A bicycle seat accessory that includes an adjustable seat and a rear seat accessory to provide a seating surface for a user and a rider or passenger. The adjustable seat is movable between a first and second position and when in the second position, the seating surface of the seat substantially aligns with the seating surface of the rear seat accessory to form a substantially continuous seating surface. The frame of the bicycle includes an accessory shelf onto which the rear seat accessory can be mounted. Additionally, the frame includes one or more brackets to which footpeg accessories can be mounted to provide foot rests for the passenger of the bicycle while seated on the rear seat accessory.

The invention relates to a scooter, comprising a standing surface (1), at least one rear wheel (2) articulated to the standing surface (1), and at least one front wheel (3) articulated to the standing surface (1), which scooter can be moved in a direction of travel, wherein the scooter also comprises an element (5) that is connected in an articulated manner to or can be attached to the standing surface (1), which element (5) can be transferred from a first position (6) as a seat element to a second position (7) as a holding bar for a person standing on the standing surface (1), wherein, in the case of use, the scooter can be moved in the same movement direction (20) in the case of a first position (6) of the element (5) and in the case of a second position (7) of the element (5).

A scooter front end and a scooter device incorporating the front end. The front end may be releasably coupled to an auto-balancing drive wheel unit such as a Solowheel or Iota device. The scooter front end may serve as a training aid, or allow faster speeds or the carrying of goods, etc. The front end may include an ascending control structure that is used to steer the device. A support frame may extend rearwardly from a steerable wheel and provide a mechanism for releasable coupling to the auto-balancing drive wheel unit. Various embodiments for the scooter front end and drive wheel units are disclosed.

A scooter front end and a scooter device incorporating the front end. The front end may be releasably coupled to an auto-balancing drive wheel unit such as a Solowheel or Iota device. The scooter front end may serve as a training aid, or allow faster speeds or the carrying of goods, etc. The front end may include an ascending control structure that is used to steer the device. A support frame may extend rearwardly from a steerable wheel and provide a mechanism for releasable coupling to the auto-balancing drive wheel unit. Various embodiments for the scooter front end and drive wheel units are disclosed.

A stroller is provided with the ability to removably couple and decouple a seat from the stroller as needed. The stroller can include a stroller frame. The stroller can also include one or more front wheels attached to the stroller frame and one or more rear wheels attached to the stroller frame. The stroller can also include a first seat couple to the stroller frame. The stroller can include first and second seat attachment housings. Each of the seat attachment housings can include a cavity for receiving a corresponding one of the first and second seat attachment adapters. Each of the seat attachment housings can also include a door or cover to prevent access to the respective cavity when not in use. The seat attachment adapters can be coupled to the respective seat attachment housings and a second seat can be coupled to the seat attachment adapters.

The telescopic frame structure of a scooter includes: rear and front frame bodies; a telescopic connection frame; a limiting member having front and rear plate bodies disposed above the telescopic connection frame, the front plate body is pivoted to the front frame body through the first pivoting shaft member, the rear plate body is pivoted to the rear frame body through the second pivoting shaft member, and the front plate body is pivoted to the rear plate body through the second pivoting shaft member. The axle center definition of the first, second and third pivoting shaft member respectively forms the first, second and third pivoting axis. The connecting definition between the first and second pivoting axes forms a virtual connecting axis corresponding to the third pivoting shaft member defines an intermediate line section. The height of the third pivot axis is lower than the intermediate line section.

A personal mobility apparatus includes: a support platform having a pair of footplates and a cavity; two drive wheels disposed on both sides of the support platform, respectively; and a steering wheel connected to the support platform to be received in the cavity. The steering wheel is connected through a telescopic tube to be received in the cavity of the support platform and the telescopic tube includes a first tube and a second tube moving telescopically with respect to the first tube.

A personal mobility apparatus includes: a support platform having a pair of footplates and a cavity; two drive wheels disposed on both sides of the support platform, respectively; and a steering wheel connected to the support platform to be received in the cavity. The steering wheel is connected through a telescopic tube to be received in the cavity of the support platform and the telescopic tube includes a first tube and a second tube moving telescopically with respect to the first tube.

A child's riding vehicle can be quickly reconfigured between a balance bike configuration and a pedal-powered bicycle configuration, suitable for children of different ages, without removing any parts to be stored separately. The pedal crank arms can be repositioned on the crank and the pedal axles can be pivoted so that in the balance bike configuration: the pedal crank arms are positioned adjacent to one another and generally upward; the pedal axles are pointed mostly rearwardly but also slightly inwardly rather than extending transversely side-to-side; and the crank arms and pedal axles are telescoped in. The result is that in the balance bike configuration the pedals and crank arms are compacted and folded out of the way so as not to interfere with the child riding the vehicle.

A child's riding vehicle can be quickly reconfigured between a balance bike configuration and a pedal-powered bicycle configuration, suitable for children of different ages, without removing any parts to be stored separately. The pedal crank arms can be repositioned on the crank and the pedal axles can be pivoted so that in the balance bike configuration: the pedal crank arms are positioned adjacent to one another and generally upward; the pedal axles are pointed mostly rearwardly but also slightly inwardly rather than extending transversely side-to-side; and the crank arms and pedal axles are telescoped in. The result is that in the balance bike configuration the pedals and crank arms are compacted and folded out of the way so as not to interfere with the child riding the vehicle.