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Service Manual - Bulldog Battery

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1. No rise in specific gravity Normal gassing excessive gassing is defined on the next page under Gassing Overcharging An excessive amount of charge results in high battery temperature reducing the battery s service life Overheating To obtain maximum service life from a battery it should be charged and operated at temperatures below 115 F Above this temperature overheating occurs Overheating can damage the battery and shorten its normal expected service life The extent of the damage and service life loss depend on how high the temperature how often the overheating occurs and how long the batteries are subjected to high temperatures A healthy battery charged on a properly functioning charger will have a 10 to 20 F rise in temperature when fully charged from a completely discharged state What causes a battery to go beyond this range and overheat The temperature rise is affected by several variable factors Age and condition of the battery Battery temperature compared to ambient temperature Start intermediate and finish rate of the charger The amount of overcharge given the battery In lift truck operations a battery can overheat because of the operating requirements of the truck as well as the operating environment If a lift truck requires almost continuous current draws that are higher than normal the temperature will rise Ideally for this operation a cool battery whose temper
2. How quickly the electrolyte spillage accumulates When the top of a battery is dirty or looks damp it is ready for a general cleaning It could be as often as every two weeks or as infrequent as every six months depending on the battery s environment and the care it receives The average battery needs a general cleaning every three months To give a battery a general cleaning use hot water 130 to 170 F with a neutralizing detergent solution The neutralizer detergent solution is made by mixing 1 2 pound of baking soda or 1 2 pint of household cleaning ammonia with the recommended amount of detergent for general cleaning with one gallon of clear water Apply the solution with a clean paint brush to the top of the battery working it under the intercell connectors and the terminals to loosen the grime and neutralize the acid If baking soda is in the solution apply the mixture until the fizzing action stops An ammonia solution will not fizz Then rinse the battery with clear hot water from a low pressure hose to remove all traces of the solution and loose dirt Cold water works but hot water cleans better DURING ANY CLEANING BUT PARTICULARLY WHEN USING A NEUTRALIZER DETERGENT SOLUTION MAKE CERTAIN THAT ALL VENT CAPS ARE TIGHTLY IN PLACE Some DOs and DON Ts for Effective Battery Maintenance As is true with almost any piece of industrial equipment proper maintenance not only keeps it operati
3. on the back cover The specify gravity and open circuit voltage readings are normally in direct proportion to each other therefore a voltmeter or hydrometer can be used to check the battery The use of the voltmeter is a faster method of approximating the individual cell state of charge and can reduce dramatically the time required for routine battery checking When using the voltmeter method of battery checking take specific gravity readings on the two cells having the highest and lowest voltage readings This will confirm both cells state of charge and accurately pinpoint the difference in the state of charge between them The voltmeter is used when on charge or on discharge voltage readings are needed A battery thermometer is read like any normal thermometer If the thermometer does not have specific gravity corrections marked on its scale refer to the Temperature Correction Chart on the next page to determine the specific gravity correction The Bulldog Hydrometer has an extra long scale to make reading more accurate For ease of correcting for temperature the specific gravity corrections are marked on the scale of the Bulldog thermometer The Bulldog Cell Tester voltmeter is a digital meter for more accurate readings 10 When reading a hydrometer it is important to hold the syringe at eye level and in a vertical position Be sure the float does not stick to the hydrometer barrel and is floating freely not
4. BULLDOG BATTERY CORPORATION Service Manual 387 S WABASH STREET P O BOX 766 WABASH IN 46992 PHONE 219 563 0551 800 443 3492 FAX 219 563 8245 Table of Contents Description and Theory How a Battery is Constructed 0 ccccccsseeeeeeeees 1 How a Battery Works 000 eee ceeeeeee seen eeeeeeeraeeeeetees 2 How a Battery is Rated cc eeeeceeeeeeeeteeeeeeeeeee 3 Safety Handling and Changing Batteries 0 ceeee 4 Charging Batteries cceccceeeseeeeeeeeteeeeeeeteeeeee 5 Handling ACI orainera airea hatiani 7 Repairing Batteries iiissseesrrnsrrreesrrrnnsrerrnens 8 Installation Receiving a Battery eeeceeceeeeeestneeeeeeeenteeeeeeeeaas 9 Placing a Wet Battery in Service ceeeee 9 Routine Maintenance Instruments for Inspecting Batteries 10 Battery Charging cccceceeeceeeseeeeseceeeeeeeeeeeeaeees 11 Types Of Charging c cccceeseeeeeeeeeseseeeeeeaeeeteneees 11 The Charging Process ccceeeseeeeeeteeeeeneeeees 12 Treatment of Sulfated Batteries 0 cceeeeeee 14 Adding Water sos eein rnan EEr Eni ERER ER 15 Cleaning ei aaeh pun eea aa ie raais kania 16 Some DOs and DON Ts for Effective Battery Maintenance ceecceeeeeeeeeeeeeeeeeeeeeees 17 Battery Records The Purpose of Record Keeping ceeeeeee 18 Types and Forms and Their Use eeeeeeees 18 Introduction Batteries ha
5. W equals percentage overcharge assumed to be given to the battery Assume this is 20 unless the actual percentage is known This is the percent of the charge which is wasted in creating heat and gas Further assume it is all used to create gases Bequals the volume of hydrogen produced by one ampere hour of charge Use 0 01474 to get cubic feet Use 0 418 to get liters C equals rated 6 hour capacity of the battery in ampere hours This is also the number of ampere hours a fully discharged battery must accept to be fully charged Hequals the volume of hydrogen produced during the charge H equals K times W 100 times B times C H KWBC 100 For example How many cubic feet of hydrogen are released while charging an 18 75B 15 18 cell battery 525 AH capacity if it receives 20 overcharge H KWBC 100 H 18 20 0 01474 525 100 H 27 9 cubic feet of hydrogen Assume this gas is released during the last four hours of an 8 hour charge then calculating a rough rate of hydrogen release is possible Example 27 9 4 equals approximately 7 cubic feet per hour Eye wash and Emergency Shower Facilities The kinds of equipment available for eye wash and acid neutralization vary widely as to capability and cost Regardless of the equipment selected it should be located in the immediate work area The three most popular types of equipment are described below Chemical Burn Station This is the lo
6. Consult local fire authorities or your insuring carrier for the class Safety and size needed and recommended locations for mounting them Ventilation The ventilating system in a charging room should conform to local codes and ordinances If the average hydrogen concentration throughout the charging room does not exceed 1 5 percent by volume or exceed 2 percent by volume in any one location the ventilation is considered to be satisfactory Concentrations between 4 and 74 are explosive A variety of instruments such as combustible gas indicators and flammable vapor indicators are commercially available for continuous and automatic analysis of hydrogen concentrations in the air Contact Bulldog Battery if more information on these indicators is desired When charging an enclosed or covered battery whether it remains in the truck or is placed on the rack always keep the battery tray cover and the truck compartment cover open throughout the entire charging period Opening the covers will help cool the battery and disperse the gases Battery Gassing The gases given off by a lead acid storage battery on charge are due to the electrolytic breakdown electrolysis of water in the electrolyte to produce hydrogen and oxygen Gaseous hydrogen is produced at the negative plate while oxygen is produced at the positive Hydrogen is the gas which creates the problem It will burn explosively when ignited if the air contains between 4
7. or that the battery was tipped over in transit Making a Claim Shipments are generally made FOB Bulldog Battery Plant or stocking location Therefore making a claim to the carrier is the responsibility of the customer If there is evidence that the battery was damaged in shipment a proper claim should be filed with the carrier The services of a professional industrial battery repairman may be required to evaluate the extent of the damage Contact Bulldog Battery or the nearest Bulldog Battery representative Lifting Batteries The ideal rig for lifting batteries is an overhead hoist equipped with an adjustable insulated battery lifting beam as illustrated on page 5 When attached to the lifting eyes of a battery the lifting beam exerts a vertical pull on the eyes This method prevents damage to a battery that would occur using lifting methods that tend to squeeze or stretch the battery tray If there is a possibility that the chain or cable of the hoist might come in contact with the battery post cover the battery with a piece of plywood or another type of non conducting material Immediate Repairs to Damaged Batteries lf the electrolyte level in a particular cell drops quickly after water is added the jar in this cell is leaking and should be replaced When service facilities and personnel are available replacement of the leaking jar should be made within one week of discovery See section on Battery Repairs
8. 9 DO keep accurate records They not only provide an accurate history of the battery and permit replacement of worn units in time to forestall production stoppages they also indicate whether a battery is being abused 10 DO give periodic equalizing charges as described on page 11 11 DO check batteries periodically cell voltages specific gravities and electrolyte levels 12 DO make regular visual inspections to determine spillage corrosion damage to the case and similar problems 13 DO keep idle batteries charged When stored for extended periods batteries should be given a freshening charge periodically and immediately before use Battery Records The Purpose of Record Keeping Plants with more than just a few batteries find that records of battery cycles maintenance and repair are indispensable for an effective battery maintenance program In developing a records system a number of procedures should be considered 1 Establish a battery identification system giving each battery a code number A multiple digit system such as 1001 1002 etc for all 36 volt 750 ampere hour batteries and 2001 2002 etc for all 12 volt 450 ampere hour batteries etc 2 The specific gravity of the pilot cell or cells of a battery should be recorded before and after each charge Pilot cell s are one or more designated cells whose specific gravity is checked to determine the general state of charge in the battery Pilot c
