FerRobotics Compliant Robot Technology GmbH List of News Articles

Our unique technology (Autonomous Contact Force Correction Technology (ACT)) enables end effectors to automate skilled tasks such as polishing and grinding, which were previously deemed impossible, while achieving shorter cycle times and high-quality finishes. In response to variations in workpiece dimensions and other changes in the processing target, it autonomously corrects contact force instantly, ensuring uniform processing with consistent contact force. Gravity compensation is also performed autonomously, applying uniform contact force regardless of angle, and maintaining consistent finishing quality even for R-shaped workpieces with simple settings. Additionally, due to the high correction speed, even when increasing the robot's trajectory speed, the contact force can be kept constant during processing, achieving reduced cycle times. 2023 International Robot Exhibition Venue: Tokyo Big Sight Dates: November 29 (Wed) - December 2 (Sat), 2023 Booth: W3-36 You can see the world's technology up close.

Our unique technology (Autonomous Contact Force Correction Technology (ACT)) enables end effectors to automate skilled tasks such as polishing and grinding, which were previously deemed impossible, while achieving shorter cycle times and high-quality finishes. In response to variations in workpiece dimensions and other changes in the processing target, the system autonomously corrects the contact force instantaneously, ensuring uniform processing with consistent contact force. Gravity compensation is also performed autonomously, applying uniform contact force regardless of angle, and easily maintaining finishing quality for workpieces with R shapes and other geometries. Additionally, due to the high correction speed, even when increasing the robot's trajectory speed, the contact force can be kept constant during processing, achieving reduced cycle times. 2023 International Robot Exhibition Venue: Tokyo Big Sight Dates: November 29 (Wed) - December 2 (Sat), 2023 Booth: W3-36 You can see cutting-edge technology from around the world up close.

Our unique technology (Autonomous Contact Force Correction Technology (ACT)) enables end effectors to automate skilled tasks such as polishing and grinding, which were previously deemed impossible, while achieving shorter cycle times and high-quality finishes. In response to variations in workpiece dimensions and other changes in the processing target, the system autonomously corrects the contact force instantly, ensuring uniform processing with consistent contact force. Gravity compensation is also performed autonomously, applying uniform contact force regardless of angle, and maintaining consistent finishing quality even for workpieces with R shapes through simple settings. Additionally, due to the high correction speed, even when increasing the robot's trajectory speed, the contact force can be kept constant, allowing for processing and achieving reduced cycle times. 2023 International Robot Exhibition Venue: Tokyo Big Sight Dates: November 29 (Wed) - December 2 (Sat), 2023 Booth: W3-36 You can see the world's technology up close.

Our unique technology (Autonomous Contact Force Correction Technology (ACT)) enables end effectors to automate skilled tasks such as polishing and grinding, which were previously considered impossible, while achieving shorter cycle times and high-quality finishes. In response to variations in workpiece dimensions and other changes in the processing target, the system autonomously corrects the contact force instantly, ensuring uniform processing with consistent contact force. Gravity compensation is also performed autonomously, applying uniform contact force regardless of angle, allowing for easy setup and consistent finishing quality even for R-shaped workpieces. Additionally, due to the high correction speed, the contact force can be maintained constant even when the robot's trajectory speed is increased, achieving reduced cycle times. 2023 International Robot Exhibition Venue: Tokyo Big Sight Dates: November 29 (Wed) - December 2 (Sat), 2023 Booth: W3-36 You can see cutting-edge technology from around the world up close.

Our unique technology (Contact Force Autonomous Correction Technology (ACT)) enables end effectors to automate skilled tasks such as polishing and grinding, which were previously deemed impossible, while achieving reduced cycle times and high-quality finishes. In response to variations in workpiece dimensions and other changes in the processing target, the system autonomously corrects the contact force instantaneously, ensuring uniform processing with consistent contact force. Gravity compensation is also performed autonomously, applying uniform contact force regardless of angle, and easily maintaining finishing quality for workpieces with R shapes and more. Additionally, due to the high correction speed, even when increasing the robot's trajectory speed, the contact force remains constant, allowing for processing and achieving reduced cycle times. 2023 International Robot Exhibition Venue: Tokyo Big Sight Dates: November 29 (Wed) to December 2 (Sat), 2023 Booth: W3-36 You can see the world's technologies up close.

