Whirlpool 4322452 manuel d'utilisation

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- nom du fabricant et année de fabrication Whirlpool 4322452
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- signes de sécurité et attestations confirmant la conformité avec les normes pertinentes

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Habituellement, cela est dû au manque de temps et de certitude quant à la fonctionnalité spécifique de l'équipement acheté. Malheureusement, la connexion et le démarrage Whirlpool 4322452 ne suffisent pas. Le manuel d’utilisation contient un certain nombre de lignes directrices concernant les fonctionnalités spécifiques, la sécurité, les méthodes d'entretien (même les moyens qui doivent être utilisés), les défauts possibles Whirlpool 4322452 et les moyens de résoudre des problèmes communs lors de l'utilisation. Enfin, le manuel contient les coordonnées du service Whirlpool en l'absence de l'efficacité des solutions proposées. Actuellement, les manuels d’utilisation sous la forme d'animations intéressantes et de vidéos pédagogiques qui sont meilleurs que la brochure, sont très populaires. Ce type de manuel permet à l'utilisateur de voir toute la vidéo d'instruction sans sauter les spécifications et les descriptions techniques compliquées Whirlpool 4322452, comme c’est le cas pour la version papier.

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Table des matières du manuel d’utilisation

  • Page 1

    GAS RANGES 4322452[...]

  • Page 2

    ii Copyright 1998 Whirlpool Corporation, Benton Harbor, MI WHIRLPOOL CORPORA TION assumes no responsibility for any repair made on our products by anyone other than qualified TECH-CARE ® Service T echnicians. Electrical Shock Hazard Disconnect the gas range’s line cord plug from the wall receptacle before you service any of the components inside[...]

  • Page 3

    iii T able Of Contents Fundamental Properties Of Gas ............................................................................................ 1-1 Measuring Heat Energy ........................................................................................................ 1-1 Fuel Types ..........................................................[...]

  • Page 4

    iv Page Natural And L.P. Gas Conversion .......................................................................................... 5-1 General ........................................................................................................................ ......... 5-1 Converting A Pressure Regulator ........................................[...]

  • Page 5

    v INTRODUCTION This program is designed to teach the servicer basic skills in handling common service procedures for gas ranges. This program does not cover the diagnosis and repair of all range problems and components, (oven liner , wiring harness, etc.). PROGRAM OBJECTIVE Upon completion of this program, the participants will be able to identify [...]

  • Page 6

    vi — NOTES —[...]

  • Page 7

    Page 1-1 FUNDAMENT AL PROPERTIES OF GAS MEASURING HEA T ENERGY When burning a gas fuel, heat energy is produced. This heat energy is usually expressed in British Thermal Units, or B.T.U.’s. One B.T.U. is equal to the amount of heat needed to raise one pound of water one degree Fahrenheit (see Figure 1-1). 1 B.T .U. = the heat necessary to raise 1[...]

  • Page 8

    Page 1-2 FUEL TYPES Gas Fuels are categorized as follows: #1 = Natural Gas #2 = Mixed Gas #3 = Manufactured Gas #4 = Liquefied Petroleum Gas #1 — NATURAL GAS Natural Gas is found underground. It is referred to as “ wet gas, ” because it contains heavy hydrocarbons, such as propane and butane. These hydrocarbons are removed by the gas company [...]

  • Page 9

    Page 1-3 Categor y 1 – Natural Gas – Contains Methane & Ethane . Sour Natural Gas Contains Hydrogen Sulfide Which Corrodes Copper & Brass . It Has A Heat V alv e Of 900 to 1200 B .T .U . P er-Cubic-F oot. Specific Gra vity Is 0.65 T o 0.70. Categor y 2 – Mix ed Gas – Contains A Mixture Of Natural & Man uf actured Gases . It Has [...]

  • Page 10

    Page 1-4 CHARACTERISTICS OF GAS FUELS Each of the four types of gas has a specific boiling point (see Figure 1-2). The boiling point is referred to as the temperature where gas turns from a liquid to a gas at atmospheric pressure. If temperatures fall below the freezing point (32 ˚ F), the liquid will not turn into a gas, and there will be no flam[...]

