RU2752147C1 - Method for electric action of multi-charge remote electroshock weapon - Google Patents

Abstract

FIELD: electric shock weapons.

SUBSTANCE: method for striking electric action of a multi-charge remote electroshock weapon, in which during a single impact on a biological target, a striking electric current is passed into it with a smoothly, stepwise or stepwise-gradually decreasing electric power.

EFFECT: creation of a multi-charge remote electroshock weapon less dangerous for the health of the affected biological object, but effective for the immobilization of the object of the method for striking electric action.

5 cl, 1 dwg

Description

The technical field to which the invention relates

The invention relates to a non-lethal weapon with an electric target, specifically to a remote electroshock weapon (DESHO).

State of the art

As analogs of the proposed invention, the well-known from the beginning of the 1960s was chosen. non-lethal contact electroshock weapon (ESW) invented in the USA. Electroshock impact (immobilization, electric impact) on the offender (biological target, bio-target, target) was carried out by contact method (contact) with direct interaction (pressing against the offender's body) of the ESHO combat electrodes without firing a shot. At the same time, the electronic circuit of the ESHO, which also includes a unit for generating a high-voltage target-striking electric current voltage contained in the DESHO and powered by an electric battery or a DESHO battery, supplied a striking alternating high-voltage electric current to the combat electrodes. The striking high-voltage alternating voltage of electric current was represented by uniform high-voltage pulses of one or bipolar form having a certain shape, amplitude, duration and frequency. The parameters of the amplitude, duration and frequency of pulses determine the power of the damaging electric current supplied to the target (i.e., the amount of electricity introduced into the target). The power of the damaging electric current during the impact on the target remains practically constant due to the short duration of the impact on the target (several seconds) and the almost constant output power of the ESHO power source.

The disadvantage of this method of impacting the ESH on the target is that the offender, as a rule, instinctively and instantly moves away from the ESH pressed against him, thereby interrupting the effect of a damaging electric current on him. Influence on the offender in order to bring him into obedience to the law enforcement officer can be done only under the condition of his forcible restraint (which means that the law enforcement officer must be obviously physically stronger than the offender) or in very close places where it is physically impossible to remove from the combat electrodes of a working ESHO (for example, in a small closed room, elevator car, etc.). The lack of impact of ESHO is compensated by the use of not ESHO against the offender, but DESHO, for example, the most widely known DESHO "TASER X26" [1] by Taser Int. (currently Axon Enterprise, Inc. (Axon) USA), and is the most widely used police model of DESHO in the world. DESHO "TASER X26" is intended for temporary disabling (immobilization, defeat, holding in a state of paralysis) of biological targets (target, offender, bio target) by electric current, mainly at a distance.

The defeat of the target at a distance is carried out using a firing cartridge, which shoots at the target two probes with fixing devices on the target (needles with barbs), each of which is connected by means of an insulated wire (current lead) with a corresponding current-carrying electrode on the cartridge. The current-supplying electrodes of the cartridge are connected to the combat (contact) electrodes of the DESHO coming out to the front end of the DESHO, to which, when the DESHO is launched, a high-voltage target-damaging voltage is supplied from the DESHO electronic circuit, which also includes a unit for generating a high-voltage target-damaging electric current contained in the DESHO and powered by an electric battery or accumulator. When the probes hit the offender and supply him with a striking voltage of electric current through the conductors, the offender can no longer move away, since the needles with the probe barbs firmly cling to clothing or even penetrate through clothing into the body of the bio target and cannot be torn off from the target without significant efforts.

The electric impact of a damaging high-voltage voltage of electric current when using DESHO does not differ from the effect of ESHO, i.e. It is also carried out by applying uniform high-voltage pulses of a certain shape, amplitude, duration and frequency to the target during the time of exposure. The power of the damaging electric current during the impact on the target remains almost constant with a short duration of impact on the target for use by law enforcement officers (police and other security services) at a constant power output from the DESHO power source. The use of DESHO is primarily aimed at immobilizing the bio-target with its fall to the ground (knocking down) in order to facilitate the detention of the offender by the law enforcement officer. The disadvantage of the method of influencing the described DESHO is the widespread abnormal use by law enforcement officers of the DESHO when leading to obedience and arrests of offenders. The first example of a truly physiologically effective police officer DESHO "ADVANCED TASER M26 / 18" [2] from Taser Int. had an output electric power of a damaging electric current of 18 W or 26 W. DESHO with such an output power had an excellent immobilizing effect with the target falling to the ground and the impossibility of resisting the action. Full immobilization of the target with a fall to the ground occurred within 0, -3-0.5 to 1.0 s (maximum). However, after some time, the use of cases of fatal defeats of offenders began to appear and become more frequent as a result, as it turned out, of the excessive output power of the DESHO or the impact of the DESHO on the target for more than a few seconds. Taser Int. found itself burdened with a multitude of legal proceedings initiated by the relatives of the deceased after the impact of "ADVANCED TASER M26 / 18" offenders. Taser Int. began to incur losses as a result of significant monetary compensation payments to the families of deceased offenders (in the United States, human life is expensive).

