User controlled power disconnect mechanism for human exoskeleton
Abstract
A human exoskeleton includes a power source. The human exoskeleton also includes a controller configured to activate power between the exoskeleton and the power source. The human exoskeleton further includes a power disconnect mechanism electronically connected to the controller and configured to disconnect power between the exoskeleton and the power source when activated, the power disconnect mechanism activated when a pressure applied to the power disconnect mechanism is above a range programmed in the controller or below the range programmed in the controller, the human exoskeleton powered only when the pressure applied to the power disconnect mechanism is within the range programmed in the controller.
Claims
exact text as granted — not AI-modifiedHaving thus described the invention, it is claimed:
1 . A human exoskeleton comprising
a power source; a controller configured to activate power between the exoskeleton and the power source; and a power disconnect mechanism electronically connected to the controller and configured to disconnect power between the exoskeleton and the power source when activated, the power disconnect mechanism activated when a pressure applied to the power disconnect mechanism is above a range programmed in the controller or below the range programmed in the controller, the human exoskeleton powered only when the pressure applied to the power disconnect mechanism is within the range programmed in the controller.
2 . The human exoskeleton of claim 1 , wherein the power disconnect mechanism comprises a button.
3 . The human exoskeleton of claim 1 , wherein the power disconnect mechanism comprises a conductive pad.
4 . The human exoskeleton of claim 3 , wherein the power disconnect mechanism comprises a plurality of conductive pads, the power disconnect mechanism activated when the conductive pads contact each other.
5 . The human exoskeleton of claim 1 , wherein the power disconnect mechanism comprises a pressure sensitive pad.
6 . The human exoskeleton of claim 1 , wherein the power disconnect mechanism is secured to a palm of the wearer.
7 . The human exoskeleton of claim 1 , wherein the power disconnect mechanism is secured to a finger of the wearer.
8 . The human exoskeleton of claim 1 , wherein the power disconnect mechanism is activated when depressed.
9 . A power disconnect mechanism for a human exoskeleton comprising:
an interface secured to a hand of a wearer of the human exoskeleton, the interface having a switch; and a controller in operative communication with the interface and configured to activate power between the human exoskeleton and a power source, the interface disconnecting power between the human exoskeleton and the power source when activated, the power disconnect mechanism activated when a pressure applied to the power disconnect mechanism is above a range programmed in the controller or below the range programmed in the controller, the human exoskeleton powered only when the pressure applied to the power disconnect mechanism is within the range programmed in the controller.
10 . The power disconnect mechanism of claim 9 , wherein the interface is in wired communication with the controller.
11 . The power disconnect mechanism of claim 9 , wherein the interface is in wireless communication with the controller.
12 . The power disconnect mechanism of claim 9 , wherein the interface comprises a button.
13 . The power disconnect mechanism of claim 9 , wherein the power disconnect mechanism comprises a conductive pad.
14 . The power disconnect mechanism of claim 9 , wherein the power disconnect mechanism comprises a pressure sensitive pad.Cited by (0)
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