In mechanical engineering, rotary tables are used in a variety of applications to position, rotate or swivel workpieces or tools. Here are some common applications of rotary tables in mechanical engineering:
1. machining centers: rotary tables are often used in machining centers such as milling machines or lathes. They enable the precise positioning of workpieces to perform machining operations at different angles. The rotary table can rotate the workpieces horizontally or vertically, enabling machining from several sides without having to re-clamp the workpiece.
2. welding: In welding technology, rotary tables are used to rotate workpieces and create a uniform weld seam along the circumference. The rotary table allows the workpiece to rotate continuously as it is welded, facilitating the welding process and increasing productivity.
3. assembly: Rotary tables are also used in the assembly of components. They allow components to be rotated into the correct position to perform assembly operations. The rotary table can enable precise alignment of parts and optimize the assembly process.
4. testing and inspection: Rotary tables are used to rotate workpieces or components for testing and inspection operations. For example, measurements, quality checks or surface inspections can be carried out from different angles.
5 Automation and robotics: Rotary tables are also used in automated systems and robotics applications. They enable the precise positioning of workpieces or tools for the automation of processes such as placement, assembly, packaging or material handling.
Rotary tables in mechanical engineering can have different diameters, load capacities, accuracies and control options, depending on the specific requirements of the application. They are often integrated with CNC controls to enable precise movements and positioning.
Overall, rotary tables in mechanical engineering play an important role in improving the productivity, accuracy and flexibility of machining and assembly processes.