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Decoupled quick change surgical device for robot assisted minimally invasive surgery

A robot-assisted, minimally invasive surgery technology, applied in the fields of surgery, application, medical science, etc., can solve the problems that affect the quality of surgery, the coupling motion between the wrist joint and the end effector cannot be completely eliminated, and the compensation movement of the end effector of surgical instruments is inaccurate, etc. question

Active Publication Date: 2013-10-09
吉林省金博弘智能科技有限责任公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In order to solve the problem that the steel wires driving the left and right fingers of the existing minimally invasive surgical devices are easy to break, and the structure is complex, and the replacement time of surgical instruments during the operation is too long, the invention further proposes a coupling-free fast Replacement Surgical Devices
[0005] The beneficial effect of the present invention is: the present invention solves the inaccurate compensation movement of the end effector of the surgical instrument due to the gear gap and transmission error of the existing robot-assisted minimally invasive surgery instrument, which in turn leads to the coupling between the wrist joint and the end effector The problem that the movement cannot be completely eliminated; the present invention also solves the problem that the existing robot-assisted minimally invasive surgical instruments do not have a quick-change function, which leads to long surgical replacement time and affects the quality of the operation. The present invention has coupling-free movement and quick-change In addition, the reset of the transmission mechanism cooperates with the quick-change structure of the surgical instrument to realize the zero point reset of the transmission mechanism of the surgical instrument while performing rapid installation.

Method used

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  • Decoupled quick change surgical device for robot assisted minimally invasive surgery
  • Decoupled quick change surgical device for robot assisted minimally invasive surgery
  • Decoupled quick change surgical device for robot assisted minimally invasive surgery

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specific Embodiment approach 1

[0007] Specific implementation mode one: combine Figure 1 to Figure 28 Describe this embodiment, the non-coupling quick-change surgical device for robot-assisted minimally invasive surgery described in this embodiment includes an upper blade transmission mechanism 1, a wrist transmission mechanism 2, a cannula transmission mechanism 3, a lower blade transmission mechanism 4, a first Reset mechanism 5, second reset mechanism 6, first guide mechanism 7, second guide mechanism 8, front-end surgical scissors mechanism 9, adapter housing 33, adapter upper cover 34, sleeve tube 35, wrist connector 36, upper blade Traction lower steel wire 46, upper blade traction upper steel wire 47, wrist traction lower steel wire 48, wrist traction upper steel wire 49, lower blade traction lower steel wire 50, lower blade traction upper steel wire 51 and seven screws 52, upper blade transmission mechanism 1 , wrist transmission mechanism 2, sleeve transmission mechanism 3, and lower blade transmi...

specific Embodiment approach 2

[0010] Specific implementation mode two: combination Figure 8 and Figure 9 Describe this embodiment, the upper blade transmission mechanism 1 of the non-coupling quick-change surgical device for robot-assisted minimally invasive surgery described in this embodiment includes an upper blade transmission clutch disc 10, an upper blade transmission rear bearing 11, an upper blade transmission offline wheel shaft 12. Upper blade drive upper wire pulley 13, upper blade drive front bearing 14 and three upper blade drive mechanism set screws 15, upper blade drive lower wire wheel shaft 12 from back to front are made of an integrated upper blade drive lower wire wheel shaft One section 12-1, the second section 12-2 of the upper blade driving the offline axle, the third section 12-3 of the upper blade driving the offline axle, the four sections 12-4 of the upper blade driving the offline axle, and the five sections 12 of the upper blade driving the offline axle -5 composition, the up...

specific Embodiment approach 3

[0012] Specific implementation mode three: combination Figure 25 and Figure 26 Describe this embodiment, the wrist transmission mechanism 2 of the non-coupling quick-change surgical device for robot-assisted minimally invasive surgery described in this embodiment includes a wrist transmission clutch disc 54, a wrist transmission rear bearing 55, and a wrist transmission offline wheel shaft. 56. Wrist drive upper wire pulley 57, wrist drive front bearing 58 and three wrist drive mechanism set screws 59, wrist drive offline wheel shaft 56 from front to back in turn supported by one section of wrist drive offline wheel shaft 56-1, the second section of the wrist drive offline wheel shaft 56-2, the third section of the wrist drive offline wheel shaft 56-3, the fourth section of the wrist drive offline wheel shaft 56-4 and the fifth section of the wrist drive offline wheel shaft 56- 5 components, the third section 56-3 of the wrist drive offline wheel shaft is the drive offline ...

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Abstract

The invention discloses a decoupled quick change surgical device for a robot assisted minimally invasive surgery, and relates to a surgical device for the robot assisted minimally invasive surgery, and in particular relates to the decoupled quick change surgical device for the robot assisted minimally invasive surgery, aiming at solving the problems of high probability of snap break of driving left finger and right finger, complex structure and over-long replacement time of surgical instruments in a surgical process existing in the conventional minimally invasive surgical device. The decoupled quick change surgical device comprises an upper blade transmission mechanism, a wrist transmission mechanism, a casing transmission mechanism, a lower blade transmission mechanism, a first resetting mechanism, a second resetting mechanism, a first guide mechanism, a second guide mechanism, a front-end surgical scissor mechanism, an adapter shell, an adapter upper cover, a casing, a wrist connecting piece, an upper blade traction lower steel wire, an upper blade traction upper steel wire, a wrist traction lower steel wire, a wrist traction upper steel wire, a lower blade traction lower steel wire, a lower blade traction upper steel wire and seven screws. The decoupled quick change surge surgical device is used in the robot assisted minimally invasive surgery.

Description

technical field [0001] The invention relates to a surgical device for robot-assisted minimally invasive surgery, in particular to a non-coupling quick-change surgical device for robot-assisted minimally invasive surgery. Background technique [0002] Minimally invasive surgery is generally also called interventional surgery. It cuts 2 to 4 incisions of 5 to 10 mm on the body surface (or relies on the natural official cavity of the human body), and with the help of the image guidance of the visual display system, the surgical instruments are passed through. The incision on the body surface extends into the body for treatment or diagnosis, and the operation is completed. The patent application number is 200910073301.6, the publication number is CN101732093A, and the publication date is June 16, 2010. The invention patent application discloses a "miniature manipulator for abdominal minimally invasive surgery". Realize the rotation of the operation tube, wrist joint, left finge...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B19/00
Inventor 冯美金星泽赵继卢秀泉
Owner 吉林省金博弘智能科技有限责任公司
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