KR20200037709A - Fire extinguishing equipment in electric power tunnel and operating method - Google Patents

Abstract

The present invention relates to a fire extinguishing apparatus in an electric power tunnel and an operation method thereof, and more specifically, to the fire extinguishing apparatus extinguishing fire by discharging a reinforcing liquid in the event of the fire in an electric power tunnel, and the operation method thereof. The fire extinguishing apparatus of the present invention comprises: a sensing unit; a starting valve; and an activating valve.

Description

Fire extinguishing equipment in electric power tunnel and operating method

The present invention relates to an apparatus for extinguishing a power tool and a method for operating the same, and more particularly, to an apparatus for extinguishing a device for extinguishing a fire by discharging a reinforcing liquid in the event of a fire in the power tool and a method for operating the same.

In general, underground transmission cables in electric power outlets are more likely to be exposed to fires from the risk of various factors such as insulation breakdown, arc and gas generation in the event of a ground fault near the connection area where the cables are connected.

If the fire of the underground transmission cable in the electric power zone is not initially suppressed, it spreads to a large fire and suffers huge losses, so a fire extinguishing equipment device is installed to prevent this.

1 shows a conventional electric fire extinguishing equipment apparatus.

Existing fire extinguishing equipment is composed of a complex system such as a fire detection unit, various cables, various piping, and a container for strengthening liquid, so that even if only one component does not operate, the fire extinguishing equipment does not work, and an error occurs in the fire receiving panel. In the case, there was a problem that the fire extinguishing ability of the fire extinguishing equipment device was lost.

Korean Patent Publication No. 10-2005-0101264

The present invention was invented to solve the above problems, and an object of the present invention is to provide a device having an electric power extinguishing device having a simple structure including a glass bulb switch, a starting valve and a starting valve.

In addition, it is composed of a mechanical type, not an electric type, so that there is no malfunction of the system. Therefore, it is aimed at preventing large-scale fires in advance by completely extinguishing in the event of a fire in the electric power zone.

In the electric power fire extinguishing equipment apparatus of the present invention for achieving the above object,

A detector for detecting fire;

A starting valve connected to the sensing unit and the first pipe;

It characterized in that it comprises a; start valve connected to the start valve and the second pipe.

It is characterized in that nitrogen is filled in the sensing unit to maintain a constant pressure during normal use.

The sensing unit is characterized by being a glass bulb switch.

The sensing unit is characterized by being a heat sensing tube.

Glass bulb switch,

Both ends are open, a body portion in which a plurality of air holes are formed in a circumferential direction on the front end side;

A glass bulb that is accommodated inside the body and is damaged by heat in the event of a fire;

A rear end holder coupled to close the rear end of the body portion;

A piston accommodated inside the body portion, the rear end of which is in contact with the front end of the glass bulb;

A compression spring which is accommodated inside the body portion and is inserted into the piston by inserting a predetermined length portion of the front end of the piston;

It is characterized in that it comprises; is coupled to close the front end of the body portion, the first pipe and a holder for forming a communication hole communicating the inside of the body portion.

The glass bulb switch is characterized by being damaged by heat in the event of a fire.

When the glass bulb is damaged, the piston is moved toward the rear end of the body portion by the nitrogen pressure inside the first pipe.

Nitrogen gas inside the first pipe is discharged to the outside through the body portion by the movement of the piston.

The heat sensing tube is characterized by being melted and damaged by heat in the event of a fire.

When the heat sensing tube is damaged, nitrogen gas inside the first pipe is discharged to the outside.

The starting valve is characterized by being connected to a nitrogen storage container.

Nitrogen in the nitrogen storage container is characterized in that it flows into the sensing unit through the first pipe through the start valve.

It is characterized in that nitrogen is filled in the first pipe to maintain a constant pressure during normal operation.

It is characterized in that the nitrogen pressure inside the first pipe decreases when nitrogen gas is released to the outside due to damage to the sensing unit.

The nitrogen in the nitrogen storage container is characterized in that it flows into the start valve through the second pipe through the start valve.

The second pipe,

A normal pipe that maintains a constant pressure by introducing nitrogen therein during normal operation;

It characterized in that it comprises; a fire pipe that nitrogen flows into the interior when the nitrogen pressure in the first pipe decreases.

It is characterized in that the starter valve is connected to the strengthening liquid pipe in communication with the strengthening liquid container.

The starting valve is characterized in that a discharge pipe for discharging the strengthening liquid is connected.