9. a Bulldog Battery is indicated on the nameplate If it is not legible contact the nearest Bulldog Battery Sales Office or Service Location Minutes 25 30 3 w a s0 DEGREES F AVERAGE ELECTROLYTE TEMPERATURE Cadmium Electrode Testing Cadmium electrode testing is a more detailed test of a cell and is used to determine whether internal inspection or repair of the cell is required The cadmium electrode test is given at the end of the charge while the battery is still on charge at the finish rate If any doubt exists as to whether a cell should be removed from the battery for inspection or repair the cadmium electrode test can help make the decision Troubleshooting and Testing In order to prepare the surface of a new cadmium electrode it should be soaked in sulfuric acid for several days If it was stored dry before use re soak it for at least thirty minutes so that the readings will be accurate Use the format shown on the Battery Inspection Form on page 21 to record the various readings and the other data such as battery type serial number etc To take the positive cadmium reading of a cell connect the cadmium electrode to the negative lead of a voltmeter with a 0 3 volt full scale range Connect the positive lead of the voltmeter by probe to the positive terminal of the cell Immerse the cadmium electrode in the el
10. and record the pilot cell temperature If the battery is being tested on charge or discharge record the reading at amps 6 If desired record the temperature corrected specific gravity readings in the Positive Cadmium columns Use a temperature correction thermometer or refer to the Specific Gravity Temperature Correction Chart on page 11 to correct the specific gravity reading for temperature Use the pilot cell temperature for the temperature correction of all the battery s cells It is not necessary to read the temperature of every cell unless the temperature difference between the center cells of the battery and the outside cells of the battery is 12 F or more Bulldog Periodic Battery and Charger Inspection Battery Type Battery For the period to Battery Serial No Record Total Cycles for Month Date Installed Total Cycles to Date SPECIFIC GRAVITY Pilot Cell TEMP TIME TIME CHARGER WATER OPERATOR Pilot Cell on charge off charge NO AODED COMMENTS Note and date all repairs testing Toubleshooting and Testing There might be times when a battery does not perform to expectations or times when a specific symptom such as overheating high water usage etc indicate that a problem exists or indicates the possibility of impending trouble To help identify conditions pinpoint problems and offer solutions is the purpose of the Troubleshooting and Testing Section Diagnostic hints
11. cover or cell 5 Weak or defective cell s 6 Battery beyond economical repair 7 Acid loss in a few cells by tipping battery over 8 Frequentoverwatering causing electrolyte loss due to flooding 1 Any probable cause listed under Unequalcellvoltages 2 Battery just watered and water not mixed with electrolyte 3 Improper gravity adjustment after a cell change 25 Troubleshooting and Testing Possible Remedy 1 Replace jar s and adjust gravity 2 More careful attention when watering 3 Repair or replace cell s See page 26 4 See items 1 and 2 in Battery overheats during charge on opposite page 5 Water battery regularly See page 16 1 Clean battery See page 15 2 a Change location ofthe battery tap periodically b Equalize battery regularly 3 a Give battery a deep discharge and equalizing charge b Equalizethe battery periodically 4 Replace jar or cover and adjust gravity 5 Repair or replace defective cell s See page 26 6 Replace battery 7 Adjust specific gravity See page 29 8 Fillto proper level see page 13 1 Any possible remedy listed under Unequal cell voltages above 2 Place battery on charge and read 1 hour after it begins to gas 3 Adjust gravity See page 29 Battery Repairs Repair vs Replacement There are times when a decision to repair or replace a damaged battery is clear cut Frequently however a decision e
12. in covered containers made of chemically inert material such as lead glass or acid resistant plastics Avoid using nylon containers because nylon has poor acid resistant properties Protecting Floors in Battery and Charger Rooms The floors in battery and charger rooms should be sloped toward a sump Acid spillage should be neutralized before discharging into a sewer Even though the floor is protected with an acid resistant coating it should be washed down with water after an acid spillage It is recommended that local ordinances be checked to see if discharging any flow into the sewer complies with their regulations Neutralizing Acids and Electrolyte Sulfuric acid can be neutralized with several different chemicals All should be handled with care 1 Bicarbonate of soda or baking soda NaHCO is a relatively harmless chemical with no marked effect on the skin or clothing As it neutralizes it releases bubbles of carbon dioxide When the bubbling action stops the acid neutralization is complete 2 Soda ash or sodium carbonate Na CO is also relatively harmless and has no marked effects on skin or clothing It also releases carbon dioxide bubbles while neutralizing 3 Caustic soda or sodium hydroxide NaOH is a strong chemical that requires special equipment and care in handling When properly used it is an effective neutralizing agent Since no carbon dioxide bubbles are released to indicate when neutralization is com
13. it will explode when ignited Electricity is produced by the battery on discharge and while most persons cannot feel voltages through their bodies below 35 or 40 volts all motive power batteries should be regarded as potentially dangerous A lead acid battery is capable of discharging at extremely high rates and under conditions of direct shorting can cause much damage and serious injury The weightof these heavy batteries can crush hands and feet if care is not taken when changing and handling them Adequate and proper handling equipment should be provided The average lift truck battery weighs over 2000 pounds The Safety Procedures In 1970 Congress passed the Occupational Safety and Health Act OSHA The act established the minimal acceptable standards for safe and healthful working conditions The act not only pinpoints the responsibility of employer and employee but also establishes the penalties for disregarding the standards It would be well to remember that OSHA standards are minimum requirements The safety procedures suggested in this manual have been compiled from standards developed over the years by professional and technical organizations and by battery manufacturers and users who have had the experience necessary to create the most effective safety standards They exceed the minimum standards of OSHA for personnel safety and include procedures for safeguarding equipment as well For the purposes of making t
14. not to the outer surfaces of the rod jar and cover are melt the plastic jar or destroy the coated surfaces of heated the tray As the welding continues a small bead should be 6 Rebuild the terminal posts with a post mold anda forming along both sides of the welding bead anda burning nut small roll forming under the welding rod both of which 7 Install the connectors to the terminal posts Melt the would continue along the weld connectors to the posts with a torch or carbon arc 7 At the end of the weld overlap the start of the road at least 1 4 inch then cut away the excess rod with rod pliers 8 At this time seat the grommets The cell should then be air pressure tested for leaks This can be done with a radiator tester modified to accept a vent cap The cell should withstand a pressure of four PSI for fifteen seconds Complete Battery Assembly 1 Insert the complete cell element and jar into the battery tray if the complete cell has been removed from the tray Check for correct polarity 2 Fill the cell with an electrolyte that has a specific gravity approximately the same as the surrounding cells 3 Flush the cell and its surrounding cells with a gentle stream of air to eliminate trapped hydrogen gas See Post molds burning nuts and button burning molds Remove the Gas Before Working page 8 are used to build up posts and post buttons 28 Acid Replacement and Adjustment of Specific Gravity
15. overhead hoist A description of the adjustable insulated battery lifting beam appears on The safe way to lift a battery uses an insulated lifting beam It reduces the possibility of damaging the tray and shorting the cell connectors the back cover Protective Eyeglasses and Headgear The use of safety glasses and safety hats made of a non conducting material is suggested when batteries are being handled or serviced Lifting Batteries Steel trayed batteries have holes or eyes for lifting The eyes used in conjunction with an insulated battery lifting beam and an overhead hoist is the recommended way to lift a battery If a battery is lifted with two chains attached to a hoist at a single central point forming a triangle the procedure is unsafe and Safety can damage the steel tray Battery as a Counterbalance In most industrial trucks a battery is used as a counterbalance for a carried load Before installing a new or different battery check the manufacturer of the truck for the recommended range of battery weight The battery service weight is usually stamped into the battery top lead on the same intercell connector with the battery serial number A battery with the wrong weight can change the center of gravity of the truck and cause it to upset Charging Batteries Charging Rooms Plants that change batteries at the end of each shift should have one or more centralized areas designated for battery charging Th
16. the charging rate at the end of every charge 7 Continual overdischarge dramatically shortens battery life Avoid overdischarging by using battery protectors in the lift trucks or obtain more batteries with higher capacity if possible and charge them more frequently 8 If the spread between the lowest and highest cell specific gravity in an older battery is 050 or more the battery will probably deliver less than 80 of its rated capacity and may need to be replaced Read Capacity Testing for more details 9 As a battery ages the positive plates grow in 22 length and push the post of the battery up until it becomes noticeable The positive post of every cell cover in the battery will be higher than the negative post and the covers appear to be tilted When the positive posts of all the cell covers are 3 16 to 1 4 higher than the negative posts the battery is probably worn out and beyond economical repair 10 Most battery problems can be avoided or corrected by following strictly the Ten Commandments of Good Battery Care Capacity Testing Acapacity test is sometimes desirable to determine the actual capacity that a battery delivers as compared to its rated capacity If all other testing methods fail this test can help determine if a battery should be replaced When a battery delivers less than 80 of its rated capacity the remaining capacity will rapidly decrease with each additional cycle
17. times If a battery is badly sulfated the specific gravity may rise only 30 or 40 points 030 to 040 during this first charge 4 Place the battery into service and discharge it toa fully discharged condition The chart on the opposite page shows the specific gravity of a 100 percent discharged battery The battery can be discharged through a bank of resistors if desired 5 Charge the battery again until the specific gravity shows no change during a 4 hour period 6 Repeat the charge discharge process until the specific gravity rises to within 30 points of a fully charged battery Then place the battery back into normal service Although the specific gravities may be lower than normal they should not vary much from cell to cell If they do problems other than sulfation may be present If the spread between the highest and lowest specific gravity readings is 50 points 050 or more refer to the Troubleshooting Chart on page 24 to help identify the problem If the battery has not responded to the above treatment it should be replaced v2soL it UWA 00 not RECHARGE IF Pitt ANNAL I specieic Gravity is D SPECIFIC GRAVITY 3 1 180 SAY 845 amp B55 N B85 B75 WY B100 N B110 seo OTA 8125 j 8150 8160 0 20 40 60 80 100 PERCENT DISCHARGE Specific Gravity vs Percent Discharge Adding Water Generally a certain amount of water loss is normal in all batteries and it sho
