RU43350U1 - ELECTRIC SHOCK DEVICE PROBE FOR REMOTE ELECTRIC SHOCK - Google Patents

Abstract

The utility model relates to the field of electric means of destruction of objects. The probe of the stun device contains a hollow cylindrical or multifaceted shell 1 with a head 2, on the outer edge of which there is a fastening element on the target. Inside the hollow shell 1, there is placed a lead 3, laid in the form of a three-dimensional figure formed by sequentially along and / or around the longitudinal axis of the hollow shell 1 quasi-spirals, the plane of which is perpendicular to this axis, while maintaining their initial orientation. The fixing element on the target can be made in the form of at least one needle 6 with a horn, capsules with adhesive conductive material or a magnetic insert. The head 2 can be made heavier, and the tail of the hollow shell 1 can be made in the form of a narrowed section or provided with an annular insert. This implementation of the probe minimizes its overall dimensions while increasing the distance and reliability of hitting targets with electric current, which increases the efficiency of the probe. 8 s.p. f-ly. 1 ill.

Description

A probe of an electroshock device for remote electric shock.

The utility model relates to the field of electric means of destruction of objects and can be used in electroshock devices of remote action.

A known probe electric shock device with a remote lesion, made in the form of a harpoon connected to a conductor laid next to the harpoon gun (US 8843, 1852). The probe is designed for whale hunting.

Such a device, however, has significant dimensions.

A probe of an electroshock device for remote destruction is also known, based on the formation of an electrically conductive channel for remote destruction due to the removal of the current lead from the electroshock device with a liquid stream (RU 2150653, 2000). In this case, the probe is a stream of liquid with a wire conductor in it, which is held in this stream during the flight to the target. Laying the conductors is carried out by rings at the bottom of the tank with liquid.

Such a device, however, is not very effective, since it has significant dimensions, the range of the target’s defeat is limited by the action of a liquid stream, which can be significantly undesirable by external atmospheric conditions, and the conductors laid in the tank can get tangled when throwing.

Of the known devices, the closest to the proposed one is a probe of an electroshock device for remotely hitting targets with electric current, containing a hollow shell secured to its head and made of conductive material, a head mounted to the target on the outer edge of the head, and placed inside the main part of the hollow a conductor shell, one of the ends of which is fixed on the inner face of the head with electrical contact with it, and the other,

located in the rear of the shell, free (US 3803463, 1974). The current lead, mainly wire, in this probe is placed in the cavity of the hollow shell on the guide rod fixed in it with a cone in the form of a single-layer coil wound round to round. The free end of the conductor is fixed in the stun device. The element of attachment to the target is made in the form of a multi-needle structure of the “burdock” type. The probe can also be equipped with elements for stabilizing the flight path.

When throwing (for example, by means of a pyrotechnic effect) from an electroshock device, a hollow shell with a current lead flies out of the electroshock device. At the same time, the end of the current lead, fixed in the stun device, pulls the current lead out of the hollow shell, reeling it from the conical part of the guide rod. During the flight of the probe, reeling takes place before the probe hits the target and secures it to the target. In another embodiment of the probe, when throwing, the hollow shell is separated from the guide rod with the cone on which the conductor is wound, while the guide rod with the cone remains in the stun device.

Such a probe, however, is not effective enough. This is due to the low coefficient of useful filling of the cavity of the hollow shell, since the current lead laid on the conical part of the guide rod is made in the form of a single-layer winding, which limits the length of the current lead. To ensure high-speed free winding of the current lead between the guide rod with the cone and the inner surface of the hollow shell, there must be a significant gap, which also reduces the effective filling factor of the hollow shell, which is 0.05-0.22. This does not allow for the minimum probe size, which is important for stun devices with remote destruction, or limits the longest range of destruction of the target due to the short length of the conductor. Due to the small mass loss of the probe associated with the small mass of the conductor, it slightly loses muzzle energy during a short-range flight, which can cause undesirable increased trauma when the probe hits a live target. In addition, when winding the current lead from the guide rod with the cone, the probe experiences a precession due to the presence of a moment of force with the shoulder,

equal to the variable radius of the winding, which has a negative effect on the stability of the probe’s flight and, accordingly, reduces the accuracy of its hit on the target.

