Robot Polishing Machine - List of Manufacturers, Suppliers, Companies and Products

Robot Polishing Machine Product List

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Achieving automation for the removal and polishing of spatter after spot welding of automotive white bodies.

Achieving automation for the removal and polishing of spatter after spot welding of automotive white bodies.

Achievements in the automotive industry are proof of improvement results. Fully automated polishing system for removing spot welding spatter on white bodies. Autonomous correction control of contact force.

ASK Brushing Kit. The main use is for removing welding spatter, brush polishing, and cleaning in the automotive industry. ASK301, 401 Ideal finishing for body-in-white and sheet metal. Seeing is believing! Please check our website or YouTube (FerRobotics) for application example videos. In spot and laser welding, spatter and soot remain on the workpiece, but with the brushing operation that fully controls the contact force using ASK, brushing can be performed while maintaining the electrodeposition coating. The quality of brushing before painting is a necessary condition for optimizing the painting process of the final product, so complete automation with ASK eliminates the need for post-processing and achieves the best finish. ■ Benefits: - High-speed autonomous correction control of pressing force increases the robot's trajectory speed, resulting in dramatic improvements in productivity and cycle time for polishing and brushing. - High-level finishing quality can be consistently achieved 24/7, 365 days a year. - Reduced consumption of consumables leads to cost savings. - Avoids the risk of vibration-related issues through automation. - High ROI (Return on Investment) allows for early recovery of capital investment.

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High-speed automatic correction of pressing force. Correction of gravitational load as well. Robot polishing device for large areas.

High-speed automatic correction of pressing force. Correction of gravitational load as well. Robot polishing device for large areas.

Automation of surface preparation for large-scale painting of aircraft, railway vehicles, etc., with the highest finishing quality. The use of three heads expands the processing area and increases work speed.

Orbital sander kit for industrial robots using the unique ACT technology developed by FerRobotics Compliant Robot Technology GmbH. Suitable for pre-paint polishing and polishing. Utilizing a 3-head system and ACT technology, it is optimal for large-area polishing tasks, dramatically improving work costs with overwhelming finishing quality and work speed. Seeing is believing! Please check our website or YouTube (FerRobotics) for application example videos. By imparting the skills of craftsmanship to robots, we can automatically correct and fully control the pressing force in the polishing (sanding, polishing) process, instantly adjusting for dimensional variations and load due to angles. This enables fully automated polishing with significantly improved cycle times. Each parameter, including rotation speed, pressing force, and feed rate, can be controlled independently. Benefits: - Dramatically improves productivity and efficiency. - Avoids the risk of vibration-related issues through automation. - Quick recovery of capital investment. - Reduces the risk of factory shutdowns due to unforeseen circumstances during the COVID-19 pandemic. Compatible with a wide range of materials for surface finishing, including iron, aluminum, titanium, magnesium, carbon, resin, wood, ceramics, and coconut fiber.

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Robotizing the polishing work for painting preparation of forklifts and construction machinery!

Robotizing the polishing work for painting preparation of forklifts and construction machinery!

Meet strict finishing quality requirements and reduce cycle time! High-speed autonomous correction of contact force increases robot trajectory speed, enabling high-quality automatic polishing.

FerRobotics' Active Compliant Technology automatically corrects the "difference" in contact pressure (force) that occurs during processing in polishing and grinding operations, which require skilled techniques, in relation to dimensional tolerances, curved shapes, and non-planar surfaces of the workpiece, at high speed. It also automatically compensates for gravitational loads, allowing for consistent polishing/grinding operations with a set contact force. This technology can increase the speed of the equipment or robot's trajectory, thereby enhancing processing speed and improving cycle times. Additionally, in robotic polishing and grinding, the ability to control the contact pressure through the expansion and contraction of the ACF itself means there is no need to move the heavy robot arm for corrections, which further assists in improving the processing speed of robotic polishing. Furthermore, it automatically compensates for tool loads caused by gravity, which changes with the robot's angle, ensuring a consistent contact pressure from any angle and enabling a finish without processing irregularities. Seeing is believing! Please check our website or YouTube (FerRobotics) for example application videos.

