DE2123498C3 - Weapon for temporarily incapacitating a person - Google Patents

Description

The invention relates to a weapon for a temporary incapacitation of a person with a Launching device for sticky projectiles and an electrical voltage source, the outputs of which have two unwindable, thin, electrically conductive wires with at least two spaced apart Story electrodes are connected.

The FR-PS 1504 162 describes such, in Form of a pistol-like firing device trained weapon with which a single sticky projectile shoot at a target. In the sticky projectile there are two arrow-shaped, with a small mutual Spaced electrodes that must penetrate the target object so that between the Electrodes an alternating current can flow over the target object. The sticky projectile itself must be non-conductive otherwise there would be a low-resistance current bridge within the projectile. The application this weapon thus makes it necessary that on the one hand the projectile hits the target object and on the other hand the electrodes penetrate the skin of the person to be incapacitated. This intrusion the electrodes in the skin leads to the fact that the known weapon in terms of handling as well as the Security is extremely problematic. Because the projectile does not unduly injure the target object or even kill, the firing energies must be kept limited. This in turn leads to a low accuracy and ctcm as a result, that the target is easily missed with the single projectile.

Furthermore, the electrodes penetrate with limited launch energy and sturdy clothing may not get into the skin of the incapacitated Person, which is especially the case when the projectile strikes the target object at an angle. The well-known weapon works with an alternating voltage that is constantly connected to the Electrodes are applied and generated from a DC voltage by means of an interrupter circuit. Practical tests have shown that this weapon is not reliable.

There are also deadly electric weapons known that work, for example, with spears, arrows and lances. A series of electrical, shock-generating impulses are intended to intensify the effect of conventional hand weapons.

The physiological effects of electrical currents on the living organism are only partially known, and it is questionable whether the electrical weapons used up to now have actually produced the intended effects from ventricular fibrillation to severe muscle paralysis.

In connection with an investigation of the electrical effects depending on the applied voltage, the current, the frequency and the

Time has shown that the heart beats is the main cause of the lethal effect of electricity. While conducted through nerve centers Certain bodily functions, such as breathing, flow temporarily even after the flow of electricity has ceased Large currents can interrupt burns and cause permanent damage cause. Between the current flowing through the organism and the physiological behavior there is a non-linear relationship. Small electrical currents can be shock or involuntary Induce muscle movements that become more and more uncontrollable as the current increases. A further increase in current leads to insurmountable muscle spasms with the result that the Reaching the so-called "Losiaßstrom", the threshold between harmless and dangerous Current effects represents, the current-carrying conductor can no longer be let go of. Even larger continuous or intermittent currents of longer duration can cause serious, potentially fatal effects such as ventricular fibrillation, paralysis, and suffocation Burns.

It is also known that pulse-shaped electrical Strikes of a certain strength are not dangerous if they occur at certain time intervals.

The invention is therefore based on the object of designing a weapon of the type mentioned at the outset in such a way that that, contrary to the otherwise common use of deadly weapons, for example when seizing Criminals and only temporarily incapacitated during demonstrations and does not cause serious or permanent injury. The weapon should also be light and be safe to use and suitable for a variety of purposes, such as self-defense as well as for military and police purposes.

Experiments have shown that above the lowest "letting go" value, but sufficient currents that are below the currents that cause ventricular fibrillation Can be transmitted over considerable distances with very thin and light wires, with sufficiently high wires Tension eliminating the need to pierce the target's skin. It was also found that intermittent current pulses in particular because of the considerably lower required Energy are more effective than a continuous current.

The solution to the above-mentioned object is that, according to the invention, the launching device is designed for joint firing of at least two separate harmless sticky projectiles made of electrically conductive projectile electrodes, that the wires connecting the sticky projectiles to the voltage source can be unwound independently of one another and the voltage source as a pulse current source by means of brief discharge generates a sequence of 2 to 20 short, interrupted high-voltage pulses per second, which have a pulse time of less than 0.1 seconds.

