KR101606921B1 - A forest fire suppressing bomb - Google Patents

Abstract

The present invention relates to an extinguishing bomb for suppressing a forest fire, dropped from the air into a fire area (a mountainous area) from a flying firefighting helicopter to rapidly suppress the forest fire, thereby preventing an accident occurred when a firefighter is dispatched and securing the safety of the firefighter by preventing an explosion of a blind shell when the blind shell is recovered. According to the present invention, the extinguishing bomb for suppressing a forest fire comprises: a body (10); a wing (13); a fuse assembly body (20); an impeller (40); a firing pin rod (30); and a safety means. The body (10) has a light water contained therein and allows the light water to be discharged and scattered by an impact from outside, thereby suppressing the fire. The wing (13) is formed on the body (10). The fuel assembly body (20) is mounted on the front side of the body (10) and allows the light water contained in the body (10) to be discharged by an explosion of gunpowder. The impeller (40) is mounted on the front side of the body (10) to be moved frontward and backward and be rotated. The firing pin rod (30) is formed on an impeller and strikes a firing pin of the fuse assembly body. The safety means allows the firing pin rod to strike an ignition detonator of the fuse assembly body through the firing pin of the fuse assembly body (20) in the fire area. The safety means comprises: a spur gear (51); a rotor gear (52); a rotor (53); and an elastic member. The spur gear (51) is operated with the firing rod as a shaft. The rotor gear (52) is rotatably mounted on the front side of the body (10) and is engaged with the spur gear to be rotated. The rotor (53) is fixated to the rotor gear (52), allows the firing pin of the fuse assembly body (20) to be mounted thereon, and is rotated by a rotation force by the rotor gear (52) to move the firing pin to a loading position or a non-loading position. The elastic member supports the rotor (53) in a non-loaded state to move the firing pin to the non-loading position through a rotation of the rotor (53) when the firing pin is not fired.

Description

{A FOREST FIRE SUPPRESSING BOMB}

More particularly, the present invention relates to a fire extinguisher, more particularly, to prevent an accident occurring when a fire brigade is put into a fire by suppressing a fire through air drop without input of a fire brigade, Fire fighting explosive for fire fighting to secure the safety of firefighters.

Firefighting and firefighting team are difficult to enter into the mountainous area during the firefighting, so many difficulties arise in the firefighting work. Especially, it is impossible to enter at nighttime. .

Even if firefighters are allowed to enter the firefighting team, firefighting is spreading rapidly due to the influence of the wind. Therefore, fire accidents such as firefighters are frequently occurring during the fighting of forest fires.

Recently, fire fighting helicopters have been used to fight fire in forest fires.

Fire helicopters put water or fire extinguishing agents in tanks and dispatch water or fire extinguishing agents in the fire area after sending them to the fire area.

However, when the fire helicopter is filled with water and the fire is suppressed, the amount stored in the water tank is limited and it is not enough to suppress the fire. Therefore, the water tank must be filled with water and then the fire must be suppressed again. Water is filled in water tanks in the valleys near the fire area, but due to the nature of the valleys, there are obstacles (transmission towers, etc.) and wind blasts cause the fire helicopter to fall.

There are various technologies as technologies for suppressing fire, and patent documents are techniques for confirming the background of the present invention.

Patent Document 1 (Japanese Patent Application Laid-Open No. 10-2000-0050027) discloses a method of solidifying a material mainly composed of water to make a solid bullet, and a liquid or a solidified gas emitted by a gas pressure generated from a gunpowder, compressed air, gas explosive force, There is an advantage in that it can suppress the burn accident of the fire brigade due to the fire by suppressing the fire without the direct input of the fire brigade, , It requires long time for fire suppression due to the low accuracy rate and there is a cost loss. Also there is no preparation for unexploded bombs. There is a problem that an accident occurs.

