Control

Module：FSKSD-80L The working principle of the electric cylinder is to use electricity as the direct power source, and adopt various types of motors (such as AC servo motor, stepper servo motor, DC servo motor) to drive different forms of screws (or nuts) to rotate.

Module：FSKP The type in which the Z axis (vertical axis) is installed upright on the X axis.Use environment: It can be used in occasions such as inserting workpieces into shelves or lifting trays. Modular orthogonal architecture design Multimodal intelligent collaboration Full-scenario adaptability

Module：FSKSM-140 Maximum horizontal load weight: 70KG.Available stroke: 50-1500MM

FSKS-120 Maximum horizontal load: 60KG.Repeat positioning accuracy: ±0.02/0.01mm High-precision performance High-speed motion capability High-load design Long life and low maintenance Modularity and compatibility

1. Flexible Production Adaptation Rapid Reconfiguration of Production Lines: Through its modular design, modular robots can quickly replace end effectors (such as grippers and welding guns), adapting to the demands of high-variety, small-batch production. They are particularly well-suited for industries such as 3C electronics and automotive parts that require frequent process switching. Low-Cost Automation: Compared to traditional industrial robots, modular robots offer a lower investment threshold. Small and medium-sized enterprises can implement partial automation through modular assembly, shortening their return on investment (ROI). 2. High-Precision Assembly and Processing Precision Operation: Equipped with high-resolution tactile sensors (e.g., over 1,000 sensing points per square centimeter) and sub-micron joint feedback, they can perform micron-level tasks such as chip packaging and medical device assembly. Complex Process Integration: In automotive manufacturing, modular robots can collaboratively complete complex processes such as door welding and glass gluing, improving consistency.