A pipe transporter traction wheel suitable for mounting on a pipe transporter travelable along an interior surface of a pipe may include a tractor portion configured to be attached to a pipe transporter, the tractor portion having a tractor surface configured to contact an interior surface of a pipe when the pipe transporter is driven in the pipe. The tractor portion may include a harder granular material and a softer matrix material embedding the granular material. The wheel may include a hub and/or a mounting interface. A kit may be provided including one or two adapters and a wheel.

A motorized vehicle assembly includes an axle comprising a channel extending along a central axis of the axle, a socket positioned within the channel of the axle, and a motorized wheel configured to be mounted on an end the axle. The motorized wheel includes a boss configured to engage the end of the axle when the motorized wheel is mounted on the axle, an electric motor, a tire mounted on the rotor, and a plug positioned within the boss, the plug configured to engage with the socket when the motorized wheel is mounted on the axle. The electric motor includes a stator fixed to the boss and a rotor surrounding the stator, the rotor configured to rotate relative to the stator. The electric motor is configured to cause the rotor to rotate relative to the stator to cause the tire to rotate.

A ground-engaging device that is capable of sustained rolling, stable braking, secure standing, and walking. In one preferred embodiment, the invention relates to a wheeled footwear device. In another preferred embodiment, the invention relates to a wheeled footwear platform. In yet another preferred embodiment, the invention relates to a wheeled artificial foot.

A swing roller skate with a novel manufacturing process includes: an aluminum insert, a panel, an anti-wear bar, a lower bearing, an upper bearing, an insert plastic wheel fork, a PU wheel and an insert cap, wherein: the aluminum insert is injection-molded into the panel; a front portion of the panel forms a pole, a front end forms a cylinder, a rear portion forms a flat cylinder, a rear end forms a cylinder, and a middle forms a circular sheet; top side holes and bottom side holes are drilled at the front end and the rear end of the panel, and through holes are provided between the top side holes and the bottom side holes; two oval holes are drilled at a circular bottom face of the plane, the anti-wear bar is provided at two sides of a bottom face of the middle portion of the plane.

A powered skateboard having a powered wheel. The powered wheel formed of a motor within tire of the wheel. The powered wheel fixed to a truck of the powered skateboard. The powered skateboard including at least one onboard battery to provide electrical power to the powered wheel.

A swing roller skate with a novel manufacturing process includes: an aluminum insert, a panel, an anti-wear bar, a lower bearing, an upper bearing, an insert plastic wheel fork, a PU wheel and an insert cap, wherein: the aluminum insert is injection-molded into the panel; a front portion of the panel forms a pole, a front end forms a cylinder, a rear portion forms a flat cylinder, a rear end forms a cylinder, and a middle forms a circular sheet; top side holes and bottom side holes are drilled at the front end and the rear end of the panel, and through holes are provided between the top side holes and the bottom side holes; two oval holes are drilled at a circular bottom face of the plane, the anti-wear bar is provided at two sides of a bottom face of the middle portion of the plane.

A self-propelled skateboard with at least one front wheel, a rear wheel, and a board, that is propelled without the rider's foot touching the ground. A driving force is generated the rider's weight is continuously shifted up and down in synchrony with the rocking motion of the eccentrically mounted rear wheel, which causes the board to be repeatedly pushed down and bounced back. Mounting multiple axles and one-way sprag clutch bearings on the rear wheel allows the rider to propel the board up inclined surfaces and to stop his/her motion and rest on the board, yet keep the skateboard continuously running.

A self-propelled skateboard with at least one front wheel, a rear wheel, and a board, that is propelled without the rider's foot touching the ground. A driving force is generated the rider's weight is continuously shifted up and down in synchrony with the rocking motion of the eccentrically mounted rear wheel, which causes the board to be repeatedly pushed down and bounced back. Mounting multiple axles and one-way sprag clutch bearings on the rear wheel allows the rider to propel the board up inclined surfaces and to stop his/her motion and rest on the board, yet keep the skateboard continuously running.

Disclosed is a power-driven shoe device, comprising a shoe sole (1), wherein a plurality of rotating wheels (2) are arranged below the shoe sole (1); an electric motor (3) is further provided at a lower part of the shoe sole (1); an output end of the electric motor (3) is connected to a transmission device; the transmission device is in driving connection with the rotating wheels (2); rotating wheel brackets (6) for having the rotating wheels (2) mounted thereon are arranged on two sides of a lower side surface of the shoe sole (1); and the transmission device comprises a driving wheel (4), a multistage deceleration structure and a planetary speed reducer, the multistage deceleration structure being disposed, in a lengthwise direction of the shoe sole (1), on the rotating wheel brackets (6).

A one-sided inline skate frame for an inline skate includes a wheel mounting portion that rotatably mounts a plurality of inline skate wheels on one side of the wheel mounting portion. A box beam sidewall extends up from the wheel mounting portion. The box beam sidewall includes an outer wall section, an inner wall section, an upper wall section, and a lower wall section. The wall sections define a channel through the box beam sidewall. A forward base attachment member extends from an upper, forward portion of the box beam sidewall, and a rearward base attachment member extends from a rearward portion of the box beam wall. The forward and rearward based attachment members are configured for mounting a skate base to the frame.