1-1
Inside the Ignition Module
TD
Out to
Gas Valve
To Alarm
25 V +
GND
HV
Ignition Wire
Flame Sensor
Coil
PRO H50/55-SERIES GAS FRYERS
CHAPTER 1: SERVICE PROCEDURES
1.1 Functional
Description
Pro (H50/55) Series gas fryers contain a welded stainless steel frypot that is directly heated by a high
efficiency infrared burner system requiring approximately 43% less energy than conventional
burners to cook the same volume.
Self-contained combustion chambers (referred to as “burners”) are fitted into rails attached to the
sides of the frypot, one on each side. Each combustion chamber is fitted with special ceramic tiles
that are heated by burning a forced air/gas mixture. The tiles transfer heat to the frypot by means of
infrared radiation, providing much more constant and uniform heat dispersion over the surface of the
frypot than conventional burners. Because less heat is lost to the atmosphere in the process,
compared to “open-burner” designs, less fuel is required to achieve and maintain temperature.
In full-vat units, gas flow to both of the burners is regulated by one electromechanical gas valve. In
dual-vat units, each burner has its own valve. All fryers in this series are equipped with 24 VAC gas
valve systems and electronic ignition.
1.1.1 Electronic
Ignition System
An ignition module mounted in the component box
(located behind the control panel) is connected to an
ignitor assembly at the burner. The ignition module
performs four important functions: it provides fuse
protection for the 24-volt circuit, provides an ignition
spark, supplies voltage to the gas valve, and proofs the
burner flame. The module contains a 4-second time delay
circuit and a coil that activates the gas valve. Three types
are in use. A closed-box design is used in most fryers, but
in some fryers built for export, the module resembles an
interface board. A single dual-spark module is used on
current production full-vat fryers. All dual-vat fryers use
two single-spark modules.
The ignitor assembly consists of a spark plug, an
enrichment tube, and a flame sensor.
At start-up, the power switch is placed in the ON position, supplying approximately 12-volts DC to
the heat-control circuitry in the controller or computer and to one side of the heat relay coils on the
interface board. If resistance in the temperature probe indicates the temperature in the frypot is
below 180ºF (82ºC), the current flows through a melt cycle circuit where a timer switch alternately
closes for 6 seconds and opens for 24 seconds. If the temperature is 180ºF (82ºC) or above, the
current flows through a heat circuit, bypassing the timer switch. In either case, ground is supplied to
the other leg of the heat relay coils, which then close electronic switches in the 24 VAC circuit to
provide current to the ignition module. Circuitry in the ignition module sends 24 VAC to the gas
Summary of Contents for FOOTPRINT H50
Page 24: ...1 19 Disassembling A Frypot Full vat Illustrated Spacers Spacer 10 2 3 4 5 6 7 8 1 11 9...
Page 47: ...1 42 1 11 2 Pro H50 55 Series Fryer Single Full vat 805 1675...
Page 48: ...1 43 1 11 3 Pro H50 55 Series Fryer Single Dual vat...
Page 49: ...1 44 1 11 4 Pro H50 55 Series Fryer Single CE...
Page 50: ...1 45 1 11 5 Pro H50 55 Series Fryer Single FAST ready...
Page 52: ...1 47 1 11 6 3 FPPH 250 255 450 455 Transformer Filter Box 8051340C...
Page 53: ...1 48 1 11 6 4 FPPH 350 355 Transformer Filter Box...
Page 54: ...1 49 1 11 7 Modular Basket Lift 100 120V 1 2 4 3 5 6 12 7 8050518E...
Page 67: ...2 11 2 5 Drain Filtration and Oil Return System Components 2 5 1 Filtration System Components...
Page 69: ...2 13 2 5 2 Drain Valves and Associated Components...
Page 79: ...2 23 2 6 Electronics and Electrical Components for Controllers Page 2 10 2 6 1 Component Boxes...
Page 86: ...2 30 2 7 2 Dual Vat Frypot Components...