RU2614842C1 - Device for decontamination recessed explosive objects - Google Patents

Abstract

FIELD: blasting.

SUBSTANCE: invention is used for neutralisation of buried explosive devices, in particular, improvised explosive devices (IEDs). A device for decontamination of recessed explosive devices contains mounted on a tripod with a deviation from the vertical elongated explosive fragmentation warhead, explosive charge placed on the front side of the high-explosive warhead, the pusher from the means of its initiation, enshrined in the opposite part of the explosive charge, and the starting device having a channel initiating communication with pusher means, such as wireline. The pusher is in the form of a powder jet engine having nozzle openings on one side and at least one small diameter hole on the opposite side facing the explosive fragmentation charge. In the high-explosive charge between the jet engine and an explosive charge are placed successively a pyrotechnic retarder, blasting cap and detonating cord.

EFFECT: defusing IEDs considerable mass, buried up to 0,4-0,6 m.

4 cl, 7 dwg

Description

The invention relates to means of clearance, and in particular to means of disposal of buried explosive devices.

Known means of destruction of explosive objects (see patent for invention RU 2100751 C1, published December 27, 1997). Known means of mine throwing missiles mechanical trawls (see patent for invention RU 2290596, published December 27, 2006). Known means are intended for the destruction of explored and visually observed explosive objects.

A device is also known for neutralizing underground (buried) ammunition (see patent for invention GB 2494061 A, prototype, published February 27, 2013). The device consists of an elongated body, on one part of which an explosive charge is placed, and on the other, a pusher, which ensures the device is buried in the ground. The pusher is made in the form of several disks, separated by layers of elastic material, and the explosive charge and, in fact, is a short-pulse engine. The applicant's experience with short-pulse engines and the experimental work performed show that short-pulse engines provide the functions provided by the prototype only on “light” soils, with small volumes and masses of detonated explosive devices and with their small depths. This is also confirmed by the applicant’s available photo materials for testing devices made according to the prototype.

The objective of the invention is to provide a device for the disposal of improvised explosive devices (IEDs), devoid of the above disadvantages. The technical result in this case is the possibility of neutralizing IEDs of significant weight (up to 100 kg) buried to 0.4 ... 0.6 m. It is such powerful IEDs that can be used in terrorist operations in the field in the directions of traffic. It should be borne in mind that during the work on neutralizing IEDs, there may be opposition to the work being carried out, including force counteraction, therefore, neutralization should be carried out remotely and in a short time. To maximize the effectiveness of neutralizing IEDs, it is advisable to conduct reconnaissance operations (visual, informational, etc.) to clarify the location of IEDs, according to ground conditions in the area of IEDs, according to the overall characteristics and the depth of IEDs. It is also advisable to constructively ensure easy assembly of the device and the possibility of its assembly at the place of use after clarifying the working conditions.

To achieve this goal, the claimed design of the device, consisting of an elongated high-explosive warhead and a jet engine, connected by an easily disconnected connection - threaded or bayonet. Between the elongated warhead and the jet engine there is a depth limiter made in the form of a disk. An electric valve is installed at the end of the nozzle part of the jet engine. The device also includes a device for initiating an electric fuse, such as a blasting machine, and a wire line from the device to the shelter, which ensures the safe conduct of work on neutralizing IEDs.

On the side of the jet engine, a pyrotechnic moderator, a capsule-dentonator, a detonating cord, an explosive charge from one or more consecutively mounted checkers, and a conical end tip are sequentially installed in the warhead housing. The total maximum explosive mass is 0.4 kg in TNT equivalent, which ensures the extraction of IED from the ground weighing up to 100 kg. The warhead case is made with the smallest possible cross section, which, together with the design of the end tip, reduces resistance when introduced into the soil, while the case has sufficient strength and stability under axial compression, and also provides the placement of explosive charge. If the dimensions of the neutralized IED are known and it does not require a full charge to extract it from the ground, instead of part of the checkers their inert mock-ups are installed, while the force impact on the IED is minimized. For speed and ease of assembly, the conical end tip, like the jet engine, is mounted on the warhead body with a threaded or bayonet connection.

The design of the jet engine, its geometrical dimensions, the dimensions of the nozzle block, the mass of the powder charge provide a traction force of 10,000 ... 20,000 (N), sufficient to introduce a warhead into the soil of various types. Coarse powder or a set of pressed powder elements, the shape of which provides a burning time of 0.02 ... 0.03 s, sufficient to deliver the warhead to the soil to the required depth, was used as a powder charge. At the end of the jet engine, opposite the nozzle block, one or more holes of small diameter are made through which during operation of the jet engine the moderator of the warhead ignites.

An elongated warhead with a jet engine is placed on a tripod that provides a stable position on the ground, while the elongated high-explosive warhead is fixed in a position different from the vertical, and rests on the ground with one end face equipped with a conical tip. From the other end, the high-explosive warhead is fixed in the mounting sleeve, which, in turn, is mounted on a support perpendicular to the axis of the warhead. The support in the upper part facing the mounting sleeve is made in the form of a fork, two teeth of which are brought into parallel grooves made at the end of the sleeve, and are held in these grooves by a spring clip. In addition, the ends of the fork teeth bent inward are brought into a hole made in the sleeve, the axis of which is perpendicular to the axis of the warhead. When the spring fixation of the support is destroyed, it receives the possibility of a turn in the plane formed by the axis of the warhead and the support. In its lower part, facing the ground, the support has a developed surface, ensuring a stable position of the assembled device on the ground.

In FIG. 1 shows a general view of a device installed on the ground.

In FIG. 2 shows the device after it is buried in the ground.