As a result, it became necessary to release a new police model DESHO "TASER X26", which is safer in use, with a maximum output power indicated in advertising brochures of 7 W, and a real load of 1 kOhm measured at an equivalent resistance of a human body, no more than 4 W in total. After some time of operation by the US police, it turned out that, due to the reduced electric power of the destructive current supplied to the target, the TASER X26 DESHO, a target under the influence of drugs, alcohol, or with a strong will or slight pain sensitivity in many cases of the use of DESHO when passing through it a striking electric current does not immediately obey the requirements of the law enforcement officer using DESHO (for example, lie on the ground to put on handcuffs, order to drop the weapon, stop resistance) does not fall to the ground, and sometimes even tries to continue the power struggle with the law enforcement officer ... Therefore, the law enforcement officer is forced to use DESHO abnormally, i.e. continue to pass a damaging electric current through the target in excess of the nominal exposure time (according to medical indications in all countries of the world, no more than a few seconds) until the target is brought to submission. As a result of such a long transmission of a damaging electric current through the target, irreversible damage to the nervous, respiratory, cardiac systems occurs in the target's body, which results in the death of the offender. There are many such cases described [3]. In some cases, such incidents cause unrest and riots of uncivilized ethnic groups of the population, accompanied by massive loss of life and tremendous destruction of property, for example [4]. In modern society, such riots [5] associated with the excess of law enforcement measures of coercion to obedience of offenders from uncivilized social or ethnic groups of the population can occur more and more often, not excluding the Russian Federation.

Currently, OST 78.01.0009-2002 of the Ministry of Internal Affairs of the Russian Federation continues to operate in the Russian Federation, which sets the maximum output power for electroshock devices (special police equipment), including DESHO, at 10 W, with a continuous single exposure time permissible according to the FMBA of Russia standards of 3 s. Such power, as practice shows, in many cases can be excessive, since immobilization with the target falling to the ground occurs on average in 0.8-1.2 s (actually instantly), and the damaging effect at full power 10 continues for at least 1.8 -2.2 s, after which the DESHO turns off as the internal timer of the DESHO is triggered to turn off the damaging voltage of the electric current. For a single-shot police officer DESHO, the additional exposure time is 1.8-2.2 s. after a fall, in some way guarantees some aftereffect (a state of dumbfoundedness (inability of physical resistance) of the bio-target within a few seconds after the cessation of the impact.If the target is not brought into submission (usually starts to get up from the ground, try to hide, try to attack the law enforcement officer), the law enforcement officer resumes 3-second impact (since the conductors still connect DESHO with the target.) In some cases, law enforcement officers produce this repeated impact on an insubordinate offender many times until the offender obeys the demands of the law enforcement officer.

With repeated consecutive 3-second exposure, the dose of a safe amount of electricity entering the biocele in some cases exceeds the limits established by the FMBA of Russia and leads to a dangerous or irreversible health disorder and even death of the offender. This is a big defect of the police officer DESHO, which can lead to the consequences described in the sources [4; five]. At the same time, for civilian use (self-defense of citizens) of DESHO in the Russian Federation, other exposure standards are applied, regulated by GOST R 50940-96. The standards of GOST R 50940-96 allow a maximum output power of the DESHO of 3 W, with a continuous time of a single exposure no more than 3 s. Such parameters of electrical impact almost never produce an instant immobilizing effect with falling to the ground, but nevertheless produce a fairly strong painful, warning effect that significantly reduces the aggressiveness of the offender. The lack of an immediate immobilizing effect makes it impossible to use DESHO according to the standards of GOST R 50940-96 as a police DESHO. The disadvantage of such an impact, like that of the low-power DESHO "TASER X26", is that under the influence of drugs, alcohol, or with a strong will or insignificant pain sensitivity, the offender is not effectively immobilized when he falls to the ground, and if he has a weapon (for example cold) can use it against the user of DESHO. For the police application, the impact on the target of the civil DESHO is not enough. At the same time, there are no known deaths from the use of civil ESHO and DESHO in the Russian Federation. A direct prototype of the proposed method for a less dangerous effect of DESHO was not found by a patent search.

