Locomotion assisting apparatus with integrated tilt sensor
Abstract
A locomotion assisting exoskeleton device includes a plurality of braces, including a trunk support for affixing to the part of the torso of a person and leg segment braces each leg segment brace for connecting to a section of a leg of the person. The device further includes at least one motorized joint for connecting two of the braces and for providing relative angular movement between the two braces. The device includes at least one tilt sensor mounted on the exoskeleton device for sensing a tilt of the exoskeleton, and a controller for receiving sensed signals from the tilt sensor and programmed with an algorithm with instructions for actuating the motorized joints in accordance with the sensed signals.
Claims
exact text as granted — not AI-modified1 . A locomotion assisting exoskeleton device comprising:
a plurality of braces including a trunk support for affixing to the part of the torso of a person and leg segment braces each leg segment brace for connecting to a section of a leg of the person; at least one motorized joint for connecting two braces of said plurality of braces and for providing relative angular movement between the two braces; at least one tilt sensor mounted on the exoskeleton device for sensing a tilt of the exoskeleton; and a controller for receiving sensed signals from a tilt sensor of said at least one tilt sensor and programmed with an algorithm with instructions for actuating the motorized joints in accordance with the sensed signals.
2 . A device as claimed in claim 1 , comprising a remote control.
3 . A device as claimed in claim 1 , wherein the algorithm comprises operating the motorized joint to swing a trailing leg forward when a sensed tilt sensed by a tilt sensor of said at least one tilt sensor exceeds a threshold value.
4 . A device as claimed in claim 1 , wherein the algorithm comprises operating the motorized joint to extend a leading leg backward when a sensed tilt sensed by a tilt sensor of said at least one tilt sensor exceeds a threshold value.
5 . A device as claimed in claim 1 , wherein a tilt sensor of said at least one tilt sensor is mounted on the trunk support.
6 . A device as claimed in claim 1 , wherein a tilt sensor of said at least one tilt sensor is mounted on a component of the exoskeleton device whose tilt is substantially equal to the tilt of the trunk support.
7 . A device as claimed in claim 1 , wherein a joint of said at least one motorized joint is provided with an angle sensor for sensing an angle between the two braces connected by the joint.
8 . A device as claimed in claim 7 , wherein the algorithm includes instructions for actuating the motorized joints in accordance with the sensed angle.
9 . A device as claimed in claim 8 , wherein the algorithm comprises halting forward motion of a leg when the sensed angle is within a predetermined range of angles.Cited by (0)
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