  • Page 11

    Page 1-5 DISTRIBUTION OF NA TURAL GAS Utility companies send natural gas through underground pipes, called “ mains. ” The gas in these mains is pressurized at between 25 and 60 pounds-per-square-inch (psi). Branches carry the pressurized gas to the various buildings, and are connected to gas meters. The meters decrease the main ’ s gas pressu[...]

  • Page 12

    Page 1-6 DISTRIBUTION OF L.P . GAS For Liquid Propane (L.P.) gas, appliances generally operate on gas pressure rated at between 10 and 12 inches water column pressure. Each appliance usually has its own pressure regulator to more accurately meet the designed requirements (see Figure 1-8). Service Regulator L.P . Gas Main 28 " WCP (1 lb .) 10 &[...]

  • Page 13

    Page 2-1 PRESSURE REGULA T ORS FUNCTIONS A Gas Pressure Regulator is a mechanical device that performs the following two functions: • Reduces higher incoming gas pressure to a desired lower outgoing gas pressure. • Maintains a steady, even flow of gas as it leaves the regulator. The Appliance Pressure Regulator is used to further reduce the gas[...]

  • Page 14

    Page 2-2 REGULA T OR OPERA TION The pressure of the gas coming into the pressure regulator pushes against a spring-loaded diaphragm, forcing it upward. The diaphragm spring puts pressure on the diaphragm. In order to control the flow rate, the diaphragm has a tapered plug suspended from it to restrict or increase the gas flow pressure (see Figure 2[...]

  • Page 15

    Page 2-3 The amount of spring tension applied to the diaphragm determines the output pressure of the regulator (see Figure 2-5). Figure 2-5 Cap (L.P. Position) Tension Spring Diaphragm Gas Outlet To Cooktop Burners Gas Outlet To Oven Burners Gas Inlet A manual gas shutoff on some pressure regulators will allow the gas to be turned off to the oven b[...]

  • Page 16

    Page 2-4 REGULA TOR DIAGNOSTICS Common causes for regulator failure are: A. Ruptured diaphragm. B. Broken or worn valve. C. Debris accumulating around the valve seat. D. Restricted (plugged) vent. E. Internal corrosion due to water in the L.P. gas system. Keep the tank full to prevent this from occurring. As a safety feature, the regulator will “[...]

  • Page 17

    Page 2-5 MEASURING GAS PRESSURE Gas pressure is measured in Inches of Water Column Pressure (WCP) . It takes 28 " WCP to equal one pound per-square-inch (PSI). In most locations, natural gas pressure entering the home is regulated to 7 inches water column. L.P. gas is regulated between 10 and 12 inches water column. The appliance regulator red[...]

  • Page 18

    Page 2-6 4 4 3 3 2 2 1 0 Hose Ne w W ater Le v els T otal Change In W ater Column = 4.00 IN. W .C . 2.00 IN. 2.00 IN. Incoming Gas Flow 1 8. Observe the movement of the water in the manometer. The gas pressure is read by adding the water movement in both legs of the tube, as shown in Figure 2-10. It should measure within the pressure rating stated [...]

  • Page 19

    Page 3-1 THE COOKT OP BURNER SYSTEM GAS DISTRIBUTION After gas passes through the gas pressure regulator, it enters the gas manifold for distribution to the cooktop burners, or the oven safety valve. The components that provide the safe distribution and operation of the cooktop burner system (see Figure 3-1) will be discussed in this section. GAS M[...]

  • Page 20

    Page 3-2 GAS V AL VE A typical Whirlpool gas valve and its component breakdown is shown in Figure 3-2. The gas valves are used to control the gas flow to the top burners. The gas valves are usually mounted to the top of the manifold pipe with a screw and rubber washer. The gas valve housing contains a hollow gas control seat. As the valve stem is r[...]

  • Page 21

    Page 3-3 GAS V AL VE ORIFICES An orifice is an opening used to control the direction and amount of gas that is discharged to a burner. Orifices are available in different sizes and shapes and can be removed and replaced without replacing the valve. PLUG-TYPE ORIFICES The cooktop burner orifice uses a plug-type orifice, as shown in Figure 3-5. The o[...]