18. 7 Acid amp Water The chemical reactions of charging and discharging batteries are reversible The Discharging Battery When a battery is placed in use connected to an electrical load the stored chemical energy is released in the form of DC electrical energy During the pro cess the internal components of the battery cells undergo a chemical change The sulfuric acid H SO combines with the lead peroxide PbO of the positive plates and the sponge lead Pb of the negative plates and transforms them to lead sulfate PbSO The reversible reaction is shown as follows Pbo Pb 2H So discharge 2PbSO 2H O i _ _ lead sponge sulfuric charge lead water peroxide lead acid sulfate As the battery discharges the electrolyte approaches the specific gravity of water 1 000 with a simulta neous decrease in voltage The specific gravity of a discharged battery reads between 1 100 to 1 160 depending on the type of battery and the open circuit voltage reads from 1 98 to 2 01 The exact figures can be determined from manufacturer s specifications The graph on page 15 shows the final discharged specific gravities of various types of Bulldog Batteries The Charging Battery The chemical energy in the battery is restored by charging the battery thereby reversing the discharge reaction During the charge and especially toward the end of it hydrogen and oxygen gas are produced by the electrolysis of water Che
19. AT The plates are insulated from each other by the sleeve separator All the positive plates are connected to the positive strap and the negative plates to the negative strap The positive and negative plates and separators are submerged in a solution of sulfuric acid and water called electrolyte and are held in an acid proof container called a jar BRIDGE Each cell has a nominal voltage of 2 volts Thus a 6 cell battery is called a 12 volt battery and an 18 cell battery a 36 volt battery etc Increasing or decreasing the number of plates or the size of the cell has no effect on its voltage It does however affect its capacity Description and Theory How a Battery Works A battery releases power by the reaction of the electrolyte with the positive and negative plates electrodes A fully charged battery reflects the following internal condition the positive active material is lead peroxide PbO the negative active material is Charged Lead Peroxide Full strength Electrolyte Sulfuric Acid amp Water Partially Charged or Partially Discharged sponge lead Pb and the electrolyte which has a specific gravity of about 1 280 is a solution of sulfuric acid H SO and water The open circuit voltage is approximately 2 12 volts per cell Discharged Sponge Lead amp Lead Sulfate Medium strength Weak Electrolyte Electrolyte Sulfuric Acid ye Sulfuric amp Water i
20. After adding the high specific gravity acid leave the battery on charge for one hour so that the higher specific gravity acid is thoroughly mixed with the electrolyte Read and record all the cells specific gravities If the specific gravity readings are too low corrected for temperature use an acid proof syringe to remove the electrolyte down as far as the perforated separator protector to provide the necessary space for more high specific gravity acid Add a quantity of high gravity acid to each cell as required to bring the specific gravity to the proper level 4 Continue to remove electrolyte and add high gravity acid until all cells of the battery reach the proper full 29 Battery Repairs charged specific gravity 1 280 The final specific gravity of all the cells in the battery should be adjusted to within 005 5 points of proper full charge specific gravity Example The specific gravity of a battery with a proper full charge specific gravity of 1 280 should range between 1 275 and 1 285 Correct the gravity for temperature variation by using the Specific Gravity Temperature Correction Chart on page 11 5 If the specific gravity in a cell is too high remove the electrolyte with an acid proof syringe and replace it with water Charge the battery for one hour at the finish rate Read the cell specific gravity and correct for temperature if necessary If the specific gravity is still too high repeat the pro
21. BATTERY The specific gravity CYCLE CARD for each cycle of the Batlery Number Battery No battery is recorded ba Total Cycles Date Time Truck No Operator_ Of Charge _ DAILY BATTERY RECORD fe Specific Gravity Water Asses CHG OUT Truck No Battery Watered Yes Repairs and Capacity Tests Date Description and Results Other Comments Battery Cycle identification Battery Number and Maintenance 0 gan nr caman o Record Serial Mo Dalein Srruwe _ Voltage _ D le out Gorice YEAR JAN FEH MAR APA May JUN JUL AUG SEPT OGT Battery Repair and Capacily Tests Gale Repair or Comments Ea Capacily Orlodied L him Hrs 19 NOY DEC Parts Cosl YEARLY CUM TOTAL PEATE Total Casi Battery Records Daily Battery Record The information on the Battery Cycle Card is posted to this card plus repair and cycle test information These monthly records can be filed and kept throughout the life of the battery Battery Cycle and Maintenance Record The information on the Daily Battery Record card is posted on this card It serves as the master battery record Periodic Battery Inspection The Purpose and Frequency of Inspections The investment in motive power batteries can be considerable To protect this investment it i
22. Bulldog Battery Service Location to inquire about the cost of these periodic inspections by a professional A troubleshooting procedure chart and list of diagnostic hints appear in the Troubleshooting section of this manual on pages 22 through 25 20 How to Inspect a Battery The more complex and extensive battery inspecting testing and diagnostic work is often best handled by experienced motive power battery technicians This manual is not intended to be a complete source for the training of a battery technician although it provides a good foundation The following instructions can show an electrician or vehicle repairman how to gather and record basic information that can help him to pinpoint the source of a battery problem 1 if the battery is still in the vehicle turn off the power switch and disconnect the battery by unplugging it from the vehicle 2 Allow the battery to remain on open circuit without charging or discharging for 30 minutes or longer 3 Prepare a form similar to the illustrated Battery Inspection Form Fill in the necessary data on the top of the form i e battery type serial number etc 4 Read and record the specific gravity and open circuit voltage cell volts for all cells of the battery The positive terminal cell of the entire battery is recorded as cell No 1 etc following the intercell connectors to the last cell which is the negative terminal cell of the battery 5 Read
23. Capacity Testing ccccccccccsececeessseeeeeesesneeeeeseaes 22 Cadmium Electrode Testing c cceceeeee 23 Troubleshooting Chart ccccccssseeeeeeeesees 24 25 Battery Repairs Repair vs Replacement siseses 26 Disassembly and Reassembly Instructions 26 Acid Replacement and Adjustment of Specific Gravity cceeeeeeeseeeeeeeeeeeseteeeeeeeeees 29 Accessories and Testing Equipment Rear Cover Published 1993 Caution The experienced battery maintenance and repair man is aware of the dangers involved with the handling of lead acid industrial batteries and with the acid and gases which are ever present with such batteries As a reminder to this battery specialist and particularly to plant personnel who may not fully understand these dangers Bulldog Battery labels each battery they ship with the following warning label DO NOT smoke or use an SULFURIC ACID whichis open flame corrosive and may cause DO NOT create arcs or burns has been diluted with sparks and water to form the liquid in this DO NOT use other sources of battery Keep it away from ignition near this battery the eyes skin and clothing HYDROGEN GAS which In case of contact flush may explode if ignited is immediately with water produced by this battery Always obtain medical especially when on charge attention when the eyes are Good ventilation will reduce affected the explosion hazard Additional precaut
24. Logically therefore it should be replaced before some of its cells fall and cause low voltage operation of the vehicle and result in damage to its electrical system A capacity test is performed by discharging a fully charged battery at a fixed rate while carefully following specific test conditions methods and procedures Example A fully charged 600 ampere hour battery at 77 F at the 6 hour rate is discharged at 100 amperes 600 ampere hours by 6 hours until it reaches a final battery voltage of 1 70 volts per cell times the number of cells in the battery If this final battery voltage is reached in five hours the battery delivered 83 3 of its rated capacity 5 hours 6 hours X 100 83 3 It is essential that unless the battery s electrolyte temperature is between 70 F and 85 F a temperature correction be made to the required time This is a simplified example of discharge per the graph on page 23 If tests are to be made it is recommended that the test conditions methods and procedures specified in NEMA Standards Publication No IB2 1974 entitled Determination of Capacity of Lead Acid Industrial Storage Batteries for Motive Power Service be followed Copies of this standard publication can be obtained at a nominal cost Address inquiries to National Electrical Manufacturers Association Department of Engineering and Safety Regulations 2101 L Street NW Washington D C 20037 The rated capacity of
25. Under normal circumstances a battery should never require the addition of acid to increase the specific gravity of the electrolyte However when upsets jar breakage overflushing or careless use of the hydrometer cause a loss of electrolyte and a corresponding loss of battery capacity the lost acid should be replaced Caution Before adding acid to a cell or to an entire battery with low specific gravity readings try to raise the specific gravity by charging as described on page 14 under Treatment of Sulfated Batteries Only if the charging is unsuccessful should an attempt be made to increase the specific gravity with acid To replace acid use the following procedure with a sulfuric acid having a specific gravity of 1 400 1 Battery must be in fully charged condition topped off with an equalizing charge see page 11 for definition and description with the electrolyte freely gassing 2 Add the acid slowly to the cell while it is still charging and gassing so that the acid mixes thoroughly If added too fast the acid will drop to the bottom of the cell The acid will not diffuse immediately and the specific gravity reading will be inaccurate i e on the low side Further additions of acid can be harmful especially when the battery is returned to service and complete diffusion results in a high specific gravity About 1 4 of 1 400 specific gravity acid will increase a cells specific gravity about 5 points 005 3
