RU107851U1 - REMOTE ELECTRIC SHOCK DEVICE - Google Patents

Abstract

 1. Remote stun device, including a removable cartridge and a stun gun, equipped with electrical and mechanical communication with each other, and the electrical connection is made through the spark gap between the two electrical contacts of the cartridge and the corresponding two protruding metal electrodes of the stun gun, and for mechanical communication the cartridge is equipped with a tip with protrusions, and the stun gun - a recess with grooves and protrusions for fixing the cartridge after placing the tip in the recess and e of rotation about the longitudinal axis, characterized in that on the bottom of the recess arranged spring element, and the spark gap of 0.1-0.8 mm. ! 2. The remote electroshock device according to claim 1, characterized in that the spring element is made in the form of an elastic pad of an elastic material selected from the group: polyurethane foam, butyl rubber, silicone rubber, urethane rubber, fluorine rubber, fluorosulfonated polyethylene. ! 3. The remote electroshock device according to claim 1, characterized in that the stun gun body is made in the form of a hollow cylinder of insulating material, in which a power source, an electric circuit for generating a high voltage pulse and a starting device supplying a high voltage pulse to protruding metal electrodes are placed. ! 4. Remote stun device according to claim 1, characterized in that on 50-80% of the surface of at least one protruding metal electrode is additionally placed a coating of insulating material.

Description

The utility model relates to the field of weapons, in particular to means of destruction by electric discharge, and can find application in electroshock devices with remote destruction.

A remote electroshock device is known, consisting of a replaceable cartridge (an element of an electroshock device — an electric discharge transportation unit made in the form of a cartridge) and an electric shocker, including a housing in which a power source is located, an electric circuit for generating a striking electric discharge, and a starting device. The cartridge and the stun gun are equipped with a means of detachable connection between themselves, providing electrical and mechanical connection between the elements of the cartridge and the stun gun. To ensure electrical communication in the device, the cartridge is equipped with electrical contacts in the form of electrically conductive metal strips located on its side surfaces, and to provide mechanical communication (fixation) - with a tip with protrusions. To provide electrical communication, the stun gun is equipped with two protruding electrodes located on its end, and to provide mechanical communication (fixation), a recess with grooves and protrusions, and under the protrusions, an annular groove is made to accommodate the protrusions of the cartridge after installing the cartridge tip in the stub recess and turning around the longitudinal axis.

(RU 84096 U1, F41B 15/04, published on June 27, 2009)

A disadvantage of the known technical solution is the lack of reliability of the device, associated with the ease of rotation of the cartridge around the longitudinal axis and interruption of the electrical connection of the cartridge elements and the stun gun.

The objective and technical result of the utility model is to increase the reliability of operation of the device by providing a more tight contact of the connecting elements of the removable cartridge and the stun gun.

The technical result is achieved by the fact that the remote stun device includes a removable cartridge (1) and a stun gun (2) equipped with electric and mechanical communication with each other, and the electrical connection is made through the spark gap between the two electrical contacts (3) of the cartridge (1) and the corresponding two protruding metal electrodes (4) of the stun gun (2), and for mechanical communication, the cartridge (1) is equipped with a tip (5) with protrusions (6) and the stun gun (2) has a recess (7) with grooves (8) and protrusions (9) with to with a ring groove (10) below them, in which protrusions (6) of the tips (5) are located after placing the tip (5) in the recess (7) and turning it around the longitudinal axis, the spring element (11) is placed on the bottom of the recess, and the spark gap is 0.1-0.8 mm.

The technical result is also achieved by the fact that the spring element (11) is made in the form of an elastic pad of an elastic material selected from the group of polyurethane foam, butyl rubber, silicone rubber, urethane rubber, fluororubber, fluorosulfonated polyethylene; the stun gun case is made in the form of a hollow cylinder of insulating material, in which the power supply, the electrical circuit for generating a high-voltage pulse and a starting device supplying a high-voltage pulse to protruding metal electrodes (4) are placed, and on at least one protruding metal electrode (4) additionally placed a coating (12) of insulating material.

