3D scan of components before laser cladding

16/04/2021

In order to detect free forms and form deviations before the laser processing stage, a scanCONTROL laser scanner from Micro-Epsilon scans the corresponding components. If required by the component geometry, this is done from several directions. Regardless of the reflection properties of the material, the laser scanner constantly provides reliable measurement values.

Laser processing of components is a versatile task. It ranges from cutting and welding work to coating. In order to derive the optimum machining processes from the profile data obtained, mechanical components are measured three-dimensionally before machining. Laser profile scanners from Micro-Epsilon are used for this purpose.

In laser cladding, a melt pool is created on the surface of the component. Adding a powdered filler material creates a new, pore-free layer. The core task of the scanner is the detection of free forms as well as the recognition of form deviations before laser processing. Different sensors can be used depending on the application, such as repair, 3D printing, joining or coating and component size. The scanCONTROL 3050-50/BL is ideally suited. This scanner offers a measuring range of 50 mm, with 2,048 measurement points per profile and a measuring rate of up to 10,000 profiles per second. The blue laser line enables precise measurements on metallic surfaces.

The raw data is transferred directly to the customer software, assembled into a 3D model and finally used for the path planning of the laser welding head. The nozzle can then be placed at the correct distance from the surface and guided along the calculated path. The result is a new, even and full surface.

In contrast to a camera solution, laser profile scanners enable the creation of a 3D model and are also surface-independent in terms of contrast. The higher precision, as well as the various integration and processing possibilities of the acquired measurement data, also offer significant advantages in this application.

Compared to tactile measurements, the required cycle time is considerably shorter thanks to non-contact measurements.

Micro-Epsilon Messtechnik
Königbacher Str. 15
94496 Ortenburg
info@micro-epsilon.de
+49 8542 / 168 - 0
+49 8542 / 168 - 90