US2136540A - Separating machine - Google Patents

Separating machine Download PDF

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US2136540A
US2136540A US37418A US3741835A US2136540A US 2136540 A US2136540 A US 2136540A US 37418 A US37418 A US 37418A US 3741835 A US3741835 A US 3741835A US 2136540 A US2136540 A US 2136540A
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cylinder
separating
wall
deforming
base
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Clarence A Brock
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B04CENTRIFUGAL APPARATUS OR MACHINES FOR CARRYING-OUT PHYSICAL OR CHEMICAL PROCESSES
    • B04BCENTRIFUGES
    • B04B9/00Drives specially designed for centrifuges; Arrangement or disposition of transmission gearing; Suspending or balancing rotary bowls
    • B04B9/12Suspending rotary bowls ; Bearings; Packings for bearings
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B04CENTRIFUGAL APPARATUS OR MACHINES FOR CARRYING-OUT PHYSICAL OR CHEMICAL PROCESSES
    • B04BCENTRIFUGES
    • B04B5/00Other centrifuges
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B04CENTRIFUGAL APPARATUS OR MACHINES FOR CARRYING-OUT PHYSICAL OR CHEMICAL PROCESSES
    • B04BCENTRIFUGES
    • B04B9/00Drives specially designed for centrifuges; Arrangement or disposition of transmission gearing; Suspending or balancing rotary bowls
    • B04B9/08Arrangement or disposition of transmission gearing ; Couplings; Brakes
    • 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
    • Y10S494/00Imperforate bowl: centrifugal separators
    • Y10S494/902Imperforate bowl: centrifugal separators involving the use of mercury

Definitions

  • gold may be found in pay dirt and which pay dirt usually consists of sand or gravel through which free particles of gold may be present, or it may be found embedded in rock or rock-like formations. It will be understood” that the gold may be separated from pay dirt by the use of the present invention directly after the pay dirt has been subjected to the conventional screening operations to remove the boulders and pebbles, but where the gold is found embedded in rock the rock must be subjected to the usual pulverizing operations before the gold particles are subject to separation therefrom by the use of the present invention.
  • a centrifugally operated separator embodying a rotating separating wall or surface, in combination With improved means for deforming or Working the separating wall to thereby work the material being operated upon and facilitate the depositing of the heavier particles in the material upon the wall;
  • the separating wall is approximately cylindrical in shape and is supported upon a relatively 50 rigid basemember and the deforming means a'ct progressively in degree from the supporting base to the top of the cylinder;
  • the separating wall structure is formed of a rubber and fabric composition which is self-sustaining but is deformableby the action of the deforming means;
  • the deforming means comprises cylindrical members, adjustably and rotatably mounted, and in continuous engagement approximately throughout their length with the separating wall; in which the deforming rolls are driven by their engagement with the externally driven separating wall; in which the surfaces of the deforming rolls are tilted at an angleto the cooperating surface of the separating Wall when in non-deformed state so that the deforming action increases successively from the supported end of the wall to
  • FIG. 1 For purposes of the present invention, the rotating separating wall and cooperating rotating deforming rolls are housed within an enclosure; in which the material to be separated is deposited into the separating cylinder from the top of the machine and is received upon a rotating table, which rotates with the separating wall; in which the refuse material or gangue passes out of the separating cylinder at the open end thereof; and in which the machine enclosure is provided with suitable discharge openin gs to discharge the gangue.
  • a centrifugally operated separator embodying a separating cylinder having flexible walls, and one or more rolls for driving the cylinder and for deforming the wall to thereby keep the bulk material being worked upon in a loose condition to thereby facilitate the separation; in which one or more additional deforming means are provided for supplementing the action of the driving deforming roll or rolls; and in which one or more deforming means are provided which may be manually adjusted to deform the wall to an abnormal extent to facilitate the scaling from the separating wall of a collected mass of concentrate.
  • Fig. l is an external view in elevation with certain of the parts broken away, of one embodiment of the present invention.
  • Fig. 2 is a view in front elevation, partly in section, taken along the line 2-2 of Fig. 1;
  • Fig. 3 is a view in horizontal section taken along the line 33 of Fig. 2;
  • Fig. 4 is a view in horizontal section taken along the line 4-4 of Fig. 2;
  • Fig. 5 is a view in horizontal section of a second embodiment of the present invention.
  • Fig. 6 is a view in vertical central section of said second embodiment taken along the line 6-6 of Fig. 5;
  • Fig. '7 is a view in end elevation of a third embodiment of the present invention.
  • Fig. 8 is a view in vertical central section taken along the line 8-8 of Fig. '7;
  • Fig. 9 is a view in vertical section of a fourth embodiment of the present invention.
  • Fig. 10 is a top plan view of a fifth embodiment of the present invention.
  • Fig. 11 is a view taken along the line llll of Fig. 10.
  • one embodiment of the present invention comprises generally an outer casing, the top of which is partially enclosed, but is provided with an opening from which a funnel depends and through which the material to be separated is introduced,
  • a rotatable separating cylinder having its axis vertically disposed, is disposed within the casing, and is supported at its lower end upon a rigid base which is provided with a shaft having suitable bearings in the casing base.
  • the upper end of the separating cylinder is open, but is provided with an annular flange which extends inwardly somewhat from the side thereof, to insure that all of the concentrate separated out from the bulk material is retained within the cylinder and that none of it passes out of the top of the cylinder with the refuse material or gangue.
  • the separating cylinder is formed of resilient material, preferably a composition rubber and fabric, thick enough to be of a self-supporting character but resilient enough to be deformable by each of a series of deforming rolls, which are disposed in peripheral engagement therewith at spaced points around the cylinder.
  • Each of the deforming rolls comprises generally a mandrel having a somewhat resilient casing, preferably made of the same material as the walls of the separating cylinder, and rotatably supported upon a normally fixed eccentric shaft or spindle.
  • the eccentric shaft is normally secured against rotation in a bracket extending upwardly from the face of the machine base, but may be released and rotated to vary the axial spacing between the associated roll and the separating cylinder either to vary the degree of deformation of separating cylinder or to compensate for wear.
  • the rolls are in continuous engagement throughout their length with the outside of the wall of the separating cylinder, and are driven by such engagement in response to the rotation of the separating cylinder, thus dispensing with the need of additional driving mechanism for the deforming rolls.
  • a feature of the present invention is the arrangement of the deforming mechanism to provide a successively increasing deformation from the base of the separating cylinder to the top of it.
  • the base of the cylinder as previously mentioned, is secured to the relatively rigid supporting and rotating base, and by reducing the deformation at such lower end to a minimum, the life of the separating cylinder has been found to be substantially prolonged.
  • the reduced deformation in this part of the cylinder provides a sufficient working of the deposited material to insure it being maintained in a loose state.
  • the deformation is increased. This increase does not adversely affect the supporting cylinder, since it occurs at a part of the wall which is at some distance from the rigid supporting base.
  • the progressive deformation is effected by tilting the axes of the separating cylinder and of the deforming rolls with respect to each other, the separating cylinder axis being vertical and the deforming roll axes being slightly off vertical.
  • the material to be operated upon which may be either wet or dry, is deposited through the funnel at aaeaseo the top of thexcasing, and .is received upon artabl'e or stool carried uponzand'rotating .withithe separating cylinder base.
  • the rotating table Upon being-depositedzupon the rotating table, such material is thrown 'out wardly by centrifugal "force against the-walls eof the separating cylinder.
  • the heavier particles of the material are forced outwardly, .and the lighter gangue particles :are retained 2nearer the axis of the cylinder, as will abeunderstood.
  • the separation progresses, the accumulated bulk material is flattened out :and caused to :climb :up the walls of the cylinder, "finally :reaching the top thereof, at which point the .gangue or :refuse material is discharged through the :open :upper end of the cylinder and falls through the casing and is discharged through the opening in the base of it.
  • the inwardly extending :annular shoulder. at the top of the separating wall rprevents the escape of the concentrated heavier'particles.
  • Tthfl rotation of the separating "cylinder effects *a corresponding rotation of the deforming rolls, :a plurality of which, as previously stated, are distributed around the former.
  • These deforming rolls effect an inward and outward flexing of the resilient separating cylinder wall, thus effecting a'working and loosening of the rbulk material forced against such walls by the :centrifugal action.
  • This deforming or working action which "is progressive from a minimum at the base of the cylinder to a maximum atthetop ofthe cylinder, keeps the material in a relativelyloose and free condition, facilitating the outward movement of the heavier particles therethrough-to the separating wall.
  • separating action is conducted continuously, in accordance with the preferred practice of the present invention, until such time as it may be expected'that'the concentrate will 'be deposited upon the separating'wall to a desired 'or'to substantially no greaterthickness of the previously mentioned annular flange at the upper end of the cylinder.
  • uicksilver is introduced through the funnel and forced, .byethe centrifugal action, through the mass of :deposited material Where it meets with and -amalgamates with the separated ore.
