US1150669A - Device for treating ores. - Google Patents

Device for treating ores. Download PDF

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US1150669A
US1150669A US86505014A US1914865050A US1150669A US 1150669 A US1150669 A US 1150669A US 86505014 A US86505014 A US 86505014A US 1914865050 A US1914865050 A US 1914865050A US 1150669 A US1150669 A US 1150669A
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inner receptacle
outer casing
walls
ore
ores
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US86505014A
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James Alexander Fleming
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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
    • C22B3/00Extraction of metal compounds from ores or concentrates by wet processes
    • C22B3/02Apparatus therefor

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  • My invention relates to improvements in devices for treating .ores, especially those devices in which ores are leached by chemicals for the purpose of extracting valuable minerals contained therein, and it consists in the combinations, constructions and arrangement of parts hereinafter described and claimed.
  • An object of my invention is to provide a device in which the ores are treated to the leaching action and the lixiviate containing the valuable metal is then separated from the remaining portions of the ore by a filter or screen, and in which there is no possi-' bility of the filter becoming clogged up, since it is constructeu to be self-cleaning.
  • a further object of my invention is to provide a rotary ore treating device of the type described in which the liquid reagent is introduced through the trunnions of the device and is also withdrawn through the trunnions, thus providing for the charging and withdrawal of the liquid reagent'without bringing the ore container to rest.
  • a further object of my invention is to pro- Vide a device of the type described in which the lixiviate after being separated from the ore body may be treated by electrical means 7 so as to cause a precipitation of the more valuable metals by electrolysis.
  • a further object of my invention is to provide a device ofthe type described in which the lixiviate may be removed by vacuum means.
  • an outer casing 1 which is preferably of cylindrical. shape, and which is provided with integral hollow trunnions 2 and 3 respectively.
  • the trunnion 2 is supported in v Specification of Letters Eatent.
  • FIG. 1 have shown it as being provided with a threaded flange These double perforated walls are indicated at 10 and 11 respectively. They extend to the bottom of the main casing 1, as shown.
  • An inner cover 12 is provided having a portion 13, which extends between the walls 10 and 11, and which is threaded to be'screwed into position so as to render the devige steam tight.
  • Extending through the hollow trunnion 2 is an intake pipe 14 whose end terminates in the interior of the inner cylinder.
  • a st-ufiing box 15 is provided for preventing the escape of liquid air or steam, as will be explained hereinafter.
  • the intake pipe 1 1 communicates with a stationary feed pipe 14", a slip joint 14* being provided for perinitting the rotation of the pipe i l with respect to the fixed pipe 14".
  • the hollow trunnion 3 has a rotatable pipe 16 which extends through the trunnion and then is bent downwardly and extends in the space between the outer wall 1 and the adjacent wall 10.
  • This pipe 16 passes through a packing gland or box 17, and is secured to a fixed suction pipe 16 by means of a slipjoint 16 similar to the joint 149'.
  • a cathode 18 is provided which communicates by means of a conductor 19 with a contact ring 20 disposed on the exterior of the trunnion 3.
  • An anode 21 is disposed at the opposite side of the tank and is connected to a lead wire 22 which is connected to a conducting ring 23 disposed on the trunnion 2.
  • any suitable filtering material 25 such as pebbles, or in case itis desirable to deposit the valuable metal on the filtering material other filteringmeans may be used, thus if the device is used for cyaniding gold ores by means of cyanid of potassium, zinc? shavings may be used and the gold may be deposited upon the zinc shavings while the solution is passing through them.
  • the space between the walls 10 and 11 is filled with the filtering medium and then the tops 12 and 9 are replaced in the order mentioned, care being taken to screw these tops down tight in order to prevent leakage.
