A transmission for a saddled vehicle with which a posture of a rider is easily held during driving of the vehicle and a speed change detection device can be protected. A step for the driver extends outward in a vehicle width direction from a lower frame; a gear change pedal is turn-operated by a rider's foot for speed change; and a link for detection is coupled with the gear change pedal. A speed change detection device is coupled with a tip of the link for detection, and detects a speed change operation by the gear change pedal. The gear change pedal is arranged on an outer side of a lower frame in the vehicle width direction, and the speed change detection device is arranged on an inner side of pivot frames and the lower frame in the vehicle width direction.

A shift signal transmitter for a manual transmission of a vehicle, in particular of a motorcycle, includes a shift rod for force-transmitting coupling to a foot lever, optionally with the interposition of an extension rod. The shift rod is guided along its longitudinal axis in an axially displaceable manner between two axial stops in an, in particular sleeve-shaped, housing. A connecting piece, which serves for coupling to a shift lever, is rigidly connected to the housing opposite to an internal axial end of the shift rod. A distance sensor for contact-free distance measurement is disposed within the housing opposite to the internal axial end of the shift rod and a sensor area of the distance sensor is oriented radially relative to the longitudinal axis. A shift apparatus for a manual transmission of a vehicle is also provided.

A device for a gear shift system for a vehicle, the gear shift system comprising a gear shift member, the device comprises a device member, and a member connector configured to connect to the gear shift member and thereby connect the device to the gear shift system so that, in use, one of the device member and the gear shift member is beneath a rider's foot to provide a first member, and the other of the device member and the gear shift member is above the rider's foot to provide a second member, wherein in use downwards movement of the first member effects a first gear shift and in use upwards movement of the second member effects a second gear shift.

A device for a gear shift system for a vehicle, the gear shift system comprising a gear shift member, the device comprises a device member, and a member connector configured to connect to the gear shift member and thereby connect the device to the gear shift system so that, in use, one of the device member and the gear shift member is beneath a rider's foot to provide a first member, and the other of the device member and the gear shift member is above the rider's foot to provide a second member, wherein in use downwards movement of the first member effects a first gear shift and in use upwards movement of the second member effects a second gear shift.

There is provided a vehicle shift control device. A shift mechanism is configured to shift and transmit rotation of a crankshaft extending in a width direction of a vehicle to a driving wheel. A shift pedal is configured to receive a shifting operation for the shift mechanism. A shift detection mechanism is configured to detect a shift instructed via the shift pedal. A shift actuator is configured to perform a shift operation of the shift mechanism, in response to a detection content of the shift detection mechanism. The shift detection mechanism includes a detection unit configured to rotate in response to the shifting operation of the shift pedal and a sensor configured to detect rotation of the detection unit. A rotary shaft of the detection unit and a rotary shaft of the sensor are arranged at different positions, as seen from a side.

There is provided a vehicle shift control device. A shift mechanism is configured to shift and transmit rotation of a crankshaft extending in a width direction of a vehicle to a driving wheel. A shift pedal is configured to receive a shifting operation for the shift mechanism. A shift detection mechanism is configured to detect a shift instructed via the shift pedal. A shift actuator is configured to perform a shift operation of the shift mechanism, in response to a detection content of the shift detection mechanism. The shift detection mechanism includes a detection unit configured to rotate in response to the shifting operation of the shift pedal and a sensor configured to detect rotation of the detection unit. A rotary shaft of the detection unit and a rotary shaft of the sensor are arranged at different positions, as seen from a side.

An apparatus and system for actuating a manual gearbox, particularly of a motorcycle having a drive engine, and for carrying out a gear change while the clutch is engaged between the drive engine and the manual gearbox. The apparatus has a selector shaft, which can be actuated rotationally, and a gear-selector drum, which can be actuated rotationally. The gear-changing apparatus has a gear-change lever provided for actuating the selector shaft, and is adapted for influencing the output torque of the drive engine. One or more magnetic sensor(s), such as Hall effect sensors, are provided for sensing rotational actuation of the selector shaft and, optionally, for sensing rotational actuation of the gear selector drum. The sensor(s) send a signal to a controller and mechanisms known for affecting a change in gear to a lower or higher gear.

An apparatus and system for actuating a manual gearbox, particularly of a motorcycle having a drive engine, and for carrying out a gear change while the clutch is engaged between the drive engine and the manual gearbox. The apparatus has a selector shaft, which can be actuated rotationally, and a gear-selector drum, which can be actuated rotationally. The gear-changing apparatus has a gear-change lever provided for actuating the selector shaft, and is adapted for influencing the output torque of the drive engine. One or more magnetic sensor(s), such as Hall effect sensors, are provided for sensing rotational actuation of the selector shaft and, optionally, for sensing rotational actuation of the gear selector drum. The sensor(s) send a signal to a controller and mechanisms known for affecting a change in gear to a lower or higher gear.

The invention pertains to a force transmitting device (100) for a transmission (200), particularly of a motorcycle, with a shift assist system, featuring a shift input shaft (30) with a shift lever connection (20) for receiving a shifting motion of a shift lever (300) and a transmission connection (40) for transmitting the shifting motion to a gear shifting gate (110) of the transmission (100), wherein the shift input shaft (30) features an energy accumulator (32) for the intermediate storage of at least part of the shifting force such that the relative motion between the shift lever connection (20) and the transmission connection (40) can be realized by changing the shifting force stored in the energy accumulator (32), and wherein the shift input shaft (30) features a sensor device (60) for detecting the relative motion between the shift lever connection (20) and the transmission connection (40).

The invention pertains to a force transmitting device (100) for a transmission (200), particularly of a motorcycle, with a shift assist system, featuring a shift input shaft (30) with a shift lever connection (20) for receiving a shifting motion of a shift lever (300) and a transmission connection (40) for transmitting the shifting motion to a gear shifting gate (110) of the transmission (100), wherein the shift input shaft (30) features an energy accumulator (32) for the intermediate storage of at least part of the shifting force such that the relative motion between the shift lever connection (20) and the transmission connection (40) can be realized by changing the shifting force stored in the energy accumulator (32), and wherein the shift input shaft (30) features a sensor device (60) for detecting the relative motion between the shift lever connection (20) and the transmission connection (40).