RU2743468C1 - Mine-clearing line charge unit - Google Patents

Abstract

FIELD: military technologies.

SUBSTANCE: invention relates to the design of the demining line charge unit. The demining line charge unit contains links of charges of condensed explosive, each in a plastic case, bending nodes, a through power cord of polymer threads, end nodes of connection, a through power cord finish and end detonating cords for transferring detonation between the links. The through power cord of polymer filaments is made in the form of a braided rope, for example, a multi-strand rope, the links are fixed on the braided rope from both sides, with transverse pins piercing the braided rope at the ends of the links or on each link in the end lugs, while the space of the bend nodes between the links is provided with insert charges of a plastic explosive with the possibility of bending the demining line charge unit up to 180°. Each additional charge of a plastic explosive is made of a composite of two parts, fastened together. The cross-sectional area of each additional charge of a plastic explosive is 0.7 - 0.9 of the sectional area of the link. The demining line charge unit is equipped with an additional sheath in the form of a woven sleeve, fixed in the end nodes, while on the shell, in the fold nodes, there are tightening clamps. The links are made in the form of rectangular cases and are equipped with protective covers.

EFFECTS: invention provides an increase in the strength of the demining line charge unit, an increase in the reliability of the transmission of detonation, the prevention of the shift of details on a braided rope under inertial dynamic loads arising from deploying a demining charge from the demining unit cassette, flight and landing, an increase in the demining effect, due to an increase in the amount of explosive in demining line charge unit.

5 cl, 6 dwg

Description

The present invention relates to the field of military technology, namely to devices for elongated demining charge sections. Sequentially assembled sections form elongated demining charges of great length, remotely fed from launchers to ground minefields through the air by jet engines in order to make passages in them for armored vehicles and other equipment during a fast offensive operation.

Elongated demining charges of foreign systems are known from the prior art, such as TAMKAR (Turkey) (see, for example, Jane's Mines and Mine Clearance 2008-20097 Edited by Colin King / Thirteenth Edition, p. 715), M58 (M58 MICLIC ) ”(USA) (see, for example, Field Manual of the US Army FM 20-32. Mine / Contermine Operations. Headquarters, Department of the Army, Washington, DC, 30 June 1999. Change 22.08.2001. Chapter 10), and also domestic elongated demining charges included in the ammunition of the UR-67, UR-77, UR-83P, (Russia) demining installations (see, for example, "Arms of Russia" / Catalog / weapons and ammunition "/ AOZT" Military Parade ", pp. 657, 658 M. - 1997) and the modern design of the elongated demining charge section (see patent RU 2555560 C1, published July 10, 2015, Bul. No. 19, priority: 01/31/2014).

Domestic demining installations are superior in most technical characteristics to foreign demining installations. However, the continuous development of mining equipment, including foreign means of remote setting of wide-band minefields, their fire protection by various systems, poses for domestic developers of promising mine clearance systems, the task of constantly improving it in the direction of improving the basic tactical and technical characteristics, which include, on one On the other hand, the linear mass of the explosive and the length of the demining charge, which determine the effectiveness of the action, and on the other hand, the strength characteristics of the elements of the section, its operability and efficiency after the charge is supplied by jet engines to the minefield.

Known demining charges have a length of about one hundred meters and a mass of at least 1 ton and, according to the conditions of production and operation, consist of sequentially assembled long sections weighing several tens of kilograms, for example, demining charges collected from sections DKR-4, DKRP-4 ("Means of overcoming mine -explosive barriers ", 15 TsNII MO RF named after DM Karbyshev, 2004 Russia"). In this case, each section contains an explosive, which is located in the outer shell or in the body, through power threads that perceive the main longitudinal loads of the reactive feed, through detonating detonation transfer cords, section bending nodes between the links, end nodes of power threads termination, detonation transfer and connections sections in the demining charge.

In demining installations, charges are placed in cassettes, the volume of which ultimately determines the length and mass of the charge.

Currently, a closer design (Prototype) is, according to the authors, the design of the section of the elongated demining charge according to patent RU 2555560 C1.