  • handles 26 which may be of the form shown in Fig.
  • the filtering medium consists of pebbles and that it isthe lixiviate that is to be afterward treated for recovering metals.
  • the liquid reagent may be introduced through the pipes 149 and 14 into the interiorOf the inner cylinder.
  • the receptacle as a Whole is now revolved by any suitable means, such as by a drive gear 27 which is in mesh with the gear 28 on the power shaft 29.
  • the crushed ore air or steam may be forced through the pipes 14* and 14.
  • the perforations in the walls 11 tend to I clog up but'themovement of the ore body as the device revolves tends to clean the wall 11 so as to permit the free flow of the liquid thcrethrough. This point is of importance since it obviates unnecessary delays in cleaning the filter.
  • the liquid which 1 is passed through the walls 10 into the space between the latter and the outer casing 1 may now be drawn off by means of the pipes 16 and 16 and another charge of the reagent may be introduced until all the valuable metalliccontents of the charge of ore has been extracted.
  • the device may be tilted so as to discharge the remnant of the fore through the manhole 30, a manhole cover 31 being provided fornor-- mally keeping said manhole closed.
  • the device should be used for cyaniding gold both the remnant of the ore from which the metal has been extracted and also the zinc shavings may be removed, the former by opening the manhole and the latter by re.-
  • a device for treating ores an outer casing, an inner receptacle disposed Within said casing and spaced therefrom, said inner receptacle having double perforated walls, the space between said double perforated walls being arranged to contain a granular material, means for introducing a liquld into the interior of the inner receptacle and means for withdrawing liquid fromv the. space between the inner receptacle and the outer casing.
  • an outer casing an inner receptacle disposed within said casing and spaced therefrom, said inner receptacle having double perforated walls arranged to receive a granular material, means fdr revolving said outer casner receptacle having double perforated walls, a filtering medium disposed between said double perforated walls, means for re 'volving said outer casing and said inner receptacle, means for introducing a liquid reagent into the interior of said inner receptacle during the revolution of the latter, and means for withdrawing liquid from Hie space between the inner receptacle and the outer casing.
  • the current comes through the con r1ng'23 by means of a brush 23 and forated walls, said inner receptacle being spaced from said outer casing, a filtering medium disposed between the perforated walls of the inner receptacle; a pipearranged to pass through one of said hollow trunnions for conveying a liquid reagent casing provided with hollow trunnions, an
  • inner receptacle provided with double perforated walls, said inner receptacle being spaced from said outer casing, a filtering medium disposed between the perforated walls of the inner receptacle, a pipe arranged to pass through one of said hollow trunnions for conveying a liquid reagent into the interior of the inner receptacle, a suction pipe ar 'anged to pass through the other trunnion and being in communication with the space between the outer casing and the outer wall of the inner receptacle, and removable covers at one end of said device for said inner receptacle and said outer casing.
  • inner receptacle provided with double perforated walls, said inner receptacle being spaced from said outer casin a filtering medium disposed between the walls of the inner receptacle,-a pipe arranged to pass through one of said hollow trunnions for conveying a liquid reagent into the interior of the inner receptacle, a suction pipe arranged to pass through the other trunnion and being in connniuiication with the space between the outer casing and the outer wall of the inner receptacle, removable covers at one end of said device for said inner receptacle and said outer casing, a cathode disposed in the space between the outer casing and the outer wall of the inner receptacle on one side of the device, an anode in the correspomling space on the other side of the device, and means for connecting said anode and said cathode with asource of current.

