대표
청구항
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1. A rehabilitation system including a compliant bimanual rehabilitation device, comprising: a base that defines a left side, a right side, a front side, a rear side, an x-axis, a y-axis, and a z-axis of said device, wherein said base has a top side and a bottom side;a carrier assembly slidably coupled to said base, said carrier assembly being slidable along the y-axis of said device;an upper assembly rotationally coupled to said carrier assembly, said upper assembly being rotational about the z-axis of said device, said upper assembly having a left end ...
1. A rehabilitation system including a compliant bimanual rehabilitation device, comprising: a base that defines a left side, a right side, a front side, a rear side, an x-axis, a y-axis, and a z-axis of said device, wherein said base has a top side and a bottom side;a carrier assembly slidably coupled to said base, said carrier assembly being slidable along the y-axis of said device;an upper assembly rotationally coupled to said carrier assembly, said upper assembly being rotational about the z-axis of said device, said upper assembly having a left end corresponding to said left side of said device and a right end corresponding to said right side of said device;a left handle slide slidably coupled to said left end of said upper assembly, said left handle slide being slidable along the x-axis of said device;a right handle slide slidably coupled to said right end of said upper assembly, said right handle slide being slidable along the x-axis of said device;a left compliant handle assembly coupled to said left handle slide and extending from said left handle slide;a right compliant handle assembly coupled to said right handle slide and extending from said right handle slide;a left handle fixedly coupled to said left compliant handle assembly;a right handle fixedly coupled to said right compliant handle assembly,wherein one of said left handle and said right handle is a guiding handle and the other of said left handle and said right handle is a following handle,wherein said left handle and said right handle are indirectly linked to each other at an adjustable, predetermined coupling stiffness, such that when said device is in use, a paretic arm of a user or operator of said device is linked to a sound arm of said user of said device, such that a movement of said guiding handle dictates a corresponding movement of said following handle according to a predetermined symmetry mode;said left handle and said right handle indirectly linked to each other via said left handle slide and said right handle slide, said left handle slide and said right handle slide being coupled to each other, thus also coupling said left compliant handle assembly and said right compliant handle assembly to each other;said left handle slide and said right handle slide being coupled to each other via a cable and pulley assembly including at least one cable and at least two pulleys;wherein when said at least one cable is looped around said at least two pulleys an even number of times, said left handle and said right handle move in a same absolute direction, andwhen said at least one cable is looped around said at least two pulleys an odd number of times, said left handle and said right handle mirror each other. 2. A rehabilitation system as in claim 1, further comprising: said carrier assembly being slidably coupled to said base via slide rails mounted on said top side of said base. 3. A rehabilitation system as in claim 1, further comprising: a left handle slide encoder in communication with said left handle slide in order to determine a position of said left handle slide along the x-axis of said device; anda right handle slide encoder in communication with said right handle slide in order to determine a position of said right handle slide along the x-axis of said device,wherein said left and right handle slide encoders are in further communication with an electronic device in order to transmit the positions of said left and right handle slides to said electronic device. 4. A rehabilitation system as in claim 3, further comprising: a carrier assembly encoder in communication with said carrier assembly in order to determine a position of said carrier assembly along the y-axis of said device,wherein said carrier assembly encoder is in further communication with said electronic device in order to transmit the position of said carrier assembly to said electronic device. 5. A rehabilitation system as in claim 4, further comprising: an upper assembly encoder in communication with said upper assembly in order to determine a position of said upper assembly about the z-axis of said device,wherein said upper assembly encoder is in further communication with said electronic device in order to transmit the position of said upper assembly to said electronic device. 6. A rehabilitation system as in claim 1, further comprising: a first load cell in communication with said left compliant handle assembly to determine an amount of force placed by said user on said left compliant handle assembly; anda second load cell in communication with said right compliant handle assembly to determine an amount of force placed by said user on said right compliant handle assembly,wherein said first and second load cells are in further communication with an electronic device in order to transmit the amounts of force on said left and right compliant handle assemblies to said electronic device. 7. A rehabilitation system as in claim 1, further comprising: said left compliant handle assembly including a first left compliant handle assembly component coupled to and extending from said left handle slide along the y-axis of said device, said left compliant handle assembly further including a second left compliant handle assembly component coupled to and extending inwardly from said first left compliant handle assembly component, andsaid right compliant handle assembly including a first right compliant handle assembly component coupled to and extending from said right handle slide along the y-axis of said device, said right compliant handle assembly further including a second right compliant handle assembly component coupled to and extending inwardly from said first right compliant handle assembly component. 