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US2850273A - Rotary kiln type metallurgical furnace - Google Patents

Rotary kiln type metallurgical furnace Download PDF

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US2850273A
US2850273A US534040A US53404055A US2850273A US 2850273 A US2850273 A US 2850273A US 534040 A US534040 A US 534040A US 53404055 A US53404055 A US 53404055A US 2850273 A US2850273 A US 2850273A
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kiln
ore
fuel
lines
pipe
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US534040A
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Samuel A Barnes
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CHESTER F BARNES
DUANE CARR
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CHESTER F BARNES
DUANE CARR
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27BFURNACES, KILNS, OVENS, OR RETORTS IN GENERAL; OPEN SINTERING OR LIKE APPARATUS
    • F27B7/00Rotary-drum furnaces, i.e. horizontal or slightly inclined
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27BFURNACES, KILNS, OVENS, OR RETORTS IN GENERAL; OPEN SINTERING OR LIKE APPARATUS
    • F27B7/00Rotary-drum furnaces, i.e. horizontal or slightly inclined
    • F27B7/20Details, accessories, or equipment peculiar to rotary-drum furnaces
    • F27B7/32Arrangement of devices for charging

Definitions

  • the present invention relates generally to apparatus for treating metallic ores at low temperatures, and more particularly relates to rotary kiln construction for the low temperature reduction of certain type ores, such as nickel, etc., of the oil or other liquid fuel fire type.
  • the primary purpose of the present invention is to provide an improved rotary kiln construction which will provide more complete heat control throughout the length of the kiln for efiecting more efficient ore reduction and as a means for salvaging some non-metallic ores from the ore mass without fusing the slag.
  • a highly important object of the invention is in the provision of a novel air pipe, fuel and water vaporizing system wherein preheating lines for fuel and Water are arranged in trussed supporting relation to an air pipe extending longitudinally through the kiln in order to stiffen the air pipe throughout its length within the kiln in order to enable this pipe to withstand the temperatures within the kiln without sagging.
  • An exceedingly important object of the invention is in the provision of an air pipe extending longitudinally through the rotary kiln, which air pipe is provided at longitudinally spaced points therealong with apertures from which project fuel burner and fuel burner control nozzles carried by individual lines to each of the pipe openings whereby the burning temperature at each nozzle opening may be individually controlled throughout the length of the kiln.
  • a further object of the invention is in the provision of a novel ore discharge arrangement for the kiln whereby the ores are not subjected to any reoxidation as they leave the kiln.
  • a still further object of the invention is in the provision of a rotary kiln construction which will maintain a positive pressure of gas within the kiln and eliminate undesirable air leaks into the kiln or any parts thereof while at the same time preventing gas stratifications in the kiln which would otherwise tend to incompletely reduce the ores.
  • Figure l is a side elevational view of a rotary kiln constructed in accordance with the present invention.
  • Figure 2 is a side elevational view of the kiln of Figure 1 in cross-section to disclose the interior construction thereof;
  • Figure 3 is a top view of the discharge end portion of the rotary kiln
  • Figure 4 is a cross-sectional view through the kiln taken substantially along the plane of section line 4-4 pf Figure 2;
  • Figure 5 is a cross-sectional view through the kiln taken substantially along the plane of section line 55 of Figure 1 disclosing the ore discharge means from the kiln;
  • Figure 6 is an enlarged detail view of the burner and burner control nozzles for the kiln.
  • Figure 7 is a top plan view of the burner and steam piping per se.
  • the rotary kiln is designated in its entirety by the numeral 10 and consists essentially of a cylindrical outer shell 12 having a suitable refractory or other type insulating liner 14.
  • the kiln is provided with circumferentially extending rings 16 which rotatably support the kiln on rollers 18, which rollers are in turn mounted on supports 20.
  • the rollers 18 may be actuated or as shown in the drawings, the kiln shell may be provided with a bull gear 22 driven by means of a pinion 24 from a suitable driving mechanism or prime mover, not shown.
  • the kiln 10 is inclined downwardly from its ore inlet end 24 to its ore discharge end 26.
