KR20130052881A - Grenade for fire fighting - Google Patents

Abstract

PURPOSE: A grenade for putting out fire is provided to prevent a user from being insured by being used near a fire. CONSTITUTION: A grenade for putting out fire(100) comprises an outer cover(110) with a passing hole on the outside thereof and a space thereinside, a retarding agent for putting out a fire which is stored in the space inside the outer cover, a safety pin(130) for blocking a passing hole, a heat detecting sensor which is equipped near the outer cover and detects the heat of outer temperature and a blasting cap for igniting the retarding agent when the outer temperature is over a set temperature. The blasting cap ignites the retarding agent in the same way of a bimetal and thermocouple mode. The round of the outer cover comprises an outlet hole passing the retarding agent from the inside of the outer cover to the outside by the explosion of the blasting cap and an outer cover(118) for blocking the outlet hole and opening and closing the outlet hole during an explosion. Some parts of the outer cover with the outlet hole comprise a groove for holding the outer cover.

Description

Fire Grenade {Grenade for fire fighting}

The present invention relates to a fire grenade, and more particularly, to a fire grenade for extinguishing a fire as the fire extinguishing agent is ejected while the fire is thrown to the place where there is a fire when the fire occurs.

In general, as a device for extinguishing a fire when a fire occurs, a large portable portable fire extinguisher and a sprinkler that is fixedly installed in a building are typically used.

In general, a fire extinguisher can be used while the user moves in the event of a fire. It is used for the initial suppression of a fire. A fire extinguisher is a fire extinguishing powder filled in a hollow case. It has a structure to extinguish the fire by the extinguishing powder discharged by discharging the extinguishing powder filled inside.

In addition, the sprinklers fixedly installed in the building has a structure in which the water is sprayed from the ceiling surface by detecting the elevated temperature when the room temperature rises due to the fire occurs.

If the initial fire is made quickly in the event of a fire, the initial fire is very important because it prevents it from leading to a large fire. There was a problem that the user may be injured by the flames due to the use of the move and in the urgent state, the user has failed to remove the safety pin and pressurize the handle, thus delaying time and failing to extinguish the fire.

And, the sprinkler installed in the interior of the building has a superior ability to extinguish the fire compared to the fire extinguisher, but since the operation is not made until a certain temperature is reached, the problem of failing the initial extinguishing of the fire and the sprayed contents are usually Due to the use of ashes related to oil products, there was a problem that the initial evolution is not made quickly.

In the present invention, the heat sensor detects the temperature of the outside air introduced through the through-hole provided on one side of the outer shell to ignite the retardant stored in the inner accommodating space of the outer shell so that the retardant is discharged to the outside of the outer flame. The aim is to provide a fire grenade that will allow fire to evolve.

The present invention is a spherical shape is provided with a receiving space on the inside, the outer shell is formed with a through hole on one side, and stored in the receiving space inside the outer shell, the retardant is a fire extinguishing powder to extinguish the fire, and the through hole of the outer shell Safety pins to cut off, and provided on the inner circumferential surface of the outer shell, the heat sensor for measuring the temperature of the outside air introduced through the through hole and the inside of the outer shell, the temperature of the outside air measured by the heat sensor Provides a fire grenade comprising a primer for igniting the retarder when the temperature exceeds the set temperature.

The primer of the fire grenade according to the present invention can ignite the retardant using the bimetal principle and the thermocouple method, and the retardant stored in the receiving space due to the explosion of the primer on the circumferential surface of the envelope is directed to the outside of the envelope. The discharge hole is discharged, and the shielding shell for closing the discharge hole in the usual time and selectively opening the discharge hole in the explosion of the primer can be provided, one side of the outer shell in which the discharge hole is formed is inserted into the shielding shell The mounting groove may be formed to be mounted, the blocking outer shell is attached to one end of the outer shell, and the other end of the outer shell may be formed with an insertion groove into which one end of the outer shield is inserted, and the outer shell and the accommodation space There may be formed a movement passage for moving the air introduced from the outside, the heat sensor is the outer It may be a plurality of inner peripheral surface provided with a.

Fire grenade according to the present invention has the following effects.

First, it can be thrown from a long distance to prevent the injury of the user due to the flame that can occur while approaching the fire site near.

Second, the fire can be quickly extinguished due to the simple operation of pulling and throwing the safety pin.

Third, the extinguishing agent stored in the inner accommodating space of the shell can extinguish the fire in a complex manner and can respond quickly to various kinds of fires.

