US856611A - Process of separating or classifying ores. - Google Patents

Process of separating or classifying ores. Download PDF

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US856611A
US856611A US281882A US1905281882A US856611A US 856611 A US856611 A US 856611A US 281882 A US281882 A US 281882A US 1905281882 A US1905281882 A US 1905281882A US 856611 A US856611 A US 856611A
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particles
water
ores
ore
separating
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US281882A
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Herbert E Wetherbee
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WILLIAM RATTLE
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WILLIAM RATTLE
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03BSEPARATING SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS
    • B03B5/00Washing granular, powdered or lumpy materials; Wet separating
    • B03B5/62Washing granular, powdered or lumpy materials; Wet separating by hydraulic classifiers, e.g. of launder, tank, spiral or helical chute concentrator type
    • B03B5/623Upward current classifiers

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  • My invention relates to methods of separating or classifying ores, and particularly to methods of separating or classifying a mixture of ores of dverent specific gravities into the constituent ores.
  • My improved process has as its object the more thorough and economical separation of such ores.
  • Fig. 2 represents a plan view of the same
  • Fig. 3 represents a plan view of a central revoluble member
  • Fig. 4 represents a perspective view of the latter
  • Fig. 5 represents a horizontal section taken upon the plane indicated by the lines 55, Fig. 1.
  • My improved method of separating a mixture of orcs into constitl'ient ores may be characterized broadly as consisting in subjecting the mixed ore to the action of a rotary current of liquid of such a strength that the lighter ore particles are just kept in suspension thereby while the heavier particles are allowed to gradually settle through the liquid under the influence of the force of gravity.
  • annular s ace the upper portion J of which is elongatet and intermediate of the casing A and said revoluble member.
  • This portion J of said space I shall designate by the term sorting column, the latter comprising the space in which the sorting of the ore is cil'ccted and, as will hereinafter appear, forms a conduit for u wardly flowing liquid.
  • That portion of sait space intermediate of the boss (1 and the conical bottom B I shall designate by the term settling chamber.
  • the lattcr comprises that portion of the annular space into which the sorted material settles and from which it is removed.
  • the rcvolublc member D is connected to a suitable driving spindle (1 through which rotation is givcn to curved distributing shelves (1?, one of the latter being located between each two contiguous wings; and a lower bearing flange (1
  • the upper hollowportion of the central element d receives a feed-pipe E which is held'centered by means of a spider F having three arms f 1 suitably secured to the casing A.
  • the feedpipe E is threaded into the spider F and is secured therein by means of a suitable jam-nut H, so that the pipe can be raised or lowered.
  • the upper hollow part of the cylindrical element d is provided with outlets d, the lower extremities of which'are flush with the top surfaces of the distributing shelves d", as plainly shown in Fig. 1.
  • the size of the 0 en portions of such side outlets d is contro led by the height at which the feed-pipe E is' maintained.
  • a suitable source water is supplied to a pressure chamber M and is thence fed through an annular inlet m into a chamber K formed between the wall of the bottom-portion B and the boss C, and lying immediately below the chamber J.
  • the floor In of the chamber K is formed into a helicalshaped sluice-way around the boss C.
  • a suitable discharge pipe from the chamber K' is designated at it and the rate of discharge therethrough is controlled by the insertion therein of a diaphragm k of any desired size.
  • the lower end of the sluice-way 7c terminates some distance short of the central vertical plane of the discharge pipe k and the inner end of the latter is bent so as to. connect with said sluice-way, as plainly shown in Fig. 5.
  • a suitable oil-feed Fig. 1, is provided for lubricating the bearing surface between the flange (1* of the member D and the boss C.
  • a receptacle or launder L is rovided for receiving the lighter ore which is separated out from the mixture.
  • the inner revoluble member D is driven at the proper speed, which depends upon the character of the material being treated, as will hereinafter appear. While such member D is thus more or less rapidly rotated, the ores to be separated are fed into the central element d of the member through the feed-pipe E, the height of which controls the size of the open portions of apertures (i and finally escapin over the top of such cas- .ing into the launder L. To this ascending annular column of water the blades (1 of rotating member D impart a corres ondlng motion of rotation so that the water oes not flow in a direct but in a helical upward course.
  • the rate of rotation of the member- D the rates of flow of water through inlet opening m and helical sluice-way k to discharge pipe W, and the consequent rate of upward flow around member D, can all be kept under constant control and regulated as desired; so that, if upon examination of the resultant products being discharged at the bottom and top of the device, the separation is found to be unsatisfactory, the error can be continuously corrected until the ore of desired weight or kind is obtained. In this manner a continuous flow of part of the water is allowed in an upward direction and simultaneously a Continuous flow of another part in a second direction.
  • a rapidly rotating annular column of water having a general up- -ward flow is roduced throughout substaning portion of the device may be termed a sorting column.
  • a sorting column Obviously the plane of de- A marcation between the settling chamber different.
  • the Iprocess of separating or classifying ores whic consists in forming a rapidly rotating annular column of water; subjecting the same to pressure from below, whereby an upward helical flow is produced; centriftwally projecting the ore into said column 0 -water; and momentarily retarding the ore at the external surface of the column, thus causing the rotating water to select and carry upward the lighter ore particles.

