A multi-directional input device includes an operation knob, a plurality of direction setting switches, and a sensation generation unit. The operation knob is configured to be operable in multiple operation directions. The plurality of direction setting switches are configured to be turned on by being pressed when the operation knob is operated. The sensation generation unit is configured to generate different operation sensation from operation sensation generated by the direction setting switches. Sensation is generated by the sensation generation unit after at least one of the plurality of direction setting switches has been turned on in a predetermined operation direction out of the multiple operation directions.

A multi-directional input device includes an operation knob, a plurality of direction setting switches, and a sensation generation unit. The operation knob is configured to be operable in multiple operation directions. The plurality of direction setting switches are configured to be turned on by being pressed when the operation knob is operated. The sensation generation unit is configured to generate different operation sensation from operation sensation generated by the direction setting switches. Sensation is generated by the sensation generation unit after at least one of the plurality of direction setting switches has been turned on in a predetermined operation direction out of the multiple operation directions.

Provided is a rotary electric component in which the operation sensation is maintained over a long period. This rotary electric component comprises an operation part that is rotationally operated, a housing part that has an accommodation part with a corrugated part formed on a peripheral wall surface of the accommodation part; a rotary body that is accommodated in the accommodation part and connected to the operation part, and that is positioned so as to rotate along the peripheral wall surface in response to the rotation of the operation part; an impelling part that impels toward the peripheral wall surface; and a rotary piece that is positioned in the rotary body so as to be impelled by the impelling part and to abut the peripheral wall surface, rotates according to the rotation of the rotary body while moving along the peripheral wall surface, and has a recessed part that is for holding a lubricant and is formed in a facing surface facing the peripheral wall surface.

A scrolling shifter assembly having a housing rotatably supporting a scrolling wheel having a knurled exterior edge accessible to a vehicle operator, the scrolling wheel also including an annular side detent profile. A magnet is positioned in proximity to a sensor mounted to a printed circuit board (PCBA) within the housing and displaces relative to the sensor in response to rotation of the scrolling wheel. A display component is mounted in proximity to the PCBA. At least one haptic biasing component including any of spring loaded pawl or wave spring is supported within the housing and biases against the detent profile such that, and upon the operator actuating the scrolling wheel, the pawl is caused to displace relative to the profile in order to incrementally rotate the wheel, the magnet rotating relative to the PCBA sensor to cause an associated processor to electronically instruct a shift change to an engine control unit.

A scrolling shifter assembly having a housing rotatably supporting a scrolling wheel having a knurled exterior edge accessible to a vehicle operator, the scrolling wheel also including an annular side detent profile. A magnet is positioned in proximity to a sensor mounted to a printed circuit board (PCBA) within the housing and displaces relative to the sensor in response to rotation of the scrolling wheel. A display component is mounted in proximity to the PCBA. At least one haptic biasing component including any of spring loaded pawl or wave spring is supported within the housing and biases against the detent profile such that, and upon the operator actuating the scrolling wheel, the pawl is caused to displace relative to the profile in order to incrementally rotate the wheel, the magnet rotating relative to the PCBA sensor to cause an associated processor to electronically instruct a shift change to an engine control unit.

A seat belt fastened/unfastened state detection switch includes: a printed substrate that includes a circuit for detecting a fastened/unfastened state of a seat belt; a rotor that is rotatably attached to the printed substrate, includes a contact portion, the contact portion coming into contact with a tongue of the seat belt, and rotates in a forward direction in accordance with pushing of the tongue into a buckle; a spring that makes the rotor, the rotor being in a rotated state in the forward direction, rotate in a reverse direction in accordance with pulling of the tongue from the buckle; and an electric brush that is attached to a surface of the rotor, the surface facing the printed substrate, and includes a leg portion whose contact/non-contact state with respect to a conductive part of the circuit changes depending on a rotation state of the rotor.

A seat belt fastened/unfastened state detection switch includes: a printed substrate that includes a circuit for detecting a fastened/unfastened state of a seat belt; a rotor that is rotatably attached to the printed substrate, includes a contact portion, the contact portion coming into contact with a tongue of the seat belt, and rotates in a forward direction in accordance with pushing of the tongue into a buckle; a spring that makes the rotor, the rotor being in a rotated state in the forward direction, rotate in a reverse direction in accordance with pulling of the tongue from the buckle; and an electric brush that is attached to a surface of the rotor, the surface facing the printed substrate, and includes a leg portion whose contact/non-contact state with respect to a conductive part of the circuit changes depending on a rotation state of the rotor.

A knob device for vehicle includes a knob unit and a locking unit. The knob unit includes a rotating cover with an open end, a rotary shaft mounted to the open end, and a motor fixed to the rotating cover for driving the rotating cover to vibrate. The locking unit includes a rotary wheel which includes a main body fixed to the rotary shaft and latching teeth formed at a periphery of the main body and distributed in a ring around a central axis of the rotary wheel, a gap being defined between two neighboring teeth, an iron core configured to be inserted into the gap to limit rotation of the rotary wheel, and a solenoid connected to the iron core for driving the iron core to move. The knob device can realize locking of the rotary wheel clockwise and counter-clockwise, meeting requirement of diverse use.

A scrolling shifter assembly having a housing rotatably supporting a scrolling wheel having a knurled exterior edge accessible to a vehicle operator, the scrolling wheel also including an annular side detent profile. A magnet is positioned in proximity to a sensor mounted to a printed circuit board (PCBA) within the housing and displaces relative to the sensor in response to rotation of the scrolling wheel. A display component is mounted in proximity to the PCBA. At least one haptic biasing component including any of spring loaded pawl or wave spring is supported within the housing and biases against the detent profile such that, and upon the operator actuating the scrolling wheel, the pawl is caused to displace relative to the profile in order to incrementally rotate the wheel, the magnet rotating relative to the PCBA sensor to cause an associated processor to electronically instruct a shift change to an engine control unit.

A scrolling shifter assembly having a housing rotatably supporting a scrolling wheel having a knurled exterior edge accessible to a vehicle operator, the scrolling wheel also including an annular side detent profile. A magnet is positioned in proximity to a sensor mounted to a printed circuit board (PCBA) within the housing and displaces relative to the sensor in response to rotation of the scrolling wheel. A display component is mounted in proximity to the PCBA. At least one haptic biasing component including any of spring loaded pawl or wave spring is supported within the housing and biases against the detent profile such that, and upon the operator actuating the scrolling wheel, the pawl is caused to displace relative to the profile in order to incrementally rotate the wheel, the magnet rotating relative to the PCBA sensor to cause an associated processor to electronically instruct a shift change to an engine control unit.