A steering device according to an aspect of the present disclosure includes: a column unit configured to rotatably support a steering shaft; a front bracket configured to rotatably support the column unit; a lock bolt configured to protrude in a right-left direction from the column unit; a rear bracket that includes a tilt guide hole and is attached to a vehicle body behind the front bracket, the tilt guide hole guiding the lock bolt to move upward and downward as the column unit rotates around an axis; and a connection piece bridged between the front bracket and the rear bracket in a state of being fixed to each of the front bracket and the rear bracket.

A steering device according to an aspect of the present disclosure includes: a column unit configured to rotatably support a steering shaft; a front bracket configured to rotatably support the column unit; a lock bolt configured to protrude in a right-left direction from the column unit; a rear bracket that includes a tilt guide hole and is attached to a vehicle body behind the front bracket, the tilt guide hole guiding the lock bolt to move upward and downward as the column unit rotates around an axis; and a connection piece bridged between the front bracket and the rear bracket in a state of being fixed to each of the front bracket and the rear bracket.

Machine-learning-based steering torque non-uniformity compensation for vehicles is enabled. For example, a system can comprise a memory that stores computer executable components, and a processor that executes the computer executable components stored in the memory, wherein the computer executable components comprise: a machine learning component that generates a steering non-uniformity model based on machine learning applied to past steering data representative of positions and steering ratios of a steering wheel of a vehicle, and a torque compensation component that, using current position data representative of a current position of the steering wheel and the steering non-uniformity model, determines a torque to apply to the steering wheel configured to offset a steering non-uniformity at the current position.

Systems and methods are disclosed for supporting and executing automated control of adjustable components of a vehicle based on occupant classification in a group identity database. Methods and systems for generating and employing the group identity database are also disclosed. Occupancy information may be utilized to determine how the group identity database is employed.

Systems and methods are disclosed for supporting and executing automated control of adjustable components of a vehicle based on occupant classification in a group identity database. Methods and systems for generating and employing the group identity database are also disclosed. Occupancy information may be utilized to determine how the group identity database is employed.

In a steering device according to an aspect of the present disclosure, a driven cam includes a lock position restriction surface with which a cam portion of a drive cam engages in a locked state and a release position restriction surface that is provided to be separated front the lock position restriction surface in a bolt circumferential direction and that engages with the drive cam in the bolt circumferential direction in an unlocked state. The cam portion includes a sliding surface that faces the driven cam in the unlocked state and a flank surface that faces the release position restriction surface in the bolt circumferential direction. The angle of the flank surface with respect to the bolt circumferential direction is smaller than the angle of the release position restriction surface with respect to the bolt circumferential direction.

In a steering device according to an aspect of the present disclosure, a driven cam includes a lock position restriction surface with which a cam portion of a drive cam engages in a locked state and a release position restriction surface that is provided to be separated front the lock position restriction surface in a bolt circumferential direction and that engages with the drive cam in the bolt circumferential direction in an unlocked state. The cam portion includes a sliding surface that faces the driven cam in the unlocked state and a flank surface that faces the release position restriction surface in the bolt circumferential direction. The angle of the flank surface with respect to the bolt circumferential direction is smaller than the angle of the release position restriction surface with respect to the bolt circumferential direction.

A locking device for an adjustable steering column assembly of a motor vehicle is described, comprising an operating unit which has at least one closed and one open position, a control element coupled to the operating unit, and at least one eccentric part which is actuated by the control element. A retaining part is provided, which interacts with the eccentric part in the closed position, wherein a locking portion of the eccentric part engages on an engaging portion of the retaining part in the closed position. The eccentric part has a force transmission portion which is substantially opposite to the locking portion, wherein the force transmission portion in the closed position rests against a support surface lying substantially opposite to the engaging portion. Furthermore, a steering column assembly is described.

A locking device for an adjustable steering column assembly of a motor vehicle is described, comprising an operating unit which has at least one closed and one open position, a control element coupled to the operating unit, and at least one eccentric part which is actuated by the control element. A retaining part is provided, which interacts with the eccentric part in the closed position, wherein a locking portion of the eccentric part engages on an engaging portion of the retaining part in the closed position. The eccentric part has a force transmission portion which is substantially opposite to the locking portion, wherein the force transmission portion in the closed position rests against a support surface lying substantially opposite to the engaging portion. Furthermore, a steering column assembly is described.

A column jacket can pivot in a tilt direction around an end of a steering shaft along with the steering shaft. When the column jacket is pivoted in the tilt direction, an engaging member moves in the tilt direction along with the column jacket. A position fixing mechanism has a pair of fixing members located adjacent to opposite ends of an engaged member in a longitudinal direction to fix the position of the engaged member in the tilt direction. The position fixing mechanism fixes the position of the column jacket in the tilt direction by engaging the engaged member with the engaging member. At a time of a secondary collision, the engaged member engaged with the engaging member breaks a front fixing member.