KR101020126B1 - Ball valve having bypath - Google Patents

Abstract

PURPOSE: A ball valve with a bypass flow path is provided to prevent fluid from backward flowing and to naturally discharge high-pressure fluid remained between a ball and a body. CONSTITUTION: A ball valve comprises a body(10), a ball(40), a discharge cap(30), a suction cap(20), a sheet(50), a body seal(70), and a bypass flow path. The ball is accepted in the body and has an opening. The discharge cap comprises a discharge port. The discharge port is connected to the opening of the ball. The suction cap comprises a suction port. The sheet is coupled to the inner surface of the body and the discharge cap and supports the ball. The body seal is inserted between the body and the discharge cap. The bypass flow path is connected from a space between the inner surface of the body and the ball to the discharge port. The bypass flow path discharges fluid, flowing into the space, to the discharge port.

Description

Ball valve with bypass flow path {BALL VALVE HAVING BYPATH}

The present invention relates to a ball valve having a bypass flow path, and more particularly, to improve the reliability and durability of the operation by forming a flow path for discharging the fluid flowing into the space between the ball and the body, and in addition to the high pressure system and vacuum It relates to a ball valve having a bypass flow path for maintaining safety in one case.

In general, the ball valve is a device for opening and closing the flow of the fluid while the ball is formed in the opening opening the body, consisting of the body forming the appearance, the ball, the caps of both ends and the seat for supporting the ball.

The ball is received inside the body and has an opening formed in the center thereof. Sheets are interposed on both sides of the ball so as to be supported by the body, while supporting the rotation of the ball, it also serves as a sealing member for preventing fluid from flowing into or out of the space between the ball and the body.

On the other hand, for rotating the ball may be provided with an actuator or a handle on the top. In general, the upper portion of the ball is provided with a groove for the control of the rotation, the rotation shaft is inserted is to move the left and right together by the rotation of the actuator or the handle.

Therefore, the ball is supported by the cap of the body and both ends are arranged to rotate left and right, the opening formed in the center of the ball can communicate the suction and discharge of the cap of both ends, the opening is the body by the rotation It can also be closed by positioning it facing the wall of the device.

On the other hand, the ball is supported by the seat on the body, it is generally disposed to be spaced a predetermined distance to minimize the friction by the body and the cap and the friction of the rotational shaft, so that the ball is supported by the seat and between the body and the ball Space is formed.

The sheet is generally made of polyethylene or Teflon material to be in close contact with the ball so that the sealing may be made while supporting with the elastic force in the area in contact with the ball.

By the way, the sealing of the close contact portion of the seat and the ball is not complete, especially when the ball is rotated, fluid may flow into the space between the ball and the body. This phenomenon is exacerbated as the pressure of the flow passing through the suction and discharge passages of the cap of the ball becomes stronger.

For example, in the case of a high pressure system connected to a fire suppression system, the working fluid is high pressure, so that the ball may flow into the space between the ball and the body while the ball is rotating, and the remaining fluid may be supplied with a predetermined pressure even when the valve is closed. Will act as. In this case, the body, sealing and actuator parts are constantly pressurized, which may cause damage, and the accumulated damage may cause a serious accident.

In addition, in the case of the ball valve disposed in the flow path for forming a vacuum is configured to discharge the air in the cavity (vacuum chamber) to the vacuum exhaust side, the air remaining in the space between the ball and the body back to the cavity (vacuum chamber) There is a problem that the flow back to lower the reliability of vacuum formation.

On the other hand, even in the case described above, even if the sealing between the ball and the seat in the initial operation is complete, the Teflon-based seat material may be damaged by the pressure may cause a problem that the overall reliability of the valve is lowered.

Accordingly, the present invention has been made to solve the above problems, by forming a flow path for discharging the fluid flowing into the space between the ball and the body to prevent damage and accident of the ball valve and to improve the operation reliability ball valve The purpose is to provide.

