KR20180078513A - Hand grenade fuse - Google Patents

Abstract

The present invention relates to a grenade fuse. According to the present invention, the grenade fuse has a structure to block a retardant (72) and an explosive (68) with a safety cap (76) interposed therebetween in order to prevent a contact when the retardant (72) and the explosive (68) separated from a lower side fuse holder (62) are charged into an ignition pipe (70). Thus, even if flame is generated when a detonator (66) is ignited in a state that the retardant (72) is not charged or is badly charged due to a mistake of manufacturing equipment or a worker, the frame is blocked by the safety cap (76) without being transferred to the explosive (68) charged in the ignition tube (70). Accordingly, the grenade is not operated (exploded), thereby preventing an accident, such as life and facility damage, and the like.

Description

{HAND GRENADE FUSE}

The present invention relates to a grenade fuse, and more particularly, to a grenade fuse having improved stability of a grenade.

Generally, grenades are to explode when they are over a safe distance from the throwing area, and the detonators are widely applied to equipment equipped with primers such as flares and training grenades.

For example, in the conventional goggle structure of the registered utility model 20-0337268 proposed in the prior art, as shown in FIG. 1, a primer 22 is installed on the grenade 20 and a retarder 24 is charged And a detonating tube 10 filled with a peanut 12 while being coupled to the main body 32 and attached to the body coupling body 40. [

When the ignition signal of the primer tube 22 installed in the body tube 32 is received and ignited, the retarder 24 is burned for 4-5 seconds to ignite the peony 12 in the explosion tube 10, Explosion of the gunpowder charged in the torus coupling body 40 is caused by the explosion force generated by the ignition of the peony 12.

However, the grenade construction thus constructed is such that the primer 22 and the retarder 24 are integrated at the upper and lower portions of the main body 32, It is possible to prevent the delays 24 from being filled due to facility or worker errors in the step of manufacturing the finished product of the hand grenade 20, There is no safety device between the primer 22 and the pharmacopoeia 12 in the case of the (24) charging failure, so that it is impossible to avoid the immediate disintegration of the hand grenade 20, there was.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a safety cap which can prevent a flame from being generated when a primer is ignited under the condition that the delay agent is not fully charged or the charging is inadequate, The present invention provides a grenade launcher capable of preventing safety accidents such as damage to human lives and facilities by preventing a flame from being transmitted to a peony filled with an explosive, thereby preventing a grenade from operating (exploding).

According to an aspect of the present invention, there is provided a grenade launcher according to an embodiment of the present invention includes an upper fuse holder formed with a through hole, a plurality of outer diameters formed on the outer fuse to be coupled to a lower side through hole of the upper fuse holder, A primer supporting part which is supported between the upper fist holder and the lower fist holder and is formed with a through hole at the center so that a primer is inserted and fixed on the upper surface of the primer supporter, And an airtight tube which is press-fitted and fixed to a lower outer diameter of the primer supporting part through a lower portion of the through hole of the lower side fuse holder.

In another embodiment of the present invention, a safety cap is inserted and fixed inside the explosion tube of the present invention, and the safety cap is interposed between the retarder and the retarder, .

In another embodiment, the peanut of the present invention is constituted by a high explosive charge which is filled to a certain depth through the lower opening of the geared pipe in the inner lower part of the abovementioned explosion pipe, and an explosive charged inside through the lower opening of the safety cap .

In another embodiment, the detonation tube of the present invention is formed to be twice as large as the length of the ground connection so that the ground connection is press-fit to the middle depth after the high explosive is filled through the upper opening.

In another embodiment, the jig of the present invention is formed into a cylindrical shape with a lower opening than the upper opening, and is four times longer than the length of the safety cap so that the safety cap is press- Or more.

In another embodiment, the safety cap of the present invention is formed in a cylindrical shape with an opening at its bottom, and is characterized by forming a boundary by abutting a high explosive charged in the explosion tube when the explosive is filled through the lower opening.

The grenade fuse tube of the present invention has a structure in which a retardant and a peeling agent separated from a new tube holder are blocked so as not to come in contact with each other through a safety cap when the inside of the peeling tube is charged, The flame is prevented from being transmitted to the pea filled with the safety cap by the safety cap so that the grenade can be prevented from operating (exploding). Therefore, even if the flame is ignited and the primer is ignited, There is an effect that a safety accident such as a damage can be prevented in advance.

1 is a cross-sectional view of a conventional grenade structure,
2 is a fragmentary cross-sectional view showing the structure of a new pipe of a grenade according to the present invention,
FIG. 3 is a cross-sectional view illustrating a structure of a grenade according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 2 and 3.

