RF21SM A, C, G Electric Convection Oven Range Technical Manual

RF21SM A, C, G Electric Convection Oven Range Technical Manual
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The RF21SM A, RF21SM C, and RF21SM G Electric Convection Oven Ranges combine a large convection oven with several choices of cooking top arrangements. The cooking top selections include grills, hot tops, and speed units. Each 12 inch section of the cooking top is controlled independently with its own switch. The convection oven controls include a 150° F - 450° F thermostat, an on-off switch, a damper control, and a loud one hour timer. The oven is large enough to hold six racks (three supplied, three optional) and includes six 18 inch x 26 inch bun pans and three 12 inch x 20 inch x 4 inch food pans.

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Lang RF21SM A, RF21SM C, RF21SM G Electric Convection Oven Range Technical Manual | Manualzz

S6161-DR-FSE-010

0910-LP-105-5863 REVISION 1

TECHNICAL MANUAL

FOR

[SGML VERSION; SEE RECORD OF

REVISIONS ]

ELECTRIC CONVECTION

OVEN RANGE

MODELS RF21SM-A

RF21SM-C

RF21SM-G

DISTRIBUTION STATEMENT E: DISTRIBUTION AUTHORIZED TO DOD COMPONENTS

ONLY; CRITICAL TECHNOLOGY; (15 SEP 2006). OTHER REQUESTS SHALL BE

REFERRED TO THE NAVAL SEA SYTEMS COMMAND ((SEA-09T).)

WARNING: THIS DOCUMENT CONTAINS TECHNICAL DATA WHOSE EXPORT IS

RESTRICTED BY THE ARMS EXPORT CONTROL ACT (TITLE 22, U.S.C. SEC 2751, ET

SEQ.) OR THE EXPORT ADMINISTRATION ACT OF 1979, AS AMENDED, TITLE 50,

U.S.C., APP 2401 ET SEQ. VIOLATIONS OF THESE EXPORT LAWS ARE SUBJECT TO

SEVERE CRIMINAL PENALTIES. DISSEMINATE IN ACCORDANCE WITH PROVISIONS

OF DOD DIRECTIVE 5230.25(D).

DESTRUCTION NOTICE: DESTROY BY ANY METHOD THAT WILL PREVENT DISCLO-

SURE OF CONTENTS OR RECONSTRUCTION OF THIS DOCUMENT.

SUPERSEDURE NOTICE: THIS PUBLICATION SUPERSEDES S6161-DR-FSE-010

DATED 1 NOV 1986, AND ALL CHANGES THERETO.

PUBLISHED BY DIRECTION OF COMMANDER, NAVAL SEA SYSTEMS COMMAND

15 SEP 2006

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S6161-DR-FSE-010

REVISION NO.

1

DATE

15 SEPTEMBER

2006

RECORD OF REVISIONS

TITLE AND/OR BRIEF DESCRIPTION/PREPARING ACTIVITY

INCORPORATED TMDER Q90616-02-GK07. CHANGE AUTHO-

RIZED BY NSWCCD-SSES CODES 9442 AND 9783. THE FOL-

LOWING WAS CHANGED:

FIGURES #1 ,

#5 , AND

#6 . ADDED

CIRCUIT BREAKER TO

PARTS LIST.

MODIFIED

OPERATING

INSTRUCTIONS .

NOTE

THIS TECHNICAL MANUAL (TM) HAS BEEN DEVELOPED FROM AN INTELLIGENT ELECTRONIC

SOURCE KNOWN AS STANDARD GENERALIZED MARKUP LANGUAGE (SGML). THERE IS NO LOEP.

ALL CHANGES, IF APPLICABLE, ARE INCLUDED. THE PAGINATION IN THIS TM WILL NOT MATCH

THE PAGINATION OF THE ORIGINAL PAPER TM; HOWEVER, THE CONTENT IS EXACTLY THE SAME.

ANY CHANGES RECEIVED AFTER RECEIPT OF THIS TM WILL ONLY FIT IN THIS PAGINATED VERSION.

RECORD OF REVISIONS-1 / (RECORD OF REVISIONS-2 Blank)

RECORD OF REVISIONS-2

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S6161-DR-FSE-010

FOREWORD

This technical manual provides description, operation, maintenance, troubleshooting, repair and parts list information for the Electric Convection Oven Range. This technical manual is intended for guidance of and use by personnel operating and maintaining the equipment described herein.

Ships, training activities, supply points, depots, Naval Shipyards and Supervisors of Shipbuilding are requested to arrange for the maximum practical use and evaluation of NAVSEA technical manuals. All errors, omissions, discrepancies and suggestions for improvement to NAVSEA technical manuals shall be forwarded to:

COMMANDER,

CODE 310 TMDER, BLDG 1388

NAVSURFWARCENDIV NSDSA

4363 MISSILE WAY

PORT HUENEME CA 93043-4307 on NAVSEA/SPAWAR Technical Manual Deficiency/Evaluation Report (TMDER), NAVSEA form 4160/1. All feedback comments shall be thoroughly investigated and originators will be advised of action resulting therefrom.

One copy of NAVSEA form 4160/1 is at the end of each separately bound technical manual 8-1/2 x 11 inches or larger. Copies of NAVSEA form 4160/1 may be requisitioned from the Naval Systems Data Support Activity

Code 310 at the above address. Users are encouraged to transmit deficiency submittals via the Naval Systems

Data Support Activity web site located at: http://nsdsa.phdnswc.navy.mil/tmder/tmder-generate.asp?lvl=1

Individual electronic TMs do not contain NAVSEA form 4160/1 but are linked to an electronic version on the resident CD-ROM. Therefore, we encourage the user to transmit deficiency submittals via the Naval Systems

Data Support Activity web site located above.

FOREWORD-1 / (FOREWORD-2 Blank)

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S6161-DR-FSE-010

TABLE OF CONTENTS

Chapter/Paragraph

1

MARINE CONVECTION OVEN RANGE . . . . . . . . . . . . . . . . . . . . . .

OUTSTANDING FEATURES.

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Page

1-1

1-1

ARCHITECT SPECIFICATIONS.

. . . . . . . . . . . . . . . . . . . . . . . . . . . .

