A robotic arm is a robotic device that can simulate the movement of a human arm. They are composed of multiple joints and actuators, enabling multi-axis movement and precise positioning. They are widely used in manufacturing, logistics and warehousing, healthcare, agriculture and other fields to complete tasks such as automated production, handling, assembly, packaging and precise operation.
The working principle of a robotic arm is to simulate the movement of a human arm through an electric drive and control system, achieving multi-axis movement and precise positioning. The control methods of robotic arms include point control based on programming, path planning control, force/torque control, visual guidance control, etc. Different control methods are suitable for different application scenarios, allowing for different operation modes and precision requirements.
Robotic arms can be classified into industrial robotic arms, service robotic arms, collaborative robotic arms, etc. Industrial robotic arms are mainly used for material handling and assembly tasks on automated production lines. Service robotic arms are mainly applied in the medical, catering and home fields, such as surgical robots, restaurant service robots, household cleaning robots, etc. Collaborative robotic arms are a new type of robotic arm that can work in coordination with humans to complete tasks such as collaborative assembly and collaborative material handling.
The accuracy and repeatability of a robotic arm depend on the specific model and manufacturer, typically ranging from millimeters to sub-millimeters. Ensure the safe operation of the robotic arm.
A robotic arm is a robotic device that can simulate the movement of a human arm. They are composed of multiple joints and actuators, enabling multi-axis movement and precise positioning. They are widely used in manufacturing, logistics and warehousing, healthcare, agriculture and other fields to complete tasks such as automated production, handling, assembly, packaging and precise operation.
The working principle of a robotic arm is to simulate the movement of a human arm through an electric drive and control system, achieving multi-axis movement and precise positioning. The control methods of robotic arms include point control based on programming, path planning control, force/torque control, visual guidance control, etc. Different control methods are suitable for different application scenarios, allowing for different operation modes and precision requirements.
Robotic arms can be classified into industrial robotic arms, service robotic arms, collaborative robotic arms, etc. Industrial robotic arms are mainly used for material handling and assembly tasks on automated production lines. Service robotic arms are mainly applied in the medical, catering and home fields, such as surgical robots, restaurant service robots, household cleaning robots, etc. Collaborative robotic arms are a new type of robotic arm that can work in coordination with humans to complete tasks such as collaborative assembly and collaborative material handling.
The accuracy and repeatability of a robotic arm depend on the specific model and manufacturer, typically ranging from millimeters to sub-millimeters. Ensure the safe operation of the robotic arm.
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