The utility model is illustrated by the drawings shown in figure 1 (cartridge and stun gun before connection) and figure 2 (cartridge and stun gun in assembled condition). According to the drawings, a remote stun device according to a utility model consists of the following elements:

1 - removable cartridge;

2 - stun gun;

3 - cartridge electrical contacts;

4 - protruding metal electrodes of the stun gun;

5 - cartridge tip;

6 - protrusion of the tip of the cartridge;

7 - deepening of the stun gun;

8 - groove groove 7;

9 - the protrusion of the recess 7;

10 - annular groove;

11 - spring element;

12 - coating of insulating material.

The device according to the utility model contains a typical removable cartridge (1) for a remote stun gun, for example, a MART electric discharge transport unit BTER manufactured in the form of a parallelepiped that contains a means for delivering two electrodes with a high voltage between them to the target. The operation of the cartridge (1) - the release of damaging electrodes (liners) - occurs when applying to its electrical contacts (3), made in the form of electrically conductive strips placed on the cartridge case, a high voltage pulse through the spark gap (air gap) of 0.1-0 , 8 mm (optimally 0.5 mm). A high voltage pulse is supplied to the spark gap through the protruding metal electrodes (4) of the stun gun (2), which, together with the electrical contacts (3), form an electric communication tool between the removable cartridge (1) and the stun gun (2). To generate a high voltage pulse, the stun gun, made in the form of a hollow cylinder of insulating material (plastic), contains an electric power source in the form of a “Krona” battery, a typical electric circuit for the formation of a high-voltage discharge, and a starting device in the form of a closing button, which supplies the generated high-voltage discharge to the protruding metal electrodes (4).

To bring the device according to the utility model to a combat state, it is necessary to mechanically couple the cartridge (1) and the stun gun (2) to provide the required value of the spark gap.

For mechanical communication, the cartridge (1) is equipped with a tip (5), at the ends of which protrusions (6) are made in an amount of 2 to 4 and mainly in the form of parallelepipeds. In turn, the stun gun at its end is provided with a recess (7), the input section of which repeats the shape of the section of the tip (5), for example, in the form of a rectangular slot or cross, i.e. the recess is provided with grooves (8) and protrusions (9). To ensure reliable communication between the mechanical elements of the cartridge (1) and the stun gun (2), an annular groove is made under the protrusions (9), the diameter of which is slightly larger than the distance between the extreme points of the protrusions (6) of the cartridge.

To connect the cartridge and the stun gun, the tip (5) is placed (inserted) into the recess (7) and turned along the longitudinal axis into the protruding metal electrodes (4) of the stun gun. In this case, the protrusions of the cartridge (6) are located under the protrusions (9) of the stun gun, providing the required mechanical and electrical connection. To prevent the cartridge from turning in the opposite direction and breaking the electric connection, a spring element is placed on the bottom of the recess in the form of an elastic pad made of an elastic material, for example, foam rubber (foamed polyurethane). Due to the compression of the elastic material, a significant increase in the friction forces of the contacting surfaces is ensured, which prevents the cartridge from turning out of the working position or spontaneously under the influence of a small force. In addition, to ensure the required value of the spark gap on 50-80% of the surface, optimally on 70% of the surface of one protruding metal electrode (4), an additional coating (12) of insulating material (vinyl chloride tube) is additionally placed.

Thus, the remote stun device according to the utility model ensures the achievement of the technical result.

Claims (4)

1. Remote stun device, including a removable cartridge and a stun gun, equipped with electrical and mechanical communication with each other, and the electrical connection is made through the spark gap between the two electrical contacts of the cartridge and the corresponding two protruding metal electrodes of the stun gun, and for mechanical communication the cartridge is equipped with a tip with protrusions, and the stun gun - a recess with grooves and protrusions for fixing the cartridge after placing the tip in the recess and e of rotation about the longitudinal axis, characterized in that on the bottom of the recess arranged spring element, and the spark gap of 0.1-0.8 mm. 2. The remote electroshock device according to claim 1, characterized in that the spring element is made in the form of an elastic pad of an elastic material selected from the group: polyurethane foam, butyl rubber, silicone rubber, urethane rubber, fluorine rubber, fluorosulfonated polyethylene. 3. The remote electroshock device according to claim 1, characterized in that the stun gun body is made in the form of a hollow cylinder of insulating material, in which a power source, an electric circuit for generating a high voltage pulse and a starting device supplying a high voltage pulse to protruding metal electrodes are placed. 4. Remote stun device according to claim 1, characterized in that on 50-80% of the surface of at least one protruding metal electrode is additionally placed a coating of insulating material.