitigate the impact. The cushion portion 120b is formed of an elastic material so as to be elastic, and the low friction protective film 120c is formed on the bottom surface of the cushion portion 120b to reduce friction with the fluid.

The cushion part 120b may be formed of a porous rubber, urethane, or a similar material as a stretchable elastic material.

According to the configuration of the disk 120 having the cushion portion 120b as described above, the cushion portion 120b is stretched and contracted during instantaneous contact and collision of the fluid, thereby alleviating the impact of the fluid. Furthermore, in the embodiment of the present invention, the buffer reinforcing portion 121 formed with a thickness thicker than other portions of the portion in the direction of the outlet portion P2 where active contact with the inflow fluid is actively performed compared to other portions of the circumference of the cushion portion 120b. ). This further strengthens the stretch function of the site where the incoming fluid is in intensive contact and makes fluid contact with this site more smooth.

On the other hand, the low friction protective film (120c) by minimizing the friction caused by the contact with the fluid helps to prevent damage to the cushion portion (120b), which is not a metallic material and to facilitate the flow of the fluid.

The spring 130 serves to elastically support the disk 120, the spring 130 is provided as a compression spring and is installed downward from the valve body, but is distributed to a plurality of points to individually support the elastic support at each point It is installed to exert. The plurality of springs 130 installed in this way may be provided with the same thickness as shown in FIGS. 4 and 5 to have the same elastic bearing force.

Unlike the prior art, the spring 130 opens and closes the flow path by the elastic support force, rather than opening and closing the flow path in a swing form due to the weight and fluid pressure of the disc 120, so that the operation of blocking and permitting the flow path becomes more apparent. To play a pivotal role. In addition, as shown in FIG. 6B, the spring 130 is distributed to a plurality of points, and thus, at the point where the pressure of the fluid is increased, the opening and closing operation is performed more smoothly while operating larger than the point where the spring 130 is not subjected to the pressure.

The cover 140 is provided to cover the opening of the upper end of the valve body 110 exposed to the outside of the pipe. A handle protrusion 141 is formed at an upper portion of the cover 140 so that an operator can hold and operate by hand, and a lower portion of the cover 140 has a fitting portion 142 having a size that can be inserted corresponding to an opening of an upper end portion of the valve body 110. It is provided in the form of a cylindrical body. The upper end of the spring 130 is supported in a fitted state by a fitting protrusion (not shown) provided in the fitting portion 142.

As such, when the upper end of the valve body 110 is opened and the cover 140 is covered in the opened opening, the spring 130 may be smoothly assembled and installed between components.

On the other hand, the embodiment of the present invention can be configured to more smoothly opening and closing the flow path by the disk 120 by modifying the configuration of a plurality of springs distributed. This will be described below.

7 is a longitudinal cross-sectional view for explaining the configuration of the check valve for the bending section according to the first modified embodiment of the present invention, Figure 8 is a spring distributed in the check valve for the bending section according to the first modified embodiment of the present invention It is a cross-sectional view for demonstrating the arrangement | positioning state of.

As shown, the first modified embodiment of the present invention, the spring 130 is a group of springs 130a for elastically supporting the portion in the outflow direction in which the contact with the fluid in the disk actively occurs, and the opposite portion elastically It is divided into two groups of springs 130b for supporting, and the two groups of springs 130b are characterized in that they have a stronger elastic bearing force than the springs 130a of the first group. However, the two groups of springs 130b may have a stronger elastic bearing force than the springs 130a of the group 1 and relatively thicken the thickness of the coil and thicken the entire spring thickness as shown in the drawing.

According to such a configuration, even when the same fluid pressure is applied to the entire disk 120, the portion of the inlet portion P1 of the valve, which is a portion where the contact with the fluid is more active in the disk 130, rises more, and FIG. 6B. It is guided to make the operation shown in more smoothly. In this case, the disk 130 rotates around the two groups of springs 130b to the first group of springs 130a so as to be inclined to open the flow path in a form suitable for the flow of natural fluid.

9 is a longitudinal cross-sectional view for explaining the configuration of the check valve for the bending section according to the second modified embodiment of the present invention, Figure 10 is a spring distributed in the check valve for the bending section according to a second modified embodiment of the present invention It is a cross-sectional view for demonstrating the arrangement | positioning state of.

