Embodiments of a heating appliance with control features such as knobs can provide tactile feedback to the user during knob operation. Tactile feedback through the knob, e.g., during rotation in one or more directions, can improve control precision. Beneficial control accuracy features, such as can be utilized during appliance operation and setting of parameters of the heating appliance. A user's desired setting, such as various cooking modes or an off position can therefore be input into the heating appliance with tactile control aspects. A user's desired setting can therefore be accurately set, including with the benefit of tactile control aspects.

Embodiments of a heating appliance with control features such as knobs can provide tactile feedback to the user during knob operation. Tactile feedback through the knob, e.g., during rotation in one or more directions, can improve control precision. Beneficial control accuracy features, such as can be utilized during appliance operation and setting of parameters of the heating appliance. A user's desired setting, such as various cooking modes or an off position can therefore be input into the heating appliance with tactile control aspects. A user's desired setting can therefore be accurately set, including with the benefit of tactile control aspects.

An embodiment steering system for a dual joystick includes left and right joysticks respectively disposed at left and right sides of a seat and configured to rotate about rotary shafts to steer, feedback actuators configured to provide reaction torque and a steering angle variation to the left and right joysticks, respectively, and a controller configured to control the feedback actuators, generate a target steering angle, and steer a vehicle based on a steering input from a driver and factors reflecting a driving state of the vehicle.

An operating device includes a first operating element with which a user can select one or numerous main functions of a vehicle and that can rotate about an axis of rotation and has at least one predefined fixed rotational position. A second operating element with which a user can adjust subfunctions of the main function can rotate about the axis of rotation and also comprises an actuator unit that comprises a magnetorheological medium configured to exert a retaining force on the second operating element based on a viscosity of the magnetorheological medium. The actuator unit is configured to set the viscosity on the basis of the main function selected with the first operating element, and on the basis of a rotational position of the second operating element.

An operating device for a vehicle comprises an outer unit that can be rotated manually, a detection device configured to detect the movement of the outer unit and generate a control signal using a value that characterizes the movement to control a vehicle function, and an actuator unit that contains a magnetorheological medium, which can be or is coupled to the outer unit and is configured to exert a retaining force on the outer unit based on the viscosity of the magnetorheological medium. The operating device also comprises a sensor unit located in the outer unit and configured to generate a hand signal indicating the absence of a user's hand on the outer unit, and a manipulating device for manipulating the control signal on the basis of the hand signal.

An operating device for a vehicle comprises an outer unit that can be rotated manually, a detection device configured to detect the movement of the outer unit and generate a control signal using a value that characterizes the movement to control a vehicle function, and an actuator unit that contains a magnetorheological medium, which can be or is coupled to the outer unit and is configured to exert a retaining force on the outer unit based on the viscosity of the magnetorheological medium. The operating device also comprises a sensor unit located in the outer unit and configured to generate a hand signal indicating the absence of a user's hand on the outer unit, and a manipulating device for manipulating the control signal on the basis of the hand signal.

Control device for operating at least one actuator of a vehicle, the control device comprising a deflectable control lever and a housing module, wherein a first guide element rotatable about a first rotation axis and a second guide element rotatable about a second rotation axis are provided, wherein the first guide element is arranged at a first end of the control lever and the second guide element is arranged between the first end and a second end of the control lever, wherein the housing module has through holes, which are designed as bearing for supporting the guide elements, so that the guide elements can be contacted from outside the housing module, wherein the housing module has a first coupling area on an outer side, wherein the first coupling area comprises a bearing of the bearings and the first coupling area is designed and provided to receive an additional module, which comprises an area formed at least partially complementary to the first coupling area, in such a way that the additional module can be functionally connected to the guide element.

The reaction force output device includes a drive source configured to output power to an operation portion in a direction opposite to an operating direction thereof; and a clutch mechanism interposed between the operation portion and the drive source and configured to connect and disconnect transmission of the power to the operation portion, wherein the clutch mechanism includes a first rotating body connected to the drive source side and to which the power of the drive source is transmitted, a second rotating body connected to the operation portion side, disposed coaxially with the first rotating body and configured to be relatively rotatable with respect to the first rotating body, a clutch lever rotatably supported by the first rotating body, and a plurality of engagement portions disposed at the second rotating body in a circumferential direction thereof and engaged with the clutch lever.

The reaction force output device includes a drive source configured to output power to an operation portion in a direction opposite to an operating direction thereof; and a clutch mechanism interposed between the operation portion and the drive source and configured to connect and disconnect transmission of the power to the operation portion, wherein the clutch mechanism includes a first rotating body connected to the drive source side and to which the power of the drive source is transmitted, a second rotating body connected to the operation portion side, disposed coaxially with the first rotating body and configured to be relatively rotatable with respect to the first rotating body, a clutch lever rotatably supported by the first rotating body, and a plurality of engagement portions disposed at the second rotating body in a circumferential direction thereof and engaged with the clutch lever.

This power transmission device includes a motor, a worm connected to a rotating shaft of the motor, and a worm wheel engaged with the worm and disposed at an operation pedal side with respect to the worm, wherein a biasing member which biases the motor in a direction in which the worm and the worm wheel come in contact with each other when the motor is driven is disposed between the motor and a housing.