  • Page 22

    Page 3-4 L.P . AND NA TURAL GAS ORIFICES The actual size and configuration of each orifice depends on several factors. The most important factor, however, is the type of gas that will be used by the gas range system. The two most frequently used types are: liquefied petroleum (L.P.) gas, and natural gas. L.P. gas is generally heavier than natural g[...]

  • Page 23

    Page 3-5 When L.P. gas is used, the cap is tightened down 2-1/2 turns so that it rests against the L.P. insert, closing off the spacing between the two (see Figure 3-8). The amount of gas leaving the orifice is now controlled by the size of the L.P. insert. UNIVERSAL ORIFICE—OVEN APPLICA TION Gas cooking systems for both L.P. gas and natural gas [...]

  • Page 24

    Page 3-6 GAS V AL VE ORIFICE DIAGNOSTICS A gas valve orifice is often a source for gas range problems. Some of the problems that arise with an orifice are as follows: 1. The orifice may become clogged from dirt, or slag in the gas lines. The result will be an over- restricted gas flow, causing the mixture to become too “ lean ” . This means tha[...]

  • Page 25

    Page 3-7 PERFORMANCE CHECK 1. Remove the gas valves. 2. Remove the orifices.[...]

  • Page 26

    Page 3-8 BURNER OPERA TION To understand how a burner operates, it is important to understand the following terms (see Figure 3-9): Gas: The fuel used by the burner, either natural or L.P. Primary Air: The air mixed with the gas in order to make the gas combustible. Secondary Air: The supplemental, or ambient air, surrounding the flame. Air/Gas Rat[...]

  • Page 27

    Page 3-9 = Gas = Air V enturi (Constricting Area) Adjustment Screw Adjustable Air Shutter Expanding Area Primar y Air Gas Inlet Mix ed Air & Gas Outlet Figure 3-12 The Cooktop Burner Assembly controls the combustion of gas and directs its flame (see Figure 3-11). Burners are manufactured from galvanized steel and have common component parts: 1.[...]

  • Page 28

    Page 3-10 BURNER HEAD When gas leaves the orifice, it passes through the venturi, and is forced into the burner head. As the gas passes between the orifice and the burner head, primary air is mixed with the gas to form a combustible mixture. The burner head disperses the gas/air mixture for ignition. In addition to the burner ports at the top of th[...]

  • Page 29

    Page 3-11 Outer Envelope Inner Cone Pushes Through Outer Cone Outer Cone Flame Lifts Off Burner Figure 3-15 The outer cone surrounds the inner cone. The outer cone is the hottest part of the flame. Secondary air is drawn into the flame at this point and accelerates combustion. As the by-products from the inner cone move into the outer cone, they ar[...]

  • Page 30

    Page 3-12 The inner-cone combustion process will occur in increased levels, and will release more of the harmful by-products, CO and Aldehydes. The level of secondary air will no longer be enough to convert these chemicals into the safe by-products CO 2 and H 2 O, and there will be higher levels of dangerous chemicals released into the room. NOTE: [...]

  • Page 31

    Page 3-13 Flame Quenching Flame quenching occurs when the flame is cooled before complete combustion occurs. Placing an object, such as an oven flame spreader into the flame, will cool or quench the flame, resulting in incomplete combustion. The object interrupts the combustion process and releases the unburned by-products from the inner or outer c[...]

  • Page 32

    Page 3-14 Figure 3-20 In the case of an over-fueled burner, the excessive length of the flames can result in the quenching at the oven flame spreader or top burner grate even though the flame spreader and grate may be at the proper distance. Check for this before adjusting the burners. When quenching occurs, (see Figure 3-20), the customer may comp[...]

  • Page 33

    Page 3-15 IMPROPER FLAME DIAGNOSTICS For any of the improper flames discussed, refer to the following chart for the appropriate corrective actions. In most of the malfunctions described thus far, the burner flames will change character- istics when a problem develops. However, there are times when the symptom of a burner problem is an unusual noise[...]

  • Page 34

    Page 3-16 Burner Climber Port CLEANING THE BURNERS The most common burner maIfunction is clogging due to excess dirt and debris, which can enter the burner through the burner ports. This excess dirt can block one or several of the ports so that the burner will have trouble lighting, or will not light at all. In this case, the burner ports must be c[...]

