KR20210080951A - Double detonation apparatus for warhead - Google Patents

Abstract

The present invention relates to a double-detonation device for a warhead. The double-detonation device includes: a first detonation tube part detonating a main charge of gunpowder in a warhead; a first detonation part igniting the first detonation tube part; a second detonation tube part located apart from the first detonation tube part and detonating the main charge of gunpowder in the warhead; and a second detonation part igniting the second detonation tube part. Therefore, the double-detonation device is capable of preventing a guided projectile from being fired by accident by stably detonating a main charge of gunpowder in a warhead of the guided projectile; enabling the warhead of the guided projectile to be accurately exploded on a target or a target spot; preventing a deterioration in the performance of the warhead by stably maintaining the performance of the warhead due to the main charge of gunpowder in the warhead of the guided projectile detonated in the center of the warhead; and enabling the stable operation of guided weapons.

Description

DOUBLE DETONATION APPARATUS FOR WARHEAD

The present invention relates to a double detonator for a warhead, and more particularly, to a double detonator for a warhead including an auxiliary detonator that enables concentric detonation of the warhead.

A guided missile is an assembly composed of various parts such as propulsion engine, airframe, guided control device, driving device, searcher, inertial navigation device, and warhead/fuze.

That is, a guided missile is a guided weapon capable of hitting a target or target point by flying to and reaching a target or target point and then exploded.

In the warhead of the guided missile, a main charge for detonation is located, and a detonator tube for detonating the main charge and a fuse for operating the detonator tube are located.

The fuse includes a detonator for operating the detonator tube and a detonator tube for detonating the main charge.

Normally, the fuse of the guided missile warhead operates the detonator tube, and the activated detonator tube detonates the main charge.

However, in the conventional fuse for guided missiles, when a malfunction of the initiator that is ignited by receiving an electrical signal through a single detonator tube occurs, misfire accidents in which the main charge is not fired frequently occur.

0001) Korean Patent Registration No. 1703839 "Warhead deformation and damage detection fuse (registered on 2017.02.01.)

An object of the present invention is to provide a double detonator for a warhead capable of stably detonating the main charge in the warhead of a guided missile, including a main detonator tube and an auxiliary detonator tube.

Another object of the present invention is to provide a dual detonator for a warhead capable of stably maintaining warhead performance by detonating the main charge in the warhead of a guided missile at the center of the warhead.

In order to achieve the above object, one embodiment of the double detonator for a warhead according to the present invention is a first detonator tube portion for detonating the main charge in the warhead, a first detonator portion for igniting the first detonator tube portion, the first It is characterized in that it is spaced apart from the detonator tube portion and includes a second detonator tube portion for detonating the main charge in the warhead, and a second detonator portion for igniting the second detonator tube portion.

In the present invention, the first detonator tube portion is connected to the main detonator tube member and the main detonator tube member in which the first gunpowder to be detonated by the first detonator is located inside, and contains the first gunpowder and the main charge in the warhead therein. It may include a main connecting pipe member in which the first connecting gunpowder to connect is located.

In the present invention, the second detonator tube portion is connected to the auxiliary detonator tube member and the auxiliary detonator tube member and the main connecting tube member in which the second gunpowder detonated by the second detonation portion is located therein, and the second gunpowder inside It may include an auxiliary connecting pipe member in which the second connecting gunpowder for connecting and the first connecting gunpowder is located.

In the present invention, the main initiator tube member and the auxiliary initiator tube member may be positioned side by side.

In the present invention, the auxiliary connector member may be vertically connected to the main connector member.

In the present invention, the main connector member may be positioned concentrically with the center of the main charge in the warhead.

The present invention has the effect of stably detonating the main charge in the warhead of the guided missile, including the main bomber and the auxiliary detonator, to prevent the non-operational accident of the guided missile so that the warhead of the guided missile can accurately explode at the target or target point. have.

The present invention has the effect of stably maintaining the warhead performance by detonating the main charge in the warhead of the guided missile at the center of the warhead, thereby preventing the performance degradation of the warhead and stably operating the guided weapon.

1 is a view showing an embodiment of a double detonator for a warhead according to the present invention.
2 is a view showing a warhead for a guided missile having a double detonator for a warhead according to the present invention.

Hereinafter, the present invention will be described in more detail.

A preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings as follows. Prior to the detailed description of the present invention, the terms or words used in the present specification and claims described below should not be construed as being limited to conventional or dictionary meanings. Therefore, the configuration shown in the embodiments and drawings described in the present specification is only the most preferred embodiment of the present invention and does not represent all the technical spirit of the present invention, so at the time of the present application, various It should be understood that there may be equivalents and variations.

