KR100740544B1 - Check Valve System - Google Patents

Abstract

Check valve system of the present invention is installed in the inside of the pipe opening and closing the inlet and outlet side to close and communicate with each other and hinged opening and closing plate; It is installed on the outside of the pipe, one end is connected to the opening and closing plate and the other end is the opening and closing plate rotating member provided with a center so that the opening and closing plate is closed by its own weight; Branch pipe branched to a predetermined portion on the inlet side; And an actuator coupled to the opening / closing plate rotating member to raise the opening / closing plate rotating member by the pressure of the fluid supplied from the branch pipe to communicate the inlet side and the outlet side with each other. Characterized in that consists of.

Therefore, in the present invention, the opening and closing of the opening and closing plate is made by an actuator operated by the pressure of the fluid supplied from the inlet side, so that the opening degree can be maintained at 100%. Shock and damage of the seat portion can be prevented, and since the working fluid of the actuator uses water moved by the pipe, no oil leakage occurs, thereby reducing the environmental pollution caused by the oil leakage.

Check valve, open / close board, open / close board rotating member, actuator, single acting cylinder, double acting cylinder, open / close valve

Description

Check Valve System

1 to 3 is a schematic view showing the structure of a conventional check valve.

Figure 4 is a schematic diagram showing the structure of a check valve system using a single-acting cylinder as an example of the present invention.

5 is a schematic view showing the structure of a check valve system using a double-acting cylinder as an example of the present invention.

<Description of the symbols for the main parts of the drawings>

1: piping 10: opening and closing plate

20: opening and closing plate rotating member 21: the center

30: branch pipe 31: on-off valve

32: pressure sensor 40: actuator

50: single acting cylinder 60: double acting cylinder

51, 61: piston 52, 62: piston rod

70: second branch pipe 80: third branch pipe

81: throttle valve 82: check valve

90: drain pipe 91: solenoid valve

92: check valve

The present invention relates to a check valve system, and more particularly, to a check valve system to open and close the opening and closing plate by an actuator operated by the pressure of the fluid supplied from the inlet side.

In general, a pipe system for moving a fluid is provided with a pump capable of pressurizing the fluid, and a control valve such as a butterfly valve for adjusting the flow rate is installed. At this time, in case of emergency such as interruption of normal pump operation and failure or failure of the pump, a back flow occurs in the piping system, and this back flow causes a problem of damage to the pump, other parts, and peripheral devices. In order to solve this problem, a check valve was installed between the pump side and the control valve so as to prevent the breakage of the components due to the back flow by closing the closing plate of the check valve quickly in case of back flow.

The swing check valve generally used conventionally is shown in FIG.

As shown, the disk 101 for closing and communicating the inlet side and the discharge side with each other is hinged in the pipe 100, and interlocked with the disk 101 to close and communicate with the disk 101 The rotating member 102 is hinged together with the disk 101, the end of the rotating member 102 is provided with a weight 103.

The swing check valve having such a configuration allows the disk 101 provided in the check valve to completely close the inlet side and the outlet side in a situation where the pump is stopped so that there is no fluid flow. When the pump is operated in such a state, the disk 101 is rotated by the fluid on the inlet side pressurized by the pump, and the fluid is discharged to the outlet side by communicating the inlet and outlet sides. In an emergency such as stopping the pump or power failure, the rotating member 102 and the disk 101 are rotated by the weight of the weight 103 installed at the end of the rotating member 102 to close the inlet side and the outlet side. As a result, backflow is prevented.

The swing check valve having the above structure is limited in the pressure of the fluid pressurized by the pump so that the opening degree of the disc 101 is not 100%, and the disc 101 is closed when the disc 101 is closed. The impact on the seat may cause damage to the seat of the check valve and the disk 101 or to damage the bearing portion to hinge the disk 101.

In order to improve this problem, a check valve equipped with a hydraulic cylinder in a rotating member is illustrated in FIGS. 2 and 3.

As shown, by mounting the hydraulic cylinder 104 to the rotating member 102, the hydraulic cylinder 104 can maintain the opening degree of the disk 101 100%, the operation of the pump is stopped and the disk 101 Since the damping role is caused by the hydraulic pressure of the hydraulic cylinder 104 when the weight is closed by the weight of the weight, it is possible to prevent the valve seat portion from being damaged by the disk 101. 2 shows that the power pack 105 is installed separately from the hydraulic cylinder 104, Figure 3 shows that the power pack 105 is integrally installed with the hydraulic cylinder 104.

