KR100903020B1 - Warhead having double triggering device - Google Patents

Abstract

The present invention provides a full width pipe assembly plate, which is fixed to the side of the modified gunpowder and the main charge, and is equipped with a plurality of modified gun bombers exploding some of the modified gunpowder, a main charge bomber exploding the main charge, and the full width The modified explosive detonators mounted on the other side of the tube assembly plate to explode the explosive explosive detonators, the main explosive detonators exploded simultaneously with the deformed explosive detonators, and connected to the main explosive detonators by combustion It consists of a time delay unit for delaying time, and a connecting detonation tube connected to the time delay unit to explode the anti-explosive charge tube, so that the time delay between the primary and secondary detonation is made by the combustion of the gunpowder, In the sequential double detonation, the secondary detonation can be performed smoothly by avoiding the influence of the shock wave of the primary detonation. It provides a warhead with a detonator.

Description

Warhead with double detonator {WARHEAD HAVING DOUBLE TRIGGERING DEVICE}

The present invention relates to a double explosive device for warheads, and more particularly, to a warhead having a double detonation device is applied to a shape-deformed warhead to perform an immediate detonation and a delayed time delay sequentially.

A typical warhead emits debris and storm waves evenly in the circumferential direction by a single detonation once the warhead reaches its target. These general warheads suffered from poor performance because debris and storm waves were not concentrated on the target.

In order to solve this problem, a warhead with a double explosive device was developed in which the warhead was exploded secondly with a certain delay time so that debris and storm waves were concentrated on the target.

Looking at the structure of such a warhead, the gunpowder is installed in a divided state in a circumferential direction on the outer circumferential surface and when the warhead reaches the target part is exploded to transform the warhead, and the gunpowder is installed inside the modified gunpowder It consists of a main charge that explodes after a certain period of time.

In the action of these warheads, if the warhead reaches the target, it detonates the warhead first, deforming the warhead so that the direction of the debris and storm wave is toward the target, and then detonates the main charge after delaying the main charge. Storm waves from the explosion are concentrated and directed towards the target.

Therefore, deformed warheads require an immediate detonation for the explosive detonation and a delayed detonation for the main charge detonation when the warhead deform time has elapsed. Conventional methods for performing such double detonation sequentially use an electrical delay detonation circuit. That is, the modified gunpowder is immediately detonated and the main charge is detonated after a certain time has passed through the electrical delay detonator circuit.

However, a warhead having a double explosive device according to the prior art as described above may damage the delayed detonation circuit for the main charge detonation due to the deformed explosive explosion, and thus does not achieve the main charge detonation.

The present invention has been made to solve the above-mentioned problems of the prior art, and an object of the present invention is to make the time delay between the primary and the secondary detonation by the combustion of the gunpowder, so that the primary in the sequential double detonation The present invention provides a warhead having a double detonator capable of achieving a reliable double detonation since the secondary detonation can be performed smoothly because there is no damage generated when using an electrical delay detonation circuit as described above. .

A warhead having a double detonator according to the present invention for realizing the above problems is a main charge, the debris provided on the outer circumferential surface of the main charge, is installed to be wrapped around the outer circumferential surface of the debris and a plurality of spaced at regular intervals in the circumferential direction And a double detonator configured to detonate the explosives, and a first detonator when the warhead arrives at the target, and a second detonation of the main charge after a predetermined time delay. A full width pipe assembly plate fitted with a plurality of modified gun explosion tubes fixed to the side of the modified gun and the main charge and detonating some of the modified gunpowder, a main charge bomb tube detonating the main charge, and the full width pipe assembly plate Deformation explosive detonators mounted on the other side of the explosive detonation gun explosion pipe, the main charge detonation pipe exploded at the same time as the modified explosive detonator, Characterized in that the group comprises a primary charge, and a time delay unit for delaying the time by the combustion is associated with an aeration tube, which is connected to the connection group pokgwan the time delay unit the explosion about full width tube claims.