The sticky projectiles of the foundinggcniäßcn weapon are completely harmless, as they have no electrode tips that can penetrate the body. Your aiming accuracy is great because the impact is already there an electrical adhesive projectile onto the target object suffices, and / was in a in he / .ug on the target object

largely any position and with very little impact force, since the projectile is the clothing of the incapacitated person need not penetrate. Since the at least two separate Sticky projectiles because of unavoidable differences between the same and / or a mutual influence follow the same and / or different firing energies or different firing paths, Compared to the known weapon, substantially larger body areas of the target object become electrical recorded.

Because the target object because of the special weapon training and because of a very specific electrical High-voltage impulse application is already incapacitated if only one of the stick projectiles with electrodes remains loosely attached to the clothing of the target object (way back over earth), is that too Handling safety much greater than with the known weapon. In addition, there is a risk of resistance of the persecuted drastically diminished. The weapon according to the invention can be small and compact trained and the respective requirements with regard to the number of separate harmless detention projects be adjusted.

The pulsed power source preferably generates high-voltage pulses with a voltage of approximately 20 kV. The voltage can be even greater, for example exceeding 50 kV; it should in any case be so large that a high-voltage application of the persecuted without penetrating his clothing is possible.

Furthermore, the pulse current source can be designed so that it generates 3 to 10 high-voltage pulses per second generated. It has been shown that such an intermittent high-voltage application, for example with pulse times of 1 to 20 microseconds, in connection with a harmless temporary incapacitation is particularly effective.

The pulse current source should expediently be designed in such a way that it contains high-voltage pulses with an energy of at least 0.01 joule per pulse, preferably of approximately 0.5 joule per pulse, generated. This can result in very brief currents of up to 1 ampere.

In an expedient embodiment, a springball-like Sticky projectile provided with protruding spikes that hook onto the target object. Instead of this a sticky projectile with a barbed tip is also suitable. Allow such sticky projectiles a secure hook to the target's clothing, even when the sticky projectile hits the target object straight or at an angle with relatively little impact energy.

The sticky projectiles are preferably connected to one another by a non-conductive network. This Mesh leads to a further increase in target accuracy and prevents excessive divergence the sticky projectiles on their trajectory. The net enables a loop around the target object and a The Haff projectiles also get hooked if they are due to their actual trajectory on the target object were flying by.

Conductor wire unwinding means located in the launching device before the launch are also advantageous. The l.citcrdraht-Abspulmittcl can also be used in the Haflprojektil a. (be ordered and shot with this, so that the conductor wire from

the flying adhesive projectile.

i-Liiic very functional execution / eiehnei itself diiiltirch from. that iniierhall · one with the pulse current source lost. mim this ahnehniharen Kasselle a launcher for bcliiulliehe in it. iilier l. conductor triilile with the pulse current <| iielle connected Haftpiojektile is arranged. A milk weapon is light and easy to handle; it enables Due to the fact that the cassette can be exchanged, it has to be kept operational at all times.

The invention is described below; The illustrated fills out uiigsbcispiclcn of the niihclen explained. In the drawing shows

I ig. I in a prin / ipdarslcllung a proper Weapon with / wei aiii ein / ielobjekl lielfcndeu I lallpi'ojeklilen.

I ig. 2 is a block diagram Einei with a I ¹ IiIeI hiccher equipped Impulssitomquellc the fin ei-Imdungsgemäße weapon.

i · ig. 3 a iiiocksciiaiibiid a ι ι mi ι nie ι i iinki π route equipped lnipiilsstrouu | iielle for the egg installation Weapon.

I ig. 4 is a block diagram of an initial pulse tin the wall according to the invention with meliiereii left corner and a condenser ring / in voltage ν ei slar sound.

I- ig. 5 in a sham atisehe η Dai position my ic llal'tprojcktile with a related NeI / / around wrapping a / lelubject.

I ig. 6 in a schematic side view of a ball-like 1 laflprojeklil with one rolled up I eiler wire with protruding spines.

! • ig. 7 of my schematic side view an N> l A similar llaftprojeklil with a barb.

I- ig. It's a chopping device for several holes Non-conductive wires connected to one another in a network air projectiles.

(ig ') a shut-off device based on an I on.

