An energy absorbing module 10 including a plurality of cells 12, 112 with each cell 12, 112 including a first step wall 22 and 122 horizontally interconnecting first 16, 116 and second 18, 118 walls and having a greater thickness than the second wall 18, 118 for assuring collapse of the second wall
An energy absorbing module 10 including a plurality of cells 12, 112 with each cell 12, 112 including a first step wall 22 and 122 horizontally interconnecting first 16, 116 and second 18, 118 walls and having a greater thickness than the second wall 18, 118 for assuring collapse of the second wall 18, 118 before collapse the first wall 16, 116 in response to a force applied to the second wall 18, 118. Likewise, a second step wall 24 and 124 horizontally interconnects the second wall 18, 118 and a third wall 20, 120 and has a greater thickness than the first step wall 22 and 122 for assuring collapse of the third wall 20, 120 before collapse of the second wall 18, 118 in response to a force applied to the third wall 20, 120.
대표청구항▼
1. An injection molded energy absorbing assembly, comprising: a plurality of interconnected generally parallel spaced tubular cells, each cell having a first tubular wall portion and a second tubular wall portion having a diameter less than said first tubular wall portion integrally connected to sai
1. An injection molded energy absorbing assembly, comprising: a plurality of interconnected generally parallel spaced tubular cells, each cell having a first tubular wall portion and a second tubular wall portion having a diameter less than said first tubular wall portion integrally connected to said first tubular wall portion by a generally transverse step wall, said second tubular wall portion having a wall thickness less than said first tubular wall portion, whereby said second tubular wall portion collapses under less force than said first tubular wall portion. 2. The injection molded energy absorbing assembly as defined in claim 1, wherein said injection molded assembly includes a third tubular wall portion having a diameter less than said second tubular wall portion integrally joined to said second tubular wall portion by a generally transverse second step wall, whereby said third tubular wall portion collapses under less force than said second tubular wall portion. 3. The injection molded energy absorbing assembly as defined in claim 2, wherein said third tubular wall portion includes an integral end cap portion extending generally transverse to said third tubular wall portion having an opening therethrough. 4. The injection molded energy absorbing assembly as defined in claim 1, wherein said tubular cells are integrally connected by stringers formed during injection molding of said energy absorbing assembly. 5. The injection molded energy absorbing assembly as defined in claim 1, wherein said first and second tubular wall portions are generally cylindrical. 6. An injection molded energy absorbing assembly, comprising: a plurality of spaced integrally connected generally parallel tubular cells, each tubular cell including a first tubular wall portion having a first open end and a second open end, a second tubular wall portion having a diameter less than said first tubular wall portion having a first open end integrally joined to said second open end of said first tubular wall portion by a first generally transverse step wall portion and a second open end, and a third tubular wall portion having a diameter less than said second tubular wall portion including a first open end integrally joined to said second open end of said second tubular wall portion by a generally transverse second step wall portion, said third tubular wall portion having a wall thickness less than said second tubular wall portion and said second tubular wall portion having a wall thickness less than said first tubular wall portion, whereby said third tubular wall portion collapses under less force than said second tubular wall portion and said second tubular wall portion collapses under less force than said first tubular wall portion. 7. The injection molded energy absorbing assembly as defined in claim 6, wherein said second open end of said third tubular wall portion includes an integral generally transverse end cap portion. 8. The injection molded energy absorbing assembly as defined in claim 7, wherein said end cap portion includes an opening therethrough. 9. The injection molded energy absorbing assembly as defined in claim 6, wherein said tubular cells are interconnected in spaced relation by injection molding integral stringers. 10. The injection molded energy absorbing assembly as defined in claim 9, wherein said injection molded stringers are integral with said first tubular wall portions of said tubular cells.
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