Parker 932656Q Filter Element

Description

Parker 932656Q Filter Element – 80CN Series Medium Pressure Filter, Nitrile Seal & 02Q Microglass Media

## Product Basic Information
– **Model**: 932656Q
– **Product Series**: Parker CN Series Replacement Filter Elements
– **Compatible Housing**: 80CN Filter Housing
– **Length Specification**: Length 1 (Short Size)
– **Filter Element Type**: 02Q Microglass (Ultra-Precision Glass Fiber Media Conventional Filter Cartridge)
– **Sealing Material**: Nitrile
– **Micron Rating**: 2 µm

## Core Product Advantages

### 1. Genuine 02Q Microglass Ultra-Precision Media + Short-Size Design, Balancing Micron-Level Filtration & Compact Space Adaptation
As an authentic filter element from Parker’s Hydraulic & Industrial Process Filtration Division EMEA, the 932656Q integrates 02Q Microglass ultra-precision glass fiber media with the Length 1 short-size specification. It delivers core performance of “micron-level impurity interception + flexible installation in narrow spaces” for the 80CN filter housing. Its 2 µm filtration accuracy efficiently captures tiny harmful impurities of 2 µm and above in hydraulic oil—including 2-3 µm metal particles from hydraulic servo valve wear, 1-2 µm colloidal impurities from hydraulic oil oxidation, and 2-4 µm metal dust remaining from equipment assembly. This prevents “progressive abrasive wear” to high-precision hydraulic components such as servo valves and precision piston pumps.

The short-size design perfectly fits the compact installation space of the 80CN housing, making it ideal for scenarios with dense internal oil circuits and limited installation height—such as branch circuits of large hydraulic stations, integrated hydraulic modules, and hydraulic compartments of mobile equipment. No extra space for long-size filters is required, solving the pain points of “bulky ultra-precision filters being hard to install” and “insufficient fine filtration in compact oil circuits” while achieving dual optimization of “ultra-precision protection” and “efficient space utilization”.

### 2. 2 µm Ultra-Precision Filtration Accuracy, Covering High-Flow Medium-Pressure Precision Hydraulic Scenarios
A 2 µm micron rating is optimized for high-flow hydraulic systems that “pursue extreme cleanliness,” and it widely adapts to the medium-pressure working conditions of the 80CN housing:
– In the hydraulic circuit of automotive component precision stamping production lines, it filters tiny metal debris to ensure the surface smoothness of stamped parts reaches Ra ≤ 0.8μm, meeting micron-level processing standards for automotive components.
– In the hydraulic control system of electronic component injection molding machines, it intercepts tiny plastic melt impurities to avoid micro-defects (e.g., pinholes, material shortages) in injection-molded parts, ensuring precision molding of electronic components.
– In the hydraulic feed system of high-precision machine tools, it filters guide rail wear particles to maintain the machine tool’s positioning accuracy at ±0.001mm, improving part processing precision.

Compared to 5 µm filter elements, the 932656Q improves filtration efficiency by 65% and stabilizes oil cleanliness at NAS Class 6, meeting the high-level cleanliness standards of the ISO 4413 hydraulic system. Although its oil flow resistance is slightly higher than that of coarse-precision filters, the optimized flow channel structure of the short-size design still enables it to adapt to a high-flow range of 0-600 L/min (matching the flow requirements of the 80CN housing), avoiding excessive system pressure loss. It is the “core filter element for high-flow medium-pressure precision hydraulic scenarios”.

### 3. Nitrile Rubber Seal for Conventional Conditions, Balancing Precision & Economy
The seal is made of Nitrile (nitrile rubber), which offers excellent mineral oil resistance and elasticity. It maintains a tight seal within a temperature range of -40 to 100°C (-40 to 212°F) and supports a maximum working pressure of 70 bar (1015 psi), making it fully compatible with the working conditions of most conventional precision equipment:
– In precision machine tools and injection molding machines using mineral oil, nitrile rubber seals exhibit stable oil swelling resistance, with a service life of over 1,800 hours.
– In constant-temperature workshops or outdoor non-extreme environments (e.g., electronic factory production in spring, precision equipment maintenance in autumn), it retains good elasticity and zero leakage risk.
– Compared to fluoroelastomer seals, nitrile rubber has lower procurement costs and requires no additional investment for extreme temperature compatibility. It provides a “precision protection + economical and reliable” sealing solution for high-flow medium-pressure precision hydraulic systems, especially suitable for precision manufacturing enterprises that require high filtration accuracy but have controlled budgets.

### 4. Short-Size Design Compatible with 80CN Housing, No Equipment Modification Needed
The Length 1 short-size specification is precisely engineered to match the interface of the 80CN filter housing. It can be directly installed into the 80CN housing’s standard slot—no equipment pipeline modifications, hydraulic module layout adjustments, or housing replacements are required. This design easily adapts to diverse setups: branch circuits of large hydraulic stations, integrated hydraulic units of precision equipment, and mobile devices with strict installation space constraints.

The installation process aligns with that of conventional short-size filters, allowing maintenance staff to perform quick replacements without special training. Enterprises can upgrade to ultra-precision filtration without incurring extra equipment modification costs. Additionally, the short-size design, combined with the uniform fiber distribution of 02Q Microglass media, ensures even oil distribution inside the filter, eliminating sudden drops in filtration efficiency caused by local impurity accumulation. Its filtration stability is 40% higher than that of ordinary short-size precision filters, balancing “installation convenience” and “filtration reliability” while reducing the maintenance difficulty of precision equipment.

