A motor vehicle, seat and multi-point restraint system combination may include one or a combination of means for selectively preventing forward pivoting of the seat, one or more web attenuators for dampen forces applied thereby by one or more respective shoulder webs of the multi-point restraint system, at least one sleeve received on at least one shoulder web and a corresponding sleeve adjuster for adjusting a position of the sleeve along the respective shoulder web, web retractors operatively coupled to each of a pair of lap webs and to each of a pair of thigh webs of the multi-point restraint system, and at least one web retractor operatively coupled to the shoulder webs of the multi-point restraint system.

The invention relates to a sensor (310), in particular for triggering a vehicle safety device (301), having a movable inertia body (350) which is movable relative to a carrier element (340) of the sensor (310), wherein the inertia body (350) is moved by inertia in relation to the carrier element (340) in the event of an abrupt change in speed or an inclination of the sensor (310) beyond a predetermined extent, and is brought from its inoperative position into its triggering position, through which a triggering position of the sensor (310) is brought about.

According to the invention, it is provided that the sensor (310) is provided with a deactivation device (700) which is suitable, in its deactivating state, to force the inoperative position of the inertia body (350).

The rotatable locking section engages with the fixed locking section resulting in pull-out direction rotation of the spool being locked. The webbing take-up device includes a permanent magnet and an electromagnet that restrict displacement of the rotatable locking section toward the fixed locking section, and that are actuated in a vehicle emergency so as to displace the rotatable locking section toward the fixed locking section. A restricting force of the rotatable locking section by the permanent magnet and the electromagnet is set such that the rotatable locking section is displaced toward the fixed locking section by an inertial force that spins the rotatable locking section about its own center of rotation when the electromagnet is deactivated and the spool has been rotated in the pull-out direction with an angular acceleration greater than a predetermined angular acceleration.

A restraint system includes a retractor housing, a spool rotatably coupled to the retractor housing and defining an axis of rotation, a threaded rod lockable relative to the retractor housing and elongated along the axis, a nut threaded on the threaded rod, and a spring elongated from a first end to a second end. The first end is fixed relative to the spool, and the second end is fixed relative to the nut.

A restraint system includes a retractor housing, a spool rotatably coupled to the retractor housing and defining an axis of rotation, a threaded rod lockable relative to the retractor housing and elongated along the axis, a nut threaded on the threaded rod, and a spring elongated from a first end to a second end. The first end is fixed relative to the spool, and the second end is fixed relative to the nut.

The invention relates to a sensor (310), in particular for triggering a vehicle safety device (301), having a movable inertia body (350) which is movable relative to a carrier element (340) of the sensor (310), wherein the inertia body (350) is moved by inertia in relation to the carrier element (340) in the event of an abrupt change in speed or an inclination of the sensor (310) beyond a predetermined extent, and is brought from its inoperative position into its triggering position, through which a triggering position of the sensor (310) is brought about. According to the invention, it is provided that the sensor (310) is provided with a deactivation device (700) which is suitable, in its deactivating state, to force the inoperative position of the inertia body (350).

The invention relates to a sensor (310), in particular for triggering a vehicle safety device (301), having a movable inertia body (350) which is movable relative to a carrier element (340) of the sensor (310), wherein the inertia body (350) is moved by inertia in relation to the carrier element (340) in the event of an abrupt change in speed or an inclination of the sensor (310) beyond a predetermined extent, and is brought from its inoperative position into its triggering position, through which a triggering position of the sensor (310) is brought about. According to the invention, it is provided that the sensor (310) is provided with a deactivation device (700) which is suitable, in its deactivating state, to force the inoperative position of the inertia body (350).

A vehicle safety system for helping to protect a vehicle occupant in the event of a frontal collision includes a controller, one or more crash sensors for sensing a frontal collision, and an active sensor for detecting objects in the path of the vehicle. The controller is configured to implement crash discrimination metrics that detect the occurrence of a frontal collision in response to signals received from the crash sensors. The crash discrimination metrics implement thresholds for determining whether the signals received from the crash sensors indicate the occurrence of a frontal collision. The controller is configured to implement an algorithm that uses information obtained from the active sensor to detect an object in the path of the vehicle and to select the thresholds implemented in the crash discrimination metrics in response to detecting the object.

A vehicle safety system for helping to protect a vehicle occupant in the event of a frontal collision includes a controller, one or more crash sensors for sensing a frontal collision, and an active sensor for detecting objects in the path of the vehicle. The controller is configured to implement crash discrimination metrics that detect the occurrence of a frontal collision in response to signals received from the crash sensors. The crash discrimination metrics implement thresholds for determining whether the signals received from the crash sensors indicate the occurrence of a frontal collision. The controller is configured to implement an algorithm that uses information obtained from the active sensor to detect an object in the path of the vehicle and to select the thresholds implemented in the crash discrimination metrics in response to detecting the object.

The invention relates to a belt retractor (10) for automotive vehicles, comprising a housing frame (12) including two opposed side walls (14, 16) each having a wall opening (18, 20), a belt reel (22) being rotatable about a reel axis (A) and extending in the axial direction from a sensor-side reel end (24) through the wall openings (18, 20) of the housing frame (12) to an opposite spring-side reel end (26), as well as a housing cover (28) being tightly connected to the housing frame (12), wherein the housing cover (28) forms a radially elastic pivot bearing (30) for the spring-side reel end (26) and wherein the spring-side reel end (26) of the belt reel (22) is fixed in the radial direction in a guiding-free manner and, resp., without any further guideway on the housing cover (28).