US916396A - Process of roasting and sintering ore. - Google Patents

Process of roasting and sintering ore. Download PDF

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US916396A
US916396A US47949609A US1909479496A US916396A US 916396 A US916396 A US 916396A US 47949609 A US47949609 A US 47949609A US 1909479496 A US1909479496 A US 1909479496A US 916396 A US916396 A US 916396A
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    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22BPRODUCTION AND REFINING OF METALS; PRETREATMENT OF RAW MATERIALS
    • C22B1/00Preliminary treatment of ores or scrap
    • C22B1/14Agglomerating; Briquetting; Binding; Granulating
    • C22B1/16Sintering; Agglomerating
    • C22B1/20Sintering; Agglomerating in sintering machines with movable grates

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  • the side walls ofthe upper part of the box at 8 are connected by plates or closures at the ends and top so that the ycollecting box shall be a comparatively tight and closed chamber.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Manufacturing & Machinery (AREA)
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  • Environmental & Geological Engineering (AREA)
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Description

A. S. DWIGHT. PROCESS OF ROASTING AND SINTERING ORE.
APPLIUATION FILED APR. 17, 19o?. BBNBWED rm. 23, 1909.
Patented Mar. 23, 1909.
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UNTTED sTATEs PATENT oEEroE.
ARTHUR S. DWIGIl'I. OF JOLIE'I, ILLINOIS,'ASSIGNORTO FRED BENNITT, TRUSTEE.
OF JOLIET, ILLINOIS.
PROCESS OF BOASTING AND SINTERING ORE.
Specification of Letters Patent.
Patented March 23, 1909.
Application led April 17, 1907` Serial No. 368.676. Renewed February 23v` 1909. Serial No. 479,486.
'o all whom. 'it muy concern:
Be it known that l, Alrrnun S. Dwion'r, a citizen of the United States, residing at Joliet, in the county ol' lNill and State oi illinois, have invented certain new and useful lmproifemcnts in Processes of Roasting and Smtering Ore, of which the following is a speciication, reference being had therein to the accompanying drawing. i
This invention relates to improvements in processes for treating metal bearing ma terials, particularly ores of the metal suliid class, said improvements pertaining somewhat especiall to the process matters which are )resented in the applications Serial Numbers 307431 and 428387, filed by myseli jointly with Richard L. Lloyd on the 22nd of March, 1906, and on the 30th day of July, 1906, res ectively. In the said applications we llustrated and described methods for disposing and supwrting masses of ore and for treating them 1n the peculiar manner which we had devised, and also for transporting masses of ore during the treatment; the principal purposes being to desuliurize and sinter the ore more thoroughly and com pletely than had been done by any process or apparatus theretofore known by us. vNo therein called attention to the matters incident to and the results obtained by causing the combustion of the ore to advance downward through the mass under treatment, and causing the currents of air or combustion su )portin gas, to also travel downward.
have ound it advantageous under some circumstances, and p when treating ores of some characters, to cause combustion to advance in a direction other than directly downward, and to compel the air or combustion supporting gas to also move upward or horizontally. And `in such case I have found it necessary to maintain the particles of the ore in a state or quiescence in relation to each other for the same purposes that are fully set forth in the said earlier applications.
In the drawing I have shown one of many' forms ot apparatus which can be employedv to carry on my present method 01' treatment; and 1n order that the process -may be lully understood I will describe the mechanism shown in said drawings, as being typical in character, and in order that the steps in the process may be readily understood.
Figure. 1 is a side view oi a mechanism embodying my present improvements. Fig. 2
is a cross srction on the line 11;, a: ol' Fig.1. Fig. 3 is a cross section on the line y, Iy ol' Fig. 4 on a smaller scale. Fig. 4 is a partial longitudinal section on a larger scalo on tho line z z of Fig. 2. Fig. 5 is a vertical section ol' one side oi the chamber or box for direct.- ing the air. Fig. t) is a side view oi' the parts in Fig. 5. Figs. 7, 8 and 9 respectively show modified forms oi ore supporting and carrying devices. Fig. 10 is a section ol a nontraveling ore support or holder.
in the drawings l have shown an apmratus ior carrying out the process, but it 1s to be understood that it is merely typical in character, the method of treatment being such that it is independent of any particular :form oi' apparatus.
ln another application I have apparatus similar to that herein and have therein presented claims for the novel 'features of such mechanism, restricting myself herein to the novel features in the process.
