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Publication numberUS3838526 A
Publication typeGrant
Publication dateOct 1, 1974
Filing dateJan 24, 1974
Priority dateMay 14, 1973
Publication numberUS 3838526 A, US 3838526A, US-A-3838526, US3838526 A, US3838526A
InventorsAlpine C Mc
Original AssigneeMac Eng & Equip
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Method of drying battery plates
US 3838526 A
Newly pasted plates with wet lead oxide and sulphuric acid pellets pressed in grids thereof are cured by subjecting one horizontal surface to a high temperature radiant heat source at about 1,500 DEG F. for 10 to 20 seconds while further subjecting the one surface to a current of air at ambient temperature and at a rate of 2,000 CFM. The plates are thus heated to a surface temperature of about 350 DEG F. on the one side and are then immediately subjected to a tempering air current against the hot side at about 250 DEG F. and about 2,000 CFM for about ten to twenty seconds. The pellets at this time have a moisture content of about 9 percent and are sufficiently dry to be handled and stacked without sticking together.
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Description  (OCR text may contain errors)

United States Patent 1191 McAlpine 1 Oct. 1, 1974 l METHOD OF DRYING BATTERY PLATES [75] inventor: Charles H. McAlpine, Coloma,


[73] Assignee: Mac Engineering & Equipment Co.,

Inc., Benton Harbor, Mich.

[221 Filed: Jan. 24, 1974 ILE.-. J 3.2211 393352019 19 i. l yi of 536-3 3.322.859 Mat- 973 a 52 US. Cl 34/17, 136/33, 34/28,

136/27 51 1m, c1....;.., F26b 7/00 [58] FieldofSearch 34/17,18, 28, 36,219,

[56] References Cited UNITED STATES PATENTS 2,062,193 11/1936 Smith et a1 136/33 2,130,246 9/1938 Olcott et a1 2,149,813 3/1939 Lindstrom 2,220,004 10/1940 Smith et al 2,295,474 9/1942 I-lorn 2,300,627 11/1942 Merson 2,300,628 11/1942 2,656,399 10/1953 Hindall et al. 34/222 2,780,453 2/1957 Coffman et al..... 432/234 2,981,776 4/1961 Dunn, Jr. et alm. 136/37 3,067,273 12/1962 Duddy 136/27 3,328,893 7/1967 Schilling 136/33 Primary Examiner John J. Camby Assistant Examiner.l-lenry C. Yuen Attorney, Agent, or FirmAustin A. Webb [57] 1 ABSTRACT Newly pasted plates with wet lead oxide and sulphuric acid pellets pressed in grids thereof are cured by subjecting one horizontal surface to a high-temperature radiant heat source at about l,500 F. for 10 to 20 seconds while further subjecting the one surface to a current of air at ambient temperature and at a rate of 2,000 CFM. The plates are thus heated to a surface temperature of about350 F. on the one side and are then immediately subjected to a tempering air current against the hot side at about 250 F. and about 2,000 CFM for about ten to twenty seconds. The pellets at this time have a moisture content of about 9 percent and are sufficiently dry to be handled and stacked without sticking together.

7 Claims, 5 Drawing Figures METHOD OF DRYING BATTERY PLATES RELATED APPLICATIONS OUTLINE OF INVENTION The pasting of plates for lead-acid batteries by pressing'and drying pellets of lead oxide and sulphuric acid in lead grid plates is a generally old practice. The problem solved by this invention is the slow drying or curing of the wet paste of the pellets, and advantageous result of the invention is rapid drying without causing the surface of the pellets to craze or develop objectionable cracks, and to cure the paste to a sufficientlydry state to permit the plates to be handled and stacked face to face without adhering to each other. Prior apparatus and methods for performing this operation have first subjected the wet plates to moderately heated air at a temperature, of around 125F., followed by heating to a higher temperature by subjecting the plates to an air current at about 350F. Both of the heating stepsmaintain a high humidity and high concentration of CO gas as disclosed in the patent to Lindstrom, No. 2,149,813.