Description

1. A. FLEMINGL DEVICE FOR TREATING ORES.
APPLICATION FILED OCT. 5,1914.
Patented Aug. 17, 1915.
WITNESSES ATTORNEYS "UTED STATES PATENT onn on.
nuns ALEXANDER FLEMING, or GLOBE, Amber.
DEVICE FOR TREATING ORES.
To all whom it may concern Be it known that 1, Jaime A. FLEMING, a citizen of the United States, and a resident of Globe, in the county of Gila and State of Arizona, have made certain new and useful Improvements in Devices for Treating Ores, of which the following is a specification.
My invention relates to improvements in devices for treating .ores, especially those devices in which ores are leached by chemicals for the purpose of extracting valuable minerals contained therein, and it consists in the combinations, constructions and arrangement of parts hereinafter described and claimed.
An object of my invention is to provide a device in which the ores are treated to the leaching action and the lixiviate containing the valuable metal is then separated from the remaining portions of the ore by a filter or screen, and in which there is no possi-' bility of the filter becoming clogged up, since it is constructeu to be self-cleaning.
A further object of my invention is to provide a rotary ore treating device of the type described in which the liquid reagent is introduced through the trunnions of the device and is also withdrawn through the trunnions, thus providing for the charging and withdrawal of the liquid reagent'without bringing the ore container to rest.
A further object of my invention is to pro- Vide a device of the type described in which the lixiviate after being separated from the ore body may be treated by electrical means 7 so as to cause a precipitation of the more valuable metals by electrolysis.
A further object of my invention is to provide a device ofthe type described in which the lixiviate may be removed by vacuum means.
Other objects and advantages will appea in the following specification, and the novel features of the device will be particularly pointed out in the appended claims.
My invention is illustrated in the accompanying drawings forming part of this application in which- 7 Figure 1 is a central vertical section through the device, and Fig. 2 is a section along the line 2-2 of Fig. 1.
In carrying out my invention Imakeuse of an outer casing 1 which is preferably of cylindrical. shape, and which is provided with integral hollow trunnions 2 and 3 respectively. The trunnion 2 is supported in v Specification of Letters Eatent.
Patented Aug. 1'7, 1915.
Application filed October 5, 1914. Serial No. 865,050.
suitable bearings 4 carried upon a base 5, while the trunnion 3is also supported upon bearings .6 upon a base 7.
7 As will be observed from Fig. 1 a bottom Sis provided for the cylinder 1, while atop 9 is also provided. This top may be secured i to the outer cylindrical casing 1 in any suitable manner. In the drawings 1 have shown it as being provided with a threaded flange These double perforated walls are indicated at 10 and 11 respectively. They extend to the bottom of the main casing 1, as shown. An inner cover 12 is provided having a portion 13, which extends between the walls 10 and 11, and which is threaded to be'screwed into position so as to render the devige steam tight. j
Extending through the hollow trunnion 2 is an intake pipe 14 whose end terminates in the interior of the inner cylinder. A st-ufiing box 15 is provided for preventing the escape of liquid air or steam, as will be explained hereinafter. The intake pipe 1 1 communicates with a stationary feed pipe 14", a slip joint 14* being provided for perinitting the rotation of the pipe i l with respect to the fixed pipe 14".
1 The hollow trunnion 3 has a rotatable pipe 16 which extends through the trunnion and then is bent downwardly and extends in the space between the outer wall 1 and the adjacent wall 10. This pipe 16 passes through a packing gland or box 17, and is secured to a fixed suction pipe 16 by means of a slipjoint 16 similar to the joint 149'. A cathode 18 is provided which communicates by means of a conductor 19 with a contact ring 20 disposed on the exterior of the trunnion 3. An anode 21 is disposed at the opposite side of the tank and is connected to a lead wire 22 which is connected to a conducting ring 23 disposed on the trunnion 2.
From the foregoing description of the various parts of the device the operation thereof may be readily understood.
In the use of the device the outer and innor covers 9 and 12 respectively are removed whilethe device is in the position shown in Fig.1,zj "Emely crushed ore 25 moving the cover 12.
' is introduced into the interior of the inner the cylindrical walls 10 and 11 is now filled with any suitable filtering material 25 such as pebbles, or in case itis desirable to deposit the valuable metal on the filtering material other filteringmeans may be used, thus if the device is used for cyaniding gold ores by means of cyanid of potassium, zinc? shavings may be used and the gold may be deposited upon the zinc shavings while the solution is passing through them. In any event the space between the walls 10 and 11 is filled with the filtering medium and then the tops 12 and 9 are replaced in the order mentioned, care being taken to screw these tops down tight in order to prevent leakage. To this end I may provide handles 26 which may be of the form shown in Fig.
