Medical Devices

Why It Is Necessary
to Detect the Trajectory
of Medical Robots?

It is necessary to measure the motion coordinates of medical robots and compare them with the automatic control system. Given that most of the robots are applied to perform surgical operations which require high precision and bear high risk , the accuracy and stability of their trajectories have direct impact to the success of the surgery as well as the safety of patients. Through trajectory detection, we can monitor whether they are in line with the preset requirement or not, thereby enhancing the precision and safety during the surgery.

Why It Is Necessary to Detect the Trajectory of Medical Robots?

How to Detect the Trajectory of Medical Robots

The PMT Portable Coordinate Measuring Machine is used to conduct contact measurement on the end-effector of the medical robot. It allows us to obtain the precise position of the spacial end-effector of the robot as well as motion dimensions. (It is also important to take into consideration the impact of the contact force between the ball probe and the end-effector of the robot on the measurement results.)

Shape Deviation Analysis for Error Reduction
Dynamic Trajectory Verification
Efficient SPC Analysis

Shape Deviation Analysis for Error Reduction

During the contact measurement, the PMT portable measurement arm is able to collect the number of points the software requires and reflect the shape deviations with which we can determine whether the end-effector vibrates during the inspection. This will help reduce errors and increase the accuracy.

Shape Deviation Analysis for Error Reduction

Dynamic Trajectory Verification

The PMT portable arm can measure different coordinates during the movement of the end-effector, and compare the measurements with the preset data of the robot. This way, we can quickly verify the accuracy of the robot’s trajectory and adjust parameters accordingly.

Dynamic Trajectory Verification

Efficient SPC Analysis

During the contact measurement, the PMT portable measurement arm is able to collect the number of points the software requires and reflect the shape deviations with which we can determine whether the end-effector vibrates during the inspection. This will help reduce errors and increase the accuracy.

Efficient SPC Analysis

The Application of PCMM in Trajectory Detection of Medical Robots

 

In the field of surgical robots, the trajectory detection is widely used to evaluate the positional accuracy and repeatability of the robots. For example, in applications of surgical robot based on image navigation and positioning, researchers use a portable coordinate measuring machine to evaluate the position and repeatability of the robot in different postures. Experimental results have shown that this method helped improve the positioning accuracy of surgical robots effectively and increased the rate of success in surgeries.

The Application of PCMM in Trajectory Detection of Medical Robots

Advantages

The trajectory detection for medical robots is a key technological application. It involves precision, safety, and reliability of medical devices. The high-precision measurement equipment enables us to guarantee accuracy of the robot’s motion coordinates during the surgical process, enhancing the precision and safety of the surgery.

FAQ

Manufacturing and Assembly

In manufacturing and assembly, precise measurement solutions ensure components meet design specifications. Tools like CMMs and portable measurement arms verify dimensions, alignment, and tolerances, ensuring quality control and efficiency during production and assembly processes.

Engineering Machinery Measurement Solutions

Engineering machinery measurement solutions include tools like CMMs, laser scanners, and portable measurement arms to assess critical machine components. These solutions ensure precise measurements of dimensions, alignment, and geometric tolerances, improving manufacturing accuracy and efficiency.

Measurement Data Analysis

Measurement data analysis involves processing collected data to evaluate dimensions, tolerances, and quality. Tools like CMM software provide visualizations, statistical analysis, and reports to identify deviations and improve production processes effectively.

How to Measure Key Dimensions of Structural Parts?

Critical dimensions like hole diameter, flatness and perpendicularity can be captured using CMMs or portable measurement arms. The PMT portable arm offers flexibility for on-site inspection with its features of high accuracy and ease of use, becoming an ideal tool when measuring large complex structural parts.

What are the significant advantages of PMT Arm?

PMT Portable Measurement Arm has shown significant advantages in the field of tooling inspection and adjustment. Its high-precision measurement capability and excellent stability ensure the accurate positioning and adjustment of tooling equipment, effectively enhancing production efficiency and product quality. Therefore, it has become an indispensable and efficient tool in such field.

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