KR100822635B1 - Auto flashback arrestor - Google Patents

Abstract

An automatic flashback arrestor is provided to prevent gas from being blown back by an explosion pressure in the flashback and disperse a flashback flame effectively. An automatic flashback arrestor includes: a flashback arrestor body(100) having an inlet(500) formed on an upper part, an outlet(550) formed on a lower part, and flanges(200) respectively formed on the upper and lower parts; a sliding valve(300) installed in the inlet, and controlling inflow of the gas in the flashback arrestor body while moving to the outlet in inflow of the gas and moving to the inlet in the flashback; an inlet nipple(360) formed between the sliding valve and the inner periphery of the flashback arrestor body in a hollow pipe shape; and a discharge hole(400) having a safety socket(420) and a safety screen(440).

Description

Automatic Flashback Arrestor {AUTO FLASHBACK ARRESTOR}

The present invention relates to a flashback arrestor installed in a gas pipe to control a backflow gas due to flashback and explosion pressure during an oxygen cutting operation.

In the related art, in a gas stove or an oxygen cutting machine that uses gas as a fuel, the pressure of the gas caused by the fire is temporarily retracted at the time of ignition or in use, so that a backfire may be caused to flow back into the gas container.

Therefore, in the shipyard, various constructions and plant sites, a backfire prevention device is installed on the pipe from the tank supplying gas to the oxygen cutter in order to prevent sudden accidents caused by backfire during the cutting work. It is universal.

Looking at the configuration of such a conventional flashback arrestor, a large cylindrical body, a flange connected to the upper and lower parts of the main body, a check valve installed on the inner side of the main body and the porous network for dispersing flame-retardant elements and sparks and installed on the side It consists of a pressure valve to release the pressure.

However, as described above, in the prior art, the porous network was disposed from the upper side to the middle of the cylindrical tube, and the check valve was installed at the lower side. However, due to the incomplete point of structure, it did not emit the backflow gas due to the explosion pressure during flashback or disperse the flame. There was a problem that can not effectively control the backfire phenomenon.

In order to solve the above problems, an object of the present invention is to provide a flashback arrestor which blocks the backflow of gas due to the explosion pressure during flashing and effectively disperses the backfire.

In order to achieve the above object, the present invention provides a flashback arrestor body consisting of an inlet formed in the upper portion, an outlet formed in the lower portion and a flange formed in the upper portion and the lower portion; A sliding valve which is provided inside the inlet, and moves toward the outlet when the gas is inflowed and moves toward the inlet when the gas is backfired to control the inflow of gas into the inside of the flame arrestor body; And an outlet formed through one side of the flashback arrestor body and emitting a backflow gas due to the explosion pressure during flashback.

In another aspect, the present invention is characterized in that it further comprises an inlet nipple formed between the sliding valve and the inner peripheral surface of the flashback arrestor body.

In addition, the sliding valve of the present invention is a sliding valve body; A sliding guide protruding from an outer circumferential surface of the sliding valve body and sliding an inner circumferential surface of the flashback arrestor body; An O-ring coupling groove formed on an outer circumferential surface of the sliding valve body; And an O-ring fitted into the O-ring coupling groove.

In addition, the discharge port of the present invention, the safety socket is formed through the outer peripheral surface of the flashback arrestor body; It characterized in that it comprises a safety film formed on the inner peripheral surface of the safety socket.

In addition, the safety socket of the present invention is characterized in that it comprises a first conduit formed through the flashback arrestor body, and a second conduit having a larger diameter at the end of the first conduit.

The present invention also provides a discharge nipple provided on the inner circumferential surface of the safety socket in which the second conduit is formed; And a gasket provided between the second conduit and the discharge nipple.

In another aspect, the present invention is a spring support tube provided on the inner circumferential surface of the lower back of the flashback body; And a spring having one end connected to the lower end of the sliding valve and the other end connected to the spring support tube.

In addition, the present invention is provided at the lower end of the spring support pipe, the porous network is installed to disperse the flame when backfire; And it is provided on the upper and lower ends of the porous network, characterized in that it further comprises a porous network fixture for fixing the porous network.

In another aspect, the present invention is coupled to the flange of the lower body of the automatic flashback arrestor, characterized in that further comprises a discharge distributor formed with a discharge port on the outer peripheral surface.

The effect which arises by implementation to the said structure is as follows.