A connector assembly plate is installed between the full width pipe assembly plate and the initiator tube assembly plate, and the connector assembly plate is equipped with a modified gun connector and a main gun connector to amplify the explosive force of the modified gun bomber and the main gun bomber. It is characterized by.

The detonator tube assembly plate is rotatably mounted on the connector tube assembly plate such that the warhead detonator tube and deformer gun connector and between the main charge detonator and the main charge connector do not coincide with each other when the warhead is being stored. It features.

The time delay unit is formed of a linear gunpowder connected to the predetermined length between the main charge detonator and the connecting detonator, and when the main charge detonator detonates the combustion detonation time for a certain period of time to explode the connection detonator It is done.

A warhead having a double detonator configured as described above has a time delay portion that delays the time between the primary detonation detonating the modified gunpowder and the secondary detonation detonating the main charge and is more likely to be caused by the rapid combustion of the linear explosives. There is an advantage to improve the reliability can be safely delayed time.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a separated perspective view of a warhead and a double detonator having a double detonator according to the present invention, Figure 2 is an exploded perspective view of a double detonator according to the present invention, Figure 3 is a double detonator according to the present invention It is a cross section.

The warhead according to the present invention is installed to be wrapped around the outer circumferential surface of the main charge 10 and the debris 12 is installed to be wrapped around the outer peripheral surface of the main charge 10, the debris 12 and the circumferential direction The gunpowder 14 is arranged in a plurality at regular intervals so that the storm wave generated by the explosion of the main charge 10 is concentrated in a specific direction, and when the warhead arrives at the target, the gunpowder 14 is removed. It consists of a double detonator 20 for detonating the primary charge 10 secondly after the primary detonation and a certain time delay.

The modified explosives 14 are arranged at regular intervals on the outer circumferential surface of the debris 14 and between the modified explosives 14 is partitioned by a metal plate 16 so that only a part of the modified explosives 14 is exploded. do.

The double detonator 20 is fixed to one side of the modified gunpowder 14 and the main charge 10 so that the inner surface is in contact with the main charge 10, the outer surface is in contact with the modified gunpowder 14 Rotatable to the full width pipe assembly plate 22, the connector pipe assembly plate 24 fixed in close contact with one side of the full width pipe assembly plate 22, and one side of the connector pipe assembly plate 24. It consists of a detonating tube assembly plate 26 that is mounted.

Here, the detonation tube assembly plate 26 is formed in the shape of a disc having a predetermined thickness, a plurality of modified gunpowder detonation tube 30 is mounted to be penetrated at regular intervals in the outermost circumferential direction, the inner side thereof The main charge detonator tube 32 is mounted to penetrate at regular intervals in the circumferential direction.

Here, the modified explosive detonators 30 are exploded in part of the plurality of modified explosive detonators 30 according to an electrical signal applied from the fuse. That is, when the warhead is fired and reaches near the target, the fuse detects it and according to a signal applied from the fuse, two or three modified guns located near the target among the plurality of gunpowder detonators 30 Detonators 30 detonate as warheads deform.

The main charge detonator tube 32 is connected to a time delay unit 36 for delaying time, and is connected to the connection detonator tube 34 at the end of the time delay unit 36.

The main charge detonator 32 is exploded at the same time as the modified gun detonator 30 according to the electrical signal applied from the fuse. The time delay unit 36 is formed of a linear gunpowder connected to a predetermined length between the main charge detonation tube 32 and the connecting detonation tube 34 so that when the main charge detonation tube 32 explodes, it burns for a predetermined time After delaying the connection detonator 34 explodes.

The time delay unit 36 has a blast energy transfer rate of 6,000-8,000 m / sec, which is similar to that of a general explosive, while the explosion energy transfer rate of the time delay unit 36 is 1,000 m / sec or less. It has a value of, and this characteristic makes it possible to perform delayed detonation. In addition, the explosion energy transfer method of the time delay unit 36 proceeds to a deflagration phenomenon, not a detonation phenomenon.

