US3374708A - Electrical anti-personnel weapon - Google Patents

Description

March 26, 1968 G. A. WALL ELECTRICAL ANTI-PERSONNEL WEAPON Filed Jan. 26, 1965 Patented Mar. 26, 1968 3,374,708 ELECTRICAL ANTI-PERSONNEL WEAPON George A. Wall, North Carver, Mass.; Eileen T. Wall, executrix of said George A. Wall, deceased, assignor to Eileen T. Wall, North Carver, Mass.

Filed Jan. 26, 1965, Ser. No. 428,096 11 Claims. (Cl. 89-1) ABSTRACT OF THE DISCLOSURE An electrical anti-personnel method and apparatus. The method comprises electrically energizing a stream of conductive liquid and directing the stream at a person. The apparatus comprises a pair of conductive liquid sources, a pair of conduits, a pair of nozzles, and a pair of conductive means contacting the liquid, each pair of elements separate from the other, whereby a pair of oppositely charged streams of liquid may be directed against a person.

This invention relates to a method and to a weapon for the deterrence of hostile persons by electrical means. More particularly this invention relates to a method and to a weapon for transmitting electricity via unconfined streams of electrically charged liquids to persons in remote positions from the operator of such apparatus.

Generally speaking, the method comprises directing at least one unbroken and unconfined, ballistic stream of electrically energized conductive liquid at a remote person for deterring hostile activities and advances by such a person. The apparatus for practicing this method, in general, comprises at least one source of pressurized conductive liquid connected to means for directing said liquid to a remote object in an unbroken stream. Also provided are means adapted for energizing the liquid, such means being adapted for conveying tn electrical current from a power source to said liquid.

Other objects, advantages and features will appear from the following detailed description of the invention taken together with the accompanying drawings, in which. FIG. 1 is a side elevation of apparatus embodying the invention;

FIG. 2 is a rear view of the apparatus shown in FIG. 1;

FIG. 3 is a plan view of the apparatus;

FIG. 4 is an enlarged, fragmentary, side elevation of the apparatus in section;

FIGS. 5, 6, 8 and 9 are circuit diagrams for use in preferred embodiments of the invention; and

FIG. 7 is a fragmetary circuit diagram showing the induction coil of FIGS. and 6 in a circuit broken condition.

Referring now to the drawings, and more particularly to FIGS. 14 thereof, it will be seen that in the preferred embodiment of the apparatus twosources 14, 16 of conductive liquid are provided. In the preferred embodiment the liquid is provided in pressurized containers having electrical insulating, non-corrosive properties, but it is contemplated that the sources may be from any pressure source, such as a pump, provided only that each source be separate and insulated lest there be a short circuit making the apparatus inoperative. The liquid is conductive and may be water containing an electrolyte, such as ordinary sea water or water mixed with sulphuric acid, which has been used successfully. The liquid may also contain thickening or other agents such as methyl cellulose or cellulose gum to prevent too early a break in streams of the liquid.

Theliquid sources 14, 16 are connected in pressure sealed relationship to either side of thecross bracket 12 of a preferably pistol shaped device generally designated 10. Thebracket 12 includes sealedpressure chambers 33 above each of the liquid sources into which the liquid flows. Thechambers 33 each include a seal element at the rear thereof and avalve 31, 32 at the front thereof, the valves each normally being urged by spring means 28 to a closed position. Actuating linkage means for selectively opening thevalves 31, 32 are also provided includingrods 25, 26 connected at one end to thevalves 31, 32 and at their other ends extending through theseal elements 30 for connection tocross rod 27. The actuating linkage means also includes link 24 pivotally connected at one end to therod 27 and at the other end to atrigger mechanism 22 at a point remote from the upper end of thetrigger 22. Thetrigger 22 is pivotally connected at the upper end thereof to the internal structure of the pistol 10 and at its lower end protrudes from the pistol for digital actuation. On actuation of the trigger thevalves 31, 32 are thus opened to permit the flow of liquid from thesources 14, 16.