26. ads to excessive sulfation The same is true of batteries which have been left standing in an uncharged state for an extended period High temperatures rapidly accelerate sulfation when batteries are left standing in a partially charged condition The cells of a sulfated battery will give low specific gravity and open circuit voltage readings On charge voltage readings will be unusually high The battery will not become fully charged after a single normal charging when sulfation has taken place over a prolonged period Treatment of Sulfated Batteries Careful attention to the following steps often will restore a sulfated battery to a good operating condition 14 1 Thoroughly clean the battery See page 16 for battery cleaning instructions 2 Bring the electrolyte level to proper height by adding water 3 Put battery on charge at the prescribed finishing rate until the rated ampere hour capacity has been returned to the battery Record the voltage and specific gravity readings Correct the specific gravity readings using the chart shown on page 11 If temperature at any time during these procedures exceeds 115 F stop the charger and allow the battery to cool to 90 F or below before continuing the charge Continue charging the battery until the specific gravity shows no change during a 4 hour period taking hourly readings With automatic charging equipment the battery may have to be placed on equalizing charge two or three
27. arge depth of 60 to 80 percent of their rating can be kept healthy by equalizing them every two months Batteries that are cycled four to eight times a month at any depth require equalizing about every month to keep them in a healthy condition Batteries that are cycled five or more times a week at an average discharge depth of 60 to 100 percent never need equalizing charges unless stored Freshening Charge A freshening charge is used to bring a battery to a fully charged condition before it is placed in service or when it has been standing idle for a short period It takes about three hours at the finish charge rate 3 to 6 amperes per 100 ampere hours of the battery s 6 hour capacity rating The Charging Process When a battery is placed on charge the opposite action of battery discharge takes place that is the sulfate in the active material of the plates is driven back into the electrolyte This reduces the sulfate in the plates and increases the specific gravity of the electrolyte an electrochemical process which continues until the on charge cell voltages reach 2 50 to 2 70 volts per cell dependent upon the type of charging equipment used The illustration and formula on page 2 explains the charging process in more detail Finish rate or normal rate is that current which can be used safely any time charging is required and which can be continued after the completion of the charge without causing excessive
28. attery Repair Facility or at your plant by professional battery repairmen Disassembling and reassembling battery components are described in a step by step procedure Removing Connectors 1 Using a connector drill drill out the cover post holes Having the right tools in this case the connector drill simplifies and speeds the repair procedure 2 Lift off the connector with a pair of trimmer or channel lock pliers After drilling the post holes the intercell connector can be removed with a large pair of trimmer or channel lock pliers Removing a Complete Cell 1 Remove the connectors see Removing Connectors previous page 2 Cut the compound to isolate the cell from the adjacent cells using a putty knife or similar tool Make sure to cut the compound at the jar line and not at the cover line Battery Repairs 3 When the walls of the jar are free the cell can be lifted out by using a cell puller on the negative posts 4 With the cell out of the tray neutralize any acid in the tray with a soda solution and clean up the residue Removing the Element 1 Remove the connectors see Removing Connectors opposite page 2 Using cell pullers pull the cell complete with cover out of the jar 3 Cut the jar below the cover locating pins 4 Examine the cover and jar for cracks and leaks 5 Examine the positive and negative plates and separators for damage Also check for particles of ma
29. ature is 90 F or lower should be installed in the truck However if the lift truck operation starts with an overheated battery whose temperature is above 115 F the continuous high current draws will tend to make the temperature rise even higher and battery damage is likely Typical working environments where batteries must operate in an overheated condition are in a foundry where ambient temperatures reach 120 F and higher and in heavy duty operations where they must be changed every 5 to 6 hours with no time for cooling before a charge The latter problem can often be alleviated by having more than two batteries per truck For the former an inexpensive way to cool the battery is by directing a fan over its intercell connectors and since they conduct about 60 of the heat out of the battery the battery will cool rapidly Charge with battery covers open Operating and charging batteries at elevated temperatures is a frequent cause of battery damage and reduced service life An experienced lift truck batteryman given the levels of operating and charging temperatures and the time span for which they are held can estimate the percentage of service life lost The estimated loss expressed as a percent can serve as the basis for deciding whether to invest in extra batteries higher capacity batteries or battery cooling equipment If this kind of professional judgment is not available in your plant or operation contact your nearest Bull
30. cess until it reaches the proper full charge specific gravity Accessories and Testing Equipment Bulldog Hydrometer and Hyrdometer Float A specially designed hydrometer for the accurate specific gravity readings required for motive power battery inspections The 3 inch long float scale allows more accurate readings The scale is divided into 005 segments To reduce replacement costs replacement floats are available AAAI sadsad Hollow Post Drill Bit A hollow post drill allows easy removal of intercell connectors Button Mold A button mold allows for burning perfectly formed buttons Post Mold A post mold forms a post to attach connectors Ay Bulldog Battery Corp N P O Box 766 387 S Wabash St tm Wabash IN 46992 Bulldog Thermometer A rugged thermometer designed to read motive power battery temperatures The temperature correction scale built into the thermometer provides quick accurate temperature correction factors Bulldog Battery Lifting Beam A Battery lifting beam offers the best and safest method of changing lift truck batteries Meets OSHA standards Select or better grades of laminated hardwood are used for lasting strength along with heavily coated zinc plated steel parts to guard against rusting Model Type Lifting Capacity BD 6000 Adjustable 26 to 40 6000 Ibs Phone 800 443 3492 FAX 219 563 8245
31. detailed instructions for capacity and cadmium electrode testing plus a troubleshooting chart can goa long way in helping to correct minor problems before they become major expenses Some Diagnostic Hints These hints can help pinpoint the source of battery problems 1 While a battery is on charge feel the intercell connectors A hot connector usually indicates an overheated battery defective cell or a bad connector burn 2 An accumulation of moisture and or tray corrosion on the bottom of a battery or a vehicle battery compartment often indicates that one or more jars are leaking 3 Unequal cell specific gravities in a newer battery indicate that the battery might have been tipped over and the cells with the lower specific gravities have lost electrolyte 4 lf a battery is inspected shortly after it is watered and prior to charging the specific gravity readings may be low and uneven The specific gravities will level out after it is fully charged 5 Watering to the proper level is the most difficult procedure to control in routine battery maintenance Overwatering causes tray corrosion and results in the multiple problems discussed on pages 15 and 16 6 A defective or out of adjustment battery charger can create considerable damage before the cause is discovered Vehicle operators should be trained to report hot batteries battery maintenance personnel should report to their supervisors chargers that do not reduce
32. ding the battery is well maintained as described later in this section all that is necessary for routine charging is knowledge that the charger is functioning properly This is accomplished by periodic inspection 11 Routine Maintenance and adjustment of the equipment Periodic inspection and adjustment of the charging equipment can be performed by an outside professional charger repairman Contact your Bulldog Battery representative However a basic knowledge of what is involved in the charging operation plus a brief description of the more important types of charging and when they should be used should provide valuable information in the event of automatic charger malfunction or for charging operations not using fully automatic equipment Types of Charging There are a number of different charging methods but for purposes of this manual only three need explanation These are Cycle Charge Equalizing Charge and Freshening Charge Cycle Charge This is the complete recharge of a battery after it has been fully or partially discharged during normal operation Typically a cycle charge is based on an 8 hour charging cycle but can depending on need be extended Equalizing Charge Each cell of a battery has slight differences in uniformity of construction and content These slight differences cause some cells to take less charge than the other cells in the battery After a time the state of charge of the cells which req
33. dog Battery Sales Office or Service Location Gassing When a battery is charging the electrolytic breakdown of the water in the electrolyte produces oxygen on the positive plate and hydrogen on the negative plate This is normal However if a high charging rate is continued after the battery has been brought to its gassing voltage the gassing becomes excessive and abnormally large amounts of hydrogen and oxygen gases are produced The best indication of excessive gassing is very noticeable bubbling action of the electrolyte and high electrolyte temperature Keyed Connectors Sometimes batteries of several different voltages and ampere hour capacities are charged at the same centralized location Precautions must be taken to make sure that batteries are charged on chargers with matching voltages and ampere hour ratings Rather than rely on the persons placing the batteries on the 13 Routine Maintenance chargers we recommend the use of plugs and connectors of different types or the use of keyed and color coded connectors Contact the nearest Bulldog Battery Sales Office or Service Location if more information on the various kinds of charging plugs and connectors is desired Keyed connectors eliminate the possibility of hooking up a battery to the wrong charger or vehicle The differently keyed connector housings prevent these connectors from being inter connected Vent Opening Liquid Level The electrolyte l
