US708187A - Magnetic separator. - Google Patents
Magnetic separator. Download PDFInfo
- Publication number
- US708187A US708187A US7329901A US1901073299A US708187A US 708187 A US708187 A US 708187A US 7329901 A US7329901 A US 7329901A US 1901073299 A US1901073299 A US 1901073299A US 708187 A US708187 A US 708187A
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- Prior art keywords
- gap
- magnetic
- scraper
- separated
- poles
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B03—SEPARATION 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
- B03C—MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03C1/00—Magnetic separation
- B03C1/02—Magnetic separation acting directly on the substance being separated
- B03C1/035—Open gradient magnetic separators, i.e. separators in which the gap is unobstructed, characterised by the configuration of the gap
Definitions
- My present invention consists in another form of I apparatus operating upon the same general principle, but of different specific construction.
- Serial No. 73,298 I have described and claimed another form of apparatus, likewise embodying the same general principle, but of different specific construction. I 1
- Figurel represents a vertical section of an apparatus embodying my present invention, a portion of the electromagnet being shown in eleva tion.
- Fig. 2 represents a top plan View of the apparatus.
- Fig. 3 represents a transverse section of the scraper mechanism on theline 3 3 of Fig. 1.
- A indicates a vat or tank adapted to receive water, which is designed to maintain substantially the level indicated in Fig. 1.
- the coil B of the electromagnet is exterior to the vat or tank A, so as to be out of contact with the water therein.
- Its core is provided with flat extensions D D, each of which is expanded at its outer end and is provided thereat with the segment S, of semicircular contour, so as to surround the cylindricalpole-pieces E E of the magnet, which are clamped in place by means of the lugs s and clamping-bolts t, as shown more fully in Fig. 2.
- the opposing ends of the tubular pole-pieces are preferably pointed or wedge-shaped, as shown, so as to concentrate the lines of magnetic force across the interpolar space or gap between them, and at suitable intervals in their periphery the magnetic material composing them is cut away and the removedscctions are replaced by like sections b b, of brass or other nonmagnetic material, of the general configuration of triangular prisms having their broadest bases opposite each other, with the resultant effect of still further concentrating the lines of magnetic force across the interpolar spaces between the intervening sections of magnetic material.
- a vertical shaft Within the interior of the hollow pole-pieces is located a vertical shaft, whose lower portion F is square in cross-section and fits within a correspondingsquared step g, so as to have a capacity for vertical adjustment within said step while being held against rotation.
- the shaft F carries the distributingconeG and is screw-threaded at its upper portion H, so as to be capable of adjustment up and down by means of-the nut d.
- the cone is provided with suitable cover-plates or wings 6, arranged opposite the non-magnetic sections 1), so as to restrict the feed of the material to those portions of the interpolar space or gap opposite the magnetic portions of. the polar projections.
- a rotary scraper consisting of a series of scraper-blades'm, of brass or other nonmagnetic material. These blades may conveniently be hinged to a rotatory shell or band L, running in ball-bearings, as shown, and receiving a movement of rotation by means of a bandor ropef, driven from the pulley K from any suitable source of power. Exterior to the scraper-blades m is arranged a circular pipe S, adapted to receive a supply of water under pressure from a supply-pipe T and having a series of jet-apertures, as shown, directed into the interpolar space or gap.
- the receiving-hopper P for the nonattracted particles or tailings, and hoppers M N serve to receive the attracted magnetic particles or heads, as will hereinafter more fully appear. All of the hoppers are preferably provided with discharge gates, as shown.
- the operation of the apparatus is as follows:
- the material to be separated is supplied to the interior of the hollow magnetpole E and is distributed by the cone G to the interpolar spaces between the magnetic portions of E E.
- the rotary scraper is put in operation and water is supplied to the annular pipe S and is directed in the form of jets into the mass of material as it enters the interpolar spaces.
- the magnetic particles are thereupon attracted and detained in the interpolar spaces, and the non-attracted particles entangled therein are Washed out under the influence of the force of the jets and the dissolving action of the water and sink into the hopper P.
- the attracted particles detained in the interpolar spaces are carried along by the scrapers until theyenter the spaces intervening between the non-magnetic sections 1) b, whereupon, being removed from the fields of magnetic force, they are released, the major portion of them falling into hoppers N and those that have crept beyond the ridge of the pointed pole-pieces falling into the hopper M.