When nitrogen flows into the inside of a peace pipe, the reinforced liquid pipe and the discharge pipe do not communicate with each other.

When nitrogen is introduced into the fire pipe, the reinforced liquid pipe and the discharge pipe communicate with each other.

When the reinforcement liquid pipe and the discharge pipe communicate with each other, the reinforcement liquid is discharged through the discharge pipe.

In the operation method of the electric power fire extinguishing equipment device of the present invention for achieving the above object,

The stage of fire occurrence;

Sensing unit operation step;

Starting valve operation step;

It includes; starting valve operation step.

When the sensing part is a glass bulb switch,

The operation steps of the glass bulb switch are:

Glass bulb breakage step;

The piston is moved toward the rear end of the body by the nitrogen pressure in the first pipe;

A step in which nitrogen gas inside the first pipe is discharged to the outside through the body portion by the movement of the piston;

It characterized in that it comprises a; step of lowering the pressure of the nitrogen gas inside the first pipe.

When the sensing part is a heat sensing tube,

The operation stage of the heat sensing tube is,

The heat sensing tube is melted and damaged by the heat of the fire;

It characterized in that it comprises a; nitrogen gas is discharged to the outside to lower the nitrogen pressure inside the first pipe.

Starting valve operation step,

Nitrogen gas is discharged to the outside to lower the nitrogen pressure inside the first pipe;

Step of stopping the inflow of nitrogen into the interior of the peace pipe;

Nitrogen is introduced into the fire pipe; characterized in that it comprises a.

The starting valve operation step is:

A step in which the strengthening liquid pipe and the discharge pipe communicate with each other;

It characterized in that it comprises a; step of discharging the strengthening liquid through the discharge pipe.

In the pre-fire stage,

The nitrogen pressure inside the sensing unit, the first pipe, and the peace pipe is characterized by being kept constant.

In the step before the start valve operation step,

The strengthening liquid pipe and the discharge pipe are characterized in that they do not communicate with each other.

According to the present invention, in the event of a fire in a power sphere, it is possible to completely prevent the large fire in advance by completely extinguishing.

In addition, it is configured with a simple structure, and has an effect of reducing installation and purchase costs.

In addition, there is an effect to reduce maintenance and repair costs by increasing the reliability of the fire extinguishing performance.

1 is a conceptual diagram of a conventional electric fire extinguishing equipment apparatus.
2 is a conceptual diagram of a first embodiment of the fire extinguishing equipment apparatus of the present invention.
Figure 3 is a real photo of a first embodiment of the fire extinguishing equipment apparatus of the present invention.
4 is a starting valve of the present invention.
5 is a glass bulb switch of the present invention.
6 is a starting valve of the present invention.
Figure 7 is a real photo of a second embodiment of the fire extinguishing equipment apparatus of the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be interpreted as being limited to the embodiments described in detail below. This embodiment is provided to more fully describe the present invention to those skilled in the art. Accordingly, the shape of the elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that the same configuration in each drawing may be indicated by the same reference numeral. Detailed descriptions of well-known functions and configurations that are judged to unnecessarily obscure the subject matter of the present invention are omitted.

The present invention relates to an apparatus for extinguishing a power tool and a method for operating the same, and more particularly, to an apparatus for extinguishing a device for extinguishing a fire by discharging a reinforcing liquid in the event of a fire in the power tool and a method for operating the same.

2 is a conceptual diagram of a first embodiment of the fire extinguishing equipment apparatus of the present invention, and FIG. 3 is a real photo of a first embodiment of the fire extinguishing equipment apparatus of the present invention.

The fire extinguishing equipment apparatus of the present invention includes a sensing unit for detecting a fire, a starting valve 24 connected to the sensing unit and a first pipe 22, and a starting valve 24 and a second pipe 26. It comprises a start valve 32 is connected.

Figure 4 shows the starting valve of the present invention.

The starter valve 24 is connected to the nitrogen storage container 38, and the nitrogen inside the nitrogen storage container 38 passes through the starter valve 24 through the first pipe 22 to the detection unit. It flows inside.

The nitrogen is filled in the start valve 24 and the first pipe 22 to maintain a constant pressure during normal operation.

As the sensing unit, a glass bulb switch 2 or a heat sensing tube 20 may be applied, and first, when the glass bulb switch 2 is applied to the sensing unit as illustrated in FIGS. 1 and 2 will be described. Do it.

