Patent application number | Description | Published |
20120153675 | Reinforced B-Pillar Assembly with Reinforced Rocker Joint - A reinforced B-pillar assembly that achieves improved side impact resistance is provided in which the B-pillar assembly is mechanically coupled to an outer mounting surface of the rocker panel as well as to an extended brace that is attached to the upper and rear mounting surfaces of the rocker. | 06-21-2012 |
20120153682 | Single Piece Vehicle Rocker Panel - A vehicle rocker panel is provided that is extruded as a single piece. As extruded, the rocker panel may include one or more interior reinforcing walls as well as interior and exterior design features. | 06-21-2012 |
20120161472 | System for Absorbing and Distributing Side Impact Energy Utilizing an Integrated Battery Pack - An energy absorbing and distributing side impact system for use with a vehicle is provided, the system utilizing a battery pack enclosure that includes a plurality of cross-members that transverse the battery pack enclosure and absorb and distribute at least a portion of the load received when either the first or second side of the vehicle receives a side impact. The battery pack enclosure is positioned between the front and rear vehicle suspension assemblies and mounted between, and mechanically coupled to, vehicle structural members (e.g., rocker panels) located on either side of the vehicle. In addition to providing rigidity, strength and impact resistance, the battery pack cross-members segregate the batteries contained within the battery pack enclosure into battery groups. | 06-28-2012 |
20120169023 | Vehicle Front Shock Tower - A front structure for a vehicle is provided, the structure including a single piece shock tower and an upper control arm, where the front coupling of the upper control arm is attached to the shock tower at a location directly above a corresponding surface of the shock tower such that the front coupling is exposed from above, and where the rear coupling of the upper control arm is attached to the shock tower at a location directly below a corresponding surface of the shock tower such that the rear coupling is unexposed from above. | 07-05-2012 |
20120169089 | Rear Vehicle Torque Box - A rear structure for a vehicle is provided, the structure including (i) a pair of single piece rear torque boxes; (ii) a pair of rocker panels mechanically coupled to the rear torque boxes; (iii) a pair of rear rails mechanically coupled to the rear torque boxes; and (iv) at least one cross-member interposed between and mechanically coupled to the rear torque boxes. | 07-05-2012 |
20120175897 | Front Rail Configuration for the Front Structure of a Vehicle - A front structure for a vehicle is provided that includes a pair of front rails (i.e., front left hand rail and front right hand rail) spaced apart in a widthwise direction with each rail extending lengthwise and mechanically coupled to the vehicle's bumper and a torque box. Each front rail is comprised of a polygonal-shaped upper hollow channel and a polygonal-shaped lower hollow channel, where the upper and lower channels share a common wall. | 07-12-2012 |
20120175898 | Bumper Mounting Plate for Double Channel Front Rails - A front structure for a vehicle is provided, the structure including (i) a pair of front rails (i.e., front left hand rail and front right hand rail) spaced apart in a widthwise direction with each rail extending lengthwise, and where each rail is comprised of a polygonal-shaped upper hollow channel and a polygonal-shaped lower hollow channel with the upper and lower channels sharing a common wall; and (ii) a pair of bumper mounting plates, where one bumper mounting plate is interposed between the end portion of each channel of each rail and the vehicle's bumper, and where each bumper mounting plate aligns the upper rail channels with the vehicle's bumper while transferring impact loads to both the upper and lower rail channels. | 07-12-2012 |
20120175899 | Front Rail Reinforcement System - A front structure for a vehicle is provided, the structure including (i) a pair of front rails (i.e., front left hand rail and front right hand rail) spaced apart in a widthwise direction with each rail extending lengthwise, where one end portion of each rail is mechanically coupled to the vehicle's bumper and the other end portion of each rail is mechanically coupled to a torque box, and where each rail is comprised of a polygonal-shaped upper hollow channel and a polygonal-shaped lower hollow channel, and where the upper and lower channels share a common wall; and (ii) a pair of rail reinforcement members, where one rail reinforcement member is mechanically mounted within each front rail, and where a plurality of features corresponding to each reinforcement member determines how the rails react to front impact loads. | 07-12-2012 |
20120175916 | Swept Front Torque Box - A front structure for a vehicle is provided, the structure including (i) a pair of front rails spaced apart in a widthwise direction with each rail extending lengthwise, and where each rail is comprised of a polygonal-shaped upper hollow channel and a polygonal-shaped lower hollow channel with the upper and lower channels sharing a common wall; and (ii) a pair of curvilinear torque boxes, where one curvilinear torque box is mechanically attached to the upper and lower polygonal-shaped channels of each front rail, where each curvilinear torque box is mechanically coupled to a rocker panel, where the upper polygonal-shaped channel of each front rail is in a horizontal plane located above the top surface of the corresponding rocker panel, and where the lower polygonal-shaped channel of each front rail is in a horizontal plane that is aligned with the corresponding rocker panel. | 07-12-2012 |
20130088044 | System for Absorbing and Distributing Side Impact Energy Utilizing an Integrated Battery Pack and Side Sill Assembly - An energy absorbing and distributing side impact system for use with a vehicle is provided, the system utilizing a collapsible side sill along with multiple vehicle cross-members to achieve the desired level of vehicle side impact resistance, the combination of these elements absorbing and distributing the impact load throughout the vehicle structure. A battery pack enclosure that includes a plurality of cross-members that transverse the battery pack enclosure also help to absorb and distribute at least a portion of the load received when either the first or second side of the vehicle receives a side impact. In this configuration the battery pack enclosure is positioned between the front and rear vehicle suspension assemblies and mounted between, and mechanically coupled to, the side sill assemblies. In addition to providing rigidity, strength and impact resistance, the battery pack cross-members segregate the batteries contained within the battery pack enclosure into battery groups. | 04-11-2013 |
20130088045 | System for Absorbing and Distributing Side Impact Energy Utilizing a Side Sill Assembly with a Collapsible Sill Insert - An energy absorbing and distributing side impact system for use with a vehicle is provided, the system utilizing a collapsible side sill assembly along with multiple vehicle cross-members to achieve the desired level of vehicle side impact resistance, the combination of these elements absorbing and distributing the impact load throughout the vehicle structure. The collapsible side sill assembly includes a side sill insert, the insert divided into a collapsible portion designed to absorb impact energy and a reacting portion designed to distribute the impact energy to the vehicle cross-members. | 04-11-2013 |
20140182958 | SYSTEM FOR ABSORBING AND DISTRIBUTING SIDE IMPACT ENERGY UTILIZING AN INTEGRATED BATTERY PACK - An energy absorbing and distributing side impact system for use with a vehicle is provided, the system utilizing a battery pack enclosure that includes a plurality of cross-members that transverse the battery pack enclosure and absorb and distribute at least a portion of the load received when either the first or second side of the vehicle receives a side impact. The battery pack enclosure is positioned between the front and rear vehicle suspension assemblies and mounted between, and mechanically coupled to, vehicle structural members (e.g., rocker panels) located on either side of the vehicle. In addition to providing rigidity, strength and impact resistance, the battery pack cross-members segregate the batteries contained within the battery pack enclosure into battery groups. | 07-03-2014 |