US865659A - Sintering ores. - Google Patents

Sintering ores. Download PDF

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US865659A
US865659A US34318106A US1906343181A US865659A US 865659 A US865659 A US 865659A US 34318106 A US34318106 A US 34318106A US 1906343181 A US1906343181 A US 1906343181A US 865659 A US865659 A US 865659A
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chamber
furnace
ore
ores
sintering
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US34318106A
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James Scott
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    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21BMANUFACTURE OF IRON OR STEEL
    • C21B7/00Blast furnaces
    • C21B7/18Bell-and-hopper arrangements
    • C21B7/20Bell-and-hopper arrangements with appliances for distributing the burden

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  • wrrnzssss 7 having an annular series of outlet openings 3 near its lower'end for the products of hombustion which pass throughto the annular chamber 4 from which the pipe I, UNITED Y STATES PATENT OFFICE.
  • Figure -1 is a sectional side elevation showing one I form of my improved apparatus; and Fig. 2 is a partial sectional view showing the upper part on a larger scale.
  • My invention relates to the agglomerating or sinter- 5 ing offinely divided ores, especially the flue dust-of blast furnaces; and is especially designed to improve upon themethod and apparatus set forth in my copending application No. 338,238, filed October 13,
  • 1 drop the finely divided ore or flue dust in a shower through a-furnace chamber, into which burners project in annular series at different levels, the heat being so regulated that the ore will be partially fused and sintered during its drop through this chamber.
  • the burners substantially provide' annular sheets of flame at different levels, through which the showering ore must drop.
  • the bottom of the chamber is preferably provided with .a feed-out device, which'willaid in forming the partially fused.
  • bafll'es or retarding devices particularly in the upper part of the apparatus, whereby the ore is more fully exposed to the action'of the flame and heat, andthe' sintering action more completely obtained.
  • Zrel presents-a vertical cylindrical furnace chamber which may be built in the ordinary form or a metal shell with refractory lining, such chamber fileadsto the stack 6.
  • this stack is l o- T which it may be taken to'the top of the sintering appa ratus.
  • a supplemental chamber 8 whichis also preferably formed of a metal shell or shells with refractory'lining, this containing a conical baths 9 supported onspider arms 10.
  • Both the chambers 8 and 2 are heated by annular rows of burners 11 supplied by gas'from a gas main 12 having depending valved branches 13; andwith airfrom an air main 14 having depending valved branch pipes 15;
  • the supply of gas and air to each burner may Patented Sept. 10, 1907".
  • a hopper 16 of upwardly-flaring form within which is mounted a conical baffle 17 of similar form to the baffle 9, this being carried on spidor arms 18.
  • the material is fed in the top of the hopper from the feed hopper 19 by means of a slotted valve or gate 20 moving over the slotted bottom 21 of the hopper 19..
  • a platform 24 carried on the upper hopper and having a surrounding hand rail or inclosure 25.
  • hopper plate having an opening closed by corrugated rollers 26.
  • rollers are driven by any suitable connection, and as they turn in opposite directions toward each other they serve to compact and form the partiallyfused material into lumps as they feed it out.
  • I preferably mount these rollers on yielding bearings so as to avoid breaking them and provide for the discharge of larger or smaller lumps.
  • Below the furnace bottom I preferably mount a water bosh 27 through a chute 29 from which the material is discharged into a car. Thelumps or masses of partially fused material are then fed out to the car, by which they may be taken to the blast furnace or other point of use.
  • the feed-slide at the top of the furnace is reciprocated at a substantially uniform rate of speed, and thereby the flue dust or fine ore is dropped through the chamber at a substantially liminary heating chamber 8 it is distributed by the baflies or deflectors 17 and 19, through the hopper 16, and is also retarded in its descent, so that a greater period of time is provided for the sintering action of the flames.
  • the carbon of the flames also assists in the agglomerating action.
  • the heat of the furnace both in regulated in any'desirable manner, and as the showeringore descends its temperature is increased until it is partially fused before reaching the bottom.
  • connection of the chamber 8 to the chamber 2 is preferably of hopper shape, as shown at 30, .so that the ore is again distributed and retarded somewhat as it enters the main furnace chamber. This partially fused material is continuously fed out by the corrufurnace itself. The draft is preferably downward through the furnace, as shown, thus avoiding injury to the feeding-in device. and improving the action.
  • this valve or gate I have shown an eccentric rod 22 leading from a constantly-driven shaft 23. I have also The bottom of the furnace is formed by an annular I which extends a conveyer 28, this conveyer leading to uniform rate. As the material drops through the pre-' g'ated rollers, in the form of clinker or sintered lumps. If the flue dust is wet, or for any reason needs drying,
  • the preliminary chamber and the main furnace may be i
  • the advantages of my improved structure arise from the use of the r'etarders or ballles ⁇ i'hich serve not only to retard the showering ore or line d net, but to distribute furnace chamber; a. deflector with plain faced rolls may be used instead of the corrugated feed-out rolls; and many other changes may be made in the form and arrangement of the parts without departing from my invention.
  • an open vertically extending furnace chamber having a movable feeding device at the top arranged to shower the ore, burners arranged at different levels and a compacting and feeding out device at the bottom of the chamber; substantially as described.
  • a vertically extending furnace chamber having a feeding device at the top arranged to deliverthe ore in a shower within the chamber, burners at different levels projecting; i to the chamher and a water bosh into which the sinter 1 material in fed; substantially as described.
  • an open verticallyextendine furnace chamber having burner s projecting chamber, and a feeding device nrranged'to shower the ore thereinto at different levels, a preheating turnace having retarding devices at the top of the main furnace chamber, 30 and a feeding-out device at the bottom for the partially fused material; substantially as described.
  • a main furnace chum her In apparatus for sintering ores, a main furnace chum her, a preheating chamber above it having a retarding device, and hopper mechanism arranged to continuously feed 7.
  • a vertically extending furnace chamber having a Ieeding'devl'ce at the top arranged to deliver the ore in a shower within the cham-' 50" her-,lmrncrs at different levels projecting into the chamber, a water bosh into which the sintered material is fed, and, a convcyer arranged to carry the material but ot thc ter bosli; substantially as described.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Manufacturing & Machinery (AREA)
  • Materials Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Manufacture And Refinement Of Metals (AREA)

