EP2517869A1 - Pelletiermaschine - Google Patents

Pelletiermaschine Download PDF

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Publication number
EP2517869A1
EP2517869A1 EP11164246A EP11164246A EP2517869A1 EP 2517869 A1 EP2517869 A1 EP 2517869A1 EP 11164246 A EP11164246 A EP 11164246A EP 11164246 A EP11164246 A EP 11164246A EP 2517869 A1 EP2517869 A1 EP 2517869A1
Authority
EP
European Patent Office
Prior art keywords
pellet mill
roller
annular die
rollers
roller axles
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP11164246A
Other languages
English (en)
French (fr)
Inventor
Jesper Blok
Tomas Kiré Hørdum
Steen G. Lassen
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Andritz AG
Original Assignee
Andritz AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Andritz AG filed Critical Andritz AG
Priority to EP11164246A priority Critical patent/EP2517869A1/de
Priority to CA2834119A priority patent/CA2834119C/en
Priority to PCT/EP2012/057723 priority patent/WO2012146696A1/en
Priority to BR112013027359-3A priority patent/BR112013027359B1/pt
Priority to BR112013027404A priority patent/BR112013027404A2/pt
Priority to PCT/EP2012/057726 priority patent/WO2012146699A1/en
Priority to EP12717300.3A priority patent/EP2701898A1/de
Priority to US14/114,691 priority patent/US20140138865A1/en
Priority to PT127189629T priority patent/PT2701899E/pt
Priority to RU2013152963/02A priority patent/RU2550468C1/ru
Priority to EP12718962.9A priority patent/EP2701899B1/de
Priority to RU2013153092/02A priority patent/RU2557858C2/ru
Priority to US14/114,714 priority patent/US8974710B2/en
Priority to RU2013152962/02A priority patent/RU2563395C2/ru
Priority to CA2834120A priority patent/CA2834120C/en
Priority to CN201280021304.5A priority patent/CN103702824B/zh
Priority to BR112013027444-1A priority patent/BR112013027444B1/pt
Priority to EP12723395.5A priority patent/EP2701900B1/de
Priority to CN201280021302.6A priority patent/CN103687719B/zh
Priority to CA2834181A priority patent/CA2834181C/en
Priority to PCT/EP2012/057727 priority patent/WO2012146700A1/en
Priority to US14/114,722 priority patent/US9616605B2/en
Priority to CN201280021303.0A priority patent/CN103717385B/zh
Publication of EP2517869A1 publication Critical patent/EP2517869A1/de
Withdrawn legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B11/00Presses specially adapted for forming shaped articles from material in particulate or plastic state, e.g. briquetting presses, tabletting presses
    • B30B11/20Roller-and-ring machines, i.e. with roller disposed within a ring and co-operating with the inner surface of the ring
    • B30B11/201Roller-and-ring machines, i.e. with roller disposed within a ring and co-operating with the inner surface of the ring for extruding material
    • B30B11/208Roller constructions; Mounting of the rollers

Definitions

  • Pellet mills are generally known for pelletizing raw materials, foodstuffs, feedstuffs and more recently biofuels.
  • the pelletizing process results in the transformation of a solid powdery or pasty material into hard pellets or granules which are easier to handle for a consumer than the unpelletized materials
  • a popular type of pellet mill comprises a rotating annular die, into the interior of which the raw material to be pelletized is fed, and one or more cylindrical rollers rolling along the interior surface of the annular die to compress the raw material and force the raw material through bores in the annular die, the bores extending from the interior surface of the annular die to the exterior surface of the annular die.
  • the raw material which is compressed enters these bores and emerges as rods of raw material, which rods are cut into pellets by a knife positioned adjacent to the outer surface of the annular die, the knife being held stationary
  • An enclosure is typically provided around the annular die for catching the pellets and funneling the pellets towards a bottom outlet provided beneath the annular
  • the raw material may be pretreated such as by soaking, heating, or steam treatment, and the pressing action of the rollers may also heat the material
  • the annular die is mounted at one end of a rotating main axle mounted in a frame and driven by a motor unit
  • the roller holder is in turn mounted to one end of a roller holder axle which is coaxial with the main axle and extends throughout the main axle.
