Omnidirectional exercise platform and method of use
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A63B-022/20
A63B-021/00
A63B-023/12
출원번호
US-0407222
(2017-01-16)
등록번호
US-9833659
(2017-12-05)
발명자
/ 주소
Nicholas, Paul James
출원인 / 주소
Nicholas, Paul James
대리인 / 주소
Allen D. Hertz, P.A.
인용정보
피인용 횟수 :
2인용 특허 :
32
초록▼
An omnidirectional exercise platform includes a base member, a contact surface and three ball transfer units. The contact surface is carried by a top surface of the base member. The three ball transfer units are coupled to a bottom surface of the base member. The three ball transfer units are arrang
An omnidirectional exercise platform includes a base member, a contact surface and three ball transfer units. The contact surface is carried by a top surface of the base member. The three ball transfer units are coupled to a bottom surface of the base member. The three ball transfer units are arranged having an equal angular offset therebetween providing stability to the exercise platform during use. The ball transfer units each comprise a hemispherical housing, a primary ball member and a plurality of secondary ball members disposed between an inner surface of the hemispherical housing and the primary ball member. The base member can include an upper body member and a lower body member. The pad member can be manufactured of a pliant material. Features of the pad member can identify a stability region of the exercise platform. The platform can have a convex arched top surface.
대표청구항▼
1. An omnidirectional exercise platform for facilitating a physical training exercise, comprising: a base member having a top surface, an opposite bottom surface and a sidewall extending between a peripheral region of said top surface and a peripheral region of said opposite bottom surface;a contact
1. An omnidirectional exercise platform for facilitating a physical training exercise, comprising: a base member having a top surface, an opposite bottom surface and a sidewall extending between a peripheral region of said top surface and a peripheral region of said opposite bottom surface;a contact surface defined by a peripheral edge, said contact surface provided on said top surface of said base member; andthree ball transfer unit receiving sockets formed extending inward from said bottom surface of said base member, each of said three ball transfer unit receiving sockets being located defining corners of an equilateral triangle; andthree ball transfer units, each ball transfer unit being assembled within a respective ball transfer unit receiving socket of said three ball transfer unit receiving sockets, each ball transfer unit comprising a spherical ball member having a centroid,wherein said contact surface peripheral edge is positioned outwardly from a center of said omnidirectional exercise platform to a position substantially aligned with or inward of each ball transfer unit centroid, thus ensuring said omnidirectional exercise platform maintains stability against a support surface when a user grips the omnidirectional exercise platform at any position on the contact surface,wherein said plurality of ball transfer units substantially reduces rolling resistance when said omnidirectional exercise platform is loaded over a support surface during the physical training exercise. 2. An omnidirectional exercise platform as recited in claim 1, wherein a geometric intersection of each centroid of each spherical ball member define a stability binding region, wherein said contact surface further comprises a grip location indicator that is entirely within said stability binding region. 3. An omnidirectional exercise platform as recited in claim 1, wherein said contact surface has a shape and a size positioned, locating said contact surface peripheral edge proximate to or within an interior side of each centroid of each respective ball transfer unit. 4. An omnidirectional exercise platform as recited in claim 1, said contact surface is raised beyond said base member top surface about said contact surface peripheral edge. 5. An omnidirectional exercise platform as recited in claim 1, wherein said contact surface is manufactured of a pliant material. 6. An omnidirectional exercise platform as recited in claim 1, wherein said base member top surface is formed having a convex arched upper surface. 7. An omnidirectional exercise platform as recited in claim 1, wherein said base member sidewall is formed having frustum shape, wherein a bottom edge of said base member sidewall is longer than an upper edge of said base member sidewall. 