KR100195414B1 - Multi stage check valve - Google Patents

Abstract

The present invention relates to a check valve that opens and closes a conduit so that fluid flows in one direction, and in particular, by opening two valve plates formed at the front and rear sides by hydraulic pressure at the same time, the shock is alleviated when the valve is opened, and the life of the valve is extended. To a multistage check valve as possible.

The present invention is the first valve plate 52 which is opened and closed by the hydraulic pressure is located at the inlet of the enlarged conduit (50a), the valve rod 54 installed long behind the first valve plate 52 and the valve Membrane plate 56 positioned in the middle of rod 54 to block the enlarged conduit 50a and having a plurality of holes 56a through which the fluid passes, and the first valve plate 52 and the membrane plate 56. A return spring 58 positioned between the first valve plate 52 and the valve rod 54 and moved simultaneously with the first valve plate 52 to move the first valve plate 52 back to the hole 56a of the membrane plate. It characterized in that the configuration consisting of a second valve plate (60) for opening and closing.

Description

Multistage Check Valve

The present invention relates to a check valve that opens and closes a conduit so that fluid flows in one direction, and in particular, by opening two valve plates formed at the front and rear sides by hydraulic pressure at the same time, the shock is alleviated when the valve is opened, and the life of the valve is extended. To a multistage check valve as possible.

As shown in FIG. 1, a conventional check valve includes a valve plate 12 opened by a hydraulic pressure installed inside a conduit 1 through which a fluid passes and an enlarged conduit 2 having an enlarged inner diameter, and the valve. The valve rod 14 installed at the rear of the plate 12 to support the valve plate 12 and guide the movement thereof, and the hydraulic pressure installed at the rear of the valve plate 12 to act on the valve plate 12 have a constant pressure. It consists of the return spring 16 which pushes in a closing direction when it is below.

In the conventional check valve configured as described above, when a force of a fluid of a predetermined pressure or more acts on the valve plate 12 blocking the conduit 1, the fluid pushes the valve plate 12. At this time, the valve plate 12 and the valve rod 14 are pushed backward while the return spring 16, which is pushing the valve plate 12 in the closing direction, is compressed, so that the valve plate 12 is enlarged. When positioned above the fluid passes through the gap between the valve plate 12 and the enlarged conduit 2.

When a fluid pressure below a predetermined pressure acts on the valve plate 12 opened as described above, the valve plate 12 is pushed by the elasticity of the return spring 16 to close the conduit 1.

However, in the conventional check valve constructed and operated as described above, since the valve plate 12 is formed in a plate shape, a constant shock and When noise is generated and used for a long time, durability may be weakened due to the impact, thereby causing a problem in that the valve is damaged.

The present invention has been made to solve the above problems, by installing two valves on the fluid flow path to open at the same time to minimize the resistance generated when opening the valve to reduce the impact of the valve and at the same time the flow of fluid To provide a multi-stage check valve that facilitates

1 is a cross-sectional view showing the internal configuration of a conventional check valve,

2 is an internal configuration diagram showing a multi-stage check valve according to the present invention,

2A is a view showing a state before opening;

Figure 2b is a view showing an open state,

3 is a front view showing a membrane plate according to the present invention;

Figure 4 is a front view showing a second valve plate according to the present invention.

Explanation of symbols for the main parts of the drawings

50: pipeline 50a: enlarged pipeline

52: first valve plate 54: valve rod

56: membrane plate 56a: hole

58: return spring 60: second valve plate

62: connecting portion 64: opening and closing

The multi-stage check valve of the present invention for realizing the above object is a check valve which is installed in an enlarged conduit and opens and closes so that fluid flows in only one direction, wherein the check valve is located at the inlet of the enlarged conduit and acts as a hydraulic pressure. A membrane plate formed with a first valve plate opened and closed by the first valve plate, a valve rod elongated behind the first valve plate, and a plurality of holes positioned in the middle of the valve rod to block the enlarged conduit and through which the fluid passes. A return spring positioned between the valve plate and the diaphragm plate to return the first valve plate to its original position, and a second valve plate fixed to the valve rod and moved simultaneously with the first valve plate to open and close the hole of the diaphragm plate. Characterized in that configured.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

