Lincoln Electric 170I manual Learning to Weld, Overload Protection

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B-7

 

LEARNING TO WELD

 

B-7

 

 

 

 

 

 

OVERLOAD PROTECTION

OUTPUT OVERLOAD

The Handymig 170i is equipped with a circuit breaker which protects the machine from damage if a severe overload occurs. The circuit breaker button will extend out when tripped. The circuit breaker must be manual- ly reset.

THERMAL PROTECTION

The Handymig 170i has a rated output duty cycle of 30%. If the duty cycle is exceeded, a thermal protec- tor will shut off the output until the machine cools to a reasonable operating temperature. This is an auto- matic function of the Handymig 170i and does not require user intervention. The fan continues to run during cooling.

ELECTRONIC WIRE DRIVE MOTOR PROTECTION

The Handymig 170i has built-in protection for wire drive motor overload.

LEARNING TO WELD

No one can learn to weld simply by reading about it. Skill comes only with practice. The following pages will help the inexperienced operator to understand welding and develop this skill. For more detailed infor- mation, order a copy of “New Lessons in Arc Welding” listed at the end of this manual.

WARNING

Fumes and slag generated from Innershield type electrodes recom- mended for use with this welding machine can be toxic.

Avoid contact with eyes and skin.

Do not take internally.

Keep out of reach of children.

Follow all safety precautions found in this operating manual.

THE ARC-WELDING CIRCUIT

The operator’s knowledge of arc welding must go beyond the arc itself. The operator must know how to control the arc, and this requires a knowledge of the welding circuit and the equipment that provides the electric current used in the arc. Figure B.7 illustrates the welding circuit for a typical welding machine. The circuit begins where the gun cable is attached to the welding machine. Current flows through the gun cable, gun, and contact tip, to the wire and across the arc. On the work side of the arc, current flows through the base metal to the work cable and back to the welding machine. This circuit must be complete for the current to flow.

This machine’s welding circuit has a voltage output of 33 volts DC maximum. This voltage is quite low and is only present when the gun triggers depressed.

To weld, the work clamp must be tightly connected to clean base metal. Remove paint, rust, dirt or oil as necessary and connect the work clamp as close as possible to the area you wish to weld. This helps pre- vent current from going through an unwanted path. Avoid allowing the welding circuit to pass through hinges, bearings, electronic components, or similar devices that can be damaged. See Figure B.8. Always disconnect electrical devices before welding upon them.

FIGURE B.8

Electronic Components

Hinges

Bearings

The gun and cable assembly is held by the operator who guides the automatically fed wire along the joint, maintaining a contact tip to work distance of about 3/8 to 1/2 inch (10 – 12 mm). This is called electrical stickout. This electrical stickout (ESO) must be prop- erly maintained by the operator. The electric arc is made in the gap between the work and the tip end of a small diameter wire. When the power source is properly set, the arc gap is maintained automatically.

Arc welding is a manual skill requiring a steady hand, good physical condition, and good eyesight. The operator controls the welding arc, and, therefore, the quality of the weld made.

Handymig 170i

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Contents Handymig Safety For Engine powered equipmentElectric and Magnetic Fields may be dangerous Fumes and Gases can be dangerous Electric Shock can killARC Rays can burn IiiCylinder may explode if damaged Welding Sparks can cause fire or explosionInstructions for ELECTRO- Magnetic Compatibility Assessment of AreaPlease Examine Carton and Equipment For Damage Immediately Table of Contents Section E ViiiSection D Section FInstallation Technical Specifications HandymigSafety Precautions Identify and Locate ComponentsOutput Connections Work Clamp InstallationSelect Suitable Location StackingConnecting Gun Cable to the Handymig GUN InstallationWork Cable Installation GAS ConnectionInput Connections Figure A.5Electrical Input Connection For Rated Output Line Cord ConnectionOperation Design Features AdvantagesOperational Features and Controls General DescriptionWelding Capability Controls and SettingsLimitations Welding Operations Wire LoadingSequence of Operation Wire Threading Figure B.4Process Guidelines Cleaning Tip And NozzleMaking a Weld Welding with Fcaw Innershield Changing Machine Over to Feed Other Wire SizesWelding with Gmaw MIG Shielding GasOverload Protection Learning to WeldLearning to Weld SELF-SHIELDED Fcaw Welding ARC Gmaw MIG Welding ARCCommon Metals Process SelectionJoint Types and Positions Penetration Welding In The Vertical PositionFillet Welds Vertical-down Welding Machine SET UP for the SELF-SHIELDED Fcaw ProcessWelding Techniques for the SELF- Shielded Fcaw Process Correct Welding PositionCorrect Electrical Stickout ESO Correct Welding SpeedHelpful Hints PracticeMachine SET UP for the Gmaw MIG Process Welding Techniques for the Gmaw MIG ProcessFor the Handymig 170i, use the following To Correct Poor Penetration in order of impor- tance Troubleshooting WeldsTo Eliminate a Ropy Convex Bead To Eliminate Stubbing* in order of importanceProper Gun Handling Application Chart Routine Maintenance MaintenanceGUN and Cable Maintenance Changing the Contact TIP Component Replacement ProceduresChanging Drive Roll GUN Handle Parts Changing LinerLiner trim length Ground Test Procedure 1TROUBLESHOOTINGE-1 HOW to USE Troubleshooting GuideProblems Possible Areas Symptoms Misadjustments TroubleshootingTroubleshooting Guide Recommended Course of ActionAuthorized Field Service Facility Contact your local Liquid ArcWelding Problems Wiring Diagrams Handymig 170i Wiring Diagram CodePrecaucion Warnung Copyright 2000 Lincoln Global Inc