1. Application fields of 6-axis multi-joint collaborative robots
6-axis multi-joint collaborative robots are widely used in various industrial fields, such as automobile manufacturing, electronics manufacturing, medical equipment production, food processing, etc. In automobile manufacturing, these robots are widely used for body assembly, welding, painting and parts handling. For example, 6-axis robots can perform high-precision welding tasks, ensuring the quality and consistency of welds. In medical device manufacturing, they can be used to assemble and test precision instruments such as surgical robots and medical imaging equipment. This helps improve product quality and production efficiency.
In the field of electronics manufacturing, 6-axis robots can be used for circuit board assembly, component insertion and product packaging. These robots are capable of fast, repetitive movements, ensuring high-quality manufacturing of electronic products. In food processing, they can be used for cutting, packaging and sorting food. For example, 6-axis robots can be used to sort and pack food products of various shapes and sizes, thereby increasing the efficiency of food factories.
2. Collaborative Robot Technology and Innovation
The field of collaborative robot technology is constantly evolving and innovating. One of the key trends is the integration of machine vision. Machine vision systems allow robots to sense their surroundings, identify objects and perform complex tasks. For example, in automobile manufacturing, machine vision helps robots accurately position parts for assembly operations. This increases the robot's autonomy and adaptability.
Another important innovation is human-machine collaboration technology. This means that robots can work alongside people without putting them at risk. In medical equipment manufacturing, robots can collaborate with technicians to complete assembly tasks, improving work efficiency and product quality. In addition, the development of intelligent control systems enables robots to automatically adjust their movements and tasks to suit different working conditions.
Sensing technology is also a key area of innovation. By using various sensors, robots can sense and respond to changes in their surrounding environment. For example, if the robot detects a person approaching, it can automatically slow down or stop to ensure the safety of the person. This perception technology is crucial in human-machine collaboration and obstacle avoidance.
Future trends include more machine learning and artificial intelligence applications. This will enable the robot to learn and optimize itself to perform tasks better. For example, a robot can analyze data to improve its movement path and the way it performs tasks to increase efficiency and accuracy.
3. Industry standards and regulations
In the field of
6-axis multi-joint collaborative robots, industry standards and regulations are crucial to ensure the safety and performance of the robot. Different countries or regions have different standards organizations and regulations, requiring manufacturers and users to comply with relevant regulations. For example, ISO 10218 (Robotic Systems and Integration) is an international standard that specifies requirements for the design and operation of robotic systems. These requirements include robot safety, emergency stop functions, human-machine collaboration requirements, etc.
Another important standard is ISO 15066 (Safety of Robot-Human Interaction). This standard covers the safety of robots working alongside humans. It specifies speed and force limits for robots to ensure that humans are not injured when interacting with the robot.
In the United States, OSHA (Occupational Safety and Health Administration) has developed a series of standards to ensure the safety of robot operations. These standards include robot integration, training requirements and risk assessments.
It is very important for AD900 factories to comply with these standards and regulations, as they ensure the safety of robot operations, reduce the risk of accidents, and ensure product quality. Factories need to constantly update their robots' control systems and safety measures to meet evolving standards and regulations.