INSTALLATION INSTRUCTIONS. . . . . . . . . . . . . . . . . . . . . . . . . . . .

OVEN OPERATING INSTRUCTIONS. . . . . . . . . . . . . . . . . . . . . . . . . .

RANGE TOP OPERATING INSTRUCTIONS. . . . . . . . . . . . . . . . . . . . . .

MAINTENANCE INSTRUCTIONS. . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-2

1-2

SERVICE PROCEDURE. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-8

MAJOR COMPONENT DISASSEMBLY, REPAIR, REPLACEMENT AND

REASSEMBLY. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-17

PARTS LIST. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-21

1-3

1-6

1-7 i

S6161-DR-FSE-010

Table

LIST OF TABLES

Title Page

Troubleshooting

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-12

Parts List

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-21 ii

Figure

S6161-DR-FSE-010

#1

#2

LIST OF ILLUSTRATIONS

Title

Picture of Oven . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Page

1-1

1-4

#3 Leg Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-5

#4 Service Block Diagram

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-11

#5 Wiring Diagram

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-19

#6 Typical Exploded View

. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-22 iii

S6161-DR-FSE-010

SAFETY SUMMARY

GENERAL SAFETY NOTICES

The following general safety notices supplement the specific warnings and cautions appearing elsewhere in this manual. They are recommended precautions that must be understood and applied during operation and maintenance of the equipment covered herein. Should situations arise that are not covered in the general or specific safety precautions, the commanding officer or other authority will issue orders as deemed necessary to cover the situation. No work shall be undertaken on energized equipment or circuits until approval of the commanding officer is obtained, and then only in accordance with Naval Ships Technical Manual (NSTM) S9086-KC-STM-

010/Chapter 300.

DO NOT REPAIR OR ADJUST ALONE

Under no circumstances shall repair or adjustment of energized equipment be attempted alone. The immediate presence of someone capable of rendering first aid is required. Before making adjustments, be sure to protect against grounding. If possible, adjustments should be made with one hand, with the other hand free and clear of equipment. Even when power has been removed from equipment circuits, dangerous potentials may still exist due to retention of charges by capacitors. Circuits must be grounded and all capacitors discharged prior to attempting repairs.

TEST EQUIPMENT

Make certain test equipment is in good condition. If a metal-cased test meter must be held, ground the case of the meter before starting measurement. Do not touch live equipment or personnel working on live equipment while holding a test meter. Some types of measuring devices should not be grounded; these devices should not be held when taking measurements.

INTERLOCKS

Interlocks are provided for safety of personnel and equipment and should be used only for the purpose intended. They should not be battle shorted or otherwise modified except by authorized maintenance personnel.

Do not depend solely upon interlocks for protection. Whenever possible, disconnect power at the power distribution source.

MOVING EQUIPMENT

Personnel shall remain clear of moving equipment. If equipment requires adjustment while in motion, a safety watch shall be posted. The safety watch shall have a full view of the operations being performed, and immediate access to controls capable of stopping equipment motion.

FIRST AID

An injury, no matter how slight, shall never go unattended. Always obtain first aid or medical attention immediately, and file an injury report in accordance with OPNAVINST 5102.1 series, subj: Mishap Investigation and Reporting.

iv

S6161-DR-FSE-010

SAFETY SUMMARY - Continued

RESUSCITATION

Personnel working with or near high voltage shall be familiar with approved methods of resuscitation.

Should someone be injured and stop breathing, begin resuscitation immediately. A delay could cost the victim’s life. Resuscitation procedures shall be posted in all electrically hazardous areas.

GENERAL PRECAUTIONS

The following general precautions are to be observed at all times.

1.

Install and ground all electrical components associated with this system/ equipment in accordance with applicable Navy regulations and approved shipboard practices.

2.

Ensure that all maintenance operations comply with Navy Occupational Safety and Health

(NAVOSH) Program Manual for Forces Afloat, OPNAVINST 5100.19 series.

3.

Observe precautions set forth in NSTM S9086-KC-STM-010/Chapter 300 with respect to electrical equipment and circuits.

4.

Ensure that protective guards and shutdown devices are properly installed and maintained around rotating parts of machinery and high voltage sources.

5.

Do not wear loose clothing while working around rotating parts of machinery.

6.

Ensure that special precautionary measures are employed to prevent applying power to the system/ equipment any time maintenance work is in progress.

7.

Do not make any unauthorized alterations to equipment or components.

8.

Before working on electrical system/equipment, check with voltmeter to ensure that system is not energized.

9.

Consider all circuits not known to be

″ dead,

″ ″ live

″ and dangerous at all times.

10. When working near electricity, do not use metal rules, flashlights, metallic pencils, or any other objects having exposed conducting material.

11. Deenergize all equipment before connecting or disconnecting meters or test leads.

12. When connecting a meter to terminals for measurement, use range higher than expected voltage.

13. Before operating equipment or performing any tests or measurements, ensure that frames of all motors and starter panels are securely grounded.

14. Ensure that area is well-ventilated when using cleaning compound or solvent. Avoid prolonged breathing of fumes and compound or solvent contact with skin or eyes.

WARNINGS AND CAUTIONS Specific warnings and cautions applying to the system/equipment covered by this manual are summarized below. These warnings and cautions appear elsewhere in the manual following paragraph headings and immediately preceding the text to which they apply. They are repeated here for emphasis.

v

S6161-DR-FSE-010

SAFETY SUMMARY - Continued

WARNING

Remove the spacers and lower the top onto the oven. (Page 1-2)

WARNING

Make sure the six wire leads to supply electricity to the cook top are not

crimped between the oven and range top. (Page 1-3)

WARNING

Burns could occur when dealing with hot grease!! Empty grease drawers daily or when they are 1/3 full. They are easily removed for washing. (Page

1-7)

WARNING

Disconnect from power before attempting any repair. (Page 1-12)

WARNING

Disconnect power before opening panels. All parts referred to are illustrated and identified on

Figure #6,

Typical Exploded View. (Page 1-12)

WARNING

When testing for

grounds

, power must be disconnected from unit. (Page

1-13)

WARNING

Disconnect the unit from power source before testing

. Again using the

OHM-meter, check for continuity by connecting to one terminal on the block

vi

S6161-DR-FSE-010

and using the probe locate the terminal that acts as the other end of the loop.