The time delay unit 36 is composed of at least two, more preferably four so as to increase the explosion reliability of the main charge.

The connecting detonator tube 34 serves to amplify the combustion of the time delay unit 36 to the explosion level.

The detonator tube assembly plate 26 is rotatably mounted to a hinge shaft 38 mounted vertically to the side of the connector assembly plate 24, and the detonator tube assembly plate 26 is formed of a step motor (not shown). It is rotated by driving.

The connecting pipe assembly plate 24 is formed in a disk shape having a predetermined thickness and is mounted to penetrate a plurality of modified gunpowder connecting pipes 40 in contact with the modified gunpowder detonating pipe 30 in the outer circumferential direction thereof. The main charge connector 42 which is in contact with the connection detonator 34 in the circumferential direction is mounted to penetrate therethrough.

Here, the explosive force of the gunpowder mounted on the modified gunpowder connector 40 and the main charge connector 42 has a strong explosive force compared to the modified gunpowder detonator tube 30 and the connecting detonator tube 34. As such, the connection pipe assembly plate 24 serves to amplify the explosive force of the explosion pipes 30 and 34 mounted on the explosion pipe assembly plate 26 and transmit the amplification force to the full width pipe assembly plate 22.

Since the detonation pipe assembly plate 22 is rotatably mounted to the connection pipe assembly plate 24, when the warhead is stored, between the deformable explosive detonator tube 30 and the deformable explosive connector tube 40 and the connection detonation tube 34. The explosive force is deformed even when the modified explosive detonator 30 and the main charge detonator 32 explode by the external environment and by mistake during the warhead storage so that the connection between the main charge connector and the main charge connector 42 does not coincide with each other. By avoiding the transfer to 14 and main charge 10, warheads can be stored more stably.

The full width pipe assembly plate 22 is formed of a circular plate having a predetermined thickness and one surface is fixed to contact with the main charge 10 and the modified gun 14, the other surface is fixed to contact with the connector pipe assembly plate 24 do.

In the outer circumferential direction of the full width pipe assembly plate 22, a plurality of modified gunpowder width pipes 44 connected to the modified gunpowder connecting pipe 40 mounted on the connection pipe assembly plate 24 are mounted, and the full width pipe assembly In the inner circumferential direction of the plate 22 is mounted a main charge full width pipe 46 in contact with the main charge connector pipe 42 of the connector pipe assembly plate 24.

Here, the explosive force of the gunpowder mounted on the modified explosive charge pipe 44 and the main charge explosion pipe 46 is stronger than the explosive power of the gunpowder mounted on the modified explosive charge connector 40 and the main charge connector 42. Has explosive power. As described above, since the explosive force is strong, the modified explosive full width pipe 44 and the main long charge pipe 46 can increase the reliability of exploding the modified explosive gun 14 and the main long charge 10.

Such a double detonator may be applied to a structure having only the detonator tube assembly plate 26 and the full-width tube assembly plate 22 without the connector tube assembly plate 24 according to conditions.

The operation of the warhead with the double detonator according to the present invention configured as described above will be described below.

When the warhead is fired, a sensor mounted inside the warhead detects that the warhead is fired and drives the step motor. Then, the step motor rotates the detonation pipe assembly plate 26 by a predetermined distance so that the modified explosive detonator tube 30 and the modified gunpowder connector tube 40 are in contact with each other, the connection detonator tube 34 and the main charge connection The tubes 42 are in contact with each other.

Then, when the warhead is near the target, the fuse detects it and explodes in some of the modified explosive detonator 30 and the main charge detonator (32).

The fuse detects the position of the target and explodes two to three modified gunpowder detonators facing the target of the plurality of modified gunpowder guns 30.

