Baldor GLC20, GLC60, GLC105, GLC45 Foundation Design Foundation Checklist, Vibration Isolators

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Foundation Design

WARNING: An open bottom stationary engine generator set must be installed over noncombustible materials and shall be located such that it prevents combustible materials from accumulating under the generator set.

Foundation Checklist

A. Evaluate if a separate, isolated foundation is required for the application. B. Observe local codes on soil bearing capacity freezing and thawing.

C. Design the separate foundation for the genset and specify the appropriate concrete mix. D. Determine if the application requires vibration isolators and if so, order as a factory option. The foundation must be strong enough to support the weight of the genset and its associated equipment, must prevent any deflection of the genset base and absorb vibration produced by the rotating and reciprocating masses.

Setting The Genset On An Existing Concrete Floor Slab

SIf an existing floor is used, the floor slab must be strong enough to carry 1.50 times the genset wet weight (including coolant and oil) to accommodate dynamic loads.

SThe actual mounting arrangement (ie., surface area in contact with the floor) will determine the compressive strength required.

SThe genset should be securely fastened to the floor slab with expansion anchors that fit the mounting holes shown on the genset installation diagram.

SFor installations not expected to be permanent, elastomer pad with non-slip surface placed between the base and the floor will also prevent movement.

SAny floor/slab surface should be as flat as possible to prevent sub-base deflection.

Vibration Isolators

SMounting to the pad, will result in overall reduced motion on other parts of the genset. The trade-off is that slightly more vibration is transmitted to the structure.

SA more common practice when mounting to a concrete pad is to use vibration isolators. The two most common types of vibration isolators are steel spring and elastomer pad. The primary purpose of vibration isolators is to reduce the noise and vibration which would be transmitted from the genset to the foundation or supporting structure.

SA simple and effective method of mounting and applying pad type isolators is to place non-skidding type isolation pads directly between the sub-base and floor.

The number of pads required will be determined by the load bearing capability of the pads and the genset's weight.

