The present disclosure refers to a motorcycle accessory for improving the weight-distribution of a motorcycle on its kickstand. The accessory is a plate that can be moved out of its housing attached to the motorcycle to the ground where the user wants to place the kickstand. The housing is attached to motorcycle by a mounting element. The plate can include an LED light, various attachments, and various surfaces designed to keep the plate in place.

A scooter is provided. The scooter comprises a frame assembly including a main frame for a user, an extendable frame movably connected to the main frame and configured to be extendable away from the main frame at an interface at which the main frame and the extendable frame meet, and a wheel assembly connected to the frame assembly. The extendable frame forms a cargo space at an extended position.

A scooter is provided. The scooter comprises a frame assembly including a main frame for a user, an extendable frame movably connected to the main frame and configured to be extendable away from the main frame at an interface at which the main frame and the extendable frame meet, and a wheel assembly connected to the frame assembly. The extendable frame forms a cargo space at an extended position.

A kickstand assembly includes a post and a seat. A bicycle includes a frame and the kickstand assembly coupled to the frame. The post is disposed along a longitudinal axis and includes a first distal end and a second distal end. The seat is disposed at the first distal end of the post. The seat is movable between a use position and a non-use position. The kickstand assembly includes a kickstand disposed at the second distal end of the post, and extends outwardly away from the post transverse to the longitudinal axis. The kickstand is movable between a use position and a non-use position. The seat and the kickstand are fixed relative to each other at the respective first and second distal ends of the post such that movement of the seat to the non-use position directly causes movement of the kickstand to the use position.

A kickstand assembly includes a post and a seat. A bicycle includes a frame and the kickstand assembly coupled to the frame. The post is disposed along a longitudinal axis and includes a first distal end and a second distal end. The seat is disposed at the first distal end of the post. The seat is movable between a use position and a non-use position. The kickstand assembly includes a kickstand disposed at the second distal end of the post, and extends outwardly away from the post transverse to the longitudinal axis. The kickstand is movable between a use position and a non-use position. The seat and the kickstand are fixed relative to each other at the respective first and second distal ends of the post such that movement of the seat to the non-use position directly causes movement of the kickstand to the use position.

A kickstand assembly includes a post and a seat. A bicycle includes a frame and the kickstand assembly coupled to the frame. The post is disposed along a longitudinal axis and includes a first distal end and a second distal end. The seat is disposed at the first distal end of the post. The seat is movable between a use position and a non-use position. The kickstand assembly includes a kickstand disposed at the second distal end of the post, and extends outwardly away from the post transverse to the longitudinal axis. The kickstand is movable between a use position and a non-use position. The seat and the kickstand are fixed relative to each other at the respective first and second distal ends of the post such that movement of the seat to the non-use position directly causes movement of the kickstand to the use position.

A kickstand assembly includes a post and a seat. A bicycle includes a frame and the kickstand assembly coupled to the frame. The post is disposed along a longitudinal axis and includes a first distal end and a second distal end. The seat is disposed at the first distal end of the post. The seat is movable between a use position and a non-use position. The kickstand assembly includes a kickstand disposed at the second distal end of the post, and extends outwardly away from the post transverse to the longitudinal axis. The kickstand is movable between a use position and a non-use position. The seat and the kickstand are fixed relative to each other at the respective first and second distal ends of the post such that movement of the seat to the non-use position directly causes movement of the kickstand to the use position.

A parking system for a personal mobility includes at least one parking stand configured to be mounted on the personal mobility and to automatically unfold or fold, a boarding sensor configured to be mounted on the personal mobility and to detect whether the personal mobility is boarded or deboarded, and a controller configured to determine whether the personal mobility is boarded or deboarded based on the detection of the boarding sensor and to control operation of the parking stand so that the parking stand unfolds when the personal mobility is deboarded and the parking stand folds when the personal mobility is boarded.

A parking system for a personal mobility includes at least one parking stand configured to be mounted on the personal mobility and to automatically unfold or fold, a boarding sensor configured to be mounted on the personal mobility and to detect whether the personal mobility is boarded or deboarded, and a controller configured to determine whether the personal mobility is boarded or deboarded based on the detection of the boarding sensor and to control operation of the parking stand so that the parking stand unfolds when the personal mobility is deboarded and the parking stand folds when the personal mobility is boarded.

A stability attachment for a personal transportation vehicle includes a frame, a clamp mechanism and a pair of training wheels. The frame includes a first support arm and a second support arm. The first and second support arms are interconnected by the clamp mechanism. Each of the training wheels is situated on opposite sides of the frame and vertically adjustable thereon. The frame is selectively mounted to the main body of the personal transportation vehicle on which the operator stands by the clamp mechanism. The clamp mechanism is adjustable so that the stability attachment can be mounted to personal transportation vehicles of various sizes. Each of the support arms includes at least two telescoping members so that the overall length of the support arm can be adjusted.