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  • Separation Of Solids By Using Liquids Or Pneumatic Power (AREA)

Description

PATENTED JUNE 11, 1907.
H. E. WETHERBEB. PROCESS OF SEPARATING OR GLASSIFYING 0m.
APPLICATION FILED 00T.9, 1906.
2 SHEETS-SHEET 1' M MM a n A A0 //v VT/VTOR; 775mm iwvawau/ v 0 m m "I. a
.- mar No. 856,611. PATENTED JUNE 11, 1907. H. E. WETHERBEB.
PROCESS OF SEPARATING OR ULASSIFYING ORES.
APPLIUATIDN FILED 0GT.9 1905.
2 SHEETS-SHEET 2.
MTNESSES:
' UNITED STATES PATENT OFFICE.
.TWENTIETHS TO WILLIAM BATTLE, ONE EIGHTH TO JAMES F.
.LEITCH, AND SEVEN-FORTIETHS TO CYRUS W. MERRELL, ALL OF CLEVELAND, OHIO.
PROCESS OF SEPAFlA TING OR CLASSIF'YING ORES.
Specification of Letters Patent.
Patented June 11,1907.
Original application filed March 27, 1905, Serial No. 252,132. Divided and this application filed October 9, 1905. ri 11 281,882.
To all whom it may concern:
Be it known that I, HERBERT E. VVETHER- BEE, a citizen of the United States, and a resident of Cleveland, county of Cuyahoga, State of Ohio, have invented a new and useful Improvement in Processes of Separating or Class sifying Ores, of which the following is a specification, the principle of the invention being herein explained and the best mode in which I have contemplated applying that principle so as to distinguishit from other inventions.
My invention relates to methods of separating or classifying ores, and particularly to methods of separating or classifying a mixture of ores of diilerent specific gravities into the constituent ores.
My improved process has as its object the more thorough and economical separation of such ores.
Said invention consists of steps hereinafter fully described and specifically set forth in the claims.
The annexed drawings and the following description set forth in detail one mode of carrying out the invention, such disclosed mode constituting but one of various ways in which the principle of the invention may be used. I
In said annexed drawings :Figure 1 rep.- resents a central vertical section of one form of apparatus designed to carry out my improved process; Fig. 2 represents a plan view of the same; Fig. 3 represents a plan view of a central revoluble member; Fig. 4 represents a perspective view of the latter; and Fig. 5 represents a horizontal section taken upon the plane indicated by the lines 55, Fig. 1.
The subject-matter of this application has been divided out of my prior application for United States Letters Patent for an improve ment in methods of separating or classifying ores andmeans for use in same, filed l\larch 27, 1905, Serial No. 252,132 and continued in application lilcd March 25, 1907, Serial No. 364,283.
My improved method of separating a mixture of orcs into constitl'ient ores may be characterized broadly as consisting in subjecting the mixed ore to the action of a rotary current of liquid of such a strength that the lighter ore particles are just kept in suspension thereby while the heavier particles are allowed to gradually settle through the liquid under the influence of the force of gravity.
Simultaneously with the subjection of the ore to the action of such rotary current it is subjected to the action of an upwardly flowing current of a strength su'llicient to wash out the lighter particles thus held in suspension, which upwardly flowing current, however, is not strong enough to prevent the settling of the heavier particles.
Having thus indicated in a general way the character of the o eration I shall now proceed with a more dietailed description of one approved way of carrying out the same. In such description reference will be had to the specific form of apparatus illustrated in the several figures of the drawings. Having regard, then, to such figures, A will be seen to designate an open-topped casing preferably of the cylindrical form shown, secured to the lower end of said casing is a bottom member B of inverted conical shape thatis centrally provided with a large upwardly extending oss C. Upon the bearing surface furnished by this boss is revolubly mounted an inner.
revoluble member D. The revoluble mem-v ber D and cylindrical boss C together form an.
annular s ace the upper portion J of which is elongatet and intermediate of the casing A and said revoluble member. This portion J of said space I shall designate by the term sorting column, the latter comprising the space in which the sorting of the ore is cil'ccted and, as will hereinafter appear, forms a conduit for u wardly flowing liquid. That portion of sait space intermediate of the boss (1 and the conical bottom B I shall designate by the term settling chamber. The lattcr comprises that portion of the annular space into which the sorted material settles and from which it is removed. The rcvolublc member D is connected to a suitable driving spindle (1 through which rotation is givcn to curved distributing shelves (1?, one of the latter being located between each two contiguous wings; and a lower bearing flange (1 The upper hollowportion of the central element d receives a feed-pipe E which is held'centered by means of a spider F having three arms f 1 suitably secured to the casing A. The feedpipe E is threaded into the spider F and is secured therein by means of a suitable jam-nut H, so that the pipe can be raised or lowered. The upper hollow part of the cylindrical element d is provided with outlets d, the lower extremities of which'are flush with the top surfaces of the distributing shelves d", as plainly shown in Fig. 1. The size of the 0 en portions of such side outlets d is contro led by the height at which the feed-pipe E is' maintained. From a suitable source water is supplied to a pressure chamber M and is thence fed through an annular inlet m into a chamber K formed between the wall of the bottom-portion B and the boss C, and lying immediately below the chamber J.