The multi-stage check valve according to the present invention includes a first valve plate 52 which is opened and closed by hydraulic pressure which is located at an inlet of the expansion conduit 50a and is actuated as shown in FIGS. 52) a membrane plate 56 having a valve rod 54 installed at the rear, a membrane plate 56 having a plurality of holes 56a formed in the middle of the valve rod 54 to block the enlarged conduit 50a and through which the fluid passes; And a return spring 58 positioned between the first valve plate 52 and the diaphragm plate 56 to return the first valve plate 52 to the original position, and fixed to the valve rod 54 and the first valve. It is comprised by the 2nd valve board 60 which moves simultaneously with the board 52, and opens and closes the hole 56a of the said membrane board.

Here, as shown in FIG. 4, the second valve plate 60 has a connecting portion 62 protruded from the valve rod 54 in the direction of the hole 56a of the diaphragm and the connecting portion 62. It is composed of an opening and closing 64 provided at the end to open and close the hole 56a of the membrane plate.

In addition, the second valve plate 60 is preferably arranged to be radially arranged in the valve rod 54 so as to minimize the flow resistance of the fluid.

Referring to the operation of the multi-stage check valve of the present invention configured as described above are as follows.

When the pressure of the fluid acting on the first valve plate 52 of the present invention is greater than or equal to a predetermined pressure, the first valve plate 52 is pushed back by the fluid. At this time, the second valve plate 60 connected to the first valve plate 52 and the valve rod 54 also retreats to open the hole of the membrane plate 56. In addition, the return spring 58 between the first valve plate 52 and the membrane plate 56 is in a state in which the fluid is compressed by a force acting on the first valve plate 52. This state is as shown in Fig. 2b.

In particular, the opening and closing port 64 blocking the hole 56a of the membrane plate in the second valve plate 60 is retracted along the valve rod 54 to open the hole 56a.

As described above, the flow of fluid in the state in which the first valve plate 52 and the second valve plate 60 are opened passes through the gap between the first valve plate 52 and the enlarged conduit 50a. It flows through 56a. Here, the diaphragm 56 is installed at the rear of the first valve plate 52 so that the fluid passing through the first valve plate 52 fills the space before the diaphragm plate 56. Through 56a).

Therefore, the resistance due to the negative pressure of the fluid passing through the first valve plate 52 is minimized. In addition, the hole 56a of the membrane plate may be formed to have a size that minimizes friction loss of the fluid.

On the other hand, when the flow of the fluid acting on the first valve plate 52 is below a predetermined pressure to advance the first valve plate 52 by the elasticity of the return spring 58 to close the conduit 50 At the same time, the valve rod 54 and the second valve plate 60 are also advanced to close the holes of the membrane plate 56. Thus, the flow of fluid on the conduit 50 is stopped.

The multi-stage check valve according to the present invention constructed and acting as described above is provided with two valve plates 52 and 60 simultaneously opened at the front and rear sides, thereby reducing the resistance of the fluid generated when the valve is opened and closed. There is an advantage that the impact and noise in the interior is reduced and the durability is improved and the fluid flow is more smooth.

Claims (3)

In the check valve installed in the enlarged conduit to open and close the fluid flow in only one direction, The check valve is positioned so as to block the enlarged conduit in the middle of the valve rod, a first valve plate which is opened and closed by the hydraulic pressure acting at the inlet of the enlarged conduit, the valve rod is installed long behind the first valve plate, A membrane plate having a plurality of holes through which the fluid passes, a return spring positioned between the first valve plate and the membrane plate to return the first valve plate, and fixed to the valve rod and simultaneously moving with the first valve plate And a second valve plate configured to open and close the hole of the membrane plate. The method of claim 1, The second valve plate is a multi-stage check valve comprising a connecting portion protruding bent in the direction of the hole of the diaphragm plate from the valve rod, and the opening and closing opening is provided at the end of the connecting portion for opening and closing the hole of the diaphragm plate. The method according to claim 1 or 2, The second valve plate is a multi-stage check valve, characterized in that arranged radially from the valve rod to minimize the flow resistance of the fluid.