The SPRINT Blade Toolkit offers a unique solution to end users requiring measurement data for the production and repair of blades and bladed disks. The data can be used in a number of high-precision applications including blade tip refurbishment, in-process blade measurement and root blending of bladed disks.
In comparison with traditional on-machine technologies, the SPRINT Blade Toolkit provides significant cycle time advantages, and uniquely accurate definition of tightly curved surfaces such as leading edges. It also provides significant advantages in adaptive machining processes when compared to off-machine measurement methods, since measuring on-machine eliminates manual handling and the many issues associated with the transfer of components and set-ups between measurement devices.
Machine tool probes for component setting and inspection
Renishaw probe systems provide an innovative solution to improve the efficiency of your machine tools.
Touch probes on CNC machining centres and lathes can be used to identify and set up parts, measure features in‑cycle for adaptive machining, and verify finished component dimensions.
Standard accuracy probes
From simple edge detection through to part alignment and on‑machine gauging, this technology is available in all of Renishaw’s miniature, ultra compact and compact designs.
High-accuracy probes
High-accuracy probes can draw even greater benefits from high specification multi-axis machines and it is for this reason that their use is now widely adopted.
The SPRINT Blade Toolkit offers a unique solution to end users requiring measurement data for the production and repair of blades and bladed disks. The data can be used in a number of high-precision applications including blade tip refurbishment, in-process blade measurement and root blending of bladed disks.
In comparison with traditional on-machine technologies, the SPRINT Blade Toolkit provides significant cycle time advantages, and uniquely accurate definition of tightly curved surfaces such as leading edges. It also provides significant advantages in adaptive machining processes when compared to off-machine measurement methods, since measuring on-machine eliminates manual handling and the many issues associated with the transfer of components and set-ups between measurement devices.
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