KR19980016910A - Check valve with bidirectional - Google Patents

Abstract

The present invention relates to a shank valve, and in particular, it is possible to reduce the number of parts, by eliminating the use of two check valves to have a two-way bidirectional by allowing pressure or fluid to flow even in any of the two directions. The present invention relates to a check valve having a bidirectional direction to reduce the work process due to, and to reduce the cost due to the integration of the supply line. And a body having an inclined surface 22 formed on the other side, and a locking jaw 31 formed at one side up and down to correspond to the locking jaw 21 and installed with a spring 50 to flow therein. The through hole 32 is formed, and the other side is formed as a spherical surface 33 to correspond to the inclined surface 22 and to form an insertion groove 34 inward, the spring 51 on the upper left and lower left of the rod member 40 To Contact constitutes a combination of the rod members 40 by inserting the insertion groove 34, the load member 40, the film member 30 is configured to prevent the through hole 32. The

Description

Check valve with bidirectional

The present invention relates to a shank valve, and in particular, to prevent the use of two check valves in order to have a two-way bidirectional by allowing pressure or fluid to flow even if the force acts in any of the two directions, reducing the number of parts The present invention relates to a check valve having a bidirectional direction, which can reduce the work process and reduce the cost due to the integration of a supply line.

In general, almost all of the mechanical products currently produced and in use are formed with pneumatic or hydraulic lines to operate according to their characteristics, and a certain pressure flows to one side to return to the state before the operation. As shown in FIG. 1, the shank valve 1 is composed of a body 11 and a membrane member 12, and the body 11 is disposed inside the shank valve. A pressure supply path 13 and a discharge path 14 are formed, a locking projection 15 is formed on the supply path 13 side, an inclined surface 16 is formed on the discharge path 14 side, and the bowl 12 is formed on the one side to the locking step 17 to correspond to the locking step 15 of the supply path 13, the spring 18 is installed therebetween, the other side is formed as a spherical surface 19 To correspond to the inclined surface 16 of the discharge path 14, When the sieve is supplied, pressure or fluid moves to the discharge passage 14 and pushes the spherical surface 19 of the bowl 12, so that the membrane member 12 is released from the inclined surface 16 of the discharge passage 14, so that the pressure or fluid Is supplied to the mechanical device through the supply path 13, and when the work is returned to the membrane member 12 by the elastic force of the spring 18 when the pressure or fluid flowing into the outlet 14 is cut off By pushing the membrane member 12 is in close contact with the inclined surface 16, the operation will be stopped.

However, the conventional check valve 10 as described above has only one direction in which pressure or fluid can flow, so a line for working requires a double structure, and the work process for installing the line is complicated. There was a problem.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object thereof is to allow a single check valve to flow pressure or a fluid in both directions so that the line can be unified.

In order to achieve the above object, the present invention installs two springs having different spring coefficients inside the check valve, and installs a rod inside the bowl to move the rod within the membrane member according to the direction of pressure and fluid. It is characterized in that it is configured to allow fluid to pass through.

1 is a cross-sectional view showing a conventional structure.

2 is a cross-sectional view showing a structure of the present invention.

3 is a view showing an operating state of the present invention,

A) is from the left when the force is acting,

B) is when the force is acting from the right side.

Explanation of symbols on the main parts of the drawings

1, 10; Check valves 11 and 20; Body

12, 30; Membrane member 13; Supply path

14; Outlet 15, 17, 21, 31; Jam

16, 22; Inclined planes 18, 50, 51; spring

19, 33; Spherical 32; Through

34; Insertion groove 40; Rod member

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

As shown in Figures 2 to 3, the body 20 and the inner side of the body 20 to form a passage on both sides of the inside and the locking jaw 21 on one side and the inclined surface 22 on the other side, Installed in the membrane member 30 to open the passage so that the gas and fluid flow to one side at a predetermined pressure, and installed inside the membrane member 30, when the negative pressure in the reverse direction flows the flow of gas and fluid in the reverse direction It consists of a rod member 40 to open the passage so that.

The membrane member 30 forms a locking jaw 21 at the top and bottom to correspond to the locking jaw 21 of the body 20, and a spring 50 is installed at the locking jaw 21 to allow gas and fluid to flow. When not flowing or when negative pressure is applied in the opposite direction, the passage in the forward direction can be closed, and the through hole 32 is formed in the center of the membrane member 30, and the other side is formed in a spherical surface to form an inclined surface ( 22) and insert grooves 34 are formed inward.

The rod member 40 is inserted into the insertion groove 34 of the membrane member 30 by welding the spring 51 on the upper left and lower sides, when the gas and fluid does not flow or when the pressure flows in the forward direction ( 40 to block the through hole 32 and when the negative pressure occurs in the reverse direction, the rod member 40 is moved to open the through hole 32 while compressing the spring 51.

Looking at the operation and effect of the present invention configured as described above are as follows.

When the negative pressure is applied from the left side of the check valve 10, since the spherical surface 33 of the membrane member 30 is in close contact with the inclined surface 22, the pressure or fluid is pushed into the through hole 32 on the other side and the rod member 40 is pressed. To open the through hole 32 to induce pressure or flow of the fluid, and when the negative pressure is released, the rod member 40 always blocks the through hole 32 by the spring 51, on the contrary, When caught, the membrane member 30 moves to the left while pushing the spring 50 coupled to the left side, so that the inclined surface 22 and the spherical surface 33 fall, thereby inducing pressure or flow of the fluid to the left side, and negative pressure. When this is released, the membrane member 30 will always block the inclined surface 22 by the spring 50.

As described above, the present invention is to increase the function of the check valve to make the direction of the flow of pressure or fluid in both directions, thereby eliminating the use of two check valve in the conventional bidirectional, It is to reduce the work process due to the reduction of the cost and to reduce the cost due to the integration of the supply line.

Claims (3)

A body having passages formed on both sides of the inner side and a locking jaw formed on one side thereof, and an inclined surface formed on the other side thereof, and a membrane member installed inside the body to open the passage so that gas and fluid flow to one side at a predetermined pressure, and the membrane A check valve having a bidirectional bidirectional valve, characterized in that the rod member is installed inside the member and configured to open a passage so that a flow of gas and fluid flows in a reverse direction when negative pressure occurs in a reverse direction. According to claim 1, wherein the membrane member is formed in the upper and lower locking jaw to correspond to the locking jaw of the body, the spring is installed in the locking jaw when the gas and fluid does not flow or when the negative pressure of the reverse direction is taken forward Check valve to form a through-hole in the center of the membrane member, the other side is formed into a spherical surface so as to correspond to the inclined surface of the body, and formed by forming an insertion groove inward. The method of claim 1, wherein the rod member is inserted into the insertion groove of the membrane member by welding the spring on the upper left and lower, so that the rod member blocks the through hole when the gas and fluid does not flow or when the pressure flows in the forward direction The check valve having a bidirectional bidirectional valve characterized in that when the negative pressure occurs in the reverse direction, the rod member moves while opening the through hole while compressing the spring.