34. ectrolyte of the cell see photo and move it around frequently to prevent the formation of gas bubbles and provide a good positive cadmium reading Take and record the positive cadmium readings for all the cells of the battery while on charge Record the on charge cell voltages and specific gravities of all cells of the battery on a form similar to the one shown on page 21 By way of illustration the example below shows the positive cadmium readings of the cells of a battery ina fully charged condition at a temperature of 77 F Cell No On Charge Positive Negative Voltage Cadmium Cadmium 1 2 65 2 45 20 2 2 45 2 50 05 3 2 66 2 51 16 4 2 45 2 26 19 5 2 65 2 45 20 6 2 65 2 45 20 Referring to the table note that cell number 4 has a low on charge voltage of 2 45 This fact plus the fact that the positive cadmium reading is also quite low is an indication that the cell should be inspected internally for trouble Cell number 2 also shows a lower than normal on charge voltage Notice that in both cases a problem is indicated by a cell voltage reading being out of line with the other cell voltage readings in the battery However in the case of cell number 2 the positive cadmium reading is normal suggesting possible trouble with the negative plates Several conditions such as contaminated electrolyte can cause this The Unequal Cell Voltage section of the Troubleshooting Chart on page 25 lists other possible cause
35. ells are usually identified with their vent caps colored differently than the rest 3 Provide a means of recording the number of cycles on a cumulative basis to date plus maintenance and repair information 18 Types of Forms and their Use Many types of recording forms have been created by companies for their own private use These forms although similar in many respects vary according to the individual plant s needs The forms shown here are offered as examples of how cycle and maintenance records can be kept The obvious and primary value of these types of records is that they provide historical records of the performance of individual batteries the tests performed and repairs made on them A closer look at any individual battery s records can reveal a number of other interesting and helpful pieces of information Recording specific gravity at the beginning and end of each cycle will pinpoint any irregularities in the condition of the battery or its use in operation Records of specific gravity of the battery when it is brought in for recharging indicate whether the battery is being abused and used in a low voltage condition Maintenance and repair records often point to battery abuse and also gauge a specific battery s performance Continuing monthly and yearly records help to pinpoint a battery s cycle age and control the battery inventory and replacement programs Battery Cycle Card
36. ese battery charging areas should be equipped with overhead hoists conveyors and cranes or their equivalents for handling batteries safely and conveniently Battery charging areas should be adequately ventilated either through natural or forced ventilation Adequate ventilation is difficult to define as it is dependent on a variety of factors such as number and size of batteries being charged at one time room size ceiling height air tightness of the building etc No Smoking No Open Flame Because an explosive mixture of gas can exist in and around charging batteries anything that could ignite the gas such as open flame an arc spark or smoking should be prohibited in battery charging It is recommended that No Smoking sign be posted prominently in charging areas Insulated Battery Charging Racks When batteries are charged in racks the racks should be insulated to prevent the possibility of sparking The supports on which a battery rests should be made of non conductive materials or be suitably insulated Charger Connections Before connecting a battery to or disconnecting it from a charger the charger should be turned off Live leads can cause sparking and arcing plus undesirable pitting of the contact surfaces of plugs or connectors Firefighting Equipment In addition to automatic sprinkler equipment that might be present charging areas should be equipped with suitable hand operated fire extinguishers
37. evel must be kept between the high watering level and the separator protector is shown in the sketch Caution Do not overfill Moisture on the tops of the batteries indicates overtilling has occurred Routine Maintenance Typical Recharging Characteristics DC Volts Per Cell Battery Capacity 22 TD O b o a E gt gt z 2 foal uP DC Amps Per 100 Amp Hour Madd ot Amp Hours Returned wet DEAR E Percent of AH Capacity Returned 2 3 Hours Charge Typical charge return to an 18 cell battery discharged 725 ampere hours using a Bulldog Charger Hydrogen is a highly combustible gas and will explode on ignition when its concentration in air reaches any level between 4 percent and 74 percent Below 4 the concentration is too weak above 74 there is not enough oxygen left in the air to support combustion If you have reason to suspect excessive gassing troubleshoot the battery and charging equipment An unusually high usage of water indicates that excessive gassing is occurring A list of eight probable causes and possible remedies are outlined in the battery overheats during charge section of the Troubleshooting Chart on page 24 A section entitled Battery Gassing on page 6 shows how to calculate the rate of hydrogen release for a specified battery Undercharging Undercharging a battery even to a small degree if continued le
38. f the proper levels are being maintained if the second method is used Determining a reasonable and proper battery watering time schedule could be easy or difficult depending on how widely the following three factors vary Frequency of charge daily 1 1 2 times a day three times a week etc Water storage capacity of the specific cell type Age and condition of the battery Older batteries and those in poor condition will consume water more rapidly than newer batteries and those in good condition Also some cell types have a greater water storage capacity than others Depending on the preceding variable factors the batteries assigned to a specific charging area will require watering at different intervals The frequency of watering is best determined by first hand experience EXAMPLE If some batteries have low electrolyte levels when a weekly watering schedule is followed change the schedule to twice a week Cleaning To prevent tray corrosion and the resultant problems batteries must be cleaned and dried routinely Sometimes minor spills or overflows of electrolyte occur due to overfilling Instead of giving the battery a general cleaning at this time the moisture can be removed with rags or paper towels These should be immediately disposed of The frequency of a general cleaning depends upon two factors How quickly dust dirt oil and other foreign matter accumulate on the top of the battery and
39. gassing or high temperature resulting from overcharge The finish rate is shown on the nameplate of Bulldog Batteries Generally speaking it is 5 amperes per 100 hours of the battery s 6 hour rate capacity A partially or completely discharged battery can safely handle currents much higher than the finish rate but as it approaches full charge whatever charging rate is used must be reduced to the finish rate The chart Typical Recharging Characteristics page 14 shows this finish charging rate The curves are typical of the recharge of an 18 cell battery which was discharged 725 ampere hours and shows specific gravity current voltage and cell temperature Note that after 12 approximately 5 hours of charge when the battery is about 85 of its nominal full charge the charging current is reduced sharply to a level which is maintained until charging is complete When the battery is fully charged the current is stopped or should be reduced to a very low rate Determining if a Battery is Properly Charged If the battery charging equipment is the counter voltage sensing type and is functioning properly and if the battery is in a healthy condition there is little chance for an improperly charged battery If some doubt about its operation exists the following checks are a quick way of determining a proper fully charged battery Charging current readings will level off to the finishing rate Charging voltage stabilizes
40. he information easier to find the safety procedures have been grouped according to where they would logically be needed while working with batteries or charging equipment The groups are identified as 1 Handling and Changing Batteries 2 Charging Batteries 3 Handling Acid and 4 Repairing Batteries Note The information presented is of a general nature It should NOT BE CONSTRUED AS A LEGAL OPINION Handling and Changing Batteries Wearing Jewelry Personnel who work around batteries should not wear jewelry made of conductive material Metal items can short circuit a battery and in the process become hot enough to cause a severe burn Removing Batteries If a battery is to be removed from a truck 1 open the electrical circuit of the truck turn key or switch off 2 set the brakes or chock the wheels and 3 unplug the battery The same procedure applies if the battery is to be charged in the truck Never try to move a battery by pulling its cables Batteries should be changed or charged only by personnel who are trained and authorized to perform these jobs Protected Chain Hoists For handling batteries chain hoists should be equipped with a chain container or bucket to prevent a dangling chain from shorting the battery If a container or bucket is not available the battery may be covered with a non conducting material such as plywood or plastic An insulated battery lifting beam can be used with any type of
41. ic controls or electrical components of the vehicle To test for a ground in a battery set the voltmeter to handle the full open circuit voltage of the battery being tested Place the positive probe on the positive terminal of the battery and the negative probe on a spot of the 16 steel tray where bare steel is exposed Make sure that the negative probe penetrates the paint to the steel To detect the location of the ground move the positive probe from intercell to intercell connector until the lowest voltage reading is found This will be the grounded cell To clear the ground clean the top of the battery of acid and corrosion and dry If the ground is still present remove the cell and check for leaks Reseal using the Bulldog Plastic Welder if necessary Watering Schedule Low electrolyte level in a cell can cause the plates to oxidize and shorten the life of the cell and the battery To prevent this needless and wasteful damage water should be added often enough to keep the electrolyte level above the perforated separator protectors Ideally a watering policy or schedule should be adopted and followed strictly One of two systems can be used In the first the electrolyte level of two or three cells is checked each time the battery is charged In the second water is added to all of the batteries assigned to each charging area on a regular time schedule The electrolyte levels are also spot checked periodically to determine i
