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Surgical instrument control method of laparoscopic surgery robot

A surgical robot and surgical instrument technology, applied in the field of robotics, can solve the problems of poor flexibility, affecting the quality of surgery, fatigue of operators, etc., to reduce the risk of life, improve the efficiency of surgery, and improve the quality of surgery.

Active Publication Date: 2020-07-03
CHENGDU BORNS MEDICAL ROBOTICS INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Especially for complex surgical operations, medical staff often need to operate surgical instruments for a long time
This is a challenge to the physical strength and energy of the doctor, which in turn affects the quality of the operation
[0003] The existing minimally invasive surgical instruments are often simple imitations of traditional open surgical instruments, with less freedom, poor flexibility, and often high friction inside the instrument, which leads to attenuation of transmission force and fatigue of the operator, especially It is the hand tremors caused by the operator's fatigue that will reduce the accuracy of the operation

Method used

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  • Surgical instrument control method of laparoscopic surgery robot
  • Surgical instrument control method of laparoscopic surgery robot
  • Surgical instrument control method of laparoscopic surgery robot

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0130] In a first embodiment of the invention, a surgical instrument 42 has a first degree of freedom (eg, an endoscope). Here, the first degree of freedom of the surgical instrument 42 means that the surgical instrument 42 can rotate around the axis of the instrument shaft 41 of the instrument connection mechanism 4 as the rotation axis (ie, along the X-axis direction). The first degree of freedom of the surgical instrument 42 can mimic the rotational motion of a human arm.

[0131] In this embodiment, the power source 51 of the driving mechanism 5 includes a first motor 511 , and the output shaft of the first motor 511 is disposed in the first hole 121 on the side wall of the fixing seat 12 of the driving seat 1 . In order to improve space utilization, the axial direction of the instrument shaft 41 , the axial direction of the first motor 511 and the length direction of the fixing seat 12 are the same.

[0132] Specifically, the power transmission mode of the first motor 51...

Embodiment 2

[0155] In the second embodiment of the present invention, the surgical instrument 42 has a second degree of freedom (such as a scalpel that cuts only at designated locations). Here, the second degree of freedom of the surgical instrument 42 means that the surgical instrument 42 can be deflected around the Z-axis. The second degree of freedom of the surgical instrument 42 can imitate the deflection action of the human wrist joint.

[0156] In this embodiment, the power source 51 includes a second motor 512 , and the output shaft of the second motor 512 is disposed in the second hole 122 on the side wall of the fixing base 12 . In order to improve space utilization, the axial direction of the instrument shaft 41 , the axial direction of the second motor 512 and the length direction of the fixing seat 12 are the same.

[0157] In this embodiment, the power output by the second motor 512 is transmitted to the instrument rod 41 through the first lead screw 354 and the first seat 3...

Embodiment 3

[0186] In the third embodiment of the present invention, the surgical instrument 42 has a third degree of freedom (for example, surgical scissors that only cut at specified positions). Here, the third degree of freedom of the surgical instrument 42 means that the surgical instrument 42 can be opened and closed. The third degree of freedom of the surgical instrument 42 can imitate the closing and opening movements of human fingers.

[0187] In this embodiment, the power source 51 includes a third motor 513 , and the output shaft of the third motor 513 is disposed in the third hole 123 on the side wall of the fixing seat 12 . In order to improve space utilization, the axial direction of the instrument shaft 41 , the axial direction of the third motor 513 and the length direction of the fixing seat 12 are the same.

[0188] In this embodiment, the power output by the third motor 513 is transmitted to the instrument rod 41 through the second lead screw 364 and the second seat 36 ...

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Abstract

The invention relates to a surgical instrument control method of a laparoscopic surgery robot. The method comprises the steps that the height and the front-back position of a mechanical arm are adjusted, and monitoring equipment collects rotation angle information and opening angle information of a control handle and transmits the collected information to a main control unit; the main control unitanalyzes the received information, determines the arm rotation angle and the finger opening angle of an operator from the information and outputs a corresponding rotation control instruction and an opening-closing control instruction to a slave control unit; a first control module of the slave control unit controls a first motor to drive a surgical instrument to rotate according to the received rotation control instruction, and meanwhile a third control module of the slave control unit controls a third motor to drive the surgical instrument to be opened and closed according to the received opening-closing control instruction; and sliding of an instrument fixing device provided with the surgical instrument on a sliding table is controlled by controlling the number of revolutions of a sliding control motor, and therefore the surgical instrument is replaced at the initial position.

Description

technical field [0001] The invention relates to the technical field of robots, in particular to a method for controlling surgical instruments of a laparoscopic surgical robot. Background technique [0002] In minimally invasive surgery, medical personnel are often required to manually cut, strip, suture and other operations on tissues. Especially for complex surgical operations, medical staff often need to operate surgical instruments for a long time to perform operations. This is a challenge to the doctor's physical strength and energy, which in turn affects the quality of the operation. [0003] The existing minimally invasive surgical instruments are often simple imitations of traditional open surgical instruments, with less freedom, poor flexibility, and often high friction inside the instrument, which leads to attenuation of transmission force and fatigue of the operator, especially It is the hand tremors caused by the operator's fatigue that will reduce the accuracy ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B34/37A61B17/00
CPCA61B34/37A61B34/70A61B17/00234A61B2034/301A61B2034/302A61B2034/305A61B2017/00477A61B2017/00398A61B2017/0046A61B2017/00199
Inventor 李耀罗栓龚俊杰陈超张俊平
Owner CHENGDU BORNS MEDICAL ROBOTICS INC
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