Improvements in a less-lethal force device are disclosed. The less-lethal projectile device generally comprising a projectile that is mated to a docking base by way of a spherical shaped projectile ball in a retaining spherical sockets or base. The projectile ball may include a locating/orienting that locates the projectile ball in the docking base. The retaining socket has one or more wings that partially wrap around the projectile ball. The material, thickness and splits in the socket adjust the retention force placed on the projectile ball. The projectile captures a fired bullet and is propelled along the original path of the bullet at a less lethal velocity. The disclosed system results in converting a normally lethal weapon into a less-lethal blunt impact system.

Improvements in a less-lethal force device are disclosed. The less-lethal projectile device generally comprising a projectile that is mated to a docking base by way of a spherical shaped projectile ball in a retaining spherical sockets or base. The projectile ball may include a locating/orienting that locates the projectile ball in the docking base. The retaining socket has one or more wings that partially wrap around the projectile ball. The material, thickness and splits in the socket adjust the retention force placed on the projectile ball. The projectile captures a fired bullet and is propelled along the original path of the bullet at a less lethal velocity. The disclosed system results in converting a normally lethal weapon into a less-lethal blunt impact system.

Improvements in a less-lethal force device are disclosed. The less-lethal projectile device generally comprising a projectile that is mated to a docking base by way of a spherical shaped projectile ball in a retaining spherical sockets or base. The projectile ball may include a locating/orienting that locates the projectile ball in the docking base. The retaining socket has one or more wings that partially wrap around the projectile ball. The material, thickness and splits in the socket adjust the retention force placed on the projectile ball. The projectile captures a fired bullet and is propelled along the original path of the bullet at a less lethal velocity. The disclosed system results in converting a normally lethal weapon into a less-lethal blunt impact system.

The disclosure is directed at a blank fire bullet trap attachment (BFBTA) that provides improved protection for firearm users when live ammunition is accidently loaded into the firearm. The BFBTA includes a barrel portion made of a first metal; and a hardened element portion made of a second metal, the hardened element portion sized to frictionally fit within the pipe portion; wherein the first metal is softer than the second metal, such that when live ammunition contacts the hardened element portion, the hardened element portion slides within the barrel portion.

Improvements in a less-lethal force device are disclosed. The less-lethal projectile device generally comprising a projectile, such as a rubber-encapsulated metal block, that is mated to a docking base by way of a mounting pins or base. The projectile may be made with a cavity located in its rearward section for enabling the projectile to fit onto the mounting pins portion of the docking base through compression or interference fit. The projectile captures a fired bullet and is propelled along the original path of the bullet at a less lethal velocity. The disclosed system results in converting a normally lethal weapon into a less-lethal blunt impact system. The mounting pins are configured to provide clearance to the sighting mechanism on the firearm.

Improvements in a less-lethal force device are disclosed. The less-lethal projectile device generally comprising a projectile, such as a rubber-encapsulated metal block, that is mated to a docking base by way of a mounting pins or base. The projectile may be made with a cavity located in its rearward section for enabling the projectile to fit onto the mounting pins portion of the docking base through compression or interference fit. The projectile captures a fired bullet and is propelled along the original path of the bullet at a less lethal velocity. The disclosed system results in converting a normally lethal weapon into a less-lethal blunt impact system. The mounting pins are configured to provide clearance to the sighting mechanism on the firearm.

Disclosed is a rifle grenade using a bullet trap. A propellent assembly is formed with a first housing configured to house a trapping unit that traps a bullet shot from a gun to travel from rear to front and absorbs kinetic energy of the bullet, and a second housing configured to house a propelling unit that is disposed in front of the first housing, and is activated by the kinetic energy of the bullet which is absorbed into the trapping unit to provide a propelling force in a trajectory direction of the rifle grenade.

Disclosed is a rifle grenade using a bullet trap. A propellent assembly is formed with a first housing configured to house a trapping unit that traps a bullet shot from a gun to travel from rear to front and absorbs kinetic energy of the bullet, and a second housing configured to house a propelling unit that is disposed in front of the first housing, and is activated by the kinetic energy of the bullet which is absorbed into the trapping unit to provide a propelling force in a trajectory direction of the rifle grenade.

Improvements in a less-lethal force device are disclosed. The less-lethal projectile device generally comprising a projectile, such as a rubber-encapsulated metal block, that is mated to a docking base by way of a mounting pins or base. The projectile may be made with a cavity located in its rearward section for enabling the projectile to fit onto the mounting pins portion of the docking base through compression or interference fit. The projectile captures a fired bullet and is propelled along the original path of the bullet at a less lethal velocity. The disclosed system results in converting a normally lethal weapon into a less-lethal blunt impact system. The mounting pins are configured to provide clearance to the sighting mechanism on the firearm.

Improvements in a less-lethal force device are disclosed. The less-lethal projectile device generally comprising a projectile, such as a rubber-encapsulated metal block, that is mated to a docking base by way of a mounting pins or base. The projectile may be made with a cavity located in its rearward section for enabling the projectile to fit onto the mounting pins portion of the docking base through compression or interference fit. The projectile captures a fired bullet and is propelled along the original path of the bullet at a less lethal velocity. The disclosed system results in converting a normally lethal weapon into a less-lethal blunt impact system. The mounting pins are configured to provide clearance to the sighting mechanism on the firearm.