An electric vehicle includes a stem and a base with wheels. The base is at a first end of the stem, with symmetrical elements of the base opposed across a stem axis. Elements on each side include a wheel, a drive motor, a platform and pivot joints. The wheel has an axis of rotation. The drive motor is connected to the wheel. The platform is between the wheel and the stem. A first pivot joint connects the stem and the platform. A second pivot joint connects the platform and the wheel. In a first orientation, the platforms are substantially perpendicular to the stem and in a second orientation the platforms are substantially parallel to the stem. The wheel axes are substantially parallel to each other and are substantially perpendicular to the stem axis in the first orientation and the second orientation.

A vehicle includes a body and a cover rotatably connected to the body. The vehicle further includes a control bar rotatably connected to the cover. The cover is rotatable onto the body to put the cover in the stowed position from an extended position. The bar is between the cover and the body when the bar is in the stowed position.

A foldable self-supporting scooter comprises at least three wheels, a steering column, a footboard, a front axle for receiving at least one front wheel, a rear suspension for receiving at least one rear wheel, and a folding mechanism that autonomously folds the scooter, wherein a synchronization rod provides that the center of gravity of the scooter remains between the front and rear wheels at all times during the folding operation, without the need for the scooter to be held by the user and without tipping over.

A balancing vehicle includes a wheel, a bracket, a frame, a shock absorbing member, pedals, a control rod, and a handle. The bracket is fixed to an axle of the wheel. The frame is slidably connected to the bracket through a slider fixedly connected to the bracket, so as to allow the frame to slide relative to the bracket. The shock absorbing member is disposed between the frame and the bracket, and is configured to cushion relative movement between the frame and the bracket. The pedals are fixed to the frame. The control rod is configured to move back and forth in a direction of travel. The balancing vehicle accelerates when the control rod is pushed forward in the traveling direction, and the balancing vehicle decelerates or retreats when the control rod is pulled backward in the traveling direction. The handle is coupled to a top of the control rod.

A balancing vehicle includes a wheel, a bracket, a frame, a shock absorbing member, pedals, a control rod, and a handle. The bracket is fixed to an axle of the wheel. The frame is slidably connected to the bracket through a slider fixedly connected to the bracket, so as to allow the frame to slide relative to the bracket. The shock absorbing member is disposed between the frame and the bracket, and is configured to cushion relative movement between the frame and the bracket. The pedals are fixed to the frame. The control rod is configured to move back and forth in a direction of travel. The balancing vehicle accelerates when the control rod is pushed forward in the traveling direction, and the balancing vehicle decelerates or retreats when the control rod is pulled backward in the traveling direction. The handle is coupled to a top of the control rod.

A tiltable vehicle is configured to transform between an autonomous mode and a rideable mode by pivoting the handlebars and steering column of the vehicle about a pitch axis. In the autonomous mode, the steering column is folded back toward the chassis and a tiltable chassis of the vehicle is prevented from tilting. In the rideable mode, the steering column is unfolded and the chassis is free to tilt. In some examples, a tiltable vehicle includes features beneficial for vehicle-sharing, such as parking devices or a basket. These features may be included on any suitable vehicle and are not limited to use on transforming vehicles.

A foldable bicycle structure comprises a supporting frame (2) having a rear wheel (3) and a front wheel (4), a handlebar (5) fastened to the frame (2) and a seat post (6). The supporting frame (2) is divided into a front portion (9) and a rear portion (10) adapted to be connected to respective wheels (3, 4) and reciprocally hinged around a first hinge axis (11) to switch between an extended use configuration to a compact configuration. The supporting frame (2) is also provided with one or more straps (14, 15) each having one end fixed to the supporting frame (2) and one free end provided with a hook to allow the respective strap to be unwound (14, 15) and its hooking to another part of the structure and be used as a shoulder strap for transporting the structure in a compact configuration.

The invention discloses a foldable bicycle and electric bicycle frame, comprising a girder and a rear fork, wherein the girder and the rear fork are connected to a rotating shaft through a bearing; both sides of the girder are provided with fixing holes A, and the girder is connected to the upper part of a hinge through the fixing holes A; the lower part of the hinge is provided with fixing holes B, and the hinge is connected to the upper part of a shock absorber through the fixing holes B; the lower part of the shock absorber is connected to the rear fork through a fixing hole C; both ends of the rear fork are provided with end covers. The invention has a simple structure. The invention can be used for folding bicycles and electric bicycles.

A hinge assembly for a foldable cycle frame includes a front plate member configured to be connected to a first part of the cycle frame; a rear plate member configured to be connected to a second part of the cycle frame; and a middle plate member configured to releasably couple the front plate member and the rear plate together. The hinge assembly further includes a first pin member configured to secure the front plate member to the middle plate member; and a second pin member configured to secure the rear plate member to the middle plate member.

A hinge assembly for a foldable cycle frame includes a front plate member configured to be connected to a first part of the cycle frame; a rear plate member configured to be connected to a second part of the cycle frame; and a middle plate member configured to releasably couple the front plate member and the rear plate together. The hinge assembly further includes a first pin member configured to secure the front plate member to the middle plate member; and a second pin member configured to secure the rear plate member to the middle plate member.