The present disclosure provides a scooter including a wiring structure. The wiring structure is fixedly connected to the handle assembly, the frame assembly, and the front wheel assembly, respectively. The second tubular member sleeves a periphery of the first tubular member and an axis of the first tubular member coincides with an axis of the second tubular member. A first opening and a second opening are respectively provided on the first tubular member and the second tubular member, and the first opening is opposite to the second opening. One end of the third tubular member is fixedly connected to the second tubular member along the second opening. When the first tubular member is rotated relative to the second tubular member there is a gap. The scooter of the present disclosure has the advantage of smoothly guiding the wires without damaging the wires.

An intelligent safety frame capable of easily replacing and protecting battery includes a front beam, a battery mounting box, a rear beam, a cushion mounting seat and a rear tail box mounting seat, wherein a rear tail box is mounted on the rear tail box mounting seat, the cushion mounting seat is rotatably mounted on the rear beam, a battery mounting cavity is defined in the battery mounting box, a threading box is provided on a side of the battery mounting box, a first wire-in cavity is provided in the threading box, a first threading slot is provided on a side of the battery mounting cavity, a wire outlet is provided on a side of the threading box, a second intelligent lock mounting slot is provided at the upper end of the rear beam, and a lock catch is provided on a side of the cushion mounting seat.

A fixing device for detachably fixing a body to a vehicle, such as a tilting vehicle, includes: at least one first fixing device which can be fixed or is fixed to the body; at least one second fixing device which can be fixed or is fixed to a load-bearing vehicle component of the motor vehicle and which is detachably joined to the first fixing device in a coupled arrangement in order to fix the body to the vehicle component; and at least one electrical line which can be guided from the vehicle component to the body and can be fixed to the body in order to supply an electrical load. The fixing device is characterized in that the first fixing device has a first conductor of the electrical line and the second fixing device has a second conductor of the electrical line. The first conductor and the second conductor can be electrically conductively connected or are electrically conductively connected to one another in the coupled arrangement of the fixing devices.

A fixing device for detachably fixing a body to a vehicle, such as a tilting vehicle, includes: at least one first fixing device which can be fixed or is fixed to the body; at least one second fixing device which can be fixed or is fixed to a load-bearing vehicle component of the motor vehicle and which is detachably joined to the first fixing device in a coupled arrangement in order to fix the body to the vehicle component; and at least one electrical line which can be guided from the vehicle component to the body and can be fixed to the body in order to supply an electrical load. The fixing device is characterized in that the first fixing device has a first conductor of the electrical line and the second fixing device has a second conductor of the electrical line. The first conductor and the second conductor can be electrically conductively connected or are electrically conductively connected to one another in the coupled arrangement of the fixing devices.

A leaning vehicle including a braking mechanism, a linkage mechanism configured to cause a body frame of the leaning vehicle to lean leftward or rightward, a lean lock mechanism configured to restrict leftward leaning and rightward leaning of the vehicle body frame, and an interlocking mechanism configured to actuate the braking mechanism and the lean lock mechanism. The interlocking mechanism includes an operation input section configured to input a first operating force, a brake-operation-input section configured to input a second operating force, an operating force distributor configured to distribute the first operating force input by the operation input section to the lean lock mechanism and the braking mechanism, and a brake actuator configured to actuate the braking mechanism by the first operating force distributed to the braking mechanism by the operating force distributor, or by the second operating force input by the brake-operation-input section.

A front two-wheel leaning vehicle, including a handle, a steering shaft, a linkage mechanism and a load transfer mechanism. The load transfer mechanism includes a left-foot-placing part and a right-foot-placing part located between the left front wheel and the rear wheel, for left and right feet of the driver to be respectively placed thereon. The load transfer mechanism transfers a load to the left and right portions of the linkage mechanism through the left-foot-placing part and the right-foot-placing part, or through the right-foot-placing part and the left-foot-placing part, respectively. The steering shaft includes a handle adjusting mechanism configured to adjust, with respect to the left-foot-placing part and the right-foot-placing part, at least one of a handle height, which is a distance from a midpoint between the left and right front wheels to the grip, or an offset amount of the handle with respect to a rotation axis of the steering shaft.

A leaning vehicle having a linkage mechanism supported by a linkage support part. The linkage mechanism includes left and right side members and a lower cross member. The lower cross member has a front cross part, a rear cross part, a coupling part coupling the front and rear cross parts, and a foreign-matter-entering-suppression part. The left and right side members are respectively rotatable about left and right axes extending in a front-rear direction of a vehicle body frame. The front and rear cross parts are rotatable about an intermediate axis parallel to the left and right axes. The foreign-matter-entering-suppression part fills a gap between the linkage support part, or the left or right side member, and the coupling part. The coupling part has a recess configured to accommodate the foreign-matter-entering-suppression part when the front and rear cross parts rotate with respect to the linkage support part.

A bicycle crank arm apparatus comprises a crank arm having a crank axle mounting portion and a pedal mounting portion. A circuit-mounting structure is disposed between the crank axle mounting portion and the pedal mounting portion, wherein the circuit-mounting structure is configured to detachably mount a measurement board. When a measurement board is mounted to the circuit-mounting structure, the resulting combination forms a bicycle input force processing apparatus.

A bicycle crank arm apparatus comprises a crank arm having a crank axle mounting portion and a pedal mounting portion. A circuit-mounting structure is disposed between the crank axle mounting portion and the pedal mounting portion, wherein the circuit-mounting structure is configured to detachably mount a measurement board. When a measurement board is mounted to the circuit-mounting structure, the resulting combination forms a bicycle input force processing apparatus.

An integrated active valve assembly is disclosed. The integrated active valve assembly including a suspension controller module, an active shock assembly, and a wire to communicatively couple the suspension controller module with the active shock assembly such that the suspension controller module can send a signal via the wire to modify a damping characteristic of the active shock assembly.