Profile: Family-run, medium-sized company specializing in plastics processing with a total of 300 employees based at three plants. Riegler processes over 300 thermoplastics at its production site to create high-precision, high-quality components for the pharmaceutical, diagnostics, and cosmetics industries.
Challenge: In the past, Riegler outsourced 3D printed parts from external service bureaus in exceptional cases. Because of the excessive costs involved with this process, the company only used rapid prototyping for functional tests if there was a concrete reason or need. This led to increased uncertainty in development processes.
Solution: Bringing stereolithography (SLA) 3D printing in-house has enabled Riegler to reduce development times and uncertainty, present products more effectively to customers and, as a result, increase its chances of winning contracts—as was the case with the development and design of complex system components for a market-leading diagnostics company.
- Riegler reduced development times and minimized uncertainty in the development of highly complex components requiring fully-automated assembly.
- 76% reduction in costs.
- 90% time savings.
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Riegler is a system supplier of medical technology for the pharmaceutical sector, diagnostics, and the cosmetics industry. The company has specialized in rapid, customer-specific product development for 70 years. One of the Riegler’s core competencies is the integrated production of highly complex plastic products under clean-room conditions.
Riegler’s design and development department uses CAD to transform initial customer ideas into molds suitable for use with plastics and, later, for economically viable production. These complex assemblies are produced in production runs of several million using extrusion blow or injection molding processes. This means that the company has to carry out extensive tests and rapidly develop innovative systems.
Head of Design and Development at Riegler, Klaus Oswald, used desktop 3D printing to create a prototype that secured a contract from a leading diagnostics company for a highly complex product that would have to be manufactured in high volumes. Within days, instead of weeks, and at a fraction of the cost, Oswald and his team were able to create prototypes for the customer. Using 3D printing, they could quickly and safely check the suitability for production in millions of units and for fully-automated assembly.
Riegler faced several challenges during the development and production of their components. First, the product needed to be manufactured in high volumes and assembled fully automatically. This included laser welding and camera inspection, which meant extensive checks had to be made prior to production. The second challenge was the development of the actual containers, which had to be compatible with a wide range of analysis substances and capable of being processed in new and existing fully-automated blood analysis devices. The containers also needed to be securely transported (also in low-pressure conditions on an aircraft) and able to tolerate a wide range of process parameters.
For many years, Riegler outsourced 3D printing for rapid prototyping of highly complex models, which were initially used for the contract in development and for extensive testing. Over time, the costs and time involved in working with suppliers proved too high to be economically viable. This prompted Riegler to invest in its own in-house stereolithography (SLA) 3D printing system.
“We only used 3D printing from external providers to a limited extent. The administrative effort was just too much and we were only able to test a few versions of each prototype. It also took several weeks to get a prototype made externally. With the Form 2, we can print a prototype for a customer overnight and have it ready to go the next day.”
Klaus Oswald and the development team at Riegler work with CAD and use in-house desktop 3D printing to rapidly develop customer-specific products.
Once the 3D design is ready, Riegler can use its in-house desktop 3D printer to create an initial prototype and rapidly develop it further.
“We can immediately assess our designs to ensure they function correctly and have the right dimensions, ergonomics, and other critical parameters. Then we can make our changes to the 3D model and print it out again. The printed parts are ready the next day and can be evaluated again. We only move on to the next stage in development once we’re happy with what we have.”
The printed prototypes optimize the internal development and production process and also make orders more secure.
“The printed concept models can be presented to customers, who can then actually pick up and assess these to-scale prototypes. When dealing with very small parts, we can also use larger-scale models to explain how they work.”
Riegler’s development department uses 3D printing to create prototypes for complex system components. Here, a cartridge cover is 3D printed using Formlabs Grey Resin at 25 micron resolution.
In an ideal scenario, the developers at Riegler only need one day and one night to turn an idea into a physical model using the Form 2 3D printer. With an external 3D printing partner, the same parts would have required a lead time of 1 to 2 weeks, plus at least one week for requisitioning and procurement in house.
The new system delivers enormous cost savings. The cartridge cover for the diagnostics system would have cost €250 with an external supplier. The material costs for in-house 3D printing came to just €60. Formlabs Standard Resins has all the characteristics of a polypropylene- and polyethylene-like surface. It allows strengths and functions to be tested and errors to be eliminated.
In the future, Riegler plans to use the mold inserts printed on the Form 2 to manufacture parts in the original material (polypropylene, polyethylene) using an injection molding machine. Making molds with Formlabs’ High Temp Resin is another step towards permanently embedding in-house 3D printing technology at Riegler.
“We have had our Form 2 for a year now and print almost every day for almost all development processes. In the past, when we worked with external service providers, we only used 3D printing in exceptional cases. Having 3D technology in house has increased our chances of winning orders.
|Application||Outsourcing||3D printing on the Form 2|
|Lead Time||1–2 weeks||8 hours|