The check valve system using the hydraulic cylinder 104 requires a power pack 105 for pressurizing the fluid supplied to the hydraulic cylinder 104, and there is a problem in that leakage of hydraulic oil is generated to cause environmental pollution. .

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is to open and close the disc by the actuator operated by the pressure of the fluid supplied from the inlet side to maintain the opening degree 100% In addition, it can play a damping role by the pressure of the fluid when closing the opening and closing plate, and can prevent the shock and damage of the valve seat, and it does not need a separate power pack, so the structure is simple and leakage does not occur. It is to provide a check valve system that can reduce the

Check valve system of the present invention for achieving the above object is provided in the interior of the pipe opening and closing the opening and closing side to close and communicate with each other and hinged by the hinge shaft opening and closing plate; It is installed on the outside of the pipe, one end is coupled to the hinge shaft and connected to the opening and closing plate is interlocked with the opening and closing plate, the other end is the opening and closing plate rotation member provided with a center so that the opening and closing plate is closed by its own weight; Branch pipe branched to a predetermined portion on the inlet side; An opening / closing valve for electrically or mechanically controlling supply and blocking of fluid to the actuator on the branch pipe; A pressure sensor provided on the branch pipe to open and close the valve when the pressure exceeds a predetermined pressure; The piston and the piston rod coupled with the opening and closing plate rotating member to raise the opening and closing plate rotating member to communicate with each other the inlet side and the discharge side by the pressure of the fluid supplied from the branch pipe, the piston and the piston rod coupled to the opening and closing plate rotating member It is provided, and coupled to the branch pipe of the rear end of the on-off valve at a position lower than the piston to rotate the opening and closing plate rotating member by raising the piston by the pressure supplied from the branch pipe to communicate the inlet side and the discharge side with each other. Actuators with single-acting cylinders; A throttle valve installed on the third branch pipe and controlling the amount of fluid discharged from the third branch pipe to prevent the piston from rising; A check valve configured to supply the fluid supplied from the branch pipe only to the third branch pipe and provided in parallel with the throttle valve; A drain pipe branched from the branch pipe at the rear end of the on / off valve and provided with a solenoid valve for controlling supply and blocking of fluid; Characterized in that consists of.

In addition, the present invention is installed inside the pipe opening and closing the inlet and outlet side to be closed and communicate with each other and hinged by the hinge shaft opening and closing plate; It is installed on the outside of the pipe, one end is coupled to the hinge shaft and connected to the opening and closing plate is interlocked with the opening and closing plate, the other end is the opening and closing plate rotation member provided with a center so that the opening and closing plate is closed by its own weight; Branch pipe branched to a predetermined portion on the inlet side; An opening / closing valve for electrically or mechanically controlling supply and blocking of fluid to the actuator on the branch pipe; A pressure sensor provided on the branch pipe to open and close the valve when the pressure exceeds a predetermined pressure; The piston and the piston rod coupled with the opening and closing plate rotating member to raise the opening and closing plate rotating member to communicate with each other the inlet side and the discharge side by the pressure of the fluid supplied from the branch pipe, the piston and the piston rod coupled to the opening and closing plate rotating member And a second branch pipe and a third branch pipe which are provided at a position lower than the piston and higher than the piston and branched from the branch pipe at the rear end of the on-off valve, are respectively supplied to the second branch pipe and are provided at a lower portion of the piston. The opening and closing plate rotating member is rotated and drawn by raising the piston by the difference in the pressing force of the piston which is supplied to the acting area and the area difference acting on the upper part of the piston except the area of the piston rod supplied to the third branch pipe. An actuator made of a double-acting cylinder which communicates the side and the discharge side with each other; A throttle valve installed on the third branch pipe and controlling the amount of fluid discharged from the third branch pipe to prevent the piston from rising; A check valve for supplying the fluid supplied from the branch pipe only to the third branch pipe and provided in parallel with the throttle valve; A drain pipe branched from the branch pipe at the rear end of the on / off valve and provided with a solenoid valve for controlling supply and blocking of fluid; Characterized in that consists of.

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Hereinafter, the check valve system of the present invention will be described in detail with reference to the accompanying drawings.

4 is a schematic view showing a structure of a check valve system using a single acting cylinder as an example of the present invention, Figure 5 is a schematic view showing a structure of a check valve system using a double acting cylinder as an example of the present invention.

As shown, the check valve system according to the present invention is opened and closed to hinge and coupled to the inlet and outlet side to close and communicate with each other; An opening and closing plate rotating member 20 for rotating the opening and closing plate 10; Branch pipe 30 branched to a predetermined portion on the inlet side; And an actuator (40) for rotating the opening and closing plate rotating member (20) by the pressure of the fluid supplied from the branch pipe (30). Characterized in that consists of.