  • the other end of the roller holder axle is connected to the frame by a torque limiter. This allows the roller holder axle to remain stationary, i.e. non-rotating, relative to the annular die and the frame during normal operation of the pellet mill, and also allows the roller holder axle to rotate with the rotating annular die in the event of an overload, whereby the pellet mill is protected from damage.
  • An overload event may occur if the amount of raw material fed to the pellet mill is beyond the capacity of the pellet mill, whereby the raw material in the annular die causes the rollers to seize against the annular die causing a high strain on the motor unit and large loads on the annular die, the rollers and the other components of the pellet mill.
  • roller holder axle bearings which suspend the roller holder axle within the main axle are subjected to high loads, as the raw material to be compressed is pressed between the rollers (which are mounted on the roller holder and hence the roller holder axle) and the annular die (which is mounted on the main axle).
  • the rollers are evenly spaced along the inner surface of the annular die and where each roller would receive the same amount of material, the forces between the rollers and the annular die would cancel out.
  • the load on the roller axle bearings would be reduced to simply the weight of the roller holder with rollers.
  • this ideal situation is never achieved and therefore the rollers are loaded differently requiring that the roller holder axle bearings are always sufficiently oversized to ensure a sufficient service life before replacement of the roller holder axle bearings.
  • the oversizing of the roller holder axle bearings while providing a useful service life between overhauls of the pellet mill, however, results in a disadvantage in the construction of the pellet mill.
  • the oversized roller holder axle bearings which are provided within the main axle, necessitate very large main axle bearings for rotatably suspending the main axle in the frame. Using very large main axle bearings are, however, uneconomical as the main axle bearings are subjected to significantly lower loads, which could have been carried by much smaller main axle bearings than the roller holder axle bearings.
  • a further disadvantage of the construction of the popular type of pellet mill is that the safety feature provided by the possible co-rotation of the roller holder with the annular die inconveniences the provision of an adjustment mechanism for adjusting the distance between the rollers and the inner surface of the annular die as is often desired
  • Such adjustment mechanisms as exemplified in US4770621 , EP396200 , GB989603 , US4838779 , US5248469 , EP2105292 , US6244850 , WO2004073963A1 and DE2917453 are often complex as they must be carried by and controlled through the roller holder and/or may require special precautions for preventing damage to the adjustment mechanism if the roller holder axle begins to rotate with the main axle due to an overload event
  • the above mentioned safety feature further precludes the placing of a feeding mechanism, for feeding raw material into the annular die, in any position which may be occupied by the rollers or the roller holder if the roller holder axle begins to rotate with the main axle due to an overload event This inconveniences the feeding of raw material evenly to the rollers with the result that the rollers are differently loaded as described above
  • a further object of the present invention is to facilitate the provision of an adjustment mechanism for adjusting the distance between the rollers and the inner surface of the annular die in a pellet mill.
  • Yet a further object of the present invention is to facilitate the provision of a feeding mechanism for feeding raw material to the annular die in a pellet mill.
  • a pellet mill for preparing pellets from a pelletizable material supplied to the pellet mill, comprising a frame, a main axle rotatably mounted in the frame and having a first end and an opposite second end, an annular die being supported by the second end and having an inner surface for receiving a portion of the pelletizable material supplied to the pellet mill, an outer surface, and a plurality of radial channels extending from the inner surface to the outer surface for preparing pellets from the portion of the pelletizable material, a roller holder supported by the frame, a number of roller axles, each of the number of roller axles being moveably mounted in the roller holder, a number of rollers, each of the number of rollers being rotatable around a corresponding one of the number of roller axles, each of the number of rollers being adapted to press the portion of pelletizable material against the inner surface for rolling, in response to rotation of the annular die, along the inner surface
  • the construction of the pellet mill is simpler.
