Patent application number | Description | Published |
20080238146 | FRONT RAIL HAVING CONTROLLED THICKNESS FOR ENERGY ABSORPTION - A frame rail for a vehicle that is provided between vehicle frame and the bumper of a vehicle that has a thickness that varies from the front end of the rail to the back end of the rail. The compressive strength of the rail increases from the front end of the rail to the back end of the rail. The rail is rectangular in shape and the thickness of the rail is continuously increased to improve progressive crush characteristics of the rail under an oblique loading. A rail may be provided by providing a tubular rail having a plurality of ring shaped segments that have incrementally increasing thickness. Alternatively, the rail may have a uniformly increasing thickness from the front end to the back end. | 10-02-2008 |
20110241385 | Vehicle Frame with Direction-Specific Deformation - The present disclosure relates to a vehicle frame with direction-specific deformation. The frame includes a rail with bended hinge(s) configured to deform the frame in a lateral direction in response to a longitudinal impact force and methods of manufacturing the same. | 10-06-2011 |
20110285176 | SUB-FRAME FOR MANAGING CRASH ENERGY - A vehicle sub-frame structure including a forward zone, extending substantially in the transverse direction towards the front of the vehicle. The forward zone has a first set of hinges and supports a radiator. A middle zone, including a pair of left and right members, extends substantially longitudinally and carries a second set of hinges. A rear zone includes a beam and is disposed substantially in the transverse direction. Both ends of the beam are attached to the sub-frame structure. | 11-24-2011 |
20120139216 | CURTAIN AIRBAG ASSEMBLY FOR A MOTOR VEHICLE - An airbag assembly for a motor vehicle includes an inflator and a curtain airbag securable to a body structure of the motor vehicle. The airbag includes two or more deployment tubes and two or more inflatable chambers. Vents connect the deployment chambers with the inflatable chambers. Gasses from the inflator pass first into the deployment tubes to rapidly inflate them to vertically extending positions and draw the airbag over a window opening. The gasses then pass through the vents into the inflatable chambers to complete the deployment of the curtain airbag. The rapid inflation and deployment of the deployment chambers provides cushioning for an occupant's head early in a crash event, followed by the inflation of the inflatable chambers to provide additional head protection and increasing the resistance of the curtain airbag to ejection through the underlying window apertures. | 06-07-2012 |
20130069395 | Roof Structure for a Vehicle With No Center Pillar - A vehicle roof system enabling elimination of the B-pillar is disclosed. A particular aspect of the invention is to transfer vertical roof loads onto an enhanced rear structure of the vehicle. An additional aspect of the invention is to employ a rear upper cap reinforcement to directly assume roof crush loads applied at front of the vehicle during testing. A specific load transfer mechanism is disclosed. Vertical roof crush force applied near the front of the vehicle is transferred into both a torsional load upon a rear header of the vehicle, and a bending moment upon the C-pillar of the vehicle. | 03-21-2013 |
20130181481 | FRANGIBLE CONNECTOR FOR A VEHICLE - A frangible vehicle sub-frame joint between a sub-frame and compartment pan. The sub-frame defines a clearance area forward of a collar. In a collision event, the collar is separated into a breakaway portion and a portion that is retained by the sub-frame. The breakaway portion breaks into a clearance area defined in front of the frame joint when the sub-frame is subjected to a front end impact. | 07-18-2013 |
20150021935 | COLLISION DEFLECTOR ASSEMBLY - A vehicle frame is provided having a frame. The frame includes a main rail and a lateral rail. A bracket is operably coupled to the main rail. The vehicle frame assembly also includes a wedged shape deflecting member. The wedged shape deflecting member has a first end which is operably coupled to the bracket and a second end which is operable between a standard use position and a collision event position. The standard use position is where the second end is spaced a predetermined distance from the main rail. The collision event position is when the second end is in abutting contact with the main rail. During a collision event, the second end moves from the standard use position to the collision event position such that the deflecting member absorbs and deflects energy imparted on the frame. | 01-22-2015 |
20150021936 | SLIDING DEFLECTOR ASSEMBLY - A vehicle frame assembly is provided comprising a main rail. The vehicle frame assembly also includes a deflector assembly which has a front member having an inboard end pivotally coupled to the main rail and an outboard end. Moreover, the deflector assembly includes a rear member having an inboard end slidably coupled to the main rail and an outboard end pivotally coupled to the outboard end of the front member. Additionally, a tension member is disposed between the inboard ends of the front member and the rear member. The deflector assembly is operable between a normal use position wherein the tension member is slack and a collision position wherein the tension member is taut. | 01-22-2015 |