Patent Document 2 (Registration No. 10-0953-937) includes a thin cover made of plastic, and a fire extinguisher composed of a plurality of internal members provided in the inside of the cover, A spherical tank provided at the center of the gyro frame when the gyro frame is assumed to be circular and having a fire extinguishing agent mounted on the inside thereof, Two first spray tubes connected to both sides of the spherical tank opposite to each other and two second spray tubes vertically connected to both sides of the spherical tank vertically to the first spray tube about the spherical tank, The device is fired at a remote fire area and the cover is broken at the collision at the target point so that the fire extinguishing agent is ejected to suppress the fire. The low fire suppression time is takes longer The problem that the cost of losses.

Patent Document 3 (Registered Patent No. 10-0993401) discloses a structure in which a space capable of containing an extinguishing agent is formed therein, a lower floor is formed so as to be able to stand flat, A container; A plurality of slit grooves formed on the outer circumferential surface between the lower bottom surface of the fire extinguisher container and the upper round shape; The upper end of the fire extinguishing container is filled with a fire extinguishing agent and is sealed with silicone so that the fire extinguisher is thrown to the fire area after being thrown and ruptured at the target point so that the fire extinguishing agent is scattered to suppress the fire , The throwing distance of the fire brigade is very limited, so that the safety of the fire brigade can not be guaranteed and the fire fighting time is long.

Japanese Patent Application Laid-Open No. 10-2000-0050027 Patent No. 10-0953937 Registration No. 10-0993401

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a fire fighting apparatus capable of protecting a firefighting team by rapidly extinguishing a fire by being dropped from the air into a fire area by a fire helicopter, The purpose of this study is to provide fire fighting explosives for fire fighting that can guarantee safety.

The fire fighting explosive for fire fighting according to the present invention comprises a body for containing fire extinguishing agent inside and for extinguishing fire by causing fire extinguishing agent to be scattered by external impact; A wing formed on the body; A fuse assembly mounted on the front of the body for spraying the extinguishing agent contained in the body by the explosion of the explosive; An impeller mounted forward and rearward and rotatably on the front of the body; A decantation bar formed on the impeller and striking a declination of the decant assembly; Wherein the safety means includes a spur gear having an axis as the axis of rotation, a rotatably mounted on the front of the body, and a spur gear mounted on the spur gear, A rotor fixed to the rotor gear and mounted on the dimple of the new pipe assembly and adapted to be rotated by a rotational force of the rotor gear to move the dimple needle to a loading position or a spooling position; And the elastic member is supported in a front state so as to move the sunken needle to the splash-proof position through rotation of the rotor when the blind spot is unfailed.

According to the fire fighting explosion-proof fire extinguisher for fire fighting according to the present invention, when handling (storage, transporting of fire helicopter, immediately before dropping, etc.), the state before the spleen is maintained and the loading state It is effective to prevent various accidents due to explosion in handling by suppressing the fire by explosion at the moment of switching to the target point. In addition, there is an effect of preventing accident of the firefighting team due to the explosion of the unexploded blast by preventing the explosion of the unexploded blast by switching from the loading state to the non-splash state again (initialization to the pre-splash position).

In addition, environment-friendly resin is used as an environment-friendly material because it is recognized as an eco-friendly product.

In addition, it is possible to track the position of unexcavated bombs, thereby recovering unexcavated bombs, thereby preventing accidents caused by unexploded bombs and reducing the loss.

1 is an exploded perspective view of a fire fighting explosive for fire fighting fire according to the present invention.
FIG. 2 is a sectional view of a fire fighting explosive for fire fighting fire according to the present invention. FIG.
3 is an exploded perspective view of a breeze assembly, a safety means and an impeller applied to a fire extinguisher for fire fighting fire according to the present invention.
FIG. 4 and FIG. 5 are a front view and a side view, respectively, showing the operating state of safety means applied to the fire fighting explosive for fire fighting fire according to the present invention.
6 is an operational view of a fire fighting explosion fire suppressing fire fighting apparatus according to the present invention.