5 shows a glass bulb switch of the present invention.

The glass bulb switch (2), both ends are open and the body portion (4) in which a plurality of air holes (6) are formed in the circumferential direction on the front end side, is accommodated inside the body portion (4) and is damaged by heat in case of fire The glass bulb 8 to be, a rear end holder 10 coupled to close the rear end of the body portion 4, and accommodated inside the body portion 4, the rear end is the front end of the glass bulb 8 The piston 12 located in contact with the compression spring 14 which is accommodated in the inside of the body part 4 and is inserted into a predetermined length of the front end of the piston 12 and coupled with the piston 12. And, it is coupled to close the front end of the body portion (4) and includes a shear holder (16) is formed with a communication hole (18) communicating the interior of the first pipe 22 and the body portion (4) It is configured by.

Nitrogen is introduced into the first pipe 22 through the communication hole 18 inside the body part 4, and the inside of the body part 4 is filled with the nitrogen to maintain a constant nitrogen pressure at normal times. Is done.

When a fire occurs, the glass bulb 8 explodes and breaks due to heat, and the compression spring 14 compressed by the shear holder 16 according to the damage of the glass bulb 8 causes the piston 12 to Is pushed to the rear end side of the body portion 4, and at the same time, the nitrogen pressure inside the first pipe 22 pushes the piston 12 to the rear end side of the body portion 4. The compression spring 14 is used to more quickly release nitrogen gas from the inside of the first pipe 22 to the body portion 4 and the air hole 6.

Nitrogen gas inside the first pipe 22 is discharged to the outside through the body 4 by the movement of the piston 12, and thus the pressure inside the first pipe 22 is lowered.

6 shows a starting valve of the present invention.

Nitrogen in the nitrogen storage container 38 flows into the start valve 32 through the second pipe 26 through the start valve 24.

The second piping 26 is divided into a plain piping 28 and a fire piping 30. The plain piping 28 maintains a constant pressure by introducing nitrogen into the inside from the start valve 24 during normal operation. When the nitrogen pressure in the first pipe 22 is lowered due to a fire, nitrogen is introduced into the fire pipe 30 from the start valve 24.

The starting valve 32 is connected to a strengthening liquid pipe communicating with the strengthening liquid container 40 and a discharge pipe for discharging the strengthening liquid.

When nitrogen flows into the peacetime pipe 28, the strengthening liquid pipe and the discharge pipe are maintained in a non-communicating state, and when the nitrogen flows into the fire pipe 30, the start valve 32 is operated. Thus, the strengthening liquid pipe and the discharge pipe are in communication with each other.

When the strengthening liquid piping and the discharge pipe communicate with each other, the strengthening liquid for extinguishing a fire is discharged through the discharge pipe.

FIG. 7 shows an actual picture of a second embodiment of the fire extinguishing equipment device of the present invention.

In the second embodiment of the present invention, the heat sensing tube 20 was applied as the sensing unit.

Nitrogen flowing from the first pipe 22 is filled in the heat sensing tube 20 to maintain a constant pressure during normal operation.

When a fire occurs, the heat sensing tube 20 is melted and damaged by heat, and when the heat sensing tube 20 is damaged, nitrogen gas inside the first pipe 22 is discharged to the outside.

The internal pressure of the first pipe 22 is lowered by the external discharge of nitrogen gas, and the configurations of the starter valve 24 and the starter valve 32 are the same as in the first embodiment.

Method of operation of the fire extinguishing equipment device configured as described above,

The stage of fire occurrence;

Sensing unit operation step;

Starting valve 24 operating step;

Operation step of the start valve 32; and proceeds.

The nitrogen pressure inside the detection unit, the first piping 22 and the peace piping 28 is kept constant in the step before the fire generation step.

In the event of a fire, the detector operates.

When the sensing unit is the glass bulb switch (2), the operating step of the sensing unit,

Breaking the glass bulb (8);

The piston 12 is moved toward the rear end of the body portion 4 by the internal pressure of the compression spring 14 and the first pipe 22;

A step in which nitrogen gas inside the first pipe 22 is discharged to the outside through the body 4 by the movement of the piston, thereby reducing the nitrogen pressure inside the first pipe 22;

When the sensing unit is the heat sensing tube 20, the operating step of the sensing unit,

A step in which the heat sensing tube 20 is melted and damaged by fire heat;

The nitrogen gas inside the heat sensing tube 20 is discharged to the outside, and the pressure of the nitrogen inside the first pipe 22 is lowered.

