RU2068539C1 - Device for destruction of metal grille bars, door hinges and locks - Google Patents

Abstract

FIELD: rescue operations of various kinds in zones of natural calamities. SUBSTANCE: blasting element has casing 1 of V-shaped non- metallic material. Two sections of cord shaped charge 2 are positioned in both ends of casing 1. The shaped-charge recesses of both sections are directed towards each other. The opposite sides of the sections are interconnected by a strip of elastic explosive 4. Fastened to the middle of strip 4 is one end of the section of detonating cord 5, whose other end is connected to electric fuze 7. Fastened to one of the ends of casing 1 is rubber ring 8 for attachment of the blasting element to grille bar 3. EFFECT: enhanced reliability. 4 cl, 3 dwg

Description

 The invention relates to the field of special equipment used by OMON and special forces units, and can also be used in various kinds of rescue operations in natural disaster areas.

In some cases, during the release of hostages captured in emergency situations in correctional facilities, special assault troops may need to overcome various kinds of metal bars. To do this, it is necessary to make a passage in the grate through which a person can climb. A similar situation can arise when analyzing rubble at the site of earthquakes or other natural disasters. The fastest way to destroy the steel grid in the field without the use of powerful equipment is possible by the explosive method. The task, however, is complicated by the fact that the mass of the explosive should be minimal in order to reduce the impact on people;
the formation of slaughter fragments during the destruction of the lattice is not allowed;
the configuration of the destructible grid is not known in advance;
the thickness of the rods of the lattice or reinforcement used in civil engineering may be in the range from 10 mm to 30 mm;
it is necessary to ensure the operational safety of the device, excluding its spontaneous unauthorized operation;
installation time of the device on the grill should be minimal.

 Explosive devices are also known that provide separation of compartments, opening of various membranes and separation of plugs used in aircraft, such as the device according to US patent N 4649825 class. 102-307.

 These devices are characterized by the fact that they are built into the destructible structure already during its assembly and cannot be used to solve the problem. In addition, metal shells in which a bursting charge is enclosed, when the latter is undermined, form fragments that can hit others, which is not allowed.

 There are several technical solutions that allow the destruction of metal structures in an explosive way. So, for example, for cutting pipelines, large-sized metal structures, metal structures of various profiles, cord shaped charges (SHKZ) are widely used, produced in accordance with TU 84-988-84 of six sizes in the form of bays from 1 m to 30 m long. ShKZ are charges of elastic explosive (EVE) in the form of cords of various diameters with a longitudinal cumulative recess lined with a flexible metallized tape. The design of the ShKZ is adopted as a prototype.

 However, if the ShKZ is located along the contour of the passage cut into the grate, too much of it located between the rods will idle, and the total mass of the explosive will be unreasonably high. In addition, as the experiments showed, even the most powerful ShKZ produced (number 6), which provides destruction of steel (steel 3) sheet barriers up to 25 mm thick, is not able to destroy 30 mm bars of steel 3 gratings, that is, it does not fulfill the set tasks.

 In connection with the task, a device was developed for the destruction of a metal lattice containing a cord shaped charge and an initiation system. It differs in that it consists of several identical explosive elements placed on the rods of a destructible grating. Each explosive element contains a V-shaped body made of non-metallic material. As such a material can serve as plastic, wood, cardboard. The housing of each element is equipped with an attachment unit for the element on the wire rod. At each end of the V-shaped body, segments of the cord shaped charge are placed so that their shaped charges lie in the same plane and are directed towards each other. The outer surfaces of each segment of the cord cumulative charge (ShKZ), opposite the cumulative recess, in each explosive element are interconnected by means of a strip of elastic explosive. A segment of a detonating cord perpendicular to the plane of the body is attached to the middle part of this strip at the top of the V-shaped body of each explosive element. The free ends of the detonating cord segments of all explosive elements of the device are combined together and connected to an electric detonator.

 The fastener assembly of the explosive element on the grill rod can be made in the form of an elastic, preferably a rubber ring.

 Between two segments of the cord shaped charge can be additionally placed in the same plane the third segment of the ShKZ, connected by a strip of elastic explosive with the first two segments.

 Figure 1 shows a diagram of an element of a device that implements the proposed technical solution; figure 2 shows a view; figure 3 shows a device for the destruction of the lattice assembly.