Another prior' system simultaneously subjects both sides of the wet plates to the high heat of closely adjacent gas burners for a sufficiently-long periodof time to reduce the water content of the paste to from 11 to 9 percent by weight as shown in the patent to Rose, US. Pat. No. 2,068,434. In the Hindall US. Pat. No. 2,656,399 the wet plates pass through four successive zones of 290F, 350F., and two of 400 F. during an eight minute curing cycle.

The present invention first subjects the top surface only of a wet battery plate to the combined high radiant and convection heat of a heat source with air circulated over both the source and the plate. A gas burner with attached mantle as a radiant heat source is a practical heat source as disclosed, but electric heating elements with air circulating thereover could be substituted. The

temperature of the burner which is the source of the radiant energy is of the order of 1,500F., and combined with the effect of the air circulation as will be described raises the plates to around 350F. in ten to 15 seconds. The plates with the top surface thus heated are immediately subjectedto a blast of tempering air at about 250F. for another ten to fifteen seconds. The plates emerging from the second or tempering section of the oven have a desirable moisture content of about 9 percent and a temperature of from 1 10F. to 130F. The lead paste is dry enough to permit stacking of the plates without sticking, and the plates can be handled and stored for further curing and drying at ambient temperatures.

DESCRIPTION The drawings, of which there are three sheets, illustrate a practical andpreferred form of the oven for performing the method.

FIG. 1 is a side elevational view of the oven.

FIG. 2 is a top plan view.

FIG. 3 is a vertical transverse cross sectional view taken along theplane of the lines 33 in FIGS. 1 and 2.

FIG. 4 is a vertical transverse cross sectional view taken along the plane of the lines 44 in FIGS. 1 and 2.

FIG. 5 is a fragmentary vertical longitudinal cross sectional view taken along the plane of the lines 5-5 in FIG. 4.

The oven consists of a heating section 10 and a tempering section 12. As a matter of convenience in handling, these may be constructed separately. and joined at about the middle of the oven at assemb;y. The main structural framework consists of longitudinally extending upper rails 14 of channel shaped cross section and lower rails 16 of angleshaped cross section. The rails are supported on legs 18 and connected by cross bars 20 and 22. The framework can of course be varied. and the description of channels and angles is given only for ease of identification.

A conveyor indicated generally at 24 has an upper reach supported on the upper cross bars 20 and moving to the left in FIGS. land 2. The lower reach is sup ported on the lower cross bars 22. The conveyor consists of suitable chain loops 26 which carry spaced work advancing blocks 28. Upright rails 30 support the blocks along the upper reach of the conveyor and plates 32 support the blocks along the lower reach of the conveyor. Driving means in the form of a motor 34 and gear box 36 drive sprockets 38 for driving the conveyor.

The supporting framework, conveyor and drive means are conventionally illustrated as a widevariety of structures can be used.

The enclosures over the upper reach of the conveyor are supported by a series of somewhat A-shaped frames having inclined legs 40 of T-shaped cross section and upper cross bars 42 of channel shaped section. A series of hollow, double walled doors 44 rest against T bars 40 and the side rails 14. The doors have handles 46 and are removable for inspection. Angle bars 48 extend longitudinally between the bars 40 mid-way of their height.

The upper wall of the enclosure in the heating section 10 (See FIG. 3) consists of two aligned series of sectional gas burners 50. The burners consistof downwardly facing rectangular metal castings 51 closed on the bottom by perforated ceramic cups or mantles 52. Aligned end apertures 53 permit consecutive ignition from one end of the series of burners to the other. The

burners are old so are not disclosed in greater detail.

