RU198944U1 - Shaped charge - Google Patents

Abstract

The proposed device relates to the field of explosive devices and ammunition, namely shaped charges and shaped charge warheads, and can be used as a warhead of shaped charge projectiles, missiles with a shaped charge warhead and as a shaped charge explosive device. The shaped charge contains a housing, an explosive charge located in it, a shaped lining located in a shaped recess in the head of the charge, an initiation device located in the bottom. Inside the explosive charge there is an active lens, which has a concave shape and consists of an explosive having a detonation velocity greater than the detonation velocity of the explosive charge. The device allows you to increase the parameters (speed, impulse) of the cumulative jet, which entails an increase in penetration. 2 ill.

Description

The proposed device relates to the field of explosive devices and ammunition, namely shaped charges and shaped charge warheads, and can be used as a warhead of shaped charge projectiles, missiles with a shaped charge warhead and as a shaped charge explosive device.

Known shaped charge (Patent No. GB 1142915 Great Britain, IPC F42B 1/02), containing a housing located in it an explosive charge (explosive), shaped lining, inert lens, initiation device. This shaped charge works as follows: when the charge is detonated, a diverging detonation wave (DW) propagates from the initiation point; The DW goes around the inert lens, because an inert lens consists of a substance that is not susceptible to detonation; This achieves a change in the shape of the DW front from diverging to converging, for better compression of the facing.

The disadvantage of this device is that the energy of the DW is spent on deformation and heating of the inert lens, and the inert lens takes up the space that could be occupied by the HE.

Also known is a shaped charge (Patent No. US 5259317, USA, IPC F42B 1/02), containing a housing, an explosive charge located in it, a shaped lining, an initiation device, an incendiary active lens, including an incendiary active substance enclosed in a metal a matrix that is in a combustible material. The device works as follows: when the charge is detonated from the point of initiation, a divergent DW propagates; The DV bends around the incendiary active lens, because incendiary - the active lens consists of a substance that is not susceptible to detonation; this is achieved by changing the shape of the front of the DW, for a better compression of the facing; using an incendiary active lens, a thermobaric effect is achieved.

The disadvantage of this device is that this device has an advantage over the previous charge only in those cases when a thermobaric effect is required. The parameters of the cumulative jet remain the same, because the energy of the DW is still spent on deformation and heating of the incendiary - active lens, and the lens also takes up the space that could have been occupied by the HE.

The task (technical result) of the proposed utility model is to increase the parameters (speed, momentum) of the cumulative jet, which entails an increase in penetration.

The task is achieved by the fact that in the known device with a shaped charge containing a housing, an explosive charge located in it, a shaped lining, inside the explosive charge there is an active lens consisting of an explosive having a detonation velocity different from the detonation velocity of the explosive charge.

FIG. 1 shows a section of a shaped charge with an active lens having a concave shape; in fig. 2 shows a drawing explaining the operation of an active lens in a shaped charge.

The proposed device contains a housing (1), a cumulative lining (2) located in a cumulative recess in the head part, an explosive charge (3) located inside the housing, an initiation device (4) located in the bottom part, an active concave lens (5) ,

located inside the explosive charge, consisting of an explosive having a detonation speed greater than the detonation speed of the explosive charge.

FIG. 2 shows the passage of the DW along the shaped charge with an active lens (convex), the solid line shows the positions of the DW at regular intervals. The device works in the following way: when the charge is initiated, a divergent DW propagates from the initiation point, because the detonation velocity of the explosive of the active lens is greater than that of the charge explosive, the front of the DW is refracted on the active lens, and the diverging DW is converted into a converging one. Then the lining is compressed and a cumulative jet is formed. The converging detonation wave provides better compression of the liner than the diverging one. The advantage of this device is to achieve a change in the front of the DW without the use of inert elements that take away the energy of the DW. Consider the energies of cumulative jets with the same shapes of DW fronts and identical shapes of bodies in a charge using an incendiary - active lens and a charge with an active lens, the energy of a cumulative jet (E _cc ). When using an incendiary - active lens, the energy of the cumulative jet (E _кс1 ) is made up of a certain fraction of the energy contained in the explosive charge [k ₁ * Е _З ) and the energy spent on heating and deformation of the incendiary - active lens (E _З-а.Л. ) ... When using an active lens, the energy of the cumulative jet (E _kc2 ) is the sum of a certain fraction of the energy contained in the explosive charge and a certain fraction of the energy contained in the explosive of the active lens (k ₂ * E _al. ).

Those. the energy of the cumulative jet in the case of using an active lens is greater, which ensures a greater penetration depth of the target.

To ensure the desired result, the active lens has a concave shape (see Fig. 1) and consists of an explosive, the detonation velocity of which is higher than the detonation velocity of the explosive charge. This design provides refraction of the front of the DW due to the fact that the thickness of the explosive layer at a high speed increases from the center of the charge to the body and, therefore, at the periphery of the DW it passes faster than at the center.

The technical result is to increase the parameters of the cumulative jet (speed, momentum) and its penetrating ability.

Claims (1)

A shaped charge containing a body, an explosive charge located in it, a shaped lining located in a shaped recess in the head of the charge, an initiation device located in the bottom part, characterized in that inside the explosive charge there is an active lens having a concave shape and consisting of from an explosive having a detonation velocity greater than the detonation velocity of the explosive charge.

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