Industrial robots are gradually developing. In the future, industrial robots will be reusable. Retraining robots involves memorization. After training, they can repeat operations based on information such as training, conflicts, and conditions. What are the different ways to classify industrial robots? What are the characteristics of each?
Classification of industrial robots
I. System Activities
1. Special robots: Proven to be stable and programmable robots with simple structures, independent operating strategies, and low-cost independent control systems, such as an operation tool manager in a machine database.
2. Global Robots: Robots with direct control systems that can perform different operations after program changes. The structure has changed, the plans are large, the exact location is high, and the differences are significant. This applies to flexible production systems that frequently change manufacturers.
3. Intelligent Robots: Select machine-controlled robots to see, hear, touch, and interact with other accounts. Through comparison and identification, decision-making processes and plans can be fully responsive to information and ensure protection.
II. Servo
1. Pinomatic Driven Robots: Robots that utilize magnetic fields as a driving and maneuvering power source. They are characterized by mobility, flexibility, simple structure, and low cost. They are suitable for high-speed, lightweight, high-temperature, and high-ground operations.
2. Hydraulic drive robot: Driven by hydraulic components, it features high load-bearing capacity, smooth transmission, compact structure, and flexible movement, and is suitable for heavy-duty and low-speed operation.
3. Electric-driven robot: The robot's driver does not require changes to the base design. It features a simple mechanical structure, high speed, and precise control. This is the robot drive structure used in recent years.
Structural characteristics of industrial robots
1. Programming
More advanced automated production is flexible from the outset. Industrial robots can be programmed to adapt to changes in the environment. Therefore, they can play a very good role in small groups, different parts of a production system, and in processes that are equal and efficient.
2. Personal
Mechanical structures, industrial robots, human-sized bicycles, large weapons, small weapons, brains, heads, and other computer-controlled parts. Furthermore, many intelligent industrial robots are similar to humans and are better adapted to their environments.
3. Expand
The technology of industrial machines encompasses a series of commands. Collected together, this is a combination of mechanics and microtechnology, a fusion of electronics. Third-generation intelligent robots possess different sensors, enabling them not only to acquire environmental information but also human information, such as memory, language understanding, image recognition, logic, and judgment. This involves microwave applications, particularly computer technology. Therefore, the development of robotics will inevitably bring about other technological advancements.