  • the inlet end 24 thereof opens into a feed chute 28 which in turn opens at its upper end into a ground ore bin 30. Also adjacent this end from the feed chute 28, gas discharge stack 32 is disposed opening into the feed chute 28.
  • the discharge end 26 of the kiln 10 is closed by means of a fixed plate 34 having a collar 36 telescopically received within the extreme end of the cylindrical tube 12. At this end and spaced closely adjacent thereto is an internal annular ring 33 of considerable depth forming a partial wall to dam up or hold back ore as it moves from the inlet end 24 toward the discharge end 26 of the kiln.
  • a second shallower ring 49 Spaced along the kiln from the ring 38 is a second shallower ring 49 so that an ore receiving channel 42 is formed therebetween.
  • the ore receiving channel is provided with a series of ore scoops 44 therearound which form ore outlet spouts normally closed by gates 46 to be more specifically described presently.
  • an oil tank 52 Conveniently disposed at the inlet end of the kiln 10, although not necessarily so, is an oil tank 52 and a water tank 54.
  • a preheating water line or vaporizing steam line 56 which extends generally longitudinally along the air pipe 48 and returns back therealong into the top portion of the water tank 54.
  • the water line 56 is arranged in the form of a truss with intermediate truss brace 58 and the return portions of the line at opposite sides of the truss brace 58 being attached to the air pipe 48 to serve as a truss brace therefor.
  • a preheating line 60 extends from the oil tank 52 along the opposite side of the air pipe 48 and is trussed in the same manner as the water preheating line 56.
  • the rigidity of the trussed effect for the air pipe 48 may be increased by increasing the number of convolutes of the preheating lines for the water and fuel oil.
  • the structure provides a stifiening truss for the large diameter air pipe through the kiln, whereby the air pipe is enabled to withstand relatively high temperatures without sagging and in addition per form a further valuable function in the function of the apparatus to be immediately described.
  • valve-casing 72 From the valve-casing 72,- a plurality of steam or steam and air lines 84-extend.
  • the air pipe 48 is provided with nozzle openings 86.
  • one fuel pipe 82 and one steam or steam and air pipe 84 open.
  • Individual valves are provided at the casings 68 and 72 for controlling the amount of steam and fuel througheach of the individual lines 82 and 84 to the individual burner nozzles 86 opening from the air pipe 48.
  • the air pipe serves as a housing for the fuel mixing and burning lines through the kiln whereby the temperature of the kiln may be positively controlled throughout the length thereof in a simple and expedient manner. Conversely, the air pipe would be within the mixing and burning lines if it is desired to further preheat the fuel under some circumstances.
  • the steam and oil'fuel mixture may be varied, the steam serving to assist in vaporizing the oil at the burner nozzles while at the same time serving as a control for the flame and maintaining pressure within the kiln with a minimum chance of air leakage into the kiln.
  • the butane or LPG tank 64 which is alternatively in communication with the fuel lines82 is utilized primarily to start the operation of the kiln and preheat the same so that the oil may be partially vaporized or at least considerably preheated within the truss 60 therefor while the water may be converted to steam or a large portion thereof converted to steam prior to switching over to the oil and water or steam mixture at the burner nozzles 86.
  • each of the scoops 44 extends tangentially from the cylindrical surface of the kiln 10, this wall being designated by the numeral 90.
  • the other wall 92 of each scoop 44 extends tangentially froman inner cylindrical sleeve 96 spaced concentrically. within the kiln and utilizing the space formed therebetween as the previously mentioned ore discharge channel 42.
  • Each discharge gate 46 bridges the mouth of the associated spout formed by each set of Walls and 92. One portion of the gate 46 projects above the exterior wall.9 0 of the spout and has a lip 98 overlying the wall 90.
  • Aresilient spring 100 reacts at its ends on the wall 90 and on-the lip. 98 of its associated gate 46 to continuously bias the gate to closed position with respect to. its spout 4'4.
  • an ore receiving bin or box 102 which has an upwardly extending lip 104 identifying the mouth thereof. Further, from the upper edge thereof adjacent the kiln extends a supporting bracket 104 mounting a roller 106. The roller 106 engages each gate 46 as it comes past and presses the same against the action of its biasing spring 100 to open the discharge spout 44 to discharge the ore contents thereof into the bin 102 in a manner so that very little air leakage can possibly occur.
