1、 Electronic and electrical industry (suitable for precision assembly and micro operation scenarios) As the core execution technology of non-standard equipment in this industry, it focuses on solving the precision problem of micro component assembly. Common applications include: Micro component assembly: Through multi axis robotic arms (with precise motion control), precision assembly of products such as mobile phones, connectors, and optical fibers can be achieved. For example, the robotic arms in fiber optic automatic assembly machines and jack automatic closing machines can complete component docking and pressing according to customized trajectories, avoiding errors in manual operation; Precision welding/dispensing: Using a dedicated welding robot combined with motion control technology, the welding trajectory and force are controlled to adapt to the micro welding process of electronic components. At the same time, automatic linkage of dispensing, soldering and other processes can be achieved to improve product yield. 2、 Automotive and parts industry (suitable for complex assembly and batch welding scenarios) Adapting to the customized needs of multiple vehicle models and complex processes in the automotive industry is the core of non-standard automated production lines for automobiles Automotive parts welding: Welding robots are paired with customized motion control programs to adapt to the welding processes of different vehicle parts, such as automated welding of body frames and chassis components, replacing manual completion of high-intensity and high-risk welding operations while ensuring welding accuracy and consistency; Component assembly: Combining multi axis robotic arms with motion control, it completes the automated assembly of automotive interiors, wiring harnesses, and engine components. It can flexibly switch the assembly trajectory of different vehicle models and adapt to the diverse production needs of non-standard production lines. 3、 New energy industry (suitable for precision production scenarios of power batteries) The core application is in the key process of power battery manufacturing, supporting high yield production, corresponding to the application of non-standard equipment in the new energy industry in the document: Cell processing and assembly: Through specialized robots (with precise motion control), automatic cell stacking, electrode ear welding, cell packaging and other processes are completed, controlling the stacking accuracy and welding force, avoiding cell damage, and helping to increase the yield rate by 15% -20%; Battery module assembly: The robotic arm completes the splicing and fixing of battery modules according to customized trajectories, and motion control technology ensures the consistency of module assembly, adapting to the customized production needs of different specifications of power batteries. 4、 Medical and medical device industry (suitable for sterile and precision operation scenarios) Meets the sterile and high-precision production requirements of the medical industry, replacing manual labor to avoid contamination. Common applications: Precision assembly of medical devices: Specialized robots complete the assembly of micro components such as syringes and infusion sets, ensuring precise operation through motion control. At the same time, they can operate continuously for 24 hours in a sterile environment, reducing the risk of product contamination; Aseptic filling/sorting: Multi axis robotic arms combined with motion control achieve aseptic filling and precise sorting of drugs and medical reagents, adapting to the customized needs of medical non-standard filling equipment, while balancing efficiency and aseptic standards. 5、 Food packaging industry (suitable for batch, flexible sorting/filling scenarios) Adapt to the diverse and mass production needs of food packaging, and improve packaging efficiency: Food sorting and tray placement: The robotic arm, combined with motion control technology, completes automatic sorting and tray placement according to product specifications (such as snacks of different sizes and fresh produce), and can flexibly switch sorting trajectories to meet the customized needs of non-standard conveyor belts and sorting lines; Automatic filling/sealing: The robotic arm completes precise filling of food and beverages, controls the filling speed and dosage through motion control, and links with the sealing mechanism to achieve integrated automation of filling and sealing operations, adapting to customized needs of different packaging specifications. 6、 High end manufacturing and infrastructure industry (adapted to complex and extreme working conditions scenarios) Breaking through the limitations of traditional manual labor and standard equipment, solving complex process problems: Aerospace field: Five axis linkage machine tool (integrating motion control technology)+dedicated robot, completes the processing and welding of aerospace composite material irregular parts, controls the processing accuracy to reach nanometer level, and adapts to the customized needs of non-standard processing equipment; Infrastructure engineering: Welding robots combined with motion control can complete welding operations on non-standard components such as bridges and pipelines. They can adapt to extreme working conditions such as high altitude and high temperature, replace manual labor to complete high-intensity and high-risk operations, and ensure welding quality.
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