KR20160148409A - Pressure-release valve - Google Patents

Abstract

More particularly, the present invention relates to a safety valve, and more particularly, to a safety valve, in which, even if fluid is conveyed into the second pipe through the first check valve plate and then the transfer of the fluid is stopped, The pressure inside the second pipe can be automatically lowered, thereby minimizing the possibility of damage to the pipe.

Description

[0001] PRESSURE-RELEASE VALVE [0002]

The present invention relates to a valve which is applied to a pipe to which a fluid is transferred, and in particular, when excessive pressure is formed at one side of a valve during a fluid transfer process, a part of the fluid is guided in a direction opposite to the valve, Thereby preventing damage to the piping and the like.

Generally, the transfer of fluid such as hot water or oil is done through piping. A check valve is installed inside a specific point of the piping to control the flow of the fluid.

One example of a check valve is a plate-shaped diaphragm which is installed inside a pipe to block the inside diameter of the pipe. When the fluid flows in one direction, the diaphragm moves slightly through the gap in the direction of the fluid flow, .

In this process, when the feeding of the fluid is stopped due to the stoppage of the pump or the like, the diaphragm moves back to the opposite side, and the fluid is shut off as the gap is closed.

However, when the fluid is shut off during the movement of the fluid through the structure of the basic check valve to the inside of the opposite pipe, the pressure inside the pipe opposite to the diaphragm is basically raised.

At this time, when the outside temperature such as summer is high or the fluid temperature is basically high, the pressure inside the pipe rises above the reference value. In this case, the weak part of the pipe may be partially damaged by the internal pressure This is big.

Therefore, in this case, if the pressure inside the pipe is lowered, the possibility of breakage of the pipe is prevented. Conventionally, the check valve basically functions to prevent only the backward flow of the fluid, I do not have it at all.

Korean Patent Publication No. 2002-084551 Korean Patent Publication No. 10-017052

SUMMARY OF THE INVENTION The present invention is conceived to solve the problems described above, and it is an object of the present invention to provide an apparatus and a method for controlling the flow rate of a fluid, , And the pressure inside the pipe can be automatically lowered, thereby minimizing the possibility of breakage of the pipe.

In order to accomplish the above object, a safety valve according to the present invention includes: a first pipe having a first feed path formed therein and a second feed path for the fluid, the one end being connected to one end of the first pipe, And a second pipe which is located between the first pipe and the second pipe and which blocks the first pipe end of the first pipe and the fluid passes through the first pipe The first check valve plate and the second check valve plate are closed to prevent the flow of the fluid and to move to the opposite side to close the first transfer path end, A pressure member which is located between the first pipe and the first check valve plate and is pressed in the process of moving the first check valve plate toward the second conveyance path and exerts an elastic force in the opposite direction, Wherein the first check valve plate is provided with a first check valve plate and a second check valve plate, the first check valve plate facing the first check valve plate and facing the first check valve plate, And the second check valve plate moves toward the first transfer path by the pressure to open the through hole.

And the end of the first pipe and the end of the second pipe are positioned to face each other with an interval therebetween and are located in a gap between the first and second pipes and the first transfer path end and the second transfer path end are sealed Wherein the first check valve plate and the second check valve plate are located inside the case and are located in the case from the periphery of the first conveying path end of the first pipe toward the second conveying path Wherein the first check valve plate has a protruding protrusion and the first check valve plate has a first check valve plate and a second check valve plate, And can be spaced apart from the protrusion.

The second check valve plate includes an actuating plate for opening or closing a groove constituting the first check valve plate, a working rod fixed to one side of the actuating plate and fixed on the opposite side by a nut, And a buffer spring disposed between the operation plate and the second pipe.

According to the present invention, the second check valve is basically connected to the first check valve plate having the basic check valve function so that the through hole of the first check valve can be selectively opened, When the fluid pressure inside the second pipe is excessively increased in a state where the second check valve plate is being transferred to the inside of the second pipe and the fluid pressure difference between the inside of the second pipe and the inside of the first pipe, The fluid inside the second pipe flows into the first pipe through the through hole so that the pressure inside the second pipe automatically lowers and the possibility of breakage of the second pipe is reduced. There is an effect that can be minimized.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic cross-sectional view of a first check valve plate and a second check valve plate constituting a safety valve according to the present invention in a closed state; Fig.
FIG. 2 is a schematic cross-sectional view showing a state in which a first check valve plate constituting a safety valve according to the present invention moves and a first conveyance path is opened; FIG.
FIG. 3 is a schematic cross-sectional view showing a state in which the second check valve plate moves and the through-hole is opened as the pressure inside the second pipe is excessively increased in a state where the first check valve plate constituting the safety valve according to the present invention is closed.
4 is a schematic view showing a forming structure of an engaging member constituting a safety valve according to the present invention;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

The safety valve according to the present invention includes a first pipe 10, a second pipe 20, a case 100, a first check valve 200, and a second check valve 400.

