| US 7,481,782 B2 | ||
| Movement facilitation device | ||
| Timothy Roderick Dalkeith Scott, New South Wales (Australia); Veronica A. Vare, New South Wales (Australia); Peter Puya Abolfathi, New South Wales (Australia); Gordon G. Wallace, New South Wales (Australia); and Dezhi Zhou, New South Wales (Australia) | ||
| Assigned to Northern Sydney Area Health Service, Gosford NSW (Australia) | ||
| Appl. No. 10/526,713 PCT Filed Sep. 04, 2003, PCT No. PCT/AU03/01138 § 371(c)(1), (2), (4) Date Sep. 23, 2005, PCT Pub. No. WO2004/021936, PCT Pub. Date Mar. 18, 2004. |
||
| Claims priority of application No. 2002951193 (AU), filed on Sep. 04, 2002. | ||
| Prior Publication US 2006/0094989 A1, May 04, 2006 | ||
| Int. Cl. A61H 1/00 (2006.01); A61H 1/02 (2006.01); A61H 5/00 (2006.01); G01L 1/24 (2006.01) | ||
| U.S. Cl. 601—5 [601/33; 601/40; 73/862.624] | 3 Claims |
| 1. A movement device comprising movement facilitation devices capable of being coupled to a patient, so as to facilitate independent
movement of at least two joints of a limb or digit, said movement device comprising:
a) at least a first and a second movement facilitation device, the first movement facilitation device being disposed so as
to facilitate a first movement of a corresponding first joint of said limb or digit, the second movement facilitation device
being disposed so as to facilitate a second movement of a corresponding second joint of said limb or digit, wherein the first
movement can be performed independently of the second movement, and each of the movement facilitation devices comprising:
an actuator capable of causing the corresponding joint to move,
operating means coupled to the actuator for operating the actuator in response to an input signal,
a sensor capable of providing a corresponding feedback signal relating to at least one quantity selected from the group consisting
of a force exerted on the corresponding joint, a force exerted by the corresponding joint, a position of the corresponding
joint, a pressure exerted on the corresponding joint and a pressure exerted by the corresponding joint, and
a support structure coupled to the actuator and capable of being coupled to the patient's body such that, when coupled to
the patient's body, the support structure is disposed so that the actuator is capable of causing the corresponding joint to
move; and
b) controlling means capable of providing an input signal to one of the operating means for controlling said operating means;
wherein each sensor is capable of providing the corresponding feedback signal to means selected from the corresponding operating
means and the controlling means so as to affect the operation of one of the actuators,
wherein each sensor comprises a force-position transducer for generating the corresponding feedback signal, and
wherein the transducer comprises:
a) a radiation source and one or more detectors capable of detecting radiation from the radiation source, wherein at least
one detector is free to move relative to the radiation source, and
b) a return mechanism coupled to at least one detector,
wherein at least one detector is capable of generating the corresponding feedback signal, wherein said feedback signal is
dependent on an intensity of the radiation from the radiation source incident on said detector, said feedback signal relating
to at least one quantity selected from the group consisting of a force exerted on the corresponding joint, a force exerted
by the corresponding joint, a position of the corresponding joint, a pressure exerted on the corresponding joint and a pressure
exerted by the corresponding joint.
|