  • exhaust gases from the kiln which ordinarily leave from the stack 32 at the entrance end of the kiln may be piped by virtue of pipe 110 into the ore receiving bin 102 to prevent any reoxidation of the ore as it passes thereinto.
  • Slide valve 112 at the bottom of the ore receiving bin 102 may serve to release the ore therefrom for further processing.
  • a rotary kiln for treating ore comprising a rotatable kiln shell having an ore charging port at one end and ore discharging means at the other end thereof, said shell being downwardly inclined from its ore charging to its ore discharging ends, means for controlling the temperature throughout the length of the kiln comprising an oxygen conducting pipe extending longitudinally through said kiln, said oxygen conducting pipe having openings into said kiln at longitudinally spaced intervals therealong, fuel mixing lines extending through said pipe and 'having nozzles opening through said openingsinto said kiln, means for individually controlling the fuel mix at each pipe opening, said fuel mixing lines having portions supporting said oxygen conducting pipe within said kiln.
  • a rotary kiln for treating ore comprising a rotatable kiln-shell having an ore charging port at one end and ore discharging means at the other end thereof, said shell being downwardly inclined from its ore charging toits ore discharging ends, meansfor controlling the tempera, ture throughout the lengthof the kiln comprising an oxygen conducting pipe extending longitudinally through said kiln, said oxygen conducting pipe having openings into said kiln at longitudinally spaced intervals therealong, fuel mixing'lines extending through said pipe and having nozzles opening through said openings into said kiln, means for individually controlling the fuel mix at each pipe opening, said fuel mixing lines having portions supporting said oxygen conducting pipe within said kiln, said shell having an annular metal receiving channel adjacent the discharge end thereof, gates arranged at circumferential intervals around said channel, means causing each of said gates to open at a predetermined point as the kiln is rotated to release the metal therefrom.
  • a rotary kiln for treating ore comprising a rotatable shell having an ore charging entrance opening at one end and ore discharging means at the other endwith the kiln being inclined downwardly from its charging to its discharging end, means for controlling the heat throughout the length of the kiln comprising an insulated air pipe extending longitudinally through said kiln, said air pipe having a plurality of openings therein at longitudinally spaced points therealong, fuel and water'preheating lines arranged exteriorly of and attached and supporting said pipe, fuel and steam lines communicating with said preheating lines and extending through said air pipe, one of said fuel and one of said steam lines terminating at each opening in said air pipe,,and means'ex teriorly of said kiln for individually controlling the amount of fuel and steam to each line.
  • a rotary kiln for treating ore comprising a rotatable kiln shell having an ore charging port at one end and ore discharging means at the other end thereof, said shell being downwardly inclined from its ore charging to its ore discharging means, means closing the ends of said kiln, an air pipe extending longitudinally through said kiln, fuel and water lines having preheating portions thereof extending longitudinally through said kiln, said preheating portions supporting said pipe, said Water lines communicating with a casing having a plurality of steam lines leading therefrom through said air pipe, fuel lines extending into said air pipe, said air pipe having openngs into said kiln at longitudinally spaced points therealong, one of said fuel lines and one of said steam lines terminating in each of said openings, and means for individually controlling the fuel and steam through each line.
  • a rotary kiln for treating ore comprising a rotatable kiln shell having an ore charging port at one end and ore discharging means at the other end thereof, said shell being downwardly inclined from its ore charging to its ore discharging ends, means for controlling the temperature throughout the length of the kiln comprising an oxygen conducting pipe extending longitudinally through said kiln, said oxygen conducting pipe having openings into said kiln at longitudinally spaced intervals therealong, fuel mixing lines extending through said pipe and having nozzles opening through said openings into said kiln, means for individually controlling the fuel mix at each pipe opening, said fuel mixing lines supporting said air pipe within said kiln, said ore discharging means comprising an annular ore receiving channel in said kiln, ore scoops at circumferential intervals around said channel forming protuberances exteriorly of said kiln shell, ore discharge gates closing said protuberances.