The first pipe 10 is part of a piping structure for moving fluid, and is formed in a generally used pipe, that is, a structure in which a first transfer path 12 of fluid is formed inside and one end is opened.

At this time, a first flange 14 is formed at the edge of the end of the first pipe 10 so as to be coupled to the second pipe 20.

A ring-shaped contact protrusion 16 for blocking the fluid by the first check valve plate 200 is protruded from the end of the first transfer path 12.

For example, the material and the diameter of the first pipe 10 may be variously changed depending on the type of fluid, environment, purpose, and the like.

The second pipe 20 serves as a path through which the fluid that has passed through the first pipe 10 is conveyed. The second pipe 20 has the same general piping structure as the first pipe, and the second conveying path 22 is formed therein.

At this time, a second flange 24 is formed at an end edge of the second pipe 20 facing the end of the first pipe 10 so as to be fixedly coupled to the first flange 24 through bolts and nuts .

As the first flange 14 and the second flange 24 are positioned to face each other with mutual spacing, a gap is also formed between the first conveying path 12 and the second conveying path 22.

In this state, the safety valve according to the present invention is installed, and the safety valve controls the fluid to be transferred from the first pipe 10 to the second pipe 20 in one direction.

In other words, when the pressure inside the second pipe 20 is excessively increased, the fluid flowing into the second pipe 20 is prevented from flowing back into the first pipe 10, The fluid in the second pipe 20 is automatically moved toward the first pipe 10 to lower the internal pressure of the second pipe 20 to an appropriate level.

The safety valve further includes a case 100, a first check valve plate 200, a pressure member 300, and a second check valve plate 400.

The case 100 functions as a casing of the safety valve and is formed in a pipe shape that is opened in both directions in the whole, and a space for installing the first check valve plate 200 and the second check valve plate 400 is formed therein do.

One end of the case 100 is connected to the end face of the first pipe 10 and the other end of the case 100 is connected to the end of the second pipe 10 in a state where the case 100 is positioned in the gap between the first pipe 10 and the second pipe 20. [ Lt; / RTI >

The first conveyance passage 12 of the first pipe 10 and the second conveyance passage 22 of the second pipe 20 communicate with each other through the inner space of the case 100. [

The first check valve plate 200 serves to control the function of a basic check valve, that is, to transfer fluid from the first pipe 10 to the second pipe 20 in one direction, And is formed in a plate form.

The first check valve plate 200 is located inside the case 100 and faces the end of the first conveyance path 12 of the first pipe 10 so that the first conveyance path 12 Is in close contact with the end of the contact projection 16.

As a result, the end of the first conveyance path 12 is closed by the first check valve plate 200, and in this state, the fluid passes through the first conveyance path 12, The fluid is passed through the gap S formed between the close contact protrusion 16 and the first check valve plate 200 to be separated from the close contact protrusion 16 by the movement toward the second transfer path 22, And is conveyed to the conveying path 22.

The first check valve plate 200 installed in the pressure member 300 is moved toward the second conveyance path 22 by the fluid pressure so that the first check valve plate 200 is automatically moved in the opposite direction, .

The pressing member 300 is in the form of a coil spring as a whole and is located at a position between the surface of the first check valve plate 200 facing the second conveying path 22 and the second conveying path 22.

In this state, one end of the pressing member 300 is connected to the surface of the first check valve plate 200 facing the second conveying path 22, and the other end of the pressing member 300 is connected to the second conveying path 22) end edge.

The pressing member 300 is compressed in the process of moving the first check valve plate 200 toward the second conveying path 22 by the fluid that has passed through the first conveying path 12, The flow of the fluid passing through the first conveyance path 12 is interrupted and expanded by the self-elastic force as the elastic force is exerted toward the first check valve plate 12 so that the first check valve plate 200 is in contact with the contact protrusions 16 ) To guide the one side surface to come in close contact with the projections.

A through hole 210 is formed at the center of the first check valve plate 200 having the basic check valve function.

The second check valve plate 400 is connected to the first check valve plate 200 through the first transfer passage 12 and the second check valve plate 400 through the first check valve plate 200, So that the pressure inside the second pipe 20 can be lowered when the fluid pressure inside the second pipe 20 is excessively raised due to the external temperature or the fluid itself, .

