Profits From Scrap

In his every day work, the storage battery service man must deal chiefly with three materials, wood, rubber and lead.

The wooden parts, such as boxes and separators are pretty well standardized, can be purchased at reasonable prices and are used solely for replacements. It would not pay the battery man to equip his shop to manufacture any of these items.

Figure 1

The same is true of the rubber parts, the jars and top covers. A dozen different sizes in stock will take care of nearly all the various makes and models of batteries which come in for repair.

With the lead parts, however, the conditions are entirely different. All the active and wearing parts are made of lead, or its compounds, and practically every battery that needs repair, needs some of them replaced. Then again there is a much greater variety in the design of these parts and the up-to-date shop, in order to give real service, must carry a large assorted stock of end connectors, connector straps, plate straps and posts.

In speaking of lead parts, however, the plates are to be considered on the same basis as the rubber parts or wooden boxes, because it would not pay the ordinary battery shop to try and cast grids, mix paste and manufacture plates. It is much more satisfactory to purchase plates made by a responsible manufacturer who has the facilities and capital to properly develop his formulae and processes.

Every battery that has to be opened must have the top connectors drilled off as in Fig.1, which naturally makes a lot of lead chips. These drillings have to be cleaned off before proceeding with the repair and can, with no loss of time, all be collected, as in Fig.2, and saved. Then the old sulphated end connectors and parts from “junked” batteries accumulate very fast.

Figure 2

This then is the situation—The battery service station is constantly in need of new lead parts. Should they be obtained from a manufacturer at a price that includes material, labor and the manufacturer's profit—OR—should equipment be purchased that will permit of moulding these same parts from the accumulated scrap lead at a cost of nothing but the time employed in pouring, with no cost for material and no “Profits” added?

No matter how cheap you think you are buying your lead parts, just compare the market price per pound on lead with the weight of a few of your “cheapest” ones.

It is now common practice to melt some of this accumulation of scrap lead and pour it into sticks or bars for use in lead burning onrepair work. A great amount, especially old groups, is generally sold at a low price in order to get it out of the way. The one important fact, and one generally overlooked, is, that the battery man who melts lead and moulds it into sticks for lead burning, certainly is able to melt the same metal and mould it into the lead parts he requires, provided, of course, that he has the proper moulds.

Many a wide awake man has whittled a wooden mould for some part that he wanted in a hurry and couldn't wait for the manufacturer to deliver. Naturally this condition, really an effort to render service to the customer, created a demand for moulds of a permanent character.

In an effort to supply this demand, the moulds that have been produced were all made for some individual part, were light in weight and easily became overheated, making them hard to handle and often burning the workman's hands.

Figure 3

From a business standpoint, it would certainly be mighty profitable for a battery shop to be able at a moment's notice, to convert junk lead into new salable parts. In addition to the large profit from the sale of these new parts, another good feature, is that, instead of tieing up a lot of capital in stock, the new parts can be made as needed, without a cent of investment.

From a service standpoint, it is a cheaper and faster process to cast a new top connector than to spend a lot of valuable time, whittling an old one so that it can be used again.

How much time have you or your men wasted cleaning up an old terminal as in Fig.3, so that you could burn it on again?

All new connectors and terminals put on a rebuilt or reinsulated job make the customer feel that he is getting a real repair. He sees a new finished job.

From an electrical standpoint, the new parts mean better work, because better burning can be done, certainly a new connection will allow the battery to deliver more current than an old partly sulphated one could ever do.

The question that naturally comes up is, can the ordinary battery man make good lead castings? We will answer “Yes,” very emphatically. There is nothing mysterious about the work and all the talk of alloys, compounds and formulae does not mean a great deal.

Pure lead is not hard or rigid enough to make good battery parts, therefore, it is necessary to add some other metal that will provide the strength, not be affected by the acid and not increase the resistance electrically. Antimony has all the necessary qualities, and is, therefore, commonly used by mixing it with the pure lead.