In this design of the section of the elongated demining charge, each link of the charge of the condensed explosive is made in a plastic case, while the through power threads, in the form of two power harnesses and a detonating cable inside each link, are walled up in the casting explosive to ensure the structural adhesion of the bodies with the power threads, for prevention of the shift of the housings, relative to the power threads during inertial loads arising in the process of sampling, flight and landing of the demining charge.

The disadvantage of this design, at present, is:

- insufficient shear strength of the link relative to the power cords walled up in the cast explosive, which leads to unstable detonation transfer from link to link, damage to detonating cords;

- insufficient mass of explosive in the section of the extended demining charge;

- insufficient strength of the elements of the elongated demining charge section in conditions of high rates of demining charge sampling from demining installations, flight and landing on a minefield.

The technical problem is to create a section of the elongated demining charge, devoid of the above disadvantages.

Technical results provided by the proposed invention:

- increasing the strength of the elongated demining charge section;

- increasing the reliability of the transmission of detonation;

- prevention of the shift of housings on a braided rope during inertial dynamic loads arising from the removal of the demining charge from the demining unit cassette, flight and landing;

- increasing the demining effect, by increasing the amount of explosive in the section of the extended demining charge.

In the claimed by the authors of the new design of the section of the elongated demining charge, the section of the elongated demining charge contains links of charges of a condensed explosive, each in a plastic case, bending nodes allowing the section to bend when stacked in the cassettes of the demining installation. The through power cord of polymer filaments is made in the form of a braided rope, for example, a multi-strand rope that can withstand increased breaking loads. The end nodes of the connection of the elongated demining charge sections, which are identical at the two ends of the elongated demining charge sections, contain a braided rope termination and end detonating detonation transfer cords between the links. The links, to prevent shear on the braided rope, are fixed on both sides with transverse pins with the braided rope piercing at the ends of the links or on each link in the end lugs. The space of the bending nodes between the links is equipped with supplementary charges of a plastic explosive allowing the section of the elongated demining charge to be folded up to 180 °, and each supplementary charge of a plastic explosive is made of two parts fastened together, and the cross-sectional area of each supplementary charge of a plastic explosive is equal to 0.7 ... 0.9 of the sectional area of the link.

The section of the elongated demining charge is equipped with an additional sheath in the form of a woven sleeve fixed in the end nodes, which is necessary to protect the elements of the section when removing the demining charge, landing on the ground, as well as improving flight and aerodynamic characteristics. On the shell, in the bending nodes, there are clamps - tighteners additionally tightening the additional charge of the plastic explosive.

The links of the section of the elongated demining charge are made in the form of rectangular bodies and are additionally equipped with protective covers that ensure the strength of the polyethylene body of the link.

The design device of the elongated demining charge section is illustrated by the drawing and photographs:

FIG. 1 is a general view of a section of an elongated demining charge in section.

FIG. 2 is a photograph of the serviceability of the links and their fixation in the section of the extended demining charge.

FIG. 3 is a photograph of the case of the link of the section of the elongated demining charge in the casing.

FIG. 4 is a photograph of the elongated demining charge section during manufacture.

FIG. 5 is a photograph of the process of reactive delivery of the elongated demining charge.

FIG. 6 is a photograph of the state of the elongated demining charge after launch and landing on the ground.

The design of the section of the elongated demining charge, (see Fig. 1) contains links 1 of charges of condensed explosive, each in a plastic case, bending nodes 2 allowing the section to bend when stacking it in the cassettes of the demining installation. The through power cord of polymer threads is made in the form of a braided rope 3 withstanding increased breaking loads. The end nodes 4 of the connection of the sections of the elongated demining charge, identical at the two ends of the sections of the elongated demining charge, contain the termination 5 of the braided rope 3 and the end detonating cords 6 of the detonation transfer between the links 1. The links 1, to prevent shear on the braided rope 3, are fixed on both sides transverse pins 7 (see also Fig. 2) with piercing of the braided rope 1 at the ends of the links or on each link in the end lugs 8.

