PEM Electrolyzed Water & All Vanadium Cell Stack Assembly Servo Press – Precision Assembly for Advanced Energy Solutions
Unlock the power of high-precision assembly with our PEM Electrolyzed Water / All Vanadium Cell Stack Assembly Servo Press, specifically engineered for the demanding requirements of renewable energy and fuel cell manufacturing. Tailored for PEM electrolyzers and all-vanadium redox flow batteries, this servo press ensures exceptional accuracy, consistency, and durability in each stack assembly.
Key Features:
High-Precision Servo Control
Achieve meticulous accuracy in pressure and alignment, crucial for PEM electrolyzers and vanadium redox flow cell assemblies. Our servo technology ensures consistent force for optimal stack integrity and longevity.
Tailored for Energy Cell Stacking
Engineered for the unique demands of PEM water electrolysis and vanadium cell stacks, this press guarantees secure and uniform stacking, enhancing performance in energy storage and hydrogen production applications.
Consistent, Reliable Performance
With advanced pressure control and real-time monitoring, achieve consistent assembly quality in every cycle, reducing material waste and optimizing component lifespan.
Optimized Efficiency
Streamline your production line with fast, automated operations, specifically adapted for the high precision required in the renewable energy sector.
Compact, Robust Design
The compact form factor integrates smoothly into production lines, with a robust structure that supports long-term, reliable operation in high-demand environments.
Why Choose Our Stack Assembly Servo Press?
Backed by advanced servo technology, our PEM Electrolyzed Water / All Vanadium Cell Stack Assembly Servo Press delivers the precision and consistency needed for energy cell manufacturing. It’s an ideal solution for those looking to elevate product quality and operational efficiency in the renewable energy field.
Parameters | UNIT | SPEM 40/60T | SPEM 40/100T | SPEM 50/200T | SPEM 70/315T |
Nominal pressure | KN | 600 | 1000 | 2000 | 3150 |
Compression spring force | KN | 400 | 400 | 500 | 700 |
Reactor size Length | mm | 400-700 | 500-800 | 600-800 | 700-1500 |
Width | mm | 400-700 | 500-800 | 600-800 | 700-1500 |
Height | mm | 400-1000 | 400-1200 | 400-1200 | 500-1500 |
Maximum stroke | mm | 900(configurable) | 1500 | ||
Maximum opening | mm | 1300(configurable) | 1750 | ||
Upper head size L&R | mm | 350(configurable) | |||
F&B | mm | 350(configurable) | |||
Compression spring size L&R | mm | 400(configurable) | |||
F&B | mm | 700(configurable) | |||
Effective size of workbench L&R | mm | 1300(configurable) | 2200 | ||
F&B | mm | 1000(configurable) | 1600 | ||
Parallelism | mm | ±0.02 | ±0.03 | ||
Flatness | mm | ±0.02 | |||
Moving distance of mobile station | mm | 10000-20000 | |||
Stroke control accuracy | mm | 0.05 | |||
Pressure control accuracy | mm | ±0.01 | |||
Display accuracy | mm | ±0.001 | |||
Boundary dimensions of stack products | mm | 1500(Length)*1000(Width)*2000(Height) | |||
Total number of stacked pieces | 800 |