BG109350A - Anti-helicopter mine - Google Patents

Abstract

The mine is intended to strike down low flying aircrafts, e.g. helicopters or pilotless machines. It consists of a starting mortar (10), in which there are successively arranged a missile charge witha cumulative cone (11) and an electric fuse (13), an isolating cover (12) and a three-part protector (6) with a defensive hand grenade F-1 placed therein. The grenade consists of a body (8), to which, through a universal fuse (5), there are successively attached a lamellar rotor (9) with at least four feathers and a support plate (7) closed by a transportation cover (2). At the opposite end of the mine, a bayonet (14) is attached to which, through an identical element, a control module (19) is fastened that contains an antenna member (1), a receipt-and-control unit (15) with a self-liquidator(20), motion pick-ups (16) with external sensors (17) and storage battery elements (18), all they being connected mechanically and through galvanization.

Description

ANTI-HELICOPTER MINE ··· ··· * ·· * ··· *

Technical field.

The invention relates to an anti-helicopter mine, which is intended to strike low-flying helicopters or other low-flying aircraft by attacking in the upper hemisphere.

BACKGROUND OF THE INVENTION

A well-known landmine is known, which consists of a combat body composed of a fragmentary body and a cumulative charge body, a control unit, an acoustic sensor, a microwave sensor mounted in a common body to the combat units, a remote control unit and a stand. The sensors are mounted so that the axis of their receiving diagrams is parallel to the firing direction of the fragments and cumulative charges of the warhead.

The disadvantage of the anti-personnel mine is that it is attacking the lower part of the aircraft, which is usually highly protected, which reduces the effectiveness of the attack in the lower hemisphere. small mass of © fragments.Effectively functioning enemy electronic warfare system increase the likelihood of fraudulently activating or destroying a mine. the remainder is the partial actuation of the minesweeping position and. [1]

SUMMARY OF THE INVENTION

It is an object of the invention to provide an anti-helicopter mine with increased effectiveness of the striking elements attacking the upper less protected hemisphere of the aircraft, using a modified ammunition in production, of low technological complexity.

'2

The problem is solved with a proto-helicopter11a'min; w> 0greater: a starting gun, a three-piece tread with a flush mount (ybrkit ^ f grenade F-1, mounted in series with it, via the universal grenade lighter, plate rotor with at least four feathers and a retaining plate, insulating cover, cumulative cone-throwing charge, electric lighter, bayonet grip, control module including antenna self-destructor, sensing accumulator elements.

The launcher mounts a single-sided 'lighter' body, a bayonet grip, and a transport cover that closes the volume with ammunition.

The three-piece tread is composed of three high-porosity foamed polymer elements fixing the F-1 hand grenade along the longitudinal axis of the mortar and pressing the plate rotor in the retracted position to the grenade warhead.

The insulating cover is a cylindrical, thick-walled, one-sided element, a receiving-control unit with irreversible sensors and is

closed, © cylindrical deflection mounting hole for thermoplastic polymer bottom closed body.

The cumulative cone-throwing charge contains a fixed amount of ballistic gunpowder, placed in a thin-walled vessel, shaped along the longitudinal axis and in the direction of firing, a cumulative cone. A socket for an electric lighter is filled at the bottom of the vessel.

The lighter is a normalized pyrotechnic article that generates a firing impulse to ignite the throwing charge at the command of the control module.

The bayonet grip contains two profile, annular elements structurally connected to the launcher and control module, providing a fast and reliable, mechanical and galvanic connection between the two devices.

The control module contains a radio device with an antenna element and a connecting feeder, a one-time programmable controller, providing the modes of control standby, firing, deactivation, self-elimination. The touch sensor unit contains an electronic converter with optional external sensors.

Description of the attached figures.

Attached figure 1 shows a longitudinal section of the anti-helicopter mine. ·: · ···

Attached figure 2 shows? Phase ^ * ·· 'action of the helicopter mine in phases.

Example of implementation.

The anti-helicopter mine consists of a mortar launcher 10, in which a blasting charge 21 with a cumulative cone and a lighter 13, an insulating lid, are mounted thereon.

12, a three-piece protector 6, with a defense arm F-1 assembled therein, consisting of a combat body 8, to which a plate rotor 9, with at least four feathers and a retaining plate 7, is successively attached via the Universal Lighter for the Hand Grenade 5; with the transport cover 2.To the bottom of the launcher 10, one of the two ring elements of the bayonet grip 14 is structurally connected, connecting mechanically and galvanically, the morgue 10 and the electrical lighter 13 with the control module 19, which are galvanically connected to each other at mnoupravlavasht block 15 with an external antenna element 1, sensors 16c neizvlekaemost external, additional mounting its during installation, sensors 17 and 19 akomulatorni elements.

Use of the invention.