Description

.PATENTED SEPT..10, 1907.
J. SCOTT.
SINTERING ORES.
APPLIJOATION FILED NOV. 1a 1906.
2 SHEETS-SHEET 1.
nnoQcBn INVENTOR 2 $HEETSSHEET 2.
INVENTOR PATEN'I'BT) SEPT. 10, 1907.
J. SCOTT.
SINTE-RING ORES.
APPLIOATION FILED NOV. 13.1906.
wrrnzssss 7 having an annular series of outlet openings 3 near its lower'end for the products of hombustion which pass throughto the annular chamber 4 from which the pipe I, UNITED Y STATES PATENT OFFICE.
JAMES SCOTT, OF PITTSBURG, PENNSYLVANIA.
srn'rnnme onus.
To all whom it may concern:
. forming part of this specification, in which Figure -1 is a sectional side elevation showing one I form of my improved apparatus; and Fig. 2 is a partial sectional view showing the upper part on a larger scale.
My invention relates to the agglomerating or sinter- 5 ing offinely divided ores, especially the flue dust-of blast furnaces; and is especially designed to improve upon themethod and apparatus set forth in my copending application No. 338,238, filed October 13,
In carrying out my invention, 1 drop the finely divided ore or flue dust in a shower through a-furnace chamber, into which burners project in annular series at different levels, the heat being so regulated that the ore will be partially fused and sintered during its drop through this chamber. The burners substantially provide' annular sheets of flame at different levels, through which the showering ore must drop. The bottom of the chamber is preferably provided with .a feed-out device, which'willaid in forming the partially fused.
materialinto lumps and-discharge them. I preferably feed out these lumps or masses into a water bosh, from i which they may be carried into a car or receptacle,
preferably by means of a conveyer which passes through 7 this water bush. 1 s
- In order to retard the descent of the showering me I employ bafll'es or retarding devices, particularly in the upper part of the apparatus, whereby the ore is more fully exposed to the action'of the flame and heat, andthe' sintering action more completely obtained.
In the drawings, in which I show ai lprefe'rred form of my apparatus, Zrelpresents-a vertical cylindrical furnace chamber which may be built in the ordinary form or a metal shell with refractory lining, such chamber fileadsto the stack 6. I have shown this stack as l o- T which it may be taken to'the top of the sintering appa ratus. Above the chamber 2 is provided a supplemental chamber 8 whichis also preferably formed of a metal shell or shells with refractory'lining, this containing a conical baths 9 supported onspider arms 10.
Both the chambers 8 and 2 are heated by annular rows of burners 11 supplied by gas'from a gas main 12 having depending valved branches 13; andwith airfrom an air main 14 having depending valved branch pipes 15; The supply of gas and air to each burner may Patented Sept. 10, 1907".
Application filed November 13,1906. Serial no. 343.181.
thus be controlled so that the annular sheets of flame at different levels may be controlled and regulated as to direction and volume. L
At the top of the chamber 8 I preferably mount a hopper 16 of upwardly-flaring form within which is mounted a conical baffle 17 of similar form to the baffle 9, this being carried on spidor arms 18. The material is fed in the top of the hopper from the feed hopper 19 by means of a slotted valve or gate 20 moving over the slotted bottom 21 of the hopper 19.. For reciprocating shown a platform 24 carried on the upper hopper and having a surrounding hand rail or inclosure 25.
hopper plate having an opening closed by corrugated rollers 26. These rollers are driven by any suitable connection, and as they turn in opposite directions toward each other they serve to compact and form the partiallyfused material into lumps as they feed it out. I preferably mount these rollers on yielding bearings so as to avoid breaking them and provide for the discharge of larger or smaller lumps. Below the furnace bottom I preferably mount a water bosh 27 through a chute 29 from which the material is discharged into a car. Thelumps or masses of partially fused material are then fed out to the car, by which they may be taken to the blast furnace or other point of use. a
