US977034A - Plate for spiral separators. - Google Patents

Plate for spiral separators. Download PDF

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US977034A
US977034A US55487110A US1910554871A US977034A US 977034 A US977034 A US 977034A US 55487110 A US55487110 A US 55487110A US 1910554871 A US1910554871 A US 1910554871A US 977034 A US977034 A US 977034A
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plate
plates
materials
slate
spiral
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US55487110A
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Frank Pardee
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ANTHRACITE SEPARATOR CO
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ANTHRACITE SEPARATOR CO
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B07SEPARATING SOLIDS FROM SOLIDS; SORTING
    • B07BSEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
    • B07B13/00Grading or sorting solid materials by dry methods, not otherwise provided for; Sorting articles otherwise than by indirectly controlled devices
    • B07B13/10Grading or sorting solid materials by dry methods, not otherwise provided for; Sorting articles otherwise than by indirectly controlled devices using momentum effects
    • B07B13/11Grading or sorting solid materials by dry methods, not otherwise provided for; Sorting articles otherwise than by indirectly controlled devices using momentum effects involving travel of particles over surfaces which separate by centrifugal force or by relative friction between particles and such surfaces, e.g. helical sorters
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S261/00Gas and liquid contact apparatus
    • Y10S261/53Valve actuation

Definitions

  • the improvement, or invention relates to spiral separators used chiefly in removing slate and bone from coal, the class or type of separator being shown and described in certain patents issued to me on July 25th, 1899.
  • the spirals are composed of a series of plates or jackets having a pitch toward the axis and also downwardly toward the outlet of the machine, and operate on the different substances by gravity, centrifugal force and frictional resistance.
  • the differential action of the operative forces is accentuated by the inward pitch and by various retarding surfaces.
  • the objects of the present improvements, or invention are to construct a plate or jacket for spiral separators, which will have surfaces adapted to form runways for the materials over a longer contact sweep and with less abrupt changes than in other forms of plate; to construct a spiral separator in which one or more of such plates are used, and to provide means for continuing the sweep on plates, in pairs; and, the invention consists in the structural features hereinafter more fully described and pointed out in the claims.
  • Figure 1 is a plan view of a pair of plates and one of the support ing rods and shows curved creases some of which are helical and others elliptical for continuing the course from one plate to the next.
  • Fig. 2 is a side edge view, Fig. 3, a peripheral edge view, and Fig. 4, a section on the line 1, 1, of Fig. 1.
  • the plates are shown in pairs, and for purposes of illustration, as well as description, the two plates or a pair, may be regarded as a unit or a jacket. So considered the surface of the plate is varied and graded according to the parts designated A, B, C,
  • the inner, the middle, and the outer surfaces designated as A, C, and E, are warped surfaces rising outwardly, on an incline or pitch of a proportion about four and onehalf inches to the foot.
  • the second and fourth surfaces B, and D may be plane surfaces rising outwardly, on an incline of a proportion, about one and one-half inches to the foot.
  • the supporting rod, F is adapted to the varying inclinations of the plate by suitable bends as shown, and it enters the central post G as indicated in Fig. 1.
  • the plates are secured to the rod F by screws or bolts with nuts f passing through holes 9, the lower edge of one plate overlapping the upper edge of the next lower plate.
  • the boundaries between the plane and the warped surfaces are formed by helical creases a, and elliptical creases b.
  • the helical crease a is preferably formed from the under side of the metal, while the elliptical are or creases b, I), are preferably formed from the upper side of the metal.
  • the helical arcs a, a are shorter and when formed as stated, they present a ridge with which the materials must come in contact and when the outer and longer elliptical crease b is reached by the materials, they come in contact with a steeper warped surface.
  • the lighter materials such as bone and coal readily pass outwardly beyond the inner arcs or curved formations, and the coal passes beyond the larger elliptical formations, and the interruptions caused by the creases and the included surfaces of the plate slow up the bone and slate when on them.
  • the sweep which is in part tangential, turns inwardly and its length permits a retardation which gives to the force of gravity an action equal to or greater than that of the centrifugal force on the passing heavier materials.
  • the creases a, and b converge near the upper edge of the upper plate of the pair, and have the greatest divergence at the lower edge of the upper plate of the pair. At this point the creases also have their reatest divergence on the lower unit or acket, and converge again at the lower edge of the same as shown. While this arrangement is preferred it is not essential. It however gives a free passage of materials from one pair of plates to the surfaces A, C, and E, receiving materials from a plate above.
  • the coal may pass to a separate coal-thread not shown, the plate, as shown, being intended for what is known as a slate-thread in a spiral separator.
  • the surface E may, if desired, be widened and provided with a flange so as to form a coal-run on the same threa
  • the several materials are given a lengthened sweep by the guiding action of the curved edge contours of the retarding surfaces, B and D.
  • Each kind of material will be led to the course needed for separating purposes, and if bone or slate gets beyond the runway to which it belongs, the curved outer edge or contour of the retarding surfaces will guide the material inwardly so that it will soon be returned to its proper place by a change of direction.
  • a suitably supported plate said plate being graduated with varied degrees of axial incllnation along radial lines and comprising retarding surfaces forming runways for the heavier materials, said surfaces having creased curved perimeters whereby the heavier substances may be retarded and guided helically and inwardly.
  • a spiral separator plate said plate being graduated with varied degrees of axial inclination along radial lines whereby the general inclination of said plate is varied thereby forming runways for different materials, said plate also comprising retarding surfaces having creased curved p'erimeters by which the heavier substances may be retarded and guided helically and inwardly.
  • a suitably supported pair of plates said plates comprlsing runways for different materials and with curved creases diverging on one of said plates and converging on the other for neutralizing the centrifugal force, and whereby the heavier materials may be retarded and guided helically and inwardly.