! · Ig. 10 in one! Scheniatischen Daisiellung an according to invention Weapon with a light and a replaceable casselle.

I ig. I 1 the Kasselle from I ig. | (i in a 1 line view. and

lig. 12 the cassette in a section along the line 5-5 from lig. 11th

In l ⁷ ig. 1 shows a weapon operating according to the two-wire system. This has a pistol-like launching device 50. Integrate into the one not shown Impulssiromquelle! is. From fig. It can be seen that two separate adhesive projectiles 26, which are always connected to the impulse current source via a conductor wire 30, have reached a target object 28 and are adhering to it. By the occurrence of sufficient high voltage pulses / wiping the two conductor wires 30 of the separate stick projectiles 26, the target object 28 is temporarily rendered immobile.

In Fig. 2, a pulse current source is shown, which is connected to a terminal device shown as block 24. An electrical energy source 10, for example a battery, is connected via a switch 12 and a primary winding 16 of a transformer 18 to a breaker 14, for example an electromechanical chopper. connected. This results in a direct current alternating current conversion. A secondary winding 20 of the transformer 18 is connected with its one side via a (ileichiichleidiode 32 to one side eini l'iiinäi winding 34 of a Weilcicn I laiisfoiiiialois 36 eyes I in capacitor 38 is parallel / Ii de ι l'ii mäiwickliing 34. and A non-bc / eiehnelei Schiillci of a sound relay 40 is switched between ilen Konilensaloi 38 and the audcte ropes dei l'iiinarwickliing 34. I-! ine Kelaisspule 44 of the sound relay 40 is one rope to the other side of the Sckundäiw winding 20 and the other rope to t \ ci \ capacitor 38 connected; it lies parallel to a stiomhcgicnziingswidci stood 42.

I) u "Sekimdai \ s ickluiiu 46 of the Tianslormaldis .Vi is with you a rope to a Ahscluißvoirichtiing 24 Im an I laftpiojcktil attached. The other Ropes of the secondary! sehluß 22 culwcdci with a while, the shooting package 24 cnlspicclienilen AhschulWmticliliini: or for a while connection of the both named AbsclitiHv οι direction 24 connected. There you can , '. ic !!. iitpi.ijcküle ^ tUiHUp iibcr the! ei! e:;! :: i!; U · 3 » (I ig. I) with the secondary winding 46 ele kl lisch ν ei stay blind to with I lochspaniumgsinipiilscii supplied too few

Hei dei inbeliiebnahine by closing the switch 12 dei slromkieis dei elekliischcn I neigie i | iielle 10 bad i \ <: ^ I! Nleibreche! and the primary winding 16 closed (ileiehriehlerdiod '32 rectified and runs the capacitor 38 a'jf. Diesel can see through all closed switches! read switching relay 40 and the primary winding 34 let transformer 36 discharge in the form of pulses. A ·' the second winding 46 of the Transformer 36 produces a voltage of close to / u 2D kV or more, and / vvai in a pulse length of, for example, a maximum of 3 pulses per second.

With pulsating current with a preferred pulse train of 2 to 10 pulses per second, each will Impulse with an energy of at least 0. (11 Joule, but preferably with approximately u.5 .ionic, on lias Transfer target object.

As a rule of thumb, it has been found that the product VC "of the capacitance and the voltage is a guide value for the effectiveness of the pulsating current source in Ixvug on a living target object Electric shock can lead to serious injury or even be fatal, even in the event of a single electric shock. Values of 10 volts Farad are sufficient to render a victim incapable of exercising due to spasmodic muscle paralysis. the victim is completely exhausted or suffocated as a result of the forced muscle tension.VC values in the order of 10 ⁴ volts ■ Farads produce such pain that the victim is no longer capable of deliberate reactions and cannot perform even, targeted movements .