Our unique technology (Autonomous Contact Force Correction Technology (ACT)) enables end effectors to automate skilled tasks such as polishing and grinding, which were previously considered impossible, while achieving shorter cycle times and high-quality finishes. In response to variations in workpiece dimensions and other changes in the processing target, the system autonomously corrects the contact force instantaneously, ensuring uniform processing with consistent contact force. Gravity compensation is also performed autonomously, applying uniform contact force regardless of angle, allowing for easy setup and maintaining consistent finishing quality even for R-shaped workpieces. Additionally, due to the high correction speed, the contact force can be kept constant even when increasing the robot's trajectory speed, achieving reduced cycle times. 2023 International Robot Exhibition Venue: Tokyo Big Sight Dates: November 29 (Wed) - December 2 (Sat), 2023 Booth: W3-36 You can experience cutting-edge technology from around the world up close.

Our unique technology (Contact Force Autonomous Correction Technology, ACT) enables end effectors to automate skilled tasks such as polishing and grinding, which were previously deemed impossible, while achieving reduced cycle times and high-quality finishes. In response to variations in workpiece dimensions and other changes in the processing target, the system autonomously corrects the contact force instantly, ensuring uniform processing with consistent contact force. Gravity compensation is also performed autonomously, applying uniform contact force regardless of angle, and easily maintaining finishing quality for workpieces with R shapes and more. Additionally, due to the high correction speed, even when increasing the robot's trajectory speed, the contact force remains constant, allowing for processing and achieving reduced cycle times. 2023 International Robot Exhibition Venue: Tokyo Big Sight Dates: November 29 (Wed) - December 2 (Sat), 2023 Booth: W3-36 You can experience cutting-edge technology from around the world up close.

Our unique technology (Autonomous Contact Force Correction Technology (ACT)) enables end effectors to automate skilled tasks such as polishing and grinding, which were previously deemed impossible, while achieving shorter cycle times and high-quality finishes. The technology autonomously corrects contact force in response to variations in workpiece dimensions and other changes, ensuring uniform contact force during processing. It also autonomously compensates for gravity, applying uniform contact force regardless of angle, and easily maintains finishing quality for workpieces with R shapes. Additionally, due to the high correction speed, even when increasing the robot's trajectory speed, the contact force remains constant, allowing for processing and achieving reduced cycle times. 2023 International Robot Exhibition Venue: Tokyo Big Sight Dates: November 29 (Wed) to December 2 (Sat), 2023 Booth: W3-36 You can experience cutting-edge technology from around the world up close.

Our unique technology (Autonomous Contact Force Correction Technology (ACT)) enables end effectors to automate skilled tasks such as polishing and grinding, which were previously deemed impossible, while achieving shorter cycle times and high-quality finishes. In response to variations in workpiece dimensions and other changes in the processing target, it autonomously corrects the contact force instantly, ensuring uniform processing with consistent contact force. Gravity correction is also performed autonomously, applying uniform contact force regardless of angle, and maintaining consistent finishing quality even for R-shaped workpieces with simple settings. Additionally, due to the high correction speed, even when increasing the robot's trajectory speed, the contact force can be kept constant during processing, achieving reduced cycle times. 2023 International Robot Exhibition Venue: Tokyo Big Sight Dates: November 29 (Wed) - December 2 (Sat), 2023 Booth: W3-36 You can see the world's technology up close.

Our unique technology (Autonomous Contact Force Correction Technology (ACT)) enables end effectors to automate skilled tasks such as polishing and grinding, which were previously deemed impossible, while achieving shorter cycle times and high-quality finishes. In response to variations in workpiece dimensions and other changes in the processing target, it autonomously corrects the contact force instantaneously, ensuring uniform processing with consistent contact force. Gravity compensation is also performed autonomously, applying uniform contact force regardless of angle, and maintaining consistent finishing quality even for workpieces with R shapes through simple settings. Additionally, due to the high correction speed, even when increasing the robot's trajectory speed, the contact force can be kept constant during processing, achieving reduced cycle times. 2023 International Robot Exhibition Venue: Tokyo Big Sight Dates: November 29 (Wed) - December 2 (Sat), 2023 Booth: W3-36 You can experience cutting-edge technology from around the world up close.