Disclosure of invention

The aim of the invention is to create a biological object to be hit that is less hazardous to health, but effective for immobilizing the object, a method of damaging electric impact of a multiply charged remote electroshock weapon.

This goal is achieved by the fact that according to the proposed method of less dangerous electrical impact of a multi-charged remote electroshock during a single exposure to a biological target, a damaging electric current is passed into it with a smoothly or stepwise decreasing electrical power.

An additional feature is that the electric power is reduced by a decrease in the frequency of impulses of a damaging electric current with constant parameters of the amplitude and duration of the impulses.

An additional feature is that the electric power is reduced by a decrease in the amplitude of the impulses of the damaging electric current with the same parameters of the frequency and duration of the impulses.

An additional feature is that

the electrical power is reduced by reducing the duration of the impulses of the damaging electric current with the same parameters of the frequency and amplitude of the impulses.

An additional feature is that the electrical power is reduced by reducing the parameters of frequency, amplitude and duration of impulses of damaging electric current in any possible combinations.

Brief Description of drawings

FIG. 1. Typical electronic circuit of a modern DESHO with the "Shaped Pulse" topology.

Implementation of the invention

FIG. 1. All typical electronic circuits of ESHO and DESHO (including modern ones with the Shaped Pulse topology) are considered in [6]. To implement the proposed method, a multiply charged DESHO is made, for example, with an electronic circuit DESHO with the "Shaped Pulse" topology, which includes a unit for generating a high-voltage target-damaging electric current and powered by an electric battery or accumulator in which a gradual or gradual decrease in the output power of the striking current is carried out arriving at the target during a single exposure. Modulation with a decrease in frequency, amplitude, pulse duration or their possible combinations is achieved by methods well known in the electronic circuitry of DESHO, provided that there is an electric battery or accumulator in the DESHO capable of supplying sufficient current for the expected power requirements of the system. At the same time, the output frequency of the "BB block" (ie, the frequency of the striking pulses and, accordingly, the output power) also decreases, while the parameters of the amplitude and duration of the pulses remain unchanged.

For example, the output electrical power of the DESHO during a single exposure to the target decreases when using an inverter on PWM controllers or microcontrollers (in Fig. 1 "microcontroller") with a PWM generator included in the timers of microcontrollers (for example, type ATtiny13, PIC, etc.) ) by changing the duty cycle of the pulses supplied to the transformer TR1 at a constant amplitude and frequency of the pulses. The algorithm for changing the duty cycle of pulses (stepwise or smooth) during a single exposure to the target is set by the same "microcontroller" depending on the requirements of the FMBA of Russia or other countries conducting MBI (medical and biological tests) and certification of DESHO. Modern microcontrollers developed in the USA and their Chinese and Russian clones make it possible to implement any algorithms for changing the output power given in this application for an invention. Due to the fact that in different countries of the world the permissible indicators of the time of a single exposure and the permissible electrical power supplied to the target differ, the exact algorithms for changing the power are not possible to indicate, since this reduces the degree of protection of the invention, however, approximate algorithms are permissible according to medical and biological regulatory requirements Russia are given below.

There are also other methods of regulation with a decrease in the frequency, amplitude and duration of pulses or a decrease in all these parameters of pulses to perform an algorithm for hitting a target with a smooth or stepwise decrease in the output power of a damaging electric current arriving at the target during a single exposure.

The proposed method is effectively carried out only when using a multi-charge DESHO, since a multi-charge DESHO, in contrast to a single-shot DESHO, makes it possible to instantly re-shoot at the target if the offender struck by the first shot did not obey the requirements of the law enforcement officer (for example, due to a strong will or insignificant pain sensitivity) and before the start of the repeated (after the first single) exposure, he pulled out the probes with current conductors that had fallen into it from his body. By firing a second shot, the law enforcement officer again ensures the offender's connection with the DESHO with the primary powerful immobilizing effect with a new fall of the offender to the ground, even if he started to get up. In the case of an attempt to use a single-shot DESHO with the proposed method of exposure, a variant is possible in which, with a decrease in the power of exposure during a single exposure, the offender, by an effort of will, overcomes the pain and tears out the probes with current conductors from his body even before the law enforcement officer performs a repeated single ) impact on the offender. In this case, the law enforcement officer will face the offender with the discharged first shot of DESHO without the opportunity to have time to fire a second shot (shots). Thus, the multi-charge DESHO allows you to effectively use the proposed method of less dangerous electrical impact on the target by passing into it a stepwise decreasing electrical power, that is, first a high-power electrical discharge (for example, 10 W per 1 s. At the permissible exposure power according to OST 78.01.0009-2002 of the Ministry of Internal Affairs of the Russian Federation) , and then a reduced power (for example, 3 W for 2 s. with an allowable exposure power according to GOST R 50940-96.) with a total continuous time of a single exposure of no more than 3 s. In this case, the offender, during the passage of full power through his body for 1 s, is completely immobilized with a fall to the ground, and then, for another 2 s, receives an additional amount of electricity with a reduced power, which is almost completely harmless to health. Or transmitting to the target with a gradually decreasing electric power, starting from the effect of high power (for example, 10 W.), which, within 3 s of the total time of a single exposure, decrease to a power of 3 W. with a power change rate of 2.333 W / s. Either transmitting a high power (for example, 10 W.) to the target, for example, for 1 s, and then smoothly reducing the power from 10 W to 3 W, in 2 s with a power change rate of 3.5 W / s.