A pulse power source used for experimental purposes had an electrical power source 10 mi? <-> volts, a transformer 18 with a transformation ratio of 46: 1. another

Transformer 36 with a transformation ratio Non 73: 1 and a capacitor 38 with a capacitance of 1.0 micro-farads. With this Aufhau there was an output voltage on the cut-off device of approximately 200,000 volts Due to the pulsating operation, the average was Output 1 to 10 watts, with a preferred filling 2.5 watts generated. The electrical power source of Figure 2 is an average for pulses Voltage of 20 kV designed so that 0..s joules are available per pulse. This The allowance amount is below what is considered dangerous Energy levels and IaHt can be generated with known dry cells.

The embodiment of FIG. 3 is similar to that of

11 μ. 2 and, like this, has a source of electrical energy 10, a switch 12, a breaker 14 and a transformer 18 with a primary winding 16 and a secondary winding 20. A stepped-up alternating voltage is generated on this, which is rectified via the rectifier diode 32 and enables the capacitor 38 to be charged. In contrast to the embodiment of FIG. 2, there are switching relays 40 and those with these connected parts when executing the I ίμ. 3 replaced by a spark gap 48, which between one side of the capacitor 38 and one side of the primary winding 34 of the output-side transformer 36 lies. When operating the pulsed currents of FIG. 3, the capacitor 38 is on charged such a potential that the spark gap 4I> responds and the capacitor 38 can discharge through this. The transformer 36 is superfluous Discharge pulse to the output and thus via the conductor wires 30 and the sticky projectiles to the target object. The distance between the electrodes ilei Spark gap is chosen so that a discharge of 3 to 10 pulses per second is possible.

In Fig. 3, the firing device 24 of Fig. 2 is not shown in order to make it clear that the secondary winding 46 of the transformer 36 is constantly iikr the conductor wire 30 with the not shown adhesive nroieklil wrhiinHpn Ut that in the viirlii'oi'nilrn case h <· -

has already reached the target object 28. The second terminal 22 of the secondary winding 46 is on the Firing device also with a conductor wire 30, not shown, and one attached to it Sticky projectile connected.

In the case of the pulse current source of FIG. 4, there is again an electrical energy source 10 via a switch

12 and a primary winding 16 of a transformer 18 are connected to a breaker 14. A secondary winding 20 of the transformer 18 is via a rectifier diode 32 with an output side Capacitor circuit 39 is connected, which replaces the second transformer 36 from FIGS. 2 and 3. the The capacitor circuit 39 on the output side contains a plurality of capacitors 38 connected in parallel separated from one another by resistors and connected to one another in series by spark gaps 48 are. One experimental set-up included a circuit with six capacitors 38, a 6 volts voltage source and a transformer with a gear ratio of 600: 1. Above each capacitor a voltage of about 3 kV was generated, so that in a series discharge of the spark gap 48 a 18 kV output pulses was generated. The capacitor circuit 39 is on the output side for operation Electrically connected via lead wires 30, not shown, to corresponding sticky projectiles.

The conductor beam used in the various devices can be a 40 copper wire with a Diameter of 0.07fi mm and a Sehmelzstrom from about I A to be. The resistance of such a wire is approximately 3.3 ohms per meter. A Such a wire weighs about 4.45 g per 100 m. Accordingly, a half length of such a cantilever wire weighs about 4.1 g. and there would be a voltage drop of about 3 full at a current of Kl niA in this copper wire develop.

Furthermore, it is possible to use non-conductive wires of even larger size, which are connected to a conductive layer are equipped. Any wire-shaped material with great tensile strength is suitable, if it is conductive or made. If necessary, flexible wires with an insulating layer can also be used graze.

Fig. 5 shows a neIz 54. that for increasing the Hit it safely by means of a launching device, not shown is shot down. According to the schematic illustration, a conductor wire 30 is included a positive terminal 58 and a condenser wire 30 to a negative terminal 62 of a knock-off device tied together. Four projectiles 64 arranged on the circumference of the network 54 are mutually aligned a conductor wire 66 connected so that the periphery of the net / es 54 is also at the positive potential the terminal 58 lies. The I laftprojckti! Arranged in the middle of the network 54 68 is negative with the one Potential terminal 62 and furthermore via light-conducting wires 70 with the other sticky projectiles 64 connected. When such a Net / 54 hits a target, a current will flow from the to the Peripherally arranged sticky projectiles 64 over the target object to the one arranged in the middle of the network Sticky projectile (i8. Whereby the target object is charged with energy.