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Description

P. PARDEE.
PLATE FOR SPIRAL SEPARATORS. APPLICATION FILED APR. 11, 1910.
977,034; Patented Nov. 29, 1910.
WITNESSES. I I/VVENTUR 4 TTORNEY STATES PATENT OFFICE.
FRANK PARIDEE, 0F HAZLETON, PENNSYLVANIA, ASSIGNOR TO ANTHBACITE SEPARATOR COMPANY, A CORPORATION OF PENNSYLVANIA.
Specification of Letters Patent.
Patented Nov. 29, 1910.
Application filed April 11, 1910. Serial No. 554,871.
10 all whom "it may concern:
Be it known that I, FRANK PARDEE, a citizen of the United States, residing in Hazleton, county of Luzerne, and State of Pennsylvania, have invented certain new and useful Improvements in Plates for Spiral Separators, of which the following is a specification, reference being had to the accompanying drawings.
The improvement, or invention, relates to spiral separators used chiefly in removing slate and bone from coal, the class or type of separator being shown and described in certain patents issued to me on July 25th, 1899. The spirals are composed of a series of plates or jackets having a pitch toward the axis and also downwardly toward the outlet of the machine, and operate on the different substances by gravity, centrifugal force and frictional resistance. The differential action of the operative forces is accentuated by the inward pitch and by various retarding surfaces. These constructive features, and the length of the spiral have been relied on for giving the slate the inside course, the bone a middle course, and the coal the outside course.
The objects of the present improvements, or invention, are to construct a plate or jacket for spiral separators, which will have surfaces adapted to form runways for the materials over a longer contact sweep and with less abrupt changes than in other forms of plate; to construct a spiral separator in which one or more of such plates are used, and to provide means for continuing the sweep on plates, in pairs; and, the invention consists in the structural features hereinafter more fully described and pointed out in the claims.
In the drawings Figure 1, is a plan view of a pair of plates and one of the support ing rods and shows curved creases some of which are helical and others elliptical for continuing the course from one plate to the next. Fig. 2, is a side edge view, Fig. 3, a peripheral edge view, and Fig. 4, a section on the line 1, 1, of Fig. 1.
The plates are shown in pairs, and for purposes of illustration, as well as description, the two plates or a pair, may be regarded as a unit or a jacket. So considered the surface of the plate is varied and graded according to the parts designated A, B, C,
D, and E, and these surfaces vary in degree of axial inclination along radial lines. The inner, the middle, and the outer surfaces designated as A, C, and E, are warped surfaces rising outwardly, on an incline or pitch of a proportion about four and onehalf inches to the foot. The second and fourth surfaces B, and D, may be plane surfaces rising outwardly, on an incline of a proportion, about one and one-half inches to the foot. The supporting rod, F, is adapted to the varying inclinations of the plate by suitable bends as shown, and it enters the central post G as indicated in Fig. 1. The plates are secured to the rod F by screws or bolts with nuts f passing through holes 9, the lower edge of one plate overlapping the upper edge of the next lower plate.
The boundaries between the plane and the warped surfaces are formed by helical creases a, and elliptical creases b. The helical crease a, is preferably formed from the under side of the metal, while the elliptical are or creases b, I), are preferably formed from the upper side of the metal. In this formation the helical arcs a, a, are shorter and when formed as stated, they present a ridge with which the materials must come in contact and when the outer and longer elliptical crease b is reached by the materials, they come in contact with a steeper warped surface. The shorter curves at, being nearer the axis than the curves 6, aid in keeping the slate near the post from working outward. The lighter materials such as bone and coal readily pass outwardly beyond the inner arcs or curved formations, and the coal passes beyond the larger elliptical formations, and the interruptions caused by the creases and the included surfaces of the plate slow up the bone and slate when on them. The sweep, which is in part tangential, turns inwardly and its length permits a retardation which gives to the force of gravity an action equal to or greater than that of the centrifugal force on the passing heavier materials.