  • a rotary kiln for treating ore comprising a rotatable kiln shell having an ore charging port at one end and ore discharging means at the other end thereof, said shell being downwardly inclined from its ore charging to its ore discharging ends, means for controlling the temperature throughout the length of the kiln comprising an oxygen conducting pipe extending longitudinally through said kiln, said oxygen conducting pipe having openings into said kiln at longitudinally spaced intervals therealong, fuel mixing lines extending through said pipe and having nozzles opening through said openings into said kiln, means for individually controlling the fuel mix at each pipe opening, means connected to said fuel mixing lines for supporting said air pipe within said kiln, said ore discharging means comprising an annular ore receiving channel in said kiln, ore scoops at circumferential intervals around said channel forming protuberances exteriorly of said kiln shell, ore discharge gates closing said protuberances, and means for automatically opening each of said gates at a predetermined
  • a rotary kiln for treating ore comprising a rotatable kiln shell having an ore charging port at one end and ore discharging means at the other end thereof, means for controlling the temperature throughout the length of the kiln including an enlarged oxygen conducting pipe extending longitudinally through said kiln, said oxygen conducting pipe having openings into said kiln at longitudinally spaced intervals therealong, fuel mixing lines located substantially longitudinally and internally of the kiln, a truss brace located near the longitudinal central portion of said oxygen conducting pipe and connected about a substantially semi-circumferential portion of said oxygen conducting pipe, said truss brace supported by said fuel mixing lines, said fuel mixing lines further supporting said oxygen conducting pipe near the charging port and dischargng means, said fuel mixing lines having nozzles opening through said openings into said kiln.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Muffle Furnaces And Rotary Kilns (AREA)
  • Furnace Details (AREA)

Description

Sept. 2, 1958 s. A. BARNES ROTARY KILN TYPE METALLURGICAL FURNACE 3 Sheets-Sheet 1 Filed Sept. 13, 1955 R w mm m m 8m 8 A m a m J w Q Q\\ vN v vh am I wk NM 3 Sheets-Sheet 2 S. A. BARNES ROTARY KILN TYPE METALLURGICAL FURNACE Sept. 2, 1958 Filed Sept. 13, 1955 INVENTOR.
1/1 1VIIVII/ I 1/ /l 4/] 1 1 1 P 2, 1953 s. A. BARNES v 2,850,273
ROTARY KILN TYPE METALLURGICAL FURNACE Filed Sept. 13, 1955 3 Sheets-Sheet 3 Fig.5
11/1 II III/Ili Samuel A. Barnes 72 A INVENTOR.
IIHIllllllllllllllllllllllll Ill Patented Sept. 2, 1958 ROTARY KILN rrrn METALLURGICAL FURNACE Samuel A. Barnes, Needles, Califi, assignor of one-eighth to Duane Carr, Provo, tall, and one-eighth to Chester F. Barnes, Elke, Nev.
Application September 13, 1955, Serial No. 534,040
7 laims. (Cl. 263-33) The present invention relates generally to apparatus for treating metallic ores at low temperatures, and more particularly relates to rotary kiln construction for the low temperature reduction of certain type ores, such as nickel, etc., of the oil or other liquid fuel fire type.
The primary purpose of the present invention is to provide an improved rotary kiln construction which will provide more complete heat control throughout the length of the kiln for efiecting more efficient ore reduction and as a means for salvaging some non-metallic ores from the ore mass without fusing the slag.
A highly important object of the invention, ancillary to the primary object, is in the provision of a novel air pipe, fuel and water vaporizing system wherein preheating lines for fuel and Water are arranged in trussed supporting relation to an air pipe extending longitudinally through the kiln in order to stiffen the air pipe throughout its length within the kiln in order to enable this pipe to withstand the temperatures within the kiln without sagging.
An exceedingly important object of the invention, ancillary to the preceding object, is in the provision of an air pipe extending longitudinally through the rotary kiln, which air pipe is provided at longitudinally spaced points therealong with apertures from which project fuel burner and fuel burner control nozzles carried by individual lines to each of the pipe openings whereby the burning temperature at each nozzle opening may be individually controlled throughout the length of the kiln.
A further object of the invention is in the provision of a novel ore discharge arrangement for the kiln whereby the ores are not subjected to any reoxidation as they leave the kiln.
