Fluidguard Machinery Equipment Co., Ltd. amy@aida-machinery.com
Call Us : 0086-15137376132
Model : 9.4517.1
Type : Coalescing Filters
Replacement for : 9.4517.1
General metal machining workshops, small laser marking equipment, textile printing, packaging automation lines, small standalone scroll compressor stations, pneumatic test benches, plastic injection molding auxiliary air supply, small food packaging equipment.
Part numbers marked "replacement" are not affiliated with the original manufacture.
Part No: 9.4517.1
Core Technical Specifications
Filter Media Structure: Multi-layer deep-pleated gradient borosilicate glass fiber composite, outer green oleophobic anti-static hydrophobic drainage foam sleeve to prevent liquid re-entrainment
Mounting Interface: Exclusive central mandrel bayonet twist-lock quick connection
Overall Dimensions: Total length 218 mm, Outer Diameter 76 mm
Continuous Operating Temperature: 3°C ~ 66°C
Standard Replacement Cycle: 4,000 operating hours under standard industrial conditions; up to 8,000 hours in clean low-humidity workshops
Differential Pressure Replacement Thresholds
Initial differential pressure of new element: ≤0.012 MPa
Mandatory replacement alarm setpoint: ΔP ≥ 0.06 MPa
Sealing & Support Construction
End Caps: Corrosion-resistant black PA polyamide locking end cap
Sealing Ring: Integrated full-circle NBR nitrile rubber gasket, zero air bypass leakage, resistant to compressor oil and acidic condensate
Inner & Outer Support Cage: Double-layer perforated 1.4301 / 304 stainless steel mesh, anti-collapse under full rated continuous airflow
Key Product Advantages
Second-stage fine polishing barrier to protect downstream KD ultrafine and KA carbon filter elements
Installed after KB basic particulate prefilter, this KE fine coalescer intercepts bulk condensed water, medium oil droplets and most micron-level oil mist that pass the primary filter. It drastically reduces liquid contamination load on terminal KD ultrafine coalescer and KA activated carbon cartridges, extends their service life and cuts overall system maintenance & spare parts expenditure.
Deep-pleated fiber media with large liquid holding capacity for stable long-cycle operation
Optimized multi-fold borosilicate fiber structure expands effective filtration surface area and oil/water retention volume. It resists rapid pressure rise in high-humidity workshops with underperforming aftercoolers, minimizing unplanned production downtime for filter replacement.
Zero fiber shedding integrated design, eliminates secondary pipeline contamination
Heat-stabilized integrated borosilicate microfiber composite combined with full stainless steel cladding cage prevents fiber detachment under continuous medium-flow airflow impact. No glass fiber debris will contaminate laser cutting machines, general pneumatic automation equipment and small spray stations.
Ultra-low permanent differential pressure to reduce compressor energy consumption
Uniform gradient pore distribution minimizes airflow resistance throughout the full service cycle. Stable low backpressure cuts continuous power draw of small screw/scroll air compressors and reduces long-term factory electricity operating expenses.
Working Principle
Pre-cleaned compressed air flows through the filter cartridge from outside to inside:
Residual large condensed water droplets and fine solid particles are blocked by the outer green hydrophobic drainage foam layer;
Medium oil & water micron aerosols collide, merge and form large separable liquid droplets while passing through multi-layer gradient borosilicate glass fiber media;
The outer anti-re-entrainment foam prevents coalesced liquid droplets from being re-carried into high-speed compressed airflow;
Application Industries
General metal machining workshops, small laser marking equipment, textile printing, packaging automation lines, small standalone scroll compressor stations, pneumatic test benches, plastic injection molding auxiliary air supply, small food packaging equipment.