Figure 4

The various manufacturers recommend from 2 to 12 percent antimony, as the proper combination, but in buying new pig lead for castings, a 4 percent antimony compound is very satisfactory.

In using old battery lead, however, due to chemical action the proportion of antimony is apt to be too high to produce perfect castings. This usually shows up by cracks or shrinkage, as in Figure4. To overcome this trouble, pure lead is added, until a perfect casting is made. Pure lead can be purchased (in the form of bars, lead pipe, or sheet lead) from a manufacturer such as the National Lead Company—your accessory jobber, the local plumber, or the junk dealer. When buying from a junk dealer, however, caremustbe taken that there is no solder or tin present.

In order to pour the lead some means of melting and a proper container must be provided.

As pure lead melts at about 620°F., and antimony at 785°F., an ordinary gas flame will furnish sufficient heat. For the small shop, without an artificial gas supply, a plumber's furnace which can be secured from Hardware Jobber or Plumber Jobber will work satisfactorily. See page19for gas melting pots.

An ordinary cast iron solder pot will be found the most suitable container. It should be about 8 inches in diameter.

It is advisable to obtain as large a pot as above, because for steady pouring a sufficient supply of melted metal should always be available. Then too, the constant addition of scrap or pig lead in a small pot will often change the proportion of antimony so that the castings crack and have to be melted over again.

Wash the pot thoroughly with gasoline or kerosene to remove all traces of oil. Then after it has been carefully dried, put it over the flame and heat it gradually. Do this before putting in any lead.

The only other equipment necessary to handle the melted lead is a ladle. For this purpose a malleable iron melting ladle five inches in diameter should be purchased. It can be used for stirring, skimming and pouring, and the type with a spout, illustrated in Fig.5will be found most suitable. The ladle should be cleaned and treated exactly like the melting pot.

Figure 5

The scrap or pig lead can now be put in the pot and melted. It is a time saving plan to pick out carefully all the pieces of wood, rubber and sealing compound from the scrap lead before it is put in the pot. Old plates are not worth while melting, but a lot of good lead can be salvaged by sawing the strap and post off old groups. Above all things make sure that no wet parts or moisture of any kind ever gets into the lead pot.

As the lead melts most of the dross or dirt will come to the top and float. When all the pieces are melted stir the lead with the ladle and then skim off all the dirt.

To help the cleaning process a piece of paraffin can be dropped into the pot. After it has burned, the dross is more easily skimmed off.

Another method of cleaning is to add to every ten pounds of metal, one teaspoonful of equal parts of powdered rosin, borax and flour ofsulphur. Stir this compound in a little and when the lead is at the proper temperature there will be a flare, flash or a little burning. A sort of tinfoil popcorn effect will be noticed floating on top of the metal. Continue stirring until this melts down and then skim off the soft particles.

An easy way to test the temperature of the melted lead is to insert the end of a pine stick for a moment. When the wood blackens or burns, the lead is hot enough to pour.

Whenever the lead is in melted form and exposed to the air, as in the iron pot, there will be a slight oxidation take place which appears as a yellowish-red scum. Do not confuse this with the dross and dirt which is to be skimmed off, but if the scum gets thick, then skim it off before pouring any of the metal.

One of the greatest difficulties in making lead castings has been to get the metal to completely fill the mould. There are several reasons for this, but they can easily be overcome.

If the mould, which is generally made of iron, is very cold, it will chill the melted lead and cause it to become solid before it has reached all parts.

The surface of a cast iron mould is very porous, and the melted lead, partially entering the pores of the iron, is held back long enough to chill and set.

To remedy these faults, it is sometimes advisable to heat the mould in order to get perfectly shaped castings.

To close the pores of the iron moulds they are sometimes “smoked” with a flame like that of “Prest-O-Lite” gas or else dusted with graphite.