As shown in FIG. 1, the fire fighting explosive for fire fighting fire according to the present invention includes a body 10 in which a fire extinguishing agent is contained, and a fire extinguishing agent inside the body 10, A decantation rod 30 that strikes the detonating primer of the fuse assembly 20; a forward and rearward rotatably mounted deflector rod 30 in front of the body 10; The impeller 40 moves to the loading state during flight while maintaining the spleen state immediately before storing, transporting, and discharging, and is configured as a safety means for hitting the sinkhole of the fuse assembly 20, do.

The body 10 has a tubular structure with the rear open, and the extinguishing agent is stored inside by the body cover 11 which is opened at the opposite side to the body 10.

The body 10 and the body cover 11 are coupled through screw fastening or the like.

The body cover 11 is formed with an injection part at the rear to inject the extinguishing agent through the body cover 11 while being coupled to the body 10. The injection unit is sealed through a stopper (13).

The extinguishing agent may be any product capable of suppressing fire and is not limited to a liquid phase.

As shown in FIGS. 1 and 2, the body 10 has a cylindrical structure having the same diameter as the body 10, and the body cover 11 has a structure of a linear portion having the same diameter as the funnel portion, And the body cover 11 are coupled to each other.

At the periphery of the body cover (11), a blade (13) is configured to fly to the target point when the fire extinguishing explosion is released and to be released to the target position.

The fire extinguishing liquid refers to all the materials for suppressing the fire and is contained in the body 10 and the body cover 11 and is sealed with the plug 12.

The body 10, the body cover 11 and the wing 13 are made of an eco-friendly resin which is capable of splashing and discharging extinguishing liquid and which does not pollute the environment. Therefore, unnecessary collection work is not required. The stopper 12 is made of rubber for the sealing force and has a groove which is opened to the inside in the rear direction so that the sealing force by the elastic force is increased.

The body 10 has a fuse holder 14 for mounting the fuse assembly 20 on a front inner surface thereof. The trunk receiving portion 14 can be constituted by a circular wall protruding from the inner surface of the body 10. [

A tubular guide 15 communicating with the inside and the outside of the body 10 is formed on the front surface of the body 10 to support forward and backward movement and rotation of the facing bar 30.

As shown in Figs. 2 and 3, the fuse assembly 20 includes a fuse body 22a having a cylindrical (or circular) structure open frontward, An explosive primer 23 which is mounted inside the body of the new body and is ignited by a blow of a sinking described later to detonate the gunpowder in the gunpowder 22; And a safety cover 50 that supports the detonating primer 23 and supports the rotation guide shaft of the rotor gear, which is configured in the safety means 50 described later, and a safety means 50, And a top cover 26 closing the front opening of the main body 21.

The main tube body 21 is preferably of any tubular structure providing a space in which the priming primer tube 23, the primer cover 24, the dimmer 25 and the safety means 50 are inserted, As shown in Fig.

The main pipe body 21 is mounted with the explosive primer tube 23 and the part facing the gunpowder 22a is opened so that the explosive force of the explosive primer tube 23 is transmitted to the gunpowder 22a, The priming hole 25a is opened so that the primer mounting hole 21a in which the priming primer 23 is mounted is constituted.

The primer mounting hole 21a has a diameter capable of insertion insertion of the priming primer 23 so that the priming primer 23 does not fall into the gun barrel 22 or the position is not moved A latching jaw 21b is formed which does not block the hole so that the ignition force of the explosive primer 23 is transmitted to the gunpowder 22a.

The main pipe body 21 may have an axial groove 21c on the inner surface thereof for supporting the rotation guide shaft of the rotor gear of the safety means 50. [

The gunpowder cylinder 22 has a large diameter, for example, a gunpowder accommodating portion and an opening portion of the gunpowder accommodating portion, and is screwed to the new pipe accommodating portion 14 of the body 10 while covering the new pipe body 21 And a coupling portion.