  • the quicksilver Upon stopping the :rotation of the separating cylinder, the quicksilver, carrying with it the separated ore, runs downwardly by gravity along the side walls of the separating cylinder, along the centrally sloping space of the cylinder, and out through an repening provided through the cylinder shaft, where it may be collected in any suitable receptacle.
  • a second embodiment of the present invention illustrated in Figs. 5 and 6 the independently supported deforming rolls .-described in connection with the first embodiment are replaced by a corresponding series :of .deforming rollers, the axle shafts of which are rigid and embedded and supported by the walls of the separating cylinder.
  • the deforming rollers extend upwardly from the upper or discharge end of the separating cylinder and are disposed to be acted upon and successivelymoved radially inwardly of the cylinder by a stationaril-y mounted cam track, causing a like movement :of their axle shafts and, consequently, a. like movement of the :walls of the separating cylinder at the copenend'thereof.
  • JII] all other respects the construction and operation :of this embodiment of the :invention may be as described in connection with the first embodiment.
  • the separating cylinder is disposed with its axis horizontaLandthe materialto be separated is introducedrat the axial center thereof by an inwardly extending supply pipe or spout.
  • the cylinder is driven 'by-adeforming rollhaving its axis parallel with that .of the cylinder, and which is driven from a-suitable external source.
  • a series of additional deforming rolls are provided around the periphery of the cylinder to supplement the action of the main driving and deforming roll.
  • One or more of such "additional deforming rolls may be adjustable, .to permit a manual or other movement thereof inwardly to an abnormal extent, thus causing an abnormal'inward flexing of the cylinder walls, to assist in the scaling off of the deposited concentrate.
  • a fourth illustrated embodiment of the present invention illustrated in Fig. 9 the construction is generally the same as described in connection with the first embodiment, with the exception that the material is initially directed on to the wall of the separating cylinder at the upper end thereof, and is discharged at the lower end thereof.
  • a replaceable, .fiexible liner is inserted'into thecylinder.
  • this replaceable, flexible liner may also be advantageously used in connection with the other embodiments.
  • a multiple type separating machine embodying a plurality of simultaneously driven separating cylinders.
  • the respective cylinders are in peripheral engagement, so that by driving one of themgthe entire 'group rotates synchronously.
  • the axial spacing between the several cylinders is :such that their mutual engagement results in the previously described deformation. of the walls thereof, thus working the walls of the cylinders as they rotate.
  • the axes of the separating cylinders may be parallel to each other, .for simplicityandeconomy in manufacture and operation, it is preferred to construct the cylinders so-that the diameters thereof'are greater at their lower ends than at their upper ends, so that the deforming action is'progressive from one end to the other, as described in connection with the first embodiment.
  • the relative positions of the respectivecylinders are adjustable to take up wear, and to also modify the deforming action.
  • the casing 20 which may be conveniently'formed ofsheet metal, is supported on a pair of I sections 22.
  • Three of the side walls of casing 20 are continuous.
  • the fourth side wall is cut away adjacent the base and, with the outwardlyextending-lip 2 30f the casing base, forms a discharge chute 2d.
  • the chute 24 permits the gangue dischargedover the top of the separating cylinder, as later described, to pass out of the casing.
  • the top “of casing "20 is enclosed except for a central opening in which a funnel 28 is secured by the bolts 38. Funnel 28 extends downwardly within the casing 28 a substantial distance.
  • the side walls of casing 28 are preferably lined with a resilient'wear resisting member 26 formed of rubber or like material, and readily replaceable.
  • the separating cylinder 32 comprises generally the continuous cylindrical wall 34, which is resilient, and is preferably formed of a composition rubber and fabric, of suflicient thickness that the wall is self-supporting, but is deformable by the action of the deforming rolls 36.
  • the wall 84 is supported upon a rigid base plate 38, the peripheral edge of whichis provided with a rim which presents a vertical supporting surface 48 and a lip 4I.
  • the wall 34 is secured to the base 38 by bolts 42 and clamping plates 44.
  • the fabric portion of the wall 34 is preferably provided with a relatively thick coating or layer of resilient rubber on both sides to take the actual wear of the material being worked upon on.
  • the base plate 38 is rigidly secured by a plurality of studs such as 46 upon the upper and outwardly flared end of a hollow shaft 48.
  • the shaft 48 in turn is rotatably supported by the radial and thrust ball bearing units 58 and 52 within a boss-like housing 54 rigidly secured by the studs 56 within a corresponding opening formed in the base of the casing 28.
  • the ball bearing units are retained in position by the spacing sleeve 58 and the end plates 88 and 62.
  • the threaded collar 61 and shoulder 69 on shaft 48 secure the latter against vertical movement in the housing 54. Suitable seals, such as 64, 66 and 68, are provided to prevent the escape of lubricant from within the housing 54.
  • a pulley I8 is secured by key 12 upon the lower end of shaft 48, and may be driven from a suitable source (not shown) through the belting I4. It will be evident that rotation of shaft 48 correspondingly rotates base plate 38 and the separating cylinder 32. This rotation preferably occurs at a constant rate, although a variable rate may be used if desired, and it will be understood that the rate of rotation is determined by the character of the bulk material being worked upon.
  • the bulk material to be worked upon is introduced through the funnel 28 and initially deposited upon a table or stool 88, which has a substantially plane upper surface and a plurality or depending legs 82 which space it from and through which it is secured upon the upper surface of the base plate 38 by the previously mentioned studs 48.
  • the legs 82 are disposed in suitably placed relation around table 88, leaving spaces between them, through which the concentrate is drained off at the conclusion of a separating operation.
  • the ore drained off between the legs 82 passes downwardly through the opening 86 formed in base plate 38, and through the hollow shaft 48, where it may be collected in any suitable receptacle such as 88 (Fig. 1).
  • Suitable means are preferably forming rolls at an angle to each other.
  • Each of the deforming rolls 36 preferably includes a resilient outer surface or sleeve 98, which may be formed of the same type of rubber fabric composition as the separating wall 34.
  • Each sleeve 98 is fitted over a cored-out mandrel 92, and secured in place thereon by studs 94.
  • Each sleeve 98 is fixed longitudinally of its corresponding mandrel 92 by the outwardly extending lower shoulders 96 of the latter, and by the platev 98 which is secured at the upper end thereof.
  • Each mandrel 92 is rotatably supported upon a shaft or spindle I88 by means of a.
  • each spindle I88 is secured upon or formed integrally in eccentric relation with a cylindrical standard I84, which is rotatably adjustably secured to the base of the casing 28 within a split bracket I86.
  • a tightening stud I88 is provided to clamp or release the standard I84 in the split bracket I88, whereby to rigidly secure the standard I84 therein or to permit rotation thereof.
  • rotation of standard I84 moves the associated deforming roll 36 closer to or farther from the separating wall 34, thus correspondingly increasing or decreasing the deforming effect thereof, and permitting compensation for wear occurring between the sleeves 98 and wall 34 to be made.
  • each of the deforming rolls 36 is independently adjustable.
  • the deforming action of the deforming rolls 36 is progressive from the base of the separating wall to the upper end thereof, and this relation is preferably effected by having the axis of the separating wall and of the de-
  • the outer surface of the separating wall 34 is normally cylindrical, its axis is vertically disposed, and the axes of the deformin rolls are tilted somewhat from the vertical.
  • the positioning of each deforming roll is preferably such that at the lowest point of engag ment between the corresponding sleeves 98 and the separating wall 34, the deforming action is at a minimum. Due to the tilt, however, a maximum deforming action is effected at the point of highest engagement between each deforming roll 36 and the separating wall 34, which deforming action increases successively between such minimum and maximum limits.
  • the particles to be separated out being heavier than the bulk of the material, is moved through the material and is deposited against the inner surface of the wall 34, while the refuse material is retained nearer wardly sloping upper surface the center of the separating cylinder.
  • the deposited. material accumulates, it is gradually forced upwardly around" the wall 34, and ultimately is discharged over the upper open end thereof, and falls by gravity to the base of the casing 20, from which it is discharged through the previously described opening 24.
  • the material within the cylinder assumes an outlines somewhat as indicated by the line I20, which. outline is on an angle substantially greater, with respect to'a horizontal plane, than the normal. angle of repose of the aggregate.
  • the deforming of the wall 34 keeps the aggregate material in a relatively loose condition, facilitating the passage of the heavy particles therein through it.
  • the deforming action being decreased progressively as the base of the cylinder is reached, causes substantially no flexing of the Wall 34 at the point of connection thereof to the base plate 38.
  • a rigid plate 38 may be used without causing undue wear of the side walls 34'; Normally, the tendency of the aggregate material to become solid and packed increases when the top of the cylinder is approached, but: in accordance with the present arrangement, this tendency is compensated for and overcome to a material extent by the progressive ly increasing deforming action as the top of the cylinder is approached.
  • the separating action is conducted continuously, that portion separated out from the bulk material gradually accumulating upon the inn'erface-of the wall 34, the inner shoulder 35 at the top thereof acting to prevent such concentrate from passing on over the top andv open end.