42. in contact with either the top or bottom of the barrel The correct hydrometer reading is an imaginary line drawn across the scale at the lowest level of the electrolyte To prevent splashing the electrolyte on clothing keep the tube of the hydrometer in the cell vent hole To read the individual cell voltages of a battery place the positive lead of the voltmeter on the positive terminal of a cell and the negative lead of the voltmeter to the negative terminal of the same cell Cell voltages must be read to the 1 100th of a volt Example 2 12 2 09 etc Specific Gravity Temperature Correction Chart Electrolyte Point Temperature F Correction 3 8 7 6 5 4 3 2 1 No Correction v paN PNA UNa at ut m ah ot ayn Vee N 283 Specific Gravity Correction Chart For an accurate specific gravity reading the temperature point correction must be added to or subtracted from the hydrometer reading Battery Charging By far the most important part of routine maintenance is the proper charging of the batteries Generally speaking lead acid batteries may be charged at any rate of current which does not cause excessive gassing of the electrolyte and does not produce temperatures in excess of 115 F 125 F is acceptable for infrequent short periods Fortunately today s automatic voltage controlled chargers like the Bulldog Battery Charger take the guess work out of charging Provi
43. ions and safety measures to be observed by those handling batteries are covered in the section entitled Safety Before handling or repairing batteries we strongly recommend this section be read Description and Theory How a Battery is Constructed A lead acid motive power battery is a portable power source for supplying direct current DC electricity to electric vehicles It consists of 6 or more cells connected in series and assembled into a metal or fiberglass tray This type of battery comes NEG POST VENT CAP COVER GROMMET POS POST in a wide variety of shapes voltages and ampere hour capacities Each cell of a battery contains a group of te x __CELL positive and negative plates interleaved so WELD soe aca Sant N COVER that positives and negatives alternate The LOCATION aa NT negative plates outnumber the positives by SEPARATOR H one The positive plate consists of the PROTECTOR JAR active material lead peroxide held within the positive grid structure In the Bulldog Industrial Battery the active material is held firmly against the grid framework with POS PLATE a retention system consisting of glass mat a fiberglass mat and a sleeve separator iz STRAN MAT SEPARATOR The negative active material is held by the thinner negative grid No retention system is used because there is only slight shedding of the active material throughout its normal service life GLASS M
44. ither way is debatable The following information is offered as a guideline to help decide when to repair and when to replace The normal service life that can be expected of a fork truck battery in a specific operation can be determined by experience and by keeping life records A service life of 6 years or 1800 cycles is not unusual when the depth of cycle operating temperatures quality of maintenance etc are properly controlled A good general rule is this If a battery has one or two years of one cycle per day service and has not been exposed to overcharging over discharging high operating temperature or other misuse and the repair costs do not exceed 50 of the replacement cost it is probably more economical to repair it than to replace it Remember that a physically damaged battery or one that is damaged by overcharge may have hidden damage Before undertaking major repairs give the battery an equalizing charge and read all of the specific gravities Instructions on How to Inspect a Battery are on page 20 If all of the undamaged cells are within 030 points of specific gravity of a fully charged battery see chart on page 15 for the proper full charge specific gravity the battery is probably economically repairable An older battery or one that has extensive damage requires a closer look at the economics of repair versus replacement A battery that has 900 to 1500 cycles or 3 to 5 years of service and require
45. lation Seat the battery in the compartment firmly and evenly Then block it in position Many vehicles adjustable clips for blocking the battery into place 1 4 to 1 2 clearance between the block or clip and the battery tray Do not wedge the battery into the compartment because some room is needed for expansion All vent caps must be in place Uncapped cells will allow the electrolyte to splash and cause corrosion to the tray and vehicle Routine Maintenance Today s industrial battery is designed and built to give anywhere from 1000 to 2000 operation charge cycles depending on the application and the operating environment If such a battery were to complete one cycle per work day the life expectancy would be 4 to 8 years Exactly how much life a battery will provide depends to a great extent on how well you take care of your battery The following maintenance procedures properly carried out at the proper time will go a long way toward prolonging the life of the battery and making it more efficient Routine battery maintenance consists of four functions Properly charging the battery Adding water as needed Cleaning as required Maintaining battery at proper temperatures Instruments for Inspecting Batteries Three testing instruments are required to check batteries accurately and efficiently a voltmeter hydrometer and thermometer All three testing instruments appear in Accessories and Testing Equipment
46. mically the reaction is 2H O 2H O water electricity hydrogen oxygen How a Battery is Rated The vehicle configuration application and type of work to be performed by the vehicle usually determine the battery voltage and ampere hour capacity selected A battery is rated by its capacity to deliver or discharge electrical energy over a period of time and the capacity is expressed in ampere hours For example a battery rated at 300 ampere hours at a 6 hour rate means that it can deliver 50 amperes continuously for 6 hours before it reaches a discharged condition The 6 hour rate is the time standard used by the battery industry when measuring battery capacity A variety of factors that include the plate size the number of plates in acell the specific gravity of the electrolyte and the discharge rate all help to determine the ampere hour capacity Another measure of battery capacity takes both the ampere hours and voltage into consideration This measure of capacity is called watt hours or kilowatt hours watt hours 1000 Kilowatt hour KWH capacity indicates the power a battery can deliver under certain conditions This relationship is explained by the definitions of battery capacity terms and the explanation of battery capacity testing Ampere Hour AH 4 BULLDOG BATTERIES amp CHARGERS POWER THAT WON T QUIT Description and Theory Ampere Hour Rating current in amperes X time in hours Examples 300 am
47. ng to its design specifications it also helps prolong the service life of that equipment Industrial batteries are no exception The following maintenance tips if followed can help achieve top performance over thousands of hours of operation 17 Routine Maintenance 1 DO maintain the proper electrolyte level Avoid overfilling as this damages the battery 2 DO charge properly Check charger controls and instruments periodically Calibrate meters as needed 3 DO repair damage promptly Major damage means an idle investment minor damage if not quickly repaired can soon lead to major damage 4 DON T overcharge Many batteries deliver short service life from too much charge 5 DON T discharge over 80 for maximum battery life Overdischarging is one cause of less than normal battery life And as a battery nears complete discharge its operating efficiency decreases substantially 6 DO use batteries according to the manufacturer s recommendations Using a smaller capacity battery than is called for is a sure way of ruining an expensive investment 7 DON T place metal objects on a battery They can arc or short circuit the battery 8 DO replace at 80 of capacity When a battery cannot deliver more than 80 of its normal capacity after a charge it s time to replace it A battery in poor condition can cause low voltage operation in the vehicle and result in substantial damage to its electrical components
48. or overfilling a battery When overfilled the electrolyte will spill on top of the battery Although the water in the electrolyte will evaporate the highly concentrated acid solution remains and gives the appearance of dampness If the acid is not removed the tray will eventually corrode To prevent corrosion batteries should be cleaned any time the accumulation of dampness or acid becomes significant The only way to prevent overfilling is by not exceeding the level pointed out in The Ten Commandments of Good Battery Care A good technique to follow in watering batteries is to use a flashlight focused on the vent hole being watered Visually watch the level of the electrolyte rise and stop the watering the instant the proper level is reached Each cell is filled in the same way Cell filling equipment that automatically fills batteries to the proper level is available Contact the nearest Bulldog Battery Service Location for details In addition to causing tray corrosion the accumulation of acid in conjunction with the corrosion can cause grounds Two significant grounds can create an external short through the case of the battery As a result some or all of the cells will continually discharge And as the current carrying ability of the multiple grounds increases further complications such as jar leakage overheating cell failure etc can occur Furthermore grounds can also cause serious problems or failures in the electron
49. ould be at least four inches longer than the length of the weld Cut the end of the rod to a 60 angle with cutting pliers Battery Repairs Sue 4 Next heat the asphalt sealing compound and pour it Welder into the channel between the cells and tray wall Plastic Welding Rod Direction f Weld Z Area To Be Preheated Base Material 6 Preheat the cover and the jar at the start of the weld by fanning the heat 1 2 inch from the surface NOTE Do not start the weld on or near the jar corners Hold the rod perpendicular to the joint of the jar and cover continue the fanning motion and press the rod to the joint Heat the tip of the rod and the starting point of the joint until they become tacky Press the end of the welding rod firmly into the joint with the point of the rod away from the direction of the weld Start heating the The asphaltic sealing compound should be hot and welding joint and rod together with a fanning motion in free flowing to make a good seal line with the direction of the weld Maintain a firm downward pressure on the welding rod at a right angle to the work The rod will begin to move forward The welder is fanned at a 45 angle between the welding 5 Now fill the channel to the top with compound Gently flame it around the top to seal the cell and battery Use a flame from a source such as hydrogen rod and the joint This heats all surfaces equally Only natural gas or acetylene and oxygen Be careful
50. page 26 If repairs cannot be made contact the nearest Bulldog Representative or Authorized Service Location for other arrangements Treatment for Repaired Cells After the element is installed in a new jar fill the jar with electrolyte of the same specific gravity as the rest of the cells in the battery at the time of the spillage Charge the battery at the finishing rate refer to The Charging Process in the Routine Maintenance Section page 10 until the battery specific gravity stops rising If the specific gravity in the cell being repaired is lower or higher than the normal reading for a fully charged battery follow the instructions outlined in Acid Replacement and Adjustment of Specific Gravity page 29 Placing a Wet Battery in Service After determining that a battery was not damaged in shipment give it a freshening charge of three to six hours then install the battery See Freshening Charge for more details page 12 Installing the Battery The battery compartment of the vehicle must be well ventilated to allow the heat generated by the battery during discharge to dissipate The battery compartment should also have drain openings in the floor Most vehicle manufacturers are aware of both these needs and have provided the necessary louvers slots and or holes in the battery compartment If the battery is to be installed in a metal compartment make sure the compartment is clean and dry prior to instal