The sections extend substantially the full length of the heating section. Each burner section is suspended by a supply nipple 54 from one of two supply pipes 56. The pipes are in turn supported on cross bars 58 hanging on bolts 60 suspended by nuts 62 from a longitudinal channel 64. A filler plate 66 supported by nuts on the lower ends of the bolts occupies space where a third series of burners may be installed if desired. It will be noted that narrow air passages 68 are left between the burners and the side rails 50 and the spacer filler, plate. The gas fuel is burned almost completely within the burners and heats the ceramic cups 52 to an infrared heat which radiates to the work. Air drawn through the leakage passages as will be described cools the upper metal burner parts and prolongs their life while being heated itself.

Hot gases and air from the burners are drawn downwardly around and between the work pieces into a collecting chamber 70. The chamber is generally triangular in cross Section and is formed by an upright rear the back wall'permit removal of material which may flake off of the work plates. The duct 74 communicates with an upwardly extending suction duct 80 which will be described in greater detail presently.

The construction of the tempering section 12 of th oven appears most clearly in FIG. 4. The structural supporting elements are duplicate extensions of the parts in the heating section and are identified by the same numbers. The top closure of the oven consists of a plate 82 supported on the longitudinal angle bars 48. The plate has a series of transversely extending downwardly flanged nozzles 84 formed therethrough to direct air against the tops of the work pieces W. An end plate 86 closes the rear end of the oven except for an opening 88 to pass the conveyor and the work. The plate 82 forms the bottom of a plenum or delivery chamber 90 having side walls 92 and a top wall 94.

Below the conveyor, the tempering section has a collecting chamber70 similar to that in the heating section, and holes73 extend forwardly to a duct 96. The duct 96 is an extension of the duct 74 and also communicates with the bottom of the suction duct 80. I

Opening to the top-of the delivery chamber 90 is a supply duct 98. A blower outlet duct 100 extends horizontally over the tempering section and opens into the side of the duct 98. Duct 98 extends upwardly as an exhaust duct 102, and a damper 104 pivoted in the intersection of the two ducts as at 106 serves to divide the flow of air in the blower duct 100, directing part to the outlet. and part to the delivery chamber 90. A control for regulating or adjusting the proportion of exhausted air to recirculated air is indicated conventionally by the handle 108QA stop 109 prevents complete closure of the outlet or exhaust duct 102, so a vent for purging the I oven is always open.

A blower 110 appearing in FIGS. 1 and 2 has its intake side connected by a short cross duct 112 to the upper end of suction duct 80. The outlet 114 of the blower discharges into the duct 100 to complete the air circulating passages. A motor for driving the blower is conventionally indicated at 116.

The fuel supply to the burners is old but is described -briefly to show its relation to the remainder of the oven.

A regulator 118 delivers gas at zero pressure which is drawn off through pipe 120 by a venturi 122 into which pipes 56.

Operation The work pieces W'are placed on the inlet end of the conveyor in a wet molded semi-plastic condition. With the burners 52 in operation, the ceramic cups develop a temperature approaching 1,500F. and radiate on the work.'Quantitatively, for most battery plates it is desirable to burn fuel at a rate of about 300,000 B.T.U. per hour. This developes a bulb temperature along the tops of the plates of about 350F. The conveyor operates at between 50 and 100 feet per minute, with feet per minute being preferred. As a result, in a heating section about ten feet long, the plates are subjected to this intense heat for ten to 15 seconds before passing into the tempering section 12 of the oven. The still hot gases are mixed with air leaking through the openings 68 and the end of the oven drawn from underneath the work plates through the passages 70, 73 and 74 to the duct 80, where they are mixed with cooler gases from the duct 96. The blower 1 10 moves the mixture to the regulating damper 104, and a fraction of the mixture is delivered through the chamber and ports 84 against the tops of the superheated plates.

The capacity of the blower in the example illustrated is about 4,000 cubic feet per minute; about half of which is heated by passing over the burners and around the work, with the result that the plates are subjected to a tempering flow of air at about 250 F. The setting of the damper 104 acts as a control for the temperature of the tempering air, with about one-third or less of the air being exhausted andtwo-thirds or more being recirculated at a temperature of 250 For more.