That is, when the nitrogen pressure inside the first pipe is lowered due to the nitrogen gas being released to the outside due to the damage of the sensing unit, the start valve is operated.

The starting valve 24 operating step,

Nitrogen gas is discharged to the outside to lower the nitrogen pressure inside the first pipe (22);

Step of stopping the inflow of nitrogen into the interior of the peace pipe (28);

Nitrogen is introduced into the fire pipe 30; and proceeds.

In the step before the operation step of the start valve 24, the start valve 24 introduced nitrogen into the start valve 32 through the peace pipe 28, but due to a fire, the inside of the first pipe 22 When the nitrogen pressure is lowered, the start valve 24 stops nitrogen flow into the peace pipe 28 and introduces nitrogen into the start valve 32 through the fire pipe 30.

When nitrogen is introduced into the fire pipe 30, the operation step of the start valve 32 is performed.

The operation step of the starting valve 32,

A step in which the strengthening liquid pipe and the discharge pipe communicate with each other;

And the step of discharging the reinforcing liquid through the discharge pipe.

In the step prior to the operation step of the starting valve 32, the strengthening liquid pipe and the discharge pipe are maintained in a non-communicating state, but when nitrogen flows into the fire pipe 30, the starting valve 32 is operated. The reinforcing liquid piping and the discharge piping are in communication with each other so that the reinforcing liquid flowing into the reinforcing liquid piping from the reinforcing liquid container enters the discharge piping and is discharged to a fire-producing area.

The fire extinguishing equipment device of the present invention configured as described above is configured with a simple structure including a sensing unit, a starter valve 24 and a starter valve 32, thereby reducing installation and purchase costs.

In addition, it is composed of a mechanical type using a valve rather than an electric type using a sensor, so that a malfunction of the system does not occur, and thus, in the event of a fire in the electric power supply, it is completely extinguished in the early stage to prevent a large fire in advance.

Exemplary embodiments of the power device fire extinguishing equipment of the present invention and the operation method thereof described above are merely exemplary, and those skilled in the art to which the present invention pertains have various modifications and other equivalent embodiments You will see that it is possible. Therefore, it is understood that the present invention is not limited to the forms mentioned in the above detailed description. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims. It is also to be understood that the invention includes all modifications and equivalents and alternatives within the spirit and scope of the invention as defined by the appended claims.

2: Glass bulb switch
4: Body part
6: air hole
8: Glass bulb
10: rear end holder
12: piston
14: compression spring
16: shear holder
18: Communication Hall
20: heat sensing tube
22: first pipe
24: start valve
26: second pipe
28: peacetime piping
30: fire piping
32: start valve
38: nitrogen storage container
40: reinforcement liquid container

Claims (28)