The space of the bend nodes 2, between the links 1 is equipped with supplementary charges of a plastic explosive 9 with the possibility of bending the section of an elongated demining charge up to 180 °, and each supplementary charge of a plastic explosive 9 is made up of two parts fastened together, and the cross-sectional area of each supplementary the charge of the plastic explosive 9 is 0.7 ... 0.9 of the sectional area of the link.

Also, the section of the elongated demining charge is equipped with a shell 10, in the form of a woven sleeve, fixed in the end nodes 4, which protects the elements of the section of the elongated demining charge, and also improves the flight, aerodynamic characteristics of the demining charge. On the shell 10, in the fold nodes 2, there are clamps-braces 11 tightening the additional charge of the plastic explosive 9.

The links 2 of the section of the elongated demining charge are made in the form of rectangular bodies and are additionally equipped with protective covers 12 (see also Fig. 3), providing additional strength to the polyethylene body of the link 2, made, for example, from a heat-shrinkable polyethylene terephtolate film (PET).

In the order of experimental development of the proposed invention made full-scale prototype (inert) section of the elongated demining charge. FIG. 4 shows a photograph of the sections of the elongated demining charge in the manufacturing process without the shell 11 and as part of a single-thread elongated demining charge in the shell 11, as well as landfill launches of demining charges from the UR-77 demining installation (see Fig. 5). The state of the single-strand demining charge on the ground is illustrated by the photograph shown in FIG. 6.

This implementation of the design of the section of the extended demining charge provides an increase in the strength of the elements and nodes of the demining charge, completely eliminates the possibility of longitudinal, inertial shift of the housings in the section and disrupting the detonation transmission in the bending nodes of the section of the elongated demining charge, increases the efficiency of the demining charge due to the use of an additional supplementary plastic explosive substances.

When equipping the cassettes of the demining installation, the rectangular cross-section of the section housings and the filling of the fold units with a plastic explosive not only geometrically ensures a more complete use of the free space of the cassette, but when using standard installations in service, it provides the possibility of a direct increase in the linear mass of the explosive in the demining charge from 8 kg / lm up to 12.4 kg / lm (two-strand demining charge).

When the extended demining charge is started by jet engines, inertial, longitudinal and lateral dynamic loads of significant magnitude occur in the extended demining charge section. The use of extra strong braided ropes, such as multi-strand braided ultra-high molecular weight polyethylene ropes with a breaking strength of more than 16 tons, provides the formation of charges up to 600 m long, and the filling of the bend nodes with a plastic explosive and the use of a woven sleeve increase the aerodynamic and flight characteristics of the elongated demining charge.

When an elongated demining charge is detonated without through detonating cords, filled with an insert plastic explosive between the bodies, the reliability and stability of the initiation of the explosive along the entire length of the charge is ensured, the power of the demining charge and its demining effect increase.

Claims (5)

1. Section of an elongated demining charge containing links of charges of a condensed explosive, each in a plastic case, bending nodes, a through power cord of polymer threads, end nodes of the connection, sealing a through power harness and end detonating detonation transfer cords between the links, characterized in that the through the power cord of polymer filaments is made in the form of a braided rope, for example, a multi-strand rope, the links are fixed on the braided rope from both sides, with transverse pins piercing the braided rope at the ends of the links or on each link in the end lugs, while the space of the bend nodes between the links is provided with additional charges a plastic explosive with the ability to bend the section of the elongated demining charge up to 180 °. 2. Section of the elongated demining charge according to claim 1, characterized in that each additional charge of a plastic explosive is made of two parts, fastened together. 3. Section of the elongated demining charge according to claim 1, characterized in that the sectional area of each additional charge of the plastic explosive is 0.7 ... 0.9 of the sectional area of the link. 4. Section of the elongated demining charge according to claim 1, characterized in that it is provided with an additional sheath in the form of a woven sleeve, fixed in the end nodes, while on the shell, in the fold nodes, clamps are placed. 5. Section of the elongated demining charge according to claim 1, characterized in that the links are made in the form of rectangular bodies and are equipped with protective covers.

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