The ball valve having a bypass flow path according to the present invention for achieving the above object includes a discharge cap and a suction port including a body, a ball received in the body and formed with an opening, the discharge port communicating with the opening of the ball. A ball valve comprising a suction part cap, an inner circumferential surface of the body and the discharge part cap, and a seat supporting the ball, and a body seal interposed between the body and the discharge part cap, the inner circumferential surface of the body and Bypass flow paths characterized in that the bypass flow path is formed in the body and the discharge cap and connected to the discharge port from the space so that the fluid introduced into the space between the balls can be discharged to the discharge port It provides a ball valve provided.

In addition, the ball valve having a bypass flow path according to the present invention, the bypass flow path and the groove formed in the inner peripheral surface of the body, the groove formed in the body and the body of the discharge portion cap to communicate with the discharge port and It is formed along the groove formed in the coupling portion of the, provides a ball valve having a bypass flow path characterized in that the flow flowing along the bypass flow path bypasses the seat.

In addition, the ball valve having a bypass passage according to the present invention, the body seal is characterized in that it comprises a protrusion formed to protrude so that the bypass flow path formed on the coupling portion of the body and the discharge cap. Provided is a ball valve having a bypass flow path.

In addition, the ball valve having a bypass flow path according to the present invention, the bypass flow path is in communication with the space and the discharge port, the bypass pipe is formed on the outside of the ball valve and coupled to the body and the discharge cap It provides a ball valve having a bypass flow path, characterized in that formed according to.

In addition, the ball valve having a bypass passage according to the present invention is a ball valve including a body, a ball, the discharge cap and the suction cap and the ball, the body groove formed on the inner peripheral surface of the body toward the discharge cap; And a discharge part groove formed at a coupling portion of the cap with the body and communicating with a groove formed in the body, wherein the fluid introduced into the space between the ball and the inside of the body is discharged from the body groove and the discharge. It provides a ball valve characterized in that the discharge along the minor groove.

The ball valve having a bypass flow path according to the present invention configured as described above is a ball valve for controlling the flow path for the high pressure fluid flows even if the high pressure flow along the valve is stopped, the high pressure remaining between the ball and the body The fluid can naturally flow to the discharge port according to the pressure, and thus there is an advantage that the load and damage to the ball, the pivot shaft and the seat can be prevented.

In addition, in the case of a ball valve that controls a flow path for sucking fluid to form a vacuum in the cavity (vacuum chamber), the process between the ball and the body is performed during the process of forming the vacuum or when the ball valve is closed by completing the vacuum. There is an advantage that the fluid flowing in can be prevented from flowing back to the cavity (vacuum chamber).

Therefore, the ball valve provided with the bypass passage according to the present invention can minimize the damage of the peripheral parts by the fluid flowing between the ball and the body to prevent accidents in advance, and further improve the reliability and life of the product Has an advantage.

1 is a side cross-sectional view showing a ball valve having a bypass passage according to an embodiment of the present invention.
Figure 2 is a front view showing a ball valve having a bypass flow path in the discharge unit direction according to an embodiment of the present invention.
Figure 3 is a side cross-sectional view showing a body of a ball valve having a bypass passage according to an embodiment of the present invention.
Figure 4 is a side cross-sectional view showing a discharge cap of the ball valve having a bypass passage according to an embodiment of the present invention.
Figure 5 is a side view and a front view showing a body seal interposed between the discharge cap and the body of the ball valve having a bypass passage according to an embodiment of the present invention.
6 is a front view as viewed from the discharge side of the body that the body seal shown in FIG.
7 is a perspective view showing a ball valve having a bypass passage according to another embodiment of the present invention.

Hereinafter, a ball valve having a bypass flow path according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a side cross-sectional view showing a ball valve having a bypass flow path according to an embodiment of the present invention, and FIG. 2 is a front view showing the discharge portion of the ball valve having the bypass flow path shown in FIG. 1.

The inside of the body 10 constituting the body of the ball valve is made of a hollow shape, the ball 40 is accommodated therein. In FIG. 1, the suction part cap 20 having the suction port is fixedly coupled to the body at the left side of the body 10, and the discharge part cap 30 having the discharge hole is fixedly coupled to the body. The body 10, the suction cap 20, and the discharge cap 30 communicate with each other so that a fluid flow path can be formed. The ball 40 accommodated in the body has a substantially spherical shape having an opening formed in a central portion thereof and is supported by the sheet 50.

