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Medical Robot

Your Professional Medical Robot Supplier

 

Our goal is to become your true partner in the field of walkie talkie in China. Dongguan Chengzhu Metal Products Co., Ltd. is an enterprise integrating the molding, research and development, production and marketing of light alloy materials. We have a skilled engineering team dedicated to refining every stage, from product development and process improvement to production oversight, ensuring every product delivered meets rigorous quality and performance standards. The price is competitive and the product is quality-assured, which is a good choice for your long-term cooperation.

 

 

 
Why Choose Us

Product Application: Our products are precision die-casting mold manufacturing and die-casting parts of light alloys such as magnesium alloy and aluminum alloy, which are mainly used in medical equipment, drone parts, robot/manipulator parts, new energy vehicle parts, motorcycles, electric vehicles, electric scooters, power tools, sports equipment, 3C, LED, industrial parts and other fields.


Product Customization: We are well aware that the needs of each customer are inconsistent, so we provide OEM processing services for customers.


Our Services: In the pre-sales stage, our team of experts will recommend the most suitable products according to the needs of customers and provide detailed technical consultation. During the sales period, we ensure timely delivery and provide installation guidance. For after-sales, we provide long-term technical support, warranty services and spare parts to help customers maximize the use of products and get reliable maintenance during use.

 

Advantages of Medical Robot
 

Shared medical work

Robots in the medical field execute standard streams of work independently, which decreases the workload on health staff. They also ensure consistency and solve the problem of a shortage of health workers.

Increase in workplace safety

Any medical facility has a fair share of unhealthy microorganisms, and medical personnel is susceptible to them. Medical robotics is applicable in controlled and systematic cleaning, which can help decrease the circulation of pathogens and prevent doctors from contracting a health center’s infections.

Assistance with surgery

Some medical robots are sophisticated enough to assist surgeons during a surgical process. A common example is the use of robotics in heart surgery. These medical robots are applicable because they can perform highly precise surgical operations without errors. As a result, this will increase the success rates of surgical performances.

 

Specification of Medical Robot

productcate-599-437

 

Types of Medical Robot
 

Surgical robots

They allow surgical operations to be carried out with unparalleled precision. Famous examples include the robot da Vinci, which assists surgeons with minimally invasive procedures.

Robot Mechanical Arm
Servo Drive Components

Rehabilitation robots

Intended to help patients recover their motor skills after an accident or illness, these robots accompany and facilitate physiotherapy.

Telemedicine robots

They offer remote consultations with doctors, thus allowing access to care in remote areas or for patients with reduced mobility.

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Robot Mechanical Arm

Disinfection robots

Essential, especially during a pandemic, these robots use UV or sprays to effectively disinfect hospital surfaces.

Assistance robots

These robots help healthcare workers transport heavy equipment or handle patients, thereby reducing the risk of injuries due to physical exertion.

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Pet robots

They are used to improve the emotional well-being of patients, especially in the elderly or those suffering from mental illnesses.

 

Features of Medical Robot

 

Medical robots are designed with a combination of mechanical, electronic, and software features to perform various tasks in healthcare, including surgery, patient care, and rehabilitation. Key features include sensors for environmental awareness, actuators for movement, control systems for direction, and human-machine interfaces for interaction. They also often include advanced imaging systems, ergonomic consoles for surgeons, and the ability to perform precise movements beyond the human range of motion.

 

Application of Medical Robot
 

Robot-assisted surgery

Probably the best-known application of robotics in medicine. Systems such as da Vinci enable surgeons to perform complex procedures with greater precision and control.

Rehabilitation

Therapeutic robots assist patients in rehabilitation following a stroke or injury.

Example

Motorized exoskeletons that help the lower and upper limbs work.

Diagnostics

Some robots can autonomously navigate the hospital and collect vital data from patients or help perform medical imaging scans with precision.