  • a plurality of. rods. I30 arev suitably non-rotatably embedded within the wall 34' of the separating cylinder and preferably extend from the. top substantially down to the base of the latter.
  • a roller I32 is; rotatably secured at. the upper and outwardly extending end of each rod I30 and is suitably spaced from: the upper edge of Wall 34 by a cooperating sleeve I34.
  • rollers I32 ride in a suitable cam track I40, which may be stationarily secured tolthe machine frame in any u suitablermanner, as through the outwardly ex tending legs I 42'thereof.
  • cam track I40 is shaped as shownto. cause an inward radial movement of rollers I32 in response to the rotation of wall 34, andv the centrifugal force acting on the wall 34' and: the. material therein maintains contact between the rollers. I32 and track I40 and serves to move the; rollers outwardly after having been movedinwardlybythe'cam track.
  • the separation cylinder is disposed with its axis horizontal instead of vertical, and, in addition',.the driving relation between the deforming roll mechanism and: the cylinder is. reversed.
  • the cylinder I50 preferably formed of a continuous piece of resilient composition fabricv and rubber as described in connection with the first embodiment, and having the: inwardly turned end flanges I52 which correspondl-inrfunction. to the shoulder 35 of Fig.
  • the shaft I64 of driving roll I56; of which there may be a plurality, is suitably supported in bosses I66 and carries a driving: pulley I68, which may be driven from any suitable external source (not shown) as through the belting I;
  • the adjustable roll I58 is rotatably secured by a pin I12 upon the outer endio'f' a crank arm I14, which is rotatably supported upon. the same shaft I16 which also supports one of the idler rolls I54.
  • the lever I'I B rigidly connected to the crank I14, is provided with an-adjustable stop I19 which determines the normalpositionof the adjusting roll I58.
  • the crank I14 and arm I18 are freely rotatableina counter clockwise direction as viewed. in. Fig. 7, from the illustrated full-line positionto the dottedline position, in which an abnormal: distortion of the side wall I50 is. produced.
  • Thisabnormal distortion of wall I50 is effective, as will be understood, to scale off from the latter'thew deposited and separated. goldor other particles, thus facilitating removal thereof from the cylinder at the completion of a separating operation.
  • the adjusting stud I19 may also be adjusted to provide a different degree of deforming action during normal operation by the adjustable roll I58 than by the others of the deforming rolls.
  • the cylinder I50 is fixed in position longitudinally of the machine by a series of idler rolls I80 suitably and rotatably supported upon bosses I82 secured to the machine frame, and which bear against the opposite ends thereof.
  • the aggregate or bulk material is introduced through the spout I86, which extends inwardly to substantially the axial center of the cylinder I50 which is rotating at the time and falls upon the inner wall thereof.
  • the centrifugal force of the rotation throws the heavier particles outwardly against the wall, retaining the lighter bulk refuse material nearer the center of the cylinder.
  • the heavier particles accumulate against the side wall and are prevented from being thrown outwardly from the end thereof by the shoulders I52.
  • the lighter refuse material is continuously discharged from the opposite open ends of cylinder I50.
  • the deforming rolls I54, I56 and I58 act as previously described to flex wall I50, maintaining the bulk in a relatively loose condition and thus facilitating the outward movement of the heavier ore particles therethrough.
  • the adjustable roll I58 may be moved inwardly to the dotted line position, thus abnormally flexing wall I50 and scaling off the collected material.
  • separating cylinder is disposed with its axis vertical, the bulk material is fed from the top of the cylinder, but, as distinguished from the embodiment of Figs. 1 through 4, the bulk material is initially directed into the upper end of the cylinder, and the waste material is discharged through the open lower end of the cylinder.
  • the construction of the cylinder 34", the deforming rolls 36", and the driving mechanism for wall 34", cmprising the base plate 38 and the hollow shaft 48", are preferably constructed and arranged as described in connection with Figs. 1 through 4, but are disposed in inverted positions.
  • the spout I90 through which the aggregate or bulk material is introduced to the cylinder 34" extends into the open upper end of shaft 48", and preferably also extends downwardly therein substantially to the lower end thereof to prevent the aggregate from being collected on the side walls of shaft .48" and clogging the machine.
  • the table 80 supported upon the base plate 38" in the manner described in connection with Figs. 1 through 4, is disposed to receive the aggregate upon its upper surface, from which it is thrown against the walls of cylinder 34" in the previously described manner.
  • a further feature of the embodiment shown in Fig. 9, resides in the use of the removable inner sleeve I92, which may be replaced in event of wear.
  • the lower end of the sleeve I92 is provided with the inwardly extending annular shoulder I94, which functions to retain the separated out particles and prevent them from falling downwardly from the lower opened end of the cylinder 34". 1
  • the sleeve I92 is slidably fitted into cylinder 34", and during operation of the machine is retained therein by the adhesion between the walls of the two members. particularly as amplified by the centrifugal force acting on the sleeve and the material contained within it, which tends to stretch it radially, Upon stopping the machine, however, it may be readily removed and replaced if desired. It will be evident that the replaceable inner sleeve I 92 may also be used to advantage in connection with the embodiment shown in Figs. 1 through 4, and, with suitable modification, may also be used with the modification shown in Figs. 5 through 8.
  • the aggregate is fed through spout I90, falls upon the table 80', and is there thrown by centrifugal force against the walls of sleeve I92, the heavier particles working outwardly directly against the walls, as described in connection with the previous embodiments.
  • the material As the material accumulates, it is gradually forced downwardly in cylinder 34", and the refuse material falls freely through the open lower end of cylinder 34", after which it may be collected in the illustrative receptacle I96.
  • the deforming rolls 36 act upon cylinder 34" in the manner and for the purpose described in connection with Figs. 1 through 4.
  • FIG. 11 provides a multiple type separating machine. embodying a plurality of individual separating cylinders, the mounting for which is such that a single driving force may be used to drive the entire group, and also such that the cylinders act to mutually deform each other, thus dispensing with additional deforming mechanism.
  • a plurality of separating cylinders 200 each of which is constructed of self-supporting but yieldable material such as the composition rubber and fabric described in connection with Figs. 1 through 4, are supported with their axes vertical, upon base plates 202, which may correspond to and be constructed in all respects as described in connection with base plates 38 of Figs. 1 through 4.
  • Each of the base plates 202 is also rotatably supported within the machine frame 206, through bosses 209, which may correspond in all respects to the housing 54 of Figs. 1 through 4.
  • the respective cylinders 200 are arranged in rows in staggered relation, and are positioned so that they are in peripheral engagement with each other. With this arrangement, the continuous rotation of a single one of the cylinders200 through the cooperating pulley 2 I0 and belting 2I2, drives all of the other cylinders 200 through the peripheral friction between them.
  • each of the cylinders 200 is of slightly tapering construction, so that, being mounted with their axes parallel to each other, the deforming effected between them progresses from a minimum at the base thereof to a maximum at the lower or discharge end thereof, in substantially the manner described in connection with Figs. 1 through 4 and 9.
  • One or more of the supports 2I4 upon which the cylinders 200 are secured are adjustable a rsegsro longitudinally of the machineframe 206,-by the adjustingstuds 2 I 6-, to thereby change the standard relationship between the cylinders and correspondingly adjust the degree of deformation provided. This same adjustment provides a means for compensating for wear between" cooperating cylinders 200.
  • a centrifugal separator for separating material into relatively light and heavy components, the combination of a longitudinally extending cylinder having a flexible but self-supporting wall, means adapting said cylinder to be driven in rotation, one or more longitudinally extending flexing members past which said cylinder may rotate, and means supporting said flexing members in direct engagement with said cylinder from a point near one end of said cylinder to a point near the other end thereof and at such spacing from the cylinder axis that said members flex said wall throughout said area of engagement during the rotation of said cylinder, said wall being radially unconfined except by said flexing members throughout the area engaged by said flexing members.
  • a centrifugal separator for separating material into relatively light and heavy com ponents, the combination of a longitudinally extending cylinder having a rigid base and a radially unconfined self-supporting but flexible wall secured to and extending from said base, means adapting said cylinder to be driven in rotation, and means for flexing the wall of said cylinder during the rotation thereof comprising one or more members arranged to apply a direct flexing force to said wall from a point near one end of said cylinder to a point near the other end thereof.
  • a centrifugal separator for separating material into relatively light and heavy components, the combination of a longitudinally extending cylinder having a rigid base and a radially unconfined self-supporting but flexible wall secured to and extending from said base, means adapting said cylinder to be driven in rotation,
  • one or more flexing members past which said cylinder may rotate and means supporting said flexing members in direct engagement with said cylinder from a point near one end of said cylinder to a point near the other end thereof and at such spacing from the cylinder axis that said members flex said wall throughout said area of engagement during the rotation of said cylinder.
