RU62230U1 - DEVICE FOR DISCONNECTING EXPLOSIVE HAZARDS - Google Patents

Abstract

The utility model relates to explosive technology and can be used for the safe disposal of explosive devices, for example, subversive ones.

The device is made in the form of cumulative charge groups placed in the case, an additional linear explosive charge, and an initiating device. Cumulative charges are uniformly placed in the matrix, and the linear charge is on the periphery of the matrix. The groups of cumulative charges and cumulative charges in the groups are connected in series by detonation rods, and the last of them is connected to a linear charge. The parameters of the cumulative charges are determined by the relations limiting the angle of the cumulative recess and the mass of explosives and cumulative lining. A plate of rigid low-density material is attached to the casing from the outer side facing the cumulative recess, the thickness of which is selected from the conditions for the formation of the cumulative jet taking into account the charge parameters.

The technical result is to ensure the safe disposal of objects containing explosives, by destroying the elements of the object without detonation of explosives.

Description

The utility model relates to explosive technology, in particular, to ensuring the safe disposal of explosive objects, for example, subversive explosive devices. These devices. as a rule, they contain in their composition the main charge of a blasting explosive (BB) connected by a detonation line with a detonator and a detonator engaging system.

An explosive device is known for detonating suspicious devices at a distance (French application No. 2558949, publication 1975). The device has a flat charge emitted by gas pressure, which renders the devices presumably explosive. A flat charge is formed by a fluid cured with a binder. To eject a flat charge from the case, an explosive charge is used, the initiation of which is provided by the detonator. All components of the device are housed in a housing. The device serves as a quick attack to neutralize suspicious objects through thin partitions at a distance. The disadvantage of this device is the explosive nature of the disposal, leading to danger to others, providing relative safety for the attacker.

Also known is a device for the disposal of explosive objects (certificate. No. 8466, publ. Bull. No. 11, 1998), which is the closest analogue. It contains an explosive charge enclosed in the housing and a device initiating it, in which the explosive charge is made in the form of groups of axisymmetric cumulative charges uniformly placed in the matrix, the groups of cumulative charges and cumulative charges in groups connected in series with the explosive rods with the initiating device. In this case, the explosive charge additionally contains a linear explosive charge at the periphery of the matrix, connected by an explosive rod with the last cumulative

charge. In the device, the parameters of the cumulative charges are determined by a given ratio at which it is possible to destroy the object without detonating the explosive charge, by mechanical destruction of the elements of the explosive object.

As is known, for the formation of a stable cumulative jet capable of providing calculated armor penetration without explosion to a given depth, taking into account the characteristics of the object being neutralized, it is necessary to have a distance along the flight path of the melt products of the cumulative lining between the charge and the object. With the high efficiency of the prototype device, it is not very convenient when used for its intended purpose, since it needs to be installed with a design clearance in relation to the object in place. It is difficult to expose and guaranteed to maintain unchanged this gap in a dangerous situation or adverse environmental conditions.

The technical task to be solved is to increase the convenience of handling the neutralization device while maintaining effective armor penetration and the minimum probability of explosive destruction and detonation of an explosive object due to the impact on the object of a cumulative jet of the required density, length and shape.

The specified technical problem is solved by the device for disposal, containing the explosive charge enclosed in the housing and the device initiating it, while the explosive charge is made in the form of groups of axisymmetric cumulative charges that are uniformly placed in the matrix. The groups of cumulative charges and cumulative charges in the groups are connected in series with the initiating device, and the parameters of the cumulative charges are determined by the following relationship:

a = 70 ... 100 °; 0.2≤m cc / m reg ≤2, where

a is the angle of the cumulative recess; m BB - mass of explosive cumulative charge;

m reg. - mass of cumulative lining.

New in the device is the attachment to the outer surface of the housing from the side of the cumulative recesses of the plate of hard low-density material, the thickness of which is selected taking into account the parameters of the charge installed in the housing from the condition of ensuring the formation of a stable cumulative jet.

Attaching a plate of calculated thickness from the side of the cumulative recess to the outer surface of the device allows the device to be installed directly on the object to be neutralized and to provide a fixed calculated gap between the object and the cumulative charge, necessary to form a stabilized cumulative stream that causes the object to collapse without exploding and detonating the explosive charge inside it .

Figure 1 shows the device in section, figure 2 is a top view.

The neutralization device consists of a housing 1, an initiating device 2, placed in the matrix 3 housing, in which cumulative charges 4 are uniformly placed in groups B, C, D, and on the periphery of the matrix 3 there is a linear explosive charge 5. Cumulative charge groups and cumulative charges 4 in groups B, C, D are connected in series with the BB 6 rods to the initiating device, the last cumulative charge is also connected with the BB rod with a linear BB 5 charge. The parameters of the cumulative charges are selected according to the indicated ratio. To the housing 1 from the outside, facing the cumulative recess of charges 4, is attached, for example, a plate 7 is glued from a rigid low-density material, for example, foam. The thickness of the plate 7 is selected from the conditions for providing a gap calculated taking into account the charge parameters to form the cumulative jet necessary for the destruction of the object.

The device operates as follows. It is installed on an explosive object by the side to which plate 7 is attached. Activation is made from the initiating device 2 of group B, C, D

cumulative charges 4, firing sequentially. Charges 4 form a system of shock waves and rarefaction waves in the object. When they collide, mechanical destruction of the elements of the object to be neutralized occurs. Significant pressures arising in the area of the cumulative jet during its interaction with the explosive object, lead to chemical reactions and the release of energy. The expansion energy of products from the reaction zone additionally enhances the mechanical destruction of the elements of the object. Since the linear charge of 5 explosives located on the periphery of the matrix 3 is fired last and farthest from the central zone, its explosion finally separates the parts of the object destroyed by cumulative charges 4, thereby achieving a complete removal from the working state of the object being neutralized.

Thus, the specified set of design features ensures reliable disposal of explosive objects by destroying its elements and eliminating the explosive or detonation process in the explosive object. The performance of the claimed device is confirmed practically.

Claims (1)

A device for the disposal of explosive objects containing an explosive charge (explosive) enclosed in a housing and a device initiating it, while the explosive charge is made in the form of groups of axisymmetric cumulative charges uniformly placed in the matrix, groups of cumulative charges and cumulative charges in groups are connected in series with the initiating device, and the parameters of the cumulative charges are determined by the ratio a = 70 ... 100 °; 0.2 <m _cc / m _region <2, where a is the angle of the cumulative recess; _cc m - mass of explosive shaped charge; m _region - mass of cumulative lining, characterized in that a plate of rigid low-density material is attached to the outer surface of the housing from the side of the cumulative recesses, the thickness of which is determined taking into account the indicated parameters of the explosive charge installed in the housing in order to ensure the formation of a stable cumulative jet.