The actionin the tempering section of the oven is cooling and air drying. The semi-plastic plates entering the section are hot on thetop'surface, cooler on the bottom, and still cooler in their interiors. As the water in the lead oxide paste of the plates is driven off by heat, the tempering air actually cools or takes away excess heat from the outer surfaces of the plates, while heat flow inwardly from the heated surface plus exo thermic heat progressively evaporates water from the interior mass of the plates. The chemical solidifying and drying of the mass thus takes place without disruptive boiling off of the water and without objectionable crazing or development of fine cracks in the lead sulphate pellets of the grid plates. When the plates are delivered from the left end of the oven they are sufficiently hardened to 'be handled. and are dry enough to be stacked for final curing, and hardening without becoming stuck together. The metallic lead content of the paste is reduced to about 15 percent when leaving the oven, which further reduces to less than 5 percent after 24 hours air curing, as is common practice.

While gas fired radiant heaters have been disclosed, electric resistance heaters, with similarly spaced and downwardly or inwardly .directed elements could be substituted.

What is claimed as new is: 1. The method of drying wet paste pellets in lead battery plates which comprises the steps of:

heated to a blast of tempering air at between.

F., and 325F. for a sufficient period of time to reduce the surface temperature of said one sides of the plates to below F. 2. The method as defined in claim 1 in which air at ambient temperature is drawn around said heat source and over the plates being heated at a rate of about 2,000 cubic feet per minute.

3. The method as defined in claim 2 in which said plates are subjected to heat for between and sec- 5. The method as defined in claim 4 in which part of the mixture of air drawn from around said plates is exhausted without being recirculated to the plates being cooled.

6. The method as defined in claim 5 in which the amount of said air mixture exhaustedfrom the system is between 35 percent and 15 percent of the air drawn over said plates.

7. The method as defined in claim 1 in which the temperature of the blast of air directed against the tops of said plates after the plates have been heated is about 250 F.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2062193 *Nov 3, 1932Nov 24, 1936Electric Storage Battery CoApparatus for setting storage battery plates
US2130246 *Apr 15, 1932Sep 13, 1938Firestone Steel Products CoDrying apparatus
US2149813 *Jan 22, 1937Mar 7, 1939Globe Union IncApparatus for drying battery plates
US2220004 *May 28, 1936Oct 29, 1940Electric Storage Battery CoMethod of setting storage battery plates
US2295474 *Jun 16, 1941Sep 8, 1942Horn Charles JHeating-furnace work-carrying skid
US2300627 *Oct 19, 1940Nov 3, 1942Nat Lead CoMethod of preparing storage battery plates
US2300628 *Oct 19, 1940Nov 3, 1942Nat Lead CoApparatus for treating the surfaces of storage battery plates
US2656399 *Jun 28, 1951Oct 20, 1953Gen Motors CorpMethod and apparatus for curing positive storage battery plates
US2780453 *Mar 5, 1954Feb 5, 1957Coffman Fred BContinuous furnace for heating slabs or the like
US2981776 *Jun 10, 1959Apr 25, 1961Nat Lead CoStorage battery material
US3067273 *Dec 4, 1959Dec 4, 1962Electric Storage Battery CoMethod of treating storage battery electrodes
US3328893 *Dec 14, 1964Jul 4, 1967Eagle Picher CoBattery dry-charging method and apparatus
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3943002 *Feb 25, 1975Mar 9, 1976Esb IncorporatedDevice for drying negative plates and plates made therewith
US8056252 *Jun 10, 2008Nov 15, 2011Joao Pascoa FernandesMoisture removal system
U.S. Classification34/418
International ClassificationH01M4/21, F26B3/30, F26B15/12
Cooperative ClassificationH01M4/21, Y02E60/126, F26B15/12, F26B3/305
European ClassificationF26B3/30B, F26B15/12, H01M4/21