1 is a perspective view showing a fire grenade according to an embodiment of the present invention.
2 is a cross-sectional view showing the fire grenade shown in FIG.
3 is a view showing a state in which the fire extinguishing agent is discharged to the outside by exploding the fire grenade shown in FIG.
4 is a cross-sectional view showing a fire grenade according to another embodiment of the present invention.
5 is a view showing a state in which the fire extinguishing agent is discharged to the outside by exploding the fire grenade shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, It should be understood that there may be variations.

Hereinafter, with reference to the accompanying drawings illustrating a preferred embodiment according to the present invention in detail, Figure 1 is a perspective view showing a fire grenade according to an embodiment of the present invention, Figure 2 is a fire grenade shown in FIG. 3 is a cross-sectional view showing a state in which the fire grenade shown in FIG. 2 explodes and the extinguishing agent is discharged to the outside, and FIG. 4 is a cross-sectional view showing the fire grenade according to another embodiment of the present invention. 5 is a view showing a state in which the fire extinguishing agent is discharged to the outside by exploding the fire grenade shown in FIG.

1 to 5, a fire grenade 100 according to an embodiment of the present invention includes a shell 110, a retardant 120, a safety pin 130, a thermal sensor 140, and a primer. And 150.

The outer shell 110 has a spherical shape is provided with a receiving space 112 inside, the outer shell 110 preferably has a material that absorbs safety and durability, heat resistance and impact. A through hole 114 is formed at one side of the shell 110, and the retardant 120, which is a fire extinguishing powder for extinguishing a fire, is stored in the accommodating space 112 inside the shell 110.

A circumferential surface of the shell 110 is provided with a discharge hole 116 and the blocking shell 118. The discharge hole 116 serves to discharge the retardant 120 stored in the accommodation space 112 to the outside of the shell 110 due to the explosion of the primer 150 to be described later, the blocking shell ( 118 normally closes the discharge hole 116, and serves to selectively open the discharge hole 116 during the explosion of the primer 150 to be described later.

2 and 3, the fire grenade 100 according to an embodiment of the present invention, the outer shell 110 and the blocking shell 118 is formed to be separated. On one side of the outer shell 110 in which the discharge hole 116 is formed, a mounting groove 117 into which the blocking outer shell 118 is inserted is formed, and the outer shell 110 and the blocking outer shell 118 are integrally formed. It is formed to be separated, but not, the blocking shell 118 mounted in the mounting groove 117 of the shell 110 is the mounting groove of the shell 110 by the impact of the explosion of the primer 150 to be described later The retardant 120 is separated and separated from 117, and the retardant 120 is discharged to the discharge hole 116 of the envelope 110 opened by the detachment of the blocking envelope 118 to extinguish the flame.

4 and 5, the fire grenade 100 ′ according to another embodiment of the present invention includes a shell 110 ′ and a blocking shell 118 ′ on a hinge shaft different from an embodiment of the present invention. Is rotatably coupled by, the configuration is the same as the fire grenade according to an embodiment of the present invention.

One end of the shielding shell 118 'is attached to one end of the shell 110', and the other end of the shielding shell 118 'has one end attached to the shell 110'. An insertion groove 119 to be inserted is formed. The blocking shell 118 ′ mounted to the insertion groove 119 of the shell 110 ′ is inserted into the insertion groove 119 of the shell 110 ′ by an impact caused by the explosion of the primer 150 ′. One end is detached, and the retardant 120 'is discharged to the discharge hole 116' of the outer shell 110 'by which the blocking outer shell 118' is detached to extinguish the flame.

The retardant 120 is a fire caused by a flammable material such as cloth, paper, or wood, which is a Class A fire, a flammable liquid or gas such as gasoline, diesel, or gas that is a Class B fire, and a fire caused by electricity, which is a Class C fire. It is possible to extinguish complex fires such as eminent fires.

One side of the shell 110 is provided with a safety pin 130. The safety pin 130 serves to block the through hole 114 formed on one side of the shell 110. As the safety pin 130 blocks the through hole 114, the retardant 120, which is a fire extinguishing powder stored in the accommodating space 112 provided inside the sheath 110, is moved to the outside of the sheath 110. Outflow is prevented.

A heat sensor 140 is provided on an inner circumferential surface of the outer shell 110 having a spherical shape. The heat sensor 140 is an external air introduced into the shell 110 through the through hole 114 in a state in which the safety pin 130 is detached from the through hole 114 of the shell 110. It serves to measure the temperature.