  • Page 35

    Page 3-17 1/4 " Flame Brack et Pilot Flame Size Figure 3-23 ST ANDING PILOT IGNITION SYSTEM OPERA TION The ignition system provides heat, which is the third element necessary for combustion. Whirlpool ranges use two different processes to provide this element. The first process is a standing pilot ignition, and the second is an electronic igni[...]

  • Page 36

    Page 3-18 When the gas control valve is turned on, gas flows to the burner head, and out the ports. There are ports at both the top and side of the burner head, as shown in Figure 3-25. The side ports direct gas to a flash tube , where it is drawn through the tube to the pilot flame, where it is ignited inside the tube. The ignited gas is then flas[...]

  • Page 37

    Page 3-19 ADJUSTING THE PILOT FLAME HEIGHT A pilot that frequently blows out may be set too high, or too low. To adjust the pilot flame to the correct height, perform the following steps: 1. Turn off the controls and prop open the cooktop. 2. Using a screwdriver, turn the needle valve screw slowly in the direction necessary to set the size of the p[...]

  • Page 38

    Page 3-20 CLEANING THE PILOT The small opening of a pilot can easily become clogged with dust, grease, or food, preventing proper gas flow. A pilot that will not light, or will not stay lit, may simply need to be cleaned. To clean the pilot, insert a straight pin into the pilot opening, as shown in Figure 3-28, and move it up and down gently, being[...]

  • Page 39

    Page 3-21 ELECTRONIC IGNITION SYSTEM OPERA TION The Electronic Ignition System performs the same function as the standing pilot ignition system. However, instead of using a standing pilot flame to ignite the main burners, a spark from a surface burner ignitor is used. The electronic ignition system consists of the following components: 1. Ignitor S[...]

  • Page 40

    Page 3-22 IGNITOR SPARK MODULE TO IGNITOR SWITCHES TO SURFACE BURNER IGNITOR Figure 3-30 Figure 3-31 Ground Strap (Brac ket) Metal Rod Electrode Wire Ceramic Insulated Body The Ignitor Spark Module is a solid-state device that is used to provide high voltage for the top burner ignitors (see Figure 3-30). Whenever the ignitor module is energized by [...]

  • Page 41

    Page 3-23 CONVENTIONAL BURNER When a main burner control knob q is turned to the “ lite ” position, the gas valve r opens, and gas flows through the pressure regulator s into the manifold t through the open valve. As gas passes through the valve and its orifice, it is directed into the venturi u , where it mixes with primary air to create the p[...]

  • Page 42

    Page 3-24 PRESSURE REGULATOR GAS INLET IGNITOR SPARK MODULE AIR SHUTTER GAS VALVE IGNITOR SWITCH VENTURI BURNER CONTROL KNOB GAS MANIFOLD SPARK IGNITOR BURNER CAP TO SPARK IGNITOR SPARK BURNER BURNER FLAME GAS FLOW 120 VAC LINE VOLTAGE GAS FLOW HIGH VOLTAGE PULSES OFF LITE 4 7 9 8 10 2 5 6 1 3 SEALED BURNER When a main burner control knob q is turn[...]

  • Page 43

    Page 3-25 ELECTRONIC IGNITION DIAGNOSTICS Problems with electronic ignition systems usually occur in one of two ways: the electrode will not spark, or the sparking will not stop. If the ignitors are in series, and one is not sparking, none will spark. Also, all spark ignitors use the same ignitor spark module, but different switches. If one burner [...]

  • Page 44

    Page 3-26 PERFORMANCE CHECK 1. Remove the burners. 2. Remove the ignition system (ignitor spark module, ignitor switches, and surface burner ignitors).[...]

  • Page 45

    Page 4-1 THE OVEN BURNER SYSTEM ST ANDING PILOT IGNITION OFF N A T L P Ov en Ther mostat Ov en Bur ner Main Gas Line Pilot Gas Line Sensing Bulb & Capillar y T ube Pilot Assembly Saf ety V alv e Pilot Flame Sensing Bulb & Capillar y T ube Manif old Gas In The complete Standing Pilot Ignition System (see Figure 4-1) is controlled by two very[...]

