KR200456419Y1 - Flexible tube for fire-extinguishing utility - Google Patents

Abstract

The present invention prevents the backflow of the extinguishing agent released from the storage container by applying a check valve and a pressure reducing orifice structure to one side of the flexible tube used to connect the high pressure storage container and the collecting pipe of the clean extinguishing agent extinguishing system. The present invention relates to a flexible tube for fire extinguishing equipment which can reduce the pressure burden applied.
The present invention for realizing this in the flexible tube for fire extinguishing equipment for connecting the high pressure storage container and the collection tube filled with a clean extinguishing agent, on one side of the flexible tube 110, a constant in the cylinder 122 A check valve (120) having a check ball (123) coupled to the interval slide reciprocatingly to allow the clean extinguishing agent in the storage container to flow in one direction and to prevent backflow of the released clean extinguishing agent; And a pressure reducing orifice 130 having a discharge hole 132b having a smaller diameter than the diameter of the inlet hole 132a so as to reduce the discharge pressure of the clean extinguishing agent passed through the check valve 120. Characterized in that configured.

Description

Flexible tube for fire-extinguishing utility

The present invention relates to a flexible tube for a fire extinguishing system, and more particularly, a flexible valve for a fire extinguishing system having a check valve and a pressure reducing orifice at one side of the flexible tube so as to be used to connect the high pressure storage container and the collecting tube of a clean fire extinguishing agent. It is about a tube.

In general, a clean extinguishing agent can be roughly divided into a halogen-based fire extinguishing agent (Halocarbon clean agent) and an inert gas clean agent (Inert gas clean agent). These are distinguished in terms of extinguishing effect. Halogen-based chemicals are mainly extinguished by cooling and subcatalysts, while inert gas extinguishing agents are mainly extinguished by asphyxiation.

For reference, such a fire extinguishing method of the clean extinguishing agent can be classified into three types, a gas-based fire extinguishing system, a cabinet type automatic fire extinguishing system, and a modular system.

First, the gas-based fire extinguishing system can be used in a plurality of protective spaces by using an optional side by interlocking a collection pipe (about 10 to more cylinders in one space). And the cabinet type automatic fire extinguishing system system has no piping and everything is contained in the cabinet. In addition, manual operation of detectors and emission indicators is installed around the system. The modular system can be used for several protective spaces using independent piping selection sides.

However, the fire extinguishing agent of the clean extinguishing agent having such a structure, when the fire extinguishing agent in the storage container is released, the gas discharged from the collection pipe flows back to the other storage container valve to open the extinguishing agent storage container valve corresponding to the other protection zone, Excessive extinguishing gas enters the protected area where the The inflow of more extinguishing gas will increase the pressure in the protection zone, causing a pressure jet that breaks the opening (entry door). If there is no gas outlet, the pressure in the protection zone may increase, which can seriously damage the building.

In addition, a separate structure for reducing the pressure of the clean extinguishing agent is not applied to the connecting pipe connecting the storage vessel filled with the high pressure extinguishing agent and the collecting pipe. Accordingly, a pressure burden is applied to the connecting pipe and the collecting pipe in the process of releasing the high pressure extinguishing agent, which in turn causes a shortening of the service life and the breakage of the connecting pipe and the collecting pipe connected to the storage container.

The present invention has been made to solve the above problems, by applying a check valve and a pressure reducing orifice structure on one side of the flexible tube used to connect the high-pressure storage container and the collection tube of the clean fire extinguishing agent fire extinguishing equipment fire extinguishing from the storage container It is an object of the present invention to provide a flexible tube for a fire extinguishing system that prevents the backflow of drugs and reduces the pressure burden on the collecting tube.

Flexible tube for fire extinguishing equipment of the present invention for realizing the object as described above, in the flexible tube for fire extinguishing equipment for connecting the high pressure storage container and the collection tube filled with a clean fire extinguishing agent, on one side of the flexible tube, A check valve having a check ball coupled to the slide reciprocally at a predetermined interval in the cylinder to allow the clean extinguishing agent in the storage container to flow in one direction and to prevent backflow of the released clean extinguishing agent; And a pressure reducing orifice having a discharge hole formed in a smaller diameter than the diameter of the inlet hole so as to reduce the discharge pressure of the clean extinguishing agent passed through the check valve.

In this case, the check ball is formed in a conical shape having an inclined surface on one side so as to selectively close the inlet hole, and the other side is transported through the clean extinguishing agent to maintain a predetermined interval with the discharge hole therebetween. At least two support members are provided radially with respect to the central axis to provide a passage.

In addition, the other side of the flexible tube further comprises a connection adapter is connected to the collection tube.

The present invention according to the above configuration, by applying a check valve and a pressure reducing orifice on one side of the flexible tube used to connect the storage vessel and the collection tube of the clean extinguishing agent fire extinguishing equipment can prevent the backflow of the clean extinguishing agent released. In addition, by reducing the pressure of the clean extinguishing agent appropriately, there is an advantage to reduce the pressure burden applied to the flexible tube and the collection tube.

1 is a perspective view of a flexible tube for fire extinguishing equipment according to the present invention,
Figure 2 is a partial cutaway perspective view showing the internal configuration of the check valve and the pressure reducing orifice provided on one side of the flexible tube according to the present invention,
3 is an exploded perspective view of FIG. 2;
4 is a cross-sectional view taken along the line II of FIG.
5a and 5b is an operating state diagram of the flexible tube for fire extinguishing equipment according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Here, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are denoted by the same reference numerals as much as possible even if displayed on the other drawings.

