RU2156952C1 - Shaped-charge warhead - Google Patents

Abstract

FIELD: blasting, charges for piercing of complex barriers. SUBSTANCE: body 2 accommodates one or several shaped charges 1,3 of explosive; at least one of them has a central axial hole for placement of detonating circuit components 9,10,11,12, 13,14 connecting the charge to blasting device 5 or other charge 3, and in the cavity of the shaped-charge funnel the detonating circuit components are located between the funnel surface and the charge central axis. EFFECT: enhanced efficiency of operation. 1 dwg, 1 ex

Description

 The invention relates to the field of blasting and can be used to break through complex obstacles.

 Known cumulative tandem warhead containing a housing with primary and preliminary cumulative charges (US Pat. US N 4714022, F 42 B 3/08). The blasting device is located at the end of the main explosive charge (BB). Undermining the preliminary explosive charge is carried out using a detonating cord (LH), laid along the side surface of the main explosive charge.

 There is another design of the tandem cumulative warhead (US Pat. France N 2552870, F 42 B 13/10), adopted as a prototype. This warhead includes a housing with two cumulative charges. The blasting device is moved outside the warhead. The detonation pulse to undermine the main and preliminary charge is transmitted along the detonation circuit by means of a DS located between the main charge and the warhead housing.

 The described analogue and prototype have several disadvantages that reduce the characteristics of warheads. When the blasting device is moved outside the warhead, its autonomy is lost, difficulties may arise when docking the warhead and the compartment in which the blasting device is installed. The location of the detonation device at the end of the main explosive charge, while the dimensions of the warhead remain unchanged, reduces the focal length of the main charge, which reduces armor penetration. The location of the LH between the main explosive charge and the warhead case, while the warhead’s caliber remains unchanged, causes a reduction in the diameter of the explosive charge, which also reduces armor penetration.

 The problem to which the present invention is directed, is to increase the armor penetration of warheads and improve the structural and layout characteristics.

 The technical result of the proposed solution is to increase the effectiveness of the warhead by changing the layout.

 The claimed technical result is achieved by the fact that in the warhead, consisting of a housing, one or more cumulative charges with a detonation device and a detonation circuit, at least one cumulative charge has an axial hole in which detonation circuit elements are placed for connection with a detonation device or another explosive charge. The elements of the detonation chain located in the cavity of the funnel of the cumulative charge are placed outside the axis of the explosive charge, i.e. between the surface of the funnel the axis of the explosive charge.

 The execution of the axial channel in the explosive charge to accommodate the detonation chain elements allows to eliminate the loss of armor penetration resulting from a decrease in the explosive charge diameter due to the need to place the detonation chain elements between the explosive charge and the warhead case. The detonation circuit in contact with the explosive charge surface, as in the prototype, can lead to the appearance of inhomogeneities (cracking) in the explosive charge layer, which reduces armor penetration. The location of the detonation chain elements in the cavity of the funnel not along the axis of the explosive charge, but between the surface of the funnel of the cumulative explosive charge and the axis of the charge increases the value of armor penetration, because explosion products of detonation chain elements act on the surface of the funnel locally, i.e. in one place, and the diameter of the LH, along which the impulse is transmitted, can be chosen so that the detonation products do not damage the cumulative funnel. When placing the LH, this frees up a place in the center of the funnel, which can be used when performing warheads with charges moving relative to each other.

The drawing shows a warhead explaining the essence of the proposed solution, with cumulative charges being moved relative to each other in folded form, where:
1 - the main cumulative charge;
2 - case;
3 - preliminary cumulative charge;
4 - rod;
5 - safety-executive mechanism;
6 - contact target sensor;
7 - electrical wire;
8 - conical part of the body;
9 - detonating cord;
10 - amplifying charge;
11 - detonating cord;
12 - sleeve;
13 - amplifying charge;
14 - amplifying charge;
15 - castle.

 An example of a specific implementation is the tandem cumulative warhead, consisting of the main 1 cumulative charge (short circuit) of the blasting explosive placed in an aluminum casing 2, and a preliminary 3 short circuit from the same explosive placed in a steel rod 4. Together with a preliminary 3 short circuit in the rod 4 is placed safety-executive mechanism (PIM) 5, which is a detonation device, and a target contact sensor (CDC) 6. PIM 5, mounted on the end surface of the preliminary 3 short circuit, is electrically connected to the CDC with an electric wire 7, precede the copper funnel flax 3 KZ and a steel bar. The main 1 short circuit and preliminary 3 short circuit together with KDC 6 are moved relative to each other by extending the rod 4 from the aluminum conical part of the housing 8, which makes it possible to increase the focal length of the main short circuit when the warhead is quite compact in the initial state. In turn, the main 1 and preliminary 3 faults are connected by a detonation circuit, consisting of a transmission line 9, 10 and a delay line 11, 12, 13, 14, between which a gap α is organized to ensure unhindered mobility of charges. The transmission line includes a DS 9 and an amplifying charge 10 of a plastic explosive for transmitting a detonation pulse through the gap α, when the rod 4 is extended to its working position with a steel lock 15. To arrange a time delay in initiating the main 1 short circuit necessary to neutralize the dynamic protection by the triggered preliminary 3 short circuit, a detonation cord (DS) 11 is used in an aluminum shell with an external diameter of 1.5 mm and the required length, laid in a spiral on an aluminum sleeve 12, in which amplifiers are also placed the 13th charge of the plastic explosive for receiving a detonation pulse from the transmission line 9, 10. LH in section 11, leaving the sleeve 12, passes along the generatrix of the main short circuit 1 at a distance of 10 mm from it and through the axial hole of the main short circuit approaches the amplification charge 14 plastic explosive. Displaced in this way, the LH in section 11 makes it possible to move the rod 4 to its original position.

 The proposed design warhead works as follows. Before launching the rocket from the warhead, the rod 4 is mechanically extended from the conical part of the housing 8 to the stop, while it is automatically locked in the extended position by the lock 15 and the amplification charges 10 and 13 are combined with a gap α between them. When the warhead reaches the target by the electric signal of KDC 6 through the wire 7, the copper funnel of the preliminary 3 short circuit and the steel rod 4, the PIM 5 is triggered. The detonation pulse generated by the PIM initiates a preliminary 3 short circuit and, passing along the transmission line 9, 10 and the delay line 11, 12 , 13, 14, excites detonation of mainly 1 SC with the necessary time delay.

Claims (1)

 A cumulative warhead containing a housing, one or more cumulative explosive charges with an explosive device and detonation chain, characterized in that an axial hole is made in at least one explosive charge to accommodate detonation chain elements connecting the charge to the explosive device or another charge and in the cavity of the cumulative funnel of the explosive charge, elements of the detonation chain are placed between the surface of the funnel and the axis of the charge.