Pharmaceutical

In hospital pharmacies, robots can manage inventory, dispense medications and ensure the traceability of prescriptions.

Assistance for the elderly or disabled

The use of robots to help people requiring daily assistance opens up prospects in the field of autonomy and home support.

 

Components of Medical Robot
 

End Effector: The end effector is the part of the robot arm that interacts with the objects or environment. It can be a gripper, a tool, a camera, or any other device suited for the intended task. The end effector is attached to the last link of the robot arm and can be interchangeable to adapt to different tasks.

 

Actuators: Actuators are responsible for providing the necessary power and force to move the robot arm and perform tasks. The most common actuators used in robot arms are electric motors, such as dc motors or servo motors, although hydraulic or pneumatic actuators can also be used for specific applications.

 

Control system: The control system of a robot mechanical arm includes hardware and software components that enable precise control of the arm's movements. It receives commands from an external source, such as a computer or a human operator, and converts them into control signals for the actuators. The control system ensures accurate positioning and coordination of the arm's joints.

 

Sensors: Sensors are often integrated into robot mechanical arms to provide feedback and enable perception of the environment. These sensors can include encoders for joint position feedback, force sensors for detecting contact or pressure, and vision systems for object recognition and tracking.

 

Kinematics: The kinematics of a robot mechanical arm refers to the mathematical study of its motion and geometry. Forward kinematics determines the position and orientation of the end effector based on the joint angles, while inverse kinematics calculates the joint angles required to reach a desired end effector position.

 

Common Medical Robot Part Manufacturing Methods

 
Precision CNC Machining

CNC (Computer Numerical Control) machining is the best option when manufacturing medical robots accurately with low tolerance. It is a computer-controlled subtractive manufacturing process that relies on CAD software to create parts. The process applies to making medical robot parts like screws, sensors, end effectors, etc.

Overmolding and Insert Molding

These are injection molding processes suitable for making parts that comprise two materials (different or the same).

3D Printing

3D printing is an additive manufacturing process that uses 3D printers to produce strong and three-dimensional parts from a CAD model. It is the most common manufacturing method in medical part manufacturing and applies to manufacturing robot parts such as robotic prosthetics.

 

Packing and Shipping of Medical Robot

Packing

Wooden box

Shipping

Shipped by road, sea, rail

 

 

FAQ

 

Q: Can medical robots commit errors?

A: Compared to surgeries performed by doctors, the chances of a medical robot making a mistake are very low because of its accurate calculations and the smooth movement of its arms.

Q: How safe is using a medical robot during surgical operations?

A: Most surgical operations have a normal risk associated with them, but robotic surgeries are known to be very safe.

Q: Which is the best manufacturing process for producing medical robots?

A: Medical robots comprise many parts and are susceptible to different manufacturing methods, such as CNC machining, 3D printing, and injection molding. The choice of manufacturing process depends on your budget, design, volume to be produced, etc.

Q: What is the mechanics of robotic arm?

A: The industrial robotic arm is composed of steel or cast iron. It is constructed from the base up to the wrist. A robotic controller rotates each joint's associated motor. Hydraulic and pneumatic systems are utilised to power some of the bigger arms that are used to carry hefty weights.

Q: Is it possible to have a robotic arm?

A: The Modular Prosthetic Limb is a bionic arm with human-level dexterity, weight, range of motion, and force generation. It's designed to restore full functionality to upper-extremity amputee soldiers.

Q: Are mechanical arms possible?

A: A prosthetic arm, or upper limb prosthesis, is an artificial replacement for your natural arm. It can replace part or all of your upper limb, from your hand, wrist and forearm to your elbow, upper arm and shoulder. Prosthetic arms can be passive, like a mannequin arm, or high-tech, like a robotic arm.

We're professional medical robot manufacturers in China, specialized in providing high quality OEM service. We warmly welcome you to buy high-grademedical robot made in China here from our factory.

Robot Accessories, , Servo Drive Components

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