  • Page 46

    Page 4-2 The Thermostat is a hydraulic valve that has two separate gas lines and a sensing bulb (see Figure 4-2 ). The pilot gas line maintains a pilot flame in the oven, and the main gas line provides gas to the oven safety valve. The sensing bulb is a mercury-filled tube that controls the thermostat to open or close the gas lines, and release gas[...]

  • Page 47

    Page 4-3 The interaction between the thermostat and the safety valve is very important and critical to the operation of the oven. The thermostat provides two separate functions each time it is turned on, but first, we need to know what the thermostat does when it is in the “OFF” position. Even with the thermostat in the “Off” position, a su[...]

  • Page 48

    Page 4-4 As this is taking place, the thermostat also opens the main gas line, and provides gas to the safety valve (see Figure 4-6). As soon as the safety valve is hydraulically opened by the signal from the sensing bulb, gas is released from the safety valve to the oven burner, and ignited by the heater pilot flame. NOTE: If the heater pilot flam[...]

  • Page 49

    Page 4-5 OFF N A T L P OFF N A T L P Ov en Ther mostat Main Gas Line Pilot Gas Line Natural Gas Setting Adjustment Screw Gas “ OFF ” Setting L.P . Gas Setting NOTE: The thermostat used in the Standing Pilot range needs to be converted if L.P. gas is being used. A "Nat" or “ L.P. ” setting is located on the front face of the thermo[...]

  • Page 50

    Page 4-6 GLO-BAR IGNITION The Glo-Bar Ignition System (see Figure 4-10) is a 120-volt electrical system that consists of three important components. The three components, a thermostat that is controlled by the customer, an ignitor and a safety valve, both located inside the oven, create a very efficient system that is safe and dependable. Unlike th[...]

  • Page 51

    Page 4-7 BROIL 200 250 300 350 400 450 500 550 OFF BROIL 200 250 300 350 400 450 500 550 OFF 1. Oven Off Switch Open 2. Oven On 3. Oven T emp Reached Pressure Expands Sensor Actuator & Pushes Against Switch Actuator - Switch Opens - Oven T urns Off Switch Contacts Oven Thermostat Shaft Sensing Bulb 200 ˚ Heat F rom Ov en Sensor Actuator Shaft [...]

  • Page 52

    Page 4-8 The Oven Ignitor is made of a silicon-carbide material (see Figure 4-13). Ov en Glo-Bar Ignitor Figure 4-13 When voltage is applied to the ignitor, it heats up to 2000 ˚ F. As its temperature increases, its resistance decreases, allowing 2.5 to 3.0 amps to flow to the bimetal in the safety valve. This measurement is critical to the proper[...]

  • Page 53

    Page 4-9 Gas Outlet (T o Oven Burner) No Current Flow - V alv e Is Closed Gas Inlet (F rom Regulator) 120 V olt Supply T er minal Saf ety V alv e Bimetal & Heater Coil Figure 4-16 Gas is available at the safety valve at all times, but can be shut off by a manual shutoff valve on the regulator (see Figure 4-17). Manual Gas Shutoff V alv e Saf et[...]

  • Page 54

    Page 4-10 Throughout the cooking cycle, the oven will continue to “ heat up ” and “ cool down ” to maintain the selected temperature (see Figure 4-19). This operation is controlled by the thermostat ’ s sensing bulb. Safety V alve Opens & Gas Flows T o Ov en Burner Saf ety V alv e N L1 3.0 Amps T o Ov en Burner Ov en Glo-Bar Ignitor T[...]

  • Page 55

    Page 4-11 Safety V alve Closed No Gas Flow T o Ov en Burner Saf ety V alv e N L1 Low Amperage T o Ov en Burner Ov en Glo-Bar Ignitor 200˚ Heat F rom Oven Thermostat Switch Contacts Open Oven Is Cooling Figure 4-20 CLEANING THE OVEN BURNER The most common burner maIfunction is clogging due to excess dirt and debris, which can enter the burner throu[...]

  • Page 56

    Page 4-12 Oven Control P anel (Thermostat) Bake Burner Wires T o Broil Rela y Wires T o Bake Rela y Broil Burner Main Gas Inlet Broil Gas Line Glo-Bar Ignitors Dual Saf ety V alve Pressure Regulator 120-V olt Supply BAKE CUSTOM BROIL AUTO CLEAN TEMP HR MIN MIN START ENTER 5 SEC OFF CANCEL 88 88 888 O N H E A T B A K E B R O IL LO C K D C LE A N TE [...]