Then, the explosive force of the modified explosive detonator tube 30 is transferred to the modified explosive expansive tube 40, and the explosive deformable expansive tube 40 is exploded in an amplified state, and the explosive force of the modified explosive expansive tube 40 is deformed. The explosive explosive explosion tube 44 is exploded in a state in which the explosive detonation explosive tube 44 is amplified in explosive power to explode some of the explosive explosive detonators 44. As such, when some of the modified gunpowder is exploded, deformation of the warhead occurs.

Then, when the main charge detonation tube 32 explodes, the connection detonation tube 34 is exploded after a time delay by the time that the time delay unit 36 is rapidly burned and the time delay unit 36 is rapidly burned. Then, the explosive force of the connection detonator tube 34 is transmitted to the main charge connector 42, the main charge connector 42 is exploded in an amplified state, and the explosive force of the main charge connector 42 is the main charge full width. The main charge explosion pipe 46 is delivered to the pipe 46 to explode in the state in which the explosive power is amplified to explode the main charge 10.

At this time, since the warhead is in a deformed state, the storm waves and debris are concentrated and released in the direction of the target, which is the direction in which the deformation occurs, thereby improving the destruction performance of the target.

1 is a perspective view of a warhead according to an embodiment of the present invention.

Figure 2 is an exploded perspective view of the double explosive device of the warhead according to an embodiment of the present invention.

3 is a cross-sectional view of the combined double explosive device of the warhead according to an embodiment of the present invention.

Figure 4 is a plan view of the detonator tube assembly plate according to an embodiment of the present invention.

5 is a plan view of a connector pipe assembly plate according to an embodiment of the present invention.

Figure 6 is a plan view of the full width pipe assembly plate according to an embodiment of the present invention.

7 is a perspective view showing a state in which the warhead is deformed according to an embodiment of the present invention.

Claims (6)

A main charge, debris provided on an outer circumferential surface of the main charge, deformed explosives arranged on the outer circumferential surface of the debris and arranged in a plurality at regular intervals along a circumferential direction, and arranged in a longitudinal direction of a warhead And a double detonator that first detonates the modified gunpowder upon arrival and delays the main charge secondly after a certain time delay, The double detonator, A full width pipe assembly plate which is fixed to the longitudinal side of the modified gunpowder and the main charge, and is equipped with a plurality of modified gunpowder pipes that detonate some of the modified gunpowder, and a main charge bomber that detonates the main charge; ; Mounted on the longitudinal side of the full width pipe assembly plate, the modified explosive detonation tube for exploding the deformable explosive detonation tube, the main charge detonation tube to be exploded at the same time as the modified explosive detonation tube, and connected to the main charge detonation tube And a detonator tube assembly plate including a deferred delay unit for delaying time by combustion and a connecting detonator tube connected to the time delay unit to explode the main charge tube. Having a warhead. The method of claim 1, A connector assembly plate is installed between the full width pipe assembly plate and the initiator tube assembly plate, and the connector assembly plate is equipped with a modified gun connector and a main gun connector to amplify the explosive force of the modified gun bomber and the main gun bomber. Warhead having a double detonator, characterized in that. The method of claim 2, The detonator tube assembly plate is rotatably mounted on the connector tube assembly plate such that the warhead detonator tube and deformer gun connector and between the main charge detonator and the main charge connector do not coincide with each other when the warhead is being stored. A warhead with a dual detonator characterized by the above. The method of claim 2, The time delay unit is formed of a linear gunpowder connected to the predetermined length between the main charge detonator and the connecting detonator, and when the main charge detonator detonates the combustion detonation time for a certain period of time to explode the connection detonator Warheads having double detonators. The method of claim 4, wherein The time delay unit warhead having a double detonator, characterized in that the type and length of the gunpowder is determined according to the delay time. The method of claim 1, The modified gunpowder is a warhead having a double detonator, characterized in that mounted on the outer peripheral surface of the main charge at equal intervals in the circumferential direction and separated between the modified gunpowder by a metal diaphragm.

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