1 and 2, but the actuator 60 is shown as a power source for the rotation of the ball 40 on the upper body 10, the handle may be formed so that it can be directly rotated by hand to be. Since the ball 40 is supported by the sheet 50 of elastic material and is hardly in contact with the body 10, a space is formed between the inner circumferential surface of the body 10 and the ball 40, and introduced into the space. As described above, there is a problem that the fluid may damage the peripheral members or reduce the reliability of the valve operation.

In order to solve this problem, the ball valve according to the present invention provides a bypass flow passage communicating the space between the body 10 and the ball 40 and the discharge port of the discharge cap 30. Specifically, the bypass passage is a discharge port formed in the inner peripheral surface of the discharge cap 30 along the groove formed in the body 10 and the discharge cap 30 from the space between the ball 40 and the inner peripheral surface of the body 10 It is preferable to extend to form. More specifically, a groove is formed in the inner circumferential surface of the body 10 so that the flow can bypass the coupling portion with the sheet 50, and also at one end portion that is opposite to the sheet 50 of the discharge portion cap 30. More preferably, the groove is formed to be in communication with the groove of the body 10.

3 is a side cross-sectional view showing a body 10 of a ball valve having a bypass flow path according to a preferred embodiment of the present invention. As described above, the body groove 11, which is a part of the bypass flow path, is formed on the inner circumferential surface of the body 10. The sheet 50 is inserted into both ends of the inner circumferential surface of the body 10 to support the ball 40. The body groove 11 is formed to bypass the sheet 50 on the discharge part side. Therefore, the body groove 11 is preferably formed in the longitudinal direction at the portion where the flow is started, and is formed in the transverse direction on the surface facing the sheet 50. However, if the body groove 11 is a path capable of bypassing the seat 50, the shape and arrangement of the body groove 11 may vary depending on the selection.

On the other hand, Figure 4 is a side cross-sectional view showing the discharge portion cap 30 of the ball valve having a bypass flow path according to a preferred embodiment of the present invention. The discharge cap 30 is coupled to the body 10 is formed with a flange 32 which is a portion to be sealed. A discharge part groove 31 which is a longitudinal groove is formed at a portion of the flange 32 opposite to the body 10 so as to communicate with the body groove 11.

The body groove 11 and the discharge part groove 31 as described above form a series of flow paths, and as shown in FIG. 1, the fluid introduced into the space between the ball 40 and the body 10 is the sheet 50. When it flows along the body groove 11 bypassing the part of the circumference and faces the flange 32 of the discharge part cap 30, it flows in the longitudinal direction along the discharge part groove 31 and communicates with the discharge port of the discharge part cap 30. This flows out along the bypass flow path.

According to this configuration, in the case of the ball valve for controlling the flow of the high pressure fluid flows even if the high pressure flow flowing along the valve is stopped, the high pressure fluid remaining between the ball 40 and the body 10 is naturally discharged according to the pressure It should be noted that there is an advantage that the load and damage to the ball 40, the rotating shaft 11, the actuator 60 and the seat 50 can be prevented accordingly.

On the other hand, in the case of the ball valve for controlling the flow path for sucking the fluid to form a vacuum in the cavity (vacuum chamber) during the process of forming the vacuum or in the process of closing the ball valve by completing the vacuum (40) There is an advantage that the fluid flowing between the body and the body 10 can be prevented from flowing back to the cavity (vacuum chamber) again.

5 is a view showing a body seal interposed between the discharge cap 30 and the body 10 of the ball valve having a bypass passage according to a preferred embodiment of the present invention. In general, the body seal has a circular plate shape having an opening, and is disposed at a coupling portion for sealing between the discharge cap 30 and the body 10. According to the concept that the bypass flow path of the present invention is formed, it is preferable that the flow path opening 71 is formed so as not to disturb the flow path of the bypass flow. Therefore, the body seal 70 is formed with a protrusion 72 such that the flow path opening 70 is at least a height above the body groove 11.