Upon the framework there is a hopper at 1, preferably ot substantially the conformation and relative position shown.
3 and 3 indicate shafts which are mounted in bearings 4 u on the horizontal elements of the ltrameworll). U )on these shafts there are wheels 2, 2, which may be oi any suitable style, either smooth-faced pulleys, drums or sprocket Wheels. 'lhose selected for illustration are of the nature of drums. Upon these there is mounted an endless carrier 5, conventionally illustrated, and made in any wal) preferred. The body part of the carrier siould be pervious to air in order that the passage of air or other gases can be readily permitted. In Fig. 7 it is shown as made ot' perforated plates 5e hinged together and mounted upon suitable wheels or drums 2h. In Fig. 8 it is shown made of pans or pallets 5", with perforated bottoms, hinged or linked together or connected to endless chains. In Fig. 9 carrier formed ot perforated link bars or plates is shown, at 5d. The carrier 5, although permitting the assage' of air or gas therethrough, should l'ie oi such nature as to provide support for the mass or layer of ore which is to be suh- 'ected to treatment. The ore is indicated y 19, 19a, 19h. That part indicated by 19 is still in its crude condition in which it is when stored in the hopper and for a short time after its delivery to the carrier.
` 1.9a indicates the ore while traveling across shown an the region of treatment. At 19b the finished and sintered product which remains upon the carrier is illustrated. In the present case the ore is supplied with currents of air which, as shown in Figs. l to 4, travel upward through the ore mass as it is being carried through the machine.
6 is an air box or chamber situated immediately below the upper run of the conveyer 5, the lower run returning on lines below the box. Air is su plied to this box 6 under pressure from the fan or other suitable air supplying mechanism through duct 6, lThe dimensions of the air delivery box 6 may be any that are desired, but by reference I form it of about the width of t e conveyer and of a length such that it can be readily arranged between the wheels or drums at 2 2a.
At 10 I arrange devices by which the combustible elements of the ore mass can be readily ignited. As shown, this igniter consists of a gas pipe arranged transversely of and immediately below the perforated or pervious carrier 5. It has a number of gas jets or orifices across the conveyer. `The under surface of the ore mass is ignited by this and immediately thereafter reaches the region where the air is forced up through the mass.
For the several reasons set forth in the said earlier applications it is desirable to hold all the particles of the ore mass or layer in such way that they will not be agitated, disturbed or moved in relation to each other during the desulfurizing and sintering stages. When the currents of combustion supporting air or gas are introduced at the bottom of a mass of such ore upward rising air currents tend to destroy the desired quie'scence,v
although their action on the lowermost particles is to some extent overcome by the gravity of those above. As the air rises its force becomes relatively greater and'greater and the restraining or holding action of the upper particles becomes less and less eficlent. That is to say, the agitation, disturbance and moving of the particles among each other tends to become greater as. the air approaches the top. And it is now known that the sinterin or agglomerating action among the partie es becomes less in substantially the same ratio. Consequently, a large percentage of the ore body in its upper region remains pulverulent, or in the condition of fines, in which they were first introduced. I overcome this tendency to agitate or disturb these particles of the mass which are opposite to the surface where the air enters by roviding supplemental restraining devices. rlhese should be adapted to hold the ore particles in a state of qulescence and at the same time allow the passage of air or the gases of reaction that are produced in the interior of the mass'. A perforated or equivalent plate, situated above the ore mass, may be used, or a series of such plates, either resting directly upon the top of thc ore mass or su ported in such position as to be immediate y adjacent to the upper surface thereof. Or use may be made of a device substan tially similar to that at 5, above described, for su porting and carrying the ore.
