Fluidguard Machinery Equipment Co., Ltd. amy@aida-machinery.com
Call Us : 0086-15137376132
Model : 1311125600
Type : Oil Separators Filters
Replacement for : 1311125600
Automotive component manufacturing workshops, plastic injection molding factories, metal cutting & welding production lines, pharmaceutical packaging plants, food processing factories, mining pneumatic equipment air supply stations, electronics assembly workshops, medium-large electrostatic spray bo
Part numbers marked "replacement" are not affiliated with the original manufacture.
Part No: 1311125600
Core Technical Specifications
Core Function: Coalesce submicron lubricant oil aerosols from high-temperature oil-gas mixed exhaust inside compressor air receiver tank
Filter Media: Multi-layer imported gradient borosilicate microglass composite deep-pleated coalescing media
Separation Efficiency: ≥99.9% capture efficiency for 0.1 μm oil mist particles
Initial Differential Pressure: <0.02 MPa
Max Allowable Continuous Working Pressure: 1.4 MPa
Mandatory Replacement Alarm Threshold: Differential pressure ΔP ≥ 0.1 MPa
Key Product Advantages
Ultra-high coalescing efficiency reduces contamination load of downstream pipeline precision filters
Multi-layer gradient glass fiber media traps micro oil aerosols generated during screw compression. It drastically cuts oil pollution entering refrigerated dryers, medium/ultrafine coalescing filters and activated carbon adsorbers, extends service life of all downstream consumables and lowers overall factory maintenance expenditure.
Extra-large oil & dirt holding capacity supports long-hour full-load non-stop production
Deep-pleated microglass matrix stores massive oil sludge, carbon deposits and fine solid impurities without rapid pressure rise, perfectly matching continuous heavy-duty workshop operation 24/7.
Heat-stabilized glass fiber media avoids fiber shedding and secondary system contamination
High-temperature cured borosilicate media remains stable under sustained 105°C oil-gas mixing temperature, no softening or pulverization. Zero glass fiber debris enters air pipelines to block solenoid valves, spray nozzles and industrial laser optical lenses.
Low permanent differential pressure design cuts compressor power consumption
Uniform gradient pore layout maintains minimal airflow resistance throughout the full service cycle. Stable low backpressure decreases continuous load of the main motor and slashes long-term workshop electricity expenses.
Working Principle
High-temperature mixed oil-gas flow passes through the separator cartridge from outside to central inner core:
Large oil droplets collide with outer perforated galvanized support mesh, coalesce and flow back to the compressor oil tank by gravity;
Submicron oil aerosols are captured layer by layer via gradient microglass media, merged into large liquid oil droplets and flow downward for recovery;
Dry compressed air with residual oil below 3 ppm flows through the central tube to post-processing air pipelines;
All trapped sludge and solid contaminants are locked inside separator media to prevent secondary circulation pollution of the lubrication system.
Application Industries
Automotive component manufacturing workshops, plastic injection molding factories, metal cutting & welding production lines, pharmaceutical packaging plants, food processing factories, mining pneumatic equipment air supply stations, electronics assembly workshops, medium-large electrostatic spray booth air supply systems.