VDI (Verein Deutscher Ingenieure) static and driven tooling are specialized tooling systems used in CNC machines and other precision machinery. VDI tooling is characterized by its modular design, which allows for quick and easy tool changes and a high degree of precision and repeatability.
VDI static tooling, also known as "VDI static holders," is designed to hold cutting tools in a stationary position while the workpiece is moved. These holders are typically used for operations such as milling, drilling, and boring, and are available in a variety of sizes and styles to suit different applications. VDI static tooling is known for its high precision and repeatability, as well as its ability to hold cutting tools securely and accurately.
VDI driven tooling, also known as "VDI turrets," is designed to hold cutting tools that rotate at high speeds. These turrets are typically used for operations such as turning and facing, and are available in a variety of sizes and styles to suit different applications. VDI driven tooling is known for its high precision and repeatability, as well as its ability to hold cutting tools securely and accurately.
One of the main benefits of VDI tooling is its modular design, which allows for quick and easy tool changes. This can significantly reduce downtime and improve productivity in the manufacturing process. Additionally, VDI tooling is known for its high precision and repeatability, which helps to ensure the highest possible quality of the finished workpiece.
Another benefit of VDI tooling is its ability to adapt to different machine types and brands. Its compatibility with various machine types and brands makes it a versatile option for manufacturers.
In conclusion, VDI static and driven tooling are specialised tooling systems used in CNC machines and other precision machinery. They are known for their modular design, high precision and repeatability, and their ability to adapt to different machine types and brands. With VDI tooling, manufacturers can improve productivity and ensure the highest possible quality of the finished workpiece.