The present disclosure discloses a folding device and a scooter having the folding device. The folding device includes: a first folding seat and a second folding seat arranged opposite to each other and rotatably coupled to each other, the first folding seat being located above the second folding seat; a first locking assembly rotatably coupled to the second folding seat, the first locking assembly being rotatable between a first position and a second position; a second locking assembly configured to clamp or release the first folding seat and the first locking assembly; and a reset member coupled to at least one of the first locking assembly and the second locking assembly.

In some embodiments, an electric scooter comprises a deck configured to support a rider, front and rear wheels, a handlebar assembly that includes a handlebar, a left handle, and a right handle, a steering column that includes a steering tube and the handlebar assembly, and an electric motor configured to provide mechanical power to at least one of the front and the rear wheels. One or more of the steering column, steering tube, handlebar assembly, handlebar, left handle, right handle, and deck can be configured to be detachable and comprise one or more rechargeable battery packs. In addition, one or more of the steering column, steering tube, handlebar assembly, handlebar, left handle, right handle, and deck can be configured to receive one or more removable rechargeable batteries.

A scooter folding mechanism includes a bottom plate, an inclined rod, a limiting mechanism, a double-lock catch, a limiting plate rotatably arranged on the bottom plate, and a pedal rotatably arranged on the limiting plate. The inclined rod is rotatably arranged on the bottom plate. The limiting mechanism includes unfolding and folding clamping slots arranged on the inclined rod, a limiting piece and a return spring arranged on the limiting plate and matched with the unfolding or folding clamping slots. The return spring is configured to drive the limiting piece to engage with the unfolding or folding clamping slots. The unfolding and folding clamping slots are distributed circumferentially around a first shaft rod. The double-lock catch includes a double-lock block rotatably arranged on the inclined rod and a double-clamping groove arranged on the pedal and matched with the double-lock block.

A human powered reciprocal motion drive comprising: two independently driven drive assemblies for interchangeably operating in driving and return strokes, each drive assembly comprising: (a) a spiral cone; (b) a driving cable, a first end of the cable is connected to a first winding group on the spiral cone, and a second end of the same driving cable is connected to a second winding group on the same spiral cone; (c) a pedal which is attached to said driving cable; and (d) a gear assembly for defining a ratio between the number of revolutions in said first winding group and the number of revolutions in said second winding group, thereby to define an operative position along the thread of the spiral cone; the system further comprising a reciprocal motion mechanism which, during each driving motion by one of said pedals, causes a return motion of the other pedal.

A motorized scooter, for which an operation of the motorized wheel can be controlled based on a pitch of the foot platform. A motor control unit is operable in at least one pitch control mode, in which the operation of the motorized wheel is based upon the pitch of the foot platform, and a drive mode, in which the user controls the operation of the motorized wheel via a user input interface, in the manner of a conventional motorized scooter.

The invention relates to a snow scooter (100), which includes—a frame (10) comprising a first end (23) and a second end (24), the frame (10) forming a standing platform (25) for a user (102),—a steering column (21) joined to the first end (23) of the frame (10) in an articulated manner for steering the snow scooter (100),—a steering runner (8) joined to the lower end (28) of the steering column (21) for supporting the snow scooter (100) on a surface of a substrate (104),—a track drive unit (14) connected to the second end (24) of the frame (10) for supporting the snow scooter (100) on the snow (104) and for transmitting thrust to the surface of the substrate (104),—an electric motor (2) for driving the track drive unit (14), arranged inside the track drive unit (14), and—a battery (11) for storing electricity for the electric motor (2). The frame (10) includes a battery space (32) formed in the frame (10) for the battery (11), the battery space (32) being formed together with the first end (23) of the frame (10) in front of the track drive unit (14) in direction of travel of the snow scooter (100) so as to direct weight of the battery (11) onto the steering runner (8) in order to improve steerability.

A wheel module for a vehicle, in particular for an electric motorcycle or electric scooter, includes a wheel axle and a wheel. The wheel having a wheel rim and said wheel rim being rotatably mounted on the wheel axle; and including a brake device for the wheel. The brake device having a brake pad and a brake disc for co-operating with the brake pad, said brake disc being axially movable in order to brake the wheel.

A ride-on vehicle, such as for a child, includes a vehicle body and one or more wheels that support the vehicle body relative to a surface. At least one of the wheels includes a hub motor arrangement that provides a drive torque for propelling the vehicle. The hub motor arrangement includes a housing defining an interior space. An axle or other mounting element(s) define an axis of rotation of the housing. Preferably, the axle or other mounting element(s) do not pass completely through the housing. A motor drives the housing through a transmission. Preferably, the motor is a standard, compact motor that is positioned on the axis of rotation and can be laterally offset from a central plane of the housing. In some embodiments, a traction element is carried directly by the housing.

Electric scooter (1), with a foot rest area (2) and a loading area (3), made up of a chassis (4) with a handlebar (5) and two driving wheels (6) at a first end of the chassis (4), and comprising two electric motors connected to the driving wheels (6) with two controllers; steering control systems including an electronic sensor connected to a drive device and an electronic board connected to the electronic sensor and the two controllers, and; a support wheel (7) at a second end of the chassis, opposite the first end, having fastening points to the chassis (2) in the form of a pivot shaft (8) connected to the chassis and to a suspension fork (9).

A step sporting equipment with a double transmission mechanism, wherein a transmission mechanism and a treading mechanism are located on both sides of a frame body respectively. Each transmission mechanism at least comprises a front wheel disc, a rear wheel disc and a driving piece. Each treading mechanism is connected to the corresponding transmission mechanism. When the user treads on each treading mechanism, each treading mechanism can compel the corresponding transmission mechanism to work. In addition, as the front wheel disc and rear wheel disc are linked by a driving piece, there is higher moving phase. Therefore, with two transmission mechanisms, the dimensional discrepancy of elements resulted from tolerance can be tolerated effectively, and the step sporting equipment can remain in normal operation.