Ingersoll-Rand IRN75-160K-2S manual Blower motor Re−Grease, Main motor Re−Grease instructions

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10.0 MAINTENANCE

Blower motor Re−Grease

(N75−160 Aircooled units) 6 Months or 4000 Hrs

Apply high melting point grease into the blower motor drive end bearing using a grease gun at the nipple provided.

Stop when excess grease is seen at the relief port.

Main motor Re−Grease instructions

HPM 250L motor Re-Grease (N250/300N-2S units only) Every 2000 hours

Apply Exxon Polyrex - EM or Mobilith - CHC 220 grease into main motor drive end and non-drive end bearings using a grease gun at the nipple provided.

Drive end and non-drive end grease quantity 75 grams.

Stop when excess grease is seen at the relief port.

Coolant hoses

The flexible hoses that carry coolant through the cooling system may become brittle with age and will require replacement. Have your local Ingersoll Rand Distributor or Air Center inspect them every 3 months and replace them as needed or every 2 years.

Depending on the location of the hose, it may contain compressor coolant. It is recommended to drain the coolant into a clean container. Cover the container to prevent contamination. If the coolant is contaminated, a new charge of coolant must be used.

Remove the hose.

Install the new hose and refill the unit with coolant. Start the compressor, check for leaks and check coolant level. Refill as necessary

Pressure relief valve check

The pressure relief valve must be frequently tested and regularly maintained. Remove from the machine and check for the correct operating pressure. Adjust as necessary. If operating conditions are particularly severe, the frequency of testing and maintenance must be increased accordingly. A pressure relief valve check must also be performed at the end of any non−service period. The user must establish the frequency of such tests as it is influenced by such factors as the severity of the operating environment.

caution

High pressure air will discharge through the dis- charge ports of the valve during pressure relief valve check. Wear ample clothing, gloves, safety glasses and ear protection during valve testing.

Run the compressor for about 10 minutes by venting air from the system to let the unit warm up. With the unit running, test at or near the maximum operating pressure by opening the valve for the minimum period required to flush the valve seat free of debris. This can be accomplished by holding the test lever fully open or unscrewing the spring pressure retaining cap, depending on the type of valve installed. If there is no evidence of discharge or the valve does not fully close, discontinue use of equipment and contact a licensed contractor or qualified service personnel.

The pressure relief valve should also be tested and re−calibrated in accordance with any national or local codes that may exist. If no code exists, IR recommend that the pressure relief valve is recalibrated at intervals of one year.

Air filter change procedure

Unclip the retaining cap and withdraw the old element.

Fit the new element and refit the retaining cap.

Air filter change procedure N250/300H−2S

Loosen wing nut on top of inlet filter housing. Lift cover up and away to expose elements.

Carefully remove the old element to prevent dirt from entering the the compressor inlet.

Thoroughly clean the element housing and wipe all surfaces

Install new element and inspect to ensure that they have seated properly.

Install top of inlet filter housing.

Inspect the rubber seal on the retainer wing nut and replace seal if required.

Tighten wing nuts.

Aircooled Cooler Cleaning

Ensure that the compressor is isolated from the compressed air system and is vented of all pressure. When undertaking any work on the compressor always use certified lifting equipment and employ sound working principles.

Ensure that the main power disconnect switch is locked off and tagged.

Visually check the outside of the cooler cores to be certain that a complete cleaning of the cooler is required. Frequently, dirt, dust or other foreign material may only need to be removed with a vacuum to remedy the problem.

When the cooler is covered with a combination of oil, grease or other heavy substances that may affect the unit’s cooling, then it is recommended that the cooler cores be thoroughly cleaned on the outside.

If it is determined that the compressor operating temperature is higher than normal due to the external passages between the fins of the cooler cores being restricted with deposits of foreign material, then the cooler should be removed for cleaning.

