A seat includes a seat base including a first side and a second side, and a seat back including a first side portion and a second side portion. The seat back is pivotable between an upright configuration and a highly reclined configuration. A torso belt system is arranged at the seat system. The torso belt system includes a retractor mechanism positioned adjacent to one of the seat base and the seat back. An amount of flexible webbing includes a first end anchored at the retractor mechanism and a second end. A selectable anchor is connectable to the second end of the amount of flexible webbing. The selectable anchor is selectively arranged in a first position at the seat base when the seat back is in the upright seating configuration and in a second position at the seat back when the seat back is in the highly reclined seating configuration.

Method for controlling a vehicle including a smartphone-engaging coupling element. Data about operational status of the vehicle is transferred from one or more vehicle-resident systems to a smartphone when the smartphone is engaged with the coupling element. Commands are received by the vehicle from the smartphone when the smartphone is engaged with the coupling element, which commands being based in part on data previously transferred from the vehicle-resident system(s) to the smartphone when the smartphone is engaged with the coupling element. A vehicular system, e.g., seat positioning system, mirror positioning system, passenger compartment temperature control system, route guidance or navigation system, changes its operation in accordance with the commands received by the vehicle from the smartphone when the smartphone is engaged with the coupling element.

A seat system includes a seat having a seatback and a seat bottom extending in a seat-forward direction from the seatback. A seatbelt retractor is mounted to the seatback and an anchor is carried by the seat bottom and movable seat-rearward and seat-forward between a retracted position and an extended position. A seatbelt webbing extends from the seatbelt retractor and is attached to the anchor. An actuator is operatively coupled to the anchor to move the anchor between the retracted position and the extended position. A lock is operable to selectively retain the anchor in the retracted position.

An adjusting device for a safety belt in a vehicle comprises at least one extendable belt guiding element which is provided for guiding a portion of the safety belt and at least one supporting element which is connected to the belt guiding element and which is able to be at least partially extended together with the belt guiding element. The belt guiding element is able to be extended from a resting position in a direction of extension in order to facilitate the grasping of the safety belt by a vehicle occupant when fastening the safety belt. The supporting element is flexible but in the extended state of the belt guiding element is sufficiently rigid at least in one portion transversely to the direction of extension such that the belt guiding element is held in an extended position via the now rigid portion of the supporting element.

A vehicle seat belt system (20) has a seat belt webbing (22) which is attached to a tongue (30) that fastens into a buckle mechanism (6) fixed to a load bearing part of the vehicle. The belt system (20) has a seat belt retractor (40), a seat belt webbing (22) with a lap belt portion (23) appropriately anchored and shoulder harness portion (25), a self-adjustable webbing guide (65) and a vertical strap webbing (55). The self-adjusting webbing guide (65) includes a pivoting guide (66) connected to a locking mechanism (70) activated by a forward movement of the occupant (1, 100) extending the shoulder webbing (25).

A seat system includes a seat having a seatback and a seat bottom extending in a seat-forward direction from the seatback. A seatbelt retractor is mounted to the seatback and an anchor is carried by the seat bottom and movable seat-rearward and seat-forward between a retracted position and an extended position. A seatbelt webbing extends from the seatbelt retractor and is attached to the anchor. An actuator is operatively coupled to the anchor to move the anchor between the retracted position and the extended position. A lock is operable to selectively retain the anchor in the retracted position.

Various implementations include a system for adjusting the position of a seatbelt in a vehicle. The system includes a shoulder anchor, at least one sensor, and a processor. The shoulder anchor is for receiving a seatbelt. The shoulder anchor is movable relative to a seat disposed within the vehicle. The processor is in electrical communication with the sensor and a memory. The processor executes computer-readable instructions stored on the memory. The instructions cause the processor to receive sensor data from the sensor, determine whether the seatbelt is within an expected area on a person in the seat based on the received sensor data, and cause the shoulder anchor to move relative to the seat in response to the seatbelt being outside of the expected area on the person in the seat such that the seatbelt is moved into the expected area.

A system is described herein. The system comprises sensor modules; a memory; and a processor storing instructions in the memory that, when executed, causes the processor to: receive data comprising vehicle compartment features, occupant features and external environmental conditions from the sensor modules; determine a current setup of a seat belt and a current posture of an occupant based on the vehicle compartment features and the occupant features, respectively; determine critical features of the occupant based on at least one of the current posture of the occupant, the current setup of the seat belt and the external environment conditions; determine a deviation from the current setup of the seat belt based on at least one of the critical features of the occupant and the external environmental conditions; and communicate a command to actuators for changing a current height of the seat belt to an optimal height according to the deviation.

A seat system includes a seat having a seatback and an arm supported by the seatback. The arm is extendable from a stowed position to an intermediate position and pivotable in a seat-forward direction from the intermediate position to a deployed position. A webbing guide is fixed to and movable with the arm. The webbing guide is at a top end of the seatback when the arm is at the stowed position and the webbing guide is spaced from the seatback in the seat-forward direction when the arm is at the deployed position. A retractor is supported by the seatback at the top end and a webbing extends from the retractor through the webbing guide.

Various systems and methods are presented regarding automatically controlling a position of a seat belt located onboard a vehicle, wherein the position is controlled in accordance with physiology of an occupant utilizing the seat belt. By adjusting the position of the seat belt in accordance with the occupant's physiology, the seat belt system can be configured to improve operation of the seat belt in restraining the occupant during vehicle deceleration. Position of the seat belt can be controlled by a guidance device comprising a positionable guide pin which changes alignment of the seatbelt. A motor can be utilized to control positioning of the pin, wherein the motor can be controlled by a system configured to receive data from one or more sensors regarding any of the occupant's physiology, operation of the seat belt, position of the pin, and suchlike.