IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0234876
(2011-09-16)
|
등록번호 |
US-8399085
(2013-03-19)
|
발명자
/ 주소 |
- Moore, III, Dan T.
- Novak, Kathleen M.
|
출원인 / 주소 |
- Intellectual Property Holdings, LLC
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
83 |
초록
▼
An energy-absorbing pad structure includes an energy-absorbing pad that is encapsulated by a polymeric film. The polymeric film is sufficiently air-permeable to permit air to escape during rapid compression of the pad structure, such as from a high-speed dynamic impact, but nonetheless is water resi
An energy-absorbing pad structure includes an energy-absorbing pad that is encapsulated by a polymeric film. The polymeric film is sufficiently air-permeable to permit air to escape during rapid compression of the pad structure, such as from a high-speed dynamic impact, but nonetheless is water resistant under ordinary conditions. It is desirable that the polymeric film is made from an elastic polymer. The air-permeability can be provided from a series of perforations such that the film's elastic quality tends to contract the perforations thereby impeding the progress of water through them under normal conditions. The energy-absorbing pad can be a semi-rigid viscoelastic foam.
대표청구항
▼
1. An energy-absorbing pad structure comprising an energy-absorbing viscoelastic foam pad, and a polymeric film encapsulating said foam pad, said polymeric film containing perforations that inhibit or prevent liquid water from passing through said polymeric film into said foam pad in the absence of
1. An energy-absorbing pad structure comprising an energy-absorbing viscoelastic foam pad, and a polymeric film encapsulating said foam pad, said polymeric film containing perforations that inhibit or prevent liquid water from passing through said polymeric film into said foam pad in the absence of a pressure gradient across the film, but which permit air to pass through said polymeric film out of said foam pad when the pad structure is subjected to a compression event and to pass through said polymeric film into said foam pad following said compression event, said foam pad having a pre-compression shape before the compression event, whereby the foam pad can recover to the pre-compression shape following the compression event, said polymeric film being made from a waterproof elastic polymer, wherein the polymer's elasticity contracts the perforations in the polymeric film to resist water penetration through said film. 2. A pad structure according to claim 1, said elastic polymer being an elastic polyurethane. 3. A pad structure according to claim 1, said foam pad having opposite first and second surfaces, said polymeric film comprising a first portion of polymeric film material applied over said first surface, and a second portion of polymeric film material applied over said second surface, said first and second portions of polymeric film material being joined together at a seam around the perimeter of said foam pad. 4. A pad structure according to claim 3, said first and second portions of said polymeric film being joined at said seam by heat-sealing or radio-frequency sealing. 5. A pad structure according to claim 3, said first and second portions of said polymeric film being joined at said seam by sewing. 6. A pad structure according to claim 3, wherein only one of said first and said second portions of polymeric film material is provided with perforations. 7. A pad structure according to claim 3, said first portion of said polymeric film being thicker than said second portion of said polymeric film. 8. A pad structure according to claim 3, said first portion of said polymeric film comprising a plurality of polymeric film plies overlying the entire first surface and at least one more ply than said second portion of said polymeric film overlying the entire second surface. 9. A pad structure according to claim 1, said polymer film being bonded to the foam pad. 10. A pad structure according to claim 9, said polymer film being bonded to the foam pad via an intermediate adhesive layer. 11. A pad structure according to claim 1, said viscoelastic foam pad being made from a semi-rigid viscoelastic foam. 12. A pad structure according to claim 11, said semi-rigid viscoelastic foam being formulated from a polyol composition comprising at least one propylene oxide-extended amine-based polyether polyol that has substantially no ethylene oxide extension units, and at least one filled or unfilled non-amine-based polyether polyol, said polyol composition being combined with an isocyanate composition at an index of 60-130 to provide said semi-rigid viscoelastic foam. 13. A pad structure according to claim 11, wherein after compression of said semi-rigid viscoelastic foam to 50% its original height, said foam substantially recovers to its initial shape in from 3 to 120 seconds. 14. A pad structure according to claim 1, wherein the foam pad measuring nominally 3⅜″×2″×¾″, and said encapsulating polymeric film having nominally the same dimensions, and wherein the polymeric film allows less than one percent by weight of water, compared to the initial weight of the foam pad and the polymeric film, to enter the foam pad through said perforations following submersion of the pad structure in six inches of water for 24 hours. 15. A pad structure according to claim 1, further comprising a layer of energy-absorbing foam disposed adjacent said polymeric film. 16. A pad structure according to claim 1, further comprising a layer of soft, flexible foam disposed adjacent said polymeric film. 17. A pad structure according to claim 1, said foam pad comprising a first layer of foam joined to a second layer of foam, the foam of the first layer has a higher modulus than the foam of the second layer. 18. A pad structure according to claim 3, said foam pad comprising a first layer of foam joined to a second layer of foam, the foam of the first layer has a higher modulus than the foam of the second layer. 19. A helmet comprising a helmet shell and a pad structure according to claim 1 secured to an inner surface of the helmet shell. 20. A helmet according to claim 19, further comprising a plurality of said pad structures secured to said inner surface of said helmet shell. 21. A pad structure according to claim 1, said foam pad being an open-cell foam. 22. A helmet according to claim 19, said foam pad being an open-cell foam. 23. A helmet according to claim 19, said foam pad comprising a first layer of foam joined to a second layer of foam, the foam of the first layer has a higher modulus than the foam of the second layer.
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