Potentiating support with side struts spanning hinge joint
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61F-005/00
A61F-005/01
출원번호
UP-0160384
(2005-06-21)
등록번호
US-7615019
(2009-11-23)
발명자
/ 주소
Nordt, III, William E.
Kovacevich, Ian D.
Dahlquist, Kevin J.
Philpott, Tom J.
출원인 / 주소
Nordt Development Co., LLC
대리인 / 주소
Tillman Wright, PLLC
인용정보
피인용 횟수 :
5인용 특허 :
165
초록▼
A potentiating support for an area of a body includes: a framework having a surface for abutment with an area of a body including a hinge joint, said framework defining a plurality of permanent openings in said surface; and two strut members each attached to said framework such that each said strut
A potentiating support for an area of a body includes: a framework having a surface for abutment with an area of a body including a hinge joint, said framework defining a plurality of permanent openings in said surface; and two strut members each attached to said framework such that each said strut member spans the hinge joint when said framework is disposed in abutment with the area of the body, said strut members providing a measure of rigidity to said framework in the direction of their respective lengths, each respective said strut member including an intermediate portion thereof spanning the hinge joint that is expandable and recoverable between a first initial state and extended states wherein, when expanded to a said extended state during flexing of the hinge joint, said respective strut member stores potential energy that is released as kinetic energy upon its return to said initial state.
대표청구항▼
What is claimed is: 1. A potentiating support for an area of a body, comprising: (a) a flexible, elastically stretchable framework having a surface for abutment with an area of a body including a hinge joint, said framework comprising an integrally molded network of interconnected, elongate elastom
What is claimed is: 1. A potentiating support for an area of a body, comprising: (a) a flexible, elastically stretchable framework having a surface for abutment with an area of a body including a hinge joint, said framework comprising an integrally molded network of interconnected, elongate elastomeric segments, the framework including: (i) left and right sides comprising first and second exterior lateral segments and top and bottom sides comprising first and second exterior transverse segments, which left, right, bottom and top sides collectively define a perimeter of the framework, (ii) first, second, third, and fourth interior, mutually exclusive subsets of transverse segments, each of which extends between and interconnects the left and right sides of the perimeter of the framework, (iii) first and second interior, mutually exclusive subsets of lateral segments, each of which extends between and interconnects the top side of the perimeter of the framework and the second interior subset of transverse segments, and each of which intersects and interconnects the first interior subset of transverse segments, and (iv) third and fourth interior, mutually exclusive subsets of lateral segments, each of which extends between and interconnects the bottom side of the perimeter of the framework and the second interior subset of transverse segments, and each of which intersects and interconnects the third and fourth interior subsets of transverse segments, (v) wherein each subset of segments comprises one or more segments; and (b) two strut members each attached to a respective one of said left and right sides such that each said strut member spans the hinge joint when said framework is disposed in abutment with the area of the body, said strut members providing a measure of rigidity to said framework in the direction of their respective lengths, each respective said strut member including an intermediate portion thereof spanning the hinge joint that is expandable and recoverable between a first initial state and extended states wherein, when expanded to a said extended state during flexing of the hinge joint, said respective strut member stores potential energy that is released as kinetic energy upon its return to said initial state. 2. The potentiating support of claim 1, wherein the framework further comprises: (a) fifth and sixth interior subsets of lateral segments, each of which extends between and interconnects the top side of the perimeter of the framework and the second interior subset of transverse segments, and each of which intersects and interconnects the first interior subset of transverse segments; and (b) seventh and eighth interior subsets of lateral segments, each of which extends between and interconnects the bottom side of the perimeter of the framework and the third interior subset of transverse segments, and each of which intersects and interconnects the fourth interior subset of transverse segments. 3. The potentiating support of claim 1, wherein an alignment opening is defined by, (a) the second interior subset of transverse segments, which extends along and bounds a top of the alignment opening; (b) the third interior subset of transverse segments, which extends along and bounds a bottom of the alignment opening; (c) the third interior subset of lateral segments, which extends along and bounds a first side of the alignment opening; and (d) the fourth interior subset of lateral segments, which extends along and bounds a second side of the alignment opening. 