Protective helmet with multi-density impact liners and method for same

What is claimed is: 1. A method for forming a helmet, the method comprising: forming a puck having an interface surface and at least one side; after forming the puck, then placing the interface surface of the puck in direct contact with a receiving surface of a cap located in an impact liner mold; and after placing the interface surface of the puck, then thermally fusing the interface surface of the puck directly to the receiving surface of the cap while contemporaneously forming an impact liner body inside the impact liner mold around the puck. 2. The method of claim 1 , wherein thermally fusing the interface surface comprises forming the impact liner body having a first density less than a density of the puck. 3. The method of claim 1 , wherein forming a puck comprises forming a puck comprising expanded polystyrene (EPS), and placing an interface surface of the puck further comprises providing the cap comprising polycarbonate. 4. The method of claim 3 , wherein the thermally fusing the interface surface comprises forming the impact liner body having a first density less than a density of the puck, the impact liner body having a first thickness substantially equal to a thickness of the puck, and thermally fusing the interface surface further comprises fusing the at least one side of the puck to the impact liner body. 5. The method of claim 1 , wherein thermally fusing the interface surface further comprises thermally fusing the interface surface of the puck directly to the receiving surface of the cap to be in contiguous contact with the receiving surface of the cap. 6. The method of claim 1 , wherein placing the interface surface of the puck comprises placing the puck proximate a front edge of the cap. 7. The method of claim 1 , wherein thermally fusing the interface surface further comprises exposing at least one of the at least one side of the puck adjacent to an edge of the cap after the impact liner body is formed. 8. The method of claim 1 , wherein placing an interface surf ace of the puck further comprises placing the puck over the cap such that the receiving surface of the cap is an outer surface of a multi-liner rotation cap, the outer surface facing away from an interior of the helmet. 9. The method of claim 1 , wherein placing an interface surf ace of the puck further comprises placing the cap over the puck such that the receiving surface of the cap is an inner surface of an external helmet cap, the inner surface facing toward an interior of the helmet. 10. A method for forming a helmet, the method comprising: forming a puck having an interface surface and at least one side; providing a cap having a receiving surface; after forming the puck, then placing the puck and the cap into an inner impact liner mold with the interface surface of the puck in direct contact with a first portion of the receiving surface of the cap; and after placing the puck and the cap, thermally fusing the interface surface of the puck with the first portion of the receiving surface of the cap while contemporaneously in-molding the impact liner body inside the inner impact liner mold around the puck, and fusing the impact liner body with a second portion of the receiving surface of the cap and with at the at least one side of the puck. 11. The method of claim 10 , wherein placing the puck and the cap further comprises placing the puck over the cap such that the receiving surface of the cap is an outer surface of a multiliner rotation cap, the outer surface facing away from an interior of the helmet. 12. The method of claim 10 , wherein placing the puck and the cap further comprises placing the cap over the puck such that the receiving surface of the cap is an inner surface of an external helmet cap, the inner surface facing toward an interior of the helmet. 13. A helmet, comprising: a cap having a receiving surface comprising a first portion located proximate a front edge of the cap and a second portion adjacent the first portion; a puck having an interface surface and a first side and a second side, the interface surface of the puck thermally fused with the first portion of the cap with the first side at the front edge of the cap; and an impact liner fused with the puck at the second side and fused with the cap at the second portion of the cap, wherein the puck has a density higher than a density of the impact liner body. 14. The helmet of claim 13 , wherein the interface surface of the puck is in contiguous contact with the first portion of receiving surface of the cap. 15. The helmet of claim 13 , wherein the receiving surface of the cap is an inner surface of an external helmet cap, the inner surface facing toward an interior of the helmet. 16. The helmet of claim 13 , wherein, proximate the at least one side directly coupled to the impact liner body, the puck has a thickness substantially equal to a thickness of the impact liner body. 17. The helmet of claim 13 , wherein at least one of the at least one side of the puck is exposed adjacent to an edge of the cap.