A jewelry display includes a ferromagnetic planar substrate and a bracket configured to be attached to a wall. The bracket has at least one wall engagement surface disposed along an inner surface and at least one ferromagnetic planar substrate engagement surface disposed along an outer surface. An adhesive backed non-slip covering adhesively attaches to the substrate engagement surface. At least one bracket magnet is disposed on the inner surface of the bracket. A plurality of jewelry fixtures are configured to be removably attached to the front surface of the ferromagnetic planar substrate, each jewelry fixture having at least one permanent fixture magnet and a jewelry holding structure, where the at least one permanent fixture magnet of each jewelry fixture is magnetically attracted to the ferromagnetic planar substrate.

A device for attachment-detachment of a slide for toy gun only by operating a single lever without using any tool, includes a toy gun body, a slide at an upper part of the toy gun body while covering a barrel, and slidingly movable in directions toward the barrel and rear side of the toy gun, a takedown lever disposed on the toy gun body surface at a boundary with the slide, and rotatingly movable along the toy gun body surface, and a slide block crank that comes in contact with a slide block abutment portion of a shaft support portion of the slide to prevent the slide from moving toward the rear end side, and moves in muzzle/non-muzzle directions accompanying with the rotating motion of the takedown lever. The slide block crank extends closer to a muzzle in moving in the muzzle direction than in moving in the non-muzzle direction.

A device for attachment-detachment of a slide for toy gun only by operating a single lever without using any tool, includes a toy gun body, a slide at an upper part of the toy gun body while covering a barrel, and slidingly movable in directions toward the barrel and rear side of the toy gun, a takedown lever disposed on the toy gun body surface at a boundary with the slide, and rotatingly movable along the toy gun body surface, and a slide block crank that comes in contact with a slide block abutment portion of a shaft support portion of the slide to prevent the slide from moving toward the rear end side, and moves in muzzle/non-muzzle directions accompanying with the rotating motion of the takedown lever. The slide block crank extends closer to a muzzle in moving in the muzzle direction than in moving in the non-muzzle direction.

A barrel catch of a toy gun has a barrel through hole with diameter larger than outer circumference of the barrel so that the barrel penetrates through hole center. The barrel catch includes a barrel fitting portion fitted/attached to the barrel on the inner circumference of the hole opposite to the pressing portion exposed from an opening in a barrel attachment portion of a toy gun body. The barrel catch is housed in a housing portion of the toy gun body slidably in the direction defined by the pressing portion and the opposite portion of the pressing portion. The barrel includes a barrel catch fitting portion fittable to the barrel fitting portion of the barrel catch upon penetration of the barrel through the barrel catch. The barrel slidably penetrates the barrel through hole of the barrel catch in the direction defined by the pressing portion and the opposite portion.

A toy projectile launcher capable of launching a substantially large number of projectiles, for example, toy foam darts. To increase the number of projectiles that can be launched between reloadings, the projectiles are housed in a hopper. The hopper may include a movable rear wall which facilitates the loading of a large number of projectiles into the hopper at one time. A portion of a side wall of the hopper may be agitated to loosen the projectiles within the hopper so that they will drop into a firing chamber of the launcher more easily. A cover for the hopper may have a collapsible ceiling to prevent the projectiles from becoming improperly oriented in the hopper as they are being loosened by the agitated portion of the side wall of the hopper. A rotating track and a push rod may cooperate to advance projectiles from a firing chamber of the launcher.

A jewelry display includes a ferromagnetic planar substrate and a bracket configured to be attached to a wall. The bracket has at least one wall engagement surface disposed along an inner surface and at least one ferromagnetic planar substrate engagement surface disposed along an outer surface. An adhesive backed non-slip covering adhesively attaches to the substrate engagement surface. At least one bracket magnet is disposed on the inner surface of the bracket. A plurality of jewelry fixtures are configured to be removably attached to the front surface of the ferromagnetic planar substrate, each jewelry fixture having at least one permanent fixture magnet and a jewelry holding structure, where the at least one permanent fixture magnet of each jewelry fixture is magnetically attracted to the ferromagnetic planar substrate.

The invention is directed to a tension gun for firing arrows. The tension gun is comprised of a stock, a trigger, a pistol grip, and a forearm which are configured in a manner which is similar to a conventional crossbow. The bow arms are removed from the design, and replaced by a pair of coaxial coil springs and other tension multipliers within the forearm, which propel the arrow. A folding handle at the forward end of the forearm is provided for carrying the tension gun.

The present invention is a toy projectile and launcher system. The lightweight projectile has an exterior surface symmetrically disposed about an imaginary longitudinal axis. The launcher has a holding cavity composed of three semi-flexible sides, two of which sides apply counter-acting forces to the surface of the projectile along the imaginary longitudinal axis. The launcher has a mechanism for applying a motive force perpendicular to the counter-acting force vectors and perpendicular to the projectile's imaginary longitudinal axis. When the motive force is applied to the projectile, the semi-flexible sides deform and return to pre-deformation positions, thereby launching the projectile into flight.

An exhaust system for a combustion engine vehicle includes an exhaust pipe extending between an exhaust inlet disposed opposite an exhaust outlet. The exhaust inlet and exhaust outlet are in fluidic communication with one another. The exhaust inlet is configured to receive an exhaust gas produced by an internal combustion engine of the combustion engine vehicle. A second pipe has an air inlet extending from and connected to the exhaust pipe. The second pipe is configured to be in fluidic communication with the exhaust outlet. The air inlet is configured to receive an outside flow of air. The exhaust gas from the combustion engine vehicle and the outside flow of air captured by the air inlet when the combustion engine vehicle is moving forward are configured to be combined and to cooperatively exit out the exhaust outlet.

A simulated shaking bullet chain type toy gun equipped with a bullet chain is provided. The toy gun includes a gun body, an actuated member, and a bolt assembly and a reciprocating assembly both reciprocatingly disposed in the gun body. The reciprocating assembly is linked to the bolt assembly and has a trigger portion reciprocating with the reciprocating assembly to produce a moving path. The actuated member is installed in the gun body and located on the moving path, and connected to the bullet chain. The reciprocating assembly reciprocates to trigger the actuated member by the trigger portion, and the actuated member links the bullet chain to shake, so as to achieve a high degree of simulation of the shaking effect of the bullet chain.