In `igs. 1 to 4, I illustrate a second endless carrier or belt formed of suitable material, as shown at 5, this being supported upon drums 2b, 2c, carried by shafts 3b, 3", mounted in bearings at 4. By preference, the drums 2b, 2c are so placed that the lower run or tangent portion of this belt 5a shall be of a length approximately equal or somewhat longer than the length of the air box 6, it being shown as extending on the delivery side a short distance beyond the box. The upper and the lower endless elements of the mechanism should be so speeded that they will travel substantially together in order to pre`- vent such disturbance of the ore mass or layer between them as would result in case of diiferencein speed. 20 indicates the power receiving and transmitting pulley secured to the shaft 3a. 17 is a belt (here shown as crossed) for transmitting power from the shafting of the lower apron to one of the shafts of the upper apron. Immediately above the air delivery or inlet box 6 there is a chamber at 8 for collecting and receiving-the products of combustion or reaction formed in the ore mass. Vlfith this chamber coinmunicates an outlet trunk or duct 9 through which the said gaseous products are Withdrawn. So far as concerns the details of construction of the air delivery or inlet box and the collecting box or hood 8 there can bel wide election and modification. As shown, these parts are formed of sheet iron. The side walls of the inlet box 6 have outwardly turned fianges 11 at its upward edge and the upper box or hood has similarly outwardly turned fianges 1.2 between which there are spacing devices, preferably pieces of asbestos 14, and the opposing flanges are rigidly fastened together by the bolts at 14. There are open channels or guideways thus provided in which are fitted the side edges of the conveyer or belt 5, which is thereby held irmly in horizontal position and prevented from unduly sagging. The lower sections 15 of the side walls of the upper part of the box constitute side guides for the ore mass or layer. They are turned inward toward their lower edges so as to tend to hold the material Well in at the sides and at the same time make provision for the settling of the ore and for the contraction thereof during the desulfurizing and sintering. The side walls ofthe upper part of the box at 8 are connected by plates or closures at the ends and top so that the ycollecting box shall be a comparatively tight and closed chamber.
With parts constructed and arranged as above described the inode of operation will be readily understood. The hopper at 1 is provided with a quantity of the ore to be treated, and which ma be understood to be fines of a sulfid ore typified by galena or copper or iron pyrites, separate from each other or mixed. `he ore gradually moves downward by gravity and is deposited in a laver on the traveling carrier. lt will be seen that the mouth or escape orifice at the bottom of the hopper is of such vertical dimension as to insure that a comparatively deep layer shall be delivered to the conveyer, and one which is uniform in depth, the lower front edge 1a of the hopper mouth serving as a scraping and leveling device. A relatively slow movement is imparted to the conveyer (in some cases only two inches per minute, depending, however, upon the several factors, such as the length of the conveyer, the thickness of thelayer, &c.) but the layer or stream of material soon reaches the vertical plane of the igniting devices at 1() and shortly thereafter the vertical planes of the lower part of the upperbelt 5, which thereafter rests gently upon the top surface of the ore or lies in close proximity thereto. At about the saine time the ore reaches the vertical planes of the air box G, and air begins to travel with more or less force through the lower surface of the lmass and through the interior thereof to the upper surface. At the initial end of the box this air acts first to support and continue the combustion which has been started by the igniting devices. As the stream or layer gradually advances the points of combustion are higher and higher in the body of thc ore, finally reaching the upper surface. The heat generated by this internal combustion is such that the sintering or agglonierating of the particles is almost simultaneous with the chemical reaction of the con'ibustion, or, at least, follows instantly thereafter. And as the particles from top to bottoni through this portion at 19a of the ore stream are held against disturbance and maintained in proper proximity one with its neighbors, the sintering action-is uniform from bottoni to top. This is in contradistinction from the actions Awhich occur when an ore mass of this character is subjected to internal combustion and rip-drafts of air without restraining devices or means for holding in quiescence those particles which are in the stratum along the surface Where the gases have exit. The various gaseous products of this combustion or cheniical reaction are under the action of the draft carried upward int-o the collecting box at 8 and thence through the duct or trunk 9 to a suitable conduit or stacir. .lt will be understood, of course, that if desired an exhaust permit it such exhaust or suction can be dcpended upon entirely and pressure devices on the opposite side of the mass can be omitted. The parts of the apparatus and the speeds are so related that by the time thc layer reaches the end of the air box the combustion will have traveled to the upper surface and the sintcring ol' the entire mass from bottoni to top will he completi-d. 'lhis sintered mass advances with theI bolts for a short distance and is then rcn'ioved or allowed to drop at points beyond the drums 2u and 2". li' required a scraper can he eniloyed at 22 to insure that the sintcr shall lie eti'ectually detached troni the carriers.