Figure 6

The AMBU mould compound has been developed to eliminate thenecessity for heating or smoking the mould—it remedies all the pouring troubles and in addition, has chemical ingredients that aid in preventing the mould from rusting. AMBU mould compound is placed in a little sack, contained in each can, and the surface of the mould dusted with the sack, as shown in Figure6.

The compound completely fills the pores of the iron, produces perfect castings with a cold mould and prevents the finished part from sticking. It does not wear off as quickly as the “smoke,” and dusting from time to time, while castings are being made will produce a high polish on the mould surface which will result in even better castings.

The mould in Figure6is the new AMBU Washburn combination link mould, which casts 15 parts, being reversible much like the ordinary “waffle iron.” The side being “dusted” casts four top connectors of different lengths.

Placing the mould as in Figure7, the lead is poured in the four openings until the metal projects slightly above the top.

To pour properly first skim the dross as previously explained, then with the ladle, push the film of oxide away and dip into the clean pure lead. Pour steadily until the mould is filled and the metal projects slightly above the top. As it cools there will be quite a little contraction which takes up most of the excess lead.

Figure 7

Never, under any conditions, stop pouring with a mould partially filled. Always be sure there is enough melted lead in the ladle to completely fill the mould, before starting to pour.

The mould can now be easily opened by pulling on the handles especially if it has been properly dusted with the Ambu Mould Compound.

After the mould is opened, Figure8, the castings are easily removed, without damage to either the mould or the casting proper. The workman does not, at any time, handle the hot parts of the mould or the hot castings.

Figure 8

The mould weighs 25 pounds, and is large enough to absorb sufficient heat to allow continuous pouring without becoming overheated. It is solid enough to be used without the need of a vise.

In all lead moulding, there are several important points to remember:

1. Never put anything in the lead pot that is not perfectly dry. A few drops of water in a pot of melted lead will cause an explosion and the hot lead will be thrown all over the shop burning and perhaps blinding the workman.

2. Have all moulds clean and dry.

3. Keep the melted lead in the lead pot clean at all times.

4. Always completely fill each mould at one pouring.

5. Dust moulds well with Ambu mould compound before pouring.

6. When castings “shrink” and crack, add pure lead to that in the pot until the trouble is remedied.

7. Be sure melted lead is of proper temperature, by pine stick test, before starting to pour.

8. Remove castings as soon as they set, to prevent the mould from becoming too hot.

9. A perfect casting, that breaks when taken out of the mould, has probably not been allowed sufficient time to “set” or cool properly.

10. Never use a hammer on the surface of the mould. If a casting should stick, pry it out.

Using both sides, this mould casts five of the most used connectors for all batteries, using Standard Jars, 7-9-11-13-15 Plate four end connectors (two Dodge Tapers and two Standard Tapers, Negative and Positive), one end connector, ⅜-inch wire leed used on 12-volt Maxwell and other cars using wire leed. One small wire leed to connect with end post on storage battery requiring direct connection. Post support rings, which fit the two sizes standard rubber covers; also fit perfectly all posts cast with our post mould. Two handy washers that sometimes are badly needed when installing a new or rent battery.

Figure 8A[1]

Extra taper plugs can be furnished, also extra bushings for different size cable. Standard equipment as furnished includes four taper plugs, one large and one small cable bushing.

The top connectors most frequently replaced are the taper end connectionsand end connections with wire cable leads. For battery men desiring these parts, but not the large combination link mould, the AMBU-Washburn terminal mould, Figure9, has been designed. It has the same general good features of the larger mould, and casts four end connectors, one wire cable leed and two washers.

Figure 9[1]

Perhaps the most expensive item of a stock in a battery station, is the supply of positive and negative groups. While two or three sizes of plates will fit practically every battery, each size battery requires a different size of group.