6 is a front view of the body seal 70 in which the discharge part side of the body 10 is disposed. As shown in FIG. 6, a body groove 11 is formed above the inner circumferential surface of the body 10, and a protrusion 72 is formed above the body seal 70. Accordingly, the flow path opening 71 is naturally formed, so that the bypass flow path may be formed along the discharge part groove 31 of the discharge part cap 30 from the body groove 11. In addition, the sealing problem between the body 10 and the flange of the discharge cap 30 does not occur.

Meanwhile, in the above embodiment, only the bypass flow path flows along the groove 31 formed in the discharge part cap 30 from the groove 11 formed on the upper side of the body 10, but the bypass flow path is a body ( Of course, the lower part of 10) may be arranged by changing a position according to a selection, and two or more may be arranged as necessary.

In addition, the grooves 11 and 31 may be formed by a method of casting at the time of manufacturing the body 10 and the discharge cap 30, but may be formed by a cutting process.

7 is a perspective view illustrating a ball valve provided with a bypass passage according to still another embodiment of the present invention. In one embodiment of the present invention, the bypass flow path is provided inside the body 10, but in another concept, a concept formed by a tube provided separately is presented.

As shown in FIG. 7, the bypass pipe 110 that is in communication with the space portion in which the ball 40 of the body 10 is accommodated when viewed from the exterior of the ball valve is separately coupled. The bypass pipe 110 is formed to communicate with the inside of the discharge port of the discharge cap 30 along the outer surface of the ball valve. Accordingly, the fluid introduced into the space between the ball 40 and the body 10 as in the embodiment of the present invention flows through the discharge part of the discharge part cap 30 along the bypass pipe 110. A flow path is formed.

When the bypass flow path is formed in the ball valve as described above, the damage of the peripheral parts caused by the fluid flowing between the ball and the body is minimized, so that an accident can be prevented in advance, and the reliability and life of the product are further improved. Will be.

In the above, the present invention has been described in detail based on the embodiment and the accompanying drawings. However, the scope of the present invention is not limited by the above embodiments and drawings, and the scope of the present invention will be limited only by the contents described in the claims below.

10 ... body 11 ... body euros
20 ... Suction cap 30 ... Discharge cap
31.Exhaust part Euro 32 ... Exhaust cap flange
35.Eject 40.Ball
50 ... sheet 60 ... actuator
70 Body seal 71 Euro opening
72 Projection unit 110 Bypass tube

Claims (5)

A body, a ball received in the body and having an opening, a discharge part cap including an discharge port communicating with the opening of the ball, and an suction part cap including a suction port, coupled to an inner circumferential surface of the body and the discharge part cap, A ball valve comprising a support seat and a body seal interposed between the body and the discharge cap.
And a bypass flow path extending from the space to the discharge port and formed in the body and the discharge cap to allow fluid introduced into the space between the inner circumferential surface of the body and the ball to be discharged to the discharge port. A ball valve having a bypass flow path.
The method of claim 1,
The bypass flow path is formed along a groove formed in the inner circumferential surface of the body, a groove formed in the body and a groove formed in the coupling portion of the discharge portion cap with the body so as to communicate with the groove formed in the body,
And a flow path flowing along the bypass flow path bypasses the seat.
The method of claim 2,
The body seal is a ball valve having a bypass flow path characterized in that it comprises a protrusion formed to protrude so that the bypass flow path formed in the coupling portion of the body and the discharge cap.
The method of claim 1,
The bypass flow path is in communication with the space and the discharge port, the ball valve having a bypass flow path is formed along the bypass pipe is formed on the outside of the ball valve and coupled to the body and the discharge cap. .
A ball valve comprising a body, a discharge part cap including an opening formed in the body and a ball having an opening, and a discharge port communicating with the opening of the ball, and a suction part cap including a suction port.
A body groove formed on an inner circumferential surface of the body toward the discharge part cap side; And,
And a discharge part groove formed at a coupling portion with the body of the discharge part cap and communicating with the body groove.
The fluid introduced into the space between the ball and the inside of the body is discharged to the discharge portion along the body groove and the discharge portion groove.

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