1. Applications in Palletizing
Highly automated robots are widely used in palletizing in various factories. Manual palletizing is labor-intensive, demanding, and stressful for employees, resulting in low efficiency. Handling robots can efficiently classify and transport items based on their characteristics and location, preserving their shape and properties. This allows packing equipment to palletize hundreds of items per hour. They play a crucial role in production line loading and unloading, and container handling.
2. Applications in Welding
Welding robots primarily handle welding work. Different industries have different needs, so common welding robots include spot welding robots, arc welding robots, and laser robots. The automotive manufacturing industry is the most widespread user of welding robots, offering unparalleled advantages over manual welding in terms of welding difficulty, quantity, and quality.
3. Applications in Assembly
In industrial production, parts assembly is a highly complex task requiring a large workforce. Manual assembly, due to its high error rate and low efficiency, has been gradually replaced by industrial robots. The development of assembly robots integrates various technologies, including communication technology, automatic control, optical principles, and microelectronics. Researchers write appropriate programs based on the assembly process and apply them to specific assembly tasks. The most significant advantages of assembly robots are high installation precision, high flexibility, and high durability. Because assembly work is complex and delicate, we choose assembly robots for the installation of electronic components and precision automotive parts.