Figure 10[1]

The AMBU-Washburn Post Strap Mould has been developed in order that a comparatively small stock of plates can be instantly available for making any size of group. You will notice in Figure10, thatthe same features, as those of the link mould of Figure8are used, namely; a large substantial base, no need of handling hot parts and the easy removal of castings. All parts of the moulds are carefully machined to produce perfect castings and the patented movable tooth rack will make odd or even numbers of teeth on the post strap. The teeth are correctly spaced for all standard batteries, or by reversing the tooth rack, blank posts can be cast.

Two bushings, bored and reamed for standard size posts, are furnished, but special bushings are available making it possible to cast any type of post strap.

For the large shop or manufacturer, the AMBU-Washburn Post Strap Mould, is made with the special indexing feature of Figure11. This is easily adjustable and will cast straps of both odd and even numbers of teeth for 7 to 19 plate groups. Otherwise its construction and appearance is the same as Figure10.

Both of these moulds are made for real use and will turn out three perfect castings per minute. This unusual speed can be maintained because the castings are easily removed. In Figure10, the upper part of the mould is resting on a part of the handle made for that purpose and a slight blow on a hardwood stick, on the top of the post, will drop the casting instantly.

Figure 11[1]

The AMBU-Washburn Cell Connector Mould is a combination mould which will cast practically all of the cell connectors used on standard storage batteries, 7-11-13 and 15 plate, such as the Exide, Willard, U.S. L., Vesta, Philadelphia and other nationally known batteries. Its design is similar to our Link Combination Mould.

Made of fine gray iron, carefully machined. Castings are easily removed, and it is heavy enough so that it will not overheat where speed is required.

Figure 12

After re-insulating or repairing, the job looks more complete and satisfactory to your customer if the battery is furnished with a new set of connectors. Use your scrap lead and make new connectors for each job. It pays.

The lead capped screws of the taper type terminal are another of the frequently replaced parts. Although the round knurled head type is no longer installed, a great many men still use pliers on the square head terminal screws with the result that the soft square lead head is damaged to such an extent that a tight connection cannot be made.

The AMBU-Washburn Screw Mould, Figure13, will cast standard square edged heads on four screws in one operation, two5⁄16-inch and two ⅜-inch. It has screw adjustments in the base, making it adaptable to any length screw.

Figure 13[1]

As the finished screws are removable from the top, the position of the mould is not changed while in use and castings can be made at the rate of 12 screws a minute.

AMBU LEAD STICK MOULD

In order to properly burn in and assemble the new lead parts, it is necessary that they be fused and new lead added, and this requires that a supply of lead sticks be available. These are usually made by melting the smaller particles of scrap and junk lead which is cast in convenient size.

The Ambu Mould, Figure14, is especially designed for this purpose. It is made of heavy sheet iron, die stamped into grooves and mounted on a wooden base with a strong wooden handle at one end. A heavy pad of asbestos is placed under the iron to protect the wood.

Figure 14[1]

This construction allows the lead to completely fill the grooves before cooling, but prevents the mould from becoming exceedingly hot with constant pouring. A pair of these moulds will keep one workman busy, as he pours one, the other is cooling. This eliminates all waiting and waste of time.

The sticks made are 15 inches long,5⁄16inch thick, ⅜ inch wide at the top and ¼ inch at the bottom. In pouring in an open mould of this type, pour the lead in each groove at one end, so that the dross will all gather in one spot. Never move the ladle along the groove when pouring, as this will scatter the dross and make the entire stick dirty.

When poured at one end only, a short length of the stick may be broken off, thus removing all the dross.

Dusting the mould occasionally with Ambu mould compound will produce better castings and permit greater speed in the work.

The building of groups, even after the plates and post straps are secured is a job that requires quite a lot of skill. Before the platescan be burned to the strap, they must be absolutely parallel, must be the correct distance apart, and the top surface of the strap must be at right angles to the surface of the plates.

The Ambu Plate Burning Rack, Figure15, has been designed to easily secure the proper conditions. It consists of a wooden base with six different sets of slots properly spaced which cares for 98% of the batteries on the market. The guide bar or “comb” on top is slotted to match up with the base. (See figure 15.)