The switches and other components in the loop must be in the

on

position

to satisfy continuity requirement. (Page 1-15)

WARNING

Disconnect range from power before attempting any repair. (Page 1-17)

CAUTION

Prior to putting any range or oven into full time operation at normal cooking temperatures, it must be thoroughly

seasoned

or dried out. Moisture absorption in the closed spaces, in the insulation and even inside the heating

elements can cause future trouble if not properly treated. (Page 1-3)

CAUTION

All French plates should be turned to the off position when not in use.

Allowing these elements to stay in the full on or high position with nothing on top to absorb or dissipate the heat is detrimental to element life. (Page

1-7)

CAUTION

When scraping griddle surface, do not scrape the splash guard. It may

eventually be cut through. (Page 1-8)

CAUTION

After installing the new thermostat be positive the silver tube is not near any exposed terminals. If the thermostat tube touches any live terminals it will

be destroyed and have to be replaced again. (Page 1-17)

vii / (viii Blank)

viii

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MARINE CONVECTION OVEN RANGE

CHAPTER 1

S6161-DR-FSE-010

Figure #1 Picture of Oven

OUTSTANDING FEATURES.

• Choice of cooking top arrangements are combinations of grills, hot tops and speed units.

• Each twelve inch section of cooking top shall be controlled independently by its own switch. Convection oven controls include a 150° F - 450° F thermostat, on-off switch, damper control, and a loud one hour timer.

• Range controls are located in the cool zone to ensure a long and accurate life.

• A spatula wide grease gutter is located on the front of the range. Grease from the front gutter is funneled to a large grease drawer which runs the full width and depth of the range.

• Oven is large enough to hold six racks (three supplied, three optional). Oven holds six 18 inch x 26 inch bun pans and three 12 inch x 20 inch x 4 inch food pans.

• Each oven is hand packed with three inches of insulation on all sides for maximum efficiency and a cooler galley.

• The range is provided with a 12 month warranty to cover all parts and labor.

• Lang Marine Ranges meet the requirements of the United States Coast Guard and National Sanitation Foundation Testing Laboratory. The range is U. L. approved.

1-1

S6161-DR-FSE-010

ARCHITECT SPECIFICATIONS.

• The Lang Convection Oven Range has the largest convection oven in the industry: 17 inch high x 20 inch wide x 29 inch deep.

• Standard finish shall be high quality stainless steel front, front gutter, and 6 inch front landing. Balance is grey hammertone enamel. Available at additional cost stainless steel sides, back rear gutter, back riser and 6 inch bolt down legs.

• Ranges are furnished, as standard equipment, in two-piece construction - top and oven - to permit entrance through narrow 26 inch galley doors.

• Standard equipment includes nickle plated sea rails over the tops and speed units, stainless steel grab bar and door latch.

• Electrical switch box shall be furnished, if required or specified.

• Oven interior shall be constructed of non-chipping aluminized steel.

• Convection oven motors are 1/3 H.P., 1750 RPM, prelubricated for long life. Heating elements and fan are located on the right side of the oven.

• 208-V, 240-V, and 480-V ovens are equipped with hydralic-magnetic circuit breakers as standard equipment.

INSTALLATION INSTRUCTIONS.

The Lang Model RF21 Convection Oven Range was designed in modular construction to allow passage through a 26 inch by 66 inch watertight door.

Do not remove crating until the unit is as near its location as practical. This will help prevent damage normally associated with movement through door and hallways.

When the range is as close as possible to the final installation remove the crating material from the oven section. Look inside the oven cavity to locate the oven legs.

Remove the legs from inside the oven. Attach the legs to bottom corner of the oven using two each 3/8-16

X 5/8 bolts per leg. The bolts are provided and will also be found inside the oven.

Remove crating from range top.

Place spacers, (ie: 2 X 4 wood block not supplied) at the front and rear of the oven top.

Place the range top on the spacers that are located on top of the oven.

The six wire leads to supply electricity to the cook top are bundled under the front bottom of the top. Route these wires through the bushing provided in the oven top.

top.

Align the four locating pins in the bottom corner of the top with the four holes in each corner of the oven

WARNING

Remove the spacers and lower the top onto the oven.

1-2

S6161-DR-FSE-010

WARNING

Make sure the six wire leads to supply electricity to the cook top are not crimped between the oven and range top.

Use the wiring diagram ( Figure #5 ) provided in this manual for determining the connections of the cook top

wires to the oven terminal block.

Electrical service connection is made through the bottom of the oven. A hole is provided for the attachment of 1 1/4 inch conduit. See

Top View

″ of

Figure #2.

Use the wiring diagram provided in this manual to determine the electrical specification.

See

Figure #3

for Bolt-Down Leg Spacing and Bolt Hole Size.

OVEN OPERATING INSTRUCTIONS.

Controls and Signals Lights.

The toggle switch on the lower portion of the control panel energizes the fan motor and activates the thermostatically controlled circuit for the oven heating elements. When this switch is in the on position, the indicator light will be illuminated.

Rotating the thermostat control knob from

″ off

″ position to selected temperature causes indicator light to illuminate and closes the contactor that feeds power to the heating elements. This light will cycle

″ on and off

″ as the thermostat calls for heat in the oven. The blower however, operates continuously while the toggle switch is in the

″ on

″ position.

The black control knob operates a damper in the oven vent stack. Damper is open when knob is pulled outward.

The two fuses on the control panel protect the electrical components from overload.

Initial preheat.

CAUTION

Prior to putting any range or oven into full time operation at normal cooking temperatures, it must be thoroughly

seasoned

or dried out. Moisture absorption in the closed spaces, in the insulation and even inside the heating elements can cause future trouble if not properly treated.

To

″ season

″ the Lang convection oven, after making the proper electrical connection, set the thermostat dial at 200° F and turn the toggle switch

″ on

. Allow unit to cycle at least 15 minutes at this heat level. Reset the thermostat to 250° F allowing the same time. Then reset the thermostat to 350° F. The oven should be operated at this heat level for 5 hours, to insure the complete removal of all moisture.

