Computer controlled hydraulic resistance device for a prosthesis and other apparatus
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61F-002/64
A61F-002/60
A61F-002/70
A61F-002/50
A61F-002/74
A61F-002/76
F16F-009/46
F16F-009/44
A61F-002/68
출원번호
US-0426249
(2003-04-29)
등록번호
US-RE39961
(2007-12-25)
발명자
/ 주소
Petrofsky,Steven H.
Gruesbeck,William G.
출원인 / 주소
횜SSUR hf
대리인 / 주소
Knobbe, Martens, Olson & Bear LLP
인용정보
피인용 횟수 :
52인용 특허 :
76
초록▼
A computer controlled hydraulic resistance device for apparatus such as a prosthetic knee for above knee amputees, includes a two stage pilot operated solenoid valve connected to control the flow of hydraulic fluid to and from a hydraulic actuator which applies resistance to the prosthetic knee or o
A computer controlled hydraulic resistance device for apparatus such as a prosthetic knee for above knee amputees, includes a two stage pilot operated solenoid valve connected to control the flow of hydraulic fluid to and from a hydraulic actuator which applies resistance to the prosthetic knee or other apparatus through a coupling. Hydraulic pressure is sensed on the high and low side of the actuator by a spring biased magnet and a magnetically actuated electronic sensor and is used by a micro-controller in a closed-loop manner to compensate automatically for variations in the device and in the hydraulic fluid viscosity. The device also has magnetically actuated electronic sensors which sense positions of the apparatus and feed back to the micro-controller for applying a predetermined resistance profile to the apparatus.
대표청구항▼
The invention having been described, the following is claimed: 1. A device for producing a controlled variable resistance to apparatus including a first member moveable relative to a second member, said device comprising hydraulic actuator connecting said first member to said second member, said ac
The invention having been described, the following is claimed: 1. A device for producing a controlled variable resistance to apparatus including a first member moveable relative to a second member, said device comprising hydraulic actuator connecting said first member to said second member, said actuator including a housing enclosing a moveable resistance applying member separating a first chamber and a second chamber within said housing, hydraulic fluid passages connected to said chambers, hydraulic fluid within said chambers and said passages, a solenoid controlled valve connected to control the flow of hydraulic fluid through said passages, a magnet and a magnetically actuated electronic sensor arranged to sense changes in the hydraulic fluid pressure within at least one of said chambers, and a computer controlled electronic system responsive to said sensor for actuating said valve to control precisely the flow of said fluid through said valve and into and out of said first and second chambers. 2. A device as defined in claim 1 and including a position sensor for sensing the position of said first member relative to said second member and connected to said control system for applying a predetermined resistance profile to the device. 3. A device as defined in claim 2 wherein said position sensor comprises a second magnet and a second magnetically actuated electronic sensor, and a relatively moveable variable shutter spaced between said second magnet and said second electronic sensor for varying the magnetic field in response to relative movement between said first and second members. 4. A device as defined in claim 1 and including means for biasing the flow of hydraulic fluid through said valve between said first chamber and said second chamber. 5. A device as defined in claim 1 and including a first connector for connecting said first member to a partial leg of an amputee and a second connector for connecting said second member to an artificial foot for the amputee. 6. A device as defined in claim 5 wherein said control system includes an electronic sensor for sensing the force exerted on said second connector by the artificial foot while the amputee is walking. 7. A device as defined in claim 1 wherein said resistance applying member comprises a rotary shaft connected to a vane type rotor within said housing, and an endless flexible sealing member extending around said rotor and engaging said housing. 8. A device as defined in claim 1 wherein said solenoid valve comprises a two stage pilot operated valve connected to said fluid passages. 9. A device as defined in claim 1 wherein said magnet is positioned within one of said passages with a spring bias for simultaneously sensing the hydraulic fluid pressure within said first and second chambers, and said electronic sensor is positioned out of communication with said fluid and is responsive to movement of said magnet. 10. A device for producing a controlled variable resistance to apparatus including a first member moveable relative to a second member, said device comprising hydraulic actuator connecting said first member to said second member, said actuator including a housing enclosing a moveable resistance applying member separating a first chamber and a second chamber within said housing, hydraulic fluid passages connected to said chambers, hydraulic fluid within said chambers and said passages, a two stage pilot operated solenoid valve connected to control the flow of hydraulic fluid through said passages, an electronic sensor arranged to sense changes in the hydraulic fluid pressure within at least one of said chambers, and a computer controlled electronic system responsive to said sensor for actuating said valve to control precisely the flow of said fluid through said valve and into and out of said first and second chambers. 11. A device as defined in claim 10 and including a position sensor for sensing the position of said first member relative to said second member and connected to said control system for applying a predetermined resistance profile to said device. 12. A device as defined in claim 11 wherein said position sensor comprises a magnet and a magnetically actuated electronic sensor, and a relatively moveable variable shutter spaced between said magnet and said electronic sensor for varying the magnetic field in response to relative movement between said first and second members. 13. A device as defined in claim 10 and including a first connector for connecting said first member to a partial leg of an amputee and a second connector for connecting said second member to an artificial foot for the amputee. 