That is, the powder canister 22 is coupled to the fuse holder 14 of the body so that the fuse body 21 and other components are naturally installed in the fuse holder 14 while maintaining the mounting position.

The detonating primer 23 is inserted into the primer mounting hole 21a of the main body 21 and is ignited when hit by the dimmer 25 to detonate the gunpowder 22a.

The primer cover 24 supports the priming primer 23 from the front to prevent the priming primer 23 mounted on the primer mounting hole 21a of the priming body 21 from being distanced from the priming primer 23, And a shaft support hole 24b through which the rotation guide shaft of the rotor gear of the safety means 50 is inserted and supported is provided.

It is of course possible not to form the shaft groove 211c of the body 21 and to form the shaft groove in place of the shaft support hole 24b in the primer cover 24. [

The sunk needles 25 are preferably cylindrically shaped with a pointed striking part in front of the awakening primer 23 to strike the detonating primer 23 by the strike of the deflecting rod 30, Which is embodied in the description of the safety means 30.

The upper cover 26 is joined to the front of the main pipe body 21 to support the above-described components 23, 24 and 25 and requires a hole penetrating front and rear so as to enable a blow by the splash bar 30 For example, in a ring shape.

The declination probe 30 inserted in the guide 15 and the detonating primer 23 are arranged in a straight line and the declutter 25 between the declutometer 30 and the detonating primer 23 So that they remain in a non-sparking state or are arranged in a straight line between the defensive rods 30 and the explosive primer 23 to maintain the loaded state.

The main body 21, the gunpowder 22, the primer cover 24, and the upper cover 26 are made of eco-friendly resin, and the dimple 25 is made of metal.

The splash bar 30 is formed on the rear side of the impeller 40 so that the splash bar 30 is rotatably mounted inside the guide 15 of the body 10 so as to be rotatable forward and rearward and is rotated by the impeller 40 Hit.

The impeller 40 is mounted on the body 10 via a splash bar 30 in the form of a plurality of vanes 42 provided on the periphery of the head 41.

The safety cover 60 is mounted in front of the body 10 so that the impeller 40 is not detached from the body 10. [

The safety cover 60 has a structure in which a hole is provided through a plurality of support rods 61 so that the impeller 40 is rotated by the wind while the rear portion is fixed to the front of the body 10 by screwing or the like.

The support 61 may comprise a central rim and a plurality of spokes radially formed in the periphery of the rim to prevent the impeller 40 from rotating due to the engagement of the safety pin 62. The safety pin 62 is fitted to the pin hole 45 of the impeller 40 on both sides in the longitudinal direction to prevent the impeller 40 from advancing and rotating.

The impeller 40 is configured to be able to advance toward the sunk 25 but can not be reversed to strike the sunk needle 30 and is hung behind the support 61 of the safety cover 60 At least one support step 43 is formed to protrude from the periphery.

An impeller supporting spring 44 in the form of a coil spring, for example, may be applied as an elastic member to maintain the splash bar 30 in a splash-proof state. The impeller support springs 44 are coupled to the circumferential portion of the guide 15 so that both sides are supported on the opposed surfaces of the impeller 40 and the body 11 so that the splash- Keep the state.

The impeller 40 advances the cocking rod 30 to the sunk 25 by the collision of the head 41 so that the head 41 protrudes forward from the safety cover 60, So as to be able to move back and forth in the rim of the safety cover (60).

The safing means 50 maintains the pre-shunt condition so that the cock stick 30 can not strike the sunken ship 25 when it is stored in the throttle when transporting the explosive explosive, , And changes the position of the sunken needle (25) to switch the state before splashing and the state of loading.

The safety means 50 for performing such a function includes a spur gear 51 coupled to an end of the declutching rod 30 and rotating around the declutching rod 30, A rotor gear 52 which is engaged with the spur gear 51 in the previous state so as to be switched to a charged state and a fixed gear which is fixed to the rotor gear 52 and which is provided with a dimple 25, 30 to the striking position of the rotor.