Leading from thevalves 31, 32 at the front of the chambers are conduits 34, 35 leading tosimple nozzles 18, 20 adapted for directing the pressurized liquids from the pistol 10 is unbroken, unconfined, ballistic streams. The nozzles are laterally spaced from each other on thebracket 12 and are arranged to provide streams which do not converge within their effective range, i.e. the range at which the streams remain unbroken. Likewise, the nozzles are arranged so that the streams are sufficiently close together as to be capable of simultaneously striking the hostile person against which they are directed. Preferably the nozzles will be arranged to provide parallel streams embodying these limitations but in this specification the word parallel when used to describe such arrangements will be understood to include non-parallel nozzles and streams which embody the foregoing limitations.

Preferably the conduits and nozzles are of materials having electrical insulating properties. Interposed between the conduits and nozzles and disposed for contacting the liquid flowing through the pistol are conductive elements such astubes 19, 21 adapted to convey an electric charge to the liquid as it flows thereby.

Except forelements 19, 21 and the electrical connections to be described and possibly thetrigger 22 and thesprings 28, all of the elements of the pistol 10 per se are preferably of non-conductive, non-corrosive materials, for reasons of safety and for the prevention of short circuits. In any event, the liquid sources andelements 19, 21 are insulated from each other and from the external portions of the pistol 10.

Connected totube elements 19, 21 and extending therefrom through the body of the pistol arewires 42, 44 adapted for conveying electricity to thetubes 19, 21 and hence for energizing the liquids flowing therethrough.Wires 42, 44 extend throughthehandle 56 of the pistol together with wires in the form of acable 39 and are adapted for connection to a power source generally designated 46.

Thepower source 46 is preferably portable and adapted to be carried by the operator of the apparatus (not shown). Thepower source 46 includeswires 40, 41 adapted for connection to a source of either an AC or DC current, preferably the latter and preferably abattery 48. The circuit diagram for the preferred embodiment of the invention is shown in FIG. 5 and includesinduction coil 50 for stepping upthe voltage in the secondary circuit, represented by thewires 42, 44, from that in the primary circuit, represented by thewires 40, 41. To permit operation of the coil in the DC current provided in the FIG. 5 embodiment, aniron core 51 is provided in thecoil 50 to periodically interrupt the primary circuit, which is normally completed through thearmature 52, by attracting thearmature 52 as in FIG. 7 away from its contact. Condenser means 54 are provided in the primary circuit between thearmature 52 andwire 40 to prevent sparking and undue wear as the armature is actuated. Aswitch 38 is also provided in the primary circuit for completing and disconnecting the circuit. Preferably thisswitch 38 is located in thehandle 56 of the apparatus 10,wires 40 extending from thepower source 46 incable 39 to theswitch 38, and is adapted for completing the primary circuit as thetrigger 22 is actuated to open the valves 31-, 32. Preferably thecoil 50 may be adjusted, viaselector 49 on an accessible portion of thepower source 46, to vary the voltage in the secondary circuit.

Alternative arrangements of the circuits are shown in FIGS. 6, 8 and 9 in which the circuits are essentially the same as that in FIG. except that in FIG. 8 an AC current is used permitting elimination of the core, armature and condenser. FIGS. 6 and 9 disclose embodiments in which but a single stream of liquid is energized in which case one end of the secondary circuits is grounded at 45via wire 44. FIG. 6 otherwise is identical to the circuit in FIG. 8.

To convey an electric charge to a hostile individual, thetrigger 22 is actuated to openvalves 31, 32 and to close theswitch 38 completing the primary electrical circuit. High voltage electricity, which may be varied by means ofselector 49, is then transmitted viatubes 19, 21 to the streams of liquid flowing therethrough, preferably each stream having simultaneously an opposite electrical charge. The streams are then directed at the hostile individual whom it is desired to deter provided only that the person be sufficiently close to the apparatus 10, that the liquid streams remain unbroken until contact with the person. Upon contact of the oppositely charged streams with the individual, the secondary circuit is completed through the individual via the oppositely charged streams extending fromelements 19, 21 causing at least some discomfort. If but a single stream is energized, proper grounding of the hostile person may be assured to complete the circuit extending fromelement 19 via the stream to the person by directing sufficient liquid to assure good contact between the person and ground the other end of the circuit being toground 45 as shown in FIG. 6.