The opening and closing plate 10 is installed in the inside of the pipe (1), serves to open and close the inlet side and the discharge side so as to be in communication with each other and hinged by the hinge shaft (2) inside the pipe (1) It is. The opening and closing plate 10 is connected to the opening and closing plate rotating member 20 installed on the outside of the pipe and is rotated in conjunction with the opening and closing plate rotating member 20.

One end of the opening and closing plate pivot member 20 is connected to the opening and closing plate 10 so as to interlock with the opening and closing plate pivot member 20 and the other end of the pivot 21 to close the opening and closing plate 10 by its own weight. ) Is provided.

The branch pipe 30 is branched to a predetermined portion of the inlet side and serves to supply fluid to the actuator 40. On the branch pipe 30 is preferably provided with an on-off valve 31 for electrically or mechanically controlling the supply and blocking of fluid to the actuator 40. In addition, the pressure sensor 32 is further provided on the branch pipe 30 so that the on-off valve 31 is opened when a predetermined pressure or more is achieved. The on-off valve 31 used at this time may use an electronic on-off valve, such as an electrically controlled solenoid valve, or other various types of on-off valves controlled mechanically.

The actuator 40 is coupled to the opening and closing plate rotating member 20 to raise the opening and closing plate rotating member 20 by the pressure of the fluid supplied from the branch pipe 30 so that the inlet side and the discharge side communicate with each other. It plays a role. Thus, the present invention can maintain the opening degree 100% because the opening and closing of the opening and closing plate 10 is made by the actuator 40 operated by the pressure of the fluid supplied from the inlet side.

The actuator 40 may be a single-acting cylinder 50 or a double-acting cylinder 60, FIG. 4 shows a check valve system using a single-acting cylinder, and FIG. 5 shows a check valve system using a double-acting cylinder.

In the case of the single-acting cylinder 50, a piston 51 and a piston rod 52 coupled to the opening / closing plate rotating member 20 are provided, and the rear end of the opening / closing valve 31 is located at a lower position than the piston 51. Coupled with the branch pipe 30 by raising the piston 51 by the pressure supplied from the branch pipe 30 to rotate the opening and closing plate rotating member 20 to communicate the inlet side and discharge side with each other.

In addition, the double-acting cylinder 60 is provided with a piston 61 and a piston rod 62 coupled with the opening / closing plate rotating member 20 and a position lower than the piston 61 and higher than the piston 61. The second branch pipe 70 and the third branch pipe 80 branched from the branch pipe 30 at the rear end of the opening / closing valve 31 are respectively coupled to the position. At this time, when the fluid is supplied through the second branch pipe 70 and the third branch pipe 80, the area acting on the lower portion of the piston 61 and the third branch pipe 80 are supplied to the piston rod. The opening and closing plate rotating member 20 is lifted by raising the piston 61 by the difference in the pressing force acting on the piston 61 generated by the area difference acting on the upper portion of the piston 61 excluding the area of the 62. Rotated. Accordingly, the opening and closing plate 10 is rotated so that the inlet side and the outlet side of the pipe 1 communicate with each other.

In addition, in the case of the double-acting cylinder 60, the fluid supplied to the third branch pipe (80) flows into the upper portion of the piston 61 as the piston 61 rises on the third branch pipe (80). The throttle valve 81 serves to prevent the piston 61 from rising sharply when the opening / closing plate rotating member 20 is rotated by controlling the amount to be slowly discharged, and the fluid supplied from the branch pipe 30. The check valve 82 to be supplied only to the third branch pipe 80 is further provided in parallel.

By controlling the opening and closing amount of the throttle valve 81, the piston 61 is prevented from rising.

In addition, both the single-acting cylinder 50 and the double-acting cylinder 60 branch from the branch pipe 30 at the rear end of the opening / closing valve 31 and have a solenoid valve 91 having a solenoid valve 91 for controlling the supply and blocking of fluid. ) Is further provided. The drain pipe 90 in front of the solenoid valve 91 is preferably provided with a check valve 92 to prevent the fluid discharged to the drain pipe 90 to flow back.

After the fluid supplied from the branch pipe 30 operates the double-acting cylinder 60, in the event of an emergency such as a power failure, the opening / closing plate 10 may be caused by the weight of the weight 21 provided in the opening / closing plate rotating member 20. ) Is rotated downward to close the inlet and outlet sides, wherein the fluid in the lower position than the pistons (51, 61) through the drain pipe (90) as the piston (51, 61) descends It is discharged through 90. In this case, the pistons 51 and 61 are lowered while being damped by the fluid, thereby preventing shock and damage to the valve seat.

