List of Articulated Robot products
- classification:Articulated Robot
526~540 item / All 876 items
Achieves high collection efficiency through electrostatic methods. Offers a wide range of products from large to small sizes. Also compatible with water-soluble oil mist.
- air conditioning
Do not leave 3K jobs for the next generation. Eliminate the shortage of skilled workers! Solve the recruitment difficulties! Provide industrial robots with human-like senses through high-speed autonom...
- Articulated Robot
Freely automate various surface processing with a tool exchange system. A polishing automation tool that robotizes buff polishing, mirror polishing, etc. Instant automatic correction for processing wi...
- Articulated Robot
Easy tool exchange enables various robotic polishing processes such as pre-processing, buff polishing, and mirror polishing! A polishing automation tool that realizes the automation and robotization of diverse surface finishing. Instant automatic correction allows 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. It also automatically compensates for gravitational loads, allowing for consistent grinding/polishing at the set pressing 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 pressing pressure through the expansion and contraction of its stroke, eliminating the need to move the heavy robotic arm for corrections, which further assists in improving processing speed. Furthermore, it automatically compensates for tool loads due to gravity, which varies with the angle of the robot, ensuring a consistent pressing force from any angle and enabling a finish without processing inconsistencies.
A game changer in grinding and polishing automation! The new standard in robotic polishing! Significant reduction in programming effort through high-speed automatic pressure adjustment control.
- Articulated Robot
High-speed autonomous correction of contact force, with autonomous correction of gravitational load as well. This enables an increase in the robot's trajectory speed and achieves fully automated polis...
- Articulated Robot
Ultimate performance! It can automatically adjust the most important pressure (applied force) for polishing in an instant, compensating for angles, workpiece warping, and curved surfaces, achieving un...
- Articulated Robot
High-speed autonomous correction of contact force and autonomous correction of gravitational load. Enables increased robot trajectory speed and allows for high-quality, stable automatic polishing with...
- Articulated Robot
Repair and polishing of automotive bodies and resin parts requiring highly skilled techniques. Sensitive contact with the workpiece using high-speed autonomous correction control of contact force. Aut...
- Articulated Robot
A success story in automotive body repair polishing with European automobile manufacturers! By utilizing FerRobotics' ACT for robotic automation of post-paint repair polishing, we achieve labor reduction in expert polishing tasks that require master-class polishing technology.
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.
Meet strict finishing quality requirements and reduce cycle time! Achieve high-quality automatic polishing with improved robot trajectory speed through high-speed autonomous correction of contact forc...
- Articulated Robot
High-speed autonomous correction of contact force, with autonomous correction of gravitational load as well. This enables an increase in robot trajectory speed and allows for high-quality, stable auto...
- Articulated Robot
Equipping industrial robots with human-like sensory perception (tactile sense) through high-speed automatic correction of contact force, automating polishing and grinding processes with the best quali...
- Articulated Robot
An end effector that enables automation systems for high-speed processing and high-quality finishing of skilled techniques (polishing, grinding) and hazardous tasks that have been given up until now.
- Articulated Robot
A game changer in grinding and polishing automation! Leaving no 3K jobs for the next generation. Solving the shortage of skilled workers. Building a polishing robot system that equips robots with human-like sensory capabilities through high-speed autonomous correction control of 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 with a 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 the dimensional tolerances, curved shapes, and non-flat surfaces of the workpiece 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 times. Additionally, in robotic polishing and grinding, the ACF controls the contact pressure through the extension and contraction of 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 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.
Automation of the artisan's techniques (polishing, grinding) and hazardous tasks that have been given up until now, with high-speed autonomous control and contact force control. Dramatic improvements ...
- Articulated Robot
A game changer in grinding and polishing automation! Leaving no 3K jobs for the next generation. Solving the shortage of skilled workers. Building a polishing robot system that equips robots with human-like sensory capabilities through high-speed autonomous correction control of 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 with a 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 the dimensional tolerances, curved shapes, and non-flat surfaces of the workpiece 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 times. Additionally, in robotic polishing and grinding, the ACF controls the contact pressure through the extension and contraction of 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 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.
Rich examples of robot polishing applications have been uploaded to the official Farobotics YouTube channel. Automatic polishing with high-speed automatic pressure correction solves management issues.
- Articulated Robot
Imagine robot polishing that suits your company through examples in Faro Robotics' application videos! A wealth of robot polishing application videos has been uploaded to Faro Robotics' official YouTube channel. Solve management challenges with automatic polishing using high-speed automatic pressure correction!
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 with a set contact force. End effectors equipped with this technology solve management challenges. This technology can increase the speed of devices and robots, thereby improving processing speed and cycle time. 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 assists in improving the processing speed of robotic polishing. Furthermore, it automatically compensates for tool load variations due to gravity changes based on 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.
Robot polishing of turbine blades and other curved surfaces requiring specialized techniques is possible with high-speed automatic pressure correction control. Gravity compensation is also implemented...
- Welding robot
- Articulated Robot
【FerRobotics】Exhibiting at the 2023 International Robot Exhibition! Displaying multiple types of robotic systems for polishing automation solutions! Achieving the automation of skilled tasks in polishing and grinding, which were previously considered impossible, while shortening cycle times and ensuring high-quality finishes.
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.
Automation of labor-intensive R-shaped and complex-shaped masking tasks without wrinkles or bubbles. Enabling automation of processes that were previously impossible to automate with high-speed operat...
- Articulated Robot
【FerRobotics】Exhibiting at the 2023 International Robot Exhibition! Displaying multiple types of robotic systems for polishing automation solutions! Achieving the automation of skilled tasks in polishing and grinding, which were previously considered impossible, while shortening cycle times and ensuring high-quality finishes.
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.