Our unique technology (Autonomous Contact Force Correction Technology (ACT)) enables end effectors to automate skilled tasks such as polishing and grinding, which were previously deemed impossible, while achieving shorter cycle times and high-quality finishes. In response to variations in workpiece dimensions and other changes in the processing target, the system autonomously corrects the contact force instantly, ensuring uniform processing with consistent contact force. It also autonomously compensates for gravity, applying uniform contact force regardless of angle, and maintains consistent finishing quality even for workpieces with R shapes through simple settings. Additionally, due to the high correction speed, the contact force can be kept constant even when increasing the robot's trajectory speed, achieving reduced cycle times. 2023 International Robot Exhibition Venue: Tokyo Big Sight Dates: November 29 (Wed) to December 2 (Sat), 2023 Booth: W3-36 You can see the world's technology up close.

Date: July 26 (Wednesday) to July 27 (Thursday), 2023, 9:30 AM to 5:00 PM Venue: Wink Aichi Registration Method: Via attachment or the link below FerRobotics' Active Compliant Technology automatically corrects the "difference" in contact pressure (force) that occurs during polishing and grinding processes, which require skilled techniques, at high speed. This technology allows for consistent polishing/grinding with the set pressing force, unaffected by variations in processing speed or gravitational load differences due to angles. Our technology enables an increase in the speed of devices and robots' trajectories, thereby enhancing processing speed and improving cycle time. Additionally, in robotic polishing and grinding, the control of pressing pressure through the expansion and contraction of the ACF itself eliminates the need to move the heavy robot arm for corrections, further assisting in improving the processing speed of robotic polishing. Furthermore, since it automatically corrects tool load variations caused by gravity changes due to the robot's angle, it maintains a uniform pressing pressure from any angle, allowing for a finish without processing inconsistencies.

FerRobotics' Active Compliant Technology automatically corrects the "difference" in contact pressure (force) that occurs during processing in polishing and grinding, which require skilled techniques, in relation to dimensional tolerances, curved shapes, and non-planar surfaces of the workpiece, at high speed. It also automatically adjusts for gravitational loads, allowing for consistent polishing/grinding with the 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 through the extension and contraction of its stroke, eliminating the need to move the heavy robotic arm for corrections, which further assists in improving the processing speed of robotic polishing. Furthermore, it automatically corrects tool loads due to gravity, which varies with the robot's angle, ensuring a consistent contact pressure from any angle and enabling a finish without processing inconsistencies. Seeing is believing! Please check our website or YouTube (FerRobotics) for example application videos.

FerRobotics' Active Compliant Technology automatically corrects the "difference" in contact pressure that occurs during polishing and grinding processes, which require skilled techniques, at high speed. It enables consistent polishing/grinding at the set contact force, unaffected by variations in processing speed or gravitational load differences due to angles. With the end effector (ACF) utilizing ACT technology, dimensional tolerances of the workpiece and changes in freeform surfaces are automatically corrected at high speed through instant stroke adjustments, maintaining constant contact with the workpiece at the set force. This technology allows for increased trajectory speed of devices and robots, enhancing processing speed and improving cycle times. Additionally, it automatically corrects the gravitational load of tools that varies with the robot's angle, ensuring uniform contact pressure from any angle and enabling a finish without processing inconsistencies. ◆Challenges addressed by automating polishing and grinding using our technology: - Increased work speed and improved cycle times, leading to reduced labor costs and profit generation. - Mitigation of risks associated with the succession of skilled workers. - Relief for workers from the "three K" jobs (dirty, dangerous, and difficult). - Consistent, high-reproducibility work 24/7. - Cost reduction by minimizing the consumption of consumables through consistent contact force processing.

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 paths, 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 robotic arm for corrections, which further assists in improving the processing speed of robotic polishing. Furthermore, since it automatically compensates for tool loads affected by gravity, which varies with the angle of the robot, it maintains a uniform contact pressure from any angle, enabling a finish without processing inconsistencies. Seeing is believing! Please check our website or YouTube (FerRobotics) for example application videos.

