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TSA plunge finishers eliminate impingement during processing and are well suited for finishing gears automotive wheels engine and transmission parts and profiling rollers

“Plunge” Finishing for Cleaning, Polishing

Aug. 13, 2012
40x the grinding power of rotary vibrators Variable speed control, vertical oscillation, and eccentric orbital movement

Rosler, the developer of surface-finishing systems, announced a new line of plunge finishers — the TSA series. These powerful plunge finishers provide an excellent high-gloss polish even as they debur, grind, and radius complex parts. They are ideally suited for components with many contours or multifaceted geometries, as well as parts made from hard alloys that are difficult to machine.

With 40x the grinding power of rotary vibrators, the TSA plunge finishers eliminate impingement during processing, and are well suited for finishing gears, automotive wheels, engine and transmission parts, and profiling rollers. With variable speed control, vertical oscillation, and eccentric orbital movement, the TSA plunge finisher is very versatile.

Durable plunge finishers can be configured for robotic interface for easy loading and unloading.

They are designed with heavy-duty construction and industrial grade motors. All TSA machines include a work bowl lined with highly wear-resistant polyurethane for years of durable service.

Each TSA plunge finisher is supplied with a user-friendly PLC-based control panel for programming of all essential operations. Other convenient features include a media unload plug for quick and easy media changes as well as dosing equipment for accurately managing water and compounds.

TSA plunge finishers can be easily integrated into your cell manufacturing concepts or designed with multi-stage processes

Visit www.rosler.us

About the Author

Robert Brooks | Content Director

Robert Brooks has been a business-to-business reporter, writer, editor, and columnist for more than 20 years, specializing in the primary metal and basic manufacturing industries. His work has covered a wide range of topics, including process technology, resource development, material selection, product design, workforce development, and industrial market strategies, among others. Currently, he specializes in subjects related to metal component and product design, development, and manufacturing — including castings, forgings, machined parts, and fabrications.