Lincoln Electric IM919 manual Engine Controls

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OPERATION

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4.WELD OUTPUT TERMINALS WITH FLANGE NUT:

Provides a connection point for the electrode and work cables. Output stud covers provided on code 11270 and above.

5. GROUND STUD: (graphic)

Provides a connection point for connecting the machine case to earth ground for the safest grounding procedure.

6. 14-PIN CONNECTOR:

For attaching wire feeder control cables to the Ranger® 250. Includes contactor closure circuit, auto- sensing remote control circuit, and 120V and 42V power. The remote control circuit operates the same as the 6-Pin Amphenol.

7. 6-PIN CONNECTOR:

For attaching optional remote control equipment. When in the CC-STICK, PIPE, and CV-WIRE modes and when a remote control is connected to the Amphenol, the auto-sensing circuit in the Ranger® 250 automatically switches the OUTPUT control from control at the welder to remote control .

When using the TOUCH START TIG mode with a TIG Module connected to the Ranger® 250, the OUT- PUT control on the front of the Ranger® 250 is used to set the maximum current range of the CURRENT CONTROL on the TIG Module.

8. WELD TERMINALS CONTROL SWITCH:

In the WELD TERMINALS ON position, the output is electrically hot all the time. In the REMOTELY CON- TROLLED position, the output is controlled by a wire feeder or amptrol device, and is electrically off until a remote switch is depressed.

9. WIRE FEEDER VOLTMETER SWITCH:

Matches the polarity of the wire feeder voltmeter to the polarity of the electrode.

ENGINE CONTROLS:

10.RUN/STOP SWITCH - RUN position ener- gizes the engine prior to starting. STOP position stops the engine. The oil pressure interlock switch prevents battery drain if the switch is left in the RUN position and the engine is not operating.

11.CHOKE - When pulled out, it closes the choke valve on the engine carburetor for quick starting.

12.START PUSH BUTTON - Energizes the starter motor to crank the engine.

13.IDLER SWITCH- Has two positions as follows:

1) In the HIGH position, the engine runs at the high idle speed controlled by the engine governor.

2) In the AUTO position, the idler operates as follows:

When switched from HIGH to AUTO or after starting the engine, the engine will operate at full speed for approximately 12 seconds and then go to low idle speed.

When the electrode touches the work or power is drawn for lights or tools (approximately 100 Watts minimum), the engine accelerates and operates at full speed.

When welding ceases or the AC power load is turned off, a fixed time delay of approximately 12 seconds starts. If the welding or AC power load is not restarted before the end of the time delay, the idler reduces the engine speed to low idle speed.

The engine will automatically return to high idle speed when there is welding load or AC power load reapplied.

14. ELECTRIC FUEL GAUGE-

The electric fuel gauge gives accurate and reliable indication as to how much fuel is in the fuel tank.

15. ENGINE HOUR METER

Displays the total time that the engine has been run- ning. This meter is useful for scheduling prescribed maintenance.

STARTING AND STOPPING THE ENGINE

1.Remove all plugs connected to the AC power receptacles.

2.Set IDLER switch to AUTO.

3.Set the RUN/STOP switch to RUN.

4.Pull the choke to the full out position.

5.Press and hold the engine START button until the engine starts.

6.Release the engine START button when the engine starts.

7.Push the choke back in.

8.The engine will run at high idle speed for approxi- mately 12 seconds and then go to low idle speed. Allow the engine to warm up at low idle for several minutes before applying a load and/or switching to high idle. Allow a longer warm up time in cold weather.

RANGER® 250

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Contents Ranger 250 Safety California Proposition 65 WarningsElectric Shock can kill Welding and Cutting Sparks can Cause fire or explosion Précautions DE Sûreté Sûreté Pour Soudage a LʼArcThank You Table of Contents Vii Installation Input Gasoline EngineReceptacles and Circuit Breakers Safety Precautions PRE-OPERATION Engine Service Electrical Connections Standby Power Connections Auxiliary Power ReceptaclesConnection of Ranger 250 to Premises Connection of Lincoln ELEC- Tric Wire Feeders Connection of LN-7 or LN-8 to the RangerInstallation Design Features OperationGeneral Description Engine OperationARC Control Weld Mode Selector SwitchWelding Controls Engine Controls Welder Operation Typical Current Ranges 1 for Tungsten ELECTRODES2 Wire WELDING-CVTIG Welding Auxiliary Power ARC GougingAccessories Recommended Optional EquipmentMaintenance Engine Maintenance ComponentsKohler Engine Subaru Robin EngineAIR Cleaner Service AIR PRE-CLEANER ServiceEngine OIL Change Engine OIL Refill CapacitiesSpark Plug Spark Plug ServiceAIR Filter Paper Element Engine Adjustment Overspeed is Hazardous Battery MaintenanceCleaning the Battery Charging the BatteryWelder / Generator Maintenance Troubleshooting HOW to USE Troubleshooting GuidePersists,Contact your local Problems Possible Recommended Troubleshooting Troubleshooting Diagrams Diagrams Diagrams Diagrams Diagrams Diagrams Engine Welders /LN-8 Connection Diagram Diagrams Diagrams Diagrams Diagrams Dimension Print M20333Precaucion Warnung

IM919 specifications

The Lincoln Electric IM919 is a highly advanced multi-process welding machine that combines versatility and efficiency, making it a go-to choice for professional welders and fabrication shops. Known for its robust design and user-friendly interface, the IM919 is engineered to perform a wide range of welding processes, including MIG, TIG, and stick, enhancing its application for various projects.

One of the standout features of the IM919 is its intuitive control panel. Designed with a clear digital display, it allows welders to easily select and adjust settings for voltage, wire feed speed, and amperage with precision. This accessibility makes it suitable for both novice and experienced users, providing a seamless experience in the welding process.

Technologically, the IM919 incorporates Lincoln Electric’s advanced welding technologies. The machine employs an inverter-based power supply, which offers a lightweight design and improved energy efficiency. This inverter technology significantly enhances arc stability, ensuring consistent weld quality across various materials, including steel, aluminum, and stainless steel. With a maximum output of around 300 amps, the IM919 is capable of handling heavier gauge materials while maintaining a compact form factor.

Additionally, the IM919 features a synergic control mode, which automatically adjusts parameters based on the selected wire type and diameter. This function aids in optimizing the welding process and minimizes trial and error, allowing for faster, more reliable results. Moreover, the machine is equipped with a powerful cooling system that prevents overheating during extended operation, thus extending its overall lifespan.

Durability and safety are paramount in the design of the IM919, as it comes with an IP23S rating, which means it is protected against water and dust ingress, making it suitable for various working environments. Enhanced safety features, such as overload protection and thermal cut-off, ensure that the welder remains operationally safe even under demanding conditions.

In summary, the Lincoln Electric IM919 is a state-of-the-art welding machine that excels in versatility, user-friendliness, and durability. With its advanced technologies and features, it stands out as an essential tool for professionals seeking quality and reliability in welding applications. Whether in a busy workshop or on a job site, the IM919 delivers outstanding performance, making it a valuable investment for anyone in the welding trade.