- the operation is designed to be a continuous one, the material to be separated being constantly supplied to the interior of the upper magnet-pole during the revolution of the scrapers and the continuance of the water-jets.
- My invention is particularly applicable to the treatment of fines, which are difficult of separation by ordinary forms of apparatus. It is not, however, restricted to this use, but may be employed for the separation of material of any suitable size or mesh.
- a magnetic separator comprising hollow tubular magnet-poles, separated by aninterpolar space or gap traversed by the magnetic lines of force, a distributing-cone Within the upper pole for directing the material to be separated into said gap, a water-jet pipe whose jet-orifices are directed into the gap, and a scraper operating in the gap; substantially as described.
- a magnetic separator comprising hollow tubular magnet-poles, separated by an interpolar space or gap traversed by the magnetic lines of force, a distributing-cone within the upper pole for directing the material to be separated into said gap, a water-jet pipe whose jet-orifices are directed into the gap, and a scraper operating in the gap, said scraper consisting of a series of scraper-blades mounted upon a rotatable carrier-ring; substantially as described.
- a magnetic separator comprising hollow tubular magnet-poles, separated by an interpolar space or gap traversed by the magnetic lines of force, a distributing-cone within the upper pole for directing the material to be separated into said gap, a Water-jet pipe whose jet-orifices are directed into the gap, and a scraper operating in the gap, said scraper consisting of a series of scraper-blades mounted upon a rotatable carrier-ring, said ring being carried by the upper tubular magnet and the scraper-blades beinghinged thereto; substantially as described.
- a magnetic separator comprising hollow tubular magnets, separated by an interpolar space or gap traversed by the magnetic lines of force, said poles being provided with alternate magnetic and non-magnetic zones or sections along their peripheries, a distributing-cone within the upper pole for directing the material to be separated into the magnetic portions of the gap, a water-jet pipe exterior to the gap and whose jet-orifices are directed inwardly into the gap, and scraperblades operating within the gap; substantially as described.
- Amagneticseparator comprisinghollow tubular magnets, separated by an interpolar space or gap traversed by the magnetic lines of force, said poles being provided with alternate magnetic and non-magnetic zones or sections along their peripheries, a distributing-cone within the upper pole for directing the material to be separated intothe magnetic portions of the gap, a Water-jet pipe exterior to the gap and Whose jet-orifices are directed inwardly into the gap, scraper-blades operating within the gap, a receiving-hopper for tailings arranged below the hollow interior of the magnet, and receiving-hoppers for heads arranged opposite the non-magnetic sections of the poles; substantially as described.
- a magnetic separator comprising two hollow tubular magnet-poles, separated by an interpolar space or gap traversed by the magnetic lines of force, means for feeding the material to be separated to said gap from within the magnet, an outlying annular water-jet pipe having its jet-orifices directed inwardly into the gap, a scraper operating within the gap, and suitable receiving-hoppers for the heads and tailings; substantially as described.
- a magnetic separator provided with hollow tubular magnet-poles, separated by an interpolar space or gap traversed by the magnetic lines of force, the upper of said poles serving as a feed-hopper to the gap, said poles being clamped within laterally-projecting extensions of the magnet-core; substantially as described.
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- Water Treatment By Electricity Or Magnetism (AREA)
Description
No. 708,187; Patented Sept 2, 19.02.
. .1. P. WE THERILL. MAGNETIC SEPARATUR.
\ (Application filed Aug. 26, 1901.3
(No Model.) 2 Sheets-Sheet UNITED STAT S PATENT OFFICE.
JOHN PRICE WETHERILL, OF SOUTH BETHLEHEM, PENNSYLVANIA.
MAGNETIC SEPARATOR.
SPEQIFICATION formingpart of Letters Patent No. 708,187, dated September 2, 1902.
Application filed August 26, 1901. Serial No. 73,299. (No model.) I
To all whom it may concern.-
Be it known that I, JOHN PRI E WETH- ERILL, a citizen of the United States, residing at South Bethlehem, county of Northampton, and State of Pennsylvania, haveinvented cer tain new and useful Improvements in Magnetic Separators; and I do hereby declare the following to be a full, clear, and exact description of the invention,such as will enable others skilled inthe art to which it appertains to make and use the same.
