RU2481537C2 - Cartridge for remote electrical shock device with partially isolated current distributor - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: cartridge includes housing, shell and spiral-shaped wire current distributor in a form of a coil located between them. One end of the coil is attached to the shell, the second end is attached to the housing. A piece of 0.05-0.5 of current distributor length from the place of attachment to the shell is covered by isolating coating with thickness from 0.1 to 2.0 of current distributor diameter.

EFFECT: increase of electric-shock weapon efficiency.

Description

The invention relates to weapons with electric weapons.

The TASER remote electric shock weapon is known, which transmits electrical energy to the target using two shells connected to the weapon using insulated wires. Shells, insulated wires and a TASER throwing energy source are placed in a cartridge that attaches to the weapon when firing. When firing a TASER, projectiles are thrown at the target, pulling the initially stationary insulated wires packed in the side cavities of the cartridge.

The absence of a special wire tension mechanism in TASER leads to the fact that after the shells are fixed to the target, the wires sag and intersect. Therefore, in order to prevent shunting of the discharge circuit when crossing wires in a TASER shot, wires in high voltage insulation are used.

The disadvantage of the TASER method of transmitting electrical energy is the significant loss of kinetic energy of the projectile due to the fact that the insulated wire has a significant mass. This significantly limits the range of the TASER.

There is also a method of transmitting electrical energy to a target using uninsulated conductors. WO 2009025575 describes a stun gun cartridge in which a conductor is packed in a shell in the form of a tensile spring, and electric energy is transmitted to the object due to the spatial separation of the conductors and their tension, which ensures that the conductors do not intersect after the shells are fixed to the target.

The patent RU 2308668 describes a unitary cartridge of an electroshock weapon selected as a prototype, in which an uninsulated conductor is made in the form of a frameless coil that is placed in the cavity of the projectile. When fired, the projectile along with the coil is accelerated in the cartridge by a pushing tray. With further movement, the projectile is fixed on the object, and the coil unfolds in an extended spring. The tension of two parallel wires in the form of springs provides a disjoint electrical circuit connecting the high voltage source and the object of influence.

The disadvantage of this invention is the possibility of crossing bare wires when moving, in particular when falling, the object of influence. The intersection of bare wires leads to the closure of the electrical circuit, which, in turn, leads to the cessation of the supply of electric current to the target.

The main objective of the invention is to eliminate the aforementioned drawback of the device of the stun gun cartridge known in the prior art, and to increase the efficiency of the remote stun gun by reducing the likelihood of crossing bare wires connecting the projectiles and the high voltage source.

This goal is achieved by the fact that in the cartridge of the stun gun containing the shell, the projectile and the spiral wire conductor located between them in the form of a coil (tension spring), one end of which is attached to the shell, and the second end is attached to the shell, the length of the conductor in place the connection with the projectile up to 0.05-0.5 of its length is covered with an insulating coating with a thickness of 0.1 to 2.0 of the diameter of the conductor.

The length of the insulated wire is chosen so that when the object of impact falls, the intersection of wires falls on the insulated part. The shorter the insulated area, the greater the likelihood of the wires crossing when the object of impact falls.

With electroshock exposure, two stages can be distinguished. At the first stage, which begins when the shells are fixed on the object of influence, the electric circuit ESH-wire-body-wire-ESH is established. At the second stage, the actual electroshock effect occurs. In this case, the voltage is units of kilovolts. To insulate the wires at this voltage, it is enough to have an air gap of 2 millimeters. The initial distance between the wires at the output of the ESH is 3-5 centimeters. Based on geometric considerations, at a distance of up to 10 meters, the required air gap of 2 millimeters is achieved at distances of not more than 0.5 meters from the point of intersection of the wires. The characteristic distance associated with the object of influence, at which the intersection of the wires is possible, is 0.5-0.7 meters and is determined by the length of the arm.

Thus, the minimum length of the insulated section of the wire should be 1-1.5 meters with a wire length of about 10 meters and reduced to 0.5-0.7 meters while reducing the length of the wire to 3 meters.

On the other hand, the longer the insulated section, the heavier the wire and the greater its resistance in flight. Based on this, it is impractical to increase the length of the isolated section in excess of the required value.

It follows that the length of the insulated wire should be 0.05-0.25 of the total length of the wire, and adjusted for bending the wire in the form of a spring from 0.05 to 0.5 of the total length of the wire.

Implementation example

When the length of the solid wire of aluminum alloy was 7 meters and the length of the insulated part was 0.9 meters with an electrical insulation strength of 2 keV, intersections of uninsulated sections of wires when firing at ranges from 3 to 5 meters with a full-height dummy were not observed even when the insulated sections of wires were artificially connected at a distance 0.7 meters from the mannequin. At the same time, the probability of two shells entering the manikin’s body at a distance of 5 meters was reduced by no more than 15 percent compared to using completely uninsulated wires.

Claims (1)

A stun gun cartridge containing a housing, a projectile and a spiral wire conductor located between them in the form of a coil (tension spring), one end of which is attached to the projectile, and the other end is attached to the housing, characterized in that the length is 0.05-0.5 length the conductor from the junction with the projectile is covered with an insulating coating with a thickness of 0.1 to 2.0 of the diameter of the conductor.