Traditional purging causes secondary pollution,Because ofThere is a vacuum blind area in the "distance attenuation effect" adsorption, which cannot solve the problem of dust removal from deep holes on ultra-thick pallets.
Fatal pain points in the industry:300 mm deep hole becomes a restricted area for cleaning
l Traditional purging: The air flow forms turbulence in the hole, and the dust is scattered and causes secondary pollution.
l Vacuum adsorption: Present"Distance attenuation effect", 100 mm external adsorption force attenuates 90%
l Contact cleaning: Scratch precision components, resulting in a single loss of more than 10,000 yuan
Core advantage-matterExtreme Challenge:
■ Overcome the problem of depth attenuation and effectively clean the depth of 300 mm
■ Non-contact processing to prevent device surface damage
■ The flow field is accurately controllable without secondary pollution
■ Integrated design, can be installed online, and the beat matches the production line.Systematically solved the problem of deep hole cleaningThe four major problems of "stripping","lifting","transportation" and "removal". It can provide "systematic solutions" and "hydrodynamics simulation based professional design empowerment".
Core theoretical mechanism
l Kenda Effect (Coanda Effect):The airflow adheres and moves along the curved surface to achieve complex structures0 Blind area coverage,Break through traditional cleanDistance attenuation limit
l Venturi- Eddy current synergy mechanism:Ultra-strong vortex generation≥ 100 m/s shear air flow to strip sub-micron particles
,Venturi effect builds a negative pressure trap area to realize instantaneous dust transportation
l Electrostatic neutrality priority principle:The wind curtain takes the lead in neutralizing surface charges and eliminating Coulomb adsorption force,Improved dust removal efficiency5 times
l Boundary layer control technology:Design gradient pressure field based on Prandtl boundary layer theory,Achieve continuous energy output and avoid cleaning dead spots
Traditional purging causes secondary pollution,Because ofThere is a vacuum blind area in the "distance attenuation effect" adsorption, which cannot solve the problem of dust removal from deep holes on ultra-thick pallets.
Fatal pain points in the industry:300 mm deep hole becomes a restricted area for cleaning
l Traditional purging: The air flow forms turbulence in the hole, and the dust is scattered and causes secondary pollution.
l Vacuum adsorption: Present"Distance attenuation effect", 100 mm external adsorption force attenuates 90%
l Contact cleaning: Scratch precision components, resulting in a single loss of more than 10,000 yuan
Core advantage-matterExtreme Challenge:
■ Overcome the problem of depth attenuation and effectively clean the depth of 300 mm
■ Non-contact processing to prevent device surface damage
■ The flow field is accurately controllable without secondary pollution
■ Integrated design, can be installed online, and the beat matches the production line.Systematically solved the problem of deep hole cleaningThe four major problems of "stripping","lifting","transportation" and "removal". It can provide "systematic solutions" and "hydrodynamics simulation based professional design empowerment".
Core theoretical mechanism
l Kenda Effect (Coanda Effect):The airflow adheres and moves along the curved surface to achieve complex structures0 Blind area coverage,Break through traditional cleanDistance attenuation limit
l Venturi- Eddy current synergy mechanism:Ultra-strong vortex generation≥ 100 m/s shear air flow to strip sub-micron particles
,Venturi effect builds a negative pressure trap area to realize instantaneous dust transportation
l Electrostatic neutrality priority principle:The wind curtain takes the lead in neutralizing surface charges and eliminating Coulomb adsorption force,Improved dust removal efficiency5 times
l Boundary layer control technology:Design gradient pressure field based on Prandtl boundary layer theory,Achieve continuous energy output and avoid cleaning dead spots
