An activity box includes two pairs of wheels having blind holes, two axles having two ends releasably insertable into the blind holes, and a box defining a space having a defined volume sufficiently large to fit the axles. The wheels include a first magnetically attractable component. The axles include a second magnetically attractable component secured at each end of each axle. The axles have a length spanning a width of the box, which has two pairs of through holes on two opposing sides to accommodate the axles, such that the axles are threaded through the through holes. The two pairs of wheels are rotatably attached to the box by magnetically coupling the first magnetically attractable component to the second magnetically attractable component, such that the activity box is configured to be used as a cart that can be rolled over a surface.

A remote control vehicle comprises light fixtures, which when operated at high speeds, can create a neon glow in its wake. The remote control vehicle has at least eight distinct color combinations, can spin and flip in three hundred sixty degree stunts, and travel through all terrains. A remote control is responsible for remotely communicating aspects related to the control of the remote control vehicle, such as speed and drifting.

A suspension system for radio-controlled vehicles improves stability and traction. The suspension system includes a chassis, a motor pod plate, a shock absorption system, an upper pitch suspension link, a lower pitch suspension link, a left yaw suspension link, and a right yaw suspension link. The shock absorption system is used to reduce vibrations caused by impacts onto a radio-controlled vehicle. The upper pitch suspension link and the lower pitch suspension link allow the motor pod plate to pivot back and forth about a pitch axis of the chassis in order to increase stability and traction. The left yaw suspension link and the right yaw suspension link allow the motor pod plate to pivot back and forth about a yaw axis of the chassis in order to further increase stability and traction.

A suspension shock absorber for remote control (RC) cars includes an inner tube and an outer tube coaxial with each other. The hollow area inside the inner tube defines a hollow chamber where a piston and a piston rod slidably moves. A shock cap seals the top of the inner tube and the outer tube. The space between the coaxial inner tube and outer tube is used as an inter-tube bypass route through which bypass oil flows. The shock cap has a bypass passage connecting the inter-tube bypass route with the upper portion of the hollow chamber. A bypass valve in line with the co-axis of the inner tube and the outer tube is disposed on top of the shock cap and used to regulate the amount of oil flow through the bypass passage.

A construction toy system including a plurality of modular assembly pieces and a plurality of pivotal-rods. Each of the pivotal-rods includes an identical engaging rod-tips on each end thereof. Each of the assembly pieces have identical thickness and a circumferential edge. A number of straight receiving grooves are formed, inwardly, at the circumferential edge, wherein the identical thickness is predesigned to fittingly fill the gap formed by the straight receiving groove. A select assembly piece is configured to interlock with another assembly piece via the straight receiving grooves of both selected assembly pieces. A selected assembly pieces may have at least one identical circular through hole formed at a central location with respect to the lateral dimension of the assembly pieces, wherein an engaging rod-tip of a selected pivotal-rod may engage with a selected circular through hole of the selected assembly piece.

A transformable robot comprises an arm structure, a leg structure and a head of the robot which are fixed to a ribcage structure. The arm structure includes a left arm and a right arm; the leg structure includes a left leg and a right leg; the ribcage structure includes a first steering gear fixed on an upper part of a second fixing frame; a rotating output shaft of the first steering gear successively passes through a top wall of the second fixing frame and a first backing plate to fixedly connected to a first steering wheel fixed on a first rotating frame; the first steering wheel is provided with an arc-shaped limited opening; a limited column on the first backing plate is movably passed through the limited opening; the rotating output shaft of the first steering gear rotates to drive the first rotating frame to rotate.

The present invention relates to a toy vehicle assembly. The assembly includes a first toy vehicle and a second toy vehicle. Furthermore, the assembly includes a connector for connecting the toy vehicles. Advantageously, the toy vehicles may be connected together so that a player may play with both vehicles at the same time with one hand only to thereby significantly enhance the playing experience.

Described herein is a method for producing a toy, in particular a toy car. According to a preferred embodiment, said method envisages implementing a process of injection moulding that envisages a first step of forming the base body (40) of the toy car, and, then, a second step of forming the wheels (60), which is carried out directly on the base body formed previously. The toy car obtained is characterized in that it presents a connection that cannot be separated between the wheels and the base body.

In one aspect, there is provided a toy vehicle that includes a vehicle body, at least one motor and a plurality of wheels. The at least one motor is mounted to the vehicle body, and is sized to have a selected amount of torque. The plurality of wheels includes at least one driven wheel which includes at least one flip-over wheel which has an axis closer to one end of the vehicle than the other end. In an upright orientation the vehicle body extends above the plurality of wheels. The toy vehicle has a centre of gravity that is positioned, such that, application of torque from the at least one motor causes the vehicle body to drive rotation of the vehicle body about the axis of rotation from an inverted orientation over to the upright orientation.

A magnetic conductive car model includes a frame, a wheel positioned below the frame, a shell magnetically connected with the frame, a power supply arranged on the frame and a power consumption component positioned on the shell, when the frame is magnetically connected with the shell, the power supply is electrically connected with the power consumption component. The present disclosure can not only quickly and conveniently separate and assemble the shell and the frame, but also quickly and conveniently connect or disconnect a circuit between the shell and the frame, which is very convenient for maintenance and installation and improves use experiences of users.