Vibration dampening material and method of making same
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-021/02
B32B-021/10
B32B-017/12
B32B-018/00
B32B-005/08
C08L-015/00
A61F-013/06
A61L-015/00
D04B-001/14
D04B-021/14
D04B-001/18
D04B-007/16
D04B-011/12
D04B-007/00
출원번호
US-0958745
(2004-10-05)
등록번호
US-8142382
(2012-03-27)
발명자
/ 주소
Vito, Robert A.
DiMario, Carmen N.
Falone, Thomas
출원인 / 주소
Matscitechno Licensing Company
대리인 / 주소
RatnerPrestia
인용정보
피인용 횟수 :
11인용 특허 :
118
초록▼
A material having a stretch axis and adapted to regulate energy by distributing and partially dissipating energy exerted thereon. The material includes a material body elongateable along the stretch axis from a first position to a second position, in which the material body is elongated by a predete
A material having a stretch axis and adapted to regulate energy by distributing and partially dissipating energy exerted thereon. The material includes a material body elongateable along the stretch axis from a first position to a second position, in which the material body is elongated by a predetermined amount relative to the first position. The material body includes a first elastomer layer defining a material length and a planar support structure disposed within the elastomer layer generally along the stretch axis in an at least partially non linear fashion while the material body is in the first position so that a length of the support structure, as measured along a surface thereof, is greater than the material length of the first elastomer layer.
대표청구항▼
1. An athletic tape for wrapping a portion of a person's body, the athletic tape having a longitudinal axis and being adapted to provide a controlled support for the portion of the person's body, the athletic tape comprising: a tape body being stretchable along the longitudinal axis from a first pos
1. An athletic tape for wrapping a portion of a person's body, the athletic tape having a longitudinal axis and being adapted to provide a controlled support for the portion of the person's body, the athletic tape comprising: a tape body being stretchable along the longitudinal axis from a first position to a second position, in which the tape body is elongated by a predetermined amount relative to the first position, the tape body comprising: a first elastomer layer defining a tape length, as measured along the longitudinal axis, of the tape body;a support structure comprising a plurality of interconnected fibers which define a continuous planar structure disposed within the elastomer layer generally along the longitudinal axis in an at least partially non linear fashion while the tape body is in the first position so that a length of the support structure, as measured along a surface thereof, is greater than the tape length of the first elastomer layer; andwherein when the tape body is stretched into the second position, the support structure is at least partially straightened so that the support structure is more linear, relative to when the tape body is in the first position, the straightening of the support structure causing energy to be dissipated and generally preventing further elongation of the elastomer layer along the longitudinal axis past the second position. 2. The athletic tape of claim 1, wherein the plurality of fibers include high tensile fibrous material. 3. The athletic tape of claim 2, wherein the plurality of fibers are woven into a ribbon. 4. The athletic tape of claim 3, wherein the ribbon is positioned in a generally sinusoidal fashion within the elastomer layer while the tape body is in the first position. 5. The athletic tape of claim 2, wherein the plurality of fibers are woven. 6. The athletic tape of claim 1, wherein the tape body has top and bottom surfaces, the bottom surface facing the portion of the person's body when the athletic tape is wrapped thereover, the plurality of fibers defining multiple, stacked fiber layers between the top and bottom surfaces. 7. The athletic tape of claim 6, wherein the plurality of fibers are stacked between four (4) and sixteen (16) times between the top and bottom surfaces. 8. The athletic tape of claim 7, wherein the plurality of fibers are stacked ten (10) times. 9. The athletic tape of claim 1, wherein the athletic tape is wrapped around the portion of the person's body at least twice to form a brace. 10. The athletic tape of claim 9, wherein successive wrappings of the athletic tape are affixed to each other to form a generally one piece brace. 11. The athletic tape of claim 1, wherein the athletic tape is self fusing to allow multiple adjacent wrappings of the athletic tape to fuse together to form an integral piece. 12. The athletic tape of claim 11, wherein the elastomer layer of each of the multiple adjacent wrappings contacts the elastomer layer of the adjacent wrappings to fuse together to form a single elastomer layer. 13. The athletic tape of claim 11, wherein the integral piece is waterproof. 14. The athletic tape of claim 12, wherein the elastomer layer comprises silicone. 15. The athletic tape of claim 1, wherein the plurality of fibers include fiberglass fibers. 16. The athletic tape of claim 1, wherein the plurality of fibers include metal fibers. 17. The athletic tape of claim 1, wherein the plurality of fibers include ceramic fibers. 18. The athletic tape of claim 1, wherein the percentage increase in the tape length when the tape body moves from the first position to the second position is selected based on a desired range of motion for the portion of the person's body. 19. An athletic tape for wrapping a portion of a person's body, the athletic tape having a longitudinal axis and being adapted to provide a controlled support for the portion of the person's body, the athletic tape comprising: a tape body being stretchable along the longitudinal axis from a first position to a second position, in which the tape body is elongated by a predetermined amount relative to the first position, the tape body comprising: a first elastomer layer defining a tape length, as measured along the longitudinal axis, of the tape body;a support structure comprising a plurality of interconnected fibers which define a continuous planar structure disposed at least partially within the elastomer layer generally along the longitudinal axis in an at least partially non linear fashion while the tape body is in the first position so that a length of the support structure, as measured along a surface thereof, is greater than the tape length of the first elastomer layer; andwherein when the tape body is stretched into the second position, the support structure is at least partially straightened so that the support structure is more linear, relative to when the tape body is in the first position, the straightening of the support structure causing energy to be dissipated and generally preventing further elongation of the elastomer layer along the longitudinal axis past the second position. 