  • a centrifugal separator for separating material into relatively light and heavy components, the combination of a longitudinally extending cylinder having a rigid base and a radiallyunconfined self-supporting but flexible wall secured to and extending from said base, means adapting said, cylinder to be driven in rotation, and means for flexing the wall of said cylinder during, the rotation thereof comprising one or more members arrangedto apply a direct flexing force tosaid' wallifrom a point, near one end of said, cylinder to a point near the "other, end thereof, said base having, a material opening therein, and a distributing table disposed adjacent said opening upon which saidmaterial may be deposited.
  • acentrifugal separator for separating material into relatively light and heavy-components, the combination of alongitudinally extending cylinder having a rigid base and a radially unconfined self-supporting but flexible wall secured toand extending from said base, means adapting said cylinder to be driven in rotation, and means for flexing the Wall of said cylinder during the rotation thereof comprising one or more members arranged to apply a direct flexing force to said wall from a point near one end of said cylinder to a point near the other end thereof, said flexing action being of progressively increased degree from a point near said base to a point near the other end of said cylinder.
  • a centrifugal separator for separating material into relatively light and heavy components, the combination of a vertically disposed rotatable longitudinally extending cylinder having a rigid base and a radially unconfined selfsupporting but flexible wall secured to and extending upwardly from said base, means se cured to said base for adapting said cylinder to be driven in rotation, a plurality of rotatable flexing members past which said cylinder may rotate, means supporting said flexing members in direct engagement with said cylinder from a point near one end of said cylinder to a point 1 near the other end thereof and at such spacing from the cylinder axis that said members flex said Wall throughout said area of engagement during the rotation of the cylinder, said base having a material discharge opening therein, and a distributing table supported above said base over said opening upon which said material may be deposited.
  • a centrifugal separator for separating material into relatively light and heavy components, the combination of a vertically disposed rotatable longitudinally extending cylinder having a rigid base and a radially unconfined self-supporting but flexible wall secured to and extending downwardly from said base, means secured to said base for adapting said clyinder to be driven in rotation, a plurality of rotatable flexing members past which said cylinder may rotate, means supporting said flexing members in direct engagement with said cylinder from a point near one end of said cylinder to a point near the other end thereof and at such spacing from the cylinder axis that said members flex said wall throughout said area of engagement during the rotation of the cylinder, said base having a material receiving opening therein, and a distributing table supported below said base in registry with said opening upon which said material introduced through said opening may be deposited.
  • a centrifugal separator for separating material into relatively light and heavy components, the combination of a rotatable longitudinally extending cylinder having a flexible but self-supporting wall, a member positioned in peripheral engagement with said Wall for driving said cylinder in rotation, said member being so spaced from the axis of said cylinder that said member flexes said wall during the rotation of the cylinder, and means for driving said member.
  • a centrifugal separator for separating material into relatively light and heavy components, the combination of a plurality of separating cylinders each having flexible but selfsupporting walls. means for supporting said cylinders so that the walls thereof are in peripheral engagement with each other, the spacing between the axes of said cylinders being such that said cylinder walls mutually flex each other during the rotation of the cylinders, and means for causing rotation of said cylinders.
  • a centrifugal separator for separating material into relatively light and heavy components, the combination of a plurality of separating cylinders each having flexible but selfsupporting walls, means for supporting said cylinders so that the walls thereof are in peripheral engagement with each other, the spacing between the axes of said cylinders being such that said cylinder walls mutually flex each other during therotation of the cylinders, and means for driving one of said cylinders, said driven cylinder acting to drive another of said cylinders through said peripheral wall engagement.
  • a centrifugal separator for separating material into relatively light and heavy components, the combination of a plurality of separating cylinders each having flexible but selfsupporting walls and each being of greater radius at one end than at the other end, means for supporting said cylinders with the axes thereof generally parallel and with the walls thereof in lateral peripheral engagement with each other and with the relatively large and the relatively small ends of said cylinders correspondingly positioned, the spacing between the cylinder axes being such that the cylinder walls mutually flex each other during the rotation of the cylinders, and means for causing rotation of the cylinders.

Landscapes

  • Centrifugal Separators (AREA)

Description

Nov. 15, 1938. A BR CK 2,136,540
SEPARATING MACHINE Filed Aug. 23, 1955 5 Sheets-Sheet l INVENTOR. Clarence/7... Brock I BY -L- /ZMWXQW A TTORNEYS Nov. 15, 1938. c. A. BROCK 2,135,540
SEPARATING MACHINE Filed Aug. 25, 1935 s Sheets-Sheet 2 v rr INVENTOR. 42 flarenm'c HI. B
ATTORNEYS.
Nov. 15,1938. A 2,136,540
' SEPARATING MACHINE Filed Aug. 23, 1955 5 Sheets-Sheet 3 INVENTOR. Clarence fl Brock ATTORNEYS.
Nov. 15, 1938. c. A. BROCK SEPARATING MACHINE Filed Aug. 23, 1935 5 Sheets-Sheet 4 I N VEN TOR. Clarencefl Broelk Nov. 15, 1938; Q A BRQCK 2,136,540 I SEPARATING MACHINE Filed Aug. 23. 1955 5 Sheets-Sheet 5 INVENTOR. Clara-nee lZBroek ATTORNEYS.
Patented Nov. 15, 1938 UNITED STATES PATENT orrics SEPARATING MACHINE Clarence A. Brock, Detroit, Mich.
Application August 23, 1935, Serial No. 37,418
11 Claims.
metals from the material in which such metals are found in natural deposits. Accordingly, for ease and clearness of description in the following specification and claims, the use of the present invention will be specifically referred to only in connection with the separation of gold from the material in which it is found in natural de posits, it being understood that such reference will be made in an illustrative rather than a limiting sense.
As is well understood in the art of gold mining, gold may be found in pay dirt and which pay dirt usually consists of sand or gravel through which free particles of gold may be present, or it may be found embedded in rock or rock-like formations. It will be understood" that the gold may be separated from pay dirt by the use of the present invention directly after the pay dirt has been subjected to the conventional screening operations to remove the boulders and pebbles, but where the gold is found embedded in rock the rock must be subjected to the usual pulverizing operations before the gold particles are subject to separation therefrom by the use of the present invention.
With the above inmind, it will' be understood that principal objects of the present invention include the provision of a centrifugally operated separator which is effici'ent in operation, embodies durable and relatively few parts and may be readily and economically manufactured, adjusted, assembled and. repaired.
Other objects of the present invention include the provision of a centrifugally operated separator embodying a rotating separating wall or surface, in combination With improved means for deforming or Working the separating wall to thereby work the material being operated upon and facilitate the depositing of the heavier particles in the material upon the wall; in which the separating wall is approximately cylindrical in shape and is supported upon a relatively 50 rigid basemember and the deforming means a'ct progressively in degree from the supporting base to the top of the cylinder; in which the separating wall structure is formed of a rubber and fabric composition which is self-sustaining but is deformableby the action of the deforming means; in which the deforming means comprises cylindrical members, adjustably and rotatably mounted, and in continuous engagement approximately throughout their length with the separating wall; in which the deforming rolls are driven by their engagement with the externally driven separating wall; in which the surfaces of the deforming rolls are tilted at an angleto the cooperating surface of the separating Wall when in non-deformed state so that the deforming action increases successively from the supported end of the wall to the unsupported end of thewall; and in which the unsupported, or discharge end, of the separating wall is provided with an inwardly extending annular shoulder to retain the separated out particles within the separating wall.
Further objects of the present invention include the pro-vision of a ce-ntrifugally operated separator of the above stated character, in which the rotating separating wall and cooperating rotating deforming rolls are housed within an enclosure; in which the material to be separated is deposited into the separating cylinder from the top of the machine and is received upon a rotating table, which rotates with the separating wall; in which the refuse material or gangue passes out of the separating cylinder at the open end thereof; and in which the machine enclosure is provided with suitable discharge openin gs to discharge the gangue.
Further objects of the present invention include the provision of a centrifugally operated .separator embodying-a separating cylinder having a wall upon which the material to be concentrated is adaptedto be deposited, and embodying a plurality of deforming'members carried by the separating wall and disposed to cooperate with stationarily mounted cam mechanism to progressively deform and work the separating wall to thereby loosen the bulk material being worked upon and facilitate the centrifugal separation of the concentrate; in which the operating cylinder is supported at one end and is unsupported at the other, and the deforming members are carried and extend from the unsupported end; and in which the deforming means comprises rollers having shafts embedded in the deforming wall and which extend from one end of the separating cylinder for cooperation with a stationarily mounted cam track.
Further objects of the present invention include the provision of a centrifugally operated separator embodying a separating cylinder having flexible walls, and one or more rolls for driving the cylinder and for deforming the wall to thereby keep the bulk material being worked upon in a loose condition to thereby facilitate the separation; in which one or more additional deforming means are provided for supplementing the action of the driving deforming roll or rolls; and in which one or more deforming means are provided which may be manually adjusted to deform the wall to an abnormal extent to facilitate the scaling from the separating wall of a collected mass of concentrate.