1-3

S6161-DR-FSE-010

1-4

Figure #2 Specifications

Figure #3 Leg Installation

S6161-DR-FSE-010

Loading the F6S Convection Oven.

Turn thermostat and power switch to the off position.

Adjust oven support racks to positions or spacing for the product to be baked.

Pan support racks should always be spaced for maximum uniform spacing. The word uniform in this case is of great importance

Counting from the top of the oven, rack position 2-4-6, are used most frequently for bake items having a relatively high profile. Using even numbered rack positions provides the uniform spacing essential to uniform baking results. Cookies, grilled cheese sandwiches and like items can be placed on all rack positions for a full load because of their low profile in shallow pans or on cookie sheets. When only 3 pans are required, place them on racks 2-4-6.

Non-browning items, casseroles, frozen food products to be thawed and heated may be placed in all rack positions. Time required increases with the load, but results will be quite satisfactory if the individual containers are uniformly spaced as to rack position and their relative position on each rack.

Close oven door. Set oven thermostat 20° to 25° F above baking temperature listed for the product, turn switch

″ on

″ and preheat for 20 minutes.

Open the door and load the oven. Reset the thermostat to desired baking temperature.

The damper on all Lang ovens is operated by a push rod whose end extends through the control panel terminating in a control knob. Its purpose is to establish and control the relative humidity in oven during a baking or roasting operation.

All baking should be done with the damper in the closed position.

Open damper for moist casseroles and roasting meats.

RANGE TOP OPERATING INSTRUCTIONS.

GRIDDLE.

The griddle surface is divided into 12 inch sections each of which is independently controlled by thermostats ranging from 150° F to 450° F. To the left of each thermostat is an indicator lamp. The lamp is on when the griddle is heating.

Thoroughly clean the griddling surface with a damp cloth and a mild detergent to remove the coat of rust preventative applied at the factory. Wipe COMPLETELY dry. DO NOT use excessive water, remembering this is a piece of electrical equipment. Apply power and set thermostat dial to 200° F. Allow griddle to heat until pilot light and thermostat starts cycling. At this time apply a light coat of unsalted cooking oil or fat to the cooking surface. Re-set thermostat to 250° F and hold for 30 minutes. Re-coat any dry spots that appear with cooking oil.

Reset temperature to 300° F for 30 minutes covering dry spots with oil as they appear. Liberal but not excessive use of oil or fat is recommended.

After 30 minutes at 300° F, re-set to 350° F, coating dry spots if they appear, for 30 minutes. Raise temperature to 400° F or until the cooking oil starts to smoke.

Inspect for browning gummy spots. Add a dab of oil to spot and work area with spatula. Avoid scratching surface of griddle as new spatulas have sharp edges. Approximately five minutes of smoking grease should be ample to thoroughly season the cooking surface, food products can then be griddled without undue sticking. The surface will improve with use and it is not truly seasoned until a brown almost black varnish of semi-burned food particles is formed.

If necessary to repeat the cooking surface seasoning, the temperature may be brought immediately up to grease smoking values simply by setting the thermostat dial.

1-6

S6161-DR-FSE-010

To maintain a well seasoned griddle surface, set thermostat to 400° F until coating of oil starts to smoke.

Using a smooth edged spatula vigorously scrape down cooking surface, removing food scraps and deposits. Wipe with rolled burlap and lightly re-coat with unsalted cooking oil. Drop temperature to resume cooking or turn griddle thermostat to off position.

The griddle takes approximately 20 minutes pre-heating time to 350° F.

Proper Griddle Temperatures

Eggs

Bacon

Sausage

Hash Browns

Grilled Sandwiches

Chops

Cutlets

Steaks

Hamburgers

Pancakes

300-325° F

300° F

300° F

350° F

350° F

350° F

350° F

350° F

350° F

375° F

French Plates.

Your Lang range top (if so equipped) has two 9 inch diameter French Plates, each operated by a separate control.

Each French plate is controlled by a six heat (seven position) switch located on the range top control panel.

The six heat positions allow you the versatility to simmer or rapidly boil in pots of many different sizes.

For initial pre-heat turn switches to the number 2 position and allow to idle for 2 hours.

CAUTION

All French plates should be turned to the off position when not in use.

Allowing these elements to stay in the full on or high position with nothing on top to absorb or dissipate the heat is detrimental to element life.

MAINTENANCE INSTRUCTIONS.

Daily Cleaning.

WARNING

Burns could occur when dealing with hot grease!! Empty grease drawers daily or when they are 1/3 full. They are easily removed for washing.

Clean exterior of the range with hot water and a mild detergent to maintain a gleaming appearance.

Keep the griddle plate surface clean. After each cooking load, scrape the griddle surface to remove any carbonized grease.

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S6161-DR-FSE-010

CAUTION

When scraping griddle surface, do not scrape the splash guard. It may eventually be cut through.

Weekly Cleaning.

Once a week or when necessary, the griddle surface should be thoroughly cleaned and reseasoned. Use a griddle stone or wire brush. Rub with the grain of the metal, being careful not to scrape the splash guard. A mild detergent with water or one of many commercial griddle cleaners may be used. Be sure to rinse thoroughly. Reseason the griddle.

Cleaning Oven Interior.

The stainless steel oven lining panels should be removed for cleaning. They may be cleaned with a soap and water solution or commercial stainless steel cleaner.

The oven racks and rack supports may be cleaned by removing from the oven and soaking in a solution of ammonia and water.

Thermostat Calibration.

All thermostats are factory calibrated and are extremely reliable mechanical devices.

Calibration of thermostats should only be attempted if continued experience dictates unsatisfactory cooking temperatures.

Calibrating the Griddle.

Locate a surface thermometer in the center of each 12 inch x 24 inch section.

Set the thermostat at 350° F and allow the temperature to stabilize.

Record three

″ cycle on

″ temperatures and three

″ cycle off

″ temperatures. Average the six readings. They should fall within 15° F of the set temperature.

To adjust the thermostat, remove the knob and insert a small flat blade screw driver down the center of the shaft to a screw located at the end.

Turning the screw counterclockwise raises the surface temperature and turning the screw clockwise lowers the surface temperature. Use caution when adjusting and turn the screw in 1/8 turn intervals to avoid over correcting. A 1/8 turn changes the thermostat calibration approximately 5° F.

