Miller Electric 250 manual Butt Joints, Lap Joint, Tee Joint, 16 in 30 1.6 mm Tack Welds, Or Less

Page 66

15-10. Butt Joints

1

2

1/16 in 30° (1.6 mm)

3

4

1 Tack Welds

Prevent edges of joint from drawing together ahead of electrode by tack welding the materials in position be- fore final weld.

2 Square Groove Weld

Good for materials up to 3/16 in (5 mm) thick.

3 Single V-Groove Weld

Good for materials 3/16 − 3/4 in (5-19 mm) thick. Cut bevel with oxy- acetylene or plasma cutting equip- ment. Remove scale from material after cutting. A grinder can also be used to prepare bevels.

Create 30 degree angle of bevel on materials in V-groove welding.

4 Double V-Groove Weld

Good for materials thicker than 3/16 in (5 mm).

S-0662

15-11. Lap Joint

30°

30°

Or Less

Or Less

 

1

1

2

3

Single-Layer Fillet Weld

Multi-Layer Fillet Weld

1Electrode

2Single-Layer Fillet Weld Move electrode in circular motion.

3Multi-Layer Fillet Weld

Weld a second layer when a heavi- er fillet is needed. Remove slag be- fore making another weld pass. Weld both sides of joint for maxi- mum strength.

S-0063 / S-0064

15-12. Tee Joint

 

1

 

 

45°

 

2

Or Less

2

 

 

1

1Electrode

2Fillet Weld

Keep arc short and move at definite rate of speed. Hold electrode as shown to provide fusion into the corner. Square edge of the weld surface.

For maximum strength weld both sides of upright section.

3 Multi-Layer Deposits

Weld a second layer when a heavi- er fillet is needed. Use any of the weaving patterns shown in Section 15-9. Remove slag before making another weld pass.