With the implementation of the present invention, it is possible to effectively discharge the backflow gas due to the explosion pressure to the outside at the time of the automatic inflow and backflow of gas without a separate power source, and can effectively control the backfire phenomenon by dispersing the backfire.

Hereinafter, a preferred embodiment of the present invention of the accompanying drawings will be described in detail. Gas used in the practice of the present invention can be selected and used in various ways, such as acetylene, ethylene, LPG, hydrogen, which are widely used in the field of work in general, detailed description thereof will be omitted.

1 and 2 is a view showing a preferred embodiment of the present invention. The automatic flashback arrestor of the present invention is characterized in that it comprises a flashback arrestor body, a sliding valve for controlling the inflow of gas while sliding in the flashback arrestor body and a discharge port for discharging the backflow gas due to the explosion pressure during flashback. .

The flashback arrestor body 100 is formed with an inlet 500 and an outlet 550 of a gas inside the flashback arrestor body 100 as shown in FIGS. 1 and 2.

That is, the inlet 500 is disposed on the upper portion of the flashback arrestor body 100 and the outlet 550 is configured to be disposed on the lower portion of the flashback arrestor body 100. This configuration allows the gas to be introduced more easily by using the properties of gas that is heavier than air. By using this property, it can be expected to function to prevent the backflow of gas to some extent.

And the flange 200 is formed in the upper and lower portions of the flashback arrestor body 100, as shown in Figure 1 and 2 attached to the configuration to enable the coupling with other pipes or machines.

The sliding valve 300 is formed in the inlet 500, the gas is moved toward the outlet 550 when the inflow of the inlet is configured to move toward the inlet 500 when backfired.

That is, it is provided inside the inlet side of the flashback arrestor body 100 to control the inflow of gas, and during flashback, to close the gas inlet by the explosion pressure due to flashback to prevent the backfire. It is composed.

At this time, the configuration of the sliding valve 300 is preferably, as shown in Figure 2, the sliding valve body 310; A sliding guide 320 protruding in an annular shape to an outer circumferential surface of the sliding valve body 310 and sliding an inner circumferential surface of the flashback arrestor body; O-ring coupling groove 330 formed in the lower portion of the sliding valve body 310; The O-ring coupling groove 330 may be configured to include an O-ring 340.

The sliding guide 320 is formed to protrude in an annular shape on the outer circumferential surface of the sliding valve body 310, in the practice of the present invention by forming at least one or more sliding guide 320, the sliding valve 300 is backfired It serves to effectively slide up and down the inner circumferential surface of the protector body (100).

Step 350 of the present invention is formed on the lower end of the sliding valve body 310 is formed with a size of a diameter larger than the inner peripheral surface of the inlet nipple 360 on the inlet side. That is, the step 350 is fitted to the inner peripheral surface side of the inlet nipple 360 on the inlet 500 side to block the inflow of gas and to block the back flow of the gas at the time of backfire.

In this case, the O-ring 340 made of a rubber material may be coupled to the O-ring coupling groove 330 to effectively control the inflow and outflow of the gas.

As shown in FIG. 2, the inflow nipple 360 may be provided in a cylindrical shape provided between the sliding valve 300 and the flashback arrestor body 100.

At this time, the inner circumferential surface of the inflow nipple 360 is preferably performed by smoothing (smooth) the roughness of the surface (surface roughness, surface) so that the sliding guide 320 can easily slide.

As shown in FIG. 2, the gas inside the flashback arrestor body 100 leaks out of the inlet port 500 by inserting an O-ring 365 made of rubber material between the inflow nipple 360 and the inner circumferential surface of the flashback arrestor body 100. It is desirable to prevent the exit.

That is, as shown in FIG. 4, backflow occurs from the outlet 550 side to the inside of the flashback arrestor body 100 due to the explosion pressure at the time of flashback, and the sliding valve 300 is pushed toward the inlet 500 by the explosion pressure. Going up In addition, the lower end of the sliding valve 300 in which the O-ring 340 is formed is caught by the inner circumferential surface of the inflow nipple 360, and the sliding valve 300 is no longer caused by friction between the O-ring 340 and the inflow nipple 360. ) Will not be pushed toward the inlet 500 to prevent backflow of the gas.

The discharge port 400 is a safety socket 420 formed through the outer peripheral surface of the flashback arrestor body 100 as shown in Figure 2; It comprises a safety film 440 formed on the inner peripheral surface of the safety socket 420.

