A simple, glue-free movable track model with a dual-pin structure comprises an intermediate connecting component (1), a track shoe (2), elastic pin bushes (58) and an auxiliary clamp, an elastic opening (50) is formed on a rotating shaft hole of the intermediate connecting component (1), and the intermediate connecting component (1) is spliced, in a snap-fit manner, with an intermediate rotating shaft (51) of the track shoe (2) through the elastic opening (50); back-off dowels (21) are arranged at the both ends of the track shoe (2) and are spliced with the elastic pin bushes (58) so that the elastic pin bushes (58) can be fit into the back-off dowels (21) and then securely engaged. The movable track model can realize one-time assembly, reduce manufacturing difficulty and improve manufacturing efficiency.

A simple, glue-free movable track model with a dual-pin structure comprises an intermediate connecting component (1), a track shoe (2), elastic pin bushes (58) and an auxiliary clamp, an elastic opening (50) is formed on a rotating shaft hole of the intermediate connecting component (1), and the intermediate connecting component (1) is spliced, in a snap-fit manner, with an intermediate rotating shaft (51) of the track shoe (2) through the elastic opening (50); back-off dowels (21) are arranged at the both ends of the track shoe (2) and are spliced with the elastic pin bushes (58) so that the elastic pin bushes (58) can be fit into the back-off dowels (21) and then securely engaged. The movable track model can realize one-time assembly, reduce manufacturing difficulty and improve manufacturing efficiency.

A system and method is provided for a toy race track. Preferred embodiments of the present invention operate in conjunction with a vehicle affixed to a track, wherein the track is supported in relation to at least one fixed surface via a plurality of support structures. In one embodiment, the track comprises a plurality of flexible sections, allowing a user to construct a track resembling a rollercoaster, having steep curves, upside-down portions, etc. In one embodiment, the vehicle includes a plurality rollers that can be used to both affix the vehicle to the track and propel the vehicle along the track. By affixing the vehicle to the track, the vehicle is prevented from leaving the track during extreme situations (e.g., steep curves, upside-down portions, etc.).

A system and method is provided for a toy race track. Preferred embodiments of the present invention operate in conjunction with a vehicle affixed to a track, wherein the track is supported in relation to at least one fixed surface via a plurality of support structures. In one embodiment, the track comprises a plurality of flexible sections, allowing a user to construct a track resembling a rollercoaster, having steep curves, upside-down portions, etc. In one embodiment, the vehicle includes a plurality rollers that can be used to both affix the vehicle to the track and propel the vehicle along the track. By affixing the vehicle to the track, the vehicle is prevented from leaving the track during extreme situations (e.g., steep curves, upside-down portions, etc.).

A drift motorcycle includes a body and an advancing unit provided on the body and configured to provide advancing power for the body, and the body is further provided with a tilting unit and a transverse moving unit. The tilting unit is movably mounted on the body, and two ends of the tilting unit extend from two sides of the body to control the body to be switched between an upright state and a tilted state. The transverse moving unit is arranged at two sides of the body, and the transverse moving unit is configured to be in contact with a driving surface to generate a transverse power in a width direction of the body when the tilting unit controls the body to be switched to the tilted state.

The purpose of the present invention is to provide a driving toy and a playing device using same, the driving toy being provided with auxiliary wheels for guiding the driving toy to travel along a track, and capable of travelling on various tracks by allowing the auxiliary wheels to be installed by changing the positions thereof according to the type of tracks.

The purpose of the present invention is to provide a driving toy and a playing device using same, the driving toy being provided with auxiliary wheels for guiding the driving toy to travel along a track, and capable of travelling on various tracks by allowing the auxiliary wheels to be installed by changing the positions thereof according to the type of tracks.

A treaded traction device for model vehicles is provided. The treaded traction device includes a biasing assembly and a tensioning assembly. The biasing assembly includes a first bias support fixed relative to a vehicle hub and a second bias support fixed relative to a traction hub. The biasing assembly also includes a coil and a dampener attached to the first and second bias supports. The treaded traction device is biased to result in one end being lower than another end. The tensioning assembly includes an idler wheel and a first and second tension support. The tension supports may be rotated to move the idler wheel, releasing tension on a surrounding tread. When the tension is released, the surrounding tread may be removed or replaced.

A treaded traction device for model vehicles is provided. The treaded traction device includes a biasing assembly and a tensioning assembly. The biasing assembly includes a first bias support fixed relative to a vehicle hub and a second bias support fixed relative to a traction hub. The biasing assembly also includes a coil and a dampener attached to the first and second bias supports. The treaded traction device is biased to result in one end being lower than another end. The tensioning assembly includes an idler wheel and a first and second tension support. The tension supports may be rotated to move the idler wheel, releasing tension on a surrounding tread. When the tension is released, the surrounding tread may be removed or replaced.

Provided are examples of a radio controlled vehicle infrared combat system and methods of gameplay for radio controlled vehicles. In one aspect, the system is comprised of a 38 KHz IR transmitter, 38 KHz IR filtered receiver, an audio/visual display, and a processing unit. The system accepts signals from both the IR receiver and the vehicles control receiver and manipulates the control output to the vehicle to simulate damage. When firing, the IR transmitter is enabled and disabled. The processing unit disables the IR receiver when the IR transmitter is engaged to avoid hitting its own receiver. The processing unit has user-adjustable settings to allow for use in various types of RC vehicles including land vehicles, RC aircraft, and drones.