A launching system for launching light weight articles into air comprising an elongated hollow tube or cannon filled with at least one light weight article such as confetti, a female quick disconnect member, a ball valve, a male extrusion, a reservoir and a source of compressed gas. The female quick disconnect member having at least one cam lock lever at proximal end facilitates quick connection and disconnection of the elongated hollow tube and the distal end of the female quick disconnect member is connected to one end of the ball valve via a male extrusion, further the ball valve having one handle which acts as a trigger. Further top end of the reservoir is connected to other end of the ball valve and a source of compressed gas such as compressed CO2 gas cartridge which is connected to bottom end of the reservoir, wherein the source supplies compressed gas that is stored in the reservoir until the trigger of the ball valve is turned to open position allowing the compressed gas to escape from the reservoir into the elongated hollow tube, thereby launching the light weight articles into the air. The device provides single shot or multiple shots of confetti from the cannon with a single cartridge in a more safe and controlled manner.

Apparatus and methods employing dual triggered feeding of projectiles from plural or multiple magazine clips with multiple interlock features in a rapid fire toy launcher employing a clips carriage mounted for translatable movement using a carriage selector separately positions clips in line for individual projectile feeding and launch. A propelling mechanism receives projectiles from an elongated projectile checking subassembly using a reversible projectile advancing feeder with a gear combination that advances and returns a pusher extension for feeding projectiles through the clips carriage upper portion. The reversible projectile advancing feeder is positioned in the housing forward the inserted magazine clips. Triggers including a propelling mechanism trigger activates a key and a fire key is activated with a fire trigger.

In an open chamber air gun, a round is gravity fed or magnetically fed into the open chamber and falls into the magnetic flux lines of a magnet disposed at the chamber. Due to the magnet, the round is pulled securely into the chamber and then remains momentarily held in place, blocking much of the air behind it and thus increasing the air pressure driving it. When the round moves down the barrel from the breech toward the muzzle, it quickly leaves the vicinity of the magnet and the magnetic drag ceases, after which the air pressure is free to drive the round to full velocity. High rates of fire and muzzle velocities are achieved with moderate air pressure and an action with no moving parts.

In an open chamber air gun, a round is gravity fed or magnetically fed into the open chamber and falls into the magnetic flux lines of a magnet disposed at the chamber. Due to the magnet, the round is pulled securely into the chamber and then remains momentarily held in place, blocking much of the air behind it and thus increasing the air pressure driving it. When the round moves down the barrel from the breech toward the muzzle, it quickly leaves the vicinity of the magnet and the magnetic drag ceases, after which the air pressure is free to drive the round to full velocity. High rates of fire and muzzle velocities are achieved with moderate air pressure and an action with no moving parts.

A magazine gas heating structure includes a magazine body, an electricity supply device arranged in the magazine body, a heating assembly arranged in the magazine body and electrically connected with the electricity supply device, a liquid channel defined in the magazine body, and a turbulence thermal conduction element arranged in the magazine body and connected to the heating assembly. The turbulence thermal conduction element is arranged at an end of the liquid channel. As such, a user may set the magazine body into a toy gun to allow the electricity supply device to supply electrical energy to the heating assembly, so that the heating assembly heats the turbulence thermal conduction element. Pressurized fluid is conducted to pass through the turbulence thermal conduction element and efficiently absorb thermal energy from the turbulence thermal conduction element so that the pressurized fluid is converted into gas for firing the toy gun.

A magazine gas heating structure includes a magazine body, an electricity supply device arranged in the magazine body, a heating assembly arranged in the magazine body and electrically connected with the electricity supply device, a liquid channel defined in the magazine body, and a turbulence thermal conduction element arranged in the magazine body and connected to the heating assembly. The turbulence thermal conduction element is arranged at an end of the liquid channel. As such, a user may set the magazine body into a toy gun to allow the electricity supply device to supply electrical energy to the heating assembly, so that the heating assembly heats the turbulence thermal conduction element. Pressurized fluid is conducted to pass through the turbulence thermal conduction element and efficiently absorb thermal energy from the turbulence thermal conduction element so that the pressurized fluid is converted into gas for firing the toy gun.

A high capacity loader for sequentially loading a plurality of projectiles into a launcher. The loader has a first drive core, a second drive core and a load path to maintain the projectiles in a defined path around the first and second drive cores. The second drive core is rotationally connected to the first drive core. An indexing assembly is provided to index the drive cores. A drive assembly provides a rotational force for the drive cores. A magazine extends from the housing to connect the loader to the launcher and to load the projectiles into the launcher. The projectiles are individually indexed on the first and second drive cores and are free from force by adjacent projectiles.

A high capacity loader for sequentially loading a plurality of projectiles into a launcher. The loader has a first drive core, a second drive core and a load path to maintain the projectiles in a defined path around the first and second drive cores. The second drive core is rotationally connected to the first drive core. An indexing assembly is provided to index the drive cores. A drive assembly provides a rotational force for the drive cores. A magazine extends from the housing to connect the loader to the launcher and to load the projectiles into the launcher. The projectiles are individually indexed on the first and second drive cores and are free from force by adjacent projectiles.

A magazine structure for a toy gun includes a carrier (10), an active gear (20), a passive gear (30) and a loading chain (40). The active gear (20) is rotatably installed to the carrier (10). The passive gear (30) is rotatably installed to the carrier (10) and arranged at an interval with the active gear (20). The loading chain (40) surrounds the active gear (20) and the passive gear (30) and has hollow cylinders (41) and a strap (42) connecting the hollow cylinders (41).

A magazine structure for a toy gun includes a carrier (10), an active gear (20), a passive gear (30) and a loading chain (40). The active gear (20) is rotatably installed to the carrier (10). The passive gear (30) is rotatably installed to the carrier (10) and arranged at an interval with the active gear (20). The loading chain (40) surrounds the active gear (20) and the passive gear (30) and has hollow cylinders (41) and a strap (42) connecting the hollow cylinders (41).