The problem solved by the utility model is to create a probe of an electroshock device for remotely hitting targets with electric current, devoid of the disadvantages of the prototype. The technical result provided by the utility model is to increase the efficiency of this device.

To obtain such a technical result, in a probe of an electroshock device for remotely hitting targets with an electric current containing a hollow shell, a head fixed to its head and a head made of a conductive material, an attachment element mounted on the outer edge of the head on the target, and a current lead placed inside the main part of the hollow shell , one of the ends of which is fixed on the inner face of the head with electrical contact with it, and the other, located in the rear of the hollow shells, free, the location of the current lead inside the hollow shell is made in the form of a three-dimensional figure formed by quasi-spirals arranged sequentially along and / or around the longitudinal axis of the hollow shell, the plane of which is perpendicular to this axis, while maintaining their original orientation. The hollow shell can be made cylindrical, and the quasi-spiral conductors can have a round shape. In this case, the inner diameter of the tail of the hollow shell may be chosen smaller than the inner diameter of its main part. The hollow shell can be multifaceted, and the quasi-spiral conductors can be in the form of a polyhedron. In this case, the transverse dimensions of the inner cavity of the tail of the hollow shell may be selected smaller than the corresponding transverse dimensions of the inner cavity of its main part. The fixing element on the target can be made in the form of at least one needle with a horn, at least one capsule with adhesive conductive material, or at least one insert of magnetic material. The head of the hollow shell may be weighted.

The drawing shows one of the options for the construction of the probe in section with an element of fastening to the target in the form of a prick.

The probe of the stun device contains a hollow shell 1 with a head 2 permanently connected to it made of conductive material. Inside the hollow shell 1 is placed (laid) the conductor 3, for example, in the form of an insulated or uninsulated wire or monofilament, polymer metallized fiber, polymer conductive fiber, carbon fiber or carbon monofilament. The conductor 3 can also be made in the form of several single conductors mechanically and electrically interconnected, for example, by twisting. One of the ends 4 of the current lead 3 is fixed on the inner face of the head 2 with electrical contact with it, mainly by soldering. The other end 5 of the current lead 3 is free and placed in the rear of the hollow shell 1 with the possibility of its fastening on the output working element of the stun device with electrical contact with it, for example, with the high voltage output terminal located in the muzzle of the stun device (not shown) . The lead 3 is laid in the form of a three-dimensional figure formed sequentially along and / or around the longitudinal axis of the cylindrical or many-sided hollow shell 1 with quasi-spirals of round or polygonal shape while maintaining the initial orientation of the turns. The plane of such quasi-spirals is perpendicular to the longitudinal axis of the hollow shell 1, and the imaginary line connecting their geometric centers is a spatial helical or broken or broken helical line. Moreover, the coefficient of useful filling of the hollow shell 1 is 0.40-0.78. The largest diameter of such quasi-spirals may have a size, for example, not less than half the inner diameter of the cylindrical hollow shell 1 or the diameter of a circle inscribed in a polyhedron, forming the inner cavity of the polyhedral hollow shell 1. An element for fixing the target is placed on the outer edge of the head 2, for example, in the form of at least one needle 6 with a horn. The fastening elements on the target can also be made in the form of at least one capsule with adhesive conductive material or at least one insert of magnetic material. The head 2 can be made weighted in relation to the body of the hollow shell 1.

The tail of the hollow shell 1 can be narrowed. The narrowing can be achieved, for example, by performing this section with a smaller diameter in comparison with the inner diameter of the main part of the hollow shell 1. In the tail of the hollow shell 1, an annular insert can also be installed for this.