A still further object of the invention is in the provision of a rotary kiln construction which will maintain a positive pressure of gas within the kiln and eliminate undesirable air leaks into the kiln or any parts thereof while at the same time preventing gas stratifications in the kiln which would otherwise tend to incompletely reduce the ores.
These together with other objects and advantages which will become subsequently apparent reside in the details of construction and operation as more fully hereinafter described and claimed, reference being had to the accompanying drawings forming a part hereof, wherein like numerals refer to like parts throughout, and in which:
Figure l is a side elevational view of a rotary kiln constructed in accordance with the present invention;
Figure 2 is a side elevational view of the kiln of Figure 1 in cross-section to disclose the interior construction thereof;
Figure 3 is a top view of the discharge end portion of the rotary kiln;
Figure 4 is a cross-sectional view through the kiln taken substantially along the plane of section line 4-4 pf Figure 2;
Figure 5 is a cross-sectional view through the kiln taken substantially along the plane of section line 55 of Figure 1 disclosing the ore discharge means from the kiln;
Figure 6 is an enlarged detail view of the burner and burner control nozzles for the kiln; and
Figure 7 is a top plan view of the burner and steam piping per se.
In the drawings, the rotary kiln is designated in its entirety by the numeral 10 and consists essentially of a cylindrical outer shell 12 having a suitable refractory or other type insulating liner 14.
At longitudinally spaced intervals thereon, the kiln is provided with circumferentially extending rings 16 which rotatably support the kiln on rollers 18, which rollers are in turn mounted on supports 20.
To positively rotate the kiln 10, the rollers 18 may be actuated or as shown in the drawings, the kiln shell may be provided with a bull gear 22 driven by means of a pinion 24 from a suitable driving mechanism or prime mover, not shown.
The kiln 10 is inclined downwardly from its ore inlet end 24 to its ore discharge end 26.
In order to introduce ore into the kiln 10, the inlet end 24 thereof opens into a feed chute 28 which in turn opens at its upper end into a ground ore bin 30. Also adjacent this end from the feed chute 28, gas discharge stack 32 is disposed opening into the feed chute 28.
The discharge end 26 of the kiln 10 is closed by means of a fixed plate 34 having a collar 36 telescopically received within the extreme end of the cylindrical tube 12. At this end and spaced closely adjacent thereto is an internal annular ring 33 of considerable depth forming a partial wall to dam up or hold back ore as it moves from the inlet end 24 toward the discharge end 26 of the kiln.
Spaced along the kiln from the ring 38 is a second shallower ring 49 so that an ore receiving channel 42 is formed therebetween.
The ore receiving channel is provided with a series of ore scoops 44 therearound which form ore outlet spouts normally closed by gates 46 to be more specifically described presently.
Extending longitudinally through the kiln 10 and being open at the opposite ends thereof with the openings controlled by dampers (not shown) is a large internal diameter air pipe 48, having a suitable insulating jacket 50 therearound.
Conveniently disposed at the inlet end of the kiln 10, although not necessarily so, is an oil tank 52 and a water tank 54.
Extending from the water tank 54 is a preheating water line or vaporizing steam line 56 which extends generally longitudinally along the air pipe 48 and returns back therealong into the top portion of the water tank 54. Through its passage into and out of the kiln, the water line 56 is arranged in the form of a truss with intermediate truss brace 58 and the return portions of the line at opposite sides of the truss brace 58 being attached to the air pipe 48 to serve as a truss brace therefor.
Likewise, a preheating line 60 extends from the oil tank 52 along the opposite side of the air pipe 48 and is trussed in the same manner as the water preheating line 56.
Quite clearly, the rigidity of the trussed effect for the air pipe 48 may be increased by increasing the number of convolutes of the preheating lines for the water and fuel oil. In any event, the structure provides a stifiening truss for the large diameter air pipe through the kiln, whereby the air pipe is enabled to withstand relatively high temperatures without sagging and in addition per form a further valuable function in the function of the apparatus to be immediately described.
