A linear magazine for an air gun advances upon actuation of a cocking mechanism. The magazine carries multiple projectiles for the air gun and translates perpendicularly to the bore (i.e., barrel) of the air gun to advance to the next projectile. The magazine places a series of projectiles in line with the bore of the gun while serving as a chamber for the projectile and gun and sealing to the air orifice and barrel bore of the air gun. In one embodiment, each hole or chamber of the linear magazine is arranged in a single row.

A linear magazine for an air gun advances upon actuation of a cocking mechanism. The magazine carries multiple projectiles for the air gun and translates perpendicularly to the bore (i.e., barrel) of the air gun to advance to the next projectile. The magazine places a series of projectiles in line with the bore of the gun while serving as a chamber for the projectile and gun and sealing to the air orifice and barrel bore of the air gun. In one embodiment, each hole or chamber of the linear magazine is arranged in a single row.

The invention belongs to a weapon namely to the automatic weapons without ammunition. Particularly it belongs to the weapons using the energy of the explosion mixture gas, flammable liquid or other mixture in the combustion chamber as a mover of bullets. A weapon without ammunition, arranged according to the bullpup scheme, contains: the barrel; the receiver in the form of a cylinder rolling in a rectangular box; the trigger mechanism; the piston for supplying combustible mixture to the combustion chamber and for cooking the compressed air in the mixing tube. This piston is connected by a rod with the piston gas tube; the cylinder full of compressed gas, flammable liquid or other mixture; the drum with several chambers of internal combustion in the form of elongated cylinders. When moving to the trunk a drum is pushed by the nozzle of the lower chamber in the rear part of the bullet and toilet it in the trunk from the top of the camera. This occurs by the rotation around its own axis and longitudinal movement along this axis; the ignition mechanism consisting of a piezoelectric element and the spark; the secondary ignition system consists of a battery and a capacitor; the venting mechanism with the gas tube and piston, in which the gases are directed toward the muzzle; the return mechanism; the multi-function ammunition cartridge of extended capacity, feeding the bullets into the machine vertically. There is a function of the butt, and when you transfer the spare magazines on the body of the soldier there is a function of armor plates.

An automatic magazine ejection structure is combinable with a toy gun body that includes an action structure and includes: a magazine receptacle, at least one pellet holder for receiving BBs or pellets, a holder latch, a pellet advancing member, a pellet-advancing elastic member, an extendible pushing rod, and at least one action driving section. When the BBs or pellets have been completely shot out, the pellet advancing member pushes the extendible pushing rod to partly project out of one side of the holder latch. Then, an operation of backward pulling the action structure synchronously drives the extendible pushing rod to move backward so as to release retaining engagement of the holder latch thereby allowing the pellet holder to automatically eject out of the magazine receptacle. As such, the operation is made simple and simulation of an operation of an actual firearm is enhanced.

An automatic magazine ejection structure is combinable with a toy gun body that includes an action structure and includes: a magazine receptacle, at least one pellet holder for receiving BBs or pellets, a holder latch, a pellet advancing member, a pellet-advancing elastic member, an extendible pushing rod, and at least one action driving section. When the BBs or pellets have been completely shot out, the pellet advancing member pushes the extendible pushing rod to partly project out of one side of the holder latch. Then, an operation of backward pulling the action structure synchronously drives the extendible pushing rod to move backward so as to release retaining engagement of the holder latch thereby allowing the pellet holder to automatically eject out of the magazine receptacle. As such, the operation is made simple and simulation of an operation of an actual firearm is enhanced.

An airgun for use with a projectile supply is described. A cam surface of the airgun and a bolt positioner of the airgun are configured so that rotation from a firing position to a reloading position causes a cam surface of the airgun to drive the bolt positioner through a passageway of the projectile supply to drive a projectile in the passageway to a position where pressurized gas in the firing location will thrust the projectile through the bore.

An airgun for use with a projectile supply is described. A cam surface of the airgun and a bolt positioner of the airgun are configured so that rotation from a firing position to a reloading position causes a cam surface of the airgun to drive the bolt positioner through a passageway of the projectile supply to drive a projectile in the passageway to a position where pressurized gas in the firing location will thrust the projectile through the bore.

A toy launcher with a drum magazine assembly that has a rotatable drum portion mounted for rotation, with a rear plate and a central support with an opening for a support axle. A ring of projectile holders is connected to the rear plate, with each projectile holder holding at least two projectiles arranged in a generally radially stacked configuration. Generally radially extending walls are located between adjacent projectile holders. Each of the projectile holders includes a slot on a radially inner side into which a projectile biasing arm extends at a projectile launch position. A pusher is located in the housing adjacent to the projectile launch position. Drive wheels are positioned in front of the drum magazine assembly at the projectile launch position. The drive wheels are motorized so that they rotate to propel a projectile pushed from the drum between the drive wheels for launching the projectile.

A toy launcher with a drum magazine assembly that has a rotatable drum portion mounted for rotation, with a rear plate and a central support with an opening for a support axle. A ring of projectile holders is connected to the rear plate, with each projectile holder holding at least two projectiles arranged in a generally radially stacked configuration. Generally radially extending walls are located between adjacent projectile holders. Each of the projectile holders includes a slot on a radially inner side into which a projectile biasing arm extends at a projectile launch position. A pusher is located in the housing adjacent to the projectile launch position. Drive wheels are positioned in front of the drum magazine assembly at the projectile launch position. The drive wheels are motorized so that they rotate to propel a projectile pushed from the drum between the drive wheels for launching the projectile.

A shaking bullet chain structure of a toy gun is provided. The toy gun has a gun body and an action. The structure includes a fixing base, a slider, a bullet chain, and a sway assembly. The fixing base is disposed beside the gun body and includes a frame and a cover. The slider is movably connected to the cover and is provided with a working trough. The bullet chain is hung on the fixing base and includes multiple bullets and a belt. One end of the sway assembly is pivoted to the frame, and another end is connected to an insert rod. The insert rod penetrates a bullet and the working trough. When the action reciprocates in the gun body, the action is configured to drives the slider to move therewith to further drive the bullet chain to shake by the working trough pushing the insert rod.