A method for sensing the webbing extension of a seat belt (12) from a webbing retractor (10) of a vehicle includes sensing the position of the magnet (18) by means of the magnetic field sensor (20) by the control unit (22). The control unit (22) detects when the magnet (18) has completed a full turn. The control unit (22) deposits the number of the full turns in a memory (26). The control unit (22) determines the webbing extension by way of number of the full turns and the position of the magnet (18). A webbing retractor (10) for a seat belt (12) has a magnet (18).

A method for sensing the webbing extension of a seat belt (12) from a webbing retractor (10) of a vehicle includes sensing the position of the magnet (18) by means of the magnetic field sensor (20) by the control unit (22). The control unit (22) detects when the magnet (18) has completed a full turn. The control unit (22) deposits the number of the full turns in a memory (26). The control unit (22) determines the webbing extension by way of number of the full turns and the position of the magnet (18). A webbing retractor (10) for a seat belt (12) has a magnet (18).

A restraint system is disclosed for use in vehicle seats that provides enhanced occupant restraint while minimizing belt loading injuries, is intuitive to don and remove, and includes an emergency release feature to allow rapid seat egress by eliminating continuous belt loops. The restraint uses improved belt routing to minimize upper torso rotation, which is critical for vehicles where occupant flail injuries from contact with the vehicle interior are likely. The installed restraint includes a crisscross belt pattern across both the occupant's upper torso and pelvis region, with an alternate configuration which incorporates a single lap belt. The restraint has demonstrated significantly reduced upper torso rotation compared to the current state-of-the-art, 5-point restraint system when exposed to a typical aerospace combined vertical and longitudinal crash pulse yet is as intuitive to don as the typical automotive-style 3-point restraint system.

A restraint system is disclosed for use in vehicle seats that provides enhanced occupant restraint while minimizing belt loading injuries, is intuitive to don and remove, and includes an emergency release feature to allow rapid seat egress by eliminating continuous belt loops. The restraint uses improved belt routing to minimize upper torso rotation, which is critical for vehicles where occupant flail injuries from contact with the vehicle interior are likely. The installed restraint includes a crisscross belt pattern across both the occupant's upper torso and pelvis region, with an alternate configuration which incorporates a single lap belt. The restraint has demonstrated significantly reduced upper torso rotation compared to the current state-of-the-art, 5-point restraint system when exposed to a typical aerospace combined vertical and longitudinal crash pulse yet is as intuitive to don as the typical automotive-style 3-point restraint system.

A locking web retractor includes a spool mounted between side walls of a frame and rotatable in web take-up and pay out directions, and a locking apparatus including a toothed wheel rotatable with the spool, a movable component and a lock pawl. The movable component moves between a locking position in which it forces an engagement end of the lock pawl into engagement with the toothed wheel to prevent the spool from rotating in the web pay out direction, and an unlocking position in which the movable component does not force the engagement end of the lock pawl toward the toothed wheel. The lock pawl defines a counterweight at an opposite end and configured, in the unlocking position of the movable component, to cause the lock pawl to move in a direction which draws the engagement end of the lock pawl away from the toothed wheel.

The relates to a sensor for activating a vehicle-sensitive locking mechanism of a belt retractor, comprising an inertia body, a bearing supporting the inertia body, a release element which can be moved out of an idle position by movement of the inertia body so as to activate the vehicle occupant restraint system, wherein the inertia body can be pivoted about a stationary point of rotation.

An engagement and disengagement device used in a seat belt retractor including a first rotating member capable of being driven to rotate about a rotation axis thereof, a second rotating member provided coaxially with the first rotating member and connected to a reel of the seat belt retractor in an anti-torsion manner, and a transmission member provided between the first and second rotating member. The first rotating member is capable of transmitting torque to the second rotating member by means of the transmission member. The transmission member includes a holder and a transmission element in the holder. A first elastic component elastically holds the transmission element by radially exerting a force that enables the transmission element to be located away from the first or the second rotating member, and the first elastic component is integrated on the holder.

An engagement and disengagement device used in a seat belt retractor including a first rotating member capable of being driven to rotate about a rotation axis thereof, a second rotating member provided coaxially with the first rotating member and connected to a reel of the seat belt retractor in an anti-torsion manner, and a transmission member provided between the first and second rotating member. The first rotating member is capable of transmitting torque to the second rotating member by means of the transmission member. The transmission member includes a holder and a transmission element in the holder. A first elastic component elastically holds the transmission element by radially exerting a force that enables the transmission element to be located away from the first or the second rotating member, and the first elastic component is integrated on the holder.

To provide a determination device and program that make it possible to improve accuracy of determining a sign related to a decrease in driving ability of a driver.

Provided is a determination device including: a sign determination section configured to determine a sign related to a decrease in driving ability of a driver who drives a mobile object on a basis of head movement measurement data obtained by measuring head movement of the driver and eye movement measurement data obtained by measuring eye movement of the driver; and a head swing control section configured to control a head swing section in such a manner that the head swing section swings the head of the driver.

There are provided a side panel constituting a vehicle side face at a higher level than a damper attachment portion suspending a rear wheel, a retractor fixed to a cabin-inside face of the side panel, a frame member forming a closed-cross section extending vertically in corporation with the side panel, and a reinforcing member fixed to the side panel. The reinforcing member comprises a retractor attachment portion to attach the retractor, a gusset portion to partition the closed-cross section of a C pillar reinforcement vertically, and a vibration-damping joint portion joined to the side panel via a vibration-damping material. Herein, the reinforcing member is formed integrally by a member which is configured to be continuous over a range of the retractor attachment portion, the gusset portion and the vibration-damping joint portion.