  • a further advantage derived from the construction of the pellet mill is that the number of bearings may be reduced and each bearing may be dimensioned solely from the loads applied to the specific bearing.. This renders the pellet mill more economical.
  • roller holder As the roller holder is supported by the frame it becomes easier to provide an adjustment mechanism for adjusting the distance between the rollers and the inner surface of the annular die in a pellet mill as the control lines do not have to extend through a roller holder axle.
  • the construction of the pellet mill facilitates the provision of a feeding mechanism for feeding raw material to the annular die in a pellet mill.
  • the safety feature provided by the roller holder axle in the previously known pellet mill is also present in the pellet mill, namely that the roller axles may move in the event of an overload to prevent damage to the pellet mill according to the first aspect of the present invention.
  • preparing pellets is to be understood as also comprising the preparing of intermediates of pellets, including the preparing of rods or strands of material which are subsequently cut, divided, broken off or otherwise treated to form the final pellet
  • pelletizable material is to be understood as any material from which pellets may be prepared by forcing the material through a channel in a die.
  • Pelletizable materials include foodstuffs, feedstuff, waste, wood particles etc
  • the pelletizable material may include additives and/or be treated by heat, soaking or grinding to increase the coherence of the prepared pellets
  • the pelletizable material is a biofuel comprising wood particles.
  • the frame may comprise a main frame part and an auxiliary frame part.
  • the frame may further be supported by a fundament.
  • the main axle is preferably solid, as there is no roller holder axle extending within the main axle. It is, however, contemplated within the context of the present invention that the main axle may be hollow as this may increase the rigidity of the main axle while lowering the amount of material needed for the main axle
  • the main axle is preferably made of steel and mounted rotatably in the frame by main axle bearings
  • the main axle bearings may comprise rolling element bearings.
  • the main axle is preferably substantially horizontal.
  • the annular die is preferably made of steel.
  • the annular die preferably has a cylindrical shape with open ends.
  • the annular die is preferably positioned so that the rotational axis of the annular die is substantially horizontal.
  • the pelletizable material may be supplied directly to the inner surface for, or may alternatively be supplied to a point within the annular die from which the pelletizable material may accumulate in the bottom of the annular die due to the force of gravity.
  • the term a portion of the pelletizable material is to be understood as also comprising a separate amount of the pelletizable material for running the pellet mill in batch mode, as well as the continuous supplying of pelletizable material for running the pellet mill in continuous mode.
  • the radial channels may have a diameter from 2-20 mm, and may have a uniform diameter or a tapering diameter or inlet, or may have different diameters on the inner and outer side of the annular die,
  • the radial channels may have a first diameter from the inner surface to a certain position between the inner surface and the outer surface of the annular die, and a second diameter from the certain position to the outer surface of the annular die.
  • the roller holder preferably comprises a first roller holder plate, a second roller holder plate, and a connecting member
  • Each of the roller axles is preferably supported with one end of the roller axle supported by the first roller holder plate and the other end of the roller axle being supported by the second roller holder plate.
  • the term supported by the frame means that the element referred to is stationary relative to the frame.
  • the roller holder may be supported by the frame by being directly attached to the frame, or by being attached to the frame via one or more further elements.
  • the roller holder is attached to an end plate or door mounted to the frame
  • the roller axles are preferably made of steel
  • moveably is to be understood as also comprising rotatably, displaceably, tiltably
  • the rollers are preferably made of steel.
  • the rollers may roll, in response to rotation of the annular die, either due to direct contact between the roller and the inner surface of the annular die, or alternatively by contact with the annular die via a layer of pelletizable material present between the roller and the inner surface of the annular die.
  • the actuators may be linear actuators or rotary actuators
  • prevent movement is not to be restricted to the meaning that movement is impossible, rather the term is to be understood as also comprising the meaning that movement is prevented until a sufficiently large force is applied to the element referred to, whereby movement can no longer be prevented
  • the term maintaining a distance is not to be restricted to the meaning that the distance cannot be changed, rather the term is to be understood as also comprising the meaning that the distance is maintained until a sufficient large force is applied to the element referred to, whereby the distance can no longer be maintained.
