Lincoln 1600 service manual With Power on and Thermocouple Leads

Page 6

 

 

are no obstructions, replace gas control valves.

Flame will not stay lit

Hot Surface Igniter

The ignition control will keep the gas control valves energized

 

 

for 6 seconds. At the end of 6 seconds, the hot surface igniter

 

 

must sense a flame, or, the ignition control will go into lockout.

 

 

(The ignition control requires a minimum of 0.8 microamps

 

 

D.C.) To check the flame sensing operation, connect a digital

 

 

multimeter (capable of measuring D.C. micro-amps) between

 

 

the "ground" terminal on ignition control and the ground lead.

 

 

NOTE: This is a current measurement and the meter must be

 

 

connected in series. If these readings are not achieved, check

 

 

bypass orifice for obstructions, if bypass orifice is clear,

 

 

replace the hot surface igniter.

 

 

NOTE: The D.C. micro amp test must be conducted with the

 

 

oven in low flame (bypass) operation. Turn the temperature

 

 

control to its lowest setting.

 

Power Supply

If there is sufficient micro-amp current, but the flame will not

 

 

stay lit, check for proper polarity of the 120 VAC power supply

 

Ignition Control

If there is sufficient micro-amp current, and the 120 VAC

 

 

polarity is correct, but the flame will not stay lit, replace the

 

 

ignition control.

 

 

NOTE: Check for proper ground connection of the ignition

 

 

control.

 

NOTE: Flame should

 

 

be lit at this time.

 

Low flame is on, but

Temperature Control

Check for 120 VAC at terminal #7 to neutral on temperature

no main flame

 

control. If no voltage, trace voltage back to fuse holder. Turn

 

 

the temperature adjustment knob to maximum temperature

 

 

position and check for 120 VAC at the load terminal #8 and

 

 

neutral. If 120 VAC is present and unit is not heating, refer to

 

 

"Temperature Solenoid Valve" for next check. If 120 VAC is

 

 

not present, proceed.

 

Thermocouple Probe

WITH POWER ON AND THERMOCOUPLE LEADS

 

 

ATTACHED TO THE TEMPERATURE CONTROL BOARD:

 

 

Measure the D.C. millivolt output of these leads. Refer to

 

 

thermocouple chart on page 17 for proper readings. If these

 

 

readings are not achieved, replace the thermocouple.

 

Temperature Set

Disconnect the potentiometer leads Disconnect the pot from

 

Potentiometer

the board. Place ohm meter test leads on the blue and green

 

 

pot leads. Reading should be 1 K ohms. Place meter leads

 

 

across the blue and purple pot leads and rotate knob from high

 

 

to low. Repeat on green and purple leads. Check for even

 

 

rise and fall of ohms reading to insure that there are no open

 

 

or dead spots in the potentiometer. Check each lead to

 

 

ground for shorts. Replace pot if it does not meet the above

 

 

test

 

Temperature Solenoid

If 120 VAC is present on the temperature control board at load

 

Valve

terminal #8 to neutral, check for voltage at temperature

 

 

regulation valve. If voltage is present, listen for valve to open

 

 

and close. Also check for opens or shorts in the coil. Replace

 

 

as necessary.

6

Low Profile – 1600-000-A Advantage Series Service Manual – Domestic

Image 6
Contents Impinger Conveyor Ovens Table of Contents Sequence of Operations / 1600-000-A, 1601-000-A Troubleshooting Guide GAS OvensPage With Power on and Thermocouple Leads Page Page Page Schematic / 1600-000-A, 1601-000-A REMOVAL, Installation & Adjustments Fuseholder Replacement Conveyor Drive Motor ReplacementHall Effect Sensor Replacement Conveyor Control Board CalibrationGAS VALVE, Dual Safety Replacement Temperature Regulating Valve ReplacementMain Orifice Replacement Dual Temperature Display Replacement Temperature Control Potentiometer ReplacementON-OFF Switch Power Replacement Calibrate TemperatureElectronic Temperature Control Replacement Relay ReplacementTHERMOSTAT, Cooling FAN Replacement Temperature Setting for NEW Temperature Control BoardCooling FAN Motor Replacement Main FAN Motor ReplacementThermocouple Type J Replacement BEARING, Conveyor Replacement Parts / General 1600-000-A Advantage Series Letter DescriptionBlow UP / General 1600-000-A Advantage Series Parts / Control BOX, Right 1600-000-A, 1601-000-A Blow UP / Control BOX, Right 1600-000-A, 1601-000-A Parts / Control BOX, Left 1600-000-A, 1601-000-A Blow UP / Control BOX, Left 1600-000-A, 1601-000-A Parts / Oven Back 1600-000-A Series Blow UP / Oven Back 1600-000-A Series Parts / Conveyor 1600-000-A Series Blow UP / Conveyor 1600-000-A Series

1600 specifications

The Lincoln 1600, a remarkable offering from Lincoln Electric, stands as a testament to the company's commitment to excellence in welding technology. Designed for professionals and enthusiasts alike, this versatile welding machine boasts a range of features that cater to diverse welding applications.

One of the standout characteristics of the Lincoln 1600 is its robust construction. Built with durability in mind, the machine is engineered to withstand demanding environments, making it a reliable choice for industrial, commercial, and DIY projects. Its compact design enhances portability, allowing welders to easily transport the unit to different job sites without compromising performance.

Equipped with advanced inverter technology, the Lincoln 1600 offers efficient power usage while delivering consistent welding output. The inverter technology not only enhances energy efficiency but also allows for a wider input voltage range, ensuring optimal performance regardless of the power supply available.

Another key feature is its user-friendly interface. The Lincoln 1600 comes with intuitive controls that simplify the setup process, making it accessible for both beginners and experienced welders. The clear display provides real-time feedback on voltage and amperage settings, allowing users to fine-tune their welding parameters for precise results.

The machine supports multiple welding processes, including MIG, TIG, and stick welding. This versatility makes it suitable for a variety of materials, including steel, aluminum, and more, expanding its range of applications. Furthermore, the Lincoln 1600 is compatible with a selection of welding wires and electrodes, giving users the flexibility to choose the best consumables for their projects.

Safety features are also prominent in the Lincoln 1600. The machine is equipped with overcurrent protection and thermal overload shutdown, protecting both the welder and the equipment from damage due to excessive heat or electrical load. These safety measures ensure that users can work confidently, knowing they are safeguarded during operation.

In conclusion, the Lincoln 1600 combines robust construction, advanced technology, and user-centric design to deliver a top-tier welding experience. Its adaptability across multiple welding processes and materials, complemented by essential safety features, positions it as an invaluable tool for anyone serious about welding. Whether for professional or personal use, the Lincoln 1600 is a machine that promises reliability and performance, making it a worthy addition to any welder's arsenal.