Referring now to Figures-2 and 7 particularly, it will be noted that exteriorly ofthe-kiln 10 at'the discharge end thereof areganair supply tank 62 and a butane or LPG tank- 64. -Lines 66frorn the butane tank 64'open into an elongated valve casing 68, and lines 70 from the air tank 62 openinto an elongated valve casing 72. Additionally, steamline'76 from the steam dome 780i the water tank'54 extends longitudinally along the top of the air pipe 48 through the, kiln and also opens into the valve casing 72, whereas oil line extending from the oil tank 52 opens intothe valve casing 68.
From the respective valve casings 68 and 72, a plurality of oil or fuel lines 82 extend. I
From the valve-casing 72,- a plurality of steam or steam and air lines 84-extend.
At longitudinallyspaced intervals throughout its length, the air pipe 48 is provided with nozzle openings 86. The terminal ends of the fuel and air or air and ste pipes 82 and 84, respectively, open into these nozzles 86. Into each nozzle 86 one fuel pipe 82 and one steam or steam and air pipe 84 open. Individual valves are provided at the casings 68 and 72 for controlling the amount of steam and fuel througheach of the individual lines 82 and 84 to the individual burner nozzles 86 opening from the air pipe 48.
Thus, the air pipe serves as a housing for the fuel mixing and burning lines through the kiln whereby the temperature of the kiln may be positively controlled throughout the length thereof in a simple and expedient manner. Conversely, the air pipe would be within the mixing and burning lines if it is desired to further preheat the fuel under some circumstances. 7
By properly controlling the valves, obviously, the steam and oil'fuel mixture may be varied, the steam serving to assist in vaporizing the oil at the burner nozzles while at the same time serving as a control for the flame and maintaining pressure within the kiln with a minimum chance of air leakage into the kiln. V
The butane or LPG tank 64 which is alternatively in communication with the fuel lines82 is utilized primarily to start the operation of the kiln and preheat the same so that the oil may be partially vaporized or at least considerably preheated within the truss 60 therefor while the water may be converted to steam or a large portion thereof converted to steam prior to switching over to the oil and water or steam mixture at the burner nozzles 86.
Referring now to Figure 5, the ore discharge means will be readily observed wherein it is seen that the ore spouts 44 project spirally beyond the cylindrical wall of the .kiln at circumferentially spaced points therearound to form discharge spouts.
As noted previously, the mouths of the spouts are closed by gates 46.
Consequently, as thekiln 10 rotates, the ore is scooped up by each of the scoops 44 and'carried around until it is automatically dumped in a manner to be now descrbied.
As will be noted from Figure 5, one wall of each of the scoops 44 extends tangentially from the cylindrical surface of the kiln 10, this wall being designated by the numeral 90. The other wall 92 of each scoop 44 extends tangentially froman inner cylindrical sleeve 96 spaced concentrically. within the kiln and utilizing the space formed therebetween as the previously mentioned ore discharge channel 42.
.Each discharge gate 46 bridges the mouth of the associated spout formed by each set of Walls and 92. One portion of the gate 46 projects above the exterior wall.9 0 of the spout and has a lip 98 overlying the wall 90. Aresilient spring 100 reacts at its ends on the wall 90 and on-the lip. 98 of its associated gate 46 to continuously bias the gate to closed position with respect to. its spout 4'4.
To one side of the kiln adjacent the discharge end 26 is an ore receiving bin or box 102 which has an upwardly extending lip 104 identifying the mouth thereof. Further, from the upper edge thereof adjacent the kiln extends a supporting bracket 104 mounting a roller 106. The roller 106 engages each gate 46 as it comes past and presses the same against the action of its biasing spring 100 to open the discharge spout 44 to discharge the ore contents thereof into the bin 102 in a manner so that very little air leakage can possibly occur. 1
Additionally, exhaust gases from the kiln which ordinarily leave from the stack 32 at the entrance end of the kiln may be piped by virtue of pipe 110 into the ore receiving bin 102 to prevent any reoxidation of the ore as it passes thereinto.
Slide valve 112 at the bottom of the ore receiving bin 102 may serve to release the ore therefrom for further processing. v
The foregoing is considered as illustrative only of the principles of the invention. Further, since numerous modifications and changes-will readily occur to those skilledin the art, it is not desired to limit the invention to the exact construction and operation shown and described, and accordingly, all suitable modifications and equivalents may be resorted to, falling within the scope of the invention as claimed.
