A toy projective launcher includes a launching tube; a catapulting cavity located at an end portion of the launching tube; a trigger seat located between the launching tube and the catapulting cavity; a catapulting rod, including a transverse rod having a head end extending into the catapulting cavity and a vertical rod connecting with a tail end of the transverse rod, the transverse rod being equipped with a resistance matching member; a push-pull rod, one end being equipped with a push-pull portion, the push-pull portion being contacted with the vertical rod of the catapulting rod; a catapulting rod stopper, equipped with a first through hole for the transverse rod of the catapulting rod to pass through; and a trigger connecting rod, a first end being connected with the trigger seat, and a second end being contacted with the catapulting stopper.

A toy projective launcher includes a launching tube; a catapulting cavity located at an end portion of the launching tube; a trigger seat located between the launching tube and the catapulting cavity; a catapulting rod, including a transverse rod having a head end extending into the catapulting cavity and a vertical rod connecting with a tail end of the transverse rod, the transverse rod being equipped with a resistance matching member; a push-pull rod, one end being equipped with a push-pull portion, the push-pull portion being contacted with the vertical rod of the catapulting rod; a catapulting rod stopper, equipped with a first through hole for the transverse rod of the catapulting rod to pass through; and a trigger connecting rod, a first end being connected with the trigger seat, and a second end being contacted with the catapulting stopper.

A cartridge loading mechanism of a toy revolver includes a magazine, a cylinder, a cartridge drum and a driving element. When loading bullets, the cartridge loading mechanism may be removed to load the bullets. When firing a bullet, the cylinder may be rotated to provide a high simulation. When a bullet is fired, the cylinder and the cartridge drum are rotated altogether, and the magazine disposed in the cylinder and an inner magazine tube remain still and will not rotate with the cylinder, and the inner magazine tube is aligned precisely with the barrel to improve the shooting accuracy.

A prepackaged bug gun magazine for a gas powered weapon includes a body adapted to fit within an opening in the weapon. The magazine has a first surface, a second surface and at least one chamber. The length of the chambers extends from the first surface to the second surface. A first frangible sealing membrane is removably affixed to the first surface of the body and seals the first end of the chamber. A second frangible sealing membrane is removably affixed to the second surface of the body and seals the second end of the chamber. Particulate projectiles are located within the chambers and sealed in place by the sealing membranes. An indexing system aligns the chamber with a barrel of the weapon. Discharge causes pressurized gas to breach the first membrane and impact of the particulate projectiles will breach the second membrane, permitting the projectiles to enter the barrel.

A prepackaged bug gun magazine for a gas powered weapon includes a body adapted to fit within an opening in the weapon. The magazine has a first surface, a second surface and at least one chamber. The length of the chambers extends from the first surface to the second surface. A first frangible sealing membrane is removably affixed to the first surface of the body and seals the first end of the chamber. A second frangible sealing membrane is removably affixed to the second surface of the body and seals the second end of the chamber. Particulate projectiles are located within the chambers and sealed in place by the sealing membranes. An indexing system aligns the chamber with a barrel of the weapon. Discharge causes pressurized gas to breach the first membrane and impact of the particulate projectiles will breach the second membrane, permitting the projectiles to enter the barrel.

Break barrel airguns are provided with a loading system that uses the cocking action of the break barrel type airgun to charge an energy storing device. A rotary style magazine is provided that enables multi-shot capability for the airgun. The magazin is held by a magazine holder and engages with engagement components that reduce backlash, prevent backwards rotation of the magazine, and ensure alignment of the projectile holders in the magazine with the opening of the barrel.

Break barrel airguns are provided with a loading system that uses the cocking action of the break barrel type airgun to charge an energy storing device. A rotary style magazine is provided that enables multi-shot capability for the airgun. The magazin is held by a magazine holder and engages with engagement components that reduce backlash, prevent backwards rotation of the magazine, and ensure alignment of the projectile holders in the magazine with the opening of the barrel.

A projectile launcher includes a receiver and a dual cylindrical-shaped magazine (DCM) wherein the receiver contains a propelling mechanism and an ammunition receiving port. The propelling mechanism is used for launching a projectile. The ammunition receiving port, which may be situated at bottom of the receiver, is able to receive projectiles. It should be noted that the projectile launcher can also be a gun or firearm. The DCM includes two canisters and an ammunition supply port which is situated between the two canisters. The DCM carries multiple projectiles in such a way that a first portion of projectiles moves toward the receiver against gravity for supplying projectiles from the ammunition supply port to the ammunition receiving port while a second portion of projectiles move in a direction parallel to the receiver for replenishing projectiles from the second portion of projectiles to the first portion of projectiles.

A projectile launcher includes a receiver and a dual cylindrical-shaped magazine (DCM) wherein the receiver contains a propelling mechanism and an ammunition receiving port. The propelling mechanism is used for launching a projectile. The ammunition receiving port, which may be situated at bottom of the receiver, is able to receive projectiles. It should be noted that the projectile launcher can also be a gun or firearm. The DCM includes two canisters and an ammunition supply port which is situated between the two canisters. The DCM carries multiple projectiles in such a way that a first portion of projectiles moves toward the receiver against gravity for supplying projectiles from the ammunition supply port to the ammunition receiving port while a second portion of projectiles move in a direction parallel to the receiver for replenishing projectiles from the second portion of projectiles to the first portion of projectiles.

Projectile launchers as disclosed herein comprise a reciprocating false barrel or other outwardly extended reciprocating member to cock an air pump and/or to advance a projectile magazine.