  • each of the number of actuators is further adapted to move the corresponding one of the number of roller axles with respect to the roller holder for changing the distance between the corresponding one of the number of rollers and the inner surface of the annular die. This is advantageous as it allows the pressure exerted by the roller on the pelletizable material to be varied, for example depending on the type of pelletizable material.
  • the roller axles may be moved by displacing, tilting and/or rotating the roller axles.
  • each of the number of roller axles is moveable by being eccentrically and rotatably mounted in the roller holder, and, each of the number of actuators is operatively connected to a corresponding one of the number of roller axles for rotating the corresponding one of the number of roller axles relative to the die holder.
  • eccentrically and rotatably mounted is to be understood as comprising the situation where the axis of rotation, as rotatably mounted, is offset from the geometrical centre axis
  • each of the number of actuators is operatively interposed between the frame and a corresponding one of the number of roller axles. This is advantageous as it provides a simple way of positioning the actuator.
  • the actuator may be operatively interposed between the frame and a corresponding one of the number of roller axles by being attached to the frame directly, or via a further element, and by being attached to the roller axle directly, or via a further element.
  • the pellet mill further comprises a number of circular end pieces, a number of collars, a number of shear pins, each of the number of end pieces being connected to an exterior end of a corresponding one of the number of roller axles and having a seat comprising a first connector connected to a portion of a corresponding one of the number of shear pins, each of the number of collars being operatively connected to a corresponding one of the number of actuators and encircling a corresponding one of the number of end pieces, each of the number of collars having a second connector connected to a remainder of the corresponding one of the number of shear pins, and each of the number of shear pins transferring rotational motion from a corresponding one of the number of collars to a corresponding one of the number of end pieces.
  • This is advantageous as it provides a secure and convenient way of connecting the actuators to the roller axles
  • the circular end pieces are preferably made of steel.
  • the collars are preferably made of steel.
  • the shear pins are preferably made of steel, but may be made of other metals and alloys for attaining a specific force for shearing the shear pins.
  • the shear pins preferably comprise hollow cylinders.
  • the term exterior is to be understood as also comprising the situation of the element being referred to being accessible from the exterior.
  • the seat is preferably positioned on the circumference of the circular end piece and preferably extends in the axial direction of the circular end piece from the surface of the circular end piece.
  • the first connector is preferably a through-going hole provided in the seat, the length of the hole being no less than the length of the portion of the shear pin.
  • the first connector is preferably a through-going hole provided in the collar, the length of the hole being no less than the length of the remainder of the shear pin
  • each of the number of collars comprises an inner side and an outer side and a stopper provided on the inner side, and, the stopper is engageable by the seat on a corresponding one of the number of end pieces for limiting rotation of the corresponding one of the number of end pieces in the event of shearing of the corresponding one of the number of shear pins
  • the stopper is preferably positioned at a position on the collar 90° offset from the position of the second connector on the collar.
  • each of the number of end pieces further comprises a tapering sleeve, a compression ring, and a tightening mechanism, the exterior end of the corresponding one of the number of roller axles being inserted into the tapering sleeve, the compression ring encircling the tapering sleeve, and the tightening mechanism being adapted to displace the compression ring along the tapering sleeve for engaging the tapering sleeve for clamping the exterior end of the corresponding one of the number of roller axles.
  • the tapering sleeve is preferably attached to one side of the circular end piece and preferably has its larger diameter at its connection to the circular end piece.