51. percent and 74 percent of it less than 4 or more than 74 hydrogen will not explode Hydrogen which is the lightest known gas is fourteen times lighter than air and rises and disperses very rapidly Normally insignificant quantities of gases are released by a battery during the first part of the charge as most of the charging current is used in charging the battery Only during the last stages of the charge does the process become inefficient so that an increasing portion of the current is used up by the creation of heat and gases If instead of being used to charge the battery an ampere hour of charge is used completely to produce gas it will create 0 01474 cubic feet or 0 418 liters of hydrogen per cell at standard temperature and pressure Stated another way 68 ampere hours of charge used completely to produce gas will create approximately one cubic foot of hydrogen per cell To determine exactly how much hydrogen is released by a battery at any moment of the charge is rather difficult as each case will be different However the total amount released may be approximated by the following method It is based on the concept that a completely discharged 100 AH battery requires 100 AH of charge to bring it to full charge plus overcharge needed to make up for inefficiencies of charging such as heating and gassing The calculation assumes all the overcharge is used to produce gas Kequals the number of cells in the battery
52. peres for 1 hour 300 ampere hours at one hour rate 100 amperes for 6 hours 600 ampere hours at 6 hour rate Kilowatt Hour KWH Watt Hour Rating current in amperes X time in hours X average voltage ampere hours X average voltage as designated by the battery manufacturer Kilowatt Hour Rating watt hour rating 1000 ampere hours X average voltage 1000 Example What is the KWH rating of an 18 cell 600 ampere hour battery with an average discharge voltage of 34 95 volts KWH Rating 600 ampere hours X 34 95 volts 1000 20 97 KWH Standard Test Conditions Time 6 hours Final Battery Voltage 1 70 volts per cell X number of cells in the battery Temperature 77 F average Capacity Discharge Test A capacity discharge test determines if a specific battery delivers its rated capacity Capacity Testing is explained on page 22 Ampere Hours per Positive Plate This term is defined as the rating of a specific size or type of positive plate expressed in ampere hours at the 6 hour rate There is one more negative plate than positive plates in a cell Therefore to calculate the ampere hours per positive plate in a specific type of battery first subtract one from the total number of plates in the cell and then divide by two Example Determine the ampere hours per positive plate in a type 18 85B 17 battery which is rated at 680 ampere hours The 17 indicates there are seventeen plate
53. plash in the Eyes Acid splashing into the eyes is the most dangerous condition possible while handling higher specific gravity acid or electrolyte If it happens the eyes should immediately be flooded gently with running water for at least 15 minutes followed as quickly as possible with an examination by a physician Special care should be taken to check for persons wearing contact lenses The lenses should be removed if acid gets into the eyes then the eyes thoroughly rinsed with water WARNING Do not place a buffering or neutralizing agent in the eyes without the expressed approval of your Safety Department Acid Splash on Skin Acid or electrolyte spilled or splashed on the skin should be washed off under running water If a burn develops it should be reported to a supervisor and treated medically Acid Splash on Clothing When acid is splashed on clothing use a weak solution of bicarbonate of soda to neutralize the acid When clothes are soaked or splashed over large areas they may be removed the acid neutralized with bicarbonate of soda and or rinsed in running water until free of acid The sooner the clothing is rinsed the less chance of damage to the material Care should be taken not to spill acid into acid resistant boots Boots should be checked prior to each wearing to make sure that they are dry and that no acid or chemical has been left inside Protective Clothing Normal work clothing can be worn in batte
54. plete pH acidity control equipment is recommended The use of caustic soda is usually restricted to large installations with automatic neutralizing equipment NOTE All of these neutralizing chemicals can be purchased from chemical supply firms Repairing Batteries Disconnect the Battery A battery should not be handled or repaired while on charge or discharge Disconnect the battery from the truck or charger first Remove the Gas Before Working Before working on a battery remove all of the vent caps and flush each cell with a gentle stream of air by fanning each vent opening with a stiff piece of cardboard or other suitable non conductor Sealing Compound When melting sealing compound in a melting pot be careful not to puncture the top section of unmelted compound with a sharp or pointed object A build up of pressure from the melted compound in the lower section of the pot may cause liquid compound to squirt and inflict a severe burn Insulated Tools Use insulated tools whenever possible when working on batteries If possible cover the terminals and connectors of a battery with a sheet of plywood or other insulating material Installation Receiving a Battery Inspecting the Shipping Container lmmediately upon receiving a battery inspect the outside of the corrugated container or crate and the pallet Look for wet spots on the sides and bottom Wet spots generally indicate that the battery jars are broken
55. rities parts per million Total solids 350 ppm Chlorides as Cl 25 ppm Nitrates as NO 10 ppm Iron as Fe 4ppm Occasionally tap water has a small amount of nickel manganese chromium or copper contamination Depending on the quantity these contaminants also can significantly affect battery life If the suitability of the tap water for watering batteries in your locale is questionable Bulldog Battery can provide a water sample analysis test For details and the cost of the test phone or write the nearest Bulldog Battery Representative If the Bulldog analysis indicates that the tap water in your locale is not suitable for batteries it is possible that a more suitable tap water might be found within a reasonable distance and transported to your location more economically than purchasing distilled water or water purifying equipment Tray Corrosion Most trays for motive power batteries are made of steel that is protected with an acid resistant coating Regardless of how good the coating is if a break in the coating exposes the steel tray to the sulfuric acid spilled from the battery the acid will corrode the tray How quickly the tray corrodes depends on how much and how often acid is spilled on top of the battery and how often the battery is cleaned Routine Maintenance Tray corrosion can shorten battery life significantly It is most often caused by over watering The major cause of tray corrosion is overwatering
56. ry charging and battery repair areas for routine battery work Acid resistant clothing is not as susceptible to acid damage as garments made of cotton rayon or similar materials If sulfuric acid with specific gravity higher than 1 400 is handled during gravity adjustment etc the following protective clothing and equipment can be used acid resistant gloves acid resistant arm gauntlets acid resistant apron acid resistant boots plastic face shield Safety Pouring Acid A carboy tilter or safety siphon shall be used when acid is removed from a carboy container A venting device in a carboy will provide uninterrupted flow and prevent splashing Never move a carboy of acid without its protective box Store acid carboys in a cool place and keep them out of the direct rays of the sun Mixing Electrolyte Always add acid to water Never pour water into strong acid When mixing electrolyte add the sulfuric acid to the water slowly while stirring the mixture Stirring prevents the acid from settling to the bottom The mixing container should be heat and acid resistant Using sulfuric acid above 1 400 specific gravity is seldom required and is not recommended Concentrated acid is extremely dangerous When it must be used special precautions must be followed and supervisory personnel should oversee the operation Storing Acids and Electrolyte Battery electrolyte and sulfuric acid solutions should be stored only
57. s etc Repair or replace defective component 6 Water battery to proper level and charge immediately after cooling 7 Open the compartment during charge or charge the battery out of the truck with the tray cover opened 8 Allow battery to cool below 90 F before charging Use cooling fans to speed the process 1 Any possible remedy listed under Battery Overheats During Charge 2 Repair or replace defective lift truck parts 3 a Require drivers to return battery for recharge when vehicle begins to slow down b Install battery protector on vehicles 1 See that battery has reached full charge specific gravity before placing into operation Fullcharge gravity is 1 280 corrected for temperature variations 2 Repair or replace battery See page 26 3 Remove grounds or shorts See page 15 4 Replace battery with equal or higher capacity battery 5 a Replace battery with batteries having higher capacity b Purchase extra batteries with higher capacity if possible 6 Troubleshoot vehicle and repair Symptom Lowelectrolytelevel Unequalcell voltages Unequal specific gravities between cells Probable Cause 1 Broken or cracked jar s 2 Cell missed when watered 3 Weak or defective cell s 4 Frequentovercharge 5 Battery not regularly watered 1 Grounds in battery 2 There is a tap off the battery for auxiliary equipment 3 Battery sluggish due to lack of work 4 Leaking
58. s per cell 17 1 16 16 2 8 positive plates per cell 680 ampere hours 8 positive plates 85 ampere hours per positive plate Safety A lead acid motive power battery can be an extremely useful safe source of electrical power On the other hand if improperly used it can be an extremely dangerous piece of equipment The difference between the two conditions is determined by the care and safety procedures exercised in handling batteries Before considering the safety procedures first consider the hazards inherent to a lead acid battery The Hazards A lead acid battery by its very construction exposes working personnel to four potentially dangerous elements sulfuric acid explosive gases electricity and heavy weight A sulfuric acid solution is used as the electrolyte in lead acid storage batteries and has a concentration of approximately 37 by weight of sulfuric acid in water Even in this diluted state sulfuric acid is a strong oxidizing agent and can burn the skin and eyes and eat holes in clothes made of many common materials such as cotton and rayon An explosive mixture of oxygen and hydrogen is produced in a lead acid storage battery during the charging process The two gases can combine explosively if a spark or flame ignite them Because hydrogen is so light it normally floats away and disperses into the air before it can collect into an explosive mixture However if it accumulates into gas pockets