The grenade fuse tube of the present invention includes an upper fuse holder 60 having a through hole 60a that is wider than the upper portion at the center and an outer fuse holder 60a which is coupled to the lower side fuse hole 60a of the upper fuse holder 60, A lower side fuse holder 62 formed with a lower end of the upper fuse holder 62 and a lower end fuse hole 62b formed at the center of the upper fuse holder 62 and the lower fuse holder 62, A primer supporter 64 having a through hole 64a formed at an upper portion thereof so as to expose an upper portion of the through hole 60a and to expose a lower portion of the through hole 62b, A main pipe 66 which is inserted and fixed in the upper surface side through hole 64a of the support portion 64 and a main pipe 68 which is opened at the upper side and filled with a peanut 68 and is inserted into the through hole 62b of the lower side fuse holder 62, (70) which is press-fitted and fixed to a lower outer diameter of the primer supporting portion (64) through a lower portion, And a jig 74 inserted and fixed in the inner center of the detonating tube 70 and inserted into and fixed to the jig 68 through the lower part of the jig 74. [ And a safety cap 76 for blocking the retarder 72 from contacting.

The through hole 60a of the upper fuse holder 60 is divided into four steps such that the through hole 60a gradually widens from the upper portion to the lower portion of the upper fuse holder 60. In the first-end through hole 60a-1 from the upper portion, The upper outer diameter of the lower fuse holder 64 is fitted with the corresponding height and diameter, and the upper outer diameter of the lower fuse holder 62 is fitted to the corresponding two-end side through hole 60a-2 with a corresponding height and diameter. The intermediate lower outer diameter of the lower side fuse holder 62 is correspondingly screwed to the one side through hole 60a-3 and the middle lower outer diameter of the lower side fuse holder 62 Are fitted with corresponding heights and diameters.

The multi-stage outer diameter surface 62a of the lower side fuse holder 62 has a stepped portion divided into four steps such that the outer diameter surface 62a of the lower side fuse holder 62 gradually widens toward the middle than the upper portion and is narrower than the middle portion. Side outer surface 62a of the upper fuse holder 60 is fitted at a height and a diameter corresponding to the through holes 60a-2 at the two-end side of the upper fuse holder 60, Side outer surface 62a-3 of the upper fuse holder 60 is screwed so as to correspond to the through hole 60a-3 of the upper side fuse holder 60, And the four-end outer surface 62a-4 is screwed to be screwed with the conventional body coupling body 40. [

The through hole 62b of the lower side fuse holder 62 is formed with a narrower stepped portion than the upper portion. The lower side through hole 62b-1 is provided with an intermediate outer diameter of the primer supporting portion 64 And the lower outer diameter of the primer supporting portion 64 is fitted to the lower side through hole 62b-2 in a satisfactory manner.

The outer peripheral surface of the primer supporting portion 64 is formed with a multi-stage outer diameter surface 64b having an intermediate width wider than the upper and lower portions. The upper outer surface 64b- And the intermediate outer diameter surface 64b-2 is fitted with the height and diameter corresponding to the one-end through hole 62b-1 of the lower side fuse holder 62 And the lower outer radial surface 64b-3 is inserted into the lower side through hole 62b-2 of the lower side fuse holder 62, It is forcedly fitted.

The decanter 68 includes a high explosive 68a which is filled to a certain depth through the bottom opening of the ground 74 at the inner lower portion of the closure tube 70 and a high explosive 68a through the bottom opening of the safety cap 76 And an explosive medicine 68b charged in the air.

The vent pipe 70 is formed in a cylindrical shape with an upper opening so that after the high explosive 68a of the pellet 68 is filled through the upper opening, the pipe 74 is press- (74).

The jig 74 is formed in a cylindrical shape with a lower opening than the upper opening so that the safety cap 76 is press-fitted to a predetermined depth after the retarder 72 is filled through the lower opening. 4 to 5 times larger than the length of the guide grooves.

The safety cap 76 is formed in a cylindrical shape with an opening at its lower end and is fixed to a predetermined depth through a lower opening of the ground joint 74 after the warp reagent 68b of the peacock 68 is filled through a lower opening, The high explosive 68a charged in the vent pipe 70 abuts against the explosive 68b when filled to a certain depth through the lower opening of the geological association 74 to form a boundary.

Hereinafter, the operation and effects of the thus configured grenade canister of the present invention will be described.

In order to assemble the grenade launch tube of the present invention, the retarder 72 is metered and charged in the predetermined amount of the retarder 72, and the warp reagent 68b is weighed in the predetermined amount in the safety cap 76 And the high explosive 68a is metered and charged into the inside of the detonating pipe 70 in a predetermined amount.

When the safety cap 76 is inserted through the lower part of the ground contact 74 in the state of being charged as described above, 72 are pressed and the safety cap 76 is inserted and fixed so as to be positioned at a certain depth.

