A human-machine interaction sport vehicle including a mounting plate, a rotating structure, two wheels, a hub motor, and a balance control system is provided. The rotating structure is configured to connect a first mounting plate and a second mounting plate, and enables the first mounting plate and the second mounting plate to rotate relative to each other. The two wheels are disposed on two sides of the mounting plate and capable of rotating about the mounting plate. The hub is configured to drive the two wheels to rotate. The balance control system is connected with the hub motor and configured to control the hub motor to drive the wheels to rotate.

A human-machine interaction sport vehicle including a mounting plate, a rotating structure, two wheels, a hub motor, and a balance control system is provided. The rotating structure is configured to connect a first mounting plate and a second mounting plate, and enables the first mounting plate and the second mounting plate to rotate relative to each other. The two wheels are disposed on two sides of the mounting plate and capable of rotating about the mounting plate. The hub is configured to drive the two wheels to rotate. The balance control system is connected with the hub motor and configured to control the hub motor to drive the wheels to rotate.

A light folding scooter having a bottom plate, and two sides of the bottom plate respectively provided with a lifting handle at a center of gravity of the sides of the scooter after the scooter is folded, and a scooter head and scooter tail of the bottom plate provided with a scooter head lifting handle and a scooter tail groove matched with the scooter head lifting handle for carrying the scooter, wherein the location of the two lifting handles on the sides of the bottom plate at the center of gravity of the scooter after the scooter is folded, allows lifting of the scooter using the two bottom plate lifting handles after being folded by hand can keep balance of a scooter body, which is convenient for carrying the scooter after being folded. When two people lift the scooter, one can locate at the scooter head position to hold the scooter head lifting handle and the other can locate at the scooter tail position to hold the scooter tail groove, so that the scooter can be easily carried. After the product is folded, the occupied space of the scooter body is greatly reduced, and the scooter is convenient to be accommodated on a transportation tool.

The present disclosure provides a foot-deck device and a vehicle. The foot-deck device includes: a bracket; two deck assemblies oppositely disposed on the bracket, the two deck assemblies each including a deck and a rotating shaft, the rotating shafts being pivotally disposed on the bracket, and the decks being disposed on the rotating shafts; and a linkage mechanism, the rotating shaft of one deck assembly being coupled to the rotating shaft of the other deck assembly through the linkage mechanism, the linkage mechanism being used to cause the rotating shafts of the two deck assemblies to rotate synchronously and cause the decks of the two deck assemblies to rotate synchronously to respective folded positions or unfolded positions.

An electric vehicle includes a steering element with a handle bar element. The steering element has a hand grip portion, and at a distal end a plurality of UVC light sources producing light that is incident on the hand grip portion. The UVC light sources are coupled to a controller and a power source. A platform supports a rider of the electric vehicle. The electric vehicle includes: at least one front wheel and at least one rear wheel; an electric motor configured to provide a mechanical power to at least one of the front and rear wheels; and a battery housing configured to removably receive and hold one or more battery packs, wherein the one or more battery packs are configured to power the electric vehicle.

An electric scooter includes: an upper plate member including two roll tubes and a shaft tube pivotally connected to a standing tube and inserted into the roll tubes, the standing tube having a hooking part and a connection part disposed between the roll tubes and inserted by the shaft tube; a lower plate member including a pressing part positioning with the hooking part; two frames pivotally connected between the upper and lower plate members through bolts, each opened frame including a clip tightly covering the standing tube; a stopper disposed between the upper and lower plate members and positioning the closed frames; and a pivotal connection seat including two frame fitting members covering the tapered portions and having a quick release member, a tapered seat base having a top part combined with a cover frame of the seat cushion provided with a quick release member fixed to a positioning hole.

An electric scooter includes: an upper plate member including two roll tubes and a shaft tube pivotally connected to a standing tube and inserted into the roll tubes, the standing tube having a hooking part and a connection part disposed between the roll tubes and inserted by the shaft tube; a lower plate member including a pressing part positioning with the hooking part; two frames pivotally connected between the upper and lower plate members through bolts, each opened frame including a clip tightly covering the standing tube; a stopper disposed between the upper and lower plate members and positioning the closed frames; and a pivotal connection seat including two frame fitting members covering the tapered portions and having a quick release member, a tapered seat base having a top part combined with a cover frame of the seat cushion provided with a quick release member fixed to a positioning hole.

A leaning vehicle leaning leftward or rightward when turning left or right. The leaning vehicle include a main body, left and right front wheels, a linkage mechanism located between and supporting the left and right front wheels, and a lean actuator connected to the linkage mechanism. The lean actuator is located at least partially further rearward than the linkage mechanism, and at least partially between the left and right front wheels in a left-right direction. The leaning vehicle further has a leg shield located further rearward than the left and right front wheels, with at least a portion thereof between each of the left and right front wheels, and a leg of a driver when the driver is driving the leaning vehicle. The leg shield includes an intermediate portion covering at least a part of a left portion and a right portion of the lean-actuator.

An electric kickboard may include: a top plate of a foot plate including a receiving portion in which an electronic lock device for fixing the electric kickboard is installed; and a bottom plate of the foot plate, which is assembled to the top plate of the foot plate and fixes the electronic lock device

An electric kickboard may include: a top plate of a foot plate including a receiving portion in which an electronic lock device for fixing the electric kickboard is installed; and a bottom plate of the foot plate, which is assembled to the top plate of the foot plate and fixes the electronic lock device