Above I have described an apparatus by which the material can be advanced continuously while undergoing treatment. But that the desulfurizing and siiitering of the mass, by themselves considered, can be earried on with devices which are stationary will be understood upon examining Fig. 10. In this case a stationary receptacle or ore holder 24 is provided. There are two ore retaining or restraining devices, one below and one above the mass, as shown at 25 and 27. That at 25 may be regarded as a grate or perforated plate. lhat at 27 may be similar in cha acter and arranged either to rest-upon the top of the orcI cr to have the latter placed with proper compactncss or looseness between the upper and the lower plates. The air is introduced through one of these plates and the products of combustion or chemical reaction escape through the other. li they pass in an upward direction, as is preferable in this case, the upper part at 27 holds the particles in the upper part of the mass in fixed position to insure their sintering. This nontraveling holder 24 may be mounted as 'shown so as to be tilted or inverted when the siiiter is to be emptied out. Below the ore holder there is shown a grizzly or set of grate bars at 2%, upon which the sintered cake can be deposited, and which after the cake is broken will permit the lumps of proper size to fall through to a chamber or receptacle which can be provided with a car or conveyer to take oil` the material.
inasmuch as the matters incident to the method of treatment of the material do not depend essentially upon either of the particular forms of apparatus which are herein illustrated, but may be carried out by the employment of any of many'instrumentalities, l do not heroin claim any of the novel features incident to the apparatus which is illustrated and described, having made those the subject matter oi claims in another ap- 4plication of even date herewith.
ln another application, Serial No. 368,675, I have presented claims to the apparatus or mechanism which l have selected to illustrate the process disclosed in this case, and
While the claims herein pertain to the method of treatment, I reserve the right to present in said other application claims for the novel features of construct-ion which are therein shown.
What I claim is:
1. The process for treating ores or metal bearing materials containing combustible elements, which consists in disposing the ore in a mass between two opposing supporting and retaining devices adapted to permit the entrance of air or gas through one and the exit thereof through the other, igniting the ore or the combustible contents thereof -at places near one of the said supporting or retaining devices, passing, air into the ore at points near the said supporting or retaining device and causing the o )posite supporting or retaining device to ho d the ore against agitation or disturbance at the places where the air or gases have their exit, substantiallyT as set forth.
2. The process for treating ores or metal bearing materials containing combustible elements, which consists in placing a layer or mass of the ore upon a support or retaining device, igniting the ore in the lower part of the said mass or layer, causing air to pass upward through the lower part of the mass, applying to the upper part of the mass or layer a restraining device to prevent the agitation or disturbance of the particles thereof, and causing the escape of the gases of combustion or reaction from the stratum of ore adjacent to the said restraining device, substantially as set forth.
3. The process for treating ores or metal bearing materials containing combustible elements, which consists in causing a layer or stream thereof to move continuously in one direction, igniting the combustible elements of the ore along one of the surfaces of the said layer or stratum, applying to the said surface a supporting or retaining device adapted to move therewith, delivering to the said surface air or combustion supporting gas, applying to the opposite surface of the layer or stream a supplemental retaining device adapted to restrain the particles of ore from agitation or disturbance, and causing the escape from the last said surface of the gases of combustion or reaction, substantially as set forth.