14. A device as defined in claim 13 and including a magnet and a magnetically actuated electronic sensor for sensing the force exerted on said second connector by the artificial foot while the amputee is walking. 15. A device as defined in claim 10 wherein said resistance applying member comprises a rotary shaft connected to a vane type rotor within said housing, and an endless flexible sealing member extending within a groove around said rotor and engaging said housing. 16. A device as defined in claim 10 and including a magnet positioned within one of said passages with a spring bias for simultaneously sensing the hydraulic fluid pressure within said first and second chambers, and said electronic sensor is positioned out of communication with said fluid and is responsive to movement of said magnet. 17. A device adopted for producing a controlled variable resistance to apparatus including a first member moveable relative to a second member, an actuator connecting said first member to said second member, said device comprising a housing enclosing a moveable displacement member separating a first chamber and a second chamber within said housing, fluid passages connected to said chambers and a fluid within said chambers and said passages, a solenoid controlled valve connected to control the flow of fluid through said passages, a position sensor for sensing the position of said first member relative to said second member and including a magnet and a magnetically actuated electronic sensor, a variable shutter connected for movement with said first member and spaced between said magnet and said electronic sensor for variably restricting the magnetic field in response to relative movement between said first and second members, and a computer controlled electronic system responsive to said sensor for actuating said valve to control the flow of said fluid through said valve and into and out of said first and second chambers. id="INS-S-00002" date="20071225" 18. A method of controlling a prosthetic knee worn by a patient, the prosthetic knee containing fluid used at least in part to control the movement of the knee, the method comprising: measuring fluid pressure of the prosthetic knee; measuring movement characteristics of the prosthetic knee; calculating a desired fluid pressure based on at least the measured movement characteristics; and adjusting fluid pressure based on a comparison of the calculated desired fluid pressure with the measured fluid pressure.id="INS-S-00002" id="INS-S-00003" date="20071225" 19. The method of claim 18, wherein measuring movement characteristics comprises measuring a moving direction of the prosthetic knee.id="INS-S-00003" id="INS-S-00004" date="20071225" 20. The method of claim 18, wherein measuring movement characteristics comprises measuring a moving velocity of the prosthetic knee.id="INS-S-00004" id="INS-S-00005" date="20071225" 21. A prosthetic knee adapted to be worn by a patient, the prosthetic knee comprising: movement characteristic sensors that measure movement characteristics of the prosthetic knee; a chamber comprising fluid that at least partially controls the movement of the prosthetic knee; a fluid pressure sensor in communication with the fluid for measuring the pressure of the fluid; and an electronic control unit that calculates a desired fluid pressure based on at least the measured movement characteristics of the prosthetic knee and that adjusts fluid pressure based on a comparison of the calculated desired fluid pressure with the measured fluid pressure.id="INS-S-00005"
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이 특허에 인용된 특허 (76)
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Weiss Keith D. ; Carlson J. David ; Nixon Donald A., Method and magnetorheological fluid formulations for increasing the output of a magnetorheological fluid.
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Ivers Douglas E. ; Carlson J. David ; Jolly Mark R. ; Chrzan Michael J. ; Prindle Donald R. ; St. Clair Kenneth A., Two-way magnetorheological fluid valve assembly and devices utilizing same.
Loverich, Jacob J.; Kraige, David R.; Frank, Jeremy E.; Geiger, Richard T., Apparatuses and methods for using energy harvesting for variable shock absorption in a prosthetic device.
Herr, Hugh M.; Au, Kwok Wai Samuel; Paluska, Daniel Joseph; Dilworth, Peter, Artificial ankle-foot system with spring, variable-damping, and series-elastic actuator components.
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Song, Jum-Sik; Lee, Suk-Min; Cha, Guk-Chan; Jung, Sung-Hee; Lee, Ji-Yeon; Mun, Mu-Sung; Kim, Soon-Jong, Connection structure of artificial limb and socket, using magnetic locking device.
Herr, Hugh Miller; Casler, Jr., Richard J.; Han, Zhixiu; Barnhart, Christopher Eric; Girzon, Gary, Controlling power in a prosthesis or orthosis based on predicted walking speed or surrogate for same.
Herr, Hugh M.; Casler, Rick; Nook, Christopher M.; Margolin, Alexander S.; Size, Kristin J.; Kowalczyk, Matthew T.; Spaller, Robert W.; Thompson, Gregory K.; Dalrymple, Timothy M.; Kessler, Seth S.; Murray, David W.; Barnhart, Christopher E., Hybrid terrain-adaptive lower-extremity systems.
Herr, Hugh M.; Casler, Rick; Nook, Christopher M.; Margolin, Alexander S.; Size, Kristin J.; Kowalczyk, Matthew T.; Spaller, Robert W.; Thompson, Gregory K.; Dalrymple, Timothy M.; Kessler, Seth S.; Murray, David W.; Barnhart, Christopher E., Hybrid terrain-adaptive lower-extremity systems.
Donelan, James Maxwell; Kuo, Arthur D.; Hoffer, Joaquin Andres; Li, Qingguo; Weber, Douglas, Methods and apparatus for harvesting biomechanical energy.
Donelan, James Maxwell; Kuo, Arthur D.; Hoffer, Joaquin Andres; Li, Qingguo; Weber, Douglas, Methods and apparatus for harvesting biomechanical energy.
Herr, Hugh M.; Endo, Ken; Krishnaswamy, Pavitra; Markowitz, Jared; Eilenberg, Michael Frederick; Wang, Jing, Neuromuscular model-based sensing and control paradigm for a robotic leg.
Herr, Hugh M.; Endo, Ken; Krishnaswamy, Pavitra; Markowitz, Jared; Eilenberg, Michael Frederick; Wang, Jing, Neuromuscular model-based sensing and control paradigm for a robotic leg.
Herr, Hugh M.; Weber, Jeff A.; Au, Kwok Wai Samuel; Deffenbaugh, Bruce Wayne; Magnusson, Lee Harris; Hofmann, Andreas G.; Aisen, Benjamin B., Powered ankle-foot prosthesis.
Herr, Hugh M.; Weber, Jeff A.; Au, Samuel K.; Deffenbaugh, Bruce Wayne; Magnusson, Lee Harris; Hofmann, Andreas G.; Aisen, Benjamin B., Powered ankle-foot prothesis.
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