Quality Control
In today’s globalised competitive environment, flawless product quality is the key to success.
Your market success is defined by factors such as dimensional stability, coherent shape consistency and constant surface properties … essential parameters for highest product quality.
Print3D-Quality Inspection of Gear Transmission
Casings for Commercial Vehicles
The company ZF Friedrichshafen AG is a leading manufacturer of gear transmissions in the field of commercial vehicles, developing and producing technologies worldwide for driveline and chassis technology.
The complex gear transmission casings for commercial vehicles are made of aluminium using the method of pressure die-casting. Based on the casing created in the CAD system, die-casting moulds are produced to serve as shaping moulds for the casing components. In the actual production process different parameters such as the filling quantity, pressure, temperature conditions, timing and tool design determine the condition of the moulding parts. In order to ensure consistent quality of the die-casting parts, the adherence to the pre-defined tolerances has to be continuously verified. This is when the high resolution 3D measurement and inspection systems of Breuckmann GmbH come into play.
The optical metrology technique developed and applied by Breuckmann GmbH offers the ideal solution for quality assurance in the areas of first sample inspection or serial production. The application range stretches from laboratory measurements all the way to automated process solutions, thereby ensuring the acquisition of high-precision data even when executed in the factory environment.
Objective and Measuring Object
The inspection tasks at ZF for gear transmission casings made of aluminium die-cast are versatile: firstly, in order to make sure of the required quality in the prototype phase, precise three-dimensional data is needed for the first sample inspection. The purpose and objective of the construction is the highest level of rigidity of the casing while using a balanced material input.
During the serial production, precision is of key importance when it comes to maintaining the quality standard. This is when the casing is inspected for contour accuracy and the surface is examined for damages and deformations. A special inspection parameter in this context is the wall thickness, which has to be of optimum proportion with regard to stability and quantity of material used.
Finally, the tools used in the production process have to be regularly inspected in order to make sure that signs of wear and tear are being identified at an early stage, thus avoiding the development of inferior product quality well ahead of time.
All inspection processes can either be carried out manually on a turn table or automated in combination with a robot (serial inspection).
Measuring System and Setup
For the first sample inspection, the Breuckmann measuring system smartSCAN 3D-HE with a 250 watt light and a big measuring field is being used. To execute the partially automated data acquisition of the transmission casing, the sensor setup is additionally equipped with the rotation unit turnTABLE-200, which is specifically designed for heavy weight measuring objects.
Workflow
Using the standard triangulation angles of area-based scanning systems, deep ridge structures very often cannot be captured with the desired accuracy. Thanks to the flexible sensor configuration of the smartSCAN 3D series, scan processes can be carried out using triangulation angles of 30°, 20° and 10°, thus allowing the generation of highly precise measuring data even of object areas which are usually very difficult to capture using conventional sensors.
During the scanning process, firstly the individual scans are generated, aligned and then merged into a uniform polygon mesh with the aid of the Breuckmann OPTOCAT software. In a second step, the generated data is imported into the inspection software (in this case Polyworks/Inspector by Innovmetric) in order to assess the geometries of the measuring object. The workflow in detail:
1. Measuring Setup and Digitisation
- Setup of sensor, turn table and measuring object
- Sensor calibration and verification (VDI2634/2) according to a dumbbell artefact
- Measurement of the transmission casing (scanning process and visualisation)
- Generating the 3D data set (format: STL or PLY)
2. Comparison with CAD Data
- Establishing the inspection parameters as per definition
(features, cross-sections, scaling)
- Nominal / actual comparison (colour deviation comparison with CAD data)
- Generation and evaluation of the inspection report
- Optimisation of the die-casting mould and adaptation of the production parameters
Conclusion
If the CAD tool data is already available, it is directly loaded as reference. Typically, the measured deviations between target and actual status are visualised with the help of a false colour map. This way, the measuring results can be easily and directly interpreted and immediately used for the optimisation of the die-mould tool or the process parameters. This helps the production department to maintain a consistent efficiency even under demanding circumstances and in the end result to ensure the production of high quality gear transmission casings.
In comparison to the conventional coordinate measurement technology, the Breuckmann smartSCAN 3D-HE allows a much easier and faster evaluation of the measuring result, in particular in context with freeform surfaces. Furthermore, the user is provided with a much more comprehensive data base for subsequent processing, which in the context of the development of the prototype allows a significant reduction of the time to market cycle.
We would like to express our thanks to ZF Friedrichshafen AG for their friendly support and cooperation in this project.
Pictures
- Precise data capturing...
- ... of a gear transmission casing...
- ... with Breuckmann's naviSCAN...
- ... live at the exhibition booth.