What is claimed as new is as follows:
1. A rotary kiln for treating ore comprising a rotatable kiln shell having an ore charging port at one end and ore discharging means at the other end thereof, said shell being downwardly inclined from its ore charging to its ore discharging ends, means for controlling the temperature throughout the length of the kiln comprising an oxygen conducting pipe extending longitudinally through said kiln, said oxygen conducting pipe having openings into said kiln at longitudinally spaced intervals therealong, fuel mixing lines extending through said pipe and 'having nozzles opening through said openingsinto said kiln, means for individually controlling the fuel mix at each pipe opening, said fuel mixing lines having portions supporting said oxygen conducting pipe within said kiln.
2. A rotary kiln for treating ore comprising a rotatable kiln-shell having an ore charging port at one end and ore discharging means at the other end thereof, said shell being downwardly inclined from its ore charging toits ore discharging ends, meansfor controlling the tempera, ture throughout the lengthof the kiln comprising an oxygen conducting pipe extending longitudinally through said kiln, said oxygen conducting pipe having openings into said kiln at longitudinally spaced intervals therealong, fuel mixing'lines extending through said pipe and having nozzles opening through said openings into said kiln, means for individually controlling the fuel mix at each pipe opening, said fuel mixing lines having portions supporting said oxygen conducting pipe within said kiln, said shell having an annular metal receiving channel adjacent the discharge end thereof, gates arranged at circumferential intervals around said channel, means causing each of said gates to open at a predetermined point as the kiln is rotated to release the metal therefrom.
3. In a rotary kiln for treating ore comprising a rotatable shell having an ore charging entrance opening at one end and ore discharging means at the other endwith the kiln being inclined downwardly from its charging to its discharging end, means for controlling the heat throughout the length of the kiln comprising an insulated air pipe extending longitudinally through said kiln, said air pipe having a plurality of openings therein at longitudinally spaced points therealong, fuel and water'preheating lines arranged exteriorly of and attached and supporting said pipe, fuel and steam lines communicating with said preheating lines and extending through said air pipe, one of said fuel and one of said steam lines terminating at each opening in said air pipe,,and means'ex teriorly of said kiln for individually controlling the amount of fuel and steam to each line.
4. A rotary kiln for treating ore comprising a rotatable kiln shell having an ore charging port at one end and ore discharging means at the other end thereof, said shell being downwardly inclined from its ore charging to its ore discharging means, means closing the ends of said kiln, an air pipe extending longitudinally through said kiln, fuel and water lines having preheating portions thereof extending longitudinally through said kiln, said preheating portions supporting said pipe, said Water lines communicating with a casing having a plurality of steam lines leading therefrom through said air pipe, fuel lines extending into said air pipe, said air pipe having openngs into said kiln at longitudinally spaced points therealong, one of said fuel lines and one of said steam lines terminating in each of said openings, and means for individually controlling the fuel and steam through each line.
5. A rotary kiln for treating ore comprising a rotatable kiln shell having an ore charging port at one end and ore discharging means at the other end thereof, said shell being downwardly inclined from its ore charging to its ore discharging ends, means for controlling the temperature throughout the length of the kiln comprising an oxygen conducting pipe extending longitudinally through said kiln, said oxygen conducting pipe having openings into said kiln at longitudinally spaced intervals therealong, fuel mixing lines extending through said pipe and having nozzles opening through said openings into said kiln, means for individually controlling the fuel mix at each pipe opening, said fuel mixing lines supporting said air pipe within said kiln, said ore discharging means comprising an annular ore receiving channel in said kiln, ore scoops at circumferential intervals around said channel forming protuberances exteriorly of said kiln shell, ore discharge gates closing said protuberances.