In the fire extinguishing equipment device installed inside the power sphere to extinguish a fire in the event of a fire inside the power sphere,
A detector for detecting fire;
A starting valve connected to the sensing unit and a first pipe;
Including; start valve connected to the start valve and a second pipe
Power device fire extinguishing equipment device, characterized in that. According to claim 1,
Power sensing fire extinguishing equipment device characterized in that nitrogen is filled in the sensing unit to maintain a constant pressure during normal use. According to claim 1,
The detection unit is a power bulb fire extinguishing equipment device, characterized in that the glass bulb switch. According to claim 1,
The sensing unit is a power ball extinguishing equipment device, characterized in that the heat detection tube. According to claim 3,
The glass bulb switch,
Both ends are open, a body portion in which a plurality of air holes are formed in a circumferential direction on the front end side;
A glass bulb accommodated inside the body portion and damaged by heat in the event of a fire;
A rear end holder coupled to close the rear end of the body portion;
A piston accommodated inside the body portion, the rear end of which is in contact with the front end of the glass bulb;
A compression spring which is accommodated inside the body part, and in which a predetermined length of the front end of the piston is inserted and coupled to the piston;
It includes a shear holder that is coupled to close the front end of the body portion, the first pipe and a communication hole communicating the inside of the body portion is formed;
Power device fire extinguishing equipment device, characterized in that. The method of claim 5,
The glass bulb switch is a fire extinguishing equipment device, characterized in that damaged by heat in the event of a fire. The method of claim 5,
When the glass bulb is damaged, the electric power extinguishing equipment device, characterized in that the piston moves toward the rear end of the body by the nitrogen pressure inside the first pipe. The method of claim 7,
Power device fire extinguishing equipment device, characterized in that nitrogen gas inside the first pipe is discharged to the outside through the body portion by the movement of the piston. According to claim 4,
The heat sensing tube is a power tool fire extinguishing equipment device characterized in that it is melted and damaged by heat during a fire. According to claim 4,
A device for extinguishing a power tool, characterized in that when the heat sensing tube is damaged, nitrogen gas inside the first pipe is discharged to the outside. According to claim 1,
The starting valve is an electric power extinguishing equipment device, characterized in that connected to the nitrogen storage container. The method of claim 11,
Nitrogen inside the nitrogen storage container, the electric power fire extinguishing equipment device, characterized in that flowing into the sensing unit through the first pipe through the start valve. According to claim 1,
Power supply extinguishing equipment device, characterized in that nitrogen is filled in the first pipe to maintain a constant pressure during normal operation. According to claim 1,
Power outlet fire extinguishing equipment device, characterized in that the nitrogen pressure in the first pipe decreases when nitrogen gas is released to the outside due to damage to the sensing unit. The method of claim 11,
Nitrogen in the nitrogen storage container, the power outlet fire extinguishing equipment device, characterized in that flowing into the start valve through the second pipe through the start valve. The method of claim 15,
The second pipe,
A normal pipe that maintains a constant pressure by introducing nitrogen therein during normal operation;
Including the fire piping through which nitrogen flows in when the nitrogen pressure in the first pipe decreases
Power device fire extinguishing equipment device, characterized in that. According to claim 1,
Power supply fire extinguishing equipment device, characterized in that the starting valve is connected to the strengthening liquid pipe in communication with the strengthening liquid container. The method of claim 17,
Power supply fire extinguishing equipment device, characterized in that the discharge valve for discharging the strengthening liquid is connected to the start valve. The method of claim 18,
Power supply extinguishing equipment device, characterized in that when the nitrogen flows into the peacetime pipe, the reinforcement liquid pipe and the discharge pipe do not communicate with each other. The method of claim 18,
Power supply fire extinguishing equipment device, characterized in that when the nitrogen flows into the fire pipe, the strengthening liquid pipe and the discharge pipe communicate with each other. The method of claim 20,
Power supply fire extinguishing equipment device, characterized in that when the reinforcement liquid pipe and the discharge pipe communicate with each other, the reinforcement liquid is discharged through the discharge pipe. A method for operating the electric power extinguishing equipment device according to any one of claims 1 to 21,
The stage of fire occurrence;
Sensing unit operation step;
Starting valve operation step;
Starting valve operation step;
A method of operating a power tool fire extinguishing equipment device comprising a. The method of claim 22,
When the sensing unit is a glass bulb switch,
The operation step of the glass bulb switch,
Glass bulb breakage step;
The piston is moved toward the rear end of the body by the nitrogen pressure in the first pipe;
A step in which nitrogen gas inside the first pipe is discharged to the outside through the body portion by the movement of the piston;
Method of operation of the power device fire extinguishing equipment device, characterized in that. The method of claim 22,
When the sensing unit is a heat sensing tube,
The operation step of the heat sensing tube,
A step in which the heat sensing tube is melted and damaged by heat of fire;
Containing; containing nitrogen gas is discharged to the outside to lower the nitrogen pressure inside the first pipe;
Method of operation of the power device fire extinguishing equipment device, characterized in that. The method of claim 22,
The starting valve operation step,
Nitrogen gas is discharged to the outside to lower the nitrogen pressure inside the first pipe;
Step of stopping the inflow of nitrogen into the interior of the peace pipe;
Nitrogen is introduced into the fire pipe; containing
Method of operation of the power device fire extinguishing equipment device, characterized in that. The method of claim 22,
The starting valve operation step,
A step in which the strengthening liquid pipe and the discharge pipe communicate with each other;
The step of discharging the strengthening liquid through the discharge pipe; Containing
Method of operation of the power device fire extinguishing equipment device, characterized in that. The method of claim 22,
In the step before the fire occurrence step,
The sensing unit, the first pipe and the nitrogen pressure inside the peace pipe, the power supply method of the fire extinguishing equipment device, characterized in that maintained constant. The method of claim 22,
In the step before the starting valve operation step,
The reinforcement liquid piping and the discharge piping method of operating the electric power extinguishing equipment device, characterized in that not in communication with each other.

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