Multi-tubular beam for a vehicle

What is claimed is: 1. A multi-tubular beam for a vehicle, the multi-tubular beam comprising: an elongated beam comprising a metal sheet having a central section and outer sections extending from opposing outer edges of the central section along a length of the metal sheet, the outer sections having bends along the length that dispose the outer sections in opposing directions from the outer edges of the central section to provide adjacent first and second tubular portions that extend along the central section of the metal sheet, the central section forming a common center wall between the adjacent first and second tubular portions; wherein a first edge portion of the metal sheet is disposed along and in parallel alignment with the center wall, the first edge portion attached to the center wall at a first weld joint to form the first tubular portion, the first weld joint comprising a weld material that extends through a thickness of the center wall and into a thickness of the first edge portion; and wherein a second edge portion of the metal sheet is disposed against a side wall of the first tubular portion, the second edge portion attached to the side wall at a second weld joint to form the second tubular portion. 2. The multi-tubular beam of claim 1 , wherein the weld material of the first weld joint extends perpendicular to the center wall. 3. The multi-tubular beam of claim 1 , wherein the weld material of the first weld joint comprises molten metal of the first edge portion and the center wall that is formed from a laser directed at an end section of the center wall that overlaps with the first edge portion. 4. The multi-tubular beam of claim 1 , wherein the first weld joint comprises a heat affect zone extending outward from opposing sides of the weld material, the heat affect zone having a width less than 2 mm. 5. The multi-tubular beam of claim 1 , wherein the first weld joint extends continuously along the elongated beam to enclose the interior of the first tubular portion. 6. The multi-tubular beam of claim 1 , wherein the first edge portion is planar section of the metal sheet that is defined between an edge of the metal sheet and a bend corner of the first tubular portion that is disposed at an end of the center wall. 7. The multi-tubular beam of claim 1 , wherein the second weld joint comprises a second weld material that extends through a thickness of the second edge portion and into a thickness of the side wall. 8. The multi-tubular beam of claim 7 , wherein the second weld material extends perpendicular to the side wall of the first tubular portion, and wherein the side wall is disposed perpendicular to the center wall of the elongated beam. 9. The multi-tubular beam of claim 8 , wherein the second weld material of the second weld joint comprises molten metal of the second edge portion and the side wall that is formed from a laser directed at the second edge portion that overlaps with the side wall. 10. The multi-tubular beam of claim 7 , wherein the first and second weld joints each comprise a heat affect zone having a width between 1 mm and 2 mm. 11. The multi-tubular beam of claim 1 , wherein metal sheet comprises steel, and wherein the thickness of the metal sheet is less than 1.5 mm. 12. A multi-tubular beam for a vehicle, the multi-tubular beam comprising: an elongated beam comprising a metal sheet having a central section and outer sections extending from opposing outer edges of the central section along a length of the metal sheet, the outer sections having bends along the length that dispose the outer sections in opposing directions from the outer edges of the central section to provide adjacent first and second tubular portions that extend along the central section of the metal sheet, the central section forming a common center wall between the adjacent first and second tubular portions; wherein a first edge portion of the metal sheet is defined between an outer edge of the metal sheet and a bend corner of the first tubular portion that is disposed at an end of the center wall, the first edge portion attached to the center wall at a first weld joint to enclose the first tubular portion; and wherein the first weld joint comprises a weld material that extends through a thickness of the center wall and into a thickness of the first edge portion, the weld material of the first weld joint comprising molten metal of the first edge portion and the center wall that is formed from a laser directed at an end section of the center wall that overlaps with the first edge portion. 13. The multi-tubular beam of claim 12 , wherein the weld material of the first weld joint extends in a direction generally perpendicular to the center wall. 14. The multi-tubular beam of claim 12 , wherein the first weld joint comprises a heat affect zone extending outward from opposing sides of the weld material, the heat affect zone having a width between 1 mm and 2 mm. 15. The multi-tubular beam of claim 12 , wherein the metal sheet comprises steel, and wherein the thickness of the metal sheet is less than 1.5 mm. 16. The multi-tubular beam of claim 12 , wherein a second edge portion of the metal sheet is disposed against a side wall of the first tubular portion, the second edge portion attached to the side wall at a second weld joint to enclose the second tubular portion. 17. The multi-tubular beam of claim 16 , wherein the first and second weld joints each comprise a heat affect zone having a width less than 2 mm. 18. The multi-tubular beam of claim 17 , wherein the second weld joint comprises a second weld material that extends through a thickness of the second edge portion and into a thickness of the side wall. 19. The multi-tubular beam of claim 18 , wherein the second weld material of the second weld joint comprises molten metal of the second edge portion and the side wall. 20. A method of forming a multi-tubular beam, the method comprising the steps of: uncoiling a metal sheet in a generally horizontal plate into a roll former, the metal sheet having a central section and first and second outer sections on opposing sides of the central section along a length of the metal sheet, the first outer section having a first edge portion of the and the second outer section having an opposing second edge portion of the metal sheet; roll forming the metal sheet successively with a first series of forming rolls of the roll former, the first series forming the first outer section of the metal sheet to dispose the first edge portion of the metal sheet into contact with the central section to form a first tubular portion; welding the first edge portion to the central section of the metal sheet to form a first weld joint that encloses the first tubular portion, the first weld joint comprising a weld material that extends through a thickness of the central section and into the first edge portion; and after forming the first weld joint, roll forming the metal sheet successively with a second series of forming rolls of the roll former, the second series forming the second outer section of the metal sheet to dispose the second edge portion of the metal sheet into contact with the first tubular portion to form a second tubular portion; and welding the second edge portion to the first tubular portion to form a second weld joint that encloses the second tubular portion, the central section of the metal sheet disposed between the first and second tubular portions to form a common center wall. 21. The method of claim 20 , wher