It is a further object of the present invention to provide a centrifugally operated separator of the type having a vertical axis of rotation, and in which the material to be operated upon is deposited at the upper end of a rotating separating cylinder, and the gangue is discharged at the open lower end of such cylinder.
It is a further object of the present invention to provide, in a centrifugally operated ore separator, a replaceable separating wall liner which may be inserted within a rotating, separating cylinder and retained in place therein.
It is a further object of the present invention to provide a multiple type, centrifugally operated ore separator embodying a plurality of rotating separating cylinders; in which the respective cylinders are in peripheral engagement so that a mutual driving action is effected between such cylinders; in which the mounting for the cylinders is such that the peripheral engagement thereof effects a deforming or working of the cylinder walls; and in which the relative positions of the respective cylinders are adjustable to take up wear and change the degree of deformation.
With the above and other objects in view, which appear in the following description and in the appended claims, illustrative embodiments of the present invention are shown in the accompanying drawings, throughout the several views of which corresponding reference characters are used to designate corresponding parts, and in which:
Fig. l is an external view in elevation with certain of the parts broken away, of one embodiment of the present invention;
Fig. 2 is a view in front elevation, partly in section, taken along the line 2-2 of Fig. 1;
Fig. 3 is a view in horizontal section taken along the line 33 of Fig. 2;
Fig. 4 is a view in horizontal section taken along the line 4-4 of Fig. 2;
Fig. 5 is a view in horizontal section of a second embodiment of the present invention;
Fig. 6 is a view in vertical central section of said second embodiment taken along the line 6-6 of Fig. 5;
Fig. '7 is a view in end elevation of a third embodiment of the present invention;
Fig. 8 is a view in vertical central section taken along the line 8-8 of Fig. '7;
Fig. 9 is a view in vertical section of a fourth embodiment of the present invention;
Fig. 10 is a top plan view of a fifth embodiment of the present invention; and
Fig. 11 is a view taken along the line llll of Fig. 10.
In the form illustrated in Figs. 1 to 4 inclusive, one embodiment of the present invention comprises generally an outer casing, the top of which is partially enclosed, but is provided with an opening from which a funnel depends and through which the material to be separated is introduced,
and a partially enclosed base having a plurality of openings through which the refuse material or gangue is discharged. The side walls of the casing are closed. A rotatable separating cylinder, having its axis vertically disposed, is disposed within the casing, and is supported at its lower end upon a rigid base which is provided with a shaft having suitable bearings in the casing base.
The upper end of the separating cylinder is open, but is provided with an annular flange which extends inwardly somewhat from the side thereof, to insure that all of the concentrate separated out from the bulk material is retained within the cylinder and that none of it passes out of the top of the cylinder with the refuse material or gangue.
The separating cylinder is formed of resilient material, preferably a composition rubber and fabric, thick enough to be of a self-supporting character but resilient enough to be deformable by each of a series of deforming rolls, which are disposed in peripheral engagement therewith at spaced points around the cylinder.
Each of the deforming rolls comprises generally a mandrel having a somewhat resilient casing, preferably made of the same material as the walls of the separating cylinder, and rotatably supported upon a normally fixed eccentric shaft or spindle. The eccentric shaft is normally secured against rotation in a bracket extending upwardly from the face of the machine base, but may be released and rotated to vary the axial spacing between the associated roll and the separating cylinder either to vary the degree of deformation of separating cylinder or to compensate for wear. Preferably, the rolls are in continuous engagement throughout their length with the outside of the wall of the separating cylinder, and are driven by such engagement in response to the rotation of the separating cylinder, thus dispensing with the need of additional driving mechanism for the deforming rolls.
A feature of the present invention is the arrangement of the deforming mechanism to provide a successively increasing deformation from the base of the separating cylinder to the top of it. The base of the cylinder, as previously mentioned, is secured to the relatively rigid supporting and rotating base, and by reducing the deformation at such lower end to a minimum, the life of the separating cylinder has been found to be substantially prolonged. The reduced deformation in this part of the cylinder provides a sufficient working of the deposited material to insure it being maintained in a loose state. As the top of the separating cylinder is approached, the deformation is increased. This increase does not adversely affect the supporting cylinder, since it occurs at a part of the wall which is at some distance from the rigid supporting base. Moreover, it has been found that as the top of the separating cylinder is approached, the tendency of the bulk to pack and harden, by the centrifugal action, is increased, so that a substantially greater deformation at such upper part is required. In the form illustrated in Figs. 1 to 4, inclusive, the progressive deformation is effected by tilting the axes of the separating cylinder and of the deforming rolls with respect to each other, the separating cylinder axis being vertical and the deforming roll axes being slightly off vertical.
In the operation of this embodiment, the material to be operated upon, which may be either wet or dry, is deposited through the funnel at aaeaseo the top of thexcasing, and .is received upon artabl'e or stool carried uponzand'rotating .withithe separating cylinder base. Upon being-depositedzupon the rotating table, such material is thrown 'out wardly by centrifugal "force against the-walls eof the separating cylinder. The heavier particles of the material are forced outwardly, .and the lighter gangue particles :are retained 2nearer the axis of the cylinder, as will abeunderstood. the separation progresses, the accumulated bulk material is flattened out :and caused to :climb :up the walls of the cylinder, "finally :reaching the top thereof, at which point the .gangue or :refuse material is discharged through the :open :upper end of the cylinder and falls through the casing and is discharged through the opening in the base of it. The inwardly extending :annular shoulder. at the top of the separating wall rprevents the escape of the concentrated heavier'particles.
Throughout the separating action, Tthfl rotation of the separating "cylinder effects *a corresponding rotation of the deforming rolls, :a plurality of which, as previously stated, are distributed around the former. These deforming rolls effect an inward and outward flexing of the resilient separating cylinder wall, thus effecting a'working and loosening of the rbulk material forced against such walls by the :centrifugal action. This deforming or working action, which "is progressive from a minimum at the base of the cylinder to a maximum atthetop ofthe cylinder, keeps the material in a relativelyloose and free condition, facilitating the outward movement of the heavier particles therethrough-to the separating wall. It has also been found that this progressive working of the bulk material maintains the bulk material at'a much deeper angle within the cylinder than the angle "ofirepose "of the :bulk material. In this way, an undue collection of the bulk material at the base "of the cylinder "is prevented.
The separating action thus described is conducted continuously, in accordance with the preferred practice of the present invention, until such time as it may be expected'that'the concentrate will 'be deposited upon the separating'wall to a desired 'or'to substantially no greaterthickness of the previously mentioned annular flange at the upper end of the cylinder. At this time, in further accordance with the present invention and where gold is being separated uicksilver is introduced through the funnel and forced, .byethe centrifugal action, through the mass of :deposited material Where it meets with and -amalgamates with the separated ore. Upon stopping the :rotation of the separating cylinder, the quicksilver, carrying with it the separated ore, runs downwardly by gravity along the side walls of the separating cylinder, along the centrally sloping space of the cylinder, and out through an repening provided through the cylinder shaft, where it may be collected in any suitable receptacle.
In accordance'with a second embodiment of the present invention illustrated in Figs. 5 and 6, the independently supported deforming rolls .-described in connection with the first embodiment are replaced by a corresponding series :of .deforming rollers, the axle shafts of which are rigid and embedded and supported by the walls of the separating cylinder. The deforming rollers extend upwardly from the upper or discharge end of the separating cylinder and are disposed to be acted upon and successivelymoved radially inwardly of the cylinder by a stationaril-y mounted cam track, causing a like movement :of their axle shafts and, consequently, a. like movement of the :walls of the separating cylinder at the copenend'thereof. JII] all other respects the construction and operation :of this embodiment of the :invention may be as described in connection with the first embodiment.
In accordancewith a third embodiment of the present invention .shown in .Figs. 7 and '8, the separating cylinder is disposed with its axis horizontaLandthe materialto be separated is introducedrat the axial center thereof by an inwardly extending supply pipe or spout. The cylinder is driven 'by-adeforming rollhaving its axis parallel with that .of the cylinder, and which is driven from a-suitable external source. Preferably, and as illustrated, a series of additional deforming rolls are provided around the periphery of the cylinder to supplement the action of the main driving and deforming roll. One or more of such "additional deforming rolls may be adjustable, .to permit a manual or other movement thereof inwardly to an abnormal extent, thus causing an abnormal'inward flexing of the cylinder walls, to assist in the scaling off of the deposited concentrate.
:In accordnce with a fourth illustrated embodiment of the present invention illustrated in Fig. 9, the construction is generally the same as described in connection with the first embodiment, with the exception that the material is initially directed on to the wall of the separating cylinder at the upper end thereof, and is discharged at the lower end thereof. As illustrated also, a replaceable, .fiexible liner is inserted'into thecylinder. As will appear more fully hereinafter, this replaceable, flexible liner may also be advantageously used in connection with the other embodiments.
