Automated deburring – reliable, efficient, and consistent quality

Almost every form of shaping, whether casting, punching, sawing, or machining, produces burrs that must be removed.

Deburring is an essential processing step for removing burrs, sharp edges, and residues after milling, punching, casting, or cutting. Clean edge processing is essential for consistently high product quality, safe further processing, and flawless functionality. The use of robots for deburring offers decisive advantages in terms of precision, repeatability, and cost-effectiveness.

Robot-based deburring solutions enable consistent and reliable processing—even with complex geometries and hard-to-reach areas. Through the use of sensors, force control, and flexible tools, a wide variety of materials, from plastic to metal, can be processed efficiently and gently.

In addition to consistently high processing quality, automation relieves employees of monotonous or health-damaging tasks while increasing productivity. Robots can be seamlessly integrated into existing manufacturing processes and used flexibly for different workpieces.

This makes automated deburring a central component of modern, efficient manufacturing—reliable, economical, and at a consistently high level of quality.

Application example: Deburring crankshafts

The crankshaft is clamped onto a rotary table. The rotary table has two mounting positions, one on the robot side and the other on the loading side. Each mounting position is integrated into the robot control system via an NC axis (7th and 8th robot axes). Before starting, the robot uses a sensor to measure the rotational position. The robot then uses the tool station to deburr the crankshaft with the appropriate deburring tool.

Application example: Deburring cell

Our fully enclosed, transport-ready deburring cell processes your workpieces with consistent quality.

The deburring cell is equipped with up to 16 different pneumatic tools, such as milling cutters, brushes, files, and scrapers. The workpieces are moved by a robot.

The modular design allows for a wide range of customer-specific adaptations.

We process workpieces made of:

Plastics
Composite materials
Aluminum
Steel
Cast iron
Die-cast parts