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Micromanipulator for enterocoelia minimally invasive surgery

A minimally invasive surgery and manipulator technology, applied in the field of surgical medical equipment, can solve the problem of lack of micro-manipulators for surgical instruments, and achieve the effects of reducing the mechanical structure, expanding the working space, and increasing flexibility

Inactive Publication Date: 2010-06-16
HARBIN INST OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The purpose of the present invention is to solve the problem of the lack of micro-manipulators in the existing surgical instruments for abdominal minimally invasive surgery, and to provide a micro-manipulator for abdominal minimally invasive surgery

Method used

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  • Micromanipulator for enterocoelia minimally invasive surgery
  • Micromanipulator for enterocoelia minimally invasive surgery
  • Micromanipulator for enterocoelia minimally invasive surgery

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Experimental program
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specific Embodiment approach 1

[0017] Specific implementation mode one: combine Figure 1 to Figure 15 Describe this embodiment, the micromanipulator for abdominal minimally invasive surgery in this embodiment includes a drive box, a transmission box, a traction mechanism for the upper finger at the end of the surgical instrument, a traction mechanism for the lower finger at the end of the surgical instrument, a traction mechanism for the wrist at the end of the surgical instrument, and The rotation mechanism at the end of the instrument and the actuator at the end of the surgical instrument;

[0018] Described driving box is made up of driving box base 69 and four driving mechanisms, and described driving box base 69 is provided with four driving mechanisms, and each driving mechanism consists of DC motor 61, pulley 63, synchronous toothed belt 64, lower The clutch disc 65, the first rolling bearing 66, the toothed mandrel 67 and the lower clutch disc return spring 68 are composed. The DC motor 61 is insta...

specific Embodiment approach 2

[0029] Specific implementation mode two: combination figure 1 and Figure 11 This embodiment will be described. The first guide plate 12 of this embodiment is made of polytetrafluoroethylene. With such arrangement, it is wear-resistant and well-guided, and other components and connections are the same as those in Embodiment 1.

specific Embodiment approach 3

[0030] Specific implementation mode three: combination image 3 and Figure 18 To illustrate this embodiment, the transmission box of this embodiment is further provided with a fastening plate 97, which is buckled on the box base 52 and located on the first guide wheel 1, the second guide wheel 2, the third guide wheel Directly above the guide wheels 3, the fifth guide wheels 7, the sixth guide wheels 9, the seventh guide wheels 25, the eighth guide wheels 27, the fifteenth guide wheels 31 and the fourth guide wheels 32. Such setting plays a fixed role. Other compositions and connections are the same as those in Embodiment 1 or Embodiment 2.

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Abstract

The invention discloses a micromanipulator for enterocoelia minimally invasive surgery, relating to a micromanipulator for minimally invasive surgery. The invention solves the problem of the shortage of micromanipulators in surgical equipment of existing enterocoelia minimally invasive surgery. In the invention, a lower clutch dial is installed on the upper end face of a tooth-form central spindle of a driving box, an upper-finger upper clutch dial of a traction mechanism of the upper finger at the tail end of the surgical equipment is contacted with a corresponding lower clutch dial of the driving box; a lower-finger upper clutch dial of the traction mechanism of the upper finger at the tail end of the surgical equipment is contacted with the corresponding lower clutch dial of the driving box; a wrist upper clutch dial of the traction mechanism of the wrist at the tail end of the surgical equipment is contacted with the corresponding lower clutch dial of the driving box; and an autorotation upper clutch dial of an autorotation mechanism at the tail end of the surgical equipment is contacted with the corresponding lower clutch dial of the driving box. The micromanipulator of the invention is convenient for rapidly exchanging surgery tools, thereby increasing the nimbleness of surgery action, and meeting the requirements in various aspects such as size, function and clamping force an the like on the micromanipulator, thus being applicable to enterocoelia minimally invasive surgery.

Description

technical field [0001] The invention relates to a micro manipulator for minimally invasive surgery, which belongs to the technical field of medical equipment for surgery. Background technique [0002] Minimally invasive surgery refers to the operation performed on the human body through a minimum small incision. The minimally invasive surgical technique emerged in the 1980s and is generally called interventional surgery. Interventional surgery uses a variety of visual image equipment and advanced and smart surgical equipment to insert surgical instruments into the human body through small incisions for treatment or diagnosis. Compared with traditional open surgery, minimally invasive surgery has many advantages such as less trauma, less pain for patients, faster postoperative recovery, better operation quality and lower medical costs. Therefore, being generally welcomed by doctors and patients is an inevitable trend in the development of surgery. Minimally invasive abdomin...

Claims

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Application Information

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IPC IPC(8): A61B19/00B25J11/00A61B34/30
Inventor 朴明波付宜利潘博赵旭东郭振宇
Owner HARBIN INST OF TECH
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