At this time, the discharge port 400 serves to discharge the gas flowing back by the explosion pressure generated during the flashback from the inside of the flashback arrestor body 100 to the outside, the safety socket 420 is the flashback arrestor body It is formed through the outer circumferential surface of the (100) to enable the discharge of the gas flowing back.

The safety layer 440 is preferably composed of a structure that can be crushed by the explosion pressure at the time of flashback, the material and thickness can be freely determined according to the implementation conditions, in the present embodiment is about 3mm of aluminum (Al) material It is preferable to comprise in thickness.

When the gas is introduced into the flashback arrestor body 100, the pressure applied to the safety barrier 440 is not high, so the safety barrier 440 is not crushed. Since the pressure is higher than the safety film 440 is crushed to the gas flow back is discharged to the outside of the flashback arrestor body (100). At this time, the pressure at the gas inlet and the explosion pressure at the backflow may be determined differently according to the implementation conditions.

And the safety socket 420 has a larger diameter at the end of the first conduit 422, and the first conduit 422 formed through the flashback arrestor body 100, as shown in FIG. It can be implemented including a second conduit 424 having. In addition, the present invention may further include a discharge nipple 460 provided on the inner circumferential surface of the safety socket 420 in which the second conduit 424 is formed.

In addition, the present invention may further include a gasket 480 provided between the second conduit 424 and the discharge nipple 460.

The gasket 480 is inserted to prevent the gas from leaking from the contact surface between the second conduit 424 and the discharge nipple 460. The gasket 480 is made of rubber, rubber coated cloth, and asbestos. Depending on the implementation conditions, such as copper, it should be carried out using a variety of materials.

At this time, the external form of the discharge nipple 460 is preferably configured to be implemented in a structure that can be connected to other pipes. By connecting to other pipes in this way, it is possible to prevent accidents caused by the gas flowing back during the flashback.

And in the practice of the present invention, the spring support tube 600 provided on the inner peripheral surface of the lower flame arrester body 100; And a spring 700 having one end connected to a spring fixing end 370 formed at a lower end of the sliding valve 300 and the other end connected to the spring support tube 600.

As shown in FIG. 2, the spring support tube 600 is provided inside the flashback arrestor body 100 and has a cylindrical shape. The other end of the spring 700 is provided on the outer circumferential surface of the spring support tube 600. It was configured to be connected. The spring fixing end 370 is formed at the lower end of the sliding valve body 310 so that one end of the spring 700 can be stably fixed. In some embodiments, a groove may be formed on the outer circumferential surface of the spring fixing end 370 to fix one end of the spring 700.

And as shown in Figure 2 attached for the stable operation of the spring 700, the inner circumferential surface of the flame arrester body 100 in contact with the other end side of the spring 700 has a shape corresponding to the shape of the spring 700 and By forming a spring coupling groove 720, the spring 700 may be configured to fit into the spring coupling groove 720. However, in order to take this configuration, it is necessary to consider the shape and elastic modulus of the spring.

When the gas is introduced by such a configuration, as shown in FIG. 3, the sliding valve 300 moves downward to the inside of the flashback arrestor body 100 so that the spring 700 contracts, so that the gas flows through the inlet 500. The gas is introduced into the flashback arrestor body 100 and the gas introduced into the flashback arrestor body 100 is transferred to the outlet port 550 while the gas is delivered to the worker.

 And during backfire, the sliding valve 300 is moved to the upper portion of the backstop prevention body 100 by the explosion pressure caused by backfire as shown in FIG. 4, and the backstop prevention body on the inlet 500 side is formed by the step 350. The back flow of gas is blocked while blocking the inner circumferential surface of the 100, and the back flow gas due to the explosion pressure moves to the discharge port 400, and when the pressure exceeds a predetermined pressure, the safety layer 440 is crushed to discharge the discharge port 400. The gas is released through).

And in the practice of the present invention can be carried out by installing a porous net 800 taking a mesh form at the lower end of the spring support tube 600 in order to disperse the backfire flame generated during flashback. That is, as shown in Figure 2, by installing the perforated mesh 800 taking the form of a wire mesh around the inner circumference of the flame arrestor body 100 at the bottom of the spring support tube 600 can effectively disperse the backfire flame during backfire It is. At this time, the material of the porous network is stainless steel containing nickel (Ni), it is preferable to use SSUS 304 (SUS304) having excellent corrosion resistance, low temperature strength and excellent mechanical properties than chromium (Cr) -based. SSUS304 (SUS304) is characterized by high machinability but is not strengthened by heat treatment and has no magnetic properties.

