A restraint system includes a housing and a rotor engaged with the housing. The housing and the rotor define a cavity therebetween. A resilient material is disposed in the cavity. A helical interface is between the housing and the rotor. The rotor is moveable relative to the housing along the helical interface. A seat belt buckle is connected to and moveable relative to one of the housing and the rotor. During a vehicle impact, the seat belt buckle may cause the rotor to move along the helical interface towards the housing. In this situation, the resilient material may be compressed between the rotor and the housing.

A vehicle seatbelt assembly includes a first member, a second member, a buckle mechanism, and a clutch mechanism. The first member is configured to attach to one of a vehicle floor structure and a seat structure. The second member is supported on the first member. The second member is configured for limited sliding movement relative to the first member. The buckle mechanism is attached to the second member for movement therewith. The buckle mechanism has a latch device configured to releaseably retain a seatbelt latch tongue member. The clutch mechanism is disposed between the first member and the second member and is operable to switch between a dis-engaged state and an engaged state. In the dis-engaged state, the clutch mechanism allows movement of the second member relative to the first member. In the engaged state, the clutch mechanism prevents movement of the second member relative to the first member.

A three-point seatbelt device includes: a webbing configured to function as a shoulder belt and a lap belt; a shoulder-side reeler that includes a pre-tensioner mechanism and a shoulder-side force limiter mechanism, and is configured to reel up an end portion of the webbing on a shoulder belt side so as to allow the webbing to be pulled out; a tongue mounted on the webbing; and an inner belt including a buckle to which the tongue is coupled, the inner belt including, of a pre-tensioner mechanism and a buckle-side force limiter mechanism, only the buckle-side force limiter mechanism. An initial load of the buckle-side force limiter mechanism is set to be larger than an initial load of the shoulder-side force limiter mechanism.

A seatbelt tensioning assembly having a seatbelt, a buckle tongue and a tensioning device. The buckle tongue is configured for releasable attachment to a seatbelt buckle within the passenger compartment. The tensioning device is rigidly connected to the buckle tongue with a mid-section of the seatbelt extending through a hollow interior of the tensioning device. The hollow interior of the tensioning device has a first tensioning member disposed therein at least partially defining a seatbelt path having a serpentine shape such that in the absence of tension being applied to the seatbelt the mid-portion of the seatbelt moves through the seatbelt path with the seatbelt path defining a first overall length. With a pre-determined level of tension being applied to the seatbelt, the tensioning device is configured to shorten the seatbelt path to a second overall length smaller than the first overall length.

In a buckle device, a wire harness is connected to a buckle body, and the wire harness is mounted to a mounting plate of a boot. Therefore, in a case in which, at the time of light collision of a vehicle, tension is applied to a belt to extend the belt, and the buckle body is extended upward, the mounting plate is elastically bent, and the upward movement of the wire harness is allowed. Accordingly, it is possible to suppress disconnection of the wire harness.

A vehicle seatbelt assembly includes a first member, a second member, a buckle mechanism, and a clutch mechanism. The first member is configured to attach to one of a vehicle floor structure and a seat structure. The second member is supported on the first member. The second member is configured for limited sliding movement relative to the first member. The buckle mechanism is attached to the second member for movement therewith. The buckle mechanism has a latch device configured to releaseably retain a seatbelt latch tongue member. The clutch mechanism is disposed between the first member and the second member and is operable to switch between a dis-engaged state and an engaged state. In the dis-engaged state, the clutch mechanism allows movement of the second member relative to the first member. In the engaged state, the clutch mechanism prevents movement of the second member relative to the first member.

A restraint system includes a housing and a rotor engaged with the housing. The housing and the rotor define a cavity therebetween. A resilient material is disposed in the cavity. A helical interface is between the housing and the rotor. The rotor is moveable relative to the housing along the helical interface. A seat belt buckle is connected to and moveable relative to one of the housing and the rotor. During a vehicle impact, the seat belt buckle may cause the rotor to move along the helical interface towards the housing. In this situation, the resilient material may be compressed between the rotor and the housing.

A seatbelt tongue includes a webbing-receiving portion, a tongue portion, and a connecting portion connecting the webbing-receiving portion and the tongue portion. The connecting portion includes a lattice structure plastically deformable relative to the webbing-receiving portion and the tongue portion.

A seat belt buckle assembly includes a buckle housing; a plate extending from the buckle housing and defining a slot; and a bracket including a rivet engaged in the slot. The plate and rivet are configured such that, in response to an impact force that exceeds a threshold acting to pull the buckle housing away from the bracket, the slot plastically deforms, permitting the buckle housing and plate to translate relative to the bracket.

A seat belt buckle assembly includes a buckle housing; a plate extending from the buckle housing and defining a slot; and a bracket including a rivet engaged in the slot. The plate and rivet are configured such that, in response to an impact force that exceeds a threshold acting to pull the buckle housing away from the bracket, the slot plastically deforms, permitting the buckle housing and plate to translate relative to the bracket.