There are also other combinations of sticky projectiles and conductive and non-conductive mesh connections possible. For example, several

H: iftnn- \ irL · IiU " ¹ mil rim» m nnsitivm I HtPrdraht 30 and

other sticky projectiles can be connected to a negative conductor wire 30 and the individual groups eier stick projectiles shot together at the target object will.

Fig. H shows an adhesive projectile 72 that is formed in the manner of a "ball spring" and a plurality of protruding conductive ell as in the clothing of the target object caging spines 74 has. The spikes 74 are electrically connected via the sticky projectile 72 to a conductor wire 30 which is wound onto a bobbin 78 carried by the sticky projectile 72. The sticking projectile 72 is able to maintain a very precise trajectory by means of stabilizing wings 80. It is fired from a barrel 82. The conductor wire 30 is attached within the barrel 82 to a plate, not shown, connected to the pulse power source. The sticky projectile 72 can be fired, for example, by means of compressed air, compressed carbon dioxide, a tensioned spring or pyrotechnically.

Fi g. 7 shows a sticky projectile 84 which has the shape of a bolt used with air or carbon dioxide pressure guns. The sticky projectile 84 has a Point 86 with a barb 88 on. Easy penetration is thus possible, with the sticky projectile

130 225/41

84 is held by the barb 88 on the target object. The sticky projectile 84 is with a conductor wire 30 connected, which is wound on a spool 92. In the normal position, the sticky projectile is silzl 84 on a core 94 electrically connected to the pulse electronics circuit. As soon as the on the core 94 acting force is the holding force of the adhesive project 84, this is accelerated in run 96. The core 94 is opposite the barrel 96 and opposite the entire launcher for the protection of the user electrically isolated. The sticky projectile 84 kicks in with the acceleration or speed given to him from the barrel 96 and pulls off the coil 92 unwinding conductor wire 30 without significant air resistance or friction losses after them.

For the sake of clarity, only one barrel and one stick projectile is shown in each of FIGS. 5 and 7, while the launching device can actually fire at least two separate rear projectiles .

In Fig. X, a launching device 100 is shown for launching a plurality of sticky projectiles 102, the each have a large number of conductive spines. There is 108 in each of a plurality of runs a coil 104 with a wound conductor wire 30. The sticky projectiles 102 are through each other non-conductive wires 110 connected. In a manner not shown, two sticky projectiles are each with the positive or connected to the negative output terminal of the circuit. According to the dashed In the illustration, the sticky projectiles 102 form a parallelogram after they have been fired and thus ensure high accuracy.

In Fig. 9 a device for the simultaneous launch of three stick projectiles 102 is shown. A spring 112 arranged within a barrel 114 drives a core 116 on which a pair of coils 118 and a conical frame 120 also carrying a coil 118 are fastened. This frame 120 ensures a deflection of the two rear stick projectiles 102 on a diverging trajectory, while the stick projectile located in the middle! 102 exactly in the nichiung at which Zieiobjeki is shot. After firing, the sticky projectiles assume the position shown in dashed lines. It is possible to connect the middle sticky projectile 102 to the positive terminal and to connect the two remaining sticky projectiles to the negative terminal.

10 shows a launching device 200 which is designed as a hand-held device and consists of a housing 207 which can be easily held in the hand, a flashing light 202, a trigger 204 and a removable sticky projectile cassette 206. The housing 207 reveals, on the one hand, the electrical energy source and, on the other hand, also the associated circuit or the pulse current source. The flashlight 202 can be operated independently and is mainly used as a target aid in the dark. It must therefore be aligned exactly parallel to the launching device, which forms a unit with the exchangeable sticky projectile cartridge 206. It is expedient to provide an additional warning signal which indicates the readiness of the weapon to be fired and which also has a psychological effect, since this underlines the credibility of the user's threat to actually use the push-off device.