And for fixing the porous network 800, it is provided at the top and bottom of the porous network 800, it may be carried out further comprising a porous network fixture 900 for fixing the porous network.

That is, the porous network fixture 900 serves to fix the upper and lower ends of the porous network 800, as shown in Figure 2 to ensure that the fixing of the porous network 800 is stable. At this time, the form of the porous network fixture 800 is provided in an annular ring shape to be configured to tighten by fixing the porous network 800.

And in the implementation of the present invention, as shown in Figure 5, coupled to the flange 200 of the lower back of the flashback arrestor body 100, and further comprising a discharge distributor 120 having a discharge port 140 formed on the outer peripheral surface Can be.

That is, depending on the implementation condition, the gas may be discharged directly through the discharge port 550, but as shown in FIG. 5, an discharge distributor having a shape of an empty cylinder and having a plurality of discharge ports 140 formed on an outer circumferential surface thereof ( By using 120) it is possible to work simultaneously using several oxygen cutters.

1 is a perspective view of a preferred embodiment of the present invention.

2 is a cross-sectional view of a preferred embodiment of the present invention.

Figure 3 is a cross-sectional view showing the operation when the gas inflow in accordance with a preferred embodiment of the present invention.

Figure 4 is a cross-sectional view showing the operation at the time of flashback according to an embodiment of the present invention.

5 is a perspective view of another preferred embodiment of the present invention.

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

10; Automatic Flashback Arrestor

100; Flashback arrestor body 120; Distributor Distributor

140; Outlet

200; flange

300; Sliding valve 310; Sliding valve body

320; Sliding guide 330; O-ring Coupling Groove

340; O-ring 350; Step

360; Inflow nipple 365; O-ring

370; Spring fixed end

400; Outlet

420; Safety socket 422; First line

424; 2nd pipeline

440; Safety shield 460; Discharge nipple

480; Gasket

500; Inlet 550; outlet

600; Spring support pipe

700; Spring 720; Spring coupling groove

800; Porous network

900; Perforated Netting Fixture

Claims (10)

A flashback arrestor body comprising an inlet formed at an upper portion, an outlet formed at a lower portion thereof, and a flange formed at an upper portion and a lower portion thereof; A sliding valve which is provided inside the inlet, and moves toward the outlet when the gas is inflowed and moves toward the inlet when the gas is backfired to control the inflow of gas into the inside of the flame arrestor body; An inlet nipple formed in an empty tube shape between the sliding valve and an inner circumferential surface of the flashback arrestor body; And And a discharge port comprising a safety socket formed through one side of the flashback arrestor body and a safety film formed on an inner circumferential surface of the safety socket. delete The method of claim 1, The sliding valve, Sliding valve body; A sliding guide provided on an outer circumferential surface of the sliding valve body and slidingly moving an inner circumferential surface of the flashback arrestor body; Is formed on the lower end of the sliding valve body, automatic flashback arrestor, characterized in that it comprises a step for controlling the inflow of gas into the flashback arrestor body. The method of claim 3, wherein And an O-ring coupling groove formed on an outer circumferential surface of the sliding valve body on the upper end side of the step, the O-ring engaging. delete The method according to claim 1 or 3, The safety socket, A first conduit formed through the flashback arrestor body; And Automatic flashback prevention device comprising a second conduit formed in a larger diameter than the first conduit at the end of the first conduit. The method of claim 6, A discharge nipple provided on an inner circumferential surface of the safety socket in which the second pipe is formed; And And a gasket provided between the second conduit and the discharge nipple. The method according to claim 1 or 3, A spring support tube provided on an inner circumferential surface of the lower flame arrester body; And One end is connected to the spring fixed end formed on the lower end of the sliding valve, the other end is connected to the spring support tube, the automatic flashback prevention device, characterized in that further comprises. The method of claim 8, A porous network provided at a lower end of the spring support tube and installed to disperse the flame upon backfire; And It is provided on the top and bottom of the porous network, the automatic flashback prevention device further comprises a porous network fixture for fixing the porous network. The method according to claim 1 or 3, Coupled to the flange of the lower body of the automatic flashback arrestor, Automatic flashback arrester, characterized in that further comprising a discharge distributor having a discharge port formed on the outer peripheral surface.

Images