Provided herein are shaped-charges for focusing a filler, such as a fluid mass, and related methods of using the shaped-charges for disruption of an explosive target. The shaped-charge comprises an attenuating body positioned and configured to attenuate rarefaction waves to increase filler, including a fluid mass, explosively driven out of the container toward a target while also maintaining and enhancing fluid jet integrity. To further control impact and impulse forces on a target, additional layers may be used, including a foam layer and a jet-clipping layer positioned between the shaped-charge and the target surface. Also provided are propellant driven liquid disrupters having special attenuating bodies to improve liquid jet column characteristics.

The present invention provides a novel toy electric water pistol. The novel toy electric water pistol adopts a water suction sensing part with double sensing contacts to cooperate with a first motor in a linkage manner, so that the toy electric water pistol can be automatically and quickly processed for water suction and replenishment, without manual water addition operation, so that it is convenient to use and has high water storage efficiency. At the same time, by setting a quantitative driving jetting part, it can realize the sequential quantitative water jet jetting operation with a high response speed. The toy electric water pistol has more sufficient jetting power and a longer jetting range by combining a water jet with a conical water jet hole.

The present invention provides a novel toy electric water pistol. The novel toy electric water pistol adopts a water suction sensing part with double sensing contacts to cooperate with a first motor in a linkage manner, so that the toy electric water pistol can be automatically and quickly processed for water suction and replenishment, without manual water addition operation, so that it is convenient to use and has high water storage efficiency. At the same time, by setting a quantitative driving jetting part, it can realize the sequential quantitative water jet jetting operation with a high response speed. The toy electric water pistol has more sufficient jetting power and a longer jetting range by combining a water jet with a conical water jet hole.

A phone case can be configured to also function as a dispenser of pepper spray or another agent. The phone case can be configured to house a phone in a typical manner. Additionally, the phone case can house an agent dispensing assembly behind the phone so that it is hidden within the phone case. The agent dispensing assembly can include a trigger assembly that, when actuated, causes an agent to be sprayed from the phone case. The agent dispensing assembly may also include a key assembly that prevents the trigger assembly from being actuated unintentionally.

A disrupter for launching a combination of water and a projectile toward an explosive device to disable the explosive device. The position of the projectile in the barrel of the disrupter determines an exit velocity of the water and the projectile from the barrel of the disrupter.

An electric projection weapon system is provided. The weapon system includes a targeting system for projecting conductive fluid beams towards a focal point at a target location in space. The electric projection weapon comprises at least two nozzles configured to project the conductive fluid beams towards the focal point. At least one of the nozzles is actuated by a nozzle actuator and is directionally controlled to control convergence of the conductive fluid beams towards the focal point. The weapon includes isolated pressurized reservoirs in fluid communication with the nozzles and containing a high conductance ionic solution, forming the fluid beams when projected from the nozzles. A high voltage power supply applies an electric potential difference between the conductive fluid beams.

An electric projection weapon system is provided. The weapon system includes a targeting system for projecting conductive fluid beams towards a focal point at a target location in space. The electric projection weapon comprises at least two nozzles configured to project the conductive fluid beams towards the focal point. At least one of the nozzles is actuated by a nozzle actuator and is directionally controlled to control convergence of the conductive fluid beams towards the focal point. The weapon includes isolated pressurized reservoirs in fluid communication with the nozzles and containing a high conductance ionic solution, forming the fluid beams when projected from the nozzles. A high voltage power supply applies an electric potential difference between the conductive fluid beams.

A water gun refilling station for refilling a water gun includes a base positioned a predetermined distance above a ground surface. A fitting is attached to the base and is in fluid communication with a source of pressurized water. The fitting is selectively operated to be opened and closed. The water gun includes a water storage container. An attachment is connected to the water gun and is in fluid communication with the water storage container. The attachment may be selectively manually connected to the fitting. An air vent is operatively connected to the water storage container. Wherein when the attachment is manually connected to the fitting, the air vent is opened within the water storage container to enable a supply of pressurized water to quickly refill the water gun.

A water gun, having a trigger control, provides repeated discharge of metered volume stream of water, uses a sealed chamber containing a refillable reservoir of water pressurized by compressed air. The pressurized water supply is connected to a tubular housing, which transports the stream of water to a second end of the tubular housing to a nozzle assembly. A trigger controlled valve which is connected to a trigger mechanism, having an operator controlled trigger, initiating the flow of the stream. The initiated stream is volumetrically metered and terminated by a shuttle valve, which terminates flow upon reaching a valve seat which decelerates the velocity of the shuttle before it contacts the valve seat, which reduces stress on the seal. A method of sequential resetting is provided to reset the trigger valve, trigger mechanism and shuttle valve, enabling a repeated metered discharge.

Provided herein are fluid jet enhancement adapters for use with a propellant driven disrupter. The adapter may comprise: a first end operably connected to a muzzle end of a propellant driven disrupter barrel and a second end, wherein a longitudinal region extends between the first end and the second end. The longitudinal region has: a longitudinal region inner surface that defines a longitudinal region lumen; a longitudinal region outer surface opposably facing the longitudinal region inner surface, with a longitudinal region wall having a wall thickness that separates the longitudinal region inner surface from the longitudinal region outer surface. The longitudinal region lumen has a first end inner diameter that is substantially equivalent to a muzzle inner diameter. The longitudinal region wall forms a continuous surface that radially isolates the longitudinal region lumen from a surrounding environment.