As shown in the second modified embodiment of the present invention, the spring 130 is a group of springs 130c for elastically supporting the portion in the outflow direction in which contact with the fluid in the disk is active, and the opposite portion elastically It is divided into two groups of springs 130d for supporting, and the two groups of springs 130d are provided with shorter shorter springs than the one group of springs 130c, and the two groups of springs 130d and the disk are provided. The connection bar 150 having a connection bar 120 is provided, but the lower end of the connection bar 150 and the disk 120 are hinged to be in contact with the fluid into which the disk 120 is introduced. The lower end of the axis is characterized in that one more to rise toward the spring (130c) of the group.

According to such a configuration, even when the same fluid pressure is applied to the entire disk 120, the portion of the inlet portion P1 of the valve, which is a portion where the contact with the fluid is more active in the disk 130, rises more, and FIG. 6B. It is guided to make the operation shown in more smoothly. In this case, the disk 130 is rotated to the lower end portion of the connecting bar 150 in the shaft to rise more toward the group of the spring (130c) to be inclined form to open the flow path in a form suitable for the flow of natural fluid.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

110: valve body 120: disk
130: spring 140: cover
150: connection bar

Claims (10)

It is formed in a vertically formed inlet portion in which the fluid flows and connected horizontally in the upper portion of the inlet portion is installed in the pipe to form a bending section with the outlet portion in which the fluid flows to allow the forward flow of the fluid and the reverse flow is It is a check valve for the bending section to block
A valve body installed so that the lower end is located inside the pipe in a state where the pipe penetrates downwardly through the wall of the pipe at an upper point located outside the bending section that connects the inlet and the outlet of the pipe;
A spring installed downward from the valve body and distributed to a plurality of points to exert an elastic support force at each point;
While blocking the inlet of the pipe while being elastically supported at the lower end of the spring, the flow path is opened while permitting the flow of the fluid while rising against the forward flow of the fluid flowing from the inlet to the outlet, but from the outlet to the inlet. And a disk blocking the flow of the fluid with respect to the reverse flow of the flowing fluid.
The spring is divided into one group of springs to elastically support the portion of the disc in the direction of the outflow direction active contact with the fluid, and two groups of springs to elastically support the opposite portion, the two groups of springs Bending section, characterized in that to have a stronger elastic support force than the spring of the first group so that the disk can rise more toward the spring of the first group with the spring of the second group as the axis when contacting the fluid flowing into the disk Check valve. It is formed in a vertically formed inlet portion in which the fluid flows and connected horizontally in the upper portion of the inlet portion is installed in the pipe to form a bending section with the outlet portion in which the fluid flows to allow the forward flow of the fluid and the reverse flow is It is a check valve for the bending section to block
A valve body installed so that the lower end is located inside the pipe in a state where the pipe penetrates downwardly through the wall of the pipe at an upper point located outside the bending section that connects the inlet and the outlet of the pipe;
A spring installed downward from the valve body and distributed to a plurality of points to exert an elastic support force at each point;
While blocking the inlet of the pipe while being elastically supported at the lower end of the spring, the flow path is opened while permitting the flow of the fluid while rising against the forward flow of the fluid flowing from the inlet to the outlet, but from the outlet to the inlet. And a disk blocking the flow of the fluid with respect to the reverse flow of the flowing fluid.
The spring is divided into one group of springs to elastically support the portion of the disc in the direction of the outflow direction active contact with the fluid, and two groups of springs to elastically support the opposite side,
The springs of the two groups are provided with shorter shorter springs than the springs of the first group, and have a connecting bar for connecting the short spring and the disk, but the lower end of the connecting bar and the disk are hinged, and the disk flows into the disk. Bending section check valve, characterized in that when the contact with the lower end of the connecting bar to the shaft to rise more toward one group of springs. delete delete The method according to claim 1 or 2,
The valve body is provided with a cylindrical body fixed through the wall of the pipe, the spring is a check valve for bending section, characterized in that the upper end is installed in the state inserted into the body of the valve body. The method of claim 5,
The upper end of the valve body exposed to the outside of the pipe is provided with a cover for covering the opening, the cover is a check valve for bent section, characterized in that the fitting portion is formed by being supported by the upper end of the spring. The method of claim 5,
The disk is composed of a disk-shaped disk body portion, and a cushion portion provided with an elastic material that is joined to the lower surface of the disk body portion to the fluid flowing from the inlet portion of the pipe to mitigate the impact Bending section check valve. The method of claim 7, wherein
The buffer reinforcement portion having a thickness thicker than that of other portions is formed in a portion in the direction of the outlet portion in which contact with the inflow fluid is actively performed compared to other portions of the cushion portion circumference of the disc. Check valve for bending section. The method of claim 8,
Bending section check valve, characterized in that the lower surface of the cushion portion is formed with a low friction protective film of Teflon material to reduce friction with the fluid. delete

Images