The proposed device operates as follows. The probe flies out of the stun device through the use of pyrotechnic means, compressed or liquefied gas, a spring mechanism, electromagnetic means, etc. In an advantageous embodiment, the current lead 3, when the probe takes off when it is thrown, remains in the hollow shell 1, the probe flies out of the stun device and flies to the target, while moving it, the current lead 3 is pulled out of the inner cavity of the hollow shell 1. In another embodiment, the current lead 3 when the probe leaves the stun device Twa remains electroshock apparatus and pulled out of it as the probe movement. The attachment of the probe to the target, depending on its nature, is provided by the fixing element, for example, 6. At the moment of contact with the target, the target is hit (for example, a short-term shock of a person) with an electric current. Weighting the head 2 and reducing the outlet of the tail of the hollow shell 1 can increase the accuracy of fire, especially over long distances. When throwing over long distances, it is advantageous to use, for example, metallized polymer thread (for example, from Kevlar) as current lead 3, which, due to its high strength, can be very thin. This allows you to increase its length and, accordingly, the real range of destruction of the target. The narrowing of the tail of the hollow shell 1 thus eliminates the possibility of unauthorized exit of the conductor 3 from the cavity of the hollow shell 1, which could occur due to insufficient elasticity and low kinetic mass of such a thread. The narrowing of the tail of the hollow shell 1 also helps to reduce the sagging of the current lead 3 during the flight of the probe due to the artificial limitation of its high-speed exit from the probe.

The equipment of the probe is carried out by winding the current lead 3 on the mandrel in the form of an elongated single-layer winding coil to coil with an outer diameter

windings equal to or smaller than the inner diameter of the main part of the cylindrical hollow shell 1, or with the perimeter of the polyhedron winding smaller than the perimeter of the inner cavity of the main part of the polyhedral hollow shell 1. Then fix one of the ends 4 of the current lead 3 on the inner face of the head 2, for example, by soldering , and lay the elongated single-layer winding in the hollow shell 1, applying mechanical coils to the coils when laying along its longitudinal axis using, for example, a pusher. When laying a single-layer winding, shrinking along the length, fills the inner cavity of the hollow shell 1 while maintaining the orientation plane of the turns. The shape of the stacked current lead 3 forms a three-dimensional figure of quasi-spirals. Laying thus formed automatically inside the hollow shell 1 has the ability to be pulled out of it at high speed (more than 800-100 m / s) without tangles, overlaps and tears. Such packaging of the current lead 3 while maintaining the orientation of the turns of the formed stack, corresponding to the orientation of the turns of a single-layer winding before laying, ensures that there is no precession effect while freely pulling the current lead 3 out of the probe.

Implementation example. The probe has a hollow shell 1 with an inner diameter of 5 mm. The internal diameter of the laying of the current lead 3 with a thickness of 0.19 mm is 2 mm. The length of the hollow shell 1 is 28 mm, the length of the current lead 3 is 5500 mm. The coefficient of useful filling of the inner cavity of the hollow shell 1 is equal to 0.66.

Proposed - the device has a higher efficiency compared to known similar. In the probe, made in accordance with the utility model, this is achieved, in particular, by minimizing the weight and size characteristics of the probe while increasing the distance and reliability of hitting the target with electric current.

Claims (7)

1. A probe of an electroshock device for remotely hitting targets with electric current, containing a hollow shell, a head fixed to its head and a head made of a conductive material, an element for securing the target mounted on the outer edge of the head, and a lead conductor located inside the main part of the hollow shell which is fixed on the inner face of the head with electrical contact with it, and the other, located in the rear of the hollow shell, is free, characterized in that s current conductor within the hollow shell is designed as a three-dimensional pattern formed by sequentially arranged along and / or about the longitudinal axis of the hollow shell kvazispiralyami, a plane which is perpendicular to this axis, while maintaining their initial orientation. 2. The probe of the stun device according to claim 1, characterized in that the head of the hollow shell is weighted. 3. The probe of the stun device according to claim 1, characterized in that the hollow shell is cylindrical, and the quasi-spiral conductors are round in shape. 4. The probe of the stun device according to claim 1, characterized in that the hollow shell is multifaceted, and the quasi-spiral conductors have the shape of a polyhedron. 5. The probe electroshock device according to any one of claims 1 to 4, characterized in that the element of fastening on the target is made in the form of at least one needle with a horn. 6. The probe of the stun device according to any one of claims 1 to 4, characterized in that the fastening element on the target is made in the form of at least one capsule with an adhesive conductive material. 7. The probe stun device according to any one of. PP.1-4, characterized in that the element of attachment to the target is made in the form of at least one insert of magnetic material.