6. A rotary kiln for treating ore comprising a rotatable kiln shell having an ore charging port at one end and ore discharging means at the other end thereof, said shell being downwardly inclined from its ore charging to its ore discharging ends, means for controlling the temperature throughout the length of the kiln comprising an oxygen conducting pipe extending longitudinally through said kiln, said oxygen conducting pipe having openings into said kiln at longitudinally spaced intervals therealong, fuel mixing lines extending through said pipe and having nozzles opening through said openings into said kiln, means for individually controlling the fuel mix at each pipe opening, means connected to said fuel mixing lines for supporting said air pipe within said kiln, said ore discharging means comprising an annular ore receiving channel in said kiln, ore scoops at circumferential intervals around said channel forming protuberances exteriorly of said kiln shell, ore discharge gates closing said protuberances, and means for automatically opening each of said gates at a predetermined position for releasing ore from the scoops.
7. A rotary kiln for treating ore comprising a rotatable kiln shell having an ore charging port at one end and ore discharging means at the other end thereof, means for controlling the temperature throughout the length of the kiln including an enlarged oxygen conducting pipe extending longitudinally through said kiln, said oxygen conducting pipe having openings into said kiln at longitudinally spaced intervals therealong, fuel mixing lines located substantially longitudinally and internally of the kiln, a truss brace located near the longitudinal central portion of said oxygen conducting pipe and connected about a substantially semi-circumferential portion of said oxygen conducting pipe, said truss brace supported by said fuel mixing lines, said fuel mixing lines further supporting said oxygen conducting pipe near the charging port and dischargng means, said fuel mixing lines having nozzles opening through said openings into said kiln.
References Cited in the file of this patent UNITED STATES PATENTS 401,023 Fendel Apr. 9, 1889 1,572,805 Pehrson Feb. 9, 1926 1,797,130 Coley Mar. 17, 1931 2,642,273 Dube June 16, 1953 FOREIGN PATENTS 155,240 Great Britain Sept. 22, 1921
US534040A 1955-09-13 1955-09-13 Rotary kiln type metallurgical furnace Expired - Lifetime US2850273A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3219329A (en) * 1962-04-09 1965-11-23 Phillips Petroleum Co Radiant heat drying method and apparatus
US3251137A (en) * 1962-04-09 1966-05-17 Phillips Petroleum Co Radiant drying of particulate material
US3718322A (en) * 1971-07-12 1973-02-27 Mix Mill Inc Heat treating system for grains and legumes
US3817697A (en) * 1972-12-15 1974-06-18 Combustion Eng Rotary kiln for metal chip deoiling
US4834648A (en) * 1987-09-17 1989-05-30 Angelo Ii James F Rotary calcining kiln
US4934931A (en) * 1987-06-05 1990-06-19 Angelo Ii James F Cyclonic combustion device with sorbent injection

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US401023A (en) * 1889-04-09 Territory
GB155240A (en) * 1919-12-08 1921-09-22 American Metal Co Ltd Rotary kilns
US1572805A (en) * 1925-06-15 1926-02-09 Alfred Petter Pehrson Rotary furnace
US1797130A (en) * 1929-01-18 1931-03-17 Coley Henry Edwin Reduction of ores, oxides, and the like
US2642273A (en) * 1950-08-23 1953-06-16 John B Dube Apparatus for producing lightweight aggregates

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US401023A (en) * 1889-04-09 Territory
GB155240A (en) * 1919-12-08 1921-09-22 American Metal Co Ltd Rotary kilns
US1572805A (en) * 1925-06-15 1926-02-09 Alfred Petter Pehrson Rotary furnace
US1797130A (en) * 1929-01-18 1931-03-17 Coley Henry Edwin Reduction of ores, oxides, and the like
US2642273A (en) * 1950-08-23 1953-06-16 John B Dube Apparatus for producing lightweight aggregates

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3219329A (en) * 1962-04-09 1965-11-23 Phillips Petroleum Co Radiant heat drying method and apparatus
US3251137A (en) * 1962-04-09 1966-05-17 Phillips Petroleum Co Radiant drying of particulate material
US3718322A (en) * 1971-07-12 1973-02-27 Mix Mill Inc Heat treating system for grains and legumes
US3817697A (en) * 1972-12-15 1974-06-18 Combustion Eng Rotary kiln for metal chip deoiling
US4934931A (en) * 1987-06-05 1990-06-19 Angelo Ii James F Cyclonic combustion device with sorbent injection
US4834648A (en) * 1987-09-17 1989-05-30 Angelo Ii James F Rotary calcining kiln

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