A human-machine interaction body-sensing vehicle, including two support frames (1) relatively disposed left and right, is provided. The rotational connection between inner ends of the two support frames (1) is implemented through a rotating mechanism. A middleware (2) is disposed between the two support frames (1). The middleware (2) can facilitate disposing different functional extensions (22), so that the human-machine interaction body-sensing vehicle may be remodeled into different shapes/functions.

A child balance bike includes a bike body and a coat. The bike body includes a frame, a stem and wheels. The coat includes a main coat body and a head body, wherein the main coat body is provided with lower ends corresponding to legs of an animal, and an inside of the lower ends is provided with an end pocket and a locking portion. The main coat body and the head body are connected as a whole behind the stem, a portion of the coat behind the stem is a filling housing segment through which the head body and the main coat body penetrates and filled with a filler, and the head body is hung on the stem through the filling housing segment filled with the filler. The present invention has a simple structure and convenient operation for connecting.

A child balance bike includes a bike body and a coat. The bike body includes a frame, a stem and wheels. The coat includes a main coat body and a head body, wherein the main coat body is provided with lower ends corresponding to legs of an animal, and an inside of the lower ends is provided with an end pocket and a locking portion. The main coat body and the head body are connected as a whole behind the stem, a portion of the coat behind the stem is a filling housing segment through which the head body and the main coat body penetrates and filled with a filler, and the head body is hung on the stem through the filling housing segment filled with the filler. The present invention has a simple structure and convenient operation for connecting.

A cover assembly for a component includes a base configured to be fixedly mounted to the component. A plurality of magnets are disposed at the base and a cover is configured to magnetically detachably attach at the base when the base is fixedly mounted to the component.

An interactive system and method for virtual ride-sharing with electric vehicle allows a vehicle operator to operate the electric vehicle, like an electric scooter, while simultaneously interacting with network users to share a riding experience through a social media site and the Internet directly from the electric vehicle. An in-vehicle camera captures vehicle data and posts vehicle data to a social media site. The vehicle operator performs social networking functions like: uploading content, downloading content, posting riding images, livestreaming content, and interacting with others on social media while operating electric vehicle. The electric vehicle comprises a step-through frame and is operable as a plug-in electric vehicle having electricity stored on board in a rechargeable battery to drive an electric motor. The vehicle has a slim aesthetic design, an aerodynamic manual brake fin, a mobile communication device holder, and an accelerator handle and a brake handle differentiated by color.

A straddle type vehicle 1 having at least one reflecting portion 30 for reflecting a radar wave transmitted from a radar equipment. The reflecting portion 30 is provided on a cap member 40 mounted on a rear end portion 9b of an exhaust pipe 9, and the reflecting portion 30 is arranged below left and right tail lights 19 when viewed from a rear side of a vehicle body.

A leg actuator mechanism, a method of manufacturing the leg actuator mechanism, and a doll implementing a leg actuator mechanism is provided. The leg actuator includes an upper leg mechanism comprising a hip end and an opposing knee end. The leg actuator also includes a lower leg mechanism comprising a first end and an opposing second end, wherein the first end of the lower leg portion is operably coupled to the knee end of the upper leg portion. The leg actuator further includes a follower mechanism. The follower mechanism includes a mounting defining a follower pathway configured to receive a follower joint. The follower mechanism also includes an upper follower connector and a lower follower connector. The follower mechanism moves at least one of the upper leg mechanism or the lower leg mechanism when activated.

A toy exhaust device (10) for attachment to a rear stay (11) of the frame of a bicycle, the device (10) comprises an elongate body unit (13) having formations (14, 15) thereon shaped so that the body unit (13) is locatable against the surface (16) of the rear stay 11, which surface (16) faces out from the frame, an exhaust pipe (17) extending from the body unit (13) to the rear of the frame and away therefrom, when the body unit (13) is attached thereto. The device (10) is symmetrically disposed about a plane of division (18) of the device (10), in which plane of division the longitudinal axis of the body unit (13) lies, and such that, in use, when an exhaust device (10) is attached to each side of the frame one device (10) will be a mirror image of the other device (10).

Systems, devices, and methods for a scooter (100) having a front portion (108) and a deck (116) for a user to stand on; and a three-dimensional character (110) disposed on the front portion of the scooter, where the three-dimensional character creates a perspective of riding on or in the three-dimensional character for the user on the deck.

A powered wheeled riding device is configured to receive left and right foot inputs from a user and in response control a left motor and a right motor to move respective left and right wheels forwardly and backwardly consistent with the left and right foot inputs in order to steer the device without changing a direction of the wheels relative to a frame of the riding device. The riding device has at least one rear wheel that is not powered. The rear wheel is mounted on a wheel mount that rotates freely about a vertical axis so that the rear wheel freely is directed in any direction.