Lincoln Electric SVM123-A ARC Striking with Idealarc DC-1000 and the NA-3 Start Board

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B-7

OPERATION

B-7

 

 

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GOOD ARC STRIKING GUIDELINES FOR THE NA-3 WITH THE IDEALARC DC-1000 IN THE CV INNERSHIELD®, CV SUBMERGED ARC OR VV (CC) WELDING MODES.

Following are some basic arc striking techniques that apply to all wire feed processes. Using these proce- dures should provide trouble-free starting. These pro- cedures apply to single, solid wires and Innershield® wires.

1.Cut the electrode to a sharp point.

2.Set the NA-3 Open Circuit Voltage Control to the same dial setting as the Arc Voltage Control. If this is a new welding procedure, a good starting point is to set the Open Circuit Voltage Control to #6.

NOTE: The open circuit voltage of the IDEALARC DC-1000 varies from approximately 25 volts to 75 volts in the CV Innershield or CV Submerged Arc modes. The open circuit voltage is constant in the VV (CC) mode.

3.Run a test weld. Set proper current, voltage, and travel speed.

a.For the best starting performance, the NA-3 Open Circuit Voltage Control and Voltage Control setting should be the same. Set the Inch Speed Control for the slowest inch speed possible.

b.To adjust the Open Circuit Voltage Control to get the best starting performance, make repeated starts observing the NA-3 volt- meter.

When the voltmeter pointer swings smoothly up to the desired arc voltage, without undershooting or over- shooting the desired arc voltage, the Open Circuit Voltage Control is set properly.

If the voltmeter pointer overshoots the desired voltage and then returns back to the desired voltage, the Open Circuit Voltage Control is set too high. This can result in a bad start where the wire tends to “Blast off.”

If the voltmeter pointer hesitates before coming up to the desired voltage, the Open Circuit Voltage Control is set too low. This can cause the electrode to stub.

4.Start and make the weld.

a.Cold starts. For cold starts, be sure the work piece is clean and the electrode makes positive contact with the work piece.

b.Hot “On the Fly” starts. For hot starts, trav- el should begin before the wire contacts the work piece.

ARC STRIKING WITH IDEALARC DC-1000 AND THE NA-3 START BOARD

When electrical strikeouts exceed 1 3/4” (44.4 mm) an NA-3 Start Board may be required to improve arc striking. When the NA-3 Start Board is used to improve arc striking, use the following procedures:

1.Set start time at 0.

2.Set NA-3 start current and start voltage at mid range.

3.Set the NA-3 output current and voltage to the proper settings for the welding procedure to be used.

4.Turn the Start Board Timer to maximum.

5.Set Start Board current and voltage control.

a.Set the Start Board current control to 1- 1/2 dial numbers below that set on the NA-3 current control.

b.Set the Start Board voltage control equal with the NA-3 voltage control setting

NOTE: These Start Board current and voltage set- tings result in a start-up current that is lower than the NA-3 current setting and approximately equal with the NA-3 voltage setting for the desired weld- ing procedure.

6.Establish the correct arc striking procedure with the NA-3 Start Board timer set at maximum.

a.For the best starting performance, the NA-3 Open Circuit Voltage Control and Voltage Control setting should be the same. Set the Inch Speed Control for the slowest inch speed possible.

b.To adjust the Open Circuit Voltage Control to get the best starting performance, make repeated starts observing the NA-3 volt- meter.

When the voltmeter pointer swings smoothly up to the desired arc voltage, without undershooting or over- shooting the desired arc voltage, the Open Circuit Voltage Control is set properly.

If the voltmeter pointer overshoots the desired voltage and then returns back to the desired voltage, the Open Circuit Voltage Control is set too high. This can result in a bad start where the wire tends to “Blast off.”

If the voltmeter pointer hesitates before coming up to the desired voltage, the Open Circuit Voltage Control is set too low. This can cause the electrode to stub.