8. A rehabilitation system as in claim 7, further comprising: a first left load cell positioned along and in communication with said first left compliant handle assembly component to determine an amount of force placed by said user on said first left compliant handle assembly component;a second left load cell positioned along and in communication with said second left compliant handle assembly component to determine an amount of force placed by said user on said second left compliant handle assembly component,wherein said first and second left load cells are in further communication with an electronic device in order to transmit the amount of force on said left compliant handle assembly to said electronic device;a first right load cell positioned along and in communication with said first right compliant handle assembly component to determine an amount of force placed by said user on said first right compliant handle assembly component; anda second right load cell positioned along and in communication with said second right compliant handle assembly component to determine an amount of force placed by said user on said second right compliant handle assembly component,wherein said first and second right load cells are in further communication with said electronic device in order to transmit the amount of force on said right compliant handle assembly to said electronic device. 9. A rehabilitation system as in claim 1, further comprising: a first spring system coupled to said left compliant handle assembly to provide a bias against movement of said left handle; anda second spring system coupled to said right compliant handle assembly to provide a bias against movement of said right handle. 10. A rehabilitation system as in claim 9, further comprising: said first spring system including a first spring disposed at a connection joint between said left handle slide and said left compliant handle assembly, said first spring system further including a second spring disposed within said left compliant handle assembly, andsaid second spring system including a third spring disposed at a connection joint between said right handle slide and said right compliant handle assembly, said second spring system further including a fourth spring disposed within said right compliant handle assembly. 11. A rehabilitation system as in claim 10, further comprising: said left compliant handle assembly including a first left compliant handle assembly component coupled to and extending from said left handle slide along the y-axis of said device, said left compliant handle assembly further including a second left compliant handle assembly component coupled to and extending inwardly from said first left compliant handle assembly component,said second spring disposed at a connection joint between said first left compliant handle assembly component and said second left compliant handle assembly component,said right compliant handle assembly including a first right compliant handle assembly component coupled to and extending from said right handle slide along the y-axis of said device, said right compliant handle assembly further including a second right compliant handle assembly component coupled to and extending inwardly from said first right compliant handle assembly component, andsaid fourth spring disposed at a connection joint between said first right compliant handle assembly component and said second right compliant handle assembly component. 12. A rehabilitation system as in claim 9, further comprising: said first spring system being a first spring stack formed of a plurality of torsion springs stacked or abutting one another, andsaid second spring system being a second spring stack formed of a plurality of torsion springs stacked or abutting one another,whereby said predetermined coupling stiffness can be adjusted, based on said user, by adding or removing torsion springs from said first and second spring stacks. 13. A rehabilitation system as in claim 12, further comprising: said torsion springs each including a central portion and two (2) forks extending from said central portion, said two (2) forks having longitudinal extents that are angled relative to each other. 14. A rehabilitation system as in claim 1, further comprising: a first locking mechanism for restricting movement of said upper assembly about the z-axis of said device; anda second locking mechanism for restricting movement of said carrier assembly in the y-axis of said device. 15. A rehabilitation system as in claim 1, further comprising: a visual display communicatively coupled to said device for indicating a current left position of said left handle and a current right position of said right handle, wherein said current left position and said current right position move as said left handle and said right handle respectively move. 16. A rehabilitation system as in claim 15, further comprising: said visual display further indicating a target left position of said left handle and a target right position of said right handle, whereby a goal of said user is to align said current left position with said target left position and align said current right position with said target right position. 17. A rehabilitation system including a compliant bimanual rehabilitation device, comprising: a base that defines a left side, a right side, a front side, a rear side, an x-axis, a y-axis, and a z-axis of said device, wherein said base has a top side and a bottom side;a carrier assembly slidably coupled to said base via slide rails mounted on said top side of said base, said carrier assembly being slidable along the y-axis of said device;a carrier assembly encoder in communication with said carrier assembly in order to determine a position of said carrier assembly along the y-axis of said device, wherein said carrier assembly encoder is in further communication with an electronic device in order to transmit the position of said carrier assembly to said electronic device;an upper assembly rotationally coupled to said carrier assembly, said upper assembly being rotational about the z-axis of said device, said upper assembly having a left end corresponding to said left side of said device and a right end corresponding to said right side of said device;an upper assembly encoder in communication with said upper assembly in order to determine a position of said upper assembly about the z-axis of said device, wherein said upper assembly encoder is in further communication with said electronic device in order to transmit the position of said upper assembly to said electronic device;a left handle slide slidably coupled to said left end of said upper assembly, said left handle slide being slidable along the x-axis of said device;a left handle slide encoder in communication with said left handle slide in order to determine a position of said left handle slide along the x-axis of said device, wherein said left slide encoder is in further communication with said electronic device in