  • the wall of the tapering sleeve may comprise slits for simplifying the clamping of the roller axle
  • the tightening mechanism may comprise holes in the circular end piece, threaded holes in the compression ring, and bolts connecting the end piece to the compression ring for forcing the compression ring towards the circular end piece for clamping the roller axle
  • each of the number of actuators comprises a hydraulic cylinder. This is advantageous as it provides an actuator having great strength and precise movement. Further, a hydraulic actuator may easily be loaded with fluid at a set pressure for preventing movement of a roller axle, whereby the actuator may allow movement if the forces on the roller axle become large enough to counteract the force exerted by the fluid at the set pressure
  • the hydraulic cylinder may be single acting or preferably double acting.
  • the first end of the main axle extends outside the frame, and the pellet mill further comprises a motor unit and a coupling, the motor unit supplying rotational movement to the coupling, and, the coupling being adapted to transfer the rotational movement from the motor unit to the first end of the main axle for rotating the main axle
  • the coupling may be a rigid coupling such as a sleeve, muff or flange coupling, or may alternatively be a flexible coupling such as a cardan joint or an Oldham coupler This is advantageous as it simplifies service of the pellet mill - motor unit assembly Further, the transferring of rotational movement via a coupling limits risk of the main axle being non-uniformly loaded.
  • the pellet mill further comprises:
  • the pellet mill further comprises a number of feed conduits extending from outside the pellet mill into the annular die for supplying the pelletizable material to the inner surface of the annular die.
  • This is advantageous as it provides an effective way of supplying the pelletizable material to the inner surface of the die.
  • the feed conduits preferably supply the pelletizable material to the inner surface of the annular die between the rollers.
  • the feed conduits are further preferably supported directly, or via a further element, by the frame and held stationary relative to the frame. This is advantageous as it facilitates the provision of a feeding mechanism for feeding pelletizable material to the annular die in a pellet mill
  • Some embodiments of the pellet mill according to the first aspect of the present invention further comprises a knife operatively positioned relative to the outer surface of the annular die for severing said pellets from said outer surface of said annular die This is advantageous as it allows further treatment of the pellets in the pellet mill and/or ensures uniform dimensions for the pellets.
  • the pellet mill according to the first aspect of the present invention comprises a plurality of knives operatively positioned relative to the outer surface of the annular die for severing the pellets from the outer surface of the annular die.
  • One knife may be provided for each roller.
  • the number is three. This is advantageous as it allows the forces between the rollers and the annular die to even out.
  • one or more subscript roman numerals added to a reference number indicates that the element referred to is a further one of the element designated the un-subscripted reference number.
  • one or more signs added to a reference number indicates that the element referred to has the same or similar function as the element designated the un-subscripted reference number, however, differing in structure.
  • Fig. 1 shows, in section view, a first embodiment of a pellet mill 20 according to the first aspect of the present invention.
  • the pellet mill is driven by a motor unit 10, which will be described in further detail below.
  • the pellet mill comprises a steel frame 22 being composed of a main frame part 24 and an auxiliary frame part 26
  • a main axle 28, made from steel, has a first end 30 driven by the motor unit 10, and an opposite second end 32.
  • the main axle 28 is rotatably supported in the main frame part 24 by first and second main axle bearings 34 and 36 respectively, which rotatably support the main axle 28, and a die holder 38 which is mounted to the second end 32 by means of bolts, one of which is designated the reference numeral 40.
  • the die holder carries an annular die 42, having inner and outer surfaces, designated by the reference numerals 44 and 46, respectively, which is made from steel and comprises a plurality of radial channels 48, through which the pelletizable material is pressed as described in more detail below.
  • the annular die 42 is positioned inside a die compartment 50 having a pellet outlet 52 through which pellets produced by the mill are collected.
  • the die compartment 50 is defined by the volume enclosed by the auxiliary frame part 26 and a roller holder, in its entirety designated the reference numeral 54.
  • the roller holder 54 comprises a first roller holder plate 56 connected to a second roller holder plate 58 via a connecting member 60.
  • the connecting member 60 may be integral with the first and/or the second roller holder plates 56 and 58.
  • the roller holder 54 is further attached to the frame 22 of the pellet mill 20 by being attached to the auxiliary frame part 26 by being mounted to an end plate 62, not shown in fig. 1 , as will be described in more detail below.
