Electronic range of motion apparatus, for orthosis, prosthesis, and CPM machine
First Claim
1. A portable therapeutic electronic range of motion apparatus to be worn and operated by a patient, comprising:
- an upper brace and a lower brace positioned on a patient'"'"'s upper joint area and lower joint area respectively, said areas being proximate to a joint;
a housing having an actuator sized and configured to be attached to said upper brace, said actuator having an extendable ram disposed in said housing, one end of said ram being connected to said lower brace for extending and flexing the joint, said actuator being responsive to a motor disposed in said housing, actuator movable over a range of positions;
an operator switching mechanism for generating a motion command;
a digital processor within said housing responsive to said operator switching mechanism for receiving and processing said motion command, said actuator movable under the control of said digital processor;
memory means within said housing, controlled by said digital processor for receiving and storing information representing selected discrete stopping positions of the actuator, said actuator movable among said stored selected stopping positions in response to said motion command generated by the operator switching mechanism;
calculator within said housing for determining instantaneous distance of the actuator to a selected stopping position by comparing said selected stopping position with actual position of the actuator; and
speed controller disposed within said housing and responsive to said calculator, said speed being a function of said instantaneous distance.
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Accused Products
Abstract
A therapeutic electronic range of motion apparatus includes a remote subsystem for generating motion commands which are transmitted to a local subsystem at an orthosis, prosthesis or CPM machine. The local subsystem includes a local controller for controlling and monitoring the position, speed, and direction of an actuator which moves an orthotic brace, prosthesis or CPM machine mounting. The apparatus is programmable enabling a patient to program stopping positions which thereafter are selectable by command. When the actuator is not in motion the local controller enters a sleep mode to conserve power. The controller is automatically awakened when a motion command is received.
286 Citations
12 Claims
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1. A portable therapeutic electronic range of motion apparatus to be worn and operated by a patient, comprising:
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an upper brace and a lower brace positioned on a patient'"'"'s upper joint area and lower joint area respectively, said areas being proximate to a joint; a housing having an actuator sized and configured to be attached to said upper brace, said actuator having an extendable ram disposed in said housing, one end of said ram being connected to said lower brace for extending and flexing the joint, said actuator being responsive to a motor disposed in said housing, actuator movable over a range of positions; an operator switching mechanism for generating a motion command; a digital processor within said housing responsive to said operator switching mechanism for receiving and processing said motion command, said actuator movable under the control of said digital processor; memory means within said housing, controlled by said digital processor for receiving and storing information representing selected discrete stopping positions of the actuator, said actuator movable among said stored selected stopping positions in response to said motion command generated by the operator switching mechanism; calculator within said housing for determining instantaneous distance of the actuator to a selected stopping position by comparing said selected stopping position with actual position of the actuator; and speed controller disposed within said housing and responsive to said calculator, said speed being a function of said instantaneous distance. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A portable therapeutic electronic range of motion apparatus to be worn and operated by a patient, comprising:
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an upper brace and a lower brace positioned on a patient'"'"'s upper joint area and lower joint area respectively, said areas being proximate to a joint; a housing having an actuator sized and configured to be attached to said upper brace, said actuator having an extendable ram disposed within said housing, one end of said ram being connected to said lower brace for extending and flexing the joint said actuator movable over a range of positions; an operator switching mechanism for generating a motion command; a digital processor within said housing for receiving and processing the motion command, said actuator movable under the control of said digital processor; calculator within said housing for determining instantaneous distance of the actuator to a selected stopping position by comparing said selected stopping position with actual position of the actuator; means for controlling the speed of the actuator disposed within said housing and responsive to said calculator to set the speed proportional to said instantaneous distance so as to gradually slow down the actuator when approaching a stopping position; means for automatically switching off power to the digital processor and actuator after a stopping position is reached; and means for automatically restoring power to the digital processor and actuator in response to a motion command generated from said operator switching mechanism. - View Dependent Claims (10)
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11. A portable therapeutic electronic range of motion apparatus, comprising:
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a remote subsystem comprising an operator switching mechanism for generating a motion command, the remote subsystem transmitting the motion command; a local subsystem to be worn and operated by a patient comprising a housing having means for receiving the transmitted motion command, a processing means within said housing for processing the motion command, an upper brace and a lower brace positioned on a patient'"'"'s upper joint area and lower joint area, said areas being proximate to a joint; an actuator sized and configured within said housing to be attached to said upper brace, said actuator having an extendable ram within said housing, one end of said ram being connected to said lower brace for extending and flexing the joint said actuator movable over a range of positions, a motor controlled by the processing means for moving the actuator in response to a motion command generated by said operator switching mechanism, means for automatically switching off the power to the processing means and motor when the actuator is not in motion, and means for automatically restoring power to the processing means and motor in response to a motion command generated by said operator switching mechanism; means within said housing for storing information representing desired actual positions where actuator stops, said actual positions are selectable by a motion command generated by the operator switching mechanism, wherein the patient (1) activates a programming mode of the processing means causing the actuator to move to a reference position, (2) generates a motion command to automatically move the actuator from the reference position, and (3) generates a program command causing the current actual position of the actuator to be stored as a stopping position; calculating means within said housing for determining instantaneous distance of the actuator to a selected stopping position by comparing said desired stopping position with actual position of the actuator; and wherein the processing means processes the motion command by causing the motor to move the actuator at a speed proportional to said instantaneous distance while monitoring the movement of the actuator.
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12. A method for a patient for using a portable therapeutic electronic range of motion apparatus to be worn and operated by the patient, comprising the steps of:
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activating a programming mode of the apparatus; positioning an upper brace and a lower brace on a patient'"'"'s upper joint area, and lower joint area, said areas being proximate to a joint; automatically moving an actuator of the apparatus to a reference position, in response to said step of activating said programming mode, said actuator disposed in a housing being attached to said upper brace, and having an extendable ram, one end of said ram being connected to said lower brace for extending and flexing the joint; moving the actuator from the reference position to desired positions in response to a motion command generated by the patient; storing information representing said desired positions of the actuator as desired stopping positions in response to a program command generated by the patient; activating a motion command mode of the apparatus; moving the actuator to said desired stopping positions previously stored, in response to said motion command mode; calculating instantaneous distance of the actuator to said desired stopping position by comparing said desired stopping position with actual position of the actuator; and controlling the speed of the actuator to set the speed proportional to said instantaneous distance so as to gradually slow down the actuator when approaching a desired stopping position.
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Specification