In connection with a fifth embodiment of the present invention illustrated in Figs. 10 and '11, a multiple type separating machine is provided, embodying a plurality of simultaneously driven separating cylinders. Preferably, and as illustrated, the respective cylinders are in peripheral engagement, so that by driving one of themgthe entire 'group rotates synchronously. Preferably, the axial spacing between the several cylinders is :such that their mutual engagement results in the previously described deformation. of the walls thereof, thus working the walls of the cylinders as they rotate. In order that the axes of the separating cylinders may be parallel to each other, .for simplicityandeconomy in manufacture and operation, it is preferred to construct the cylinders so-that the diameters thereof'are greater at their lower ends than at their upper ends, so that the deforming action is'progressive from one end to the other, as described in connection with the first embodiment. Conveniently, and as illustrated, the relative positions of the respectivecylinders are adjustable to take up wear, and to also modify the deforming action.
Considering the above mentioned elements in more detail in referring particularly to Figs. 1 through '4, 'the casing 20, which may be conveniently'formed ofsheet metal, is supported on a pair of I sections 22. Three of the side walls of casing 20 are continuous. The fourth side wall is cut away adjacent the base and, with the outwardlyextending-lip 2 30f the casing base, forms a discharge chute 2d. The chute 24 permits the gangue dischargedover the top of the separating cylinder, as later described, to pass out of the casing. The top "of casing "20 is enclosed except for a central opening in which a funnel 28 is secured by the bolts 38. Funnel 28 extends downwardly within the casing 28 a substantial distance. The side walls of casing 28 are preferably lined with a resilient'wear resisting member 26 formed of rubber or like material, and readily replaceable.
The separating cylinder 32 comprises generally the continuous cylindrical wall 34, which is resilient, and is preferably formed of a composition rubber and fabric, of suflicient thickness that the wall is self-supporting, but is deformable by the action of the deforming rolls 36. The wall 84 is supported upon a rigid base plate 38, the peripheral edge of whichis provided with a rim which presents a vertical supporting surface 48 and a lip 4I. The wall 34 is secured to the base 38 by bolts 42 and clamping plates 44. The fabric portion of the wall 34 is preferably provided with a relatively thick coating or layer of resilient rubber on both sides to take the actual wear of the material being worked upon on. its inner face and the deforming rolls on its outer face, and in order that these layers of rubber will a not affect the proper connection between the wall 34 and the base 38, they are cut away, as illustrated, over the area of contact of the wall 34 and the base and over the area of contact of the clamping plates 44 and the wall 34. This also permits the clamping plates to be arranged in flush relation with respect to the outer surface of the wall 34, which is of advantage in certain cases.
The base plate 38 is rigidly secured by a plurality of studs such as 46 upon the upper and outwardly flared end of a hollow shaft 48. The shaft 48 in turn is rotatably supported by the radial and thrust ball bearing units 58 and 52 within a boss-like housing 54 rigidly secured by the studs 56 within a corresponding opening formed in the base of the casing 28. .The ball bearing units are retained in position by the spacing sleeve 58 and the end plates 88 and 62. The threaded collar 61 and shoulder 69 on shaft 48 secure the latter against vertical movement in the housing 54. Suitable seals, such as 64, 66 and 68, are provided to prevent the escape of lubricant from within the housing 54. A pulley I8 is secured by key 12 upon the lower end of shaft 48, and may be driven from a suitable source (not shown) through the belting I4. It will be evident that rotation of shaft 48 correspondingly rotates base plate 38 and the separating cylinder 32. This rotation preferably occurs at a constant rate, although a variable rate may be used if desired, and it will be understood that the rate of rotation is determined by the character of the bulk material being worked upon.
The bulk material to be worked upon is introduced through the funnel 28 and initially deposited upon a table or stool 88, which has a substantially plane upper surface and a plurality or depending legs 82 which space it from and through which it is secured upon the upper surface of the base plate 38 by the previously mentioned studs 48. The legs 82 are disposed in suitably placed relation around table 88, leaving spaces between them, through which the concentrate is drained off at the conclusion of a separating operation. As will be evident, the ore drained off between the legs 82 passes downwardly through the opening 86 formed in base plate 38, and through the hollow shaft 48, where it may be collected in any suitable receptacle such as 88 (Fig. 1). Suitable means are preferably forming rolls at an angle to each other.
provided fornormally closing the lower end of the shaft 48 vandoperable to open it to the flow of material through it, a removable plug 89 being shown as illustrative of such means.
Each of the deforming rolls 36, one or more of which are distributed around the separator 34, two being shown by way of illustration, preferably includes a resilient outer surface or sleeve 98, which may be formed of the same type of rubber fabric composition as the separating wall 34. Each sleeve 98 is fitted over a cored-out mandrel 92, and secured in place thereon by studs 94. Each sleeve 98 is fixed longitudinally of its corresponding mandrel 92 by the outwardly extending lower shoulders 96 of the latter, and by the platev 98 which is secured at the upper end thereof. Each mandrel 92 is rotatably supported upon a shaft or spindle I88 by means of a. pair of spaced ball bearing units I82. Each spindle I88, in turn, is secured upon or formed integrally in eccentric relation with a cylindrical standard I84, which is rotatably adjustably secured to the base of the casing 28 within a split bracket I86. A tightening stud I88 is provided to clamp or release the standard I84 in the split bracket I88, whereby to rigidly secure the standard I84 therein or to permit rotation thereof. As will be evident, rotation of standard I84 moves the associated deforming roll 36 closer to or farther from the separating wall 34, thus correspondingly increasing or decreasing the deforming effect thereof, and permitting compensation for wear occurring between the sleeves 98 and wall 34 to be made. It will also be noted that each of the deforming rolls 36 is independently adjustable.
As previously mentioned, in accordance with the present invention, the deforming action of the deforming rolls 36 is progressive from the base of the separating wall to the upper end thereof, and this relation is preferably effected by having the axis of the separating wall and of the de- In the form illustrated, the outer surface of the separating wall 34 is normally cylindrical, its axis is vertically disposed, and the axes of the deformin rolls are tilted somewhat from the vertical. The positioning of each deforming roll is preferably such that at the lowest point of engag ment between the corresponding sleeves 98 and the separating wall 34, the deforming action is at a minimum. Due to the tilt, however, a maximum deforming action is effected at the point of highest engagement between each deforming roll 36 and the separating wall 34, which deforming action increases successively between such minimum and maximum limits.
Considering the operation as a whole of the embodiment shown in Figs. 1 through 4, rotation of separating wall 34 through pulley 18 and belt 14 causes a corresponding rotation of the deforming rolls 36, which, as shown in Fig. 3, continuously flexes or deforms inwardly the portion of wall 34 successively brought into cooperation therewith, the deforming action being successive from the base of the Wall to the top thereof, as illustrated by the relative views, Fig. 3 and Fig. 4. Material deposited through the funnel 28 falls by gravity and is deposited upon the rotating table 88, from which it is thrown by force outwardly against the separating wall 34. As will be understood, the particles to be separated out, being heavier than the bulk of the material, is moved through the material and is deposited against the inner surface of the wall 34, while the refuse material is retained nearer wardly sloping upper surface the center of the separating cylinder. As the deposited. material accumulates, it is gradually forced upwardly around" the wall 34, and ultimately is discharged over the upper open end thereof, and falls by gravity to the base of the casing 20, from which it is discharged through the previously described opening 24. In opera tion, the material within the cylinder assumes an outlines somewhat as indicated by the line I20, which. outline is on an angle substantially greater, with respect to'a horizontal plane, than the normal. angle of repose of the aggregate.
The deforming of the wall 34 keeps the aggregate material in a relatively loose condition, facilitating the passage of the heavy particles therein through it. The deforming action being decreased progressively as the base of the cylinder is reached, causes substantially no flexing of the Wall 34 at the point of connection thereof to the base plate 38. With this construction, a rigid plate 38 may be used without causing undue wear of the side walls 34'; Normally, the tendency of the aggregate material to become solid and packed increases when the top of the cylinder is approached, but: in accordance with the present arrangement, this tendency is compensated for and overcome to a material extent by the progressive ly increasing deforming action as the top of the cylinder is approached.
As previously stated, the separating action is conducted continuously, that portion separated out from the bulk material gradually accumulating upon the inn'erface-of the wall 34, the inner shoulder 35 at the top thereof acting to prevent such concentrate from passing on over the top andv open end..
After a period'of operation in which it may be expected that concentrate will have been deposited upon the side walls 34 to substantially the thickness of theshoulder 35, further feed of bulk material is discontinued, the device is brought to rest, the plug 90 removed, and the concentrate washed or otherwise discharged through the shaft 48. Where such concentrate is gold particles, after the feed of bulk material has been discontinued and before rotation of' the device is discontinued, a predetermined quantity of quicksilver may be introduced through. the funnel 28 and upon the table 80, from which it is thrown by centrifugal force outwardly through the aggregate or bulk materialand into contact with the separated particles, with which, as will be understood, it amalgamates. Upon the stopmug of the machine, the amalgam flows downwardly along the side wall 34, along the downof base plate 38, and down through the hollow shaft 48, from which, upon removal of the plug 89, it may be collected in the previously mentioned vessel 88.