FerRobotics' Active Compliant Technology automatically corrects the "difference" in contact pressure that occurs during polishing and grinding processes, which require skilled techniques, at high speed. It allows for consistent polishing/grinding at the set contact force, unaffected by variations in processing speed or gravitational load differences due to angles. With the end effector (ACF) utilizing ACT technology, dimensional tolerances and changes on freeform surfaces of the workpiece are automatically corrected at high speed through instantaneous stroke adjustments, maintaining constant contact with the set force on the workpiece. This technology enables an increase in the trajectory speed of devices and robots, thereby enhancing processing speed and improving cycle times. Additionally, it automatically corrects the gravitational load of the tool that varies with the robot's angle, ensuring a uniform contact pressure from any angle, allowing for a finish without processing inconsistencies. ◆Challenges addressed by automating polishing and grinding using our technology: - Increased work speed and improved cycle times, leading to reduced labor costs and profit generation. - Mitigation of the risk associated with the succession of skilled workers. - Relief for workers from the "three K" jobs (dirty, dangerous, and difficult). - High reproducibility and consistent work 24/7. - Reduction of consumable usage and cost savings through processing with constant contact force.

FerRobotics' Active Compliant Technology automatically corrects the "difference" in contact pressure (force) that occurs during polishing and grinding processes, which require skilled techniques, at high speed. This technology allows for consistent polishing/grinding at the set contact force, unaffected by variations in processing speed or gravitational load differences due to angles. With the end effector (ACF) utilizing ACT technology, it instantly adjusts to changes in dimensional tolerances, curved shapes, and non-flat surfaces by rapidly and automatically correcting the stroke's extension and contraction, maintaining contact with the workpiece at the set 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 through the extension and contraction of its stroke, eliminating the need to move the heavy robotic arm for corrections, which further assists in improving the processing speed of robotic polishing. Furthermore, it automatically corrects tool load variations caused by gravity changes due to the robot's angle, ensuring a consistent contact pressure from any angle and enabling a finish without processing inconsistencies.

FerRobotics' Active Compliant Technology automatically corrects the "difference" in contact pressure (force) that occurs during processing in polishing and grinding, which require skilled techniques, in response to dimensional tolerances, curved shapes, and non-planar surfaces of the workpiece, at high speed. It also automatically adjusts for gravitational loads, allowing for consistent polishing/grinding at the 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 ACF itself controls the contact pressure by adjusting its stroke, eliminating the need to move the heavy robotic arm for corrections, which further 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 contact pressure from any angle and enabling a finish without processing inconsistencies. Seeing is believing! Please check our website or YouTube (FerRobotics) for application example videos.

FerRobotics' Active Compliant Technology automatically corrects the "difference" in contact pressure (force) that occurs during processing in polishing and grinding, which require skilled techniques, in relation to dimensional tolerances, curved shapes, and non-planar surfaces of the workpiece, at high speed. It also automatically adjusts for gravitational loads, allowing for consistent polishing/grinding with a set contact force. This technology increases the speed at which devices and robots can move along their trajectories, thereby enhancing processing speed and improving cycle times. Additionally, in robotic polishing and grinding, the control of contact pressure is achieved through the expansion and contraction of the ACF itself, 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 corrects tool loads due to gravity, which varies with the robot's angle, ensuring a consistent contact pressure from any angle and enabling a finish without processing inconsistencies. Seeing is believing! Please check our website or YouTube (FerRobotics) for example application videos.

Automation is possible. The AAK405, 505, and 605 series can be selected from three types according to motor output and maximum pressing force levels. It supports all types of polishing, from single action to double action and polishing using paper. A paper changer is also available. This technology automatically corrects the "difference" in contact pressure (force) generated during polishing and grinding processes that require skilled techniques, allowing for consistent polishing/grinding at the set pressing force without being affected by fast processing speeds or gravitational load differences due to angles. With the end effector (ACF) using ACT technology, it maintains constant contact with the workpiece at the set force by instantly adjusting the stroke extension and contraction in response to dimensional tolerances, curved shapes, and non-flat surfaces of the workpiece. This technology can increase the speed of the device or robot's trajectory, thereby improving processing speed and cycle time. Furthermore, it automatically corrects tool load variations caused by gravity changes due to the robot's angle, ensuring uniform pressing pressure from any angle and enabling a finish without processing inconsistencies.

