An assembly includes a base defining a track and a hole. The assembly includes a plate slidably engaged with the track. The assembly includes a pin supported by the plate and movable between a first position engaged with the hole and a second position disengaged with the hole. The assembly includes an actuator designed to move the pin from the first position to the second position. The assembly includes a webbing guide supported by the plate.

A motor vehicle seat with an integrated child seat, the child seat comprising inflatable chambers that can be brought from a compressed The child seat includes air chambers that are inflatable in multiple, e.g., three, stages, and which are fixed, e.g., adhesively bonded or stitched, to the surface of the motor vehicle seat.

A belt buckle feeder comprises a base (12) adapted to be fixedly attached to the vehicle and a carriage (14) being movably supported on the base (12) to which carriage a belt buckle (20) can be coupled and which can be moved by a drive arranged on the base (12). The drive includes an electric motor (26) and a worm gear comprising a worm shaft (34) which has a worm (36) as well as drive spur wheel teeth (40), with the shaft (28) of the electric motor (26) including a pinion (30) which is engaged in the drive spur wheel teeth (40) and drives the worm shaft (34).

Adaptive seatbelt systems and methods are provided for adjusting the position of a seatbelt relative to an occupant. An adaptive seatbelt system for a vehicle includes a seat. A belt is configured to restrain an occupant in the seat. An anchor point along the belt is provided at an elevated position. An actuator raises or lowers the anchor point relative to the seat. A controller receives an input signal containing occupant identifying information and biometric data corresponding to occupant identification data. A processor compares the occupant identifying information to occupant identification data to verify an occupant's identity. The processor may determine an optimal comfort height or an optimal restraint height for the third anchor point based on the biometric data. The actuator adjusts the anchor point to the optimal comfort height or to the optimal restraint height in response to signals from the processor.

Vehicular control method to avoid collisions in which a smartphone is coupled to the vehicle while in a vehicular compartment. Data is generated from vehicle-resident sensors about operation of the vehicle and transferred from the vehicle to the smartphone while the smartphone is coupled to the vehicle. A communications network with another vehicle is established using the smartphone and the data transferred from the vehicle to the smartphone and data from sensors on the smartphone is transmitted via the smartphone and established communications network to other vehicle, the data including data about location and movement of the vehicle. Then, while the smartphone is coupled to the vehicle, a vehicular operational function is controlled based in part on data transmitted using the smartphone and established communications network to cause movement of the vehicle to change in order to avoid a collision with the other vehicle.

A seatbelt positioning assembly, includes a base member, an extensible member, a positioning mechanism and an electronic controller. The base member is configured to attach to a vehicle pillar structure of a vehicle adjacent to a vehicle seat assembly. The extensible member is coupled to the base member and has a D-ring of a seatbelt assembly fixed a distal end thereof. The positioning mechanism is connected to the extensible member and is supported to the base member. The position mechanism is configured to move the extensible member such that the D-ring is positioned and re-positioned between a stowed position adjacent the vehicle pillar structure and an extended position adjacent to the vehicle seat assembly. The electronic controller is connected to the positioning mechanism and configured to operate the positioning mechanism to move the extensible member positioning the D-ring between the stowed position and the extended position.

A method for setting a safety belt in a vehicle is provided. For the adjustment of the safety belt an adjusting apparatus is provided, the position of a deflection point for the safety belt being able to be set thereby and the safety belt extending therefrom in the direction of the shoulder of a vehicle occupant fastened-in by the safety belt, and the position of the deflection point is automatically set by means of at least one sensor device in order to adapt the path of the safety belt to the fastened-in vehicle occupant. Via the sensor device an angle is evaluated which is present between a belt portion which extends from the deflection point in the direction of the shoulder of the fastened-in vehicle occupant and a further belt portion and/or a part fixed to the bodywork or seat part.

Adaptive seatbelt systems and methods are provided for adjusting the position of a seatbelt relative to an occupant. An adaptive seatbelt system for a vehicle includes a seat. A belt is configured to restrain an occupant in the seat. An anchor point along the belt is provided at an elevated position. An actuator raises or lowers the anchor point relative to the seat. A controller receives an input signal containing occupant identifying information and biometric data corresponding to occupant identification data. A processor compares the occupant identifying information to occupant identification data to verify an occupant's identity. The processor may determine an optimal comfort height or an optimal restraint height for the third anchor point based on the biometric data. The actuator adjusts the anchor point to the optimal comfort height or to the optimal restraint height in response to signals from the processor.

A restraint positioning system includes a first rail that extends along a first axis, and a first bracket that is coupled to the first rail such that the first bracket is selectively positionable along the first rail, the first bracket configured for attachment of an anchor thereto. The restraint positioning system also includes a second rail that extends along a second axis, and a second bracket that is coupled to the second rail such that the second bracket is selectively positionable along the second rail, the second bracket configured for attachment of an anchor thereto.

A seatbelt system includes a stanchion having a first end and a second end and a linear actuator fixedly connected relative to the stanchion. The linear actuator includes a shuttle. The shuttle is shiftable between the first end and the second end of the stanchion. A seatbelt is supported by the stanchion. The seatbelt includes a buckle, a lap portion, and a shoulder portion. The lap portion is connected to the shuttle. A controller is operatively connected to the linear actuator. The controller selectively raises the shuttle to lift the lap portion of the seatbelt toward the second end of the stanchion to accommodate an individual using a wheel chair.