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In recent years, the application and development of robotic arm technology in the medical field have been rapid. Collaborative robotic arms provide more powerful support and help for medical workers, and play an increasingly important role in the medical field.

Medical collaborative robotic arms are a kind of medical mechanical device, which can be automatic or manually controlled. It refers to a complex system with high precision, multi-input and multi-output, high nonlinearity and strong coupling. This article introduces the application of collaborative robotic arms in the medical field from several aspects.

I、Is the Collaborative Robot Arm Reliable?        

The collaborative robot arm manufacturer equips the collaborative robot arm with an artificial intelligence system, which, combined with the robot arm’s visual system, can accurately locate the robot with an error rate of no more than ±0.02mm, and can easily achieve uninterrupted robot nucleic acid detection tasks. It can also be used in the field of smart laboratories to operate culture bottles of different diameters and manually operated equipment, assisting the research institute to complete tens of thousands of experiments with zero error and improve the efficiency of the experiment.

II、The Practical Role of Collaborative Robotic Arms

With the continuous advancement of science and technology, collaborative robotic arms are increasingly used in the medical field. They play an important role in providing better auxiliary means for medical workers and improving medical quality and efficiency.

1. Surgical Assistance

Collaborative robot arms play an important auxiliary role in surgery. They can help doctors perform more precise surgical operations and reduce errors caused by human factors during surgery. Collaborative robotic arms have the advantages of good stability and high operating accuracy, and can better adapt to the needs of complex operations. Collaborative robot arm manufacturers are also constantly improving their technology in order to provide better assistance to doctors.

2. Medical Imaging

Collaborative robot arms also have great applications in medical imaging. They can be used to capture high-definition images and provide more accurate diagnostic evidence. The precise movement of the collaborative robot arm can ensure the stability and clarity of the image, thereby improving the accuracy of the diagnosis.

3. Drug Delivery

Robotic arms also play an important role in drug delivery. They can accurately deliver drugs to patients according to the doctor’s requirements. The precise movement of the robotic arm can ensure the effectiveness and safety of the drug and reduce errors caused by human factors. This is also what the collaborative robot arm manufacturers want to do when making such products.

4. Patient Care

Robotic arms can also be used for patient care. They can help medical staff complete some repetitive and heavy nursing work and reduce the burden on patients. For example, robotic arms can assist medical staff in turning patients over or performing simple limb movements to prevent problems such as muscle atrophy and bedsores caused by long-term bed rest. The robotic arms have a wide range of motion and uniform strength, which can better adapt to the needs of patients and improve the quality of care.

5. Prosthesis and Rehabilitation Training

Collaborative robot arms also have great potential in prosthetics and rehabilitation training. They can simulate human movements, assist patients with prosthetic training, and help them adapt and integrate into social life. Robotic arms can also be used in rehabilitation training to help patients regain motor function.

6. Surgery

The application of robotic arms in surgical operations has become increasingly common. They can assist doctors in complex surgical operations, such as laparoscopic surgery, laparotomy, etc. Robotic arms have the advantages of a wide range of motion and high operating precision, which can better meet the needs of surgical operations.

7. Minimally Invasive Surgery

Robotic arms are also well used in minimally invasive surgery. They can assist doctors in precise puncture and resection operations, reducing surgical trauma and patient pain. The advantages of a wide range of motion and high operating precision of robotic arms can make surgery safer and more effective.

Conclusion

The application of collaborative robot arms in the medical field has broad prospects and potential. They provide better auxiliary means for medical workers and improve the quality and efficiency of medical care. With the continuous expansion of application fields and the continuous advancement of the technology of collaborative robotic arm manufacturers, robotic arms will play a more important role in the medical field in the future.