Man application for Letters Patent of the United States. filed of even date herewith, Serial No.73,297,l have described and claimed, broadly, an apparatus for effecting the magnetic separation of fines and other ore mixtures containing magnetic and relatively nonmagnetic or diamagnetic material by the ex pedient of feeding the material to be separated into the interpolar space or gap formed tween two magnet-poles, Washing out by the aid of Water-jets the non-attracted material,
and removing and separately collecting the material magnetically detained in the interpolar space by means of scraper-blades. My present invention consists in another form of I apparatus operating upon the same general principle, but of different specific construction. In still another application, also filed of even date herewith, Serial No. 73,298, I have described and claimed another form of apparatus, likewise embodying the same general principle, but of different specific construction. I 1
In the accompanying drawings, Figurel represents a vertical section of an apparatus embodying my present invention, a portion of the electromagnet being shown in eleva tion. Fig. 2 represents a top plan View of the apparatus. Fig. 3 represents a transverse section of the scraper mechanism on theline 3 3 of Fig. 1.
Similar letters of referenceindicate similar parts throughoutthe several views.
Referring to the drawings, A indicates a vat or tank adapted to receive water, which is designed to maintain substantially the level indicated in Fig. 1. The coil B of the electromagnet is exterior to the vat or tank A, so as to be out of contact with the water therein. Its core is provided with flat extensions D D, each of which is expanded at its outer end and is provided thereat with the segment S, of semicircular contour, so as to surround the cylindricalpole-pieces E E of the magnet, which are clamped in place by means of the lugs s and clamping-bolts t, as shown more fully in Fig. 2. The opposing ends of the tubular pole-pieces are preferably pointed or wedge-shaped, as shown, so as to concentrate the lines of magnetic force across the interpolar space or gap between them, and at suitable intervals in their periphery the magnetic material composing them is cut away and the removedscctions are replaced by like sections b b, of brass or other nonmagnetic material, of the general configuration of triangular prisms having their broadest bases opposite each other, with the resultant effect of still further concentrating the lines of magnetic force across the interpolar spaces between the intervening sections of magnetic material.
Within the interior of the hollow pole-pieces is located a vertical shaft, whose lower portion F is square in cross-section and fits within a correspondingsquared step g, so as to have a capacity for vertical adjustment within said step while being held against rotation. The shaft F carries the distributingconeG and is screw-threaded at its upper portion H, so as to be capable of adjustment up and down by means of-the nut d. The cone is provided with suitable cover-plates or wings 6, arranged opposite the non-magnetic sections 1), so as to restrict the feed of the material to those portions of the interpolar space or gap opposite the magnetic portions of. the polar projections.
Within the interpolar space or gap is arranged a rotary scraper consisting of a series of scraper-blades'm, of brass or other nonmagnetic material. These blades may conveniently be hinged to a rotatory shell or band L, running in ball-bearings, as shown, and receiving a movement of rotation by means of a bandor ropef, driven from the pulley K from any suitable source of power. Exterior to the scraper-blades m is arranged a circular pipe S, adapted to receive a supply of water under pressure from a supply-pipe T and having a series of jet-apertures, as shown, directed into the interpolar space or gap. At the bottom of the lower pole-piece is located the receiving-hopper P for the nonattracted particles or tailings, and hoppers M N serve to receive the attracted magnetic particles or heads, as will hereinafter more fully appear. All of the hoppers are preferably provided with discharge gates, as shown.
The operation of the apparatus is as follows: The material to be separated is supplied to the interior of the hollow magnetpole E and is distributed by the cone G to the interpolar spaces between the magnetic portions of E E. At the same time the rotary scraper is put in operation and water is supplied to the annular pipe S and is directed in the form of jets into the mass of material as it enters the interpolar spaces. The magnetic particles are thereupon attracted and detained in the interpolar spaces, and the non-attracted particles entangled therein are Washed out under the influence of the force of the jets and the dissolving action of the water and sink into the hopper P. The attracted particles detained in the interpolar spaces are carried along by the scrapers until theyenter the spaces intervening between the non-magnetic sections 1) b, whereupon, being removed from the fields of magnetic force, they are released, the major portion of them falling into hoppers N and those that have crept beyond the ridge of the pointed pole-pieces falling into the hopper M. It will of course be understood that the operation is designed to be a continuous one, the material to be separated being constantly supplied to the interior of the upper magnet-pole during the revolution of the scrapers and the continuance of the water-jets.