In FIG. 3 shows the construction of a jet engine and its connection with the warhead.

In FIG. 4 shows the design of the front side of the warhead with an explosive charge and a conical tip

In FIG. 5 shows the placement of the device in the tripod mounting sleeve.

In FIG. 6 shows the construction of the connection of the support with the mounting sleeve.

In FIG. 7 shows the spring fixing of the support.

The inventive device for the disposal of buried IEDs consists of an elongated warhead (1) (Fig. 1 and 2) and a jet engine (2), mounted in a tripod (3), a wire line (4) and a blasting machine (5).

The elongated warhead (1) and the jet engine (2) are interconnected by a threaded connection (6) (Fig. 3) with a depth stop (7) installed between them. On the side of the jet engine, in an elongated warhead, a pyrotechnic moderator (8), a detonator capsule (9), a detonating cord (10) and an explosive charge (11), consisting of one or several checkers, depending on the mass of the neutralized IED, are installed in series. (12). From the end part, the elongated warhead (1) is closed by a conical tip (13) (Fig. 4) mounted on a threaded connection (14).

A jet engine (2) consists of a housing (15), a nozzle block (16) and a powder charge (18). At the end of the jet engine (2), opposite the nozzle block (16), one or more holes of small diameter (19) are made through which the moderator (8) ignites. An electric valve (20) is provided in the nozzle block (16).

A tripod (3) for mounting the device on the ground consists of a mounting sleeve (21) (Fig. 5) into which a jet engine (2) is inserted. The axis of the mounting sleeve, as well as the common axis of the jet engine and the elongated warhead (1), is located at an angle to the vertical and is held in this position by a support (22) made in the form of a fork (23) (Fig. 6) Two teeth of the fork installed in parallel to each other grooves (24), made on the end face of the sleeve and are fixed in this position by a spring stopper (25) (Fig. 7). The ends of the fork teeth bent inward (26) are brought into the hole (27) made in the mounting sleeve (21), the axis of which is perpendicular to the common axis of the mounting sleeve and warhead. The lower part of the support (22) rests on the ground and has a developed surface to ensure the stability of the device on the ground.

The use and operation of the device is as follows.

Upon receipt of the initial data on the presence of the VCA and the need for its neutralization, data is collected on its coordinates, possibly on the ground conditions, weight and dimensions of the VCA. The device is delivered disassembled to the place of work, its installation is carried out at a distance sufficient to ensure safety. When assembling an elongated warhead (1), the number of checkers (12) varies depending on the mass and dimensions of the IED. In the absence of data on the dimensions and weight of the VCA, a complete set of checkers is installed.

After assembling the device and connecting the wire line (4) and the blasting machine (5) to it, it is manually or by special means delivered to the IED and installed on the ground in the desired position. After installing the device, people (or a special tool) are removed to a safe distance and a wire is sent from the blasting machine (5) to activate the electric fuse (20) and ignite the powder charge (18) of the jet engine (2).

During the burning of the powder charge (18), the thrust of the jet engine ensures the movement of the elongated combat element (1) along its axis and its penetration into the ground to the limiter (7). During the deepening of the combat element, the support (22) turns around the axis formed by the bent ends of the forks (23), while there is practically no additional resistance to the introduction of the combat element into the ground. At the same time, the powder gases of the charge (18) through the holes (19) ignite the pyrotechnic moderator (8). After the pyrotechnic moderator burns out (8), which occurs after the deepening of the elongated combat element (1), the detonator capsule (9) is triggered and the explosive charge is detonated (11). The shock wave and the gases formed during the actuation of the charge act on the soil adjacent to the IED and expel the IED to the surface, with this, the IED is partially destroyed and its combat effectiveness is impaired. Perhaps, depending on the design of the IED, and its detonation, which should be taken into account when assessing the consequences of the work performed.

The operation of the claimed device is experimentally confirmed on manufactured prototypes using mock-ups of IEDs.

Claims (4)

1. A device for the disposal of buried explosive ordnance, containing an elongated high-explosive warhead mounted on a tripod with a deviation from the vertical, an explosive charge placed on the front side of the high-explosive warhead, a pusher with its initiating means, mounted in the opposite part of the high-explosive charge, and a starting device having a communication channel with a means of initiating the pusher, for example a wire line, characterized in that the pusher is made in the form of a powder jet engine, it containing nozzle openings on one side and at least one small diameter hole on the opposite side facing a high explosive charge, and a pyrotechnic moderator, detonator capsule and detonating cord are sequentially placed in a high explosive charge between a jet engine and an explosive charge. 2. The device according to p. 1, characterized in that at its rear end there is a limiter for its penetration into the ground, and the explosive charge is made of one or more consecutively placed checkers, while the detonating cord has a length that ensures placement after the device is buried in the ground charge at a level not higher than the lower end of an explosive object. 3. The device according to claim 1, characterized in that a conical tip is installed in front of the high explosive charge, which provides low drag when introduced into the soil, and a jet engine provides a traction force sufficient to introduce the device into the soil of various types, and the duration of action, sufficient for the required deepening. 4. The device according to p. 1, characterized in that it is equipped with a tripod made in the form of an mounting sleeve into which the jet engine housing is inserted, and perpendicular to the axis of the mounting sleeve of the support, made in the form of a fork, two teeth of which are mounted in parallel grooves at the end of the mounting sleeve, and the ends of the teeth bent inward are brought into the hole in the mounting sleeve with the possibility of rotation of the support in the plane formed by the axis of the jet engine and the support, while the teeth of the fork are held in the grooves of the mounting sleeve Dinner stopper and the support in the lower part has a developed surface providing a stable position of the device on the ground.

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