When laying the anti-helicopter mine in the launch zone, after removal of the transport cover 2, / figure 1 /, the ring with the safety pin 3 is withdrawn, thus activating the combat readiness of the Universal lighter 5. Reinserting the transport cover 2, with which isolates the volume of ammunition from the surrounding atmosphere, places the outer sensors 17 in their sockets in the control module 19 and places the mine in position.

The radio-encoded mine, through the antenna element 1 of the control unit 15 of the control unit 19, is put into firing mode. When the encoded firing signal is received from the control unit of the control unit 19, the electrical ignition is activated.

13, igniting the propellant charge 21. The gaseous propulsion drives the accelerator and the successive barrel of the launcher 10, the insulating cover 12, which pushes in the direction of firing, the three-piece protector 6, with the F-6 defense grenade, In the impact of the air flow, the three-piece tread 6 breaks down into three elements, releasing the safety handle. The latch # launches, ejects transport cover 2 and leaves the trigger barrel 10./figure 2-phase-1/. 4 on

Universal lighter 5, which activates it. By reaching the peak point of its trajectory, (Fig. 2-phase 2), the plate rotor opens and, in the continuous free fall, further extends the body of the grenade, at the same time, stabilizing the fall and delaying the loss of height. phase3 / .If the delay and the trigger of the universal lighter detonator 5 are triggered, there is a rupture of the warhead 8 and the splinter fragments strike the nearby flying machine (figure 2 phase4), preferably in the upper hemisphere, where the elements are structural or from the management of aircraft are less protected or unprotected - glazing of cockpit or cargo cabs, assemblies and controls of carrier or steering screws, transmission to tail propeller, navigation or combat equipment, motogonds.

When attempting to deactivate the mine by retrieving from the position, the external sensors 17, via motion sensors 16, actuate the self-destructor 20, which detonates the throwing charge (21) in succession, and the jet formed by the cumulative cone (11) permanently detonates the burst charge. the combat body / 8 / of the © Defense Grenade F-1.

The antenna element is designed as a metallized sector on the outer surface of the launcher! 0, the transport cover 1, the surface of which is also metallized, forms part of the receiving antenna element 1 .. terminating in the receiving control unit 15 of the control module 19.

In order to reduce the impact of the explosive shock on the burst charge of the hand grenade, in the event of remote sensing attempts by volume explosives or other conventional methods, the three-part protector 6 is made of expanded, foamed polymer for optimal damping. of the initiating detonation pulses.

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Attachment: 2 figures

Information sources:

1. BG64012 F42B23 / 04

Claims (9)

Claims 1. A helicopter mine consisting of a starting mortar (10) in which a throwing charge (21) with a cumulative cone (11) and an electric lighter (13) _{> an} insulating cover (12), three-piece, are installed in series. a protector (6) with an F-1 defensive grenade assembled therein consisting of a combat body (8) to which, by means of the universal grenade lighter (5), a plate rotor (9) with at least four feathers is successively attached and a thrust plate (7), closed with a transport cover (2), with a bayonet grip (14) attached at the opposite end of the launcher (10) to which, through an identical element, a control module (19) is attached, comprising, mechanically and galvanically coupled antenna element (1), receiver-control unit (15), with self-destructor (20) attached, sensors 3 and movement (16) with external sensors (17) and accumulator elements (18), characterized in that a defense arm grenade F-1 composed of a combat body is housed in the launcher (10) through a three-piece protector (6). (8) and Universal Hand Grenade Lighter (5). An anti-helicopter mine as claimed in claim 1, characterized in that the plate rotor (9) with at least four, is attached to the warhead (8) of the defense hand grenade F-1 via the universal lighter (5) **. pen and thrust plate (7). The helicopter mine as claimed in claim 1 and 2, characterized in that the combat arm (8) of the defense grenadeF-1 is housed in a three-part protector (6) of foamed, expanded polymer. A helicopter mine as claimed in claims 1 to 4 3, characterized in that, in one of the three segments of the three-piece protector (6), a profile channel is pressed against the protective latch (4) of the Universal lighter (5) placed in the starting morgue (10). • ·: · · · ♦ • · · · · · · · · · · · An anti-helicopter mine, in accordance with the fact that the throwing charge (21) is made of fast-firing ballistic gunpowder. 6. A helicopter mine, as claimed in claims 1 and 5, characterized in that the blasting charge (21) is placed under the insulating cover (12) in a thin-walled vessel in which a cumulative cone (11) is formed coaxially and in the direction of firing. A helicopter mine according to claims 1 and 2, characterized in that the platinum rotor (9) has at least four feathers. 8. A helicopter mine according to claim 1, characterized in that the control unit (15) of the control module (19) is arranged around a single-programmable controller. 9. A pro-helicopter mine according to claims 1 and 8, characterized in that a self-destructor (20) is equipped with a high-explosive explosive substance in the control unit (19). Yu. A helicopter mine according to claim 1 and claim 8, characterized in that the antenna element (1) is configured as a metallized sector on the launcher housing (IO) connecting the control unit (15) to the transport cover (2) ), whose surface is also metallized and forms part of the antenna element (1).