As plainly shown in Fig. 5, the floor In of the chamber K is formed into a helicalshaped sluice-way around the boss C. A suitable discharge pipe from the chamber K' is designated at it and the rate of discharge therethrough is controlled by the insertion therein of a diaphragm k of any desired size. The lower end of the sluice-way 7c terminates some distance short of the central vertical plane of the discharge pipe k and the inner end of the latter is bent so as to. connect with said sluice-way, as plainly shown in Fig. 5.
- A suitable oil-feed, Fig. 1, is provided for lubricating the bearing surface between the flange (1* of the member D and the boss C. A receptacle or launder L is rovided for receiving the lighter ore which is separated out from the mixture.
In the utilization of the apparatus just described, for the carrying out of my improved process, the inner revoluble member D is driven at the proper speed, which depends upon the character of the material being treated, as will hereinafter appear. While such member D is thus more or less rapidly rotated, the ores to be separated are fed into the central element d of the member through the feed-pipe E, the height of which controls the size of the open portions of apertures (i and finally escapin over the top of such cas- .ing into the launder L. To this ascending annular column of water the blades (1 of rotating member D impart a corres ondlng motion of rotation so that the water oes not flow in a direct but in a helical upward course. The rotation of member D; in-addition to imparting the above described rotary motion to the stream ofv water, also serves at the same time to centrifugally discharge the material, as it. emerges through apertures (1 horizontally into the ascending stream of water that fills the aforesaid annular space intermediate of said member and casing.
As was stated preliminarily in the general description of my process, the heavier ore particles upon which the force of gravity acts more strongly than the power of the rotating current to keep the same in suspension, gradually settle through the water to the bottom of the casing where they are removed through discharge pipe K. The rate of discharge through the outlet thus provided is of course regulated by the insertion of a dia phragm k of proper size or by such other means as might suggest themselves as being suitable for this purpose. The water that is prevented from escaping through saidoutlet necessarily must travel the upward helical course around member D. Now the water that is admitted through annular inlet m from pressure chamber M is admitted at just such a pressure as is suflicient to enable that art thereof which flows through the annuar space between said member D and the casing to wash out the lighter ore particles that are kept in suspension by the rotation imparted to the u wardly ascending stream. Such lighter particles, bein swept by the water over the upper edge 0% the casing and into launder L, it will be seen arev thus separated from the heavier particles. It will be noted that the rate of rotation of the member- D, the rates of flow of water through inlet opening m and helical sluice-way k to discharge pipe W, and the consequent rate of upward flow around member D, can all be kept under constant control and regulated as desired; so that, if upon examination of the resultant products being discharged at the bottom and top of the device, the separation is found to be unsatisfactory, the error can be continuously corrected until the ore of desired weight or kind is obtained. In this manner a continuous flow of part of the water is allowed in an upward direction and simultaneously a Continuous flow of another part in a second direction. By combining the effects of these two currents with the effect of the rotary member, a rapidly rotating annular column of water having a general up- -ward flow is roduced throughout substaning portion of the device may be termed a sorting column. Obviously the plane of de- A marcation between the settling chamber different.
and sorting column will approximately coincide with that of the lower edge of rotating member D.
It need scarcely be remarked that the words separation and separator, as employed herein, are used in their ordinary or general significance. Technically speaking my invention may be used either as a separator or as a classifier. In using, for example, that form of my invention just illustrated and described as a se ara'tor the material fed into the machine wou d have been previously sized by screens. The result of the operationin this case is the segregation of particles having ,diflerent specific gravities as will be evident. In using the machine as a classifier, the material is fed thereto without being screened and the two segregated products will respectively comprise particles having equal settling capacities under free settling conditions. It is of course understood that if in the handling of any particular material such substitution should be found desirable, other liquids than water may be used in the machine.