Calibrating the Oven.

Locate an oven thermometer or thermocouple in the center of the oven cavity.

Follow the same procedures for calibrating the grill.

SERVICE PROCEDURE.

Introduction.

A working knowledge of electricity, basically OHM’s law, a V.O.M., and an analytical mind are all that is needed.

Tools of the Trade.

A very great many service calls and calls back could be avoided if the serviceman had used the proper tool. Almost never is a part of the electrical system used as structural part of the appliance. Over tightening of electrical connections and mounting screws, results in stripping thread, cracking plastic insulators and intermittent broken connections that are hard to locate. Six to eight inch pliers, side cutters, and screwdrivers are large enough for any appliance repair job. A 1/4

″ drive socket set, along with a few open end and or box end wrenches, is adequate for most jobs. A few specialty tools are sometimes needed. Test equipment.

1-8

S6161-DR-FSE-010

Volt-OHM meter (VOM)

Checking circuit continuity can often be done with an ordinary electric light bulb (preferably the 7 1/2 watt size for compactness), an alligator clip, test probe and 110 volt plug all wired in series, however, this piece of equipment leaves much to be desired.

An accurate volt-OHM meter with a thermocouple range along with a plug-in adapter for A.C. ampere measurements will provide for all the electric and temperature tests necessary.

The Simpson model 22S, V.O.M. with temperature range and the model 150 AMP clamp plug-in adapter comprise a recommended combination.

This test instrument combination is available from the:

Simpson Electric Company

5200 W. Kinzie Street

Chicago, Illinois 60644

Phone: (312)379-1121

Representatives in principal cities - see yellow pages

Temperature Measurement.

The thermocouple accessory included with the above recommended

VOM

″ is quite suitable for all open space temperature measurements. Some difficulty will be found, however, when measuring griddle or hot plate surfaces. The welded ball of metal joining two rather flexible wires of the thermocouple doesn’t provide for sufficient rigidity to make the firm surface to thermocouple contact required for a valid reading. An excellent surface pyrometer may be obtained from:

Claud S. Gordon Company

Chicago, Illinois of Cleveland, Ohio

Type LY-840

Unless the appliance operator has a good working knowledge of the electrical and mechanical functions of the equipment in question, it is best to listen politely to what the unit won’t do, or is doing wrong, nod your head knowingly, then proceed on your own.

The service-repair man must first of all know what the appliance is suppose to do and why,

″ meaning know the equipment you service

, read the service manual, study the wiring diagram, operate the knobs and controls and most important locate and associate the actual parts with the actual parts with the symbols shown on the wiring diagrams.

As an aid to the familiarization of the service engineer with general arrangement of circuit and components as displayed by Lang products, the following block diagram should render a great deal of assistance.

1-9

S6161-DR-FSE-010

Ohms Law

It should be noted that the power source, and the heating elements are the main points. The rest of the components convey and/or control the power on its way to the heating elements. Branch circuits are added to provide further safety and contribute to the refinement of the basic cooking unit. Let us not, however, degrade the value of components not used directly in producing heat as they are the parts that furnish the compliance with the safety requirement of Underwriter’s Laboratories, and the national and local electrical codes. They are also the little differences that make our brand better that brand X.

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Figure #4 Service Block Diagram

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WARNING

Disconnect from power before attempting any repair.

Troubleshooting Guide Overview.

SYMPTOM

* Oven or Top will not turn ON.

* Power Supply Circuit Brkrs. Trip.

* Internal Circuit Brkrs. Trip.

* Oven or Top takes too long to bake and won’t maintain temperature.

Troubleshooting

PROBLEM REMEDY

* Internal Circuit Brkrs. OFF.

* Power Supply Circuit Brkrs. OFF.

* Improperly Phased

* Fuses Open.

* Turn ON

* Turn ON

* Phase per Wiring Diagram.

* Change Fuses.

* Supply Circuit Brkrs. of insufficient size. * Install proper size brkrs.

* Supply Voltage & Range Voltage do not match.

* Change Voltage to match Range.

* Change Voltage to match Range.

* Supply Voltage & Range Voltage do not match.

* Improperly Phased * Phase Range to match Power

Supply per Wiring diagram.

Electrical Trouble Shooting - Detailed.

WARNING

Disconnect power before opening panels. All parts referred to are illustrated and identified on

Figure #6,

Typical Exploded View.

It is assumed that service personnel are familiar with the intended operation of the appliance unit as well as the expected results, and that he knows the functional characteristics of each component and their interrelationship.

Through interrogation of the operator, try to determine the probable cause and extent of the complaint. This is particularly important where intermittent troubles occur. If the description of the malfunction can be corerelated with careful visual inspection, that is, a fused switch, burned insulation, blown thermostat, ruptured heating element and/or any one of a dozen similar casualties, it is obvious that the component exhibiting electrical burn marks must be replaced. Disconnect power and replace defective part or parts.

We must now find out why the appliance malfunctioned. The replaced part could have been at fault, or the defect is located elsewhere in the circuitry.

It must be understood that there is no easy shortcut way to troubleshoot. Components used in Lang equipment are good substantial parts with a reasonable life expectancy. Repeated failure of the same part in any installation will not always be the fault of the part. We must always look beyond the failure for the reason why. Identical pieces of equipment scattered all over the world have functioned to the satisfaction of the user for many years. Inadequate and fluctuating power source has been the cause for many operating troubles.

Without applying power to the unit, measure line voltage and determine phase or phases fed to the appliance.

Ascertain that it agrees with the data on the nameplate.

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For units having C.B. panels, flip all breakers to

OFF

″ position. Voltage may be measured at the line side of breakers. Ascertain that the voltage measured agrees with that indicated on the nameplate.

Rarely will the service man find higher than nominal voltage being supplied from the power line, 10 to 20 volts below that value is usually the case. Constant fluctuation of applied voltage to resistive loads such as the griddles, ranges and ovens being discussed has a quite noticeable effect on the uniformity of baked or cooked products. Slow to pre-heat, slow to cook, uneven browning, if at all, heavy, soggy bake products are some of the many unhappy results of low voltage, consequently inadequate heating conditions.