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Various robotic polishing such as pre-processing, buff polishing, and mirror polishing with tool changes.

Various robotic polishing such as pre-processing, buff polishing, and mirror polishing with tool changes.

Freely automate various surface processing with a tool exchange system. An automated polishing tool that robotizes buff polishing, mirror polishing, etc. Instant automatic correction for processing with uniform force.

The ACF-K is a tool exchange unit that allows for easy attachment and detachment of hand tools such as angle grinders, belt sanders, orbital sanders, and die grinders. It enables simple automation with constant control of pressing force, contributing to your company's labor-saving efforts. FerRobotics' Active Compliant Technology automatically corrects the "difference" in contact pressure (force) that occurs during processing in grinding and polishing operations, which require skilled techniques, against dimensional tolerances, curved shapes, and non-flat surfaces at high speed. It also automatically compensates for gravitational loads, allowing for consistent grinding/polishing operations at the set pressing force. This technology can increase the speed of the device or robot's trajectory, thereby enhancing processing speed and improving cycle time. Additionally, in robotic polishing and grinding, the ACF itself controls the pressing pressure by adjusting its stroke, eliminating the need to move the heavy robot arm for corrections, which assists in improving the processing speed of robotic polishing. Furthermore, it automatically compensates for tool load changes due to gravity, which varies with the robot's angle, ensuring a consistent pressing force from any angle and enabling a finish without processing inconsistencies.

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Automation of carbon material polishing by robots with a short cycle time.

Automation of carbon material polishing by robots with a short cycle time.

High-speed autonomous correction of contact force, with autonomous correction of gravitational load as well. This enables an increase in robot trajectory speed, allowing for high-quality, stable automatic polishing with uniform force from any angle.

FerRobotics' Active Compliant Technology automatically corrects the "difference" in contact pressure (force) that occurs during processing in grinding and polishing, which require skilled techniques, in response to dimensional tolerances, curved shapes, and non-planar surfaces of the workpiece, at high speed. It also automatically compensates for gravitational loads, allowing for consistent grinding/polishing with a set contact force. This technology can increase the speed of the device or robot's trajectory, thereby enhancing processing speed and improving cycle time. Additionally, in robotic polishing and grinding, the ACF itself controls the contact pressure by adjusting its stroke, eliminating the need to move the heavy robot arm for corrections, which further assists in improving the processing speed of robotic polishing. Furthermore, it automatically compensates for tool loads caused by gravity, which varies with the robot's angle, ensuring a consistent contact pressure from any angle and enabling a finish without processing unevenness. Seeing is believing! Please check our website or YouTube (FerRobotics) for application example videos.

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Improving painting quality through automatic polishing of automotive resin parts for deburring and surface preparation.

Improving painting quality through automatic polishing of automotive resin parts for deburring and surface preparation.

Robot polishing of resin parts such as automotive bumpers and spoilers, including burr removal, release agent removal, and painting preparation, using force control with high-speed automatic correction of pressing force.

FerRobotics' Active Compliant Technology automatically corrects the "difference" in contact pressure (force) that occurs during processing in polishing and grinding operations, which require skilled techniques, in response to dimensional tolerances, curved shapes, and non-planar surfaces of the workpiece, at high speed. It also automatically compensates for gravitational loads, allowing for consistent polishing/grinding with a set contact force. This technology can increase the speed at which devices and robots move along their trajectories, thereby enhancing processing speed and improving cycle times. Additionally, in robotic polishing and grinding, the ability to control the contact pressure through the expansion and contraction of the ACF itself means that there is no need to move the heavy robot arm for correction, which further assists in improving the processing speed of robotic polishing. Furthermore, since it automatically compensates for tool loads affected by gravity, which changes with the angle of the robot, it maintains a consistent contact pressure from any angle, enabling a finish without processing inconsistencies. Seeing is believing! Please check our website or YouTube (FerRobotics) for application example videos.

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