My invention is particularly applicable to the treatment of fines, which are difficult of separation by ordinary forms of apparatus. It is not, however, restricted to this use, but may be employed for the separation of material of any suitable size or mesh.
Having thus fully described my invention, what I claim is 1. A magnetic separator, comprising hollow tubular magnet-poles, separated by aninterpolar space or gap traversed by the magnetic lines of force, a distributing-cone Within the upper pole for directing the material to be separated into said gap, a water-jet pipe whose jet-orifices are directed into the gap, and a scraper operating in the gap; substantially as described.
2. A magnetic separator, comprising hollow tubular magnet-poles, separated by an interpolar space or gap traversed by the magnetic lines of force, a distributing-cone within the upper pole for directing the material to be separated into said gap, a water-jet pipe whose jet-orifices are directed into the gap, and a scraper operating in the gap, said scraper consisting of a series of scraper-blades mounted upon a rotatable carrier-ring; substantially as described.
3. A magnetic separator, comprising hollow tubular magnet-poles, separated by an interpolar space or gap traversed by the magnetic lines of force, a distributing-cone within the upper pole for directing the material to be separated into said gap, a Water-jet pipe whose jet-orifices are directed into the gap, and a scraper operating in the gap, said scraper consisting of a series of scraper-blades mounted upon a rotatable carrier-ring, said ring being carried by the upper tubular magnet and the scraper-blades beinghinged thereto; substantially as described.
4. A magnetic separator, comprising hollow tubular magnets, separated by an interpolar space or gap traversed by the magnetic lines of force, said poles being provided with alternate magnetic and non-magnetic zones or sections along their peripheries, a distributing-cone within the upper pole for directing the material to be separated into the magnetic portions of the gap, a water-jet pipe exterior to the gap and whose jet-orifices are directed inwardly into the gap, and scraperblades operating within the gap; substantially as described.
5. Amagneticseparator,comprisinghollow tubular magnets, separated by an interpolar space or gap traversed by the magnetic lines of force, said poles being provided with alternate magnetic and non-magnetic zones or sections along their peripheries, a distributing-cone within the upper pole for directing the material to be separated intothe magnetic portions of the gap, a Water-jet pipe exterior to the gap and Whose jet-orifices are directed inwardly into the gap, scraper-blades operating within the gap, a receiving-hopper for tailings arranged below the hollow interior of the magnet, and receiving-hoppers for heads arranged opposite the non-magnetic sections of the poles; substantially as described.
6. A magnetic separator, comprising two hollow tubular magnet-poles, separated by an interpolar space or gap traversed by the magnetic lines of force, means for feeding the material to be separated to said gap from within the magnet, an outlying annular water-jet pipe having its jet-orifices directed inwardly into the gap, a scraper operating within the gap, and suitable receiving-hoppers for the heads and tailings; substantially as described.
7. A magnetic separator, provided with hollow tubular magnet-poles, separated by an interpolar space or gap traversed by the magnetic lines of force, the upper of said poles serving as a feed-hopper to the gap, said poles being clamped within laterally-projecting extensions of the magnet-core; substantially as described.
In testimony whereof I afiix my signature in presence of two witnesses.
JOHN PRICE WETHERILL.
\Vitnesses:
CHAS. WETHERILL, J. STACY BROWN.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US7329901A US708187A (en) | 1901-08-26 | 1901-08-26 | Magnetic separator. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US7329901A US708187A (en) | 1901-08-26 | 1901-08-26 | Magnetic separator. |
Publications (1)
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US708187A true US708187A (en) | 1902-09-02 |
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US7329901A Expired - Lifetime US708187A (en) | 1901-08-26 | 1901-08-26 | Magnetic separator. |
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1901
- 1901-08-26 US US7329901A patent/US708187A/en not_active Expired - Lifetime
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