Produced by the punching processmicronsGrade 2 dust and microscopic burrs, dust/The burr is like a "wedge" and a "stress amplifier",Directly cause lithium battery membrane puncture, optical membrane signal interference, photovoltaic modules,(Crystalline silicon or perovskite)Fatal defects such as hidden cracks lead to a sharp drop in product yield and safety risks.
Industry fatal pain point:Every particle is a ticking time bomb
n Lithium battery pole pieces:Burrs ≥ 20 μ m penetrate the diaphragm → cause explosion
n Optical film materials:0.5 μ m dust scattering optical path → yield dropped by 35%
n Photovoltaic module: edge cracks→ Power attenuation of 50%
Core technical principles
n Boundary layer control technology:Design gradient pressure field based on Prandtl boundary layer theoryBreak through traditional cleaning"Speed decay" magic spell to achieve continuous energy output▸
n eddy current- Laminar flow collaborative system: Use the Taylor vortex principle to build a multi-stage swirling flow to accurately capture micron particles, laminar flow covering technology prevents secondary scattering and improves dust removal efficiency8 times
n Digital Twin Control System:Based onCFD simulation to build digital twin model, optimize air flow parameters in real time to adapt to different material characteristics
Shocking performance data
Clearance accuracy: 0.2 μ m (exceeding the industry standard of 1 μ m)
Dust removal efficiency: 99.97%(third-party testing and certification)
Increase in yield rate: 3.2%(measured in Ningde era)
Reduced energy consumption: 50%(compared to traditional solutions)
Produced by the punching processmicronsGrade 2 dust and microscopic burrs, dust/The burr is like a "wedge" and a "stress amplifier",Directly cause lithium battery membrane puncture, optical membrane signal interference, photovoltaic modules,(Crystalline silicon or perovskite)Fatal defects such as hidden cracks lead to a sharp drop in product yield and safety risks.
Industry fatal pain point:Every particle is a ticking time bomb
n Lithium battery pole pieces:Burrs ≥ 20 μ m penetrate the diaphragm → cause explosion
n Optical film materials:0.5 μ m dust scattering optical path → yield dropped by 35%
n Photovoltaic module: edge cracks→ Power attenuation of 50%
Core technical principles
n Boundary layer control technology:Design gradient pressure field based on Prandtl boundary layer theoryBreak through traditional cleaning"Speed decay" magic spell to achieve continuous energy output▸
n eddy current- Laminar flow collaborative system: Use the Taylor vortex principle to build a multi-stage swirling flow to accurately capture micron particles, laminar flow covering technology prevents secondary scattering and improves dust removal efficiency8 times
n Digital Twin Control System:Based onCFD simulation to build digital twin model, optimize air flow parameters in real time to adapt to different material characteristics
Shocking performance data
Clearance accuracy: 0.2 μ m (exceeding the industry standard of 1 μ m)
Dust removal efficiency: 99.97%(third-party testing and certification)
Increase in yield rate: 3.2%(measured in Ningde era)
Reduced energy consumption: 50%(compared to traditional solutions)
