A magazine for projectiles in a simulated weapon includes a housing defining an internal chamber. A gas inlet is situated at an inlet portion of the internal chamber. An outlet situated at an outlet portion of the internal chamber. The internal chamber of the housing is shaped to accommodate a series of spherical projectiles. A restraining element is positioned at the outlet portion of the internal chamber. The restraining element restrains a lead projectile of the series of projectiles against pressure from pressurized gas applied to the gas inlet. The restraining element releases the lead projectile as pressure within the internal chamber rises. The magazine can be integrated in a simulated grenade, simulated shotgun shell, and similar devices.

A magazine for projectiles in a simulated weapon includes a housing defining an internal chamber. A gas inlet is situated at an inlet portion of the internal chamber. An outlet situated at an outlet portion of the internal chamber. The internal chamber of the housing is shaped to accommodate a series of spherical projectiles. A restraining element is positioned at the outlet portion of the internal chamber. The restraining element restrains a lead projectile of the series of projectiles against pressure from pressurized gas applied to the gas inlet. The restraining element releases the lead projectile as pressure within the internal chamber rises. The magazine can be integrated in a simulated grenade, simulated shotgun shell, and similar devices.

A launcher for propelling projectiles out of a barrel using compressed gas. The receiver includes a grip with an opening for receiving a compressed gas cartridge. In some embodiments, the grip includes a door movable between an open position that allows the compressed gas cartridge to be removed from the opening, a closed position that retains the compressed gas cartridge in the opening, and an activation position where the door cooperates with a gas transfer mechanism to pierce the seal of the compressed gas cartridge to release gas. The door can be closed without piercing the seal, but a greater force can be applied to the door to pierce the seal.

An improved bug killing gun includes a compressed gas source fluidly connected to a chamber connected to a barrel. A compressed gas release mechanism is connected to the compressed gas source. A projectile storage magazine stores particulate projectiles and is located adjacent the chamber. A projectile loading mechanism moves the projectiles into the chamber from the magazine. A cocking mechanism is mechanically connected to the compressed gas source, the compressed gas release mechanism, and the projectile loading mechanism. When the gun is cocked, the projectile loading mechanism loads a quantity of the particulate projectiles into the chamber. When the compressed gas release mechanism is activated the projectiles are ejected from the chamber into the barrel and expelled from the gun. The gun optionally includes a laser sighting mechanism. The battery operated laser sighting mechanism may be removably attached to the barrel or permanently attached with an integral, trigger operated switch.

A latching magazine including a latch member and a safety closure that engages the latch member and blocks movement of the latch member. An air gun including a barrel block with a cruciform shaped projectile hopper that includes a top recess that is narrower than a projectile diameter and a top recess and a bottom recess that is wider than the projectile diameter. An assembly for use with an air gun that includes a housing that contains a plurality of double-stacked projectiles, a storage portion that is wider than at least one and a half projectile diameters, a follower with a first surface and a head that includes a second surface that is orientated at an obtuse angle relative to the first surface with both surfaces engaging projectiles in the storage portion.

A compressed gas gun is provided, wherein the body houses a firing assembly and an internal, built-in projectile feed mechanism. The projectile feed mechanism is preferably formed as a rear or butt stock of the compressed gas gun. The projectile feed mechanism preferably feeds projectiles to the firing assembly via a feed ramp having an S-shaped transition portion. The compressed gas gun preferably includes a removable top feed rail assembly that can be removed to expose the interior of the compressed gas gun body for field stripping. Central control circuitry is preferably provided for controlling both the firing assembly and the projectile feed mechanism.

A compressed gas gun is provided, wherein the body houses a firing assembly and an internal, built-in projectile feed mechanism. The projectile feed mechanism is preferably formed as a rear or butt stock of the compressed gas gun. The projectile feed mechanism preferably feeds projectiles to the firing assembly via a feed ramp having an S-shaped transition portion. The compressed gas gun preferably includes a removable top feed rail assembly that can be removed to expose the interior of the compressed gas gun body for field stripping. Central control circuitry is preferably provided for controlling both the firing assembly and the projectile feed mechanism.

An improved bug killing gun includes a compressed gas source fluidly connected to a chamber connected to a barrel. A compressed gas release mechanism is connected to the compressed gas source. A projectile storage magazine stores particulate projectiles and is located adjacent the chamber. A projectile loading mechanism moves the projectiles into the chamber from the magazine. A cocking mechanism is mechanically connected to the compressed gas source, the compressed gas release mechanism, and the projectile loading mechanism. When the gun is cocked, the projectile loading mechanism loads a quantity of the particulate projectiles into the chamber. When the compressed gas release mechanism is activated the projectiles are ejected from the chamber into the barrel and expelled from the gun. The gun optionally includes a laser sighting mechanism. The battery operated laser sighting mechanism may be removably attached to the barrel or permanently attached with an integral, trigger operated switch.

A magazine for projectiles in a simulated weapon includes a housing defining an internal chamber. A gas inlet is situated at an inlet portion of the internal chamber. An outlet situated at an outlet portion of the internal chamber. The internal chamber of the housing is shaped to accommodate a series of spherical projectiles. A restraining element is positioned at the outlet portion of the internal chamber. The restraining element restrains a lead projectile of the series of projectiles against pressure from pressurized gas applied to the gas inlet. The restraining element releases the lead projectile as pressure within the internal chamber rises. The magazine can be integrated in a simulated grenade, simulated shotgun shell, and similar devices.

A magazine for projectiles in a simulated weapon includes a housing defining an internal chamber. A gas inlet is situated at an inlet portion of the internal chamber. An outlet situated at an outlet portion of the internal chamber. The internal chamber of the housing is shaped to accommodate a series of spherical projectiles. A restraining element is positioned at the outlet portion of the internal chamber. The restraining element restrains a lead projectile of the series of projectiles against pressure from pressurized gas applied to the gas inlet. The restraining element releases the lead projectile as pressure within the internal chamber rises. The magazine can be integrated in a simulated grenade, simulated shotgun shell, and similar devices.