Patent application number | Description | Published |
20120153680 | VEHICLE PILLAR WITH OPENING HAVING ANGLED FLANGE - A panel incorporated into a pillar of a vehicle body includes a base portion defining an opening, and a flange extending from an edge of the opening such that a portion of the flange forms an acute angle with the base portion. | 06-21-2012 |
20150115663 | FORMATION IN HOLLOW EXTRUDED VEHICLE FRAME COMPONENT FOR SUBASSEMBLY ATTACHMENT AND METHOD OF FORMING THE SAME - A frame component of a vehicle, such as a header beam that couples between the A-pillars of a vehicle frame, includes an extruded hollow member having top and bottom exterior walls and side walls that together enclose an elongated internal volume of the hollow member. A pair of interior walls extends along the internal volume separating outer load sections adjacent to the side walls from a central attachment section. The outer load sections are void of apertures for supporting continuous load paths. A formation on the bottom exterior wall protrudes into the internal volume in the central attachment section. The formation includes an inset surface angled, located, and otherwise configured for attaching a subassembly to the frame component. | 04-30-2015 |
20150115665 | HEADER BEAM OF A VEHICLE FRAME AND METHOD OF FORMING THE SAME - A header beam couples between A-pillars of a vehicle frame. The header beam is formed from a generally straight beam segment that is extruded to have a hollow body portion with supportive legs extending within the hollow interior along the length of the beam segment, defining uninterrupted forward and rearward box sections for supporting continuous load paths on the header beam. The end portions of the beam segment are clamped and the beam segment is stretch bent to form a curvature between the end portions that remain generally straight. A front flange extends forward along the body portion and is struck proximate the end portions to form an edge that is parallel to the curvature formed between the end portions. The end portions are attached to the A-pillars and the edge of the front flange is attached to a windshield. | 04-30-2015 |
20150115666 | HEADER BEAM OF A VEHICLE FRAME AND METHOD OF FORMING THE SAME - A header beam couples between A-pillars of a vehicle frame. The header beam is formed from a generally straight beam segment that is extruded to have a hollow body portion with supportive legs extending within the hollow interior along the length of the beam segment, defining uninterrupted forward and rearward box sections for supporting continuous load paths on the header beam. The end portions of the beam segment are clamped and the beam segment is stretch bent to form a curvature between the end portions that remain generally straight. A front flange extends forward along the body portion and is struck proximate the end portions to form an edge that is parallel to the curvature formed between the end portions. The end portions are attached to the A-pillars and the edge of the front flange is attached to a windshield. | 04-30-2015 |
20150336157 | METHODS OF FORMING HOLLOW EXTRUDED VEHICLE FRAME COMPONENT FOR SUBASSEMBLY ATTACHMENT - A frame component of a vehicle, such as a header beam that couples between the A-pillars of a vehicle frame, includes an extruded hollow member having top and bottom exterior walls and side walls that together enclose an elongated internal volume of the hollow member. A pair of interior walls extends along the internal volume separating outer load sections adjacent to the side walls from a central attachment section. The outer load sections are void of apertures for supporting continuous load paths. A formation on the bottom exterior wall protrudes into the internal volume in the central attachment section. The formation includes an inset surface angled, located, and otherwise configured for attaching a subassembly to the frame component. | 11-26-2015 |
20150352626 | METHOD OF HYDROFORMING AN EXTRUDED ALUMINUM TUBE WITH A FLAT NOSE CORNER RADIUS - A method of hydroforming a vehicle rail from an extruded aluminum tube includes the steps of positioning the extruded aluminum tube into a hydroforming die and partially closing the hydroforming die. Next is the step of applying a liquid under a first level of pressure to the extruded aluminum tube in the hydroforming die. This is followed by engaging an inner radius of a bend in the extruded aluminum tube with the hydroforming die before completely closing the hydroforming die and increasing the level of liquid pressure in the workpiece to a second level to form and hydro-pierce a part from the extruded aluminum tube. | 12-10-2015 |
20150360281 | ALUMINUM PORTHOLE EXTRUDED TUBING WITH LOCATING FEATURE - An extruded aluminum alloy tube for hydroforming into an automotive body component includes a wall defining a closed perimeter. The wall includes weld seams disposed in the wall and running longitudinally along the tube. An extruded pip is disposed on the wall and runs longitudinally along the tube. The pip is parallel to the seams and is configured to identify a location of the seams for alignment of the tube during manufacturing. | 12-17-2015 |
20150375794 | Gap Joint for Closed Section Load Transfer - A hydro-formed body side rail is assembled by a bracket to a front header. The front header is an extruded cross-car structural support that is joined to the body side rail by a framed joint. A gap is defined between the body side outer panel and the hydro-formed side rail relative to a lateral end of a front header. Side impact test loads are applied initially to the body side rail and compress the bracket. Compression of the bracket closes the gap and the impact loads are applied to the cross-car structural support. | 12-31-2015 |
20150375800 | Composite Reinforcement for Vehicle Body Structures - A reinforcement received between facing surfaces of adjacent panels that may be part of a hinge pillar of a vehicle such as a pickup truck and the panels may be aluminum. The reinforcement may be a one-piece molded structure. The reinforcement includes ribs that extend between the facing surfaces in a lattice arrangement defining a plurality of cells. The cells may have a number of transverse walls defining a perimeter of a polygon. The polygonal cells may have a facing wall on one side of the cell closing the cell. The facing wall may have an adhesive that is applied to the reinforcement and expanded in a paint bake oven to secure the reinforcement to the adjacent panels. | 12-31-2015 |