4. The potentiating support of claim 3, wherein said alignment opening is dimensioned to receive therein a joint protuberance of the hinge joint, said alignment opening serving to maintain the support in a proper orientation relative to the hinge joint when the support is worn. 5. The potentiating support of claim 1, wherein the framework has a generally planar configuration when in a relaxed state. 6. The potentiating support of claim 1, further comprising a fastening mechanism connected to said framework for applying tension and expanding said framework in its abutment with the area of the body including the hinge joint. 7. The potentiating support of claim 1, wherein each said strut member is molded from an elastomeric material. 8. The potentiating support of claim 1, wherein said strut members respectively extend along said left and right sides of said framework. 9. The potentiating support of claim 1, wherein said strut members are symmetrically disposed about an axis of symmetry of said framework. 10. The potentiating support of claim 1, wherein a cross-sectional area of said intermediate portion is less than the cross-sectional area of either end portion of said strut member, whereby said strut member is less resistive to bending in said intermediate portion than in said end portions. 11. The potentiating support of claim 1, wherein each said strut member has a cross-sectional dimension that varies along a length of said strut member. 12. The potentiating support of claim 1, wherein each said strut member has a density that varies along a length of said strut member. 13. The potentiating support of claim 1, wherein said framework comprises an exposed framework of the support. 14. The potentiating support of claim 1, wherein said framework includes no internal cavity. 15. The potentiating support of claim 1, wherein said framework comprises a semirigid framework. 16. The potentiating support of claim 1, wherein said framework comprises a molded structure. 17. The support of claim 1, wherein each said strut member is permanently attached to said framework. 18. The support of claim 17, wherein each said strut member is attached to said framework by welding. 19. The support of claim 17, wherein each said strut member is attached to said framework by an adhesive. 20. A method of donning a potentiating support for a hinge joint, comprising the steps of: (a) positioning a flexible, elastically stretchable framework of the support in abutment with an area of a body such that the framework spans a hinge joint of the body, the framework comprising an integrally molded network of interconnected, elastomeric segments; and (b) applying tension proximate opposite sides of the framework such that the framework is expanded and the framework is tensioned in its abutment with the area of the body; (c) wherein said framework includes, (i) left and right sides comprising first and second exterior lateral segments and top and bottom sides comprising first and second exterior transverse segments, which left, right, bottom and top sides collectively define a perimeter of the framework, (ii) first, second, third, and fourth interior, mutually exclusive subsets of transverse segments, each of which extends between and interconnects the left and right sides of the perimeter of the framework, (iii) first and second interior, mutually exclusive subsets of lateral segments, each of which extends between and interconnects the top side of the perimeter of the framework and the second interior subset of transverse segments, and each of which intersects and interconnects the first interior subset of transverse segments, and (iv) third and fourth interior, mutually exclusive subsets of lateral segments, each of which extends between and interconnects the bottom side of the perimeter of the framework and the second interior subset of transverse segments, and each of which intersects and interconnects the third and fourth interior subsets of transverse segments, (v) wherein each subset of segments comprises one or more segments; and (d) wherein the framework comprises two strut members each attached to the framework such that each strut member spans the hinge joint when the framework is disposed in abutment with the area of the body, the strut members providing a measure of rigidity to the framework in the direction of their respective lengths. 21. The method of claim 20, further comprising the step of securing the expanded framework in its forced abutment with the area of the body using a fastening mechanism. 22. The method of claim 20, wherein each respective strut member includes an intermediate portion thereof spanning the hinge joint that is expandable and recoverable between a first initial state and extended states wherein, when expanded to an extended state, the respective strut member stores potential energy that is released as kinetic energy upon its return to the initial state. 23. The method of claim 22, further comprising expanding each strut member by flexing the body about the hinge joint, whereby each strut member is expanded to an extended state. 24. The method of claim 20, wherein the framework is flexible, expandable and recoverable. 25. The method of claim 20, wherein said step of positioning the framework of the support in abutment with the area of the body is performed without overlapping the framework upon itself. 26. The method of claim 20, wherein the framework has a generally planar configuration when in a relaxed state.
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Nordt, III, William E.; Kovacevich, Ian D.; Dahlquist, Kevin J.; Philpott, Thomas J.; Huneycutt, Jason, Body support for spanning a hinge joint of the body comprising an elastically stretchable framework.
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