It is a view showing an embodiment of the double detonator 300 for a warhead according to the present invention, and referring to FIG. 1 , an embodiment of the double detonator 300 for a warhead according to the present invention detonates the main charge in the warhead. The first detonator tube portion 10 to ignite the first detonator tube portion 10, the first detonator portion 20 to ignite the first detonator tube portion 10, and the second detonator tube portion to be spaced apart from the first detonator tube portion 10 and detonate the main charge in the warhead. (30), and a second initiator portion 40 for igniting the second initiator tube portion (30).

As an example, the first detonation unit 20 is an electric fuse for detonating the gunpowder in the first detonator tube unit 10 by receiving an electrical signal.

In addition, as an example, the second detonator unit 40 is an electric fuse for detonating the gunpowder in the second detonator tube unit 30 by receiving an electrical signal.

The first detonating unit 20 and the second detonating unit 40 can be variously modified and implemented using a known electric fuse that ignites the gunpowder in the detonator tube by receiving an electrical signal, respectively, a more detailed description is omitted. do.

In addition, the first detonation unit 20 and the second detonation unit 40 can be variously modified and implemented using a known fuse that ignites the gunpowder in the detonation tube in addition to the electric fuse, respectively, and detailed description is omitted. reveal the

On the other hand, the first initiator tube 10 is connected to the main initiator tube member 11, the main initiator tube member 11, in which the first gunpowder ignited by the first initiator 20 is located therein, It includes a main connecting pipe member 12 in which the first connecting gunpowder connecting the first gunpowder and the main explosive in the warhead is located.

In the first detonation tube part 10, the first explosive of the main detonating tube member 11 is ignited to detonate the first connected explosive, and the first connected explosive ignites the main explosive in the warhead to detonate it.

In addition, the second initiator tube 30 includes the auxiliary initiator tube member 31, the auxiliary initiator tube member 31 and the main connecting tube member in which the second gunpowder ignited by the second initiator 40 is located therein ( It is connected to 12) and includes an auxiliary connecting pipe member 32 in which a second connecting powder connecting the second and the first connecting gunpowder is located.

The second detonation tube part 30 ignites the second gunpowder of the auxiliary detonator tube member 31 to detonate the second connecting powder, thereby detonating the first connecting gunpowder connected to the second connecting gunpowder, and through the first connecting gunpowder It ignites the charge in the warhead and detonates it.

The main initiator member 11 and the auxiliary initiator member 31 are positioned side by side, and the auxiliary connector member 32 is vertically connected to the main connector member 12 in the shortest distance.

That is, even if detonation is not generated in the first detonator tube portion 10, the second detonator tube portion 30 is detonated and the first connecting gunpowder in the main connecting tube member 12 is detonated through the auxiliary connecting tube member 32 to finally This will ignite the main charge in the warhead and detonate it.

In addition, the main connector member 12 is positioned to coincide with the center of the main charge in the warhead so that the initiation can be made at the concentricity of the warhead.

2 is a view showing a warhead for a guided missile having a double detonator 300 for a warhead according to the present invention, and referring to FIG. 2 , a warhead for a guided missile having a double detonator 300 for a warhead according to the present invention is a warhead of a guided missile that arrives at a target or target point by flight and strikes the target or target point, and is located in the warhead housing part 100, the warhead housing part 100, and is detonated and exploded in the main weak part 200, the main weak part and a double detonator 300 for a warhead that detonates 200 .

The double detonator 300 for a warhead may be implemented in the same manner as the implementation of the double detonator 300 for a warhead according to the present invention.

That is, the double detonator 300 for the warhead includes a first detonator tube portion 10 for detonating the main detonation portion 200, a first detonator portion 20 for igniting the first detonation tube portion 10, a first detonator tube portion ( 10) and a second initiator part 30 for initiating the main weak part 200 and a second initiator part 40 for igniting the second initiator part 30, the other embodiments are described above Since it is the same as mentioned in the above, it is omitted for redundant description.

As an example, the fuse unit 400 applies an electric signal to the first detonator unit 20 and the second detonator unit 40 to ignite the first detonator unit 10 and the second detonator unit 30, respectively. , it can be implemented with various modifications using a known fuse structure used to apply a detonation signal from a guided missile, and a more detailed description will be omitted.

In addition, the warhead for a guided missile having the double detonator 300 for the warhead according to the present invention may further include a fuse unit 400 for applying a detonation signal to the double detonator 300 for the warhead.