 The primer 150 is provided inside the outer shell 110. When the temperature of the outside air measured by the heat sensor 140 exceeds the set temperature, the primer 150 explodes and ignites the retardant 120 stored in the receiving space 112 of the shell 110. It plays a role.

The primer 150 ignites the retardant 120 while exploding using the bimetal principle and the thermocouple method. The bimetal principle uses the principle that the bonded metal increases when the metal receives heat in a state in which metals having different thermal expansion coefficients are bonded to each other, and the contact point such as an electric switch is installed at the end of the metal, and the metal is shorted by heat. The primer 150 explodes to ignite the retardant 120.

In the thermocouple method, the thermocouple provided inside the shell 110 is heated by hot air introduced into the through hole 114 of the shell 110, and thus the electromotive force is generated so that the primer is generated by the electromotive force generated. 150 may explode to ignite the retardant 120.

A moving passage 160 is formed between the outer shell 110 and the receiving space 112. The movement passage 160 is a passage through which the external air introduced into the shell 110 through the through hole 114 of the shell 110 moves and circulates.

The heat sensor 140 is provided with a plurality of the inner air of the outer shell 110 to move the temperature of the outer shell 110 through the movement passage 160, the sensed temperature is When the set temperature is exceeded, the primer 150 is operated to ignite the retardant 120.

Referring to the process of extinguishing a fire while the fire grenade 100 according to the invention explodes as follows.

The fire grenade 100 is thrown to the vicinity of the flame of the fire in the state in which the safety pin 130 for blocking the through hole 114 formed on one surface of the outer shell 110 of the fire grenade 100 according to the present invention is pulled out.

The hot outside air near the flame flows into the inside of the shell 110 through the through hole 114 of the shell 110 from which the safety pin 130 is pulled out, and the temperature of the hot air introduced into the shell 110 is measured. The thermal sensor 140 provided on the inner circumferential surface of the sensing unit 140 activates the primer 150 when the outside air exceeds a set temperature.

The primer 150 operates to explode and ignite the retardant 120, which is a fire extinguishing powder stored in the inner receiving space 112 of the shell 110, while the retarder 120 explodes and the shell 110. Fire extinguish as it leaks to the outside.

Therefore, it can be thrown at a long distance to prevent injuries of the user due to a fire that can occur while approaching a fire near the field, and the fire can be quickly extinguished due to a simple operation of throwing and throwing a safety pin. The extinguishing agent stored in the inner accommodating space of the shell can extinguish the fire in a complex manner, and can respond quickly to various kinds of fires.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100: fire grenade 110: shell
112: accommodation space 114: through hole
116: discharge hole 117: mounting groove
118: blocking shell 119: insertion groove
120: retardant 130: safety pin
140: heat sensor 150: primer
160: moving passage

Claims (7)

The outer space is provided in the inner accommodating space, the through-hole formed on one side;
A retarder, which is stored in the accommodating space inside the shell and is a fire extinguishing powder extinguishing a fire;
Safety pins to block the through-holes of the outer shell;
A heat sensor provided on an inner circumferential surface of the outer shell and measuring a temperature of external air flowing through the through hole; And
Fire grenade provided in the inside of the shell, including a primer for igniting the retarder when the temperature of the outside air measured by the thermal sensor exceeds a set temperature.
The method according to claim 1,
The primer is a fire grenade, characterized in that for igniting the retarder using the bimetal principle and thermocouple method.
The method according to claim 1,
In the peripheral surface of the outer shell and the retardant stored in the receiving space due to the explosion of the primer discharged to the outside of the outer shell, and usually the discharge hole is closed and the discharge hole selectively at the time of explosion of the primer A fire grenade provided with an open shield.
The method according to claim 3,
One side of the outer shell in which the discharge hole is formed a grenade for fire which is formed with a mounting groove in which the blocking outer shell is inserted.
The method according to claim 3,
The blocking shell is attached to one end of the outer shell, and the other end of the outer shell of the fire grenade for which the insertion groove is inserted into which the one end of the shielding shell is formed.
The method according to claim 1,
Fire grenade between the shell and the receiving space is formed with a moving passage for moving the air introduced from the outside.
The method according to claim 1,
The heat sensor is a fire grenade provided with a plurality on the inner peripheral surface of the shell.

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