IDEALARC DC-1000

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Contents Idealarc Electric and Magnetic Fields SafetyElectric Shock can kill Welding Sparks can cause fire or explosion Sûreté Pour Soudage a L’Arc Précautions DE SûretéMaster Table of Contents for ALL Sections Installation Output Technical Specifications Idealarc DCStacking Electric Shock can KillSelect Proper Location Electrical Input ConnectionsGround Connection Reconnect ProcedureFuse and Wire Sizes Input Power Supply ConnectionsFigure A.3a Input Connection Diagram Figure A.3c -Input Connection Diagram Figure A.3d Input Supply Connection Diagram Output Connections Cutting Operation Connection for AIR/CARBON ARCIdealarc DC-1000 Operation Electric Shock can kill Safety InstructionsRecommended Processes and Equipment Operational Features and ControlsDesign Features Advantages General DescriptionWelding Capability Return to Section Controls and SettingsNA-3 Automatic Wire Feeder Welding Procedure RecommendationsRemote Control of Machine Operation ARC Striking with Idealarc DC-1000 and the NA-3 Start Board Remote LN-8 SEMI-AUTOMATIC Wire FeederTable of Contents AccessoriesRemote Output Control Optional OPTIONS/ACCESSORIESConnecting the NA-3 or LT-7 to Idealarc DC-1000Figure C.2 NA-5 Wire Feeder Connection to Idealarc DC-1000 Connecting the NA-5 to the Idealarc DC-1000Connecting the LN-8 to the Idealarc DC-1000 Connecting the LN-9 Wire Feeder to the Idealarc DC-1000 Connecting the LN-7 Wire Feeder to the Idealarc DC-1000 Maintenance Routine and Periodic Maintenance Safety Precautions Electric Shock Can KillFigure D.1 Major Component Locations Idealarc DC-1000 Theory of Operation TOR, and Main Transformer Input Line VOLTAGE, ContacCONTROL, and Feedback Output RectificationCircuits Contactor HOLD-IN Protection DevicesFigure E.5 SCR Operation SCR OperationIdealarc DC-1000 Troubleshooting & Repair Locate Problem Symptom HOW to USE Troubleshooting GuideBoard can be damaged by static electricity PC Board Troubleshooting ProceduresControl Transformer Test Return Return to Master TOC Return Return to Section TOC Perform SCR Output Bridge Troubleshooting & Repair Function Problems Perform Firing Board Test Perform Control Board Test SCR Output Troubleshooting & Repair Control Transformer T2 Voltage Test Test DescriptionFigure F.1 Control Transformer Lead Location Test ProcedureFigure F.2 Control Transformer X1 and X2 Test Points Main Transformer T1 Voltage Test Test Description Figure F.4 Main Secondary Lead Test Points From Expected VAC Firing Board Test Test Procedure for Normal Firing Board Operation Figure F.7 Terminal Strip Jumper Wire Connections Figure F.8 Output Pilot Relay 4CR Location Then Table F.1 LED 7, 8 and 9 Check ListControl Board Test Figure F.9 Control Board LED and Pin Locations Test Procedure for Normal Control Board OperationIf LED 1 does not light, when the start switch is on Possible Problems Pertaining to the Control BoardFigure F.11 LED 2 Open Circuit Voltage Test Points If LED 4 lights Static SCR Test Figure F.12 Test ProcedureFigure F.13 SCR Heat Sink Assembly Test Points Static SCR Test Active SCR Test Active SCR Test Figure F.16 Heat Sink Assembly Test Points Battery Test Scope Settings Troubleshooting & Repair Troubleshooting & Repair Troubleshooting & Repair Troubleshooting & Repair Troubleshooting & Repair Troubleshooting & Repair Input Contactor 1CR Cleaning AND/OR Replacement Figure F.18 Input Contactor Cover Removal Cleaning ProcedureRemoval Contactor ReplacementInstallation SCR Output Bridge Replacement Figure F.22 Preparation For SCR Output Bridge Removal SCR Output Bridge RemovalFigure F.23 SCR Output Bridge Removal Removal of Individual SCR Heat Sink Assemblies SCR Output Bridge Installation SCR Heat Sink InstallationTOC Removal and Reassembly of Lift Bail Figure F.25 Lift Bail Removal Removal of Lift BailReassembly of Lift Bail Main Transformer Removal and Installation Figure F.26 Main Transformer Disassembly Main Transformer Disassembly and AssemblyCoil Removal Replacement Main Transformer DisassemblyTransformer Reassembly Transformer InstallationIdealarc DC-1000 Open Circuit Voltages Input Idle Amps and WattsIdealarc DC-1000 Electrical Diagrams Idealarc DC-1000 Wiring Diagram Codes 9919 Operating Schematic Control PC Board G1585 Layout Firing PC Board G1486-5 and above Layout Control PC Board G1585 Schematic Firing PC Board G1486-5 and above Schematic Output Snubber M14312 Schematic
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