Powered orthotic device and method of using same
First Claim
1. A powered orthotic system comprising:
- a wearable component including;
a brace having a first section and a second section, the first and second sections coupled to each other at a pivot, the brace configured to be removably attached to a corresponding first and second limb segment of a user such that the pivot is proximate to a joint of the user between each limb segment, the first and the second sections movable with respect to each other to define flexion and extension directions;
an electromyographic sensor;
an electrically powered actuator assembly in communication with the electromyographic sensor, the actuator assembly coupled to the first and the second sections so as to apply a force that moves the first and the second sections in the flexion direction, the extension direction, or both, the force based on signals from the electromyographic sensor, wherein the actuator assembly includes a motor in a housing and a drive assembly coupled to the motor, the housing positioned proximate to the pivot; and
a controller in communication with the actuator assembly that provides system parameters to control operation of the actuator assembly; and
a control unit in communication with the wearable component, the control unit including;
a processor that modifies the system parameters in the controller; and
a user interface, in communication with the processor, that permits user selection of the system parameters, wherein the control unit includes an auto-calibration mode in which an initial electromyographic signal level is measured by the electromyographic sensor for one or more muscles of the user when the muscles are at-rest, and the initial electromyographic signal level is used to adjust an electromyographic signal level measured during subsequent operation of the wearable component.
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Accused Products
Abstract
A powered orthotic system includes a wearable component having a brace with a first section and a second section. The first and second sections are coupled to each other at a pivot. Each section is adapted to be removably attached to a corresponding first and second limb segment such that the pivot is proximate to a joint between each limb segment. The first and the second sections are movable with respect to each other to define flexion and extension directions. The wearable component also includes an electromyographic sensor, an electrically powered actuator assembly in communication with the electromyographic sensor, and a controller in communication with the actuator assembly that provides system parameters to control operation of the actuator assembly. The actuator assembly is coupled to the first and the second sections so as to apply a force that moves the first and the second sections in the flexion and/or extension directions and the force is based on signals from the electromyographic sensor. The actuator assembly is positioned proximate to the pivot. The system also includes a control unit in communication with the wearable component. The control unit includes a processor that modifies the system parameters in the controller and a user interface, in communication with the processor, that permits user selection of the system parameters.
84 Citations
20 Claims
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1. A powered orthotic system comprising:
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a wearable component including; a brace having a first section and a second section, the first and second sections coupled to each other at a pivot, the brace configured to be removably attached to a corresponding first and second limb segment of a user such that the pivot is proximate to a joint of the user between each limb segment, the first and the second sections movable with respect to each other to define flexion and extension directions; an electromyographic sensor; an electrically powered actuator assembly in communication with the electromyographic sensor, the actuator assembly coupled to the first and the second sections so as to apply a force that moves the first and the second sections in the flexion direction, the extension direction, or both, the force based on signals from the electromyographic sensor, wherein the actuator assembly includes a motor in a housing and a drive assembly coupled to the motor, the housing positioned proximate to the pivot; and a controller in communication with the actuator assembly that provides system parameters to control operation of the actuator assembly; and a control unit in communication with the wearable component, the control unit including; a processor that modifies the system parameters in the controller; and a user interface, in communication with the processor, that permits user selection of the system parameters, wherein the control unit includes an auto-calibration mode in which an initial electromyographic signal level is measured by the electromyographic sensor for one or more muscles of the user when the muscles are at-rest, and the initial electromyographic signal level is used to adjust an electromyographic signal level measured during subsequent operation of the wearable component. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 20)
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19. An improved electrically powered orthotic device having a brace including first and second sections coupled to each other at a pivot, the brace configured to be removably attached to first and second limb segments of a user, the first and second sections moveable with respect to a joint of the user, wherein the improvement comprises:
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a wearable component including an electric actuator assembly coupled to the brace so as to apply a force for driving the first and second sections about the pivot, a controller in communication with the electric actuator assembly, an electromyographic sensor, and a communication port, wherein the electric actuator assembly includes a motor in a housing and a drive assembly coupled to the motor, the housing positioned proximate to the pivot; and a control unit including user interface, a processor coupled to the user interface, a memory, and a communication port, wherein the control unit can be placed in communication with the wearable component, via the communication port of the control unit and the communication port of the wearable component, in order to modify parameters of the controller, wherein the control unit includes an auto-calibration mode in which an initial electromyographic signal level is measured by the electromyographic sensor for one or more muscles of the user when the muscles are at-rest, and the initial electromyographic signal level is used to adjust an electromyographic signal level measured during subsequent operation of the wearable component.
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Specification