System, methods, and other embodiments described herein relate to improving deployment of an airbag by controlling a steering wheel in a vehicle. In one embodiment, a method includes identifying at least a hand position for one or more hands of the operator on the steering wheel using orientation data acquired from at least one sensor of the vehicle. The method includes determining, as a function of at least the hand position, a mitigation action associated with deploying the airbag. The method includes, in response to detecting that deployment of the airbag is imminent, controlling the steering wheel according to the mitigation action.

A steering column may include an outer casing unit in which an inner casing tube that rotatably mounts a steering shaft is received such that the inner casing tube is displaceable and fixable in an axial direction. An energy absorption device operatively disposed between the casing tube and the casing unit may absorb at least some energy in a crash event where the casing tube is telescopically displaced relative to the casing unit. The energy absorption device may include a deformation strip fastened to but spaced apart from the casing tube, fixed in a radial direction by a spacer on the casing tube, to which deformation strip a deformation slide that is connected to the casing unit is disposed. The deformation slide may encompass and jam outer narrow sides of the deformation strip such that the deformation slide deforms the deformation strip in a crash event.

An occupant restraint structure (5) includes a steering wheel (300) provided with a grip section (310), an instrument panel (500), an airbag (410) and a collision control part (900). The grip section (310) has an acyclic shape. The steering wheel (300) is formed to be movable toward a front side or a lower side of the vehicle. Upon collision of the vehicle, the collision control part (900) is configured to deploy the airbag (410) after the steering wheel (300) is moved toward the front side or the lower side of the vehicle.

A passenger protection unit for a vehicle can comprise an adjustable steering apparatus configured to be lockable at least in a first position and a second position, an instrument panel, an airbag module comprising at least an airbag, a crash control unit, and a retracting mechanism configured to initiate a movement of the steering apparatus in a retracting direction, wherein the crash control unit is configured to release movement of the steering apparatus at least in the retracting direction upon detecting a crash risk or an upcoming crash, wherein the crash control unit is further configured to activate the retracting mechanism, and wherein the crash control unit is further configured to deploy the airbag upon an upcoming crash.

A telescoping steering column having a lower jacket extending along a central axis between a lower jacket lower end and a lower jacket upper end and an upper jacket extending along the central axis between an upper jacket lower end and an upper jacket upper end, with an actuator configured to impart a pressure between the lower jacket and the upper jacket to move the upper jacket from an extended operating position to a retracted stowed position.

One steering column assembly for use with a vehicle includes a jacket, a steering shaft rotatably supported by the jacket, and a retractor for moving the steering shaft from an extended position to a stowed position. The retractor does not interfere with rotation of the steering shaft when the steering shaft is at the extended position, and the retractor includes explosive material and a detonation device. The detonation device is in communication with the explosive material for detonating the explosive material when an impact event is sensed or predicted, and detonation of the explosive material results in the steering shaft moving from the extended position to the stowed position.

To provide an arrangement structure of electrical apparatuses in an electric automobile which can realize space savings of a space housing a plurality of electrical apparatuses. An arrangement structure of electrical apparatuses in an electric automobile includes: a vehicle body having a driver cabin and a housing space provided forward of the driver cabin; a plurality of electrical apparatuses (junction board, charger, voltage converter, battery heater) housed in the housing space; and a frame body retaining the plurality of electrical apparatuses to overlap vertically, in which a specific electrical apparatus positioned more downwards than a predetermined position among the plurality of electrical apparatus is arranged more downwards as having a shorter length in the front/rear direction of the vehicle body, or as having a shorter length in the width direction of the vehicle body.

A protective system for a motor vehicle with automatic electrical seat position control and/or automatic electrical steering wheel adjustment is provided. The protective system includes a seat position control unit, a steering wheel adjustment control unit, an accident detection device and a communications connection. The seat position control unit is deactivates the automatic electrical seat position control. The steering wheel adjustment control unit is deactivates the automatic electrical steering wheel adjustment. The accident detection device detects a traffic accident of the motor vehicle. The communications connection connects the accident detection device to the seat position control unit and/or the steering wheel adjustment control unit. The accident detection device outputs at least one accident signal to the communications connection in the event of the detection of a traffic accident of the motor vehicle.

A vehicle brake system comprises an input device (21) attached to a bulkhead (15) separating a power unit room and a passenger compartment of the vehicle from each other, and including a part extending into the power unit room. A free end of the part of the input device extending into the power unit room is fitted with a protective member (70) defining a slanted surface (70a) opposing the power unit and slanting rearward as one moves in a prescribed lateral direction so that the input device is protected from a frontal impact. In particular, the slanted surface aligns with a corner part (83a) of the power unit (83).

A steering column adjustment assembly includes a steering column that is automatically adjustable in an autonomous or semi-autonomous driving mode. Also included is a controller receiving information from at least one detection component, the controller adjusting the steering column in the autonomous or semi-autonomous driving mode to a position that is selected for an impact event, the position determined by at least one factor related to the information received from the at least one detection component.