3

S-0060 / S-0058-A / S-0061

OM-217 455 Page 62

Image 66
Contents Visit our website at OM-217 455HFile Engine Drive 2007−05−21From Miller to You Table of Contents 13-4 13-213-3 13-5Electric Shock can kill Symbol UsageArc Welding Hazards HOT Parts can cause severe burnsARC Rays can burn eyes and skin Fumes and Gases can be hazardousBuildup of GAS can injure or kill Welding can cause fire or explosionEngine Hazards Compressed Air HazardsFire or Explosion hazard Welding Wire can cause injuryHOT Parts can cause burns and injury Falling Unit can cause injuryEMF Information Principal Safety StandardsCalifornia Proposition 65 Warnings Radiation can cause interferenceUN Choc Électrique peut tuer Signification des symboles− Consignes DE Sécurité − Lire Avant Utilisation Indique des instructions spécifiquesDES Pièces Chaudes peuvent provoquer des brûlures graves LES Fumées ET LES GAZ peuvent être dangereuxLE Soudage peut provoquer un in cendie ou une explosion LE Bruit peut affecter l’ouïe ’EXPLOSION DE LA Batterie peuDES Organes Mobiles peuvent pro voquer des blessures LA Chaleur DU Moteur peut pro- voquer un incendie ’AIR Comprimé peut provoquer des blessuresRisque D’INCENDIE OU D’EXPLO- Sion LES Fils DE Soudage peuvent provoquer des blessures LE Surchauffement peut endom- mager le moteur électriqueDES Organes Mobiles peuvent provoquer des blessures ’EMPLOI Excessif peutInformation EMF Proposition californienne 65 AvertissementsPrincipales normes de sécurité En ce qui concerne les implants médicauxWeld, Power, and Engine Specifications − SpecificationsSymbol Definitions − DefinitionsDimensions, Weights, and Operating Angles Dimensions For Units With Optional Running GearDimensions Vehicle frame. Always connect a ground wire − InstallationInstalling Welding Generator Mounting+ − Installing Exhaust PipeConnecting the Battery Stop engine and let coolOverview And Engine Prestart Checks Run-in period first 100 hours Engine Left Side Engine Right SideStarting engine for the first time Daily pre-start checksWork Weld Output Terminal Connecting to Weld Output TerminalsCorrect Installation Tools Needed Do not placeSelecting Weld Cable Sizes − Operating the Welding Generator Engine Control SwitchesPlace switch in Run position to operate most MIG equipment Do not use glow plugs longer than 20 secondsWeld Output Controls Stop engine Typical Stick Welding Connections And Control SettingsTypical Settings For 7018 1/8 Electrode Work Clamp Electrode HolderSet Weld Process Selector switch to Wire + position Typical MIG Welding Connections And SettingsSet Weld Process Selector switch to Wire + Dcep position Set Weld Process Selector switch to Wire − position DcenTools Needed 3/4 Work Not Used To Work Left Side View At least once a month, run engine at Generator Power Receptacles− Operating Auxiliary Equipment To verify Gfci is working properlySimultaneous Weld And Power − Operating Optional Battery Charger Battery Charge ControlsDetermining Battery Charging Current Battery Charge Cable Connections Battery Charging Procedure MinutesStart Your Professional Welding Career Now − Maintenance and Troubleshooting Routine MaintenanceMaintenance Label And Engine Maintenance Activities Stop engine and let cool Oil And Fuel804 197-A / Ref 803 111-A / 227 Air cleaner primary element can Cleaner or with dirty element. EngineMent is not covered by the warranty Damage when determining whetherStop screw is factory-set and should not be adjusted Adjusting Engine SpeedAdjusting Fuel Solenoid Position Checking Fuel Solenoid16 mm Adjusting Throttle SolenoidChecking Throttle Solenoid Check for non-bindingMaking Engine Speed Adjustments Adjusting Idle SpeedAdjusting Weld/Power Speed Fuse F1 Overload ProtectionComponent Panel Stop engine Supplementary Protector CB8Welding Troubleshooting TablesGenerator Power Trouble RemedyMaintenance Display Action EngineRecommended Spare Parts − Parts ListRecommended Spare Parts Current transformer CT1, and throttle solenoid TS1− Electrical Diagrams Circuit Diagram For Welding Generator228 719-B OM-217 455 231 607-B − RUN-IN and Wetstacking Run-In And WetstackingUS Gal./Hr − Performance DataFuel Consumption Curves IdleVolts Generator Power CurveDuty Cycle AC Amperes At 120 VoltsStick Mode Volt-Ampere Curves DC Amps CC/AC Stick Mode AC VoltsAC Amps MIG Mode Volt-Ampere Curve DC Amps− Generator Power Guidelines Selecting EquipmentGrounding Generator To Truck Or Trailer Frame Use ground device as stated in electrical codes Grounding When Supplying Building SystemsHow Much Power Does Equipment Require? Amperes x Volts = WattsIndustrial Motors Rating Starting Watts Running Watts Approximate Power Requirements For Industrial MotorsApproximate Power Requirements For Farm/Home Equipment Farm/Home Equipment Rating Starting Watts Running WattsApproximate Power Requirements For Contractor Equipment Contractor Rating Starting Watts Running WattsSingle-Phase Induction Motor Starting Requirements Power Required To Start MotorHow Much Power Can Generator Supply? KVA/HP x HP x 1000 / Volts = Starting AmperageTypical Connections To Supply Standby Power Selecting Extension Cord Use Shortest Cord Possible Stick Welding Procedure Weld current starts when electrode touches work- piece− Stick Welding Smaw Guidelines Electrode and Amperage Selection Chart Striking an Arc − Scratch Start TechniqueStriking an Arc − Tapping Technique Positioning Electrode Holder Poor Weld Bead CharacteristicsGood Weld Bead Characteristics 10-30 9090 End View of Work AngleConditions That Affect Weld Bead Shape Electrode Movement During WeldingTee Joint Butt JointsLap Joint 16 in 30 1.6 mm Tack WeldsWeld Test Troubleshooting − PorosityTroubleshooting − Excessive Spatter Possible Causes Corrective ActionsTroubleshooting − Incomplete Fusion Troubleshooting − Lack Of PenetrationTroubleshooting − Excessive Penetration Troubleshooting − Burn-Through Troubleshooting − Waviness Of BeadTroubleshooting − Distortion Work like a Pro Service Your distributor also givesSupport For assistance in filing or settling claims, contact To locate a Distributor or Service Agency visitMiller Electric Mfg. Co Your distributor and/or equipment manufacturer’s