1 is a perspective view of a flexible tube for a fire extinguishing system according to the present invention, Figure 2 is a partial cutaway perspective view showing the internal configuration of the check valve and the pressure reducing orifice provided on one side of the flexible tube according to the present invention, Figure 3 Is an exploded perspective view of FIG. 4, and is a cross-sectional view taken along the line II of FIG. 1.

1 to 3, a flexible fire extinguishing system according to a preferred embodiment of the present invention for connecting the connecting portion (1) and the collection tube (not shown) of the high-pressure storage container (not shown) filled with a clean fire extinguishing agent The tube 110 has a check ball 123 coupled to the slide 122 so as to be reciprocally spaced in the cylinder 122 so that the clean extinguishing agent in the storage container flows in one direction while the reverse flow of the released clean extinguishing agent is prevented. And a discharge hole 132b formed to a smaller diameter than the diameter of the inlet hole 132a so as to reduce the discharge pressure of the clean extinguishing agent passing through the check valve 120. It is characterized by including a reduced pressure orifice 130.

Referring to the configuration of the present invention in detail as follows.

The check valve 120 is provided in such a way that the check ball 123 is slidably reciprocated within a predetermined interval to the cylinder 122 provided in the first housing 121.

The check ball 123 is formed in a conical shape having an inclined surface 123a of a predetermined angle so as to selectively close the inlet hole 132a when the discharged clean extinguishing agent is flowed back.

And the other side of the check ball 123 is provided with a support member 123b for maintaining the body to be spaced apart from the discharge hole (132b) by a predetermined interval.

Here, preferably, as shown in FIG. 4, at least two support members 123b are formed radially with respect to the central axis on the other side of the check ball 123 so that the check balls 123 from the discharge hole 132b are formed. As the body is spaced apart, it provides a transport passage 123c through which the clean extinguishing agent can pass.

The pressure reducing orifice 130 is formed by fixing the second housing 131 on the same axis line of the rear end of the first housing 121.

Here, preferably, the second housing 131 may be coupled to the inner diameter of the first housing 121 through the O-ring 133 and the fixing ring 134 to maintain the airtightness and to be firmly fixed. (See Fig. 2).

And the distal end of the second housing 131 is provided with a stepped discharge hole (132b) to lower the pressure of the clean extinguishing agent discharged through the inlet hole (132a).

On the other hand, the other side of the flexible tube 110 is provided with a connection adapter 140 connected to the collection tube.

Then, the operation principle of the present invention according to the above configuration will be described. 5a and 5b is an operating state diagram of the flexible tube for fire extinguishing equipment according to the present invention.

First, as shown in Figure 5a, the clean extinguishing agent discharged from the storage container is introduced into the cylinder 122 through the inlet hole (132a).

At this time, the check ball 123 is moved to the rear, that is, the discharge hole (132b) side by the pressure of the clean fire extinguishing agent, and forms a transfer passage (123c) between the support member (123b). Accordingly, the clean extinguishing agent discharged is discharged to the discharge hole 132b through the transfer passage 123c.

In this case, the clean extinguishing agent introduced through the inlet hole 132a maintains a pressure of 145 to 320 bar. The clean extinguishing agent after passing through the discharge hole 132b formed in a smaller diameter than the diameter of the inlet hole 132a. Is reduced to about 58 ~ 128bar.

As such, by reducing the discharge pressure of the clean extinguishing agent through the pressure reducing orifice 130, the pressure burden applied to the flexible tube 110, the collection tube, and the selection valve, which is a connection member for the discharge of the clean extinguishing agent, is reduced.

Figure 5b is a view showing an operating state that prevents the gas flowing out of the collecting tube backflow to another storage valve when the extinguishing agent in the storage container is released.

As shown in the drawing, when the clean fire extinguishing agent flows backward through the discharge hole 132b, the check ball 123 is moved to the inlet hole 132a by the inflow pressure, and the inclined surface of the check ball 123 ( 123a is inserted into the inlet hole 132a to close the transfer passage 123c. Accordingly, the clean extinguishing agent flowing back through the discharge hole 132b can be prevented from entering the storage container.

Although the present invention has been illustrated and described with reference to certain preferred embodiments, the present invention is not limited to the above embodiments and various changes and modifications are possible without departing from the spirit of the present invention.

110: flexible tube 120: check valve
121: first housing 122: cylinder
123: check ball 123a: slope
123b: support member 123c: transfer path
130: decompression orifice 131: second housing
132a: inlet hole 132b: outlet hole
140: connection adapter

Claims (3)

In the flexible tube 110 for fire extinguishing equipment for connecting the high pressure storage container and the collection tube filled with a clean fire extinguishing agent,
On one side of the flexible tube 110,
A check valve 123 which is reciprocally coupled to the slide 122 in the cylinder 122 to allow the clean extinguishing agent in the storage container to flow in one direction and prevent the backflow of the released clean extinguishing agent ( 120); And
And a pressure reducing orifice 130 having a discharge hole 132b formed in a smaller diameter than the diameter of the inlet hole 132a so as to reduce the discharge pressure of the clean extinguishing agent passed through the check valve 120. Flexible tube for fire extinguishing equipment, characterized in that configured. The method of claim 1,
The check ball 123,
One side is formed in a conical shape having an inclined surface 123a to selectively close the inlet hole 132a,
The other side has at least two support members 132b radially with respect to a central axis so as to maintain a predetermined interval with the discharge hole 132b to provide a transfer passage 132c through which the clean extinguishing agent can pass. Flexible tube for fire extinguishing equipment, characterized in that provided. The method of claim 1,
The other side of the flexible tube is a flexible tube for fire extinguishing equipment further comprises a connection adapter 140 is connected to the collection tube.

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