A vehicle seating system includes a vehicle floor, a seat supported by the vehicle floor, a retractor mounted to the vehicle floor beneath the seat, a webbing guide supported by the seat, and a webbing extending from the retractor through the webbing guide.

A vehicle seating system includes a vehicle floor, a seat supported by the vehicle floor, a retractor mounted to the vehicle floor beneath the seat, a webbing guide supported by the seat, and a webbing extending from the retractor through the webbing guide.

A stopper that stops both seat belt anchorages, namely, a seat belt anchorage for a side seat and a seat belt anchorage for a center seat from rotating relatively to each other is provided. Besides, a coupling portion of the seat belt anchorage for the center seat is arranged such that a force is applied to the seat belt anchorage for the center seat in such a direction as to restrain the seat belt anchorage for the side seat from rotating forward with respect to a vehicle. Accordingly, the seat belt anchorage for the side seat can be restrained from rotating forward with respect to the vehicle due to the seat belt anchorage for the center seat, and an inter-EAP distance can be restrained from becoming short.

A stopper that stops both seat belt anchorages, namely, a seat belt anchorage for a side seat and a seat belt anchorage for a center seat from rotating relatively to each other is provided. Besides, a coupling portion of the seat belt anchorage for the center seat is arranged such that a force is applied to the seat belt anchorage for the center seat in such a direction as to restrain the seat belt anchorage for the side seat from rotating forward with respect to a vehicle. Accordingly, the seat belt anchorage for the side seat can be restrained from rotating forward with respect to the vehicle due to the seat belt anchorage for the center seat, and an inter-EAP distance can be restrained from becoming short.

A vehicle body structure includes a floor assembly, a B-pillar assembly, a seatbelt tensioning mechanism, a seatbelt pre-tensioning device and a support bracket. The B-pillar assembly is attached to the floor assembly and extends upwardly from the floor assembly. The seatbelt tensioning mechanism is supported to the floor assembly adjacent to an intersection between the floor assembly and the B-pillar. The seatbelt pre-tensioning device is positioned adjacent to the seatbelt tensioning device. The support bracket is fixed to the B-pillar and the seatbelt pre-tensioning device.

A vehicle body structure includes a floor assembly, a B-pillar assembly, a seatbelt tensioning mechanism, a seatbelt pre-tensioning device and a support bracket. The B-pillar assembly is attached to the floor assembly and extends upwardly from the floor assembly. The seatbelt tensioning mechanism is supported to the floor assembly adjacent to an intersection between the floor assembly and the B-pillar. The seatbelt pre-tensioning device is positioned adjacent to the seatbelt tensioning device. The support bracket is fixed to the B-pillar and the seatbelt pre-tensioning device.

A belt framework for a vehicle seat or a vehicle-seat bench, wherein the belt framework comprises a vertical support and a horizontally running transverse strut, wherein the transverse strut is arranged on the vertical support, wherein a component of a passenger-restraint system is fastened on an attachment element of the transverse strut when the vehicle seat and the belt framework are in an assembled state. The belt framework is distinguished in that the belt framework comprises a safety element, wherein the safety element is present on the transverse strut, along a longitudinal axis of the transverse strut, wherein the safety element, together with the transverse strut, encloses the vertical supports.

A belt framework for a vehicle seat or a vehicle-seat bench, wherein the belt framework comprises a vertical support and a horizontally running transverse strut, wherein the transverse strut is arranged on the vertical support, wherein a component of a passenger-restraint system is fastened on an attachment element of the transverse strut when the vehicle seat and the belt framework are in an assembled state. The belt framework is distinguished in that the belt framework comprises a safety element, wherein the safety element is present on the transverse strut, along a longitudinal axis of the transverse strut, wherein the safety element, together with the transverse strut, encloses the vertical supports.

A cam assembly includes a pin, a first cam, a second cam, and/or a bearing. The first cam may be connected to the pin, and/or the second cam may be connected to the pin. A bearing may be configured to rotatable support the pin. The second cam may include a first portion and/or a second portion. The first portion of the second cam may be configured to contact a track in a first vertical position of the pin. The second portion of the second cam may be configured to contact said track in a second vertical position of the pin. The first portion may be vertically offset from the second portion. The first position of the pin may correspond to an unloaded state. The second vertical position of the pin may correspond to a loaded state.

A cam assembly includes a pin, a first cam, a second cam, and/or a bearing. The first cam may be connected to the pin, and/or the second cam may be connected to the pin. A bearing may be configured to rotatable support the pin. The second cam may include a first portion and/or a second portion. The first portion of the second cam may be configured to contact a track in a first vertical position of the pin. The second portion of the second cam may be configured to contact said track in a second vertical position of the pin. The first portion may be vertically offset from the second portion. The first position of the pin may correspond to an unloaded state. The second vertical position of the pin may correspond to a loaded state.