A suppressor for a multi-barrel weapon system includes an adapter baffle configured to engage the weapon system and receive the muzzles of the barrels, a plurality of extension baffles configured to be aligned with and arranged in a stack on the adaptor baffle, and an endcap baffle configured to align with the extension baffles and engage the final extension baffle in the stack. A plurality of projectile apertures in each baffle aligns with the muzzles to define a plurality of parallel bullet paths. Each projectile aperture can be in fluid communication with each other projectile aperture. Each extension baffle can include a plurality of internal vanes configured to circulate propellant gasses emitted from the muzzles of each barrel within an interior space at least partially defined by the extension baffle. The adapter baffle can define an expansion space in which propellant gases emitted from each muzzle comingle during discharge of the weapon system.

A launching device comprising at least two tubes intended to receive an ammunition round and each secured to a mount, the mounts being carried by a base, each tube being orientable in elevation and in bearing by motors, a first motor ensuring the pointing in bearing of the two tubes simultaneously and a second motor ensuring the pointing in elevation of the two tubes simultaneously. The bearing pointing axes of the two tubes are parallel to each other and each mount includes a sleeve carrying the tube, the sleeve of each mount being mounted so as to pivot in elevation relative to a fork, the fork being itself mounted so as to pivot in bearing relative to the base.

A launching device comprising at least two tubes intended to receive an ammunition round and each secured to a mount, the mounts being carried by a base, each tube being orientable in elevation and in bearing by motors, a first motor ensuring the pointing in bearing of the two tubes simultaneously and a second motor ensuring the pointing in elevation of the two tubes simultaneously. The bearing pointing axes of the two tubes are parallel to each other and each mount includes a sleeve carrying the tube, the sleeve of each mount being mounted so as to pivot in elevation relative to a fork, the fork being itself mounted so as to pivot in bearing relative to the base.

A suppressor for a multi-barrel weapon system includes an adapter baffle configured to engage the weapon system and receive the muzzles of the barrels, a plurality of extension baffles configured to be aligned with and arranged in a stack on the adaptor baffle, and an endcap baffle configured to align with the extension baffles and engage the final extension baffle in the stack. A plurality of projectile apertures in each baffle aligns with the muzzles to define a plurality of parallel bullet paths. Each projectile aperture can be in fluid communication with each other projectile aperture. Each extension baffle can include a plurality of internal vanes configured to circulate propellant gasses emitted from the muzzles of each barrel within an interior space at least partially defined by the extension baffle. The adapter baffle can define an expansion space in which propellant gases emitted from each muzzle comingle during discharge of the weapon system.

A suppressor for a multi-barrel weapon system includes an adapter baffle configured to engage the weapon system and receive the muzzles of the barrels, a plurality of extension baffles configured to be aligned with and arranged in a stack on the adaptor baffle, and an endcap baffle configured to align with the extension baffles and engage the final extension baffle in the stack. A plurality of projectile apertures in each baffle aligns with the muzzles to define a plurality of parallel bullet paths. Each projectile aperture can be in fluid communication with each other projectile aperture. Each extension baffle can include a plurality of internal vanes configured to circulate propellant gasses emitted from the muzzles of each barrel within an interior space at least partially defined by the extension baffle. The adapter baffle can define an expansion space in which propellant gases emitted from each muzzle comingle during discharge of the weapon system.

A toy dart gun is provided including a gun shell, a trigger assembly, and a compression assembly. The trigger assembly includes a swing arm coupled to the gun shell and movable between a safe position and a fire position, and a swing arm pusher extending from the gun shell and having an inclined surface. The compression assembly includes a compression chamber positioned within the gun shell and having a barrel opening and an opposite holder opening, and a plunger slidably insertable through the holder opening and movable between a retracted position and an extended position. As the swing arm moves toward the fire position, the swing arm engages the plunger and pulls the plunger toward the extended position. When the swing arm is in the fire position, the swing arm pusher deflects the swing arm from engagement with the plunger and the plunger is biased toward the retracted position.

A method for forming a set of gun barrels, comprises: machining an elongate key along a length of a metal billet; mounting the metal billet on a machining jig, clamped along the key; performing CNC milling operations on the mounted metal billet in a 5-axis CNC milling machine to form a set of gun barrels having a pair of bores and a rib, the rib extending lengthwise proximate the elongate key; and, separating the set of gun barrels from the key along the length of the rib section. The present invention provides for significantly faster machine production with no manual handling of the workpiece throughout the milling operations. This makes the milling operations more accurate as the workpiece remains in position throughout, without reloading. Holding the workpiece along a key which runs the length of what will become the rib of the barrels avoids any loading of the workpiece in areas that need to be machined. The use of a 5-axis CNC milling machine allows for variable geometries to adjust the finished shape and configuration of the gun barrels.

A method for forming a set of gun barrels, comprises: machining an elongate key along a length of a metal billet; mounting the metal billet on a machining jig, clamped along the key; performing CNC milling operations on the mounted metal billet in a 5-axis CNC milling machine to form a set of gun barrels having a pair of bores and a rib, the rib extending lengthwise proximate the elongate key; and, separating the set of gun barrels from the key along the length of the rib section. The present invention provides for significantly faster machine production with no manual handling of the workpiece throughout the milling operations. This makes the milling operations more accurate as the workpiece remains in position throughout, without reloading. Holding the workpiece along a key which runs the length of what will become the rib of the barrels avoids any loading of the workpiece in areas that need to be machined. The use of a 5-axis CNC milling machine allows for variable geometries to adjust the finished shape and configuration of the gun barrels.

A gripless, non-lethal, self-protection weapon comprises a clamshell with top and bottom shells pivotally coupled together about a rear hinge and defining a cavity therein. The clamshell has a forward opening and the top shell has a top opening. A panel is slidably carried by the top shell and selectively covers the top opening. A nozzle is carried by the clamshell at the forward opening. A cartridge is removably positioned in the cavity. The cartridge comprises a barrel with an outlet positioned at the forward opening of the clamshell; a compressed gas vessel; and a diverter to redirect compressed gas from the compressed gas vessel in a rearward direction towards an inlet of the barrel in a forward direction.

A near-range launcher assembly for at least temporarily detaining a subject include a primary launcher carrying a first projectile, the first projectile including a pair of pellets and a tether connecting the pellets. A secondary launcher carries a second projectile. At least one power source is associated with one or both of the primary and secondary launchers. At least one control system is operably coupled to the at least one power source, the control system operable to activate the power source. At least one user input is operably coupled to the at least one control system, the user input operable to communicate with the control system based on input from the user to activate the at least one power source to expel one or both of the first projectile and the second projectile from the launchers toward the subject.