Dürr brings solution for digital paint layer calculation to the market
SOUTHFIELD, Mich., Sept. 8, 2020 – Uniform layer thicknesses are an important quality factor in industrial car painting. Until now, numerous test runs were necessary when launching new models to ensure the perfect painting results were achieved. Dürr has now succeeded in calculating layer thicknesses virtually, and is incorporating this module into the existing programming software for application robots. With the newly developed simulation software, car manufacturers can reduce the number of real-life tests. The DXQ3D.onsite software is available with the new process simulation module. The first beta site versions are already in use.
Each time there is a new project in a paint shop, for example, a new model launch, numerous processes and parameters require precise adjustments until the applied paint has the required layer thickness everywhere on the body. Until everything is properly adjusted, bodies undergo test painting in a complex parameterization process. With the new simulation tool from Dürr, manufacturers can now model and optimize this process virtually.
“It is now possible to reduce the number of test paint runs and test bodies by more than 50%,” explains Dr. Lars Friedrich, President & CEO Application Technology at Dürr Systems AG. “This makes commissioning more efficient, lowers material costs, and results in fewer poorly coated bodies.”
On the path to the digital paint shop
Simulating the painting process is one of many important steps on the path to the fully digitized paint shop. The objective is to make the painting process more economical with computer-assisted product and process developments from end to end, while delivering the same top quality. Simulations help even before the first vehicle prototypes get as far as production. Using qualified calculations, they anticipate where any problems might occur and provide remedies prior to manufacturing. In terms of the layer thickness, this also includes body parts that are challenging to paint, like joints in the trunk.
Visualizing reality in advance on the computer
The new DXQ3D.onsite module is based on a three-step concept. The first step consists of a virtual calculation of how much paint is applied at any point. The software runs its simulations exclusively using idealized, virtual spray patterns based closely on actual conditions. The spray patterns can be scaled dynamically in height and with different widths. The user can “play” with these two parameters to estimate and visualize what general effect different spray pattern widths and percentage discharge rates will have on the layer thickness distribution.
To model the reality in advance on the computer, the software module creates a digital twin of all key individual components in the form of electronic data. During the first simulation, the tool automatically converts the uploaded file formats into its own 3D file format of the body. This keeps all the necessary additional data ready and, at the same time, removes data of no significance for the painting operation. This has the effect of reducing the storage space required as well as the calculating time so that the program can also be used on a notebook directly at the spray booth in production. Once all the relevant data is merged for the final time, a virtual spray pattern along the robot paths programmed off-site is produced. It adds up the layer thicknesses and displays them in a 3D paint map. This enables different optimization solutions to be visualized in a transparent way, considered by the team, and improved upon prior to production.
Pre-optimized parameters for the first painting test
The software simulations do not take into account specific paints. For that reason, the process simulation concept includes a real-life test in the Dürr test laboratory as a second step after the virtual optimization. The customers’ chosen paint materials are used in this test. The values measured are used in the third and last step to translate the virtual parameters used in the simulation, such as spray pattern width and percentage discharge rate, into parameters for the paint atomizer. The real-life results are incorporated into the simulation program during this “translation”. As soon as the map is imported, the software automatically suggests atomizer parameters. The first real-life test painting of a body is then carried out with this set of pre-optimized parameters.
Simulations in just a few minutes
The software module’s short calculating times make it possible to simulate the paint layer thicknesses of complete bodies and estimate the quality within a few minutes on a conventional PC, not a mainframe computer. “This makes it easy to assess the quality of paint layer thicknesses, better interpret coating results, and optimize neuralgic zones with inconsistent layer thicknesses,” says Frank Herre, Head of Application Process Development at Dürr Systems AG, in summarizing the benefits.
The process simulation is available as an additional module to the DXQ3D.onsite standard software included with every Dürr painting robot. DXQ3D.onsite is the digital universal tool that can be used to program motion paths using realistic simulations of all robots at a station or to parameterize application processes.
The Dürr Group has been established in the United States since 1970 and currently employs around 880 people. From the new Campus with a state-of-art validation, testing, and training center in Southfield, MI, Dürr USA represents four of the five divisions. Paint and Final Assembly Systems offers equipment for painting and assembly processes, while Application Technology provides paint, sealants and adhesives application systems. Dürr’s Clean Technology Systems is the global leader in air pollution abatement and energy efficient technologies. The subsidiary Schenck Trebel Corporation, based in Deer Park, New York, offers balancing machines, vibration and condition monitoring systems and services for the general industry. The customers of Dürr USA include automotive and commercial vehicle manufacturers as well as their suppliers, and a diverse group of other industries. The HOMAG Machinery North America operates the production facilities for the HOMAG Group in Grand Rapids, MI, which is also the base for sales and service company Stiles Machinery Inc. The HOMAG Group is the world's leading manufacturer of machines and systems for the wood-processing industry and trades.
The Dürr Group is one of the world's leading mechanical and plant engineering firms with extensive expertise in automation and digitalization/Industry 4.0. Its products, systems and services enable highly efficient manufacturing processes in different industries. The Dürr Group supplies sectors like the automotive industry, mechanical engineering, chemical, pharmaceutical and woodworking industries. It generated sales of € 3.92 billion in 2019. The company has around 16,300 employees and 112 business locations in 34 countries. The Group operates in the market with the brands Dürr, Schenck and HOMAG and with five divisions:
Paint and Final Assembly Systems: paint shops as well as final assembly, testing and filling technology for the automotive industry
Application Technology: robot technologies for the automated application of paint, sealants and adhesives
Clean Technology Systems: air pollution control, noise abatement systems and coating systems for battery electrodes
Measuring and Process Systems: balancing equipment and diagnostic technology
Woodworking Machinery and Systems: machinery and equipment for the woodworking industry
Dürr Systems, Inc.
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