  • Page 57

    Page 4-13 Figure 4-23 Figure 4-24 Dual Saf ety V alv e Main Gas Inlet Broil Bimetal T er minals Bake Bimetal T er minals Bake Burner Gas Outlet Broil Bur ner Gas Outlet The electrical circuit is initiated by relays on the electronic control board. The electrical circuit is similiar to the circuit used with the Glo-Bar Ignition System (see Figure 4-[...]

  • Page 58

    Page 4-14 The electronic board is constructed with individual relays to operate the Bake, Broil, and Self Clean functions independently of each other. The Microcomputer board electrical diagrams (see Figure 4-26) show how opening and closing the relays operate the various customer-selected cycles. Figure 4-26 OVEN CONTROL TRANSFORMER P5 P4 P3-1 P2-[...]

  • Page 59

    Page 4-15 By the construction of the relays, both the Bake Function (see Figure 4-27), and the Broil function (see Figure 4-28), can not operate at the same time. The normally-closed position of the opposite relay is needed to complete the circuit. N L1 W W BU N.C. N.C. N.C. N.C. BU RR P3-1 P2-1 P3-4 P3-2 P2-4 P2-2 BROIL RELAY BAKE RELAY BAKE VALVE[...]

  • Page 60

    Page 4-16 F-CODE GUIDELINES F0 = If the most recent F-code is recalled via user input, F0 indicates no failure has occurred. F1 = Electronics Subsystem Failure. Replace electronic control board. E0 = EEPROM communication error. E1 = EEPROM checksum error. E2 = A/D converter error (is there an error bit in the micro?; does this mean lost a voltage r[...]

  • Page 61

    Page 4-17 PERFORMANCE CHECK 1. Remove the oven ’ s operating system (burners, safety valves, and ignitors).[...]

  • Page 62

    Page 4-18 THE SELF-CLEAN OVEN DOOR LOCKING SYSTEM At any time a range is in a self-clean operation, it needs to provide a safe environment for the customer. A self-clean cycle will reach temperatures of over 800 ˚ F during its 2- to 4-hour cycle. To prevent the consumer from accessing the oven while these extreme temperatures are present, every se[...]

  • Page 63

    Page 4-19 Figure 4-30 When the solenoid plunger extends, two things happen (see Figure 4-30). As the latch solenoid locks the door, it also activates the two door latch switches. Both door switches are normally-open switches. As the solenoid moves to lock the door, the switches toggle, and: a) Open the oven light circuit so that the light cannot be[...]

  • Page 64

    Page 4-20 Figure 4-31 L1 N BK W OVEN CONTROL LATCH SOLENOID RELAY LATCH SOLENOID P4 P1-3 P1-5 BU GY Y Y W W W BK R DOOR LATCH SWITCH DOOR LATCH SWITCH DOOR LIGHT SW. OVEN LIGHT MANUAL OVEN LIGHT SWITCH N.O. N.O. P1-1 1 SEC PULSE When the oven temperature reaches 600 ˚ , the oven door cannot be opened until the oven cools down to below 550 ˚ . At [...]

  • Page 65

    Page 5-1 NA TURAL AND L.P . GAS CONVERSION GENERAL Ranges must be adjusted when going from one type of fuel to another due to the characteristics of the gases. This means that, for efficient combustion, air must be mixed with the gas. The amount of air to be mixed with the amount of gas is called the air-to-gas ratio . The combustion ratio is diffe[...]

  • Page 66

    Page 5-2 Natural L.P. Spring Retainer Cap Gasket Gas Intlet Spring Figure 5-1A Spring Gas Outlet Figure 5-1B Gas Intlet Gas Outlet L.P. Natural Cap CONVERTING A PRESSURE REGULA T OR By varying the tension of the regulator spring, the gas outlet pressure can be controlled for natural and L.P. gas. The regulator spring tension is adjusted by reversin[...]