By means of this method and apparatus, therefore, it is possible to provide for deterrence of hostile persons electrically without the necessity of dangerous physical proximity.

Other embodiments within the following claims will occur to those skilled in the art.

What is claimed is:

1. The method of deterring a hostile person by electrical means which comprises the steps of:

providing at least one unbroken and unconfined ballistic stream of conductive liquid;

electrically energizing said stream; and

directing said stream at said person from a point remote therefrom.

2. The method claimed inclaim 1 having as an additional step the grounding of said person by directing sufficient liquid at said person to assure contact between said person and ground.

3. The method of deterring a hostile person by electrical means which comprises the steps of:

providing a plurality of parallel, unbroken and unconfined ballistic streams of conductive liquid; electrically energizing each of said streams; and directing said streams at said person from a point remote therefrom.

4. The method claimed in claim 3 having as an additional step the grounding of said person by directing sufficient liquid at said person to assure contact between said person and ground. 7

5. The method of deterring a hostile person by electrical means which comprises the steps of:

providing a pair of parallel unbroken and unconfined ballistic streams of conductive liquid;

electrically energizing each of said streams simultaneously with a charge of opposite sign from that of the other of said streams; and

directing each of said streams simultaneously at said person from a point remote therefrom.

6. An electrical anti-personnel device comprising:

at least one source of pressurized conductive liquid;

nozzle means for directing said liquid in a stream at remote hostile personnel;

conduit means between said nozzle means and said source for conveying said liquid to said nozzle means;

conductive means positioned in said device for contacting said liquid; and

electrical circuit means connected to said conductivemeans for conveying an electrical charge from a source of electrical power to said conductive means thereby to energize said liquid in contact with said conductive means. 7

7. An anti-personnel device comprising:

a plurality of separate sources of pressurized conductive liquid;

separate nozzle means, disposed in parallel relation to each other, one for each of said sources, for directing said liquid therefrom in streams at remote hostile personnel;

separate conduit means between each of said nozzle means and each of said sources for conveying said liquid from each of said sources to said nozzle means;

separate conductive means positioned in said device for contacting said liquid from each of said sources; and

electrical circuit means connected to said conductive means for conveying an electrical charge from a source of electrical power to said conductive means thereby to energize said liquid in contact with said conductive means. I

8. The anti-personnel device claimed in claim 7 wherein said plurality of sources of liquid comprises a pair of sources.

9. The anti-personnel device claimed in claim 8 wherein valve means are interposed between each of said conduit means and said sources of liquid and wherein actuating means, adapted for manual actuation to open and close said valve means, are connected to said valve means.

10. The anti-personnel device claimed in claim 9 wherein said device includes switch means adapted for connection to and for operating said source of electric power, said switch means also being adapted for actuation by said actuating means to operate said source of electric power and thus to energize said liquid from each of said sources thereof when said actuating means is actuated to open said valve means.

11. An anti-personnel device comprising:

a pair of separate sources of pressurized conductive liquid;

a plurality of separate nozzle means disposed in parallel relationship to each other, one for each of said sources, for directing said liquid therefrom in streams at remote hostile personnel;

separate conduit means between each of said nozzle means and each of said sources for conveying said liquid from each of said sources to said nozzle means;

valve means interposed between each of said conduits and said conductive liquid sources;

separate conductive means positioned in said device for contacting said liquid from each of said sources, said conductive means connected to opposite poles of a source of electric power, thereby to simultaneously energize said liquid from each source thereof with a charge of opposite sign from that of the liquid from the other source thereof;

6 switch means adapted for connection to said source a pair of energized liquid streams of opposite charge of electric power, said switch means when closed beat said hostile person. in g adapted for operating said source of electric power thereby to energize said conductive means References Cited and Said liquib l; n? t t d t 5 UNITED STATES PATENTS manua y opera e ac ua1ng means connec e o sa1 valve means and adapted to actuate said switch means, said actuating means being adapted selectively to simultaneously open said valve means and close ANTON OECHSLE Primary Examiner said switch means and to simultaneously close said 10 valve means and open said switch means, whereby RICHARD PINKHAM Examiner said device may be selectively operated to discharge W. R. BROWNE, Assistant Examiner.

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