In the use of the apparatus, the feed-slide at the top of the furnace is reciprocated at a substantially uniform rate of speed, and thereby the flue dust or fine ore is dropped through the chamber at a substantially liminary heating chamber 8 it is distributed by the baflies or deflectors 17 and 19, through the hopper 16, and is also retarded in its descent, so that a greater period of time is provided for the sintering action of the flames. The carbon of the flames also assists in the agglomerating action. The heat of the furnace both in regulated in any'desirable manner, and as the showeringore descends its temperature is increased until it is partially fused before reaching the bottom.
The connection of the chamber 8 to the chamber 2 is preferably of hopper shape, as shown at 30, .so that the ore is again distributed and retarded somewhat as it enters the main furnace chamber. This partially fused material is continuously fed out by the corrufurnace itself. The draft is preferably downward through the furnace, as shown, thus avoiding injury to the feeding-in device. and improving the action.
this valve or gate I have shown an eccentric rod 22 leading from a constantly-driven shaft 23. I have also The bottom of the furnace is formed by an annular I which extends a conveyer 28, this conveyer leading to uniform rate. As the material drops through the pre-' g'ated rollers, in the form of clinker or sintered lumps. If the flue dust is wet, or for any reason needs drying,
this is carried out by the heat from the stack of the are fed into the water bosh, and thereby cooled, and
the preliminary chamber and the main furnace may be i The advantages of my improved structure arise from the use of the r'etarders or ballles \i'hich serve not only to retard the showering ore or line d net, but to distribute furnace chamber; a. deflector with plain faced rolls may be used instead of the corrugated feed-out rolls; and many other changes may be made in the form and arrangement of the parts without departing from my invention. I
In apparatus for sintering ores, an open vertically extending furnace chamber having a movable feeding device at the top arranged to shower the ore, burners arranged at different levels and a compacting and feeding out device at the bottom of the chamber; substantially as described.
2. In apparatus for sinterin; or .s, a vertically extending furnace] chamber having a feeding device at the top arranged to deliverthe ore in a shower within the chamber, burners at different levels projecting; i to the chamher and a water bosh into which the sinter 1 material in fed; substantially as described.
3, In apparatus for sinterfng ores, an open verticallyextendine furnace chamber having burner s projecting chamber, and a feeding device nrranged'to shower the ore thereinto at different levels, a preheating turnace having retarding devices at the top of the main furnace chamber, 30 and a feeding-out device at the bottom for the partially fused material; substantially as described. l
4. inllpparatus for sintering ores, a vertically-extend" ing furnace chamber having retarding devices in its top portion at diiferent levels therein, andburnerd surrounding 85 its top portion; substantially usdesc ribed. I i 5. In apparatus for slntering ores, a ve'rtlcally extend ing furnace chamber having'a preliminary heatiii'g chamben at its top, retarding devices in said preliminary heating down into the preliminary heating chamber substantially as described. i
6'. In apparatus for sintering ores, a main furnace chum her, a preheating chamber above it having a retarding device, and hopper mechanism arranged to continuously feed 7. in apparatus for sintering ores, a vertically extending furnace chamber having a Ieeding'devl'ce at the top arranged to deliver the ore in a shower within the cham-' 50" her-,lmrncrs at different levels projecting into the chamber, a water bosh into which the sintered material is fed, and, a convcyer arranged to carry the material but ot thc ter bosli; substantially as described.
n testimony whereof, [have hereuntoset my hand.-
' JAMES SCOTT.
Witnesses: l
JonN MILLER, II. M. Conwrn.
US34318106A 1906-11-13 1906-11-13 Sintering ores. Expired - Lifetime US865659A (en)

