Scanner Reduces Diesel Engine Modeling Time from 2 Years to 2 Months

Cameron Compression Systems used NVision Handheld laser scanners to produce a solid model of an existing large engine in one-tenth of the time that would have been required using conventional methods. “It would have taken several years to re-engineer the large diesel engine block pan and heads using a coordinate measuring machine (CMM),” said Greg Obets, Manager, Engineering Systems, for Cameron. “Instead we scanned these components, converted the resulting point cloud to a solid model, and made the tweaks necessary to prepare them for production in only two months.”


Cameron scanned the engine components, converted the resulting point cloud to a solid model, and prepared them for production in only two months.

Cameron provides reciprocating and centrifugal compression products, systems and services to oil, gas and process industries. The company also previously built a line of 12 to 16 cylinder two-stroke diesel engines to power its compressors. The company discontinued these engines about ten years ago but customers have been asking Cameron to bring them back and recently the company agreed.

The engines were designed using paper drafting methods and several of the paper drawings had disappeared. The engines worked well so there was no need to re-design them from scratch. “What we needed was a way to reverse engineer the existing engines to create solid models that could serve as the basis for manufacturing,” Obets said. “It would have very difficult to reverse engineer these parts using a CMM. Collecting one point at a time with a CMM, we would only have been able to capture a rough outline of the geometry. So we would have had to re-design most of the details from scratch.”


Cameron Compression Systems scanning older line of two-stroke diesel engines previously used to power its compressors.

Cameron decided to investigate laser scanning and selected the NVision Handheld scanner because of the 8-inch laser stripe width, four times faster than small-stripe technology. The selected scanner is a portable device capable of capturing 3D geometry from components of virtually any size. It is attached to a mechanical arm that moves about the object, freeing the user to capture data rapidly and with a high degree of resolution. Other advantages include real-time rendering, full model editing, polygon reduction, and data output to all standard 3D packages.

“NVision developed a training program specifically for our people, tailored to our unique parts,” Obets said. “Before the training ended, they had begun scanning the parts. There are many closed internal passages so we scanned the outside first and then cut away the exterior as needed to expose the interior. It took only two weeks to completely scan all three parts.”

Cameron used the Nvision software to re-assemble the point clouds in a single file for each component. Reference points included in the original scans made it easy to re-assemble the different point clouds in their proper relationship. Then the company used XOR software to convert the point clouds to a solid model.

“We imported the solid model into Siemens PLM NX software where we tweaked a few things such as thinning out or beefing up surfaces,” Obets said. “In only two months, we were ready to turn the solid models and drawings over to manufacturing. The scanner yielded enormous time-savings for us on this project.”

NVision, Inc.
www.nvision3d.com

MPF