Figure 2‐1 Typical Installation of Spring Type Isolator

MN2408

General Information 2‐5

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Contents MN2408 GLC GeneratorCalifornia Proposition 65 Warning Table of Contents Troubleshooting and Maintenance Problems and Solutions Appendix aAppendix B Read This Manual Thoroughly Section Product Safety InformationOperation SymbolsOperation Warning Statements Burn Installation Battery Safety Maintenance Generator Series Labor Parts Limited WarrantyWarranty Period Any warranty coverage‐2 General Information MN2408 Site Planning Installation GuidelinesRoom Air Controls and Transfer SwitchEngine Cooling System Exhaust SystemFoundation Design Foundation Checklist Setting The Genset On An Existing Concrete Floor SlabVibration Isolators ‐2 Approximate Weight vs. kW Output Weight Of The Genset‐3 Calculate Soil Bearing Load SBL Capacity Designing An Isolated FoundationSoil Type Safe Bearing Capacity Lb per ft Kilo Pascals ‐5 Typical Foundation InstallationExhaust System ‐6 Exhaust System Calculations Exhaust Piping Transfer Switch Transfer Switch ChecklistTransfer Switch Location Battery Location Battery Starting SystemBattery Cables Battery Charger‐14 General Information MN2408 ‐1 Generator Lifting When the Generator is installed outdoorsSound ‐2 Mounting Dimensions‐3 Stub Up Detail Generator OpenVentilation Test Secure the GeneratorHot Exhaust Gasses Backpressure must not exceed 20 of water columnGuidelines for Exhaust System Page Fuel Connections ‐4 Fuel Consumption Natural and LPVGeneral Considerations Pipe Iron Pipe Size Length External Supply Piping by installerExample Determining Pipe Size for Natural Gas Natural Gas Connections‐6 LP Vapor Flow Rate Cubic Feet per Hour per Pipe Length Example Determining Pipe Size for LPVCatalog No Rating Transfer Switch Considerations Single Phase Power ConnectionsRemote Start AC Power Connections Ground Neutral L1L2 ConnectionsConnections General Wiring Considerations Battery Charger ConsiderationsGLC125 Recommended Engine Oil and Battery TypeGLC10-25 GLC100Post Installation Checks Post Installation Checks ‐16 Receiving & Installation MN2408 Digital Engine Controller Description EM0046A21 MRS17 ‐8 Alarm & Warning ConditionsDigital Engine Controller Description EM0046A21 MRS17 OFF ModeMAN Mode AUT ModeMenu Status Condition of Transition Action  Next State Adjustment MenuAlarm List ECU Alarm List‐10 Possible Warnings AlarmsSensor fail FLS see ‐10 Shut down SD see ‐10Used for shunt trip Inputs and Outputs‐11 Binary Inputs ‐12 Binary outputsSet points ‐13 Analog Inputs‐14 Basic Setpoints ‐15 Engine Setpoints During the first 500ms. ,1s Range 0 3s Delay for Analog Input 2 Wrn Wtemp low. s Range1-180 s‐15 Engine Setpoints ‐16 Engine Protect Setpoints‐17 Generator Protect Setpoints ‐19 IOM/PTM Module Setpoints ‐18 Sensor Spec Setpoints‐11 Controller Connection Diagram Jdic OFF Switch Alarm LEDSpeed Signal LED Run SwitchOperator Control Panel Manual Start/StopAutomatic Start/Stop Automatic Mains Failure AMF Automatic Fault ShutdownLoad Test Push-button Operation Utility Power Failure ConditionsUtility Power Restored Utility Normal ConditionNo Load Test Internal FaultsDigital Input Faults Fault Digital Inputs Name Action Terminal #‐15 Engine Controller Inputs & Outputs Fault Inputs Name Action Signal Analog FaultsFail Programmable Contacts Such as Fuel Rack Solenoids or electronic governorsCrank Engine starter motorAction Description Display Comments Name and remaining time Apply Power Main LCD DisplayReset faults Show Operating Status screensGenerator Average Output Display Generator Phase Voltage Display Line to LineGenerator Phase/Neutral Voltage Display Line to Neutral Generator Phase Current DisplayProgram Menus Navigation Hints Main Menu Loop Zero Calibration Voltage Calibration ProcedureRepeat for each phase Span CalibrationDisplayed values Engine Temperature & Oil Pressure Calibration Displays the type of calibration functionOil Pressure ‐16 Configuration Data Sheet Toggle Between Psi/Kpa Parameter Setting RangeSystem Voltage Line To Line 120-15000V ACParameter Setting ‐21 Engine Control Connections ‐34 Operation MN2408 Engine GeneralProblems and Solutions ‐1 General Troubleshooting GuideProblem Possible Cause Remedy ‐2 Troubleshooting Guide Digital Controller Only ‐3 Troubleshooting Guide Analog Controller Only ServiceVerify the adjustments. Replace controller if failed Options & Accessories A‐1 Battery ChargerInstallation Considerations BatteryFigure A‐2 Battery Heating Pad Installation BTHTR81 Heater Engine Block Heater Options & Accessories A‐3GLC10-25 GLC30-45 GLC60-90 GLC100-105 SilencersOptions & Accessories A‐5 Fuel Strainers & Fuel LinesFuel Strainer Stop Figure A‐6 InstallationRemote Annuciators Options & Accessories A‐7GLC80-100 Radiator Duct FlangeGenerator GLC30-60GLC60-90 H1=64.2, H2=76.8 Options & Accessories A‐9Enclosures GLC10-25 H1=36.0 L1=11.75 GLC30-45 H1=52.1, H2=66.6‐10 Series GLC MN2408 Series GLC B‐1 Qty per PhaseGLC Circuit Breaker & Electrical Data OSH PlantFigure B‐11 Customer Interface Connection Diagram Series GLC B‐3 Figure B‐13 Single Phase w/o Breaker Connection Diagram Series GLC B‐5 Figure B‐14 Single Phase One Breaker Connection DiagramFigure B‐15 Single Phase Two Breaker Connection Diagram Series GLC B‐7 ‐8 Series GLC MN2408 Series GLC B‐9 ‐10 Series GLC MN2408 Series GLC B‐11 Figure B‐20 Three Phase Connection DiagramFigure B‐21 Three Phase Connection Diagram with PMG Series GLC B‐13 ‐14 Series GLC MN2408 Series GLC B‐15 ‐16 Series GLC MN2408 Series GLC B‐17 Figure B‐27 Control Box Connections with MEC20 Controller Series GLC B‐19 Figure B‐29 Control Box Connections with MEC2 Controller Series GLC B‐21 Figure B‐30 Engine Wiring, Woodward 4.3L GMFigure B‐31 Engine Wiring, Woodward 5.7L GM Series GLC B‐23 Figure B‐32 Engine Wiring, Woodward 8.1L GM‐24 Series GLC MN2408 Baldor District Offices Baldor Electric Company MN2408