Applications

Assembly

“Fast Assembly, Continuous Solution“

Collaborative robots can work on assembly lines with high-quality and fast processing capacity for extended periods. By taking on challenging, hazardous, or exhausting tasks traditionally done by humans, robots enhance workplace safety. They ensure top-level efficiency in repetitive tasks such as drilling, nut tightening, part placement, and assembly. Thus, productivity is maximized while costs are minimized. Next-generation collaborative robots save energy consumption, contributing to energy efficiency. It becomes possible for production lines to perform more operations in less time and at lower costs. Assembly of materials such as plastic, wood, metal, etc., is safely accomplished within seconds.

Finishing

“Dynamic Adaptation, High Quality“

Collaborative robots can perform surface processing tasks with high quality and maximum precision. Our robots, which can easily adapt to the surface to be processed, offer the best quality solutions. In applications such as polishing, buffing, sanding, and blasting, they skillfully produce expertly processed surfaces, even on challenging surfaces, by applying the correct force. While ensuring maximum precision in your surface work, robots deliver a smooth surface finish. Businesses can achieve higher production volumes at lower costs due to the low energy consumption of the robots.

Machine Tending

“Top-Level Efficiency, Seamless Automation”

Collaborative robots are among the most crucial technologies that enhance mass production quality. In the realm of machining, our collaborative robots can work in harmony with CNC or injection molding machines. Processes such as placing parts to be processed into the machine and removing processed parts after completion can be seamlessly carried out through our collaborative robot arms. With the advanced motion capabilities and fast operation of robots, your factory stands out in mass production. This ensures productivity by reducing processing time. Our robots eliminate operator delays and errors, thus enhancing workplace safety.

Material Handling

“High Performance, Maximum Precision“

Collaborative robots are a highly popular technology used in various applications such as material handling, packaging, palletizing, stacking, and sorting in factories. Thanks to their robust and flexible structures, robots can swiftly transport materials. They demonstrate high performance in serial production centers by providing precise positioning. This allows businesses to elevate the full automation concept to the next level while ensuring efficiency.

Deburring

“Fast Operation, High Accuracy“

Collaborative robots can automatically clean defects and burrs formed on metal surfaces after manufacturing. Deburring is crucial for enhancing the quality of the part. Thanks to their ability to work quickly and precisely, robots ensure that parts achieve a clean appearance without any room for error. They are also highly suitable for applications such as grinding, milling, and more. While operating at high speed, robots prioritize quality. This results in increased efficiency in less time and at lower costs.

Quality Inspection

“Advanced-Level Quality, Trustworthy Technology“

Collaborative robots are highly successful technologies in quality control. Quality control, one of the most critical stages of the manufacturing process, can be performed efficiently and quickly by robots. Robots carry out quality control processes reliably, without missing any production errors. Automating quality control leads to fast results. As a result, businesses can reduce costs, increase efficiency, and save time.

Welding

“Top-Level Safety, High Success“

Collaborative robots are highly suitable for industrial welding processes. With their flexible motion capabilities and precise working abilities, they can successfully handle welding tasks. Collaborative robots ensure top-level safety while providing high-quality welding to parts. They can easily perform welding processes such as TIG, laser, MIG, ultrasonic, plasma, spot welding, and soldering. This increases the efficiency of production lines and reduces costs.

Adhesive Application

“Flexible Application, Quality Production“

Collaborative robots can easily handle tasks such as painting, gluing, sealing, and more, thanks to their flexible application and precise processing capabilities. Gluing processes hold significant importance in many industries, particularly in sectors such as automotive, aerospace, and furniture, where the quality and durability of products are vital. Collaborative robot arms reduce the risk of human error in these processes, enabling gluing operations to be performed more consistently and accurately.