In addition, the fluid to be moved by the pipe of the present invention is to use the water, the check valve system of the present invention is also used because the water is used as a separate hydraulic cylinder as in the prior art is leaking oil is generated by the environment Although pollution occurs, the present invention does not generate any environmental pollution due to such leakage.

As described above, the present invention is limited to the single-acting cylinder 50 and the double-acting cylinder 60, but the present invention can be applied to all fields in which the actuator 40 for opening and closing the opening and closing plate 10 is used. Various modifications and variations can be made by those skilled in the art within the equivalent scope of the technical spirit of the present invention and the claims described below.

As described above, in the check valve system of the present invention, the opening and closing of the opening and closing plate is made by an actuator operated by the pressure of the fluid supplied from the inlet side, so that the opening degree can be maintained at 100%. By acting as a damping, it is possible to prevent the shock and damage of the valve seat, and the working fluid of the actuator uses water that is moved by the pipe, so that no leakage occurs, thereby reducing the environmental pollution caused by the leakage. .

Claims (8)

delete delete delete An opening and closing plate installed inside the pipe to open and close the inlet side and the outlet side so as to be closed and in communication with each other, and hinged by a hinge shaft; It is installed on the outside of the pipe, one end is coupled to the hinge shaft and connected to the opening and closing plate is interlocked with the opening and closing plate, the other end is the opening and closing plate rotation member provided with a center so that the opening and closing plate is closed by its own weight; Branch pipe branched to a predetermined portion on the inlet side; An opening / closing valve for electrically or mechanically controlling supply and blocking of fluid to the actuator on the branch pipe; A pressure sensor provided on the branch pipe to open and close the valve when the pressure exceeds a predetermined pressure; The piston and the piston rod coupled with the opening and closing plate rotating member to raise the opening and closing plate rotating member to communicate with each other the inlet side and the discharge side by the pressure of the fluid supplied from the branch pipe, the piston and the piston rod coupled to the opening and closing plate rotating member It is provided, and coupled to the branch pipe of the rear end of the on-off valve at a position lower than the piston to rotate the opening and closing plate rotating member by raising the piston by the pressure supplied from the branch pipe to communicate the inlet side and the discharge side with each other. Actuators with single-acting cylinders; A throttle valve installed on the third branch pipe and controlling the amount of fluid discharged from the third branch pipe to prevent the piston from rising; A check valve configured to supply the fluid supplied from the branch pipe only to the third branch pipe and provided in parallel with the throttle valve; A drain pipe branched from the branch pipe at the rear end of the on / off valve and provided with a solenoid valve for controlling supply and blocking of fluid; Check valve system, characterized in that consisting of. An opening and closing plate installed inside the pipe to open and close the inlet side and the outlet side so as to be closed and in communication with each other, and hinged by a hinge shaft; It is installed on the outside of the pipe, one end is coupled to the hinge shaft and connected to the opening and closing plate is interlocked with the opening and closing plate, the other end is the opening and closing plate rotation member provided with a center so that the opening and closing plate is closed by its own weight; Branch pipe branched to a predetermined portion on the inlet side; An opening / closing valve for electrically or mechanically controlling supply and blocking of fluid to the actuator on the branch pipe; A pressure sensor provided on the branch pipe to open and close the valve when the pressure exceeds a predetermined pressure; The piston and the piston rod coupled with the opening and closing plate rotating member to raise the opening and closing plate rotating member to communicate with each other the inlet side and the discharge side by the pressure of the fluid supplied from the branch pipe, the piston and the piston rod coupled to the opening and closing plate rotating member And a second branch pipe and a third branch pipe which are provided at a position lower than the piston and higher than the piston and branched from the branch pipe at the rear end of the on-off valve, are respectively supplied to the second branch pipe and are provided at a lower portion of the piston. The opening and closing plate rotating member is rotated and drawn by raising the piston by the difference in the pressing force of the piston which is supplied to the acting area and the area difference acting on the upper part of the piston except the area of the piston rod supplied to the third branch pipe. An actuator made of a double-acting cylinder which communicates the side and the discharge side with each other; A throttle valve installed on the third branch pipe and controlling the amount of fluid discharged from the third branch pipe to prevent the piston from rising; A check valve for supplying the fluid supplied from the branch pipe only to the third branch pipe and provided in parallel with the throttle valve; A drain pipe branched from the branch pipe at the rear end of the on / off valve and provided with a solenoid valve for controlling supply and blocking of fluid; Check valve system, characterized in that consisting of. delete delete delete

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