One effect of low voltage on inductive equipment such as the fan motor of the convection oven is to increase the current flow through the motor and control circuit. If the voltage drops low enough, the current will rise in value enough to kick out the motor protection circuit breaker stopping the fan. A motor with a given load will heat more than normal when supplied low voltage.

Where leads are joined in appliance junction box, and with all control switches in

″ off

″ position, the voltage may be checked by disconnecting wire nuts.

A visual check of the number of power leads and the voltage between them will verify characteristics of the power source.

WARNING

When testing for

grounds

, power must be disconnected from unit.

With all C.B.’s in

″ off

″ position or pigtail power leads disconnected or all power input fuses removed,

″ turn on

″ all thermostats. Rotate the appropriate switch-thru,

″ off, low, med., and high

, while checking each circuit to ground with an OHM-meter.

Clip one terminal of the OHM-meter to the grounding lug and using the other lead probe each circuit terminal on the row of C.B.’s or check each lead of the pigtail if there are no internal breakers. There should be no movement of the OHM-meter needle.

Any reading on the meter in this test indicates a

″ ground

″ is present in the circuit that must be removed before applying power.

For cooking units utilizing a power contactor in the heating element circuit, special procedures must be followed.

Prior to running the checks for grounds, hand operate the power contactor and hold in the closed position while testing.

Or check the load side (power out terminal) of the contactor to ground.

Sometime prior to connecting a new piece of equipment to the power supply ascertain correct power supply is available.

Though not a common occurence and in spite of complete factory testing, calibration changes of the thermostats or short circuits can develop during the shipment of the unit. Vibration, while the appliance is being transported to its destination or being moved in the warehouse can cause many different kinds of trouble.

Long time storage under humid and/or cold conditions can cause an apparent grounding out of the heating elements. During warehouse storage and the time spent in transit, all unprotected sheathed heating elements using magnesium oxide as the insulator will absorb moisture. It is this absorbed moisture that must be driven from the heating element. Raising the temperature of the element too quickly may result in the generation of enough steam pressure to rupture the tubular sheath.

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The thoroughly dry heating element should test out at 50 to 100 megohms (when the test prods of a megger are connected to the element terminal and the incoloy sheath.)

When exposed to changing temperatures, and high humidities over a period of time, it is not uncommon for this type of heating element to show from 5,000 to 10,000 ohms on the megger. Unless there is a dead short indicated these low reading elements can be brought back to a satisfactory dielectric strength by baking at 400° F for from four to eight hours. Reading taken after this period should be in the 10 to 100 megohm range.

The information above indicates the procedure used to pin-point the individual grounded circuit requiring repair. We must now isolate the specific wire or component of that circuit causing the problem. From the wiring diagram, notice that each individual circuit originates at a terminal, then through components in series or parallel branch circuits, back to a different C.B. or fuse terminal or pigtail end, forming what might be called a circuit loop. Each terminal will have one or more loops associated with it.

With the OHM-meter connect one probe on the terminal block and the meter indicating a ground. Turn off all switches and thermostats and release contactor. The ground should disappear.

If the ground doesn’t disappear, the trouble will be found between the terminal block or fuse terminal and

(from the wiring diagram) first component of one of the loops connected to that terminal.

Disconnect the wires from the terminal to isolate the offending loop. Check each lead with OHM-meter probe. If the ground has disappeared, check the terminal and terminal block; one strand of the lead wire may have been touching grounded metal eliminating the ground when the lead wire was removed.

If the ground still remains on one of the leads removed, using the wiring diagram, locate the next terminal in that loop. Disconnect the second terminal and check for ground at the terminal and the lead end just disconnected. If the now loose lead wire still shows a ground obviously it must be replaced. The insulation might have rubbed through or one of the strands may have strayed from the terminal when installed.

A stray strand of wire, rubbed insulation, a pinched wire of the like, with full supply voltage fed to it will quite frequently create enough electric arc heat to melt a terminal or wire. The momentary flash doesn’t trip a breaker or burn a fuse, but does establish an extremely low resistance ground that will cause another component of the loop to burn out first and will then blow the fuse or trip a breaker. In this case, replacing the part and turning the power back to the unit would simply blow the same component again.

Taking the time and having the patience to track down, locate and repair hidden sources of trouble is well worth the effort.

From the block diagram under controls note that the left-hand column indicates that thermostats, 3 heat switches, infinite switches, and contactors are the first components in the loop proceeding from the terminal block or fuse terminal and/or pigtail end. Locate the proper component from the wiring diagram.

Operate the next component in the loop or loops connected to the terminal block, fuse, or pigtail in question.

Watch OHM-meter

″ for the reappearance of the ground, while rotating thermostats to highest temperature position; while rotating infinite switches to high position; lastly depress the associated contactor armature down to close the contacts.

If and when the ground reappears as an infinite switch, a thermostat or contactor is operated, we have now identified the faulty circuit loop.

Turn off

″ all other switches, thermostats, etc., not associated with this loop.

With the probe on the OHM-meter leadwire, check each output terminal of the component just operated to locate grounded lead. Inspect the terminal and connecting lug for loose or wild wire strands that may be causing the ground.

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Disconnect lead from terminal. Avoid excessive use of force as it may move the rest of the wire or the switch enough to disturb the ground. Check disconnected lead and component terminal for ground. Tests performed indicates that all of the loop is good up to the component now being investigated.

If the component terminal test indicates a ground replace component.

If the ground did not reappear from the wiring diagram, locate the next component in the loop. Operate component through all positions until the grounded position is reached as indicated on the OHM-meter.

Repeat procedure as necessary to find and replace grounded component or wire.

This step by step or terminal by terminal testing must be continued until the grounded part is found and eliminated.

Electrical Continuity.

Every electrical circuit or loop must have continuity. There must be a complete unbroken electrical current conducting path from the input terminal to the output terminal, otherwise, the circuit will not function.

Broken wires, incompletely stripped insulation under

″ crimped on

″ terminal lugs, loose terminal nuts and bolts, broken switches and burned contacts represent a few of the many ways a circuit can lose its continuity.

From the wiring diagram, it will be noted that every wire going into the equipment from the power cable terminal block, C.B. rack, or fuse panel can be traced through the various components right back out to another terminal on that block, C.B. rack, or fuse panel.

