Mobile components make inspection and production fully autonomous

A unique combination of Hexagon measurement systems comes together with AGV and robotic technology to show the way forward to a future of truly autonomous large-scale production

 

Línea de flujo autónoma UniFix | Absolute Tracker + 3DArena

Driven by the urgent need of the aerospace industry to establish more efficient and steerable production approaches, the UniFix research project has brought together innovative partners from industry and research in the aerospace sector to set higher standards with an ingenious flow line inspection and production setup. The project is a collaboration between Hexagon, Stäubli WFT, FFT Production Systems and the Fraunhofer IFAM research institute. 

The UniFix concept is that of a flexible component carrier that independently cycles different large components through several processing stations. In this process, an electronic flow of all relevant component and process data is created, enabling the reuse of measurement data in all subsequent stations as well as delivering better defect tracking. Time-consuming measurement processes are outsourced from the production stations, which only perform quick referencing tasks. With such a system, components no longer need to be set up and assembled during transitions between stations, significantly increasing the efficiency of the process.

At the measurement station of the UniFix system, the component is quickly inspected by a robot-mounted Leica T-Scan 5, a high-dynamic,  high-accuracy 3D laser scanner from Hexagon.The UniFix system begins with its component carriers – multiple automated guided vehicles (AGVs) that when virtually connected in coupling mode can move as a single interlinked vehicle. Due to its omnidirectional drive system, the interlinked vehicle operates agilely, even in very limited spaces. 

Upon this vehicle is mounted a customisable holding fixture designed to accommodate several types of large component. A special design enables a transport without deformation to the mobile holding fixture.

The selection and definition of each target process in the production line is intuitively performed through a custom tablet interface. This is connected to a central process data management system that generates orders and manages the entire flow line by monitoring defined key performance indicators.

The UniFix system’s twin AGVs carry a large aerospace component between production stations.Guided by QR tapes on the production shop floor, the mobile system can position itself precisely at the various production steps. This begins with an automated connection of the media supply, feeding adjustment data for the automatically adjusted fixture. After positioning, shape retention is guaranteed by precisely levelled supports.

The actual position of each moulding is then checked by Hexagon’s 3DArena dynamic multi-camera photogrammetry system, which can record every part of the large fixture simultaneously. By comparing against the CAD drawing, it provides real-time adjustment data to ensure accurate positioning of the fixture elements, with adjustment parameters displayed live in the software, overlaid on the CAD model. The dynamic referencing capacity of the 3DArena system means the position of the fixture can be easily tracked throughout the adjustment process as the position of each individual fixture element is fine tuned. 

The 3DArena photogrammetry system is used to adjust the initial positioning of the mobile fixture in real time.Following this adjustment, the component to be worked on is mounted on the holding fixture. Once placed and secured before transport, the automated vehicle moves the mounted component onto the next defined production step – the process of geometrical referencing and inspection.

Once the system arrives at the inspection and referencing station, the mobile holding fixture is initially referenced by one of Hexagon’s flagship laser tracker systems, the Leica Absolute Tracker 
At the measurement station of the UniFix system, the component is quickly inspected by a robot-mounted Leica T-Scan 5, a high-dynamic,  high-accuracy 3D laser scanner from Hexagon.
AT960. This can measure to retro reflectors 
mounted on the fixture, allowing for highly accurate referencing within the inspection station.

With the initial referencing done, the measuring process starts. The component is captured as a 3D point cloud across every area of interest, again using the AT960 laser tracker. In this stage of the process, the laser tracker is paired with a robot arm-mounted Leica T-Scan 5 3D laser scanner, which is able to move around the part on its own separate AGV platform.

With this inspection data, the production process can identify key features and define things such as the location of machining trajectories for the trimming of the outer edge of an aerospace tail plane or position of drillings on wind turbine blades.

At the measurement station of the UniFix system, the component is quickly inspected by a robot-mounted Leica T-Scan 5, a high-dynamic,  high-accuracy 3D laser scanner from Hexagon.Following inspection, the mobile holding fixture moves on to the machining station. This marks the end of the UniFix flow line, with the AGV freed to pursue the next transport order during the machining process.

Due to the UniFix approach, the referencing of the machining system consists of a heavily reduced number of points to be measured, offering a significant productivity benefit within the machining process. In this way is the multistage calibration concept required for the UniFix flow line now completely put into effect.

“It can be concluded that the utilisation of the AGV for transporting the holding fixture reduces the number of handling operations drastically,” explains Christoph Brillinger, UniFix project leader Fraunhofer IFAM in Stade. Due to the UniFix concept, the machining system can focus on its original purpose, namely high-quality machining operations. 

The UniFix system’s twin AGVs carry a large aerospace component between production stations.“The flexibility of the process concept can also be used for harmonising cycle times and reducing lead time. The consistent data capture capacity of the centrally processed data management system also simplifies the early-on identification of manufacturing defects, leading to a reduction of scrap parts,” Christoph Brillinger adds.

Thanks to this innovative research project, new standards have been set in the productivity of machining systems.

The UniFix project is a collaboration between a group of leading organisations in the field of manufacturing research and development. Stäubli is a global mechatronics solution provider, whose Stäubli WFT arm creates automated guided vehicles (AGVs) that are designed for the heaviest loads without sacrificing manoeuvrability. FFT Production Systems are a leading global supplier of innovative, flexible and highly complex manufacturing systems, specialising in development, design and implementation and running projects worldwide with customers in automotive, aerospace and other sectors. Fraunhofer IFAM is one of the most important independent research institutes in Europe in the fields of “Adhesive Bonding Technology and Surfaces” and “Shaping and Functional Materials”. At the Stade location, automation, digitalization and production technology are the focus of R&D work with the aim of providing customers with tailored reliable and application-oriented solutions. Hexagon brings to the table a range of advanced measurement hardware and software, ideal for capturing, processing and analysing the high detail.

Case Study: UniFix - Stade, Germany

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Case Study: UniFix - Stade, Germany