The spur gear 51 is fixed to the end of the declutching bar 30 and is initially in a state of not engaging with the rotor gear 52 through the impeller supporting spring 44, And rotates together with the rotor gear 52 by rotation of the declutching rod 30. The rotor gear 52 is rotated by the rotation of the declutching rod 30,

The rotor gear 52 is fixed to one surface of the rotor 53 and is rotatably supported by the primer cover 24 and the main body 21 when the rotation guide shaft 54 passes through the center of the rotor.

The rotor 53 is interposed between the primer cover 24 and the upper cover 26 in the interior of the main body 21 so as to switch the position of the dimple 25 from the pre- And is formed of a circular plate having a smaller diameter than a cam shape (streamline type, etc.) or a primer cover (24).

The rotor 53 is provided with a puncture hole 53a into which the puncturing needle 25 is inserted so as to advance toward the detonating primer 23.

That is, the rotor 53 is integrally formed with a sun gear 53a at the center thereof and a rotation guide shaft 54 through which the rotor gear 52 is fixed. The rotor 53 rotates through the rotation guide shaft 54 to switch the dimple 25 from the non-splash state to the charged state.

In the meantime, according to the present invention, a rotor supporting spring 55 (see FIG. 4 (a)) as an elastic member for holding the rotor 53 in a state before splashing so as not to be hit by the splash- And Fig. 5) are applied. The rotor support spring 55 is not limited to a coil spring as shown in the drawing, but a plate spring is also possible.

The rotor support springs 55 are supported on both sides of the main pipe body 21 (or the primer cover 24) and the rotor 53 so as to elastically support the rotor 53 in a splash-proof state of the sunk 25, The spur gear 51 is switched to the loaded state when the spur gear 51 is rotated by the decelerating rods 40 and the declutching rods 30.

When the fire fighting explosive for fire fighting according to the present invention is unplugged in a state where the flying needle 25 is switched to the loading position during the flight, the rotor 53 is rotated in the spleen direction by the elastic force of the rotor supporting spring 55 There is a safety that the explosive does not explode even when an external force is applied due to the switching of the sunk needles 25 to the pre-splitting state. In this way, a position tracking sensor can be provided to facilitate recovery in the pre-splitting state.

The position tracking sensor transmits its position through satellite communication and can be installed anywhere in the body 10, the safety cover 60, etc., and is installed through a sensor holder or the like at a position that is not damaged by impact .

The operation of the fire fighting explosive for fire fighting according to the present invention is as follows.

The fire fighting explosive for fire fighting firefighting according to the present invention is a fire fighting explosive for fire fighting of the present invention, for example, a plurality of fire fighting explosives for hanging on a skid of a helicopter are loaded on a loading box, .

6, in a state where the safety pin 62 is stuck in the impeller 40 as in the state (A), the impeller 40 does not rotate or rise as shown in the drawing, The gear 51 and the rotor gear 52 are not engaged with each other and remain separated.

The safety pin 62 is removed as shown in (B) before the release of the explosion explosion. Even when the safety pin 62 is removed, the impeller 40 is elastically supported by the impeller support spring 44 in the downward direction (reference to the drawing), so that the spur gear 51 and the rotor gear 52 are kept in a disengaged state .

In this state, fire fighting explosives for fire fighting fire are dropped in the fire area to the fire area.

As shown in (C), the impeller 40 is lifted and rotated on the basis of the drawing, and the impeller 40 is lifted and lowered by the induction air pressure in the direction opposite to the downward movement of the extinguish- The spur gear 51 is engaged with the rotor gear 52 by the upward movement.

The rotor gear 54 is rotated by the rotation of the spur gear 51 by the impeller 40 and the rotor 53 and the rotor gear 54 together with the elastic force of the rotor support spring 55 And thus the sunk needle 25 is aligned and loaded with the awakening primer 33 in a straight line.