WARNING

Disconnect the unit from power source before testing

. Again using the

OHM-meter, check for continuity by connecting to one terminal on the block and using the probe locate the terminal that acts as the other end of the loop.

The switches and other components in the loop must be in the

on

position to satisfy continuity requirement.

If continuity is not attained, from the block diagram and wiring diagram, locate the circuit loop and terminals involved. Verify no continuity between terminals on fuse block or C.B. rack with associated switches in the

″ on

″ position.

From the wiring diagram, locate the component terminal in this loop and attach one test lead from the OHMmeter. With the other test lead check continuity with each of the associated C.B. or fuse terminal.

One C.B. or fuse terminal will indicate continuity the other terminal will show a broken connection somewhere in the circuit between the test leads.

From the wiring diagram, locate and check for continuity all component terminals indicated between the test lead locations until the discontinuity is located. Replace the part, wire, terminal lug, or simply tighten the terminal screw.

Electrical Resistivity.

A careful study of the wiring diagram will reveal almost any individual heating element can be isolated for a continuity or a resistance test simply by operating the proper switches. In this manner, the ohmic value of the heating element can be determined, and when used in conjunction with the voltage applied the wattage can be calculated.

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(It is important to know here that the resistance in OHMs of thermostats, switches, fuses, circuit breakers, and connecting wire is negligible.) The calculated wattage of a heating element should fall within +5% of the value stamped on the element sheath.

Turn all switches

″ off

. Measure resistance of heating element only, that is, locate the heating element terminals and carefully read the OHM-meter. This is the value that should fall within +5% of the calculated value.

A low by comparison resistance reading at the heating element terminals will result in a higher than normal current flow thus increasing the wattage consumed, raising the temperature of the heating element. High element temperatures shorten the life of the element, cause the oven temperature to climb 20° F to 35° F beyond the temperature set on the thermostat.

A high by comparison resistance reading at the heating element terminal will result in a lower than normal current flow that doesn’t necessarily decrease the total wattage consumed per cooking period. Slow preheat and slow recovery will be in evidence.

Isolate heating element loop by operating the proper switches. Measure the loop resistance at the terminal strip (C.B. or fuse panel strip). Carefully note the reading on the OHM-meter. Compare the actual resistance value taken at the heating element terminals with those taken at the terminal strip.

The resistance value read at the terminal should be the same or only very slightly higher. In this case slightly higher resistance means 0.01 OHMs higher. As mentioned, there is a negligible difference. It is important here to stress that any perceptible increase in resistance read at the terminal strip can be construed as forerunner of a service call in the near future.

It is well known that any resistance offered by a conductor to the flow of an electrical current will produce heat. The conductor will rise in temperature until it is able to radiate heat as fast as the heat is produced. Most metals slowly form a layer of the metal oxide over its surface when exposed to air even at low temperatures.

Raising the temperature increases the rate of formation. Some oxides make good insulators, (magnesium oxide for example). Most oxides offer more resistance to the flow of electricity than its parent metal. Increasing resistance produces a rise in/temperatures which encourages a faster formation of the oxide. All mechanical joints of metal bearing an electrical current and exposed to air will form oxide layers on both surfaces causing an increase in heating. The heating rate will vary inversely with the cross sectional area of the joint. Fortunately this chemical change takes place rather slowly allowing a good solid mechanical junction to carry heavy electrical loads for quite some time. Loose or poorly made connections of course, will deteriorate at a comparatively rapid rate.

Electrical connections such as those found on relay contacts, switches and thermostats function in an entirely different environment, namely, extremely high temperature and constant exposure of the hot surfaces to air. Here every time a electrical current carrying contact or connection is broken an arc is formed. The arc formed and seen as a spark is but a miniature of those created by arc-welding, and if allowed to persist would literally consume the terminals.

Each time a pair of contacts are broken an arc occurs, high temperatures ensue and more oxidation takes place.

A heating element circuit on 208 volts, whose control contacts have increased the resistance in the circuit as much as 0.44 OHM will lower its heating capacity by 250 volts.

Treating burned contacts as a minor discontinuity, check terminal to terminal until they are located and then replace.

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MAJOR COMPONENT DISASSEMBLY, REPAIR, REPLACEMENT AND REASSEMBLY.

See

Figure #6,

Typical Exploded View.

WARNING

Disconnect range from power before attempting any repair.

Thermostat, Contactors, (Relays), Switches.

These parts are located behind the oven control panel assembly on the right hand side of each oven or behind the range control panel in the upper left of the range. Remove the screws attaching the control panel to the front of the range. Slowly pull out the control panel until the component requiring replacement is accessible.

Thermostat Replacement: Oven.

Inside the oven cavity remove the retaining clips holding the thermostat sensing bulb in place. Feed the bulb through the oven wall into the control panel area. Remove the wires attached to the thermostat terminals. Remember the terminal each wire was on and attach the wires to the same terminal on the new thermostat. Remove the screws holding the old thermostat to the front of the control panel. Discard old thermostat. Mount the new thermostat to the control panel, carefully feed the sensing bulb through the oven wall, and reattach the sensing bulb to the oven side using the retaining clips removed earlier. Close control compartment. Restore power to oven.

Thermostat Replacement: Range.

Raise the griddle plate up to allow access to the bottom of the griddle plate.

The thermostat is the silver tube clamped to the bottom of the griddle through the slot in the element holder.

Remove bracket holding the sensing bulb to the bottom of the plate. Fish the old tube and bulb through the wireway out of the front of the range. Install the new thermostat by reversing these steps.

CAUTION

After installing the new thermostat be positive the silver tube is not near any exposed terminals. If the thermostat tube touches any live terminals it will be destroyed and have to be replaced again.

Element Replacement: Oven.

The oven element is located inside the oven cavity. To replace the element, remove the baffle at the back of the oven. This will expose the elements to plain view and allow easy access.

Remove the element mounting screws located near the top of the oven. Gently, pull the element into the oven cavity. There is enough wire connected to the element to allow easy access to the terminals located behind the element mounting plate. Move each wire from the existing terminal to the corresponding terminal on the new element. DO NOT mix-up these wires! After all wires are transferred to the new element, feed the wire back through the access hole in the back of the oven and attach the element to the oven wall with the screws removed earlier. Replace the baffle.