  • Page 67

    Page 5-3 CONVERTING AN OVEN THERMOST A T If the range is equipped with a standing pilot in the oven, an adjustment for the pilot must be made. The gas for the oven’s standing pilot is supplied by the oven thermostat. Thermostats used on standing pilot ranges have a screw to adjust for natural or L.P. gas (see Figure 5-4). Turn the adjustment scre[...]

  • Page 68

    Page 5-4 Bake Burner Air Shutter BURNER FLAME ADJUSTMENT After converting the range to L.P. gas operation, it may be necessary to adjust each burner flame (cooktop and oven burners). A proper cooktop burner flame should be approximately 5/8 " high and have a well-defined blue flame. The oven burner flame should be approximately 3/4 " high[...]

  • Page 69

    Page 5-5 PERFORMANCE CHECK 1. Convert the pressure regulator, cooktop and oven burners, for use with L.P. gas.[...]

  • Page 70

    Page 5-6 — NOTES —[...]

  • Page 71

    Page 6-1 TESTING THE COMPONENTS W ARNING LABELS This manual is intended for factory-service technicians only. We recommend that customers DO NOT service their own units, because of the complexity and risk of high-voltage electrical shock. The following information should be read carefully.[...]

  • Page 72

    Page 6-2 GENERAL INFORMA TION 1. When diagnosing a problem, always begin by checking the range for the proper line voltage, open fuses, and defective components. 2. New ranges that have been in operation for only a short time should be checked for loose connections or incorrect wiring. 3. When using a test meter, use one that has a sensitivity of 2[...]

  • Page 73

    Page 6-3 Steady State Current = 3.0 Amps @ 115 ± 1 VAC @ 75˚F ± 10˚ Ambient. Cold Resistance = 500 Ω TO 1100 Ω @ 75˚F ± 10˚ Ambient. Maximum Operating Temperature Not To Exceed 2650˚F @ 115 ± 1 VAC @ 75˚F ± 10˚ Ambient. TESTING AN OVEN GLO-BAR IGNITER If the glo-bar ignitor (see Figure 6-2) does not glow, perform the following steps[...]

  • Page 74

    Page 6-4 OFF LITE Control OFF Switch Open OFF LITE Control Set T o Lite Switch Closed 5. Turn the control knob to the LITE position, and the meter should indicate continuity . If the readings are not as indicated in the test, replace the switch. TESTING AN IGNITOR SWITCH The ignitor switch (see Figure 6-3A) is located on the gas control valve stem [...]

  • Page 75

    Page 6-5 TESTING AN OVEN LIGHT SWITCH The oven light switch can be a rocker-type, (see Figure 6-4A), or a pushbutton-type (see Figure 6-4B) switch. The rocker switch is manually operated, and the pushbutton switch is operated by the oven door. The pushbutton switch may have more that two terminals, depending on the model. The terminal callouts for [...]

  • Page 76

    Page 6-6 TESTING AN OVEN TEMPERA TURE SENSOR Some oven controls use an oven temperature sensor (see Figure 6-5) to operate the bake, broil, and self-clean functions. The oven temperature sensor is a “ Resistance Temperature Detector (RTD) ” and is composed of a stainless steel tube with a thin film of platinum on the end. The sensor is usually [...]

  • Page 77

    Page 6-7 To test the solenoid windings, perform the following steps: 1. Turn off the gas and electrical power to the range. 2. Set the ohmmeter to the R x 1 position. 3. Remove the wire from either solenoid terminal (see Figure 6-7). 4. Touch the ohmmeter leads to the terminals of the solenoid. You should obtain a reading of between 40 Ω and 70 ?[...]

  • Page 78

    Page 6-8 SWITCH COM NO TERMINALS Figure 6-8 To test the switch(es) : 1. Turn off the gas and electrical power to the range. 2. Disconnect the wires from the switch terminals. 3. Set the ohmmeter to the R x 1 position. 4. Connect one of the ohmmeter leads to the common (COM) terminal. 5. Touch the other ohmmeter lead to the normally-open (N.O.) swit[...]

  • Page 79

    Page 6-9 TESTING A GAS SAFETY V AL VE Some gas ranges use an electrically-controlled gas safety valve to control the flow of gas to the oven burner. The electric safety valve controls the gas flow by means of a bimetal-controlled diaphragm. Self-clean models have a single inlet, dual outlet, bimetal-operated safety valve. To prevent miswiring, the [...]