Figure 15[1]

The positions of the base and comb are so arranged that the plates are securely held on opposite corners, at exactly the right distance apart and are absolutely straight and parallel.

The wooden base prevents the plate proper from coming in contact with any metal and thus eliminates any possibility of later trouble due to impurities in the cell.

Figure 16[1]

In order to accommodate the different sizes and spacings, the comb can be adjusted vertically and the slots are arranged in groups of different spacings. These adjustments are flexible enough to allow the setting up of practically all the various groups used in the different makes and type of batteries.

Special fittings are provided so that after the plates and post are properly set a form can be built on the comb which not only locks theplates in the comb but prevents the hot lead from running off while burning and makes the finished strap of exactly the proper dimensions to properly fit into the jar.

For use in the smaller shop the small Ambu Plate Burning Rack, Figure16, is recommended. It has all the features of the larger rack but the spacings of the combs limit it to the7⁄64" and ⅛" spacings such as are found in all the popular batteries.

1.Prices, page17

After the top connectors have been drilled off and the group is to be reassembled in the repaired battery, in order to make a good quick weld to the top strap, the post must be built up to its original height.

Figure 17. See bottom of page

The Ambu Post Builders, Figure17, have been built to speed up the post building process. They are made of high grade steel and are of the proper size to rebuild all the standard battery posts.

Simply place the proper Ambu Post Builder on the stub post, and burn in molten lead to the proper height. The construction is such that the post builder is easily removed, leaving a new and perfectly sized post for burning to the cell connector.

The set of ten, illustrated in Figure17, covers all standard makes of batteries.

Following are prices of equipment illustrated in preceding pageswhich may be purchased from the Battery Appliance Division, American Bureau of Engineering, Inc., 2632 Prairie Avenue, Chicago, or from your Jobber.

AMBUHELPS for the Service Station

Johnson Direct-jet Lead Melting Pots

No. 300

No. 8

In line with our desire to serve the Battery Service Stations of the country, we have arranged to offer the Johnson Direct-jet Gas-fired Melting Pots. These furnaces use either natural or manufactured gas. They embody a special patented Gas-regulator which permits of a quick change in the size of the gas orifice, by the turn of a wrench.

This Regulator throws a sharp, clean jet of gas straight up the center of the mixing tube, giving the nearest approach to 100% combustion that can be imagined.

No Blowers or Forced Draft are necessary. City gas pressure is enough.

No. 300 Pot.Melts 150 lbs. lead at a charge, using only 40 cubic feet of city gas per hour. Has 3 Direct-jet Burners. No forced draft necessary. Height, 28 inches; weight, 100 lbs. Price f. o. b. Cedar Rapids, Iowa, $25.00. Stock No. MJP1.

No. 8 Combined Torch and Pot.Melts 25 lbs. of lead at a charge. Height, 14 inches; weight, 9½ lb. Single adjustable burner, with pilot. Can be used as an efficient hand torch. Consumes 20 to 25 cubic feet of gas per hour. Price complete with 6 inch Pot, as shown, f. o. b. Cedar Rapids, Iowa, $9.00. Stock No. MJP2.

Send orders toBATTERY APPLIANCE DIVISIONAMERICAN BUREAU OF ENGINEERING, INC.2632 Prairie AvenueChicago, Ill.

Send orders to

BATTERY APPLIANCE DIVISION

AMERICAN BUREAU OF ENGINEERING, INC.

2632 Prairie Avenue

Chicago, Ill.

PRICES SUBJECT TO CHANGE WITHOUT NOTICE

AMBUPRODUCTS that MAKE MONEY and SAVE TIME FOR BATTERY REPAIR SHOPS

AMBUBattery Steamers

Softens sealing compound on batteries. Within less than five minutes prepares them so that elements can be easily removed.

Automatic valve regulates water supply. Steam is quickly produced. Saves time and fuel cost.

For use with gas, gasoline, kerosene or electric stoves. Has six outlets and adjustable valve for opening the required number of outlets.