In accordance with the modified embodiment ofthe present invention illustrated in Figs. and 6, and in which parts the same as in the previous views are indicated by the same numerals except suchnumerals bear a prime mark, a plurality of. rods. I30 arev suitably non-rotatably embedded within the wall 34' of the separating cylinder and preferably extend from the. top substantially down to the base of the latter. A roller I32 is; rotatably secured at. the upper and outwardly extending end of each rod I30 and is suitably spaced from: the upper edge of Wall 34 by a cooperating sleeve I34. The rollers I32 ride in a suitable cam track I40, which may be stationarily secured tolthe machine frame in any u suitablermanner, as through the outwardly ex tending legs I 42'thereof. As will be understood from an: inspection of Fig. 5, the rotation of the. cylinder wallv 34', carrying with it the rollers I32, effects a movement of the latter within cam track I40. Cam track I40 is shaped as shownto. cause an inward radial movement of rollers I32 in response to the rotation of wall 34, andv the centrifugal force acting on the wall 34' and: the. material therein maintains contact between the rollers. I32 and track I40 and serves to move the; rollers outwardly after having been movedinwardlybythe'cam track. This inward and outward movementof rollers effects a radial deforming of. the wall 34" in a manner similar toand for the same. purpose as described in connection with the apparatus shown in Figs. 1 through 4.. The rods I30, being extended as mentioned,substantially'to. the base of wall 34, prevent collapsing of thelatt'er and cause the deforming actionitd increase from the. base to the topof. the wall, as described" in connection with the first. embodiment. In all other respects,.the construction. and operation of the embodiment shown in Figs. 5: and 6 may be as described in connection. with Figs. I through 4, and further description. thereof is; therefore considered unnecessary..
In. accordance with the modification shown in Figs. 71' and: 8, theseparating cylinder is disposed with its axis horizontal instead of vertical, and, in addition',.the driving relation between the deforming roll mechanism and: the cylinder is. reversed. Referringto'=Figsz 7 and 8, the cylinder I50, preferably formed of a continuous piece of resilient composition fabricv and rubber as described in connection with the first embodiment, and having the: inwardly turned end flanges I52 which correspondl-inrfunction. to the shoulder 35 of Fig. 1; is: supported with its axis horizontal betWeenapliiralityof: deforming'rolls I54, a driving deforming roll I565 and an adjustable deformingroll I58; The respective rolls I54, I56 and I58are so positioned; as will be understood, that the wall I50'is deformed thereby to approximatelythe shape shown in Fig. 7 and also serve t'osupport' and confine the cylinder I50. It may be noted, however, that the-degree of deformation of'the separating cylinder in Fig. 7 is exaggerat'ed tomore clearly illustrate the same, and this is also'true-in most of the other views.
Each of the idler rolls IE4 is freely rotatable within bosses I60=secured to, or formed integrally with, the machineframe I62. The shaft I64 of driving roll I56; of which there may be a plurality, is suitably supported in bosses I66 and carries a driving: pulley I68, which may be driven from any suitable external source (not shown) as through the belting I; The adjustable roll I58 is rotatably secured by a pin I12 upon the outer endio'f' a crank arm I14, which is rotatably supported upon. the same shaft I16 which also supports one of the idler rolls I54. The lever I'I B, rigidly connected to the crank I14, is provided with an-adjustable stop I19 which determines the normalpositionof the adjusting roll I58. As will be evident, the crank I14 and arm I18 are freely rotatableina counter clockwise direction as viewed. in. Fig. 7, from the illustrated full-line positionto the dottedline position, in which an abnormal: distortion of the side wall I50 is. produced. Thisabnormal distortion of wall I50 is effective, as will be understood, to scale off from the latter'thew deposited and separated. goldor other particles, thus facilitating removal thereof from the cylinder at the completion of a separating operation. The adjusting stud I19 may also be adjusted to provide a different degree of deforming action during normal operation by the adjustable roll I58 than by the others of the deforming rolls.
The cylinder I50 is fixed in position longitudinally of the machine by a series of idler rolls I80 suitably and rotatably supported upon bosses I82 secured to the machine frame, and which bear against the opposite ends thereof.
In operation, the aggregate or bulk material is introduced through the spout I86, which extends inwardly to substantially the axial center of the cylinder I50 which is rotating at the time and falls upon the inner wall thereof. The centrifugal force of the rotation throws the heavier particles outwardly against the wall, retaining the lighter bulk refuse material nearer the center of the cylinder. In the course of the operation, the heavier particles accumulate against the side wall and are prevented from being thrown outwardly from the end thereof by the shoulders I52. The lighter refuse material, however, is continuously discharged from the opposite open ends of cylinder I50. The deforming rolls I54, I56 and I58 act as previously described to flex wall I50, maintaining the bulk in a relatively loose condition and thus facilitating the outward movement of the heavier ore particles therethrough.
At the conclusion of a separating operation, the adjustable roll I58 may be moved inwardly to the dotted line position, thus abnormally flexing wall I50 and scaling off the collected material.
In accordance with the modification of the present invention, illustrated in Fig. 9, in which parts similar to those shown in Figs. 1 to 4, inelusive, are indicated by the same numerals but bearing a double prime mark, the separating cylinder is disposed with its axis vertical, the bulk material is fed from the top of the cylinder, but, as distinguished from the embodiment of Figs. 1 through 4, the bulk material is initially directed into the upper end of the cylinder, and the waste material is discharged through the open lower end of the cylinder. The construction of the cylinder 34", the deforming rolls 36", and the driving mechanism for wall 34", cmprising the base plate 38 and the hollow shaft 48", are preferably constructed and arranged as described in connection with Figs. 1 through 4, but are disposed in inverted positions. Further description of these elements is, accordingly, considered unnecessary. As further shown in Fig. 9, the spout I90, through which the aggregate or bulk material is introduced to the cylinder 34", extends into the open upper end of shaft 48", and preferably also extends downwardly therein substantially to the lower end thereof to prevent the aggregate from being collected on the side walls of shaft .48" and clogging the machine. The table 80", supported upon the base plate 38" in the manner described in connection with Figs. 1 through 4, is disposed to receive the aggregate upon its upper surface, from which it is thrown against the walls of cylinder 34" in the previously described manner.
A further feature of the embodiment shown in Fig. 9, resides in the use of the removable inner sleeve I92, which may be replaced in event of wear. The lower end of the sleeve I92 is provided with the inwardly extending annular shoulder I94, which functions to retain the separated out particles and prevent them from falling downwardly from the lower opened end of the cylinder 34". 1
The sleeve I92 is slidably fitted into cylinder 34", and during operation of the machine is retained therein by the adhesion between the walls of the two members. particularly as amplified by the centrifugal force acting on the sleeve and the material contained within it, which tends to stretch it radially, Upon stopping the machine, however, it may be readily removed and replaced if desired. It will be evident that the replaceable inner sleeve I 92 may also be used to advantage in connection with the embodiment shown in Figs. 1 through 4, and, with suitable modification, may also be used with the modification shown in Figs. 5 through 8.
In the operation of the embodiment shown in Fig. 9, the aggregate is fed through spout I90, falls upon the table 80', and is there thrown by centrifugal force against the walls of sleeve I92, the heavier particles working outwardly directly against the walls, as described in connection with the previous embodiments. As the material accumulates, it is gradually forced downwardly in cylinder 34", and the refuse material falls freely through the open lower end of cylinder 34", after which it may be collected in the illustrative receptacle I96. The deforming rolls 36 act upon cylinder 34" in the manner and for the purpose described in connection with Figs. 1 through 4.
The embodiment of the present invention shown in Figs. and 11 provides a multiple type separating machine. embodying a plurality of individual separating cylinders, the mounting for which is such that a single driving force may be used to drive the entire group, and also such that the cylinders act to mutually deform each other, thus dispensing with additional deforming mechanism.
Referring to Figs. 10 and 11, a plurality of separating cylinders 200, each of which is constructed of self-supporting but yieldable material such as the composition rubber and fabric described in connection with Figs. 1 through 4, are supported with their axes vertical, upon base plates 202, which may correspond to and be constructed in all respects as described in connection with base plates 38 of Figs. 1 through 4. Each of the base plates 202 is also rotatably supported within the machine frame 206, through bosses 209, which may correspond in all respects to the housing 54 of Figs. 1 through 4.
As best shown in Fig. 10, the respective cylinders 200 are arranged in rows in staggered relation, and are positioned so that they are in peripheral engagement with each other. With this arrangement, the continuous rotation of a single one of the cylinders200 through the cooperating pulley 2 I0 and belting 2I2, drives all of the other cylinders 200 through the peripheral friction between them.
