A knob assembly includes a knob located at a front panel of the knob assembly and configured to rotate about an axis, a knob ring that is located at the front panel, that surrounds the knob, and that rotates about the axis independently of rotation of the knob, an adjusting shaft that extends from the knob through the knob ring in a direction rearward of the front panel and that rotates based on rotation of the knob and causes operation of a device, a first rotation sensing part that senses rotation of the adjusting shaft, and a first sensing target that rotates based on rotation of the adjusting shaft. A position of the first sensing target changes based on rotation of the first sensing target, and the first rotation sensing part senses at least one of the position or a change of the position of the first sensing target.

A knob assembly includes a knob located at a front panel of the knob assembly and configured to rotate about an axis, a knob ring that is located at the front panel, that surrounds the knob, and that rotates about the axis independently of rotation of the knob, an adjusting shaft that extends from the knob through the knob ring in a direction rearward of the front panel and that rotates based on rotation of the knob and causes operation of a device, a first rotation sensing part that senses rotation of the adjusting shaft, and a first sensing target that rotates based on rotation of the adjusting shaft. A position of the first sensing target changes based on rotation of the first sensing target, and the first rotation sensing part senses at least one of the position or a change of the position of the first sensing target.

An operating lever (1) comprising corresponding a link system (2) is provided. The link system (2) has at least a first link part (3) and restoring means (5), which act on the at least one link part (3) and transfer the latter into a zero position. The operating lever (1) is guided in the link system (2), and the first link part (3) is movably mounted in such a way that a positional change of the operating level (1) to the link system (2) results in a movement of the at least one link part (3) in the direction of the restoring means (5) acting on the at least one link part (3).

An operating lever (1) comprising corresponding a link system (2) is provided. The link system (2) has at least a first link part (3) and restoring means (5), which act on the at least one link part (3) and transfer the latter into a zero position. The operating lever (1) is guided in the link system (2), and the first link part (3) is movably mounted in such a way that a positional change of the operating level (1) to the link system (2) results in a movement of the at least one link part (3) in the direction of the restoring means (5) acting on the at least one link part (3).

The invention relates to a 3D input device (1) for controlling the position of an object (8, 14) in space, comprising a manually operable 3D input element (3), at which input element control demands in three spatial coordinates can be input, and a control dial (4), which generates an output signal dependent on the rotational angle when rotated. According to the invention, the 3D input device (1) comprises a control unit (21) which moves the object (8, 14) in space depending on the rotary movement executed at the control dial (4).

The invention relates to a 3D input device (1) for controlling the position of an object (8, 14) in space, comprising a manually operable 3D input element (3), at which input element control demands in three spatial coordinates can be input, and a control dial (4), which generates an output signal dependent on the rotational angle when rotated. According to the invention, the 3D input device (1) comprises a control unit (21) which moves the object (8, 14) in space depending on the rotary movement executed at the control dial (4).

A gear shift lever assembly includes a gear shift lever arm which includes a distal foot-peg end and a bifurcated proximal end and first passageway for facilitating securement of the gear shift lever arm to a gear selector spindle shaft of a motorcycle. The assembly also includes a spindle shaft mount insert sized to fit within the bifurcated ends of the gear shift lever arm. The insert has a splined aperture that matches the splines of the splines of the gear selector spindle shaft, and a second passageway having a longitudinal axis transverse to the longitudinal axis of the splined aperture. The gear shift lever assembly is mountable to the gear selector spindle shaft of the motorcycle with the spindle shaft mount insert interposed between the bifurcated proximal end of the gear shift lever arm with a mounting bolt passed through the aligned first and second passageways.

Joystick for maneuvering of a utility vehicle, wherein said joystick (1) at least comprises: a lever arm, a base, a grip body, and a rocker, wherein said lever arm is arranged such that it can tilt relative said base, said grip body (4) is fixedly arranged relative said lever arm, wherein said grip body is provided with a grip portion, which at least facilitates gripping of said grip body with a thumb and an opposite finger, and said rocker is provided in the area of said grip portion and can pivot relative said grip body wherein a control ring is provided below said grip portion and arranged such that it can pivot relative an axis essentially parallel with the central axis of said lever arm and relative said grip body, wherein said grip body is provided upon a carrier, wherein said carrier is fixedly attached to said lever arm and comprises a base part, a holder and sensing means, where said holder extends from said base part in a direction essentially parallel to the central axis of said lever arm, said grip body essentially extends from said base part such that it encloses said holder, and where said sensing means are provided within said holder, and is adapted to sense movement of at least said control ring and said rocker.

A self-centering knob assembly comprising a back disk, a pair of rotary arms, a spring, and a circuit board fixed to the knob shaft, is provided, with the pair of rotary arms and spring disposed between the back disk and circuit board. Each rotary arm defines first and second slots at opposing ends and a center aperture therebetween that rotatably engages the knob shaft. The first slot engages the end stop pin to limit rotation of the rotary arm. The spring defines opposing arms that engage and oppose rotation of respective rotary arms of the pair. The circuit board includes circuitry configured to provide positioning data of the knob shaft, and including a drive pin that, for each rotary arm, engages and carries the second slot in a respective direction of an opposing direction when the knob shaft and thereby the circuit board is rotated in the respective direction.

A self-centering knob assembly comprising a back disk, a pair of rotary arms, a spring, and a circuit board fixed to the knob shaft, is provided, with the pair of rotary arms and spring disposed between the back disk and circuit board. Each rotary arm defines first and second slots at opposing ends and a center aperture therebetween that rotatably engages the knob shaft. The first slot engages the end stop pin to limit rotation of the rotary arm. The spring defines opposing arms that engage and oppose rotation of respective rotary arms of the pair. The circuit board includes circuitry configured to provide positioning data of the knob shaft, and including a drive pin that, for each rotary arm, engages and carries the second slot in a respective direction of an opposing direction when the knob shaft and thereby the circuit board is rotated in the respective direction.