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2464304A (en) * 1944-08-10 1949-03-15 Gottlieb Steven Method of and shaft kiln for burning, calcining, or sintering, granulated or briquetted materials
US2574911A (en) * 1947-03-24 1951-11-13 Cowburn Allan Maurice Sand drying apparatus
US2614829A (en) * 1950-03-02 1952-10-21 Kelsey Walter Sintering machine
US2614828A (en) * 1950-03-02 1952-10-21 Kelsey Walter Sintering machine
US2869848A (en) * 1954-04-09 1959-01-20 British Celanese Filamentary material
US2965473A (en) * 1956-07-23 1960-12-20 Lorraine Houilleres Method of cleaning iron ore fines, notably for the manufacture of improved ferrous coke
US3415504A (en) * 1967-03-20 1968-12-10 Ppg Industries Inc Material distributing device in a vertical kiln
US20050161868A1 (en) * 2004-01-28 2005-07-28 Hugens John R.Jr. Vertical shaft melting furnace

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2464304A (en) * 1944-08-10 1949-03-15 Gottlieb Steven Method of and shaft kiln for burning, calcining, or sintering, granulated or briquetted materials
US2574911A (en) * 1947-03-24 1951-11-13 Cowburn Allan Maurice Sand drying apparatus
US2614829A (en) * 1950-03-02 1952-10-21 Kelsey Walter Sintering machine
US2614828A (en) * 1950-03-02 1952-10-21 Kelsey Walter Sintering machine
US2869848A (en) * 1954-04-09 1959-01-20 British Celanese Filamentary material
US2965473A (en) * 1956-07-23 1960-12-20 Lorraine Houilleres Method of cleaning iron ore fines, notably for the manufacture of improved ferrous coke
US3415504A (en) * 1967-03-20 1968-12-10 Ppg Industries Inc Material distributing device in a vertical kiln
US20050161868A1 (en) * 2004-01-28 2005-07-28 Hugens John R.Jr. Vertical shaft melting furnace
US7282172B2 (en) 2004-01-28 2007-10-16 North American Manufacturing Company Vertical shaft melting furnace

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