When the ground 74 is inserted into the vent pipe 70, the pressure of the safety cap 76 is applied to the high explosive 68a are pressed and the high explosive 68a is brought into contact with the interior of the safety cap 76 so as to form a boundary with the first charged explosive 68b.

In other words, the detonating tube 70 includes a retarder 72 filled in the interior of the retainer 74 with the safety cap 76 interposed therebetween to receive the ground 74 and the safety cap 76, And is press-fitted into the lower outer surface 64b-3 of the primer supporting portion 64 after being assembled first so that the peony 68 filled in the inside of the detonating pipe 70 is prevented from touching.

At this time, when the lower end of the aerating tube 70 coupled with the primer supporting portion 64 is inserted into the upper side through hole 62b of the lower side fuse holder 62, the intermediate outer surface 64b of the primer supporting portion 64 2 is fitted and fixed in correspondence with the upper side through hole 62b-1 of the lower side fuse holder 62 and the lower side outer diameter surface 64b-3 of the priming tube supporting portion 64 is fixed to the ceiling pipe 70 And is positioned in the lower side through hole 62b-2 of the lower side fuse holder 62 in a press-fitted state.

When the outer diameter surface 62a of the lower side fuse holder 62 is aligned with the through hole 60a of the upper side fuse holder 60 and screwed into the through hole 60a of the upper side fuse holder 60, Side fistula holder 60 and the lower fistula holder 62 by fitting the first fuse holder 64b-1 to the second fuse holder 60a-2 of the upper fuse holder 60, The assembling is completed so that the support portion 64 is not moved to the upper portion and the lower portion.

Therefore, the present invention is advantageous in that when the retarder 72 and the peeler 68 separated from the lower fountain holder 62 are charged into the inside of the vent pipe 70, The flame is generated by the safety cap 76 even if the primer 66 is ignited and the flame is generated in a state where the retarder 72 is neglected due to carelessness of the manufacturing equipment or the worker's mistake or in the state of poor charging. 70 to the peony 68 filled in. As a result, the grenade does not operate (explode), so safety accidents such as damage to human life and facilities can be prevented in advance.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. You must see.

60: upper side fuse holder 60a: through hole
60a-1: One-side through hole 60a-2: Two-side through hole
60a-3: Three-side through hole 60a-4: Four-side through hole
62: lower side fuse holder 62a: multi-stage outer diameter surface
62a-1: one-side outer diameter surface 62a-2: two-end outer diameter surface
62a-3: 3-end side outer diameter surface 62a-4: 4th end side outer diameter surface
62b: Through hole 62b-1: Upper side through hole
62-2: lower side through hole 64: primer support
64a: Through hole 64b-1: Upper side outer diameter surface
64b-2: intermediate outer diameter surface 64b-3: lower outer diameter surface
66: Primer 68: Peony
68a: high explosives 68b: explosive
70: Explosive tube 72: retarder
74: Pitch 76: Safety cap

Claims (6)

An upper fuse holder 60 in which a through hole 60a is formed,
A lower side fuse holder 62 having a plurality of outer diameters 62a formed on an outer diameter thereof to be coupled to a lower side through hole 60a of the upper side fuse holder 60 and having a through hole 62b formed at the center thereof,
A primer supporter 64 having a penetration hole 64a formed at the center of the upper fuse holder 60 and the lower fuse holder 62 so that the primer 66 is inserted and fixed on the upper surface thereof,
And a detonator 70 which is press-fitted and fixed to the lower outer diameter of the primer support 64 through a lower portion of the through hole 62b of the lower-side fuse holder 62, The grenade fuse is characterized by doing. The method according to claim 1,
A connection 74 inserted and fixed in the vent pipe 70 and filled with a retarder 72 therein,
And a safety cap (76) inserted and fixed in the ground joint (74) to block the pecker (68) and the retarder (72) from coming into contact with each other. The method of claim 2,
The decanter 68 includes a high explosive 68a which is filled to a certain depth through the bottom opening of the ground 74 at the inner lower portion of the closure tube 70 and a high explosive 68a through the bottom opening of the safety cap 76 (68b) charged in the grenade fuse (68b). The method of claim 3,
The vent pipe 70 is formed to be twice as large as the length of the ground joint 74 so that the ground joint 74 is press-fitted to the middle depth after the high explosive 68a is filled through the upper opening. The grenade fuse. The method of claim 2,
The jig 74 is formed in a cylindrical shape with a lower opening than the upper opening so that the safety cap 76 is press-fitted to a predetermined depth after the retarder 72 is filled through the lower opening. The length of the grenade fuse is larger than the length of the grenade fuse. The method of claim 3,
The safety cap 76 has a cylindrical shape with an opening at the lower end thereof and abuts against the high explosive 68a charged in the explosion pipe 70 when the explosive 68b is charged through the lower opening to form a boundary A grenade fuse that features.

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