Accessories may be mounted using a quick-detachable multi-purpose accessory mounting platform. The platform may include one or more clamps to receive an object, such as a firearm. The platform also may include at least one recessed mounting pad, at least one rear shelf, and other surfaces to provide different mounting points for accessories.

Apparatuses, systems, and methods are disclosed for drone interdiction. A projectile is capable of being launched to intercept a drone. The projectile may include a set of tethers that deploy from the projectile for securing the drone. The projectile may include a recovery device that deploys from the projectile for controlling a descent of the drone.

Apparatuses, systems, and methods are disclosed for drone interdiction. A projectile is capable of being launched to intercept a drone. The projectile may include a set of tethers that deploy from the projectile for securing the drone. The projectile may include a recovery device that deploys from the projectile for controlling a descent of the drone.

A pyrotechnic projectile, an electronic controller for a pyrotechnic projectile, and a method of controlling a pyrotechnic projectile are provided. The pyrotechnic projectile comprises: a burst charge, configured to provide an a visual and/or audible effect upon activation thereof; an electronic match configured to activate the burst charge; and an electronic controller, coupled to the electronic match. The electronic controller is configured to determine an altitude of the pyrotechnic projectile and cause the electronic match to activate the burst charge at least in part according to the altitude of the pyrotechnic projectile.

A hand grenade for launching BB bullets includes two half shells each including a spiral bullet storage and one half shell further including a discharge opening; a hollow, cylindrical base including a bottom recess, an air passage communicating with one bullet storage, and a valve at an end of the air passage; a steel ball on the recess to block the valve; a pressing assembly including a disc urging against the steel ball, a hollow cylinder extending upward from the disc, a magnet in the hollow cylinder, and a rod partially in the hollow cylinder to engage with the magnet; a hollow, cylindrical member threadedly secured to the cylindrical base; a cup-shaped cap threadedly secured to the cylindrical member and including two opposite projections on an inner surface and a bottom through hole with the rod passing through; and a switch including two opposite protrusions under the projections respectively.

A hand grenade for launching BB bullets includes two half shells each including a spiral bullet storage and one half shell further including a discharge opening; a hollow, cylindrical base including a bottom recess, an air passage communicating with one bullet storage, and a valve at an end of the air passage; a steel ball on the recess to block the valve; a pressing assembly including a disc urging against the steel ball, a hollow cylinder extending upward from the disc, a magnet in the hollow cylinder, and a rod partially in the hollow cylinder to engage with the magnet; a hollow, cylindrical member threadedly secured to the cylindrical base; a cup-shaped cap threadedly secured to the cylindrical member and including two opposite projections on an inner surface and a bottom through hole with the rod passing through; and a switch including two opposite protrusions under the projections respectively.

The present invention pertains to a system and method for transportation of goods, service, marketable securities or other valuable payloads optionally utilizing a carrier or smart carrier to contain a payload and using artillery for transporting the payload relatively longer distances, whereby more conventional transportation systems may bring a payload to the artillery mechanism and then retrieve the payload from the artillery mechanism. The system consists of a modified military artillery projectile, optionally containing a self-monitoring smart carrier or a standard carrier, transportation shells for various transportation methods and when smart carriers are employed, goods and services and in some embodiments, people, on land, air and water through a connected ecosystem, may be monitored and safely transported. Modified military artillery is used to propel goods to discrete distance remote stations, alongside, in some examples, torpedoes, sniper rifles, and other long rage apparatuses, such as drones, mortars, and howitzers. The selection of what artillery to use is a function of availability and desired distance and performance, and the interaction with non-ballistic delivery systems, to and from the artillery or ballistic legs of the desired delivery pathway, are ones of optimal design and performance choice of a user of the present invention.

The present invention pertains to a system and method for transportation of goods, service, marketable securities or other valuable payloads optionally utilizing a carrier or smart carrier to contain a payload and using artillery for transporting the payload relatively longer distances, whereby more conventional transportation systems may bring a payload to the artillery mechanism and then retrieve the payload from the artillery mechanism. The system consists of a modified military artillery projectile, optionally containing a self-monitoring smart carrier or a standard carrier, transportation shells for various transportation methods and when smart carriers are employed, goods and services and in some embodiments, people, on land, air and water through a connected ecosystem, may be monitored and safely transported. Modified military artillery is used to propel goods to discrete distance remote stations, alongside, in some examples, torpedoes, sniper rifles, and other long rage apparatuses, such as drones, mortars, and howitzers. The selection of what artillery to use is a function of availability and desired distance and performance, and the interaction with non-ballistic delivery systems, to and from the artillery or ballistic legs of the desired delivery pathway, are ones of optimal design and performance choice of a user of the present invention.

In an intelligent multi-rotor rescue thrower, a throwing projectile head is located at a foremost end of the thrower, a parachute storage bin is mounted at a center of a front end of the throwing projectile head, a rear end of the throwing projectile head is connected to a projectile body shell through threads, and a first splitter plate, a second splitter plate, and a third splitter plate are directly connected to the projectile body shell through slide grooves built in the projectile body shell to equally divide a space in a cavity of the projectile body shell; connecting flanges tightly connect the projectile body shell to motors, a rotor is connected to an upper end of each of the motors, and three rotors are provided in the space in the cavity of the projectile body shell.

In an intelligent multi-rotor rescue thrower, a throwing projectile head is located at a foremost end of the thrower, a parachute storage bin is mounted at a center of a front end of the throwing projectile head, a rear end of the throwing projectile head is connected to a projectile body shell through threads, and a first splitter plate, a second splitter plate, and a third splitter plate are directly connected to the projectile body shell through slide grooves built in the projectile body shell to equally divide a space in a cavity of the projectile body shell; connecting flanges tightly connect the projectile body shell to motors, a rotor is connected to an upper end of each of the motors, and three rotors are provided in the space in the cavity of the projectile body shell.