59. s recommended that both batteries andchargers be inspected periodically This general type of inspection which is a form of preventative maintenance should not be confused with the inspection carried out for troubleshooting a battery to pinpoint a specific problem If minor problems in batteries and charges can be identified early then adjusted or repaired battery damage can be avoided A battery inspection often reveals improper routine maintenance and operational procedures which can lead to extensive battery and vehicle damage Inspection can also identify batteries in poor or bad condition so that they can be replaced immediately or at some suitable time in the future Establishing a battery inspection timetable suitable for all users is difficult because battery usage and the quality of routine maintenance differ from one plant to the next However if routine maintenance is average and the batteries are cycled once a day five days a week an annual inspection should be frequent enough to identify the problems With rare exception few vehicle repairmen have the necessary training and experience to identify and correct the subtle battery and charger problems that can occur But it is relatively easy for the experienced professional serviceman equipped with special instruments and tools to identify the problems If your organization does not have a trained battery and charger repairman we recommend that you contact the nearest
60. s of a below normal cell voltage TroubleShooting and Testing Troubleshooting Chart Symptom Battery overheats during charge Battery overheats during discharge Battery not completing fullwork shift Probable Cause 1 Malfunctioning charging equipment 2 Charging equipment out of adjustment 3 Weak or defective cell s 4 Battery beyond economical repair 5 High resistance connection within the battery 6 Low electrolyte level 7 Battery charged in the vehicle with battery compartment closed 8 Battery over 115 F when placed on charge 1 Any probable cause listed under Battery overheats during charge 2 Worn out bearings brakes dragging or other vehicle problem causing high current draws 3 Overdischarge of battery 1 Battery notfully charged before placed into operation 2 Leaking weak or defective cell s in the battery 3 Shorts or grounds in the battery 4 Battery beyond economical repair 5 Battery too small for the job 6 Mechanical or electrical problems in vehicle 24 Possible Remedy 1 Replace or repair defective charger parts timer voltage sensitive relay control board etc 2 a Adjust start and or finish charging rates b Adjust charge termination voltage sensitive electronic device or relay 3 Replace or repair problem cell s See page 26 4 Replace battery See page 26 5 Check for hot wires cells intercell connectors charging plug
61. s repairs totaling 25 or more of the replacement cost probably should be replaced instead of repaired The determination depends mainly on how many more cycles or years of service the battery can be expected to deliver after the repairs are completed This kind of estimate can be made by an experienced industrial battery repairman If you do not feel confident in making this judgment contact your local Bulldog Battery Service Location A professional battery serviceman can estimate the remaining service life expected of the battery if the necessary repairs are made After estimating the remaining service life the final decision to repair or replace is made by arithmetic For example if the estimated cost of repairing the battery is 200 and its replacement cost is 1200 the estimated remaining service life must exceed 1 year or 300 cycles to justify the repair Otherwise it is more economical to replace the battery 26 Disassembly and Reassembly Instructions Caution Repairs attempted by inexperienced personnel can be dangerous because they expose personnel to several potentially dangerous elements Therefore the Safety section of this manual should be reviewed before handling the battery or beginning repairs If the slightest doubt exists about the ability of the personnel to perform the repairs play it safe Call your nearest Bulldog Battery Sales Office and arrange to have the battery repaired at an authorized Bulldog B
62. terials which may cause short circuit 6 Any work done on the element must be done as quickly as possible Unless the repairs can be made within 20 minutes the element must be covered with wet cloths to prevent heating If repair of the cell is delayed more than 1 hour store the element in electrolyte of the same specific gravity as in the cell Note Elements exposed to air can be damaged by oxidation of the negative plates Reassembling the Battery Plastic Welding 1 If the element was removed from the jar insert the element into the jar Check for correct polarity 2 Using ammonia as a neutralizing agent clean and neutralize the jar especially in the area to be welded Allow to thoroughly dry 3 Observing the correct polarity install the replacement cover onto the cell At this time the grommets should be seated only deeply enough to hold the cover in place during the welding operation Again observe correct polarity indication NOTE The welding operation may be easier if the cell is in a horizontal position To prevent leakage of residual electrolyte raise the cover end slightly A block of wood placed under the cover end of the jar will suffice 4 Plug the welder into a 120 VAC grounded outlet the compressor will begin operating Turn on the switch to the heating element and allow the welder to warm up for three or four minutes 5 Cut a length of 1 8 inch or 5 32 inch polypropylene welding rod The rod sh
63. uire more charge than the others will drift back in capacity and the battery will not deliver its full capacity To bring the cells with a lower state of charge up to the same level as the others the battery is given an equalizing charge The cells with a higher state of charge will be overcharged somewhat in order to bring the cells with a below normal state of charge up to full charge Years ago when lift trucks and mine locomotives were used lightly or sometimes stored during slack seasons frequent equalizing charges sometimes weekly were recommended by battery manufacturers Today this inflexible kind of equalizing schedule is not recommended Instead the recommended frequency of equalization is dependent upon how often the batteries are cycled and the depth of the cycles The frequency of equalization can dramatically affect the operational costs of the vehicle Unnecessary equalizing charges in addition to consuming electricity can result in significant loss of battery life caused by unnecessary overcharge The following examples will give you a good idea of a reasonable battery equalizing schedule for a specific battery operation Routine Maintenance For batteries that are cycled only once or twice a week to an average depth of 30 to 60 percent a monthly equalizing charge is sufficient to keep them fully charged Batteries that are discharged regularly three or more cycles per week and to an average disch
64. uld be replaced with pure tap water or distilled water In some areas around the country tap water may contain chemicals or other impurities harmful to batteries If in doubt about the suitability of the local tap water read the information entitled Water Suitability and Water Analysis If water is needed add just enough to bring the electrolyte to the proper level as illustrated in the Ten Commandments of Good Battery Care available upon request Batteries should be filled only at the end of the 15 Routine Maintenance charging cycle Overfilling is the most common error made when watering because it can cause tray corrosion and loss of capacity Since that corrosion can cause EXTENSIVE DAMAGE to batteries and vehicles extreme caution must be taken to avoid overfilling the batteries The information in Tray Corrosion below identifies the cause and effects and suggests how to prevent it The information in Watering Schedule page 16 can help you establish a reasonable and economical watering schedule Water Suitability and Water Analysis Most tap water in the United States is suitable as replacement water in lead acid storage batteries There are a few locales where certain quantities of specific impurities will reduce battery life significantly enough to justify the use of distilled or amore pure water The NEMA recommendation for battery replacement water lists the following maximum allowable impu
65. ve been so much a part of our life style for so long that many people tend to take them for granted They expect batteries to perform reliably and trouble free with little or no attention In plant environments where many materials must be moved this lack of proper attention can result in reduced battery life inefficient materials handling damage to lift truck equipment and a poor return on capital investment Because they play such a vital role in materials handling in virtually every segment of industry batteries should receive a great deal of attention in any plant program of care and maintenance Ideally batteries should be handled by trained and skilled personnel not only because of the financial investment involved but also because of the inherent dangers involved with battery handling and maintenance The purpose of this manual is to help the men responsible for this care and maintenance to get the most efficient service from their batteries and work with procedures that provide the safest possible environment The design of charging rooms vary widely depending on space limitations Contact your local Bulldog Battery representative or write Bulldog Battery for recommendations based on your specific needs Periodic Battery and Charger Inspection The Purpose and Frequency of Inspections 20 How to Inspect a Battery neern 20 Troubleshooting and Testing Some Diagnostic Hints ceeeeeeeeeeeeeeeeneeeee 22
66. west cost type of safety equipment It consists of a plastic squeeze bottle containing a buffering solution for the relief of acid burns on skin clothing or in the eyes The bottle usually holds about a quart of solution It is heldina brightly colored molded receptacle about 1 1 2 feet square that can be mounted on the walls of the battery charging areas or battery repair shops Its use is practical in smaller battery charging areas and at battery repair shops where acid with a specific gravity of 1 400 or higher is not handled Before installing chemical burn station equipment check to see if it is acceptable to your company Safety and Medical Departments Eye wash Fountain A water fountain type of device with two openings that facilitate washing both eyes at once This type of safety equipment is useful when 1 400 specific gravity acid is regularly used for gravity adjustment etc Deluge Shower This is a shower type of device with a handle or foot treadle for turning it on full force When high specific gravity sulfuric acid above 1 400 is handled regularly it is recommended that a deluge shower and an eye wash station be installed Vent Caps Stay In Keep the vent caps in the cells at all times except when removal is necessary to service or repair the cells This precaution reduces the probability of electrolyte splash and prevents foreign matter from entering and damaging the cells Safety Handling Acid Acid S

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