AF2000 1/4" AF Air Filter
description1
AF2000 1/4" AF Air Filter
AF2000 1/4" AF Air Filter
NANPUAF2000 1/4" AF Air Filter
| AF | 2000 | BSP | D | |
| Series Number | Body Size | Port Size | Thread Type | Drainage Method |
| 2000 | 1/4" | BSP | Blank: Differential Pressure Drain | |
| 3000 | 3/8" | NPT | A: Manual Drain | |
| 4000 | 1/2" | PT | D: Auto Drain |
NANPUTechnical Specifications
| Model | Model | Specification |
| Manual Drain | Auto Drain | (L/min)Rated Flow Rate |
| AF2000 | AF2000-D | 650 |
| BF2000 | BF2000-D | 1400 |
| BF3000 | BF3000-D | 1400 |
| BF4000 | BF4000-D | 1400 |
| Max Input Pressure | 1.0Mpa{10.2kgf/cm²} 145Psi |
| Max Operating Pressure | 1.0Mpa{10.2kgf/cm²} 145Psi |
| Temperature Range | 5~60℃ |
| Filtration Accuracy | 5μm、40μm |
| Bowl Material | Polycarbonate |
| Bowl Guard | AF2000(None)BC2000-4000(YES) |
All calibration assemblies shall be manufactured and assembled in strict compliance with maximum flow rate specifications. Such adherence is critical to ensuring optimal performance, reliability, and efficiency of the compressed air system. Rigorous compliance with these requirements ensures unimpeded system operation, mitigating risks of operational inefficiencies or failures.
Prior to installation, mandatory comprehensive cleaning of all ports and fittings is required. Utilize appropriate industrial - grade cleaning agents and tools to thoroughly remove dust, debris, or contaminants. This meticulous cleaning process serves as a vital preventive measure, effectively inhibiting particulate ingress into the air pathway that could cause blockages or performance degradation.
During installation, meticulously verify that the air flow direction aligns with the arrow markings on the product body. Additionally, conduct careful inspection and confirmation of precise port dimension and thread size matching to ensure secure, leak - tight connections. Any deviations in these parameters may result in system malfunctions and compromised operational performance.
The filtration process of this system functions in an automated mode, utilizing advanced mechanical and aerodynamic principles to ensure continuous and efficient purification of the compressed air stream. Central to this process is a high-performance 5-micron filter element, serving as the primary barrier against a diverse range of contaminants. Precision-engineered, this filter element effectively traps and removes sediment, suspended solids, colloidal particles, rust, and various other particulate matter present in the air. Through a combination of mechanical straining and adsorption mechanisms, it delivers thorough purification, protecting downstream equipment from abrasive particle damage and ensuring the supply of clean, high-quality compressed air that adheres to strict industrial standards.
The drainage column incorporates a self-regulating mechanism engineered to optimize moisture management within the system. In the absence of air pressure, the column automatically activates the drainage process, expelling accumulated condensate to prevent waterlogging. Conversely, upon the initiation of air flow, the column immediately seals to ensure the pressurized air stream remains unimpeded and free from moisture contamination. Critical monitoring of the water level in the drainage system is required; should it exceed the specified upper limit, immediate manual drainage must be performed. Failure to address this can compromise dehumidification performance, potentially causing reduced system efficiency, component corrosion, and operational interruptions. Regular inspection and timely drainage are essential to maintaining the integrity and functionality of the overall system.