At least some implementations of a transmission gear shifter include a first shift member, a second shift member, an actuator, multiple feedback surfaces and a follower. The actuator drives the second shift member between a first position and second position and thereby rotates the first shift member from one of the multiple positions to another of the multiple positions. The feedback surfaces are associated with the first shift member, and the follower is movable relative to the feedback surfaces between a first position and a second position. When the follower is in the first position, the follower is not engageable with the feedback surfaces, and when the follower is in the second position, the follower is engageable with the feedback surfaces and when the follower is in the second position there is relative sliding motion between the follower and the feedback surfaces when the first shift member is rotated.

The present invention relates to a control element, in particular, a switching device, for manually controlling and/or activating functions in a motor vehicle, comprising a lever. The lever is mounted on a support such that the lever can be adjusted in at least one direction from a neutral position to an adjustment position. The lever interacts with a pressure element which is guided in a gate track of a gate and is resiliently loaded, in particular, in such a way that a return force in the direction of the neutral position acts on the lever when it is adjusted. A cam is present in the gate. The cam, in the neutral position, acts upon the lever in order to reduce play such that the lever is biased in the direction towards the adjustment position.

A strength of an outer side portion in a second direction of a shift body is increased. In a shift device, when a lever is placed in an M position, a right avoidance hole of the lever avoids interference with a right restricting portion, rotational movement of a left restricting surface of the lever is restricted by a left restricting portion, and an operation to rotationally move the lever towards the right side is restricted. Furthermore, when the lever is placed in a D position, a left avoidance hole of the lever avoids interference with the left restricting portion, rotational movement of a right restricting surface of the lever is restricted by the right restricting portion, and an operation to rotationally move the lever-towards the left side is restricted. The right avoidance hole and the left avoidance hole can be made smaller, so that the strength of both outer side portions in a lateral directions of the lever can be increased.

A power tool includes a button useful to select a direction of rotation of the power tool. The button can be used to select between forward, reverse, and neutral. The power tool includes a housing which is coupled with an abutment structure which engages with the button. A sawtooth engagement is formed between the abutment structure and the button. The sawtooth engagement can be asymmetric in shape to provide different force vectors depending on whether the button is pushed in a first or a second direction. The sum of the resistive forces can be the same whether the button is pushed in the first or second direction, owing to the asymmetric forces caused by the sawtooth engagement which make up for differences in other internal resistive forces.

A dial type shift lever apparatus warns and limits a driver of mischievous manipulation of a rotation knob, preventing a mal-operation of gear shift and preventing a printed circuit board (PCB) circuit from being overloaded due to excessive manipulation of the rotation knob.

In a shift device, operating projections of a rotor cam restrict movement of restricting plates of a click body toward a lower side. Due to movement of the click body toward the lower side being restricted, separating of click pins from concave portions is restricted, and rotation of a knob from a shift position is restricted. Therefore, by using the click body (the click pins) and a click surface (the concave portions), rotation of the knob from a shift position can be restricted, and rotation of the knob can be restricted by a simple structure.

An operating device according to one embodiment includes a tiltable operating lever, a holding member that holds the operating lever, a locking member that restricts a tilt of the operating lever, a driving source, a hold driving mechanism driven by the driving source and configured to move the holding member between a hold position where the operating lever is held at a tilted position, and a return position where the operating lever returns to a predetermined position from the tilted position, and a lock driving mechanism driven by the driving source and configured to move the locking member between a lock position where the tilt of the operating lever is restricted, and a release position where restricting the tilt of the operating lever is released. The hold driving mechanism and the lock driving mechanism are respectively driven by the driving source at different timings.

An operating device includes a shaft operated to tilt, a contact section on the shaft in a biased state movable and tiltable integrally with the shaft, a first holding section generating a feeling of moderation by sliding against and holding the contact section at tilted positions the shaft, and a second holding section contacting the contact section, guiding the contact section to a predetermined position from the tilted positions, and holding the contact section at the predetermined position. The first holding section is movable between first and second positions. The contact section contacts the first holding section and is separated from the second holding section when the first holding section is at the first position. The contact section is separated from the first holding section and contacts the second holding section when the first holding section is at the second position.

A shift device includes a knob that is rotatable to select one of a plurality of gear modes of a transmission of a vehicle and a cam member that engages a portion of the knob in a rotation direction of the knob. The cam member rotates integrally with the knob only when engaged with the portion of the knob. The shift device further includes a drive source that rotates the cam member and a controller. The controller controls the drive source to rotate the knob to an operation position corresponding to a predetermined gear mode if a particular condition is satisfied. The controller decreases a voltage applied to the drive source when the cam member is rotated in at least a pre-engagement section until the cam member engages the portion of the knob from the voltage applied when the cam member is rotated in other sections.

A selector apparatus comprises a shift lever operably supported on a base for movement between gear positions, and a feel positioner mechanism with offset detent members, where a first detent engages first undulations for biasing the shift lever toward a center of a selected gear position from a first direction, and a second detent engages second undulations for biasing the selector lever toward the center of the selected gear position from a different second direction to the common center point. By the arrangement, the first and second undulations define opposing angled slopes toward the common center point. This allows the undulations to be designed to provide any desired level of biasing force toward the center point without the limitations of a single undulation defining the center point.