1 or of any other suitable form. Let us assuine that the filtering medium consists of pebbles and that it isthe lixiviate that is to be afterward treated for recovering metals. The liquid reagent may be introduced through the pipes 149 and 14 into the interiorOf the inner cylinder. The receptacle as a Whole is now revolved by any suitable means, such as by a drive gear 27 which is in mesh with the gear 28 on the power shaft 29. In order to cause the liquid reagent to thoroughly permeate" the crushed ore air or steam may be forced through the pipes 14* and 14. As the device revolves and the liquid reagent permeates through the ore it dissolves out the precious metal contents and passes through the perforated plates, and through =the filtering medium into the space between the outer casing 1 and the cylinder 10. Usually in devices of this kind the perforations in the walls 11 tend to I clog up but'themovement of the ore body as the device revolves tends to clean the wall 11 so as to permit the free flow of the liquid thcrethrough. This point is of importance since it obviates unnecessary delays in cleaning the filter. The liquid which 1 is passed through the walls 10 into the space between the latter and the outer casing 1 may now be drawn off by means of the pipes 16 and 16 and another charge of the reagent may be introduced until all the valuable metalliccontents of the charge of ore has been extracted. When this occurs the device may be tilted so as to discharge the remnant of the fore through the manhole 30, a manhole cover 31 being provided fornor-- mally keeping said manhole closed. In case the device should be used for cyaniding gold both the remnant of the ore from which the metal has been extracted and also the zinc shavings may be removed, the former by opening the manhole and the latter by re.-
q -e apparatus. To this end I pron. he cathode i8 and the anode 21 as stated.
ducting thence to the anode 21. From this point it passes through the body of the ore and the reagent to the cathode l8 and thence by conductor 19 to the ring 20 and out by the brush 2O".v The metal thus deposited on the cathode. This may occur While the de- Woe is being revolved, or may be done While the device is standing st1ll. The stufiing boxes 15 and 17 prevent leakage of the liquid reagent or of the steam or air past the pipes lal and 1G, whilerat the same time permitting the revolution of the trunnions 2 and 3 in their bearings.
1. In a device for treating ores, an outer casing, an inner receptacle disposed Within said casing and spaced therefrom, said inner receptacle having double perforated walls, the space between said double perforated walls being arranged to contain a granular material, means for introducing a liquld into the interior of the inner receptacle and means for withdrawing liquid fromv the. space between the inner receptacle and the outer casing.
2. In a device for treating ores, an outer casing, an inner receptacle disposed within said casing and spaced therefrom, said inner receptacle having double perforated walls arranged to receive a granular material, means fdr revolving said outer casner receptacle having double perforated walls, a filtering medium disposed between said double perforated walls, means for re 'volving said outer casing and said inner receptacle, means for introducing a liquid reagent into the interior of said inner receptacle during the revolution of the latter, and means for withdrawing liquid from Hie space between the inner receptacle and the outer casing.
4. In a device for treating ores, an outer casing provided with hollow trunnions, an inner receptacle provided with double per-" if desirable, it
e done without stopping the f The current comes through the con r1ng'23 by means of a brush 23 and forated walls, said inner receptacle being spaced from said outer casing, a filtering medium disposed between the perforated walls of the inner receptacle; a pipearranged to pass through one of said hollow trunnions for conveying a liquid reagent casing provided with hollow trunnions, an
inner receptacle provided with double perforated walls, said inner receptacle being spaced from said outer casing, a filtering medium disposed between the perforated walls of the inner receptacle, a pipe arranged to pass through one of said hollow trunnions for conveying a liquid reagent into the interior of the inner receptacle, a suction pipe ar 'anged to pass through the other trunnion and being in communication with the space between the outer casing and the outer wall of the inner receptacle, and removable covers at one end of said device for said inner receptacle and said outer casing.
(3. In a device for treating ores, an outer casing provided with hollow .trunnions, an
inner receptacle provided with double perforated walls, said inner receptacle being spaced from said outer casin a filtering medium disposed between the walls of the inner receptacle,-a pipe arranged to pass through one of said hollow trunnions for conveying a liquid reagent into the interior of the inner receptacle, a suction pipe arranged to pass through the other trunnion and being in connniuiication with the space between the outer casing and the outer wall of the inner receptacle, removable covers at one end of said device for said inner receptacle and said outer casing, a cathode disposed in the space between the outer casing and the outer wall of the inner receptacle on one side of the device, an anode in the correspomling space on the other side of the device, and means for connecting said anode and said cathode with asource of current.
JAMES ALEXANDER FLEMING.
HARRY TALLON perforated
US86505014A 1914-10-05 1914-10-05 Device for treating ores. Expired - Lifetime US1150669A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4269619A (en) * 1976-05-14 1981-05-26 Kerr-Mcgee Chemical Corporation Ilmenite beneficiation process and a digester method

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4269619A (en) * 1976-05-14 1981-05-26 Kerr-Mcgee Chemical Corporation Ilmenite beneficiation process and a digester method

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