The actual separation of the ore takes place in the column and, it would appear, upon the inner surface of the casing which serves momentarily to retard the material as it is centrifugally projected outward from the revoluble member, and thus to cause the rotating water to select and carry upward the lighter particles of such material. It is immaterial whether the movement of the particles thus retarded be regarded as a function of the rotation of the current or directly of revoluble member D. In conclusion the following distinction is to be noted between my method of separation and that illustrated under ordinary free settling conditions, such as are found, for example,
in the several types of classifiers at present on the market, namely that the ratios of the settling powers, or capacities, of the respective classes of ore particles are widely Under ordinary free settling ma. ditions, by way of illustration, two particles of unlike specific gravities but of about the same size will in a given length of time each fall a given distance, such distance representing the velocity of a rising current that will just lift them. In order to separate these particles in an ordinary classifier the velocity of the rising current must be between the respective limits of fall assumed above to have been attained by such particles. By my method of separation the two particles can be subjected to a force, that of the rotary current, which can be so regulated as to practically retain the lighter of the two particles in suspension, while the heavier particle settles a certain assumed distance. In order now to separate these particles the slightest upward flow of current will suffice, since it will wash out the suspended particle while reducing only very slightly the rate of descent of the other particle. Regulation of the velocity of the rising current is consequently here to be had from zero to a very small current, whereas under the conditions first described such regulation must needs be between a fast and faster current. This result is a very important one when it is considered that the transporting power of the current, or the -weight of the largest particle that it can carry, varies as the sixth power of the velocity. A much greater nicety of regulation is hence to be had by my method, and the economical separation of ores in this manner made possible that have never heretofore been successfully dressed in the manner contemplated.
Having thus described my invention, that which I particularly point out and distinctly claim is:
1. The Iprocess of separating or classifying ores whic consists in forming a rapidly rotating annular column of water; subjecting the same to pressure from below, whereby an upward helical flow is produced; centriftwally projecting the ore into said column 0 -water; and momentarily retarding the ore at the external surface of the column, thus causing the rotating water to select and carry upward the lighter ore particles.
2. The process of separating or classifying ores which consists in forming a rapidly rotating annular column of water; subjecting the same to hydrostatic pressure from below, whereby an upward helicalfiow is produced; centrifu ally projecting the ore into said column of water intermediate of its length and at substantially the same speed of rotation; and momentarily retarding the ore at the external surface of the column, thus causing the rotating water to select and carry upward the lighter ore particles.
3. The process of separating or classifying ores which consists in forming a rapidly re- ICC iward out of the ring the particles of the 10 g'lighter class; and removing the particles i which sink against the upward flow.
' Signed by me, this 220 day of Sept., 1905.
HERBERT E. WETHERBEE.
tztting annular column of Water; subjecting the same to hydrostatic pressure from below, whereby an upward helical flow is produced; centrifugally projecting the ore into said} column of Water intermediate of its length and at substantially the same speed of ro- I tation; momentarilyretarding the ore at the Attested by' external surface of the column,-thus causing I D. T. DAVIEs, the rotating Water to select and carry up- JNo. F. OBERLIN.
US281882A 1905-03-27 1905-10-09 Process of separating or classifying ores. Expired - Lifetime US856611A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2422203A (en) * 1942-10-12 1947-06-17 Harry L Mcneill Specific gravity separation of solids in liquid suspension
US2533074A (en) * 1948-04-12 1950-12-05 Colorado Iron Works Co Rotary ore concentrator
US2700468A (en) * 1948-04-14 1955-01-25 Stamicarbon Centrifugal method and apparatus for separating solids
US2777577A (en) * 1951-03-12 1957-01-15 Harry L Mcneill Ore concentration and apparatus therefor

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2422203A (en) * 1942-10-12 1947-06-17 Harry L Mcneill Specific gravity separation of solids in liquid suspension
US2533074A (en) * 1948-04-12 1950-12-05 Colorado Iron Works Co Rotary ore concentrator
US2700468A (en) * 1948-04-14 1955-01-25 Stamicarbon Centrifugal method and apparatus for separating solids
US2777577A (en) * 1951-03-12 1957-01-15 Harry L Mcneill Ore concentration and apparatus therefor

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