The present invention is related to paintball land mines, which can fire multiple paintballs simultaneously. Also, the paintball land mine utilizes a firearm blank or nail gun cartridge for its propellant. Furthermore, the paintball land mine includes reed valves associated with the ejection of the paintballs so that after the initial blast of the propellant to eject each paintball, the reed valve associated with the ejected paintball is closed, thereby preventing the rapid escape of unused propellant. Finally, the paintball land mine can be either detonated by a trip wire or detonated electronically through the use a remote-control device.

The present invention is related to paintball land mines, which can fire multiple paintballs simultaneously. Also, the paintball land mine utilizes a firearm blank or nail gun cartridge for its propellant. Furthermore, the paintball land mine includes reed valves associated with the ejection of the paintballs so that after the initial blast of the propellant to eject each paintball, the reed valve associated with the ejected paintball is closed, thereby preventing the rapid escape of unused propellant. Finally, the paintball land mine can be either detonated by a trip wire or detonated electronically through the use a remote-control device.

A naval mine configured to be released by a release assembly comprising: an impermeable casing; an explosive charge arranged inside the impermeable casing; a detonator which can be operated to trigger the explosive charge; and a control device configured to operate the detonator. The naval mine further comprises a fillable chamber, provided with at least one opening and a closing system for closing or opening the opening; said closing system is configured to open the opening so as to allow water to flow into the fillable chamber, when the naval mine is released by the release assembly.

The present invention is generally related to paint ball firing devices. More specifically, the present invention is related to paintball land mines, which can fire multiple paintballs simultaneously and methods of making and using same. Furthermore, the present invention is capable of allowing the device to be disassembled (i.e., field serviceable) and provides a range of combustion chambers, barrel assemblies, and cartridges to be used in the device. In this manner, a wide range of projectile types and feet per second (f.p.s.) projectiles can be used in the device.

The present invention is generally related to paint ball firing devices. More specifically, the present invention is related to paintball land mines, which can fire multiple paintballs simultaneously and methods of making and using same. Furthermore, the present invention is capable of allowing the device to be disassembled (i.e., field serviceable) and provides a range of combustion chambers, barrel assemblies, and cartridges to be used in the device. In this manner, a wide range of projectile types and feet per second (f.p.s.) projectiles can be used in the device.

Provided is a non-pyro cartridge for military training devices. The cartridge has a refillable compressed gas compartment fitted with a refill valve, which allows for quick reuse of the cartridge. The cartridge further has a blast compartment that receive a rush of compressed air from the gas compartment when the cartridge is triggered/detonated. Also provided is an activation device for the cartridge. The cartridge and activation device can generate physical and digital effects on the battlefield that safely and realistically simulate anti-tank weapon signatures, mortar weapon signatures, landmines signatures, improvised explosive device weapon signatures, artillery point of impact signatures, hand grenade signatures, weapon impact signatures on vehicles, weapon impact signatures on buildings, multiple types of battlefield effects, weapon signatures, impact signatures with a single device type.

Provided is a non-pyro cartridge for military training devices. The cartridge has a refillable compressed gas compartment fitted with a refill valve, which allows for quick reuse of the cartridge. The cartridge further has a blast compartment that receive a rush of compressed air from the gas compartment when the cartridge is triggered/detonated. Also provided is an activation device for the cartridge. The cartridge and activation device can generate physical and digital effects on the battlefield that safely and realistically simulate anti-tank weapon signatures, mortar weapon signatures, landmines signatures, improvised explosive device weapon signatures, artillery point of impact signatures, hand grenade signatures, weapon impact signatures on vehicles, weapon impact signatures on buildings, multiple types of battlefield effects, weapon signatures, impact signatures with a single device type.

A training aid for use in training canines to detect an explosive material includes an explosive material adsorbed in the pores of a high surface area mesoporous or nanoporous host material. By adjusting the surfaces of the pores of the substrate material, the substrate can accommodate various types of explosive materials in a non-detonable and non-flammable manner, including nitroaromatics, nitroamines, nitrate-based explosives, and peroxide-based explosives. When the training aid is in an unsealed condition, a continuous flux of explosive material is released without providing any explosive or flame hazard to the trainer and canine.

A training aid for use in training canines to detect an explosive material includes an explosive material adsorbed in the pores of a high surface area mesoporous or nanoporous host material. By adjusting the surfaces of the pores of the substrate material, the substrate can accommodate various types of explosive materials in a non-detonable and non-flammable manner, including nitroaromatics, nitroamines, nitrate-based explosives, and peroxide-based explosives. When the training aid is in an unsealed condition, a continuous flux of explosive material is released without providing any explosive or flame hazard to the trainer and canine.

A training aid for use in training canines to detect an explosive material includes an explosive material adsorbed in the pores of a high surface area mesoporous or nanoporous host material. By adjusting the surfaces of the pores of the substrate material, the substrate can accommodate various types of explosive materials in a non-detonable and non-flammable manner, including nitroaromatics, nitroamines, nitrate-based explosives, and peroxide-based explosives. When the training aid is in an unsealed condition, a continuous flux of explosive material is released without providing any explosive or flame hazard to the trainer and canine.