Lincoln 1400 Series service manual Sequence of Operations, Phase

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POWER SUPPLY

CONTROL BOX

AUTO COOL DOWN

MAIN FAN CIRCUIT

BURNER CIRCUIT

IGNITION CONTROL

TEMPERATURE CONTROL

CONVEYOR DRIVE

SEQUENCE OF OPERATION

MODEL 1450 / 120 VAC / 60 HZ / NATURAL GAS

MODEL 1451 / 120 VAC / 60 HZ / LP GAS

MODEL 1480 / 120 VAC / 60 HZ / TOWN GAS

Electrical power is supplied to the oven by a three-conductor cordset. Voltage from the black conductor to white conductor is 120 VAC. The white conductor is neutral. The green conductor is ground.

When the temperature in the control box reaches 120°F±3°

(48.9°C±1.7°C), the cooling fan thermostat will switch power to the control box-cooling fan. The thermostat will interrupt power to the fan when the control box temperature falls to 100°F±3°(37.0°C±1.7°C).

Electrical power is permanently supplied to the normally open contacts of the double pole main fan relay, the cooling fan thermostat and the normally open switch. Closing the on/off switch energizes the coil of the relay through the 3A fuse. The normally open contacts now close, energizing the main fan motor through the 10A fuse, and the control box-cooling fan. Closing the on/off switch also supplies 120 VAC to the burner blower motor, the conveyor control board and to the normally open centrifugal switch of the main fan motor.

Closing the on/off switch supplies 120 VAC to the burner blower motor and the normally open centrifugal switch of the main fan motor. As the fan motor reaches approximately (900 RPM) the centrifugal switch closes supplying120 VAC to the electronic temperature control board and the primary of the burner control transformer. The transformer secondary supplies 24 VAC through the normally open centrifugal switch (inside the burner blower motor, this switch closes at approximately 1600 RPM) to the burner control. The igniter circuit is now energized.

When the burner control is supplied with 24 VAC, the pilot valve and spark igniter is energized. Ignition should now occur, after the pilot flame is proven, the main gas valve is energized.

When the centrifugal switch of the main fan motor closes, 120 VAC is applied to the temperature controller. The temperature dial is adjusted to the desired temperature. The thermocouple will provide varying millivolts to the temperature controller. The temperature controller supplies 120 VAC to the solenoid valve (and the yellow cycling lamp on the front panel) at intermittent intervals to maintain desired temperatures.

Closing the on/off switch supplies 120 VAC to the conveyor control board. AC volts are converted to DC volts and are supplied to the conveyor motor at terminals A+ and A- Adjustment of the speed control potentiometer will change resistance at terminals P1 & P2, varying the DC voltage to the motor. The speed of the conveyor motor will increase or decrease as the DC voltage from the board increases or decreases respectively.

NOTE: The conveyor control uses a sensor and magnet, mounted on the conveyor motor that senses the motor speed. Any change in motor load (± RPM) is detected by the sensor and the voltage to the motor is adjusted accordingly.

SEQUENCE OF OPERATIONS

POWER SUPPLY

CONTROL BOX AUTO COOL DOWN

MAIN FAN CIRCUIT

MODEL 1452

120/208 VAC

3 PHASE

60 HZ

MODEL 1453

120/240 VAC

3 PHASE

60 HZ

Electrical power is to be supplied to the oven by a 5-conductor service. Black conductor is hot.

Red conductor is hot. Orange conductor is hot.

White conductor is dedicated neutral. Green conductor is ground.

When the temperature in the control box reaches 120°F ± 3°, (49°C ± 1.7°C), the cooling fan thermostat will switch power to the cooling fan. The thermostat will interrupt power to the cooling fan when the temperature falls to 100°F±3° (37°C ± 1.7°C).

Electrical power is permanently supplied through 6, 50A fuses to the normally open contacts of the mercury contactors. Power is also supplied through 1, 10A fuse to the normally open contacts of the main fan relay, to the normally open cooling fan thermostat, and through a 3A fuse to the normally open single pole main fan switch. Closing the main fan switch supplies 120 VAC to the coil of the main fan relay. The coil of the relay is

Impinger I – 1400 Series Advantage Service Manual – Dom & Int’l

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Contents Impinger Conveyor Ovens Table of Contents Phase Sequence of OperationSequence of Operations Heat Circuit Temperature Control Conveyor Drive Sequence of Operations Schematic 1450 / 1451 Schematic 1452 Schematic 1454 Schematic 1456 Schematic 1474 / 1475 Troubleshooting Guide Symptom Possible Cause EvaluationGAS Ovens Page Code AS FollowsModels 1456 1474-1475-1476 Page Page Page Electric Ovens Impinger Advantage Series Symptom Possible Cause EvaluationPage Page Removal Installation & Adjustments MOTOR, Main FANFAN, Main THERMOSTAT, Cooling FAN CAPACITOR, MotorRELAY, D.P.S.T Cooling FAN, Control BOXBlower WHEEL, Burner Burner Blower Motor ReplacementBurner Control Honeywell Replacement Burner AssemblyManifold Pressure Adjustment Electronic Temperature Control ReplacementSolenoid Valve Thermocouple Replacement Thermocouple Measurement ChartBurner Ignitor Conveyor Drive Motor Replacement Burner Control Transformer -REPLACEMENTConveyor Control Potentiometer 10K OHM Replacement Conveyor Control Board Assembly ReplacementON-OFF Switch Replacement Hall Effect Sensor ReplacementCircuit Breaker Replacement Main Orifice ReplacementGAS Valve Replacement and Adjustments Solenoid Valve Replacement Ignition Control ReplacementHigh Limit Thermostat Replacement Spark Generator ReplacementLetter Description General 1450 SeriesGeneral 1450 Series BLOW-UP Control BOX 1450, 1451 Control BOX 1450, 1451, 1480 BLOW-UP Control BOX 1452 Control BOX 1452, 1453 BLOW-UP Contol BOX 1454 Control BOX 1454, 1455 BLOW-UP Control BOX 1456, 1457, 1474, 1475 Control BOX 1456, 1457, 1474, 1475, 1476 BLOW-UP Oven BACK, GAS Electric Oven BACK, GAS Electric BLOW-UP Conveyor 1450 Series Conveyor 1450 Series BLOW-UP