! -.. "ig the adhesive projectile cartridge 206 and the parts contained therein in a front view four Two shows II adhesive projectiles are connected to a rectangular grid adhesive projectiles 208, 210 are connected to conductor wires 30 that are wound on bobbin 216. 218th. Two other adhesive projectiles 220, 222 are each connected to the adhesive projectiles 208, 210 via conductor wires 224, 226. The network 228 is located in a central container 230. The conductor wires 224, 226 and the other non-conductive connecting wires 232, 234 are each in a similar manner Container wound up until projectiles are fired.

In Fig. 12, the launching device of the sticky projectile cartridge 206 is shown in a side view. Contact pins 240, 242 connect the circuit with the bobbins 216, 218. Two of the firing runs 244, 246 each contain a on a core 248, 250 attached adhesive projectile 208, 210. At the bottom of the launching barrels 244, 246befindet located in a chamber 252 of a pyrotechnic charge 254. A heating wire 256 intended for ignition is connected to a concentric electrode arrangement 258 with the rear side of the sticky projectile cassette 206, which in turn is connected to a pair of electrodes 260 in the holder of the suction device. For start-up, the pair of electrodes 260 are excited so that the heating wire 256 ignites the propellant charge 254 and the no 248,250 iiacii outside gcüicucu wciucn.

As a result, the sticky projectiles 208, 210 are moved in diverging directions, to be precise with an essentially forward-directed velocity component. The sticky projectiles 208, 210 diverge until the connecting wires 232, 234 and the net 228 are tensioned. The sticky projectiles then fly forward in the same direction. They are supplied with electrical impulse current via the conductor wires 30 connected to the contact pins 240, 242.

For this purpose 3 sheets of drawings

Claims (9)

Claims: I. Weapon for temporarily incapacitating a person with a launcher for sticky projectiles and n; with an electrical voltage source, the outputs of which are connected via two unwindable, thin, electrically conductive wires with at least two projectile electrodes located at a mutual distance are characterized in that 1. the launching device (50, 24, 100, 114, 200) for a joint launch of at least two separate harmless sticky projectiles (26; 64, 68; 72, 84; 102; 208; is 210; 220; 222) is formed, 2. the sticky projectiles are designed as projectile electrodes to be electrically conductive, 3. the wires (30) connecting the sticky projectiles to the voltage source from one another 2ci which are independently unwindable, and 4. the voltage source is designed as a pulse current source so that it is short-term Discharges a series of 2–20 short, interrupted high-voltage pulses generated per see, which have a pulse time of less than 0.1 seconds. 2. Weapon according to claim I, characterized in that the pulse current source is designed so that it generates high-voltage pulses with an M) voltage of about 20 kV. 3. Weapon according to claim 1 or 2, characterized in that the pulse current source is designed is that they have 3-10 Horb voltage pulses generated per lake. 4. Weapon according to one or more of claims 1 to 3, characterized in that the pulse current source is designed so that it generates high-voltage pulses with an energy of at least 0.01 joules per pulse. w 5. Weapon according to claim 4, characterized in that the pulse current source is designed is that it generates high voltage pulses with an energy of approximately 0.5 joules per pulse. 6. Weapon according to one or more of claims 1 to S _1, characterized by a shuttlecock-like adhesive projectile (72) with protruding spikes (74) that hook onto the target object. 7. Weapon according to one or more of Claims 1 to 5, characterized by an adhesive projectile (84) with a point (86) provided with a barb (88). 8. Weapon according to one of several of claims 1 to 7, characterized in that the Sticky projectiles (26; 64; 68; 72; 84; 102; 208; 210; 220; 222) through a non-conductive net (70; 228; 232; 234) are connected to each other. 9. Weapon according to one or more of claims 1 to 8, characterized by in front of the mi Launcher conductor wire unwinding means (78; 92; 104; IIS; 216; 218). M). A weapon according to claim 9, characterized in that the conductor wire-unwinding means are arranged (78) in the adhesive ^ projectile (72). I1. Weapon according to one or more of claims I to 10, characterized in that within one connected to the impulse source, from this detachable cassette (206) a launching device (244, 246, 248, 250, 252, 254, 256) for the contained therein, connected to the pulse current source via conductor wires (30) Sticky projectiles (208,210,220,222) arranged is.