The housing 1 of the explosive element is made of non-metallic material, for example, cardboard and has a V-shape. The angle at the top of the hull, as shown by experimental and experimental studies, can vary in the range from 40 to 90 ^o . Two segments of the ShKZ 2 are placed at both ends of the housing 1, so that their symmetry planes coincide and lie in the plane of the housing 1. The cumulative recesses of both segments of the ShKZ 2 are directed towards each other inside the acute angle of the V-shaped housing 1 and face the cut rod of the grill 3. The opposite sides of ShKZ 2 are interconnected by an EVV strip 4. One end of the detonating cord 5 is fastened to the top of the housing 1 and the middle of the EVV 4 strip. To ensure the reliability of detonation transmission, an additional charge is attached to the detonating cord 5 of emulsion explosives 6, at the edges connected to the emulsion explosive strip 4. Detonation is initiated using an electric detonator 7 connected to detonating cords. A rubber ring 8 is attached to one of the ends of the housing 1, which serves to mount the element to the rod of the grate 3.

 The proposed device works as follows. The device is transported to the place of use separately from the electric detonator 7, which ensures safe operation and eliminates the possibility of unauthorized explosion. Each explosive element is mounted on destructible bars of the grate by means of a rubber ring 8 attached to one of the ends of the casing 1. The rubber ring 8 is passed under the cut bar and put on the second end of the casing 1. Since the elements are not initially connected to each other, they are installed on the grate one at a time in the most convenient place of each chopped-up bar to form a passage of maximum area with a minimum number of explosive elements. In order to exclude the spread of possible fragments of destructible rods to the sides, the explosive elements are mounted so that the apex of the acute angle of the housing 1 is in the plane of the lattice. Then possible fragments of the rods will scatter in the direction of the walls, floor and ceiling of the room.

 After mounting the required number of explosive elements on the grill (see Fig. 3), the free ends of the detonating cord segments 5 are assembled into a bundle using the supplied rubber rings, similar to rubber ring 8. An electric detonator is attached to the bundle with rubber rings, which is previously connected to a portable launcher.

 After that, the staff leaves for cover and leaves for a safe distance, determined in accordance with GOST 12.1.003-83, depending on the number of explosive elements, and detonation is carried out.

 An electric detonator initiates detonation in a bundle of detonating cords. For each cord (see Fig. 1), the detonation wave reaches each explosive element, where it is transmitted to both segments of the ShKZ 2 through the strips of the explosive explosive 4. Each segment of the ShKZ 2 forms a flat stream from a cumulative recess. Both jets are directed at an angle to each other in the direction of the rod of the lattice 3, washing away part of the material of the rod. The remainder of the material in the cross section of the rod is mechanically loaded. In this case, the loads from each jet geometrically add up and destroy the remainder of the rod cross-sectional material. The rods of the lattice 3 are chopped and a passage is formed in the lattice sufficient for a person to pass.

To verify the operability of the proposed design, numerous field experiments were carried out on the destruction of steel rods with a diameter of 10 mm and 30 mm by devices with an angle at the top of the body from 40 to 90 ^o . Positive results were achieved at all angles, however, chopping of rods of maximum diameter was more often achieved at smaller solution angles of the V-shaped body.

 Thus, the developed small-sized device for the destruction of the metal lattice is convenient in operation and easy to manufacture, which allows us to solve the problem.

Claims (4)

 1. A device for the destruction of the bars of the metal lattice, door hinges and locks, containing a cord shaped charge and an initiation system, characterized in that it consists of one or more identical explosive elements placed on the rods of the destructible lattice, each of which contains a V-shaped body, equipped with an attachment unit for the element on the grill rod, while at each end of the V-shaped body there are sections of cord shaped charge located cumulative recesses in the same plane on I’m meeting each other, and the outer surfaces of each segment of the cord shaped charge, opposite the cumulative recess, in each explosive element are interconnected by a strip of elastic explosive, and a detonating cord is attached to the middle part of this strip of each explosive element, while the free ends of the detonating segments the cord of all explosive elements of the device are combined together and connected to an electric detonator.  2. The device according to claim 1, characterized in that between the two segments of the cord shaped charge, a third segment is additionally placed in the same plane, connected by a strip of elastic explosive to the first two segments.  3. The device according to p. 1, characterized in that the housing of the explosive element is made of non-metallic material, preferably plastic, cardboard or wood.  4. The device according to claim 1, characterized in that the attachment unit of the element on the wire rod is made in the form of an elastic, preferably rubber, ring attached to the housing from one of the segments of the cord shaped charge.

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