20. The athletic tape of claim 19, wherein the support structure comprises a plurality of cloth layers. 21. The athletic tape of claim 20, wherein at least one of the plurality of cloth layers is formed of high tensile fibrous material. 22. The athletic tape of claim 19, wherein the support structure includes a first plurality of particles therein. 23. The athletic tape of claim 22, wherein the first elastomer layer includes a second plurality of particles. 24. The athletic tape of claim 23, wherein at least one of the first and second plurality of particles includes gel particles. 25. The athletic tape of claim 23, wherein at least one of the first and second plurality of particles includes sand particles. 26. The athletic tape of claim 23, wherein at least one of the first and second plurality of particles includes glass beads. 27. The athletic tape of claim 23, wherein at least one of the first and second plurality of particles includes chopped fibers. 28. The athletic tape of claim 23, wherein at least one of the first and second plurality of particles includes metal particles. 29. The athletic tape of claim 23, wherein at least one of the first and second plurality of particles includes foam particles. 30. The athletic tape of claim 19, wherein the support structure comprises a cloth layer. 31. The athletic tape of claim 19, wherein the support structure comprises a second elastomer having a plurality of particles therein. 32. A material having a stretch axis and being adapted to regulate energy by distributing and partially dissipating energy exerted thereon, the material comprising: a material body being elongateable along the stretch axis from a first position to a second position, in which the material body is elongated by a predetermined amount relative to the first position, the material body comprising: a first elastomer layer defining a material length, as measured along the stretch axis, of the material body;a support structure comprising a plurality of interconnected fibers which define a continuous planar structure disposed within the elastomer layer generally along the stretch axis in an at least partially non linear fashion while the material body is in the first position so that a length of the support structure, as measured along a surface thereof, is greater than the material length of the first elastomer layer; andwherein when the material body is elongated into the second position, the support structure is at least partially straightened so that the support structure is more linear, relative to when the material body is in the first position, the straightening of the support structure causing energy to be dissipated and generally preventing further elongation of the elastomer layer along the stretch axis past the second position. 33. The material of claim 32, wherein the support structure includes a first plurality of particles therein. 34. The material of claim 33, wherein the first elastomer layer includes a second plurality of particles. 35. The material of claim 34, wherein at least one of the first and second plurality of particles includes gel particles. 36. The material of claim 32, wherein the support structure is positioned in a generally sinusoidal fashion within the elastomer layer while the material body is in the first position. 37. The material of claim 36, wherein the elastomer layer comprises silicone. 38. The material of claim 32, wherein the support structure comprises a cloth layer. 39. The material of claim 32, wherein the support structure comprises a plurality of cloth layers. 40. The material of claim 32, wherein the support structure is generally positioned as at least one of a triangular wave and a square wave within the elastomer layer while the material body is in the first position. 41. The material of claim 32, further comprising a layer of shrinkable material. 42. The material of claim 41, wherein the shrinkable material is heat shrinkable. 43. The material of claim 41, wherein the shrinkable material is water shrinkable. 44. A padding for covering a portion of a person's body to provide support and/or impact force dissipation for the portion, the padding having a stretch axis, the padding comprising: a padding body being elongateable along the stretch axis from a first position to a second position, in which the padding body is elongated by a predetermined amount relative to the first position, the padding body comprising: a first elastomer layer defining a padding length, as measured along the stretch axis, of the padding body;a support structure comprising a plurality of interconnected fibers which define a continuous planar structure disposed within the elastomer layer generally along the stretch axis in an at least partially non linear fashion while the padding body is in the first position so that a length of the support structure, as measured along a surface thereof, is greater than the padding length of the first elastomer layer; andwherein when the padding body is elongated into the second position, the support structure is at least partially straightened so that the support structure is more linear, relative to when the padding body is in the first position, the straightening of the support structure causing energy to be dissipated and generally preventing further elongation of the elastomer layer along the stretch axis past the second position. 45. The padding of claim 44, further comprising a rigid layer of material disposed on at least part of the elastomer layer. 