The second check valve plate 400 includes an actuating plate 410 for opening or closing a groove 220 constituting the first check valve plate 200, And an opposite side thereof is a working rod 420 which is fixed to the second pipe 20 and fixed by a nut 430 and a buffer spring 440 which is disposed between the working plate 410 and the second pipe 20, And a guide rod 450 which is disposed on the operation plate 410 with an interval therebetween and one side is fixed to the operation plate 410 and the opposite side is supported on the inner surface of the groove 220.

At this time, the second check valve plate 400 is disposed in a direction toward the first transfer path 12.

That is, the second check valve plate 400 protrudes the actuating rod 420 in the direction of the second pipe 20 at the center of the actuating plate 410 formed in a plate shape, A buffer spring 440 is mounted between the two pipes 20 to support the actuating plate 410.

More specifically, the second check valve plate 400 includes an operation plate 410 disposed outside the through-hole 210 of the first check valve plate 200, an operation being disposed on the second pipe 20 Thereby blocking the through hole 210.

2, when the fluid passes through the first transfer path 12 and passes through the gap S between the first check valve plate 200 and the close contact protrusion 16, Is maintained.

When the pressure in the second pipe 20 rises excessively while the flow of the fluid passing through the first transfer path 12 is stopped due to the interruption of the pump or the like, And is separated from the through hole 210 as shown in FIG. 3 as it moves toward the first conveying path 12 due to the fluid pressure of the fluid passage.

At the same time, the fluid located in the second pipe 20 is allowed to flow back to the first transfer path 12 through a gap between the through hole 210 and the first check valve plate 200.

As described above, the safety valve of the present invention connects the second check valve plate to the first check valve plate having the basic check valve function so that the through holes of the first check valve can be selectively opened,

When the fluid pressure is excessively increased in the state that the fluid has passed through the first check valve plate and is transferred to the inside of the second pipe, due to the fluid pressure difference between the inside of the second pipe and the inside of the first pipe, 2 The check valve plate is automatically moved by the fluid pressure inside the second pipe and the through hole is opened so that the fluid in the second pipe flows into the first pipe through the through hole so that the pressure inside the second pipe is automatically So that the possibility of breakage of the second pipe can be minimized.

While the present invention has been described in connection with what is presently considered to be the preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It should be considered that the present invention falls within the scope of protection of the present invention.

10: first pipe 12: first feed path
14: first flange 16: projection
20: second pipe 22: second feed path
24: second flange 100: case
200: first check valve plate 210: through hole
300: pressure member 400: second check valve plate
500:

Claims (3)

A first pipe for forming a first fluid transfer path therein and a second pipe for fluid being formed in the inside thereof and a second pipe connected to one end of the first pipe and communicating with the first pipe, ,
The first pipe is located inside the first pipe and the second pipe and blocks the first pipe end of the first pipe and moves toward the second pipe during the passage of the fluid through the first pipe, A first check valve plate for stopping the flow of the fluid and moving to the opposite side to close the first conveying path end and forming a through hole at the center,
A pressing member which is located between the first pipe and the first check valve plate and which is pressed in the process of moving the first check valve plate toward the second conveyance path and exerts an elastic force in the opposite direction,
Wherein the first check valve plate is disposed on the side of the first check valve plate facing the first conveyance passage, and the fluid passage is closed when the fluid passes through the first check valve plate, And a second check valve plate that moves toward the first transfer path by the pressure when the fluid pressure is higher than the fluid pressure inside the second check valve plate to open the through hole.
The method according to claim 1,
The end portion of the first pipe and the end portion of the second pipe are positioned to face each other with an interval therebetween,
Further comprising a case located in a gap between the first and second pipes and sealing the first transfer path end and the second transfer path end,
Wherein the first check valve plate and the second check valve plate further include protrusions which are located inside the case and protrude from the periphery of the first transfer path end of the first pipe toward the second transfer path,
The first check valve plate is spaced apart from the protrusion as the fluid is moved toward the second transfer path by the pressure of the fluid in the process of passing the fluid through the first transfer path in a state where one side is in close contact with the end of the protrusion Safety valve.
2. The apparatus of claim 1, wherein the second check valve plate
An actuation plate for opening or closing a recess constituting the first check valve plate,
A working rod fixed to one side of the working plate and the other side projecting to the second pipe and being fixed by a nut,
And a buffer spring disposed between the operation plate and the second pipe.

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