A4. The process for treating ores or metal bearing materials containing combustible elements, which consists in causing a layer or stream thereof to move continuously in one direction, igniting the combustible elements of the ore along one of the surfaces of the said layer or stream, applying to the said surface a supporting or retaining device ada ted to move therewith, delivering to the sai surface air or combustion supporting gas, applying to the opposite surface of the layer or stream a supp emental retaining device adapted to move therewith and to restrain the particles of ore from agitation or disturbance while ,it is undergoing treatment, substantially as set forth.
5. The process for treating ores or metal bearing materials containing combustible elements, which consists in causing a layer or stream thereof to move continuously in one direction, supporting the layer or stream against movement downward, restraining the particles of the said layer or stream against movement upward while it is advancing bodily, igniting the combustible elements of the layer or stream, sup lying air or combustion supporting gas to t e interior thereof, sintering the layer from the bottom to the top thereof, and removinr the sintered masses from the end 'of the layer while the treating and sintering of the other parts thereof are being effected, substantially as set forth.
6. The process for treating ore or metal bearing materials containing combustible elements, which consists in causing a layer or stream thereof to move continuously in one direction, igniting the combustible elements of the ore while the bottom part and the top part thereof areheld between supporting or retaining devices, causing air or combustion supporting gas to ass into and out from the interior of the said ayer or stream to produce an internal combustion, sintering the ore of said layer or stream by the heat from said combustion, and removing the sinter from the end of the layer or stream, substantially as set forth.
7. The process for treating metal bearing materials containing combustible elements which consists in forming a suitable mass thereof,`supporting the said mass substantially as set forth, whereby it can be transported bodily, causing internal combustion therein, supplying air to the lower part of the said mass and restraining the partlcles of the upper part of the mass from moving' in relation to each other, whereby they are held quiescent while the mass is moving bodily and during combustion, substantially as set forth.
8. The process for treating metal bearing materials containing combustible elements, which consists in forming a movable mass of the materials, supporting the said mass upon a traveling support whereby it can be transported bodily, exposing the lower part of said mass, whereby air can enter igniting the mass, moving the said mass bodily and applying to the top of the mass a traveling holder or restraining device adapted to engage with the particles at the upper part of the mass and hold them in quiescence, substantially as set forth.
9. The method for treating metal bearing materials containing combustible elements, which consists in supporting and retaining a mass of the ore between two opposing traveling devices, igniting the ore at the surface adjacent to one of said traveling supporting and retaining devices, and causing combustion supportlng gas to pass through the said ore mass from the place of ignition to the opposite side, substantially as set forth.
10.l The method fortreating metal bearing materials containing combustible elements whichconsists in supporting the mass of the material between two ore supporting and re taining devices, igniting the said mass at or near one of the said supportingr devices, causing air or combustion supporting gas to pass through the material toward the other sulrl e porting and retaining device, moving t mass bodily while sustaining combustion in its interior, and holding the articles of the mass against relative distur ance or agitag tion while movingbodily, substantially as 20 set forth.
11. The method for treating metal bearing materials, which consists in passing the material in a continuous stream to a region of combustion, across said region and then 25 from it, igniting the mass of the said material at one of its surfaces, causing combustion supportingl air or gas to (pass through the mass of the material an forming` a solid stream of sinter from the stream of fines, substantially as set forth.
In testimony whereof I aiix my signature, in presence of two witnesses.
ARTHUR S. DWIGHT.
Witnesses:
HANS FISHER, H. E. BUERKLIN.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2527309A (en) * 1947-03-22 1950-10-24 Kelsey Walter Gravity flow sintering machine
US2989395A (en) * 1956-05-02 1961-06-20 Dravo Corp Method and apparatus for suction draft sintering
WO1997023748A1 (en) 1995-12-22 1997-07-03 Envirco Corporation Flush lighting system for cleanroom

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2527309A (en) * 1947-03-22 1950-10-24 Kelsey Walter Gravity flow sintering machine
US2989395A (en) * 1956-05-02 1961-06-20 Dravo Corp Method and apparatus for suction draft sintering
WO1997023748A1 (en) 1995-12-22 1997-07-03 Envirco Corporation Flush lighting system for cleanroom

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