The radial spacing between the respective cylinders 200 is also such that the engagement between them effects a mutual deforming, for the purpose and preferably to substantially the extent described in connection with the other embodiments. Preferably, and as illustrated, each of the cylinders 200 is of slightly tapering construction, so that, being mounted with their axes parallel to each other, the deforming effected between them progresses from a minimum at the base thereof to a maximum at the lower or discharge end thereof, in substantially the manner described in connection with Figs. 1 through 4 and 9.
One or more of the supports 2I4 upon which the cylinders 200 are secured, are adjustable a rsegsro longitudinally of the machineframe 206,-by the adjustingstuds 2 I 6-, to thereby change the standard relationship between the cylinders and correspondingly adjust the degree of deformation provided. This same adjustment provides a means for compensating for wear between" cooperating cylinders 200. v i
In. operation the material isnintroduced: into each of the cylinders 2M) throughirfunnels 22!] positioned above and extending downwardly, into the hollow, shafts 222, and is received: upon the tables 224, which are associated with there? spective cylinders in the manner described in connection with the table 80," in Fig. ,9. ,The separation of the heavy particles and the discharge of the refuse material occursas described in connection With Fig; 9, the heavier particles being collected on the sidewalls of the cylinders 20!), and being retained therein by the shoulders 226:, and the lighter refuse material falling freely through the lower open end of each cylinder Although only a limited number of specific embodiments of the present inventionhave been shown and described, it will be understood by those skilled in the art that formal changes maybe made in the specific embodiments shown and described without departing from the spirit and substance of the broad invention, the scope of which is commensurate with the appended claims.
What is claimed is:
1. In a centrifugal separator for separating material into relatively light and heavy components, the combination of a longitudinally extending cylinder having a flexible but self-supporting wall, means adapting said cylinder to be driven in rotation, one or more longitudinally extending flexing members past which said cylinder may rotate, and means supporting said flexing members in direct engagement with said cylinder from a point near one end of said cylinder to a point near the other end thereof and at such spacing from the cylinder axis that said members flex said wall throughout said area of engagement during the rotation of said cylinder, said wall being radially unconfined except by said flexing members throughout the area engaged by said flexing members.
2. In a centrifugal separator for separating material into relatively light and heavy com ponents, the combination of a longitudinally extending cylinder having a rigid base and a radially unconfined self-supporting but flexible wall secured to and extending from said base, means adapting said cylinder to be driven in rotation, and means for flexing the wall of said cylinder during the rotation thereof comprising one or more members arranged to apply a direct flexing force to said wall from a point near one end of said cylinder to a point near the other end thereof.
3. In a centrifugal separator for separating material into relatively light and heavy components, the combination of a longitudinally extending cylinder having a rigid base and a radially unconfined self-supporting but flexible wall secured to and extending from said base, means adapting said cylinder to be driven in rotation,
one or more flexing members past which said cylinder may rotate, and means supporting said flexing members in direct engagement with said cylinder from a point near one end of said cylinder to a point near the other end thereof and at such spacing from the cylinder axis that said members flex said wall throughout said area of engagement during the rotation of said cylinder.
4. In a centrifugal separator for separating material into relatively light and heavy components, the combination of a longitudinally extending cylinder having a rigid base and a radiallyunconfined self-supporting but flexible wall secured to and extending from said base, means adapting said, cylinder to be driven in rotation, and means for flexing the wall of said cylinder during, the rotation thereof comprising one or more members arrangedto apply a direct flexing force tosaid' wallifrom a point, near one end of said, cylinder to a point near the "other, end thereof, said base having, a material opening therein, and a distributing table disposed adjacent said opening upon which saidmaterial may be deposited.
5. In acentrifugal separator for separating material into relatively light and heavy-components, the combination of alongitudinally extending cylinder having a rigid base and a radially unconfined self-supporting but flexible wall secured toand extending from said base, means adapting said cylinder to be driven in rotation, and means for flexing the Wall of said cylinder during the rotation thereof comprising one or more members arranged to apply a direct flexing force to said wall from a point near one end of said cylinder to a point near the other end thereof, said flexing action being of progressively increased degree from a point near said base to a point near the other end of said cylinder.
6. In a centrifugal separator for separating material into relatively light and heavy components, the combination of a vertically disposed rotatable longitudinally extending cylinder having a rigid base and a radially unconfined selfsupporting but flexible wall secured to and extending upwardly from said base, means se cured to said base for adapting said cylinder to be driven in rotation, a plurality of rotatable flexing members past which said cylinder may rotate, means supporting said flexing members in direct engagement with said cylinder from a point near one end of said cylinder to a point 1 near the other end thereof and at such spacing from the cylinder axis that said members flex said Wall throughout said area of engagement during the rotation of the cylinder, said base having a material discharge opening therein, and a distributing table supported above said base over said opening upon which said material may be deposited.
7. In a centrifugal separator for separating material into relatively light and heavy components, the combination of a vertically disposed rotatable longitudinally extending cylinder having a rigid base and a radially unconfined self-supporting but flexible wall secured to and extending downwardly from said base, means secured to said base for adapting said clyinder to be driven in rotation, a plurality of rotatable flexing members past which said cylinder may rotate, means supporting said flexing members in direct engagement with said cylinder from a point near one end of said cylinder to a point near the other end thereof and at such spacing from the cylinder axis that said members flex said wall throughout said area of engagement during the rotation of the cylinder, said base having a material receiving opening therein, and a distributing table supported below said base in registry with said opening upon which said material introduced through said opening may be deposited.
8. In a centrifugal separator for separating material into relatively light and heavy components, the combination of a rotatable longitudinally extending cylinder having a flexible but self-supporting wall, a member positioned in peripheral engagement with said Wall for driving said cylinder in rotation, said member being so spaced from the axis of said cylinder that said member flexes said wall during the rotation of the cylinder, and means for driving said member.
9. In a centrifugal separator for separating material into relatively light and heavy components, the combination of a plurality of separating cylinders each having flexible but selfsupporting walls. means for supporting said cylinders so that the walls thereof are in peripheral engagement with each other, the spacing between the axes of said cylinders being such that said cylinder walls mutually flex each other during the rotation of the cylinders, and means for causing rotation of said cylinders.
10. In a centrifugal separator for separating material into relatively light and heavy components, the combination of a plurality of separating cylinders each having flexible but selfsupporting walls, means for supporting said cylinders so that the walls thereof are in peripheral engagement with each other, the spacing between the axes of said cylinders being such that said cylinder walls mutually flex each other during therotation of the cylinders, and means for driving one of said cylinders, said driven cylinder acting to drive another of said cylinders through said peripheral wall engagement.
11. In a centrifugal separator for separating material into relatively light and heavy components, the combination of a plurality of separating cylinders each having flexible but selfsupporting walls and each being of greater radius at one end than at the other end, means for supporting said cylinders with the axes thereof generally parallel and with the walls thereof in lateral peripheral engagement with each other and with the relatively large and the relatively small ends of said cylinders correspondingly positioned, the spacing between the cylinder axes being such that the cylinder walls mutually flex each other during the rotation of the cylinders, and means for causing rotation of the cylinders.
CLARENCE A. BROCK.
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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2516161A (en) * 1945-11-07 1950-07-25 Nordberg Manufacturing Co Vertical axis ball mill with flexible wall and impact means to receive material fromthe flexed wall
US2730299A (en) * 1953-11-27 1956-01-10 Combined Metals Reduction Comp Coiled tube continuous centrifuge
US3248045A (en) * 1964-01-24 1966-04-26 Prins Klaas Centrifugal separator of the continuous process type
US3724747A (en) * 1971-03-15 1973-04-03 Aga Ab Centrifuge apparatus with means for moving material
US5098368A (en) * 1988-03-30 1992-03-24 Kloeckner-Humboldt-Deutz Aktiengesellschaft Centrifugal apparatus
EP1890820A1 (en) * 2005-03-22 2008-02-27 Cascade Medical Enterprises, LLC Systems and methods of producing membranes

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2516161A (en) * 1945-11-07 1950-07-25 Nordberg Manufacturing Co Vertical axis ball mill with flexible wall and impact means to receive material fromthe flexed wall
US2730299A (en) * 1953-11-27 1956-01-10 Combined Metals Reduction Comp Coiled tube continuous centrifuge
US3248045A (en) * 1964-01-24 1966-04-26 Prins Klaas Centrifugal separator of the continuous process type
US3724747A (en) * 1971-03-15 1973-04-03 Aga Ab Centrifuge apparatus with means for moving material
US5098368A (en) * 1988-03-30 1992-03-24 Kloeckner-Humboldt-Deutz Aktiengesellschaft Centrifugal apparatus
EP1890820A1 (en) * 2005-03-22 2008-02-27 Cascade Medical Enterprises, LLC Systems and methods of producing membranes
US20080190857A1 (en) * 2005-03-22 2008-08-14 Cascade Medical Entrprises, Llc System and Methods of Producing Membranes
EP1890820A4 (en) * 2005-03-22 2012-04-11 Cascade Medical Entpr Llc Systems and methods of producing membranes

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