Robot Sepro 'link' Link
Sepro’s core programming was simple, hard-coded by a dying general’s last decree: Protect the territorial integrity of the Republic. Eliminate all transgressors. Obey the command chain.
A: Both are excellent. Yushin dominates high-speed side-entry. Sepro dominates 5-axis Cartesian and multi-brand IMM integration. The choice often comes down to local support availability.
1. Mechanical Configurations: 3, 5, and 6-Axis Architectures
Sepro's core expertise lies in Cartesian, or linear, robots. These systems operate on three primary axes (X, Y, Z), providing robust, high-speed, and precise movement. They are a staple on injection molding machines for tasks like part removal, degating, and simple assembly. The range is extensive, covering robots for small presses with 30 tons of clamp force up to massive units designed for 5,000-ton machines. robot sepro
Built for foundational automation, pneumatic and servo sprue pickers (such as the S5 Picker and SR series ) are meant for small IMMs. They offer high-speed, cost-effective extraction of sprues and basic parts, reducing relying on gravity drops. Sepro Group: A global leader in the plastics industry
For maximum flexibility, Sepro offers 6-axis articulated arm robots. These are perfect for applications requiring complex trajectories, such as overmolding, complex unloading, or post-processing operations. Key Advantages of Choosing Robot Sepro
Swipe to see how we're making "no-code" programming a reality for injection molders worldwide! ➡️ Sepro’s core programming was simple, hard-coded by a
control platforms are lauded for their user-friendly interfaces, allowing operators to program complex cycles without deep coding knowledge. Material Efficiency : Modern units like the ThundeRbot utilize carbon-fiber-reinforced composites
However, the Robot Sepro is no longer a simple "pick and place" machine; it has evolved into a complex node in the digital factory network. Modern iterations of Sepro robots are equipped with advanced servo-control technology and user-friendly interfaces that allow for complex programming. They can now perform secondary operations immediately after part removal, such as trimming, inspection, or packaging, effectively streamlining the production line. Moreover, their ability to integrate with Industry 4.0 protocols means they can communicate with the injection molding machine and central factory servers. They provide real-time data on production counts, energy usage, and potential maintenance needs. This intelligence transforms the robot from a mere tool into an active partner in process optimization, allowing engineers to tweak parameters remotely for maximum efficiency.
Pulling finished plastic parts out of the mold to prevent damage. Insert Molding: A: Both are excellent
pioneered easier robot programming nearly 20 years ago? 🕰️ Today, their
The company's position as Europe's number one supplier of robots to the plastics industry is a testament to its widespread adoption and trust. This leadership is built on a foundation of continuous innovation, moving beyond simple part removal to offering full-spectrum automation integration for complex manufacturing cells.