Element Replacement: Range.

GRIDDLE - Raise the griddle plate up to allow access to the bottom of griddle plate. Remove the wires from the element(s) to be replaced. DO NOT mix-up these wires! Remove the 5 nuts and washers holding the element pan assembly to the griddle. It will drop down exposing the griddle elements.

Remove the defective element(s) and replace with the new one(s). Rebolt the element pan assembly to the bot-

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S6161-DR-FSE-010 tom of the griddle being careful not to pinch the thermostat tube. Replace the element wires onto the correct terminals. Lower the griddle plate making sure the thermostat bulb is far away from any live terminals. Restore power to the range and resume normal operation.

Circular Speed Units (if so equipped).

- Raise the speed unit frame up to allow access to the underside of the unit. Remove the nut holding the mounting bracket to the bottom of the frame. Remove the bracket and leaf spring. Push the unit up through the top of the frame. Transfer the wires from the old unit to the new speed unit.

DO NOT mix-up these wires! Place the new unit into the frame and bolt back down. Lower the frame and resume normal operation.

Contactor (Relay), Switch Replacement.

Pull out control panel as previously outlined. Remove the wires from the contactor or switch being changed. Place those wires on the corresponding terminal of the new part. Remove old part and mount new part with wires attached in the spot where the old part use to be. Reinstall the control panel, restore power to the oven. Turn oven on, set thermostat to 200° F and allow oven to cycle 3 times or until the technician is satisfied with the proper operation of the oven.

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Figure #5 Wiring Diagram

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S6161-DR-FSE-010

PARTS LIST.

Description

Parts List

Manufacturer Mfg. Part

1) Thermostat

2) Knob, Oven Therm.

3) Knob, Griddle Therm.

4) Switch, Six Heat

5) Knob, Six Heat

6) Knob, Damper

Robert Shaw Youngswood, PA

Lang Mfg. Co. Redmond, WA

Lang, Mfg, Co. Redmond, WA

EGO Products Newnan, GA

Lang Mfg. Co. Redmond, WA

AIMSCO Seattle, WA

SP173-32

70701-19

70701-16

49.27214.50

70701-41

DK-49-REID

7) Timer

8) Knob, Timer

9) Contactor

10) Transformer

11) Motor

12) Fan

13) Switch, Toggle

14) Light, Indicator

15) Range Plate Assembly

M.H. Rhodes Avon, CT

Lang, Mfg. Co. Redmond, WA

220012

70701-09

FURNAS Chicago, IL 41NB20AG229

Micron Industries Stonepark, IL B100419-XX

Doerr Electric Cedarburg, WI

Revcor Carpentersville, IL

Carling/Pacific Van Nuys, CA

Sorenson Hartford, CT

Lang Mfg. Co. Redmond, WA

50514

B-800-4-175-HS

2GK51-NBL8/U710

3LF4-LRN-480V

50401-01

50401-02

50401-03

Electrotherm Laurel, MD

Electrotherm Laurel, MD

Electrotherm Laurel, MD

EGO Products Newnan, GA

84A-1032-3

11010-23

11010-24

11120-14

16) Element, Oven

17) Element, Grill, Out

18) Element, Grill, In

19) Hot Plate

20) Fuse

21) Holder, Fuse

TEK Electric Seattle, WA

TEK Electric Seattle, WA

SC-15

15073-315 B

22) Circuit Breaker, 2/10 amp Carling Switch 31800-07

For Service information or any further questions contact Lang Manufacturing.

LANG MANUFACTURING COMPANY

P.O. BOX 905

REDMOND, WA 98073-0905

Phone (206)885-4045

FAX (206)882-2373

Lang Part

30402-08

70701-19

70701-16

30304-08

70701-41

70701-25

30801-01

70701-09

30701-01

31400-04

30200-16

71500-03

30303-01

31601-02

50401-01

50401-02

50401-03

11090-11

11010-23

11010-24

11120-14

30900-01

30901-02

31800-07

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S6161-DR-FSE-010

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Figure #6 Typical Exploded View

S6161-DR-FSE-010

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S6161-DR-FSE-010

REAR SECTION

TECHNICAL MANUAL DEFICIENCY/EVALUATION REPORT (TMDER)

NOTE

Ships, training activities, supply points, depots, Naval Shipyards and Supervisors of Shipbuilding are requested to arrange for the maximum practical use and evaluation of NAVSEA technical manuals. All errors, omissions, discrepancies and suggestions for improvement to NAVSEA technical manuals shall be forwarded to:

COMMANDER,

CODE 310 TMDER, BLDG 1388

NAVSURFWARCENDIV NSDSA

4363 MISSILE WAY

PORT HUENEME CA 93043-4307 on NAVSEA/SPAWAR Technical Manual Deficiency/Evaluation Report

(TMDER), NAVSEA form 4160/1. To facilitate such reporting, print, complete and mail NAVSEA form 4160/1 below or submit TMDERS at web site: http://nsdsa.phdnswc.navy.mil/tmder/tmder-generate.asp?lvl=1

All feedback comments shall be thoroughly investigated and originators will be advised of action resulting therefrom. Copies of NAVSEA form 4160/1 may be requisitioned from the Naval Systems Data Support Activity Code 310 at the above address.

TMDER / MAILER

Rear-1 / (Rear-2 Blank)

Rear-2

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Key Features

  • Choice of cooking top arrangements
  • Independent control of each 12 inch section of cooking top
  • Convection oven with thermostat, on-off switch, damper control, and timer
  • Large oven capacity
  • 3 inches of insulation on all sides for maximum efficiency
  • 12 month warranty

Frequently Answers and Questions

What are the different cooking top arrangements available?
The cooking top arrangements include combinations of grills, hot tops, and speed units.
How is the cooking top controlled?
Each 12 inch section of the cooking top is controlled independently by its own switch.
What are the features of the convection oven?
The convection oven includes a 150° F - 450° F thermostat, an on-off switch, a damper control, and a loud one hour timer.
How many racks does the oven hold?
The oven is large enough to hold six racks (three supplied, three optional)
What is the warranty on the range?
The range is provided with a 12 month warranty to cover all parts and labor.

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