According to one embodiment an electric shock self-defence cartridge is provided that includes a distal body in which one or more application means is housed, and a proximal body in which a wire is housed. The proximal body includes coupling means and electric connection means for being joined with the electric shock self-defence device. Compression means is arranged between the distal body and the proximal body for keeping the distal body shifted towards a rest position. The application means is housed in the distal body, such that in use, when the distal body is in contact with an assailant, the distal body shifts with respect to the proximal body from the rest position towards an actuation position in which the application means projects from the distal body to be adhered to the assailant's body.

A safety switch for a conducted electrical weapon (“CEW”) may be configured to operate between at least one fixed position and at least one momentary position. In response to the safety switch being operated into the at least one momentary position, the safety switch may return to the at least one fixed position. In the fixed position, the safety switch may be configured to perform a firing mode operation. In the momentary position, the safety switch may be configured to perform a non-firing mode operation.

The present invention relates to a push-out type miniature electric shock flashlight capable of automatically resetting, comprising a flashlight body shell, a plastic main body part, an integrated circuit board assembly and a base plate, an open slot; the plastic main body part comprises an operating member and a power control member, an LED lamp and electric shock sheets are provided inside the operating member, an ignition coil and a polymer lithium battery are provided inside the power control member, and a guide slot is also provided on a bottom surface of the power control member; the circuit board assembly is arranged between the polymer lithium battery and the plastic main body part and comprises a lighting switch, an electric shock/lighting change-over switch, a charging indicator, a USB interface and an electric shock switch; a joint pin and a guide block.

Field of the Art:

The invention relates to weapons technology.

Scope is non-lethal and less lethal remote-action weapon with electric means of damaging biological and tangible targets.

The technical effect is creation of a method for organizing a directed wireless conductive channel in air and a device for implementing the method.

The method consists in supplying a damaging electric current voltage to the ionized channel or channels of the streamers of the resonant transformer, preferably with the QCW DRSSTC topology, bypassing the active and reactive resistance of the secondary winding of the resonant transformer with the channel closure to ground or the closure of two channels with the target. The device consists of one or two resonant transformers connected through gas gaps with a source of shock voltage, while the secondary windings of the transformers can have bypass diode columns and be phased, and the source of the damaging voltage is an alternating or pulse voltage generator or a capacitive energy storage.

An interlocking telescopic rod-type defense spray apparatus includes: a first tube body, a cap and a second tube body. The first tube body has a receiving chamber for placing an irritant gas can. The cap covers the receiving chamber. A rod body portion of the second tube body includes an upper tube, a lower tube, and a telescopic-rod packing device connecting the upper tube and the lower tube. Two sectioned tube pieces and a spring pin component and a push joint component between the two tube pieces are applied to lock and unlock a relative position relationship between the two tube pieces, so that the defense spray apparatus has composite functions of a rod-piece additional function of a locking configuration of relative positions of the two tube pieces and a press-lever spray irritant gas can of an unlocking configuration of the relative positions of the two tube pieces.

An interlocking telescopic rod-type defense spray apparatus includes: a first tube body, a cap and a second tube body. The first tube body has a receiving chamber for placing an irritant gas can. The cap covers the receiving chamber. A rod body portion of the second tube body includes an upper tube, a lower tube, and a telescopic-rod packing device connecting the upper tube and the lower tube. Two sectioned tube pieces and a spring pin component and a push joint component between the two tube pieces are applied to lock and unlock a relative position relationship between the two tube pieces, so that the defense spray apparatus has composite functions of a rod-piece additional function of a locking configuration of relative positions of the two tube pieces and a press-lever spray irritant gas can of an unlocking configuration of the relative positions of the two tube pieces.

A conducted electrical weapon (“CEW”) launches wire-tethered electrodes from multiple cartridges to provide a current through a human or animal target to impede locomotion of the target. The CEW may detect when the electrodes launched from the cartridges may provide the current through more than one target. The CEW may detect when electrodes launched from the cartridges may provide the current through the same target. The CEW may set the pulse rate of the current based on detecting the launch of electrodes from more than one cartridge, detecting that electrodes may provide the current through two or more targets, and/or detecting that two or more pairs of electrodes may deliver the current through the same target.

A conducted electrical weapon (“CEW”) launches wire-tethered electrodes from multiple cartridges to provide a current through a human or animal target to impede locomotion of the target. The CEW may detect when the electrodes launched from the cartridges may provide the current through more than one target. The CEW may detect when electrodes launched from the cartridges may provide the current through the same target. The CEW may set the pulse rate of the current based on detecting the launch of electrodes from more than one cartridge, detecting that electrodes may provide the current through two or more targets, and/or detecting that two or more pairs of electrodes may deliver the current through the same target.

A conducted electrical weapon (“CEW”) launches wire-tethered electrodes from multiple cartridges to provide a current through a human or animal target to impede locomotion of the target. The CEW may detect when the electrodes launched from the cartridges may provide the current through more than one target. The CEW may detect when electrodes launched from the cartridges may provide the current through the same target. The CEW may set the pulse rate of the current based on detecting the launch of electrodes from more than one cartridge, detecting that electrodes may provide the current through two or more targets, and/or detecting that two or more pairs of electrodes may deliver the current through the same target.

Described embodiments include an electro-shock projectile, a system, and a method. The electro-shock projectile includes a recognition circuit configured to recognize a body portion of a target human authorized for administration of a selected electric shock by electro-shock projectiles. The projectile includes a conductive electrode tip configured to administer the selected electric shock to the recognized body portion of the target human, the electric shock selected to inhibit voluntary movement by the target human. The projectile includes a guidance circuit configured to generate instructions directing the electro-shock projectile along a flight path toward the recognized body portion of the target human. The projectile includes a flight controller configured to operate a directional control surface in response to the generated instructions. The projectile includes a signal generator configured to output the selected electric shock to the conductive electrode tip and through tissue of the target human contacted by the conductive electrode tip.