Spinning machines can be categorized into manual, semi-automatic, and fully automatic spinning machines based on their operation and level of automation. Manual spinning machines rely on the operator's skill and experience, suitable for small-batch production and the manufacturing of customized parts. Semi-automatic spinning machines combine mechanical operation with manual adjustments, increasing production efficiency while maintaining flexibility.

Fully automatic spinning machines represent the cutting edge of spinning technology, typically equipped with advanced control systems and automated equipment, enabling high-precision, high-efficiency mass production. These machines are suitable for large-scale, standardized production environments, such as the manufacturing of automotive wheels and engine parts.

The application range of spinning machines is very broad, from traditional metal craft making to modern high-tech products, such as satellite parts and medical devices. In the automotive industry, spinning technology is used to produce lightweight wheels and engine hoods to improve fuel efficiency and performance. In aerospace, spinning technology is used to manufacture high-strength parts like rocket engine nozzles and aircraft ribs.

As technology evolves, spinning machines are also continuously innovating and improving to adapt to changing market demands and improve production efficiency.