order to transmit the position of said left handle slide to said electronic device;a right handle slide slidably coupled to said right end of said upper assembly, said right handle slide being slidable along the x-axis of said device;a right handle slide encoder in communication with said right handle slide in order to determine a position of said right handle slide along the x-axis of said device, wherein said right handle slide encoder is in further communication with said electronic device in order to transmit the position of said right handle slide to said electronic device;a left compliant handle assembly coupled to said left handle slide and extending from said left handle slide, said left compliant handle assembly including a first left compliant handle assembly component coupled to and extending from said left handle slide along the y-axis of said device, said left compliant handle assembly further including a second left compliant handle assembly component coupled to and extending inwardly from said first left compliant handle assembly component;a first left load cell positioned along and in communication with said first left compliant handle assembly component to determine an amount of force placed by said user on said first left compliant handle assembly component;a second left load cell positioned along and in communication with said second left compliant handle assembly component to determine an amount of force placed by said user on said second left compliant handle assembly component,wherein said first and second left load cells are in further communication with said electronic device in order to transmit the amount of force on said left compliant handle assembly to said electronic device;a right compliant handle assembly coupled to said right handle slide and extending from said right handle slide, said right compliant handle assembly including a first right compliant handle assembly component coupled to and extending from said right handle slide along the y-axis of said device,said right compliant handle assembly further including a second right compliant handle assembly component coupled to and extending inwardly from said first right compliant handle assembly component;a first right load cell positioned along and in communication with said first right compliant handle assembly component to determine an amount of force placed by said user on said first right compliant handle assembly component;a second right load cell positioned along and in communication with said second right compliant handle assembly component to determine an amount of force placed by said user on said second right compliant handle assembly component;wherein said first and second right load cells are in further communication with said electronic device in order to transmit the amount of force on said right compliant handle assembly to said electronic device;a left handle fixedly coupled to said left compliant handle assembly;a right handle fixedly coupled to said right compliant handle assembly,wherein one of said left handle and said right handle is a guiding handle and the other of said left handle and said right handle is a following handle,wherein said left handle and said right handle are indirectly linked to each other at an adjustable, predetermined coupling stiffness via said left handle slide and said right handle slide being coupled to each other, thus also coupling said left compliant handle assembly and said right compliant handle assembly to each other,said left handle slide and said right handle slide being coupled to each other via a cable and pulley assembly including at least one cable and at least two pulleys, wherein when said at least one cable is looped around said at least two pulleys an even number of times, said left handle and said right handle move in a same absolute direction, andwhen said at least one cable is looped around said at least two pulleys an odd number of times, said left handle and said right handle mirror each other,wherein when said device is in use, a paretic arm of a user or operator of said device is linked to a sound arm of said user of said device, such that a movement of said guiding handle dictates a corresponding movement of said following handle according to a predetermined symmetry mode;a first locking mechanism for restricting movement of said upper assembly about the z-axis of said device:a second locking mechanism for restricting movement of said carrier assembly in the y-axis of said device;a first spring system coupled to said left compliant handle assembly to provide a bias against movement of said left handle,said first spring system including a first spring stack disposed at a connection joint between said left handle slide and said left compliant handle assembly, said first spring system further including a second spring stack disposed at a connection joint between said first left compliant handle assembly component and said second left compliant handle assembly component,said first and second spring stacks each formed of a plurality of torsion springs stacked on each other;a second spring system coupled to said right compliant handle assembly to provide a bias against movement of said right handle,said second spring system including a third spring stack disposed at a connection joint between said right handle slide and said right compliant handle assembly, said second spring system further including a fourth spring stack disposed at a connection joint between said first right compliant handle assembly component and said second right compliant handle assembly component,said third and fourth spring stacks each formed of a plurality of torsion springs stacked on each other,whereby said predetermined coupling stiffness can be adjusted, based on said user, by adding or removing torsion springs from said first and second spring stacks,said torsion springs each including a central portion and two (2) forks extending from said central portion, said two (2) forks having longitudinal extents that are substantially perpendicular to each other; anda visual display communicatively coupled to said device for indicating a current left position of said left handle and a current right position of said right handle, wherein said current left position and said current right position move as said left handle and said right handle respectively move,said visual display further indicating a target left position of said left handle and a target right position of said right handle, whereby a goal of said user is to align said current left position with said target left position and align said current right position with said target right position.
