A control knob for an appliance includes an outer control ring, a stationary hub, a rotation modulating mechanism coupled to the outer control ring and engaged with an outer surface of the stationary hub, wherein the outer control ring is rotationally operable about the stationary hub at a first rate, an indicial ring positioned around the stationary hub, wherein the indicial ring engages a portion of the rotation modulating mechanism, wherein rotation of the outer control ring at the first rate causes the rotation modulating mechanism to rotate the indicial ring about the stationary hub at a second rate, the second rate being different than the first rate and an encoder shaft positioned within the stationary hub, wherein an inner gearing mechanism extends between an exterior surface of the encoder shaft and one of the outer control ring and the indicial ring.

A control knob for an appliance includes an outer control ring, a stationary hub, a rotation modulating mechanism coupled to the outer control ring and engaged with an outer surface of the stationary hub, wherein the outer control ring is rotationally operable about the stationary hub at a first rate, an indicial ring positioned around the stationary hub, wherein the indicial ring engages a portion of the rotation modulating mechanism, wherein rotation of the outer control ring at the first rate causes the rotation modulating mechanism to rotate the indicial ring about the stationary hub at a second rate, the second rate being different than the first rate and an encoder shaft positioned within the stationary hub, wherein an inner gearing mechanism extends between an exterior surface of the encoder shaft and one of the outer control ring and the indicial ring.

The operating device (12) for a vehicle component, especially a radio, a CD and/or DVD player, a navigation device, an infotainment device, a controller for a heating or air-conditioning device, or a man-machine interface, comprises a housing (10) having a front face (14) and a longitudinally extending key body (26) that has an actuation end (24) projecting over the front face (14) of the housing (10) and a bearing end arranged inside the housing (10). The actuation end (24) has an upper side (42) and a lower side (46) that extend across the front face (14) at a non-zero angle and project therefrom, and can be actuated to input an operating command by manually exerting force onto the upper or lower side (42, 46). The operating device further comprises a support (28) which has a bearing end (30) by which the key body (26) can be moved in two spatial axes that are orthogonal to each other. The bearing (30) comprises at least three suspension elements (32, 34) by means of which the bearing end of the key body (26) is movably held on the support (28) and which are arranged in at least two spaced-apart suspension planes (36, 38) that extend in parallel to each other and to the length of the key body (26).

A method and apparatus for using unique landmarks to position industrial vehicles during start-up. In one embodiment, a method of using pre-positioned objects as landmarks to operate an industrial vehicle is provided. The method comprises identifying a start-up scenario from sensor data, wherein the start-up scenario comprises a unique marker start-up or a pre-positioned object start-up. in response to the identified start-up scenario, either a unique marker or pre-positioned object is identified within a physical environment, wherein the pre-positioned object or unique marker corresponds with a sub-area of the physical environment. The industrial vehicle pose is determined in response to the identity of the pre-positioned object or unique marker and the industrial vehicle is operated based on the determined industrial vehicle pose.

Disclosed are device and method for driving a shift lever. The device may include a control unit that sets a travel distance of the shift lever when the shift lever is manipulated to a predetermined shift stage to be different than a reference travel distance of the shift lever, which is a travel distance of the shift lever when the shift lever is manipulated to shift stages other than the predetermined shift stage. The device may further include a driving unit which restricts a travel of the shift lever or moves the shift lever depending on a setting of the control unit.

The present disclosure provides an instant embedded manual control, which comprises a remote control; and a face shell containing the remote control. The face shell is provided with groups of positioning ribs that are used to embed the manual control into a carrier platform of the manual control; the face shell is also provided with a plurality of cone structures that are used to fix the manual control into the carrier platform by being inserted into a leather surface of the carrier platform when the manual control is embedded in the carrier platform; and at least one button is arranged on the face shell.

A control knob for an appliance includes an outer control ring, a stationary hub, a rotation modulating mechanism coupled to the outer control ring and engaged with an outer surface of the stationary hub, wherein the outer control ring is rotationally operable about the stationary hub at a first rate, an indicial ring positioned around the stationary hub, wherein the indicial ring engages a portion of the rotation modulating mechanism, wherein rotation of the outer control ring at the first rate causes the rotation modulating mechanism to rotate the indicial ring about the stationary hub at a second rate, the second rate being different than the first rate and an encoder shaft positioned within the stationary hub, wherein an inner gearing mechanism extends between an exterior surface of the encoder shaft and one of the outer control ring and the indicial ring.

A method of configuring a control schedule for an environmental control system using a control device is disclosed. The control device has a display and a directional input element such as a rotary dial. The method involves performing a time period configuration process for a sequence of time periods. A time period is added to the control schedule and a representation of the added time period is displayed. In response to directional activation of the directional input element, a duration of the added time period is adjusted, with the representation being updated to indicate the adjusted duration. The adjusted duration is stored in response to a confirmation input signal. The time period configuration process is repeated until it is determined that no more time periods are to be added to the control schedule.