### 5. Controllable Full-Cycle Maintenance Costs, Reducing Burden on High-Flow Precision Equipment
The 932656Q reduces maintenance costs for enterprises’ high-flow medium-pressure precision hydraulic systems through multiple advantages:
– **Fluid Compatibility**: It works with mineral oils, vegetable oils, and some synthetic oils, eliminating the need to stock separate filters for different oil types and reducing inventory categories and capital occupancy.
– **Multi-Equipment Adaptability**: Its 2 µm ultra-precision covers the filtration needs of multiple precision devices (e.g., precision punch presses, electronic injection molding machines, high-precision machine tools), reducing the variety of filters purchased.
– **Extended Replacement Cycles**: The high dirt-holding capacity of 02Q Microglass media (90% higher than ordinary glass fiber media) combined with the short-size design extends the replacement cycle by 50% compared to ordinary short-size filters of the same precision. This reduces 4-5 annual maintenance shutdowns and lowers labor costs and equipment downtime losses.
– **Economical Sealing**: The cost-effectiveness and conventional-condition adaptability of nitrile rubber further control the overall filter usage cost.

Moreover, its original Parker quality avoids the “precision component wear-equipment overhaul” cycle caused by non-genuine precision filters (e.g., substandard precision, media shedding), cutting maintenance costs for core components like servo valves and precision piston pumps (single maintenance cost savings can reach hundreds of thousands of yuan). It is a “cost-effective precision filtration choice” for high-flow medium-pressure precision hydraulic systems of precision manufacturing enterprises.

## Application Scenarios & Industries

### Core Application Fields
– **Hydraulic Circuits of Automotive Component Precision Stamping Lines**: Suitable for hydraulic systems of automotive chassis and engine precision stamping production lines. It filters 2 µm+ metal debris and colloidal impurities to ensure the surface roughness of stamped parts reaches Ra ≤ 0.8μm, reducing scrap caused by impurities and increasing the product qualification rate to over 99.8%.
– **Hydraulic Control Systems of Electronic Component Injection Molding Machines**: Used in hydraulic control circuits of injection molding machines for precision electronic components (e.g., mobile phone casings, chip brackets). It intercepts 2 µm+ plastic melt impurities and oxidized particles to avoid micro-defects (e.g., pinholes, flash) in injection-molded parts, meeting precision molding requirements for electronic components (dimensional tolerance ≤ ±0.01mm).
– **Hydraulic Feed Systems of High-Precision Machine Tools**: In the hydraulic feed circuits of CNC lathes and machining centers, it filters 2 µm+ guide rail wear particles and metal dust to maintain the machine tool’s positioning accuracy at ±0.001mm, improving part processing precision and reducing rework caused by precision deviations (rework rate reduced to below 0.5%).
– **Branch Precision Circuits of Large Hydraulic Stations**: As a supporting filter for the 80CN housing, it provides filtration for branch precision oil circuits of large hydraulic stations (e.g., hydraulic stations for aerospace component processing). It maintains oil cleanliness at NAS Class 6, prevents cross-contamination between precision devices, and extends hydraulic system failure intervals to over 8,000 hours.
– **Precision Hydraulic Equipment in Compact Spaces**: Adapted to precision hydraulic modules of equipment with compact internal spaces (e.g., semiconductor manufacturing equipment, medical surgical robots). The short-size design saves 30% of module internal space, while 2 µm ultra-precision filtration ensures stable continuous operation of the equipment, meeting high-capacity and high-stability production needs.

### Covered Industries
– **Automotive Manufacturing**: Precision stamping and forming equipment for automotive components—adapting to high-flow medium-pressure precision hydraulic needs and ensuring component processing accuracy (e.g., engine blocks, chassis connectors).
– **Electronic Manufacturing**: Precision injection molding machines for electronic components and semiconductor packaging equipment—intercepting tiny impurities and ensuring the quality of electronic components (e.g., chips, sensors).
– **Precision Machinery**: High-precision machine tools and machining centers—protecting hydraulic feed systems and improving the processing precision of parts (e.g., aerospace components, mold accessories).
– **Aerospace**: Hydraulic stations for aerospace component processing—meeting high-cleanliness hydraulic needs and ensuring the precision manufacturing of aerospace parts (e.g., engine blades, airframe structural parts).
– **Medical Devices**: Hydraulic systems of medical equipment (e.g., surgical robots, imaging equipment)—adapting to compact spaces and long-cycle operation, ensuring stable and reliable equipment performance (failure downtime rate ≤ 0.1%).

## Product Technical Parameters
– **Model**: 932656Q
– **Product Series**: Replacement Elements – CN Series
– **Filter Type**: Medium Pressure Inline Filter
– **Compatible Housing**: 80CN Filter Housing
– **Length**: Length 1
– **Filter Element Type**: 02Q Microglass (Conventional Filter Cartridge with Glass Fiber Media)
– **Sealing Material**: Nitrile
– **Micron Rating**: 2 µm
– **Maximum Working Pressure**: 70 bar (1015 psi)
– **Operating Temperature Range**: -40 to 100°C (-40 to 212°F)
– **Suitable Fluids**: Mineral oils, vegetable oils, and some synthetic oils
– **Adaptable Flow Rate Range**: 0 to 600 L/min (matching flow requirements of 80CN housing)
– **Core Features**: 02Q Microglass ultra-precision filtration media, 2 µm extreme protection precision, nitrile rubber seal for conventional conditions, short-size compact design