8. An omnidirectional exercise platform for facilitating a physical training exercise, comprising: a base member having a convex arch-shaped top surface, an opposite bottom surface and a sidewall extending between a peripheral region of said top surface and a peripheral region of said opposite bottom surface;a contact surface defined by a peripheral edge, said contact surface provided on said top surface of said base member; andthree ball transfer unit receiving sockets formed extending inward from said bottom surface of said base member, each of said three ball transfer unit receiving sockets being located defining corners of an equilateral triangle; andthree ball transfer units, each ball transfer unit being assembled within a respective ball transfer unit receiving socket of said three ball transfer unit receiving sockets, each ball transfer unit comprising a spherical ball member having a centroid,wherein said contact surface peripheral edge is positioned outwardly from a center of said omnidirectional exercise platform to a position substantially aligned with or inward of each ball transfer unit centroid, thus ensuring said omnidirectional exercise platform maintains stability against a support surface when a user grips the omnidirectional exercise platform at any position on the contact surface,wherein said plurality of ball transfer units substantially reduces rolling resistance when said omnidirectional exercise platform is loaded over a support surface during the physical training exercise. 9. An omnidirectional exercise platform as recited in claim 8, wherein a geometric intersection of each centroid of each spherical ball member define a stability binding region, wherein said contact surface further comprises a grip location indicator that is entirely within said stability binding region. 10. An omnidirectional exercise platform as recited in claim 8, wherein said contact surface shape being sized and positioned locating said peripheral edge of said contact surface on an interior side of each centroid of each respective ball transfer unit. 11. An omnidirectional exercise platform as recited in claim 8, said contact surface is raised beyond said base member top surface about said contact surface peripheral edge. 12. An omnidirectional exercise platform as recited in claim 8, wherein said contact surface is manufactured of a pliant material. 13. An omnidirectional exercise platform as recited in claim 8, wherein said base member top surface is formed having a convex arched upper surface. 14. An omnidirectional exercise platform as recited in claim 8, wherein said base member sidewall is formed having a frustum shape, wherein a bottom edge of said base member sidewall is longer than an upper edge of said base member sidewall. 15. An omnidirectional exercise platform for facilitating a physical training exercise, comprising: a base member comprising an upper body member and a lower body member detachably assembled to one another, said base member having a top surface, an opposite bottom surface and a sidewall extending between a peripheral region of said top surface and a peripheral region of said opposite bottom surface;a contact surface defined by a peripheral edge, said contact surface provided on said top surface of said base member; andthree ball transfer unit receiving sockets formed extending inward from said bottom surface of said base member, each of said three ball transfer unit receiving sockets being located defining corners of an equilateral triangle; andthree ball transfer units, each ball transfer unit being assembled within a respective ball transfer unit receiving socket of said three ball transfer unit receiving sockets, each ball transfer unit comprising a spherical ball member having a centroid,wherein said contact surface peripheral edge is positioned outwardly from a center of said omnidirectional exercise platform to a position substantially aligned with or inward of each ball transfer unit centroid, thus ensuring said omnidirectional exercise platform maintains stability against a support surface when a user grips the omnidirectional exercise platform at any position on the contact surface,wherein said plurality of ball transfer units substantially reduces rolling resistance when said omnidirectional exercise platform is loaded over a support surface during the physical training exercise. 16. An omnidirectional exercise platform as recited in claim 15, wherein a geometric intersection of each centroid of each spherical ball member define a stability binding region, wherein said contact surface further comprises a grip location indicator that is entirely within said stability binding region. 17. An omnidirectional exercise platform as recited in claim 15, wherein said contact surface shape being sized and positioned locating said peripheral edge of said contact surface on an interior side of each centroid of each respective ball transfer unit. 18. An omnidirectional exercise platform as recited in claim 15, said contact surface is raised beyond said base member top surface about said contact surface peripheral edge. 19. An omnidirectional exercise platform as recited in claim 15, wherein said base member top surface is formed having a convex arched upper surface. 20. An omnidirectional exercise platform as recited in claim 15, wherein said base member sidewall is formed having a frustum shape, wherein a bottom edge of said base member sidewall is longer than an upper edge of said base member sidewall.
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이 특허에 인용된 특허 (32)
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