Methods, systems, and devices for control of surgical tools in a robotic surgical system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61B-034/00
A61B-090/50
A61B-034/30
A61B-090/00
출원번호
US-0872637
(2018-01-16)
등록번호
US-10238461
(2019-03-26)
발명자
/ 주소
Auld, Michael D.
출원인 / 주소
Ethicon LLC
대리인 / 주소
Mintz Levin Cohn Ferris Glovsky and Popeo, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
14
초록▼
Techniques for a surgical system are provided that allow controlling a force applied by an electromechanical surgical tool coupled to an electromechanical surgical arm. A force limiter can be associated with at least one of the surgical arm and the tool and is used to limit the force applied by jaws
Techniques for a surgical system are provided that allow controlling a force applied by an electromechanical surgical tool coupled to an electromechanical surgical arm. A force limiter can be associated with at least one of the surgical arm and the tool and is used to limit the force applied by jaws of the tool to tissue when the tissue is engaged therebetween or when the tissue is otherwise manipulated. The force can be limited to a maximum force value, which can be preselected, and it can be adjustable based on user input or automatically. Also are provided techniques for a surgical system that allow controlling a stiffness of an electromechanical passive arm coupled to a fixture and having an active arm mounted thereon. The stiffness is adjusted, either manually or automatically, by adjusting a friction at a joint of the arm based on an angle at the arm's joint.
대표청구항▼
1. A surgical system, comprising: a passive arm having a first end configured to be coupled to a fixture and a second end, the passive arm having first and second passive arm segments extending between the first and second ends, and the passive arm having a joint between the first and second passive
1. A surgical system, comprising: a passive arm having a first end configured to be coupled to a fixture and a second end, the passive arm having first and second passive arm segments extending between the first and second ends, and the passive arm having a joint between the first and second passive arm segments, the second end being configured to move toward and away from the fixture such that an angle between the first and second arm segments increases as a distance between the second end and the fixture increases; andan active arm coupled to the second end of the passive arm and configured to have a surgical instrument coupled to a distal end thereof,wherein the joint connecting first and second passive arm segments has a stiffness that is controlled based on the angle between the first and second arm segments of the passive arm. 2. The surgical system of claim 1, wherein the stiffness is configured to decrease as the angle between the first and second arm segments of the passive arm increases. 3. The surgical system of claim 1, wherein the stiffness of the joint is automatically adjustable based on the angle. 4. The surgical system of claim 1, wherein the stiffness of the joint is selectively controllable based on user input. 5. The surgical system of claim 1, wherein the stiffness of the joint is automatically adjustable via a software-based controller. 6. The surgical system of claim 1, wherein the joint has an angle measurement sensor coupled thereto and configured to measure the angle. 7. The surgical system of claim 3, wherein the joint has a force sensor coupled thereto and configured to sense a force applied to the passive arm. 8. The surgical system of claim 1, wherein the joint includes a clutch mechanism. 9. The surgical system of claim 1, wherein the system is configured to: in response to detecting that a force is being applied to the joint to position the passive arm and thereby change the angle between the first and second passive arm segments, reduce a resistance of the joint to allow the passive arm to be repositioned to an other position; andafter the passive arm is repositioned, and in response to detecting that the force is no longer being applied to the joint, increase the resistance of the joint to cause the joint to remain in the other position. 10. The surgical system of claim 9, wherein the resistance of the joint is increased to cause the joint to remain in the other position such that the passive arm is precluded from being moved without a further force applied thereto. 11. The surgical system of claim 1, wherein the stiffness of the joint is controlled proportionally to the angle between the first and second passive arm segments. 12. The surgical system of claim 1, wherein the system is configured to: in response to detecting that a force is being applied to the joint to position the passive arm and thereby change the angle between the first and second passive arm segments, increase a stiffness as the angle increases from about 0 degrees to about 90 degrees and decrease the stiffness as the angle further increases to become greater than 90 degrees. 13. The surgical system of claim 1, wherein the stiffness is controlled such that the second end is configured to move toward and away from the fixture irrespective of a load applied to the passive arm. 14. The surgical system of claim 1, wherein, at a locked configuration, the stiffness of the joint is greater than a gravitational force and a load applied to the passive arm. 15. A method of operating a surgical system, the method comprising: positioning an electromechanical surgical arm comprising a passive arm and an active arm coupled to the passive arm, the active arm having a surgical instrument coupled to a distal end thereof, and the passive arm having first and second arm segments and a joint connecting the first and second arm segments, wherein the first arm segment has a first end coupled to a fixture and a second end coupled to the active arm; andchanging a position of the passive arm by moving the second arm segment such that an angle between the first and second arm segments increases as a distance between the second end and the fixture increases, and such that a stiffness of the joint is controlled based on the angle. 16. The method of claim 15, wherein the stiffness of the joint is configured to decrease as the angle between the first and second arm segments increases. 17. The method of claim 15, wherein the stiffness of the joint is automatically adjusted based on the angle. 18. The method of claim 15, wherein the stiffness of the joint is selectively adjusted based on user input. 19. The method of claim 15, wherein the stiffness of the joint is automatically adjustable via a software-based controller. 20. The method of claim 15, further comprising receiving sensor data from a force sensor associated with the joint thereto and configured to sense a force applied to the passive arm, wherein the surgical system is configured to adjust the stiffness of the joint at least partially based on the received sensor data.
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Nowlin, William C.; Guthart, Gary S.; Younge, Robert G.; Cooper, Thomas G.; Gerbi, Craig; Blumenkranz, Stephen J.; Hoornaert, Dean F., Grip strength with tactile feedback for robotic surgery.
Nowlin, William C.; Guthart, Gary S.; Younge, Robert G.; Cooper, Thomas G.; Gerbi, Craig; Blumenkranz, Steven J.; Hoornaert, Dean F., Grip strength with tactile feedback for robotic surgery.
Nowlin, William C.; Guthart, Gary S.; Younge, Robert G.; Cooper, Thomas G.; Gerbi, Craig; Blumenkranz, Steven J.; Hoornaert, Dean F., Grip strength with tactile feedback for robotic surgery.
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