86IRN37 - 160K - CC & IRN50 - 200H -CC & IRN75 - 160K - 2S & IRN100 - 200H - 2S & IRN 250 - 300H - 2S

http://air.irco.com

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Contents Operation and Maintenance Manual AIR Compressor Group Bonded Warranty & Registered Start UP Contents If in Doubt Consult Supervision ForewordSomer FOREWORD Abbreviations & Symbols Energy recovery systemERS F.CRotary Screw AIR Compressor Purchase Order DetailsThis unit was purchased from General Information SafetyCompressed air Materials Avoid INGESTION, Skin Contact Inhalation of FumesTransport ElectricalCondensate disposal Coolant disposalText Decals Discharge airLift here Rotation 39540257 RevCondensate Drain Electrical power inlet Safety Graphic Form and Meaning of ISO Symbols Prohibition / Mandatory Information / InstructionsDo not stand on any service valve or Safety Coolant Separator Pressure AIR Discharge Belt Tension Filter Motor Lubrication Receipt / Handling ReceiptIngersoll Rand Company Unpacking and HandlingInstallation Location in PlantFor technical information see section Ensure that the correct tie down points are usedInstallation Discharge and Condensate Piping Installation Electrical Fuse Type Installation Very ImportantExample of voltage imbalance calculation Adjusting the Aftercooler Trim Valve Cooling Water PipingModel Minimum cooling water requirement vs Range 50F 70FWater quality recommendations Orifice diameter in mm Installation SEA Watercooled Units Selected Units onlyPsi Outdoor Sheltered Installation General Information Technical INFORMATION-SINGLE StageMinimum ambient temperature C F Weight Kg lbs Cooling clean water flow l/min US 51/38 95/46Sound pressure level dBA Flow at 7.5 Barg m3/minCooling clean water flow l/min US 84/65 95/72 Max fuse size @ 380V − 415V aMax fuse size @ 440V − 480V a Max fuse size @ 550V − 575V aN132K N160K N200H General Information Technical Information − TWO Stage 5933 Flow at 100 psig cfm 11001690 1527Installation DRAWING−N37/45K−CC & N50/60H−CC − Air Cooled KEYInstallation DRAWING− N37/45K−CC & N50/60H−CC − Water Cooled Installation Drawing − N55/75K−CC & N75/100H−CC − Air Cooled Installation DRAWING−N55/75K−CC & N75/100H−CC−Water Cooled General Information General Information General Information General Information KEY 22381206 Revision B Equipment downstream of compressor 23128994 Revision a Stage onlyAir/coolant Coolant Condensate Cooling water W.C. only 22099006 Revision C General Information Process and Instrumentation Diagram N250−300H TWO Stage 22402135 Revision CPiping legend Wiring Schematic N37K − N45K-CC / N50-60h−cc a/c blower vfd Stop FDWires Numbers Function Wire colorWiring schematic n55-75k-cc / n75-100h-cc a/c Blower vfd Label DescriptionWires Numbers Function Wire color SS1-3Wiring schematic n37/45k-cc/n50/60h-cc w/c SgneColor Wiring schematic n55-75k-cc / n75-100h-cc W/c 23131345 Revision a4ATT SENSOR, Package AIR Discharge Temperature 4CTT 22093058 Wiring schematic n75-160k-cc / n125-200h-cc A/cRevision M F10 SGNeWiring schematic n75-160k-cc / n125-200h-cc W/c Revision E4SV VALVE, Water Stop 6APT Wiring schematic n250-300H 380-480V SG-Ne4ATT SENSOR, Package AIR Discharge Temperature 6APT General Information General Description Operating Instructions Basic OperationStopping the machine in an emergency Intellisys Controls ArrowsDisplay Screen Main MenuCurrent Status Screen Current Status itemsMain Menu Ready to StartOperator Setpoints Default MIN MAX Step Unit Operator SetpointsCondensate Interval Options Selection MIN MAXSensor Calibration Scheduled startAlarm History Clock FunctionsEnergy Status Messages Service Warnings Initial Check AlarmsAlarms Alarm Main MenuMaintenance Ultra Coolant Maintenance Procedures Prior to attempting any maintenance work, ensure that− Prior to starting Coolant level checking procedure Adding coolantCoolant filter change procedure Separator element checking procedureSeparator element change procedure Drain sequence for N250/300H−2SSeparator element change procedure for N250/ 300H−2S Scavenge screen clean/check procedureStart the compressor and check for leaks and coolant level Separator tank / Pressure systemAir filter change procedure Air filter change procedure N250/300H−2SAircooled Cooler Cleaning Blower motor Re−GreaseN50/100H N37/75K Watercooled Cooler Cleaning High Airend Temperature Sensor checking procedureCoolant Coolers AftercoolerBlower / fan Motor Bearing Maintenance Stored units Motor cowl cleaning N75−160 units onlyDrive Box Filter Removal / Replacement Moisture Separator Check / CleaningCoolant Sampling Procedure No Loss Drain Trap where fitted Check / CleaningFluid and Vibration Monitoring Fault Finding General FaultsSymptom Fault Remedy Compressor will not No power supply to packageCheck and modify settings Or not sealing correctly With correct coolantWith coolant’ See aboveRemove blockage, repair or replace damaged Fault Cause Remedy Pressure transducerFault Cause Action Drive FaultsIndicated on the INTELhYS Controller
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