For Battery Men desiring to steam one or more batteries at one time, depending upon their size, we offer the Type “A” Steamer with Steaming Box.

AMBU CONDENSER FOR DISTILLING WATER, accompanies either type Steamer, if desired. When Steamer is not being used for steaming batteries, and when used in conjunction with this Condenser, will produce about one gallon of distilled water per hour at very small cost.

AMBUBattery Plate Press

Three Groups of Plates Pressed at One Time

With the Ambu Plate Press there is no possibility of iron, the greatest enemy of a battery, touching the plates.

In discharged negative plates, the active material is bulged out and must be pressed back flush with the grids before the plates can be used again.

The Ambu Battery Plate Press is made of heavy hardwood timber with two horizontal wooden jaws between which the battery plates are pressed. A set of lead covered troughs carries away the acid. The upper jaw of the press is attached to a screw shaft for raising or lowering it. A complete set of transite boards for placing between the plates, and a substantial wall support are included in the purchase price. Press complete, including set of press separator boards sufficient to press three groups, and substantial wall support. Price on request.

Ambu Press Separator Boards in sets as above also may be purchased separately. Price on request.

AMBUCompound and Lead Ladle

A ladle that will permit of pouring sealing compound into the small openings between top covers or jars without spilling or slopping over top of battery. With the special center drain controlled by taper pin with touch of your thumb you are able to control the flow of sealing compound from the stream as fine as a pin to a stream as thick as your thumb.

Designed also for pouring lead, and has many advantages over ordinary ladle.

Made of forged malleable iron, extra deep, with two lips in addition to center spout, four inches in diameter. Price on request.

AMBUPRODUCTS that MAKE MONEY and SAVE TIME FOR BATTERY REPAIR SHOPS

AMBUBattery Test Set

Cadmium Leads Discharge Prod

Consisting of a high grade accurate voltmeter with two scales, permitting readings as high as 25 volts; Cadmium Leads, and Pair discharge prods and leads. With this complete set all tests necessary to determine the inside condition of a battery can be made, except those obtained through hydrometer readings. Sold as a complete set or as individual units. Price on request.

AMBUBattery Carrier

The AMBU WAY is the BETTER WAY

The AMBU Battery Carrier, designed to make the carrying of batteries easy, as well as the removing and placing of batteries in cars. An unusually handy tool around a shop. Made of a hardwood handle with a swinging steel arm at each end, to which is attached a strong steel lock for engaging the handles of a battery box. Sold singly or in pairs.

Prices on request.

AMBUBattery Turntable

Designed to make the handling of a battery on the work bench easy. Permits getting at all sides of the battery with least amount of effort.

Made of two stout pieces of hard wood pivoted to each other and mounted on ball bearings. It is also handy for working on heavy generators and starting motors.

Price on request.Write for Catalog M-53 Helps for Battery Men

Price on request.

Write for Catalog M-53 Helps for Battery Men

AMBUHELPS for the Service Station

AMBU WASHBURNTorch

For Lead Burning, Soldering, BrazingUSING PREST-O-LITE GAS ANDCOMPRESSED AIR

For Lead Burning, Soldering, Brazing

USING PREST-O-LITE GAS AND

COMPRESSED AIR

This torch produces a soft pointed flame. Especially adapted for all torch uses in repairing of storage batteries. Can be nosed into post builder; stirring molten lead with nose of torch without popping out. Not affected by wind. Burns clean, requiring heat up to 5300 degrees Fahrenheit.

The torch operates on Prest-o-lite Gas and Compressed Air. Tank attachment on Mixing Valve is easily adapted to A, B or E size Prest-o-lite tank. Air derived from any air line furnishing 20 lbs. pressure or over. Small air tank with foot pump can be used. Needle point flame instantly adjustable through a range of 4000 degrees without changing tip. The most economical, efficient and time saving torch on the market doing the same class of work.

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