The time of a single exposure, the target, as well as the algorithm of a stepwise or smooth or stepwise-gradual decrease in power from the maximum allowable for the time of a single exposure is set programmatically, depending on the requirements of physiologists from the FMBA of Russia or other countries conducting MBI (medical and biological tests) and certification of the DEShO. Thus, in the proposed method of exposure to DESHO, a guaranteed immobilizing effect is realized with the total amount of electricity supplied to the target during a single exposure more than according to civil norms, but less than allowed according to the norms of the Ministry of Internal Affairs of the Russian Federation, which is already close to the maximum, which still does not cause serious consequences for human health.

Implementation example

A prototype product DESHO "GARD" [7] is currently being put into service with the power structures of the Russian Federation and tested by instrumental indicators of the proposed method has an electronic circuit that for a single exposure time in 3s. installed OST 78.01.0009-2002 of the Ministry of Internal Affairs of the Russian Federation and GOST R 50940-96 changes the output electric power supplied to the target according to the algorithm of stepwise reduction of output power 1s. power 10 W, and 2s. power 3 W (i.e. the total time for passing the current to the target is equal to the permitted 3 s.). Product test report No. 27 dated 02.08. 2020 (JSC "RTEX-NO").

List of links

1.https://www.axon.com/products/taser-x26p

2. Ladyagin Yu.O. "Remote electroshock weapon" Moscow: Stalingrad Foundation Publishing House, 2017, pp. 37-39; p. 70 (tab. 1).

3.https: //www.washingtonpost.com/nation/2020/07/03/police-oklahoma-murder-taser/

https://www.reuters.com/article/us-usa-taser-deaths-insight/as-death-toll-keeps-rising-u-s-communities-start-rethinking-taser-use-idUSKCN1PT0YT

https://www.theguardian.com/world/2018/oct/31/san-mateo-county-taser-death-law-enforcement

https://www.cbc.ca/news/canada/toronto/peel-police-taser-fatal-1.5365965

4.https: //ru.wikipedia.org/wiki/Los-angeles_Riot

5.https: //ru.wikipedia.org/wiki/Mass_Riots_in_USA_(2020)

6. Ladyagin Yu.O. "Remote electroshock weapon" Moscow: Stalingrad Foundation Publishing House, 2017, pp. 426-469.

7.http: //www.gardsystems.ru/

https://rg.ru/2019/02/28/putin-zainteresovalsia-pistoletom-shokerom.html

http://www.trud.ru/article/28-02-2019/1372987_putinu_na_vystavke_oruzhija_ponravilsja_elektroshoker-pistolet.html

Claims (5)

1. A method of electric impact of a multiply-charged remote electroshock weapon, consisting in passing a high voltage electric current into a biological target, characterized in that during a single exposure to a biological target, a damaging electric current is passed into it with a smoothly, or stepwise, or stepwise-smoothly modulated to decrease electric power values. 2. The method according to claim 1, characterized in that the electric power is reduced by reducing the frequency of impulses of the damaging electric current with constant parameters of the amplitude and duration of the impulses. 3. A method according to claim 1, characterized in that the electric power is reduced by a decrease in the amplitude of the impulses of the damaging electric current with constant parameters of the frequency and duration of the impulses. 4. The method according to claim 1, characterized in that the electric power is reduced by reducing the duration of the impulses of the damaging electric current with the same parameters of the frequency and amplitude of the impulses. 5. The method according to claim. 1, characterized in that the electric power is reduced by reducing the parameters of frequency, amplitude and duration of impulses of damaging electric current in any possible combinations.

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