  • the mounting of the roller holder 54 to the end plate 62 includes bolts or suitable releaseable fasteners to allow the roller holder 54 to be removed from the pellet mill 20 as needed for repairing or exchanging the annular die 42.
  • the rollers holder 54 carries at least two roller axles, one of which is shown in fig 1 and which is designated the reference numeral 64, which has a first end section 66, and a second end section, representing an exterior end and designating the reference numeral 68. Between the end sections 66 and 68, a middle section 70 is provided The end sections 66 and 68 have a first centre axis 72 and the middle section has a second centre axis 74, which is offset from the first centre axis 72.
  • the first and second end sections 66 and 68 of the roller axle 64 are rotatably supported in the roller holder 54 by corresponding first and second journal bearings 76 and 78, respectively.
  • the pellet mill 20 further includes a plurality of rollers, one roller for each roller axle 6.
  • One of the rollers is shown in fig. 1 and is designated the reference numeral 80, the roller 80 being rotatably supported around the middle section 70 by first and second roller bearings 82 and 84 provided on the middle section 70.
  • the roller axle 64 is eccentrically mounted in the roller holder 54 as the second centre axis 74, around which the roller 80 rotates, is offset from the first centre axis 72, around which the roller axle 64 is rotatably mounted in the roller holder 54.
  • a collar 86 is connected, as will be further shown below, to an end piece 88 which is attached to the second end section 68 of the roller axle 64 via a compression ring 90 and bolts, one of which is designated the reference numeral 92.
  • the end piece 88 further comprises a tapering sleeve, not shown, which is positioned between the compression ring 90 and the second end section 68 in such a way that tightening of the bolts 92 causes the compression ring 90 to move towards the end piece 88, thereby compressing the tapering sleeve for causing the tapering sleeve to engage the second end section 68 for attaching the end piece 88 to the second end section 68.
  • the collar 86 further comprises a pin 94 provided in a handle part 96 for allowing the rotation of the collar 86 by means of an actuator, as discussed further below.
  • the motor unit 10 shown in fig. 1 comprises an electric motor 12 having an output shaft 14 which is connected to the first end 30 of the main axle 28 of the pellet mill 20 via a gearbox 18 and a coupling (not shown)
  • the roller holder axle with roller holder axle bearings used in conventional pellet mills may be omitted.
  • the first and second main axle bearings 34 and 36 can now be dimensioned solely based on the actual loads applied to the first and second main axle bearings 34 and 36, without being unnecessarily overdimensioned due to the now omitted roller holder axle with roller holder axle bearings..
  • the pellet mill 20 is thus simpler and more economical as compared to a conventional pellet mill having a roller holder axle supported within the main axle.
  • the construction of the pellet mill 20 further allows the main axle 28 to be coupled directly to the motor unit 10 as there is no roller holder axle supported within the main axle 28.
  • Fig. 2A shows, in cross sectional side view, the pellet mill 20 with annular die 42 and three rollers including the roller 80.
  • the roller holder 54 is not shown in fig. 2A
  • the annular die 42 rotates clockwise as indicated by the arrow 98 around a main centre axis 100 corresponding to the centre axis of the main axle 28.
  • the roller 80 is caused to rotate clockwise around the second centre axis 74 as indicated by the arrow 102.
  • Three feed conduits are positioned between the rollers to supply portions of pelletizable material 106 to the rollers During the operation of the pellet mill 20, the portion of pelletizable material 106 is pressed between the roller 80 and the inner surface 44 of the annular die 42 and pressed through the radial channels 48 to form pellets (not shown)
  • a plurality of knifes provided within the die compartment 50 are positioned close to the outer surface 46 of the annular die 42 to sever the pellets from the outer surface 46 of the annular die 42 for allowing the pellets to exit the die compartment 50 through the pellet outlet 52.
  • the construction of the pellet mill 20 further facilitates the provision of the feed conduits 104.
  • the feed conduits 104 may