  • Page 80

    Page 6-10 TESTING THE GAS CONTROL V AL VES The top burner gas valves control the gas flow to the top burners. The valve is a barrel and core, grease sealed, locking type valve (see Figure 6-12). Before the stem can be turned, it must be pushed in to unlock the valve. Gas flows from the manifold pipe into the rear of the valve and enters into the ho[...]

  • Page 81

    Page 6-11 TESTING THE GAS PRESSURE REGULA TOR The pressure regulator is a mechanical device that reduces the higher incoming gas pressure to a lower outgoing pressure, and maintains a steady, even flow of gas. The pressure regulator has one outlet that is connected directly to the gas safety valve. The inlet has a manual shutoff valve so that the g[...]

  • Page 82

    Page 6-12 PROBLEM POSSIBLE CAUSE SOLUTION Gas odor. Gas odor with all pilots lit or with electronic ignition. Surface burner does not light. Surface burner pilot does not stay lit. Surface burner flame low or uneven. Surface burner flame too high, noisy, or blowing. Surface burner flame yellow or sooty. Pilot light out. Ventilate room, then relight[...]

  • Page 83

    Page 6-13 Oven burner does not light. Oven burner pilot does not stay lit. Oven does not hold set tempera- ture so that oven bakes unevenly. Self-cleaning oven does not clean. Pilot light set too low. Pilot opening blocked. Check door and oven gasket. Clear burner openings. Replace thermostat assembly. PROBLEM POSSIBLE CAUSE SOLUTION Pilot light ou[...]

  • Page 84

    Page 6-14 SCHEMA TIC DIAGRAMS Standard Range L1 N BK BK V V RR W W W BK Y Y BK OVEN TEMP SENSOR SURFACE BURNER IGNITOR SWITCHES IGNITOR MODULE DOOR SW. OVEN CONTROL TRANSFORMER P3-6 P3-7 P3-3 P4-3 P4-1 P3-4 P2-2 P3-5 P2-1 P4-4 BAKE VALVE BAKE IGNITOR OVEN LIGHT GND GND GN[...]

  • Page 85

    Page 6-15 L1 N BK BK V V W W W BU BU RR BR BU GY Y Y W W W W W BK BK BK BK OVEN TEMP SENSOR OVEN CONTROL TRANSFORMER P5 P1-1 P1-5 P1-3 P4 P1-6 P1-7 P3-1 P2-1 P3-4 P3-2 P2-4 P2-2 LATCH SOLENOID RELAY BROIL RELAY BAKE RELAY LATCH SOLENOID DOOR LATCH SW. DOOR LATCH SW. BAKE VALVE BROIL VALVE BAKE IGNITOR BROIL IGNITOR IGNITOR MODULE DOOR LIGHT SW. OVE[...]

  • Page 86

    Page 6-16 L1 N W BK BK R W VV OVEN CONTROL OVEN CONTROL TRANSFORMER SENSOR BAKE RELAY BAKE VALVE BAKE IGNITOR BROIL RELAY P3-4 P3-1 P1-6 P1-7 P5 P2-1 P2-4 BAKE STRIP CIRCUITS BROIL L1 N W BK BK BU W VV OVEN CONTROL OVEN CONTROL TRANSFORMER SENSOR BAKE RELAY BROIL VALVE BROIL IGNITOR BROIL RELAY P3-2 P3-1 P1-6 P1-7 P5 P2-1 P2-2 L1 N W BK OVEN CONTRO[...]

  • Page 87

    Page 6-17 L1 N W BK BK BU BR BU GY GY Y W W VV OVEN CONTROL OVEN CONTROL TRANSFORMER SENSOR BAKE RELAY BAKE VALVE BAKE IGNITOR BROIL RELAY LATCH RELAY* P3-4 P4 P3-1 P1-6 (N.O.) DOOR LATCH SWITCH DOOR LATCH SWITCH LATCH SOLENOID P1-5 P1-1 P1-3 P1-7 * PULSE 1 SECOND P5 P2-1 P2-4 SELF-CLEAN N L1 WW B K OVEN LIGHT OVEN LIGHT[...]

  • Page 88

    Page 6-18 — NOTES —[...]