In addition, the fuse part 400 includes a fuse housing member 410 in which the double detonator 300 for the warhead is built, and the fuse housing member 410 exposes the end side of the main connector member to one end side. It has a structure in which the opening part is located so that it can be connected to the first connecting powder and the main weak part in the main connecting pipe member 12 , that is, the central explosive member 210 .

Inside the fuse housing member 410, a first detonator tube portion 10, a first detonator portion 20, a second detonator tube portion 30, and a second detonator portion 40 are positioned, in more detail the main detonator tube The member 11 , the main connector member 12 , the first initiator 20 , the auxiliary initiator member 31 , the auxiliary connector member 32 , and the second ignition pipe part 40 are positioned.

The main charge unit 200 is located in the center of the warhead housing unit 100 and surrounds the central explosives member 210, the central explosives member 210 that is detonated by the double detonator 300 for the warhead, and is filled in the warhead housing. It includes a medicine member (220).

The central explosives member 210 and the main connecting pipe member 12 are located concentrically, and the main explosive 200 through the main connecting pipe member 12 is initiated at the center of the central explosives member 210 .

The central explosives member 210 and the main explosives member 220 have different gunpowder compositions, the central explosives member 210 includes high explosives, metal particles, and a binder, and the main explosives members 220 are high explosives and binders. It is designed to include only

The central explosive member 210 may further include metal particles compared to the main explosive member 220 to improve the explosive power.

In the double detonation device 300 for warhead according to the present invention, even if detonation is not generated in the first detonator tube portion 10 and detonation occurs in the second detonator tube portion 30, the central gunpowder through the auxiliary connecting tube member 32 The initiation is generated at the center of the main weak part 200 through the main connector member 12 positioned concentrically with the member 210, that is, concentric with the center of the main weak part 200.

When the detonation is made in the main weak unit 200 shifted from the center of the warhead, the warhead performance is deteriorated.

The double detonator 300 for a warhead according to the present invention is ultimately claimed through the main connecting tube member 12 even if detonation occurs on either side of the main detonator tube member 11 and the auxiliary detonator tube member 31 . Since detonation is generated at the center of the drug, the performance of the guided missile can be stably maintained.

The present invention can stably detonate the main charge in the warhead of the guided missile, including the main bomber and the auxiliary detonator, thereby preventing the non-operational accident of the guided missile so that the warhead of the guided missile can accurately detonate at the target or target point.

According to the present invention, the warhead performance can be stably maintained by detonating the main charge in the warhead of the guided missile at the center of the warhead, thereby preventing the performance degradation of the warhead and stably operating the guided weapon.

It should be noted that the present invention is not limited to the above-described embodiments, and can be implemented with various modifications without departing from the gist of the present invention, which is included in the configuration of the present invention.

10: first detonator tube part 11: main detonator tube member
12: main connecting pipe member 20: first detonation part
30: second detonator tube part 31: auxiliary detonator tube member
32: auxiliary connecting pipe member 40: second initiator part
100: warhead housing part 200: main weak part
210: central explosives 220: main explosives elements
300: double detonator for warhead 400: fuse part
410: fuse housing member

Claims (6)

a first detonation tube unit for detonating the main charge in the warhead;
a first initiator for igniting the first initiator;
a second detonator tube portion positioned to be spaced apart from the first detonator tube portion and detonating the main charge in the warhead; and
A double detonator for a warhead, characterized in that it comprises a second detonator for igniting the second detonator tube portion.
The method according to claim 1,
The first detonator tube section,
a main detonator tube member in which the first gunpowder to be detonated by the first detonator is located therein; and
A double detonator for a warhead, characterized in that it is connected to the main detonator member and includes a main connecting tube member in which a first connecting gunpowder connecting the first explosive and the main explosive in the warhead is located.
3. The method according to claim 2,
2nd Detonator Division,
an auxiliary detonation tube member in which a second explosive to be detonated by the second detonator is located therein;
Double detonator for warheads, characterized in that it includes an auxiliary connecting tube member connected to the auxiliary detonator tube member and the main connecting tube member and having a second connecting gunpowder connecting the second explosive and the first connecting gunpowder therein. .
4. The method according to claim 3,
The double detonator for a warhead, characterized in that the main detonator tube member and the auxiliary detonator tube member are positioned side by side.
5. The method according to claim 4,
The auxiliary connecting tube member is a double detonator for a warhead, characterized in that it is vertically connected to the main connecting tube member.
4. The method according to claim 3,
The main connecting pipe member is a double detonator for a warhead, characterized in that it is located concentrically with the center of the main charge in the warhead.

Images