An operation device for a vehicle transmission is configured to include: a base bracket that is fixed to a vehicle body of a vehicle; a slider lever that is slidably supported by the base bracket and includes a shift knob; and a main gear, which is rotatably supported by the base bracket and includes gear teeth at an outer circumferential portion, to which an end portion of a shift wire of the vehicle transmission is connected at a position separated from a gear support shaft of the base bracket, the slider lever including a rack gear that is formed along a sliding direction of the slider lever and is engaged with the gear teeth of the main gear, and gear change of the transmission being performed by causing the main gear to rotate with sliding of the slider lever and pushing and pulling the shift wire.

An operation device for a vehicle transmission is configured to include: a base bracket that is fixed to a vehicle body of a vehicle; a slider lever that is slidably supported by the base bracket and includes a shift knob; and a main gear, which is rotatably supported by the base bracket and includes gear teeth at an outer circumferential portion, to which an end portion of a shift wire of the vehicle transmission is connected at a position separated from a gear support shaft of the base bracket, the slider lever including a rack gear that is formed along a sliding direction of the slider lever and is engaged with the gear teeth of the main gear, and gear change of the transmission being performed by causing the main gear to rotate with sliding of the slider lever and pushing and pulling the shift wire.

A shifter simulator system comprising a frame with a gear stick hinge, a gear stick that is hingedly connected to the frame via the gear stick hinge, and a moveable frame part configured for moving relative to the frame and provided with a first contact surface and a second contact surface.

The shifter simulator system also includes a magnetic contact and a tilting element configured for tilting around a tilting axis via a tilting connection in response to a movement of the gear stick and providing a first lever, and wherein the tilting element is provided with a first contact element and a second contact element configured for engaging the respective first and second contact surfaces of the moveable frame part providing a second lever, and by moving the moveable frame part defining a shifter movement with the magnetic contact. The first and/or second levers are adjustable.

A shifter simulator system comprising a frame with a gear stick hinge, a gear stick that is hingedly connected to the frame via the gear stick hinge, and a moveable frame part configured for moving relative to the frame and provided with a first contact surface and a second contact surface.

The shifter simulator system also includes a magnetic contact and a tilting element configured for tilting around a tilting axis via a tilting connection in response to a movement of the gear stick and providing a first lever, and wherein the tilting element is provided with a first contact element and a second contact element configured for engaging the respective first and second contact surfaces of the moveable frame part providing a second lever, and by moving the moveable frame part defining a shifter movement with the magnetic contact. The first and/or second levers are adjustable.

An actuator for activating a plurality of operating functions in a technical system may include one or more of the following: a rotary knob, the rotary knob being rotatable about a rotational axis to an actuation position corresponding to a first operating function of a plurality of operating functions; a first sensor unit, where the actuation position is detectable by the first sensor unit such that a corresponding actuation position signal is sent to a control unit of the technical system causing activation of the first operating function; a second sensor unit for sending a shut-off signal to the control unit, where the technical system is set to a basic function of the plurality of operating functions upon receipt of the shut-off signal; and at least one sliding track partially encircling the rotary knob radially over an angle of less than 360.

An actuator for activating a plurality of operating functions in a technical system may include one or more of the following: a rotary knob, the rotary knob being rotatable about a rotational axis to an actuation position corresponding to a first operating function of a plurality of operating functions; a first sensor unit, where the actuation position is detectable by the first sensor unit such that a corresponding actuation position signal is sent to a control unit of the technical system causing activation of the first operating function; a second sensor unit for sending a shut-off signal to the control unit, where the technical system is set to a basic function of the plurality of operating functions upon receipt of the shut-off signal; and at least one sliding track partially encircling the rotary knob radially over an angle of less than 360.

A system and method of controlling a shift mechanism for a vehicle, includes a shift determination unit configured to determine information on a shifting stage of the vehicle according to an operation of the shift mechanism; and a control unit configured to receive the information on the shifting stage from the shift determination unit and to transmit a signal such that vibration is generated in the shift mechanism when the shifting stage switched by operation of the shift mechanism is a drivable shifting stage, wherein when a driver operates the shift mechanism to switch a shifting stage to a drivable shifting stage, a signal according to the corresponding shifting stage is transmitted to enable the driver to recognize the switched shifting stage and thus to prevent erroneous operation, ensuring driving safety.

A system and method of controlling a shift mechanism for a vehicle, includes a shift determination unit configured to determine information on a shifting stage of the vehicle according to an operation of the shift mechanism; and a control unit configured to receive the information on the shifting stage from the shift determination unit and to transmit a signal such that vibration is generated in the shift mechanism when the shifting stage switched by operation of the shift mechanism is a drivable shifting stage, wherein when a driver operates the shift mechanism to switch a shifting stage to a drivable shifting stage, a signal according to the corresponding shifting stage is transmitted to enable the driver to recognize the switched shifting stage and thus to prevent erroneous operation, ensuring driving safety.

A selector lever assembly for selecting and shifting to various driving modes in a vehicle transmission may include a rotary knob that is connected to a shaft element supported in a housing, where the driving modes are assigned to the rotational range of the shaft element, and separated from one another by a latching contour that can be felt by a driver, and where the rotation of the shaft element can be blocked by a locking contour, and where the shaft element is connected to a disk element for conjoint rotation, but can be displaced axially in order to activate and deactivate at least one further function mode.

A selector lever assembly for selecting and shifting to various driving modes in a vehicle transmission may include a rotary knob that is connected to a shaft element supported in a housing, where the driving modes are assigned to the rotational range of the shaft element, and separated from one another by a latching contour that can be felt by a driver, and where the rotation of the shaft element can be blocked by a locking contour, and where the shaft element is connected to a disk element for conjoint rotation, but can be displaced axially in order to activate and deactivate at least one further function mode.