When the fire fighting explosive for fire fighting fire extinguishes in the state of being loaded, the impeller 40 first collides with the fire area due to the structure of the fire fighting explosive for fire fighting fire, and the impact of the impeller 40 The declutching rod 30 strikes the declutter 25 as shown in (E), and the declutter 25 hits the detonating primer 33.

The explosive primer 33 is detonated by the blow of the sunk 25 to ignite the gunpowder 22a and the gunpowder 22a explodes and breaks the body 10 as shown in FIG. Crush the fire.

In the fire fighting explosive for fire fighting according to the present invention, the body 10 and the like are made of eco-friendly resin and do not pollute the environment.

When unburned carbon is generated during the discharge of the fire fighting explosive for fire fighting according to the present invention, the rotor 53 is rotated in the opposite direction to the long side by the elastic force of the rotor support spring 55, (33).

Therefore, even when the puncture rod 30 advances toward the priming primer 33, the priming primer 33 is blocked by the rotor 53 between the priming rod 30 and the priming primer 33, And as a result, when the fire brigade recovers unexploded ordnance, it prevents an accident caused by an explosion.

10: body, 11: body cover
12: plug, 13: wing
14: fuse receptacle, 20: fuse assembly
21: New body, 22: Gunpowder
23: Explosive primer, 24: Primer cover
25: declination, 26: upper cover
30: decanting rod, 40: impeller
44: impeller supporting spring, 45:
50: safety means, 51: spur gear
52: rotor gear, 53: rotor
54: rotation guide shaft, 55: rotor support spring,
60: safety cover, 61: support
62: Safety pin,

Claims (6)

A body (10) containing a fire extinguishing agent inside and extinguishing the fire extinguishing agent by an external impact;
A blade (13) formed on the body;
A fuse assembly (20) mounted on the front of the body and adapted to blow out the extinguishing agent contained in the body by explosion of a gunpowder;
An impeller (40) mounted forward and rearward and rotatably in front of the body;
(30) formed on the impeller and striking a sinkhole of the fuse assembly when the fuse collides with a fire area;
And a safety means for preventing the sighting rod from striking the fuse of the fuse assembly when the fuse is blown out of the fuse, through the fuse of the fuse assembly in the fire zone,
The safety means includes a spur gear (51) having the declutching rod as an axis, a rotor gear (52) rotatably mounted on the front of the body and rotating in engagement with the spur gear, A rotor (53) mounted with a dimple of the assembly and configured to move the dimple needle to a charging position or a splashing position while being rotated by a rotational force of the rotor gear, And an elastic member for moving the sinker to a pre-spline position. The fire extinguisher according to claim 1, further comprising an elastic member for elastically supporting the impeller forward to prevent explosion due to misfire by switching to a non-sparking state. The fire fighting explosion suppressing apparatus according to claim 1 or 2, further comprising a safety cover mounted on the front of the body for supporting the impeller. [3] The apparatus according to claim 3, wherein the fuse assembly includes a fuse body opened toward the front, a gunpowder containing gunpowder inside the fuse body mounted on the rear of the fuse body, ignition by an impact from the outside, A detonating primer for detonating a gunpowder inside the powder canister, a primer cover which is mounted inside the main body and has a diminishing movement hole to support the priming primer and supports a rotation guide shaft of the rotor gear, And a ring-shaped top cover mounted on a front side of the main body body to support the rotor, wherein the main cover rotates in a spleen and load state by a rotor, Fire extinguisher explosion for suppression. [4] The fire extinguisher according to claim 4, further comprising a safety pin supported by the safety cover and fitted to the impeller to prevent forward and backward rotation and rotation of the impeller. The fire extinguisher according to claim 1, further comprising a position-tracking sensor installed on the fire extinguisher for fire fighting fire.

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