The creases a, and b, converge near the upper edge of the upper plate of the pair, and have the greatest divergence at the lower edge of the upper plate of the pair. At this point the creases also have their reatest divergence on the lower unit or acket, and converge again at the lower edge of the same as shown. While this arrangement is preferred it is not essential. It however gives a free passage of materials from one pair of plates to the surfaces A, C, and E, receiving materials from a plate above. The intervening surfaces B, and D, bounded by the helical and elliptical creases a and b retard moving materials not too much affected by centrifugalforce, and the interruptions are especially applicable to the slate and bone, which are made to con tinue their movement in a curve and the tendency is to keep them along the runways A, B, for the slate, and C, D, for the bone. The coal may pass to a separate coal-thread not shown, the plate, as shown, being intended for what is known as a slate-thread in a spiral separator. But the surface E, may, if desired, be widened and provided with a flange so as to form a coal-run on the same threa In a plate having formations as stated, the several materials are given a lengthened sweep by the guiding action of the curved edge contours of the retarding surfaces, B and D. Each kind of material will be led to the course needed for separating purposes, and if bone or slate gets beyond the runway to which it belongs, the curved outer edge or contour of the retarding surfaces will guide the material inwardly so that it will soon be returned to its proper place by a change of direction. While the outer and inner edge contours of the retarding surfaces B and D are shown as being curved, variations may, nevertheless, be made within reasonable limits by substituting retarding surfaces having angular edge contours so disposed as to perform the same or equivalent functions. The coal being lighter and less subject to frictional resistance and retardation than either slate or bone will develop suflicient centrifugal power to carry it over or around or between the retarding surfaces until it passes beyond the slate and bone runs.
I do not herein claim broadly a plate having graduated runway surfaces with varied degrees of axial inclinations, nor such a plate comprising plane and warped surfaces as the same are subject-matter of another application executed by me on even date herewith and filed herewith as Serial Number 554,870; but,
Having thus described my invention, what I claim as new and desire to secure by Letters Patent is:
1. In a spiral separator, a suitably supported plate, said plate being graduated with varied degrees of axial incllnation along radial lines and comprising retarding surfaces forming runways for the heavier materials, said surfaces having creased curved perimeters whereby the heavier substances may be retarded and guided helically and inwardly.
2. A spiral separator plate, said plate being graduated with varied degrees of axial inclination along radial lines whereby the general inclination of said plate is varied thereby forming runways for different materials, said plate also comprising retarding surfaces having creased curved p'erimeters by which the heavier substances may be retarded and guided helically and inwardly.
3. In a spiral separator, a suitably supported pair of plates, said plates comprlsing runways for different materials and with curved creases diverging on one of said plates and converging on the other for neutralizing the centrifugal force, and whereby the heavier materials may be retarded and guided helically and inwardly.
FRANK PARDEE.
Witnesses:
ANNA W. WETTERAU, LILLIAN SAUNDERS.
US55487110A 1910-04-11 1910-04-11 Plate for spiral separators. Expired - Lifetime US977034A (en)

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