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 anti-theft apparatus that attaches to a shift lever and a foot rest of a motorcycle includes a shackle that is sized and shaped to extend from the foot rest to the shift lever. The shackle has an open end, a second end opposite of the open end, and two elongate arms that extend between the second end and the open end. A locking mechanism engages with the open end of the shackle to lock the shackle into place around the foot rest and the shift lever. A lock plate is coupled to one of the elongate arms of the shackle. A cross bar plate removably attaches to the open end of the shackle and is configured for being positioned between the locking mechanism and the shift lever when the apparatus is attached to the motorcycle. When the apparatus is attached to the motorcycle, the motorcycle shift lever cannot be operated, thereby deterring theft of the motorcycle.

A luggage scooter has a middle frame, a front wheel section, a seat section, and a rear wheel section. The front wheel section has a front wheel frame pivotally connected to the middle frame at a front wheel frame joint. The front wheel frame is mounted to a steering joint. The steering joint is mounted on the middle frame. The steering joint provides steering in both a left and right direction. The front wheel frame joint provides the front wheel frame with configurable position between a stowed position and a deployed position. A front wheel is mounted to the front wheel frame at a front wheel support. A rear wheel section has a rear wheel frame pivotally connected to the middle frame at a rear wheel frame joint.

A motorcycle may include a step operating mechanism including a base member, a pivot member, a pivot shaft, and a locking mechanism. The base member may be supported by a first portion of a frame member. The pivot member may extend from the base member in a motorcycle width direction. The pivot member may pivot along a straight line orthogonal to the pivot shaft and may be configured to be received by a docking cavity of an associated electric scooter. The locking mechanism of the step operating mechanism may be configured to lock or fix a front portion of the associated electric scooter to the pivot member when the pivot member is received by the docking cavity of the associated electric scooter. The motorcycle may include a second locking mechanism supported by a second portion of the frame member.

The present invention provides a shift control device of a vehicle mounted to a body of a vehicle and having a gearbox, a shift actuator, a base, a gearshift lever, and a gearshift detector. The gearshift lever is disposed on the base. The gearshift detector is electrically connected to the shift actuator. The gearshift lever has a shift pedal, the shift pedal has a pivot portion, and the shift pedal is connected pivotally to the base by the pivot portion. The gearshift detector has a rotating element, and the rotating element is rotated coaxially with the pivot portion of the shift pedal. In the shift control device of a vehicle of the present invention, a signal wire will not be wrapped with other components, so transmission errors of mechanisms are reduced, and the structure is simple.

Haptic devices are installed in a motorcycle's handlebars, footpegs and seat to provide the rider with alerts that relate to hazards. The alert is provided before the rider notices the hazard, or before the rider reacts to the hazard. By giving advance warning, a rider is given extra time to avert a potential accident. The alerts also provide a direct instruction to the rider as to what to do to avoid the accident.

Haptic devices are installed in a motorcycle's handlebars, footpegs and seat to provide the rider with alerts that relate to hazards. The alert is provided before the rider notices the hazard, or before the rider reacts to the hazard. By giving advance warning, a rider is given extra time to avert a potential accident. The alerts also provide a direct instruction to the rider as to what to do to avoid the accident.

A vehicle with a Geo-Fenced Ride Control System including: one or more battery modules including one or more battery cells; one or more processors operably connected to the one or more battery cells to control vehicle performance; and a Global Positioning System (GPS) or cellular network receiver configured to determine location of the vehicle; wherein the one or more processors communicates with a remote sever to determine a plurality of available vehicle performance settings for the vehicle based on the location of the vehicle. The vehicle further includes a user input interface configured to receive user input including selection of the vehicle performance setting form the plurality of available vehicle performance settings based on the geographic location of the vehicle.

A method of mounting a storage unit to a vehicular apparatus, such as a motorcycle, includes the step of securing a cantilevered mounting member having a mounting plate to the frame of the vehicular apparatus. A storage device can be connected to the mounting plate to stabilize the storage device as the vehicular apparatus is in motion. As a preferred embodiment, the method of mounting begins with the removal of a foot peg from a motorcycle to expose the foot peg mounting bracket to which the mounting member is affixed. The mounting plate of the mounting member can be used to secure articles to be transported by the vehicular apparatus with or without a separate storage device.

A method of mounting a storage unit to a vehicular apparatus, such as a motorcycle, includes the step of securing a cantilevered mounting member having a mounting plate to the frame of the vehicular apparatus. A storage device can be connected to the mounting plate to stabilize the storage device as the vehicular apparatus is in motion. As a preferred embodiment, the method of mounting begins with the removal of a foot peg from a motorcycle to expose the foot peg mounting bracket to which the mounting member is affixed. The mounting plate of the mounting member can be used to secure articles to be transported by the vehicular apparatus with or without a separate storage device.