Complete control of pressing force with the end effector of high-speed automatic correction using our ACT technology. In the video, world-class companies (users) share their success stories. Repair polishing, which is necessary to remove dust and minor scratches mixed in after painting automotive bodies and resin parts without damaging the underlying surface, is a task that truly requires skilled craftsmanship. By utilizing FerRobotics' ACT to automate this expert-level polishing, we achieve a reduction in the workforce needed for expert polishing tasks. Additionally, by rapidly correcting and precisely maintaining the pressing force, we dramatically improve the consumption of consumables, significantly contributing to cost reduction. ■ Benefits: - Dramatic improvement in cycle time due to high-speed autonomous correction control of pressing force. - Automation of manual tasks requiring high skill, achieving reduction in labor costs. - Maintenance of high-quality standards, enabling polishing 24/7, 365 days a year. - Significant cost reduction by suppressing the consumption of consumables through high-speed autonomous correction control of pressing force. - Allowing robots to handle repetitive tasks. - Avoiding the risk of vibration-related issues through automation. - High ROI (return on investment), allowing for early recovery of capital investment.

Automation is possible. The AAK405, 505, and 605 series can be selected from three types according to motor output and maximum pressing force levels. It supports all types of polishing, from single action to double action and polishing using paper. A paper changer is also available. This technology automatically corrects the "difference" in contact pressure (force) generated during polishing and grinding processes that require skilled techniques, allowing for consistent polishing/grinding at the set pressing force without being affected by fast processing speeds or gravitational load differences due to angles. With the end effector (ACF) using ACT technology, it maintains constant contact with the workpiece at the set force by instantly adjusting the stroke length in response to dimensional tolerances, curved shapes, and non-flat surfaces of the workpiece. This technology can increase the speed of the device or robot's trajectory, thereby improving processing speed and cycle time. Additionally, it automatically corrects tool load changes due to gravity, which varies with the robot's angle, ensuring uniform pressing pressure from any angle and enabling a finish without processing inconsistencies.

Automation is possible. The AAK405, 505, and 605 series can be selected from three types according to motor output and maximum pressing force levels. It supports all types of polishing, from single action to double action and polishing using paper. A paper changer is also available. This technology automatically corrects the "difference" in contact pressure (force) generated during polishing and grinding processes that require skilled techniques, allowing for consistent polishing/grinding at the set pressing force without being affected by fast processing speeds or gravitational load differences due to angles. With the end effector (ACF) utilizing ACT technology, it maintains constant contact with the workpiece at the set force by instantly adjusting the stroke extension and contraction in response to dimensional tolerances, curved shapes, and non-flat surfaces of the workpiece. This technology can increase the speed of the device or robot's trajectory, thereby enhancing processing speed and improving cycle time. Furthermore, it automatically corrects tool load variations caused by gravity changes due to the robot's angle, ensuring uniform pressing pressure from any angle and enabling a finish without processing inconsistencies.

Complete control of pressing force with high-speed automatic correction by our technology ACT at the end effector. Successful cases are shared by world-class companies (users) in a video. Repair polishing, which is necessary to remove dust and minor scratches mixed in after painting automotive bodies and resin parts without damaging the underlying surface, is a task that requires skilled craftsmanship. By utilizing FerRobotics' ACT to automate this expert-level polishing, we achieve labor reduction in expert polishing tasks. Additionally, by rapidly correcting and precisely maintaining the pressing force, we dramatically improve the consumption of consumables, significantly contributing to cost reduction. ■ Benefits: - Dramatic improvement in cycle time due to high-speed autonomous correction control of pressing force. - Automation of highly skilled manual work, achieving reduction in labor costs. - Maintaining a high level of quality, enabling polishing 24/7. - Significant cost reduction by suppressing the consumption of consumables through high-speed autonomous correction control of pressing force. - Allowing robots to handle 3K jobs. - Avoiding the risk of vibration-related issues through automation. - High ROI (return on investment), allowing for early recovery of capital investment.