46. A brace for wrapping a portion of a person's body, the brace having a stretch axis and being adapted to provide a controlled support for the portion of the person's body, the brace comprising: a brace body being elongateable along the stretch axis from a first position to a second position, in which the brace body is elongated by a predetermined amount relative to the first position, the brace body comprising: a first elastomer layer defining a brace length, as measured along the stretch axis, of the brace body;a support structure comprising a plurality of interconnected fibers which define a continuous planar structure disposed within the elastomer layer generally along the stretch axis in an at least partially non linear fashion while the brace body is in the first position so that a length of the support structure, as measured along a surface thereof, is greater than the brace length of the first elastomer layer; andwherein when the brace body is stretched into the second position, the support structure is at least partially straightened so that the support structure is more linear, relative to when the brace body is in the first position, the straightening of the support structure causing energy to be dissipated and generally preventing further elongation of the elastomer layer along the stretch axis past the second position. 47. The brace of claim 46, wherein the brace is a one piece brace. 48. The brace of claim 46, wherein the brace comprises of multiple tape windings. 49. An athletic tape for wrapping a portion of a person's body, the athletic tape having a longitudinal axis and being adapted to provide a controlled support for the portion of the person's body, the athletic tape comprising: a tape body being stretchable along the longitudinal axis from a first position to a second position, in which the tape body is elongated by a predetermined amount relative to the first position, the tape body comprising: a first elastomer layer defining a tape length, as measured along the longitudinal axis, of the tape body;a support structure comprising a plurality of interconnected fibers which define a continuous planar structure disposed over the elastomer layer and contacting the elastomer layer at a plurality of locations, the support structure extending generally along the longitudinal axis in an at least partially non linear fashion while the tape body is in the first position so that a length of the support structure, as measured along a surface thereof, is greater than the tape length of the first elastomer layer; andwherein when the tape body is stretched into the second position, the support structure is at least partially straightened so that the support structure is more linear, relative to when the tape body is in the first position. 50. The athletic tape of claim 49, wherein the straightening of the support structure causes energy to be dissipated and generally prevents further elongation of the elastomer layer along the longitudinal axis past the second position. 51. The athletic tape of claim 49, further comprising a layer of shrinkable material. 52. The athletic tape of claim 51, wherein the shrinkable material is heat shrinkable. 53. The athletic tape of claim 51, wherein the shrinkable material is water shrinkable. 54. A material having a stretch axis and being adapted to regulate energy by distributing and partially dissipating energy exerted thereon, the material comprising: a material body having first and second major surfaces and being elongateable along a stretch axis parallel to the major surface from a first position to a second position, in which the material body is elongated by a predetermined amount relative to the first position, the material body comprising: a first elastomer layer defining a material length, as measured along the stretch axis, of the material body;a support structure comprising a plurality of interconnected fibers which define a continuous planar structure disposed at least partially within the elastomer layer such that in the first position the support structure has a generally sinusoidal configuration with the peaks extending toward the first and second major surfaces; andwherein when the material body is elongated into the second position, the support structure is at least partially straightened so that the support structure is more linear, relative to when the material body is in the first position, the straightening of the support structure causing energy to be dissipated and generally preventing further elongation of the elastomer layer along the stretch axis past the second position.
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이 특허에 인용된 특허 (118)
Huang Ing-Chung (No. 15 Reh-Her 1st Street Kaohsiung City TWX), Air cushion grip with a cubic supporting structure and shock-absorbing function.
Fenton Frank (14 Magnolia Ter. South Hadley MA 01075) Sullivan Michael J. (58 Marlborough St. Chicopee MA 01020), Cavity back iron with vibration dampening material in rear cavity.
Bell Gordon D. (Fort Wayne IN) Bratton Ronald E. (Fort Wayne IN) Kennedy ; Jr. Robert J. (West Lafayette IN) Smith ; II Kendall S. (West Lafayette IN) Kaye Roger A. (Palo Alto CA), Hand grip for cooking utensil handle.
Uke Alan K. (5980 Rancho Diegueno ; P.O. Box 8531 Rancho Santa Fe CA 92067) Monty Lawrence P. (54 Briar Rd. Leominster MA 01453), Hand grip for sporting equipment or tools.
Walton James C. (Princeton MA) Moroney Thomas S. (Acton MA) McNamara William (Clinton MA) Morgan Donald G. (Hudson MA) Simkus Arunas T. (North Oxford MA), High performance composite hose.
Ricci Gordon K. (East Bridgewater MA) Pawlus Christopher J. (Northboro MA) Snow Rebecca E. (Sharon MA) Foley Peter M. (Needham MA) Litchfield Paul E. (Westboro MA) White Spencer (Easton MA), Insert for a shoe sole.
Dawn Frederic S. (Houston TX) Guy Walter W. (Friendswood TX) Kosmo Joseph J. (Seabrook TX) Drennan Arthur P. (Westford MA) Tschirch Richard P. (Westwood MA), Method for forming a glove attachment.
Fogt Kenneth E. (Willard OH) Slosser James D. (Willard OH) Varos John A. (Willard OH) Radhakrishnan Gopinath (Tiffin OH), Protective apparel material and method for producing same.
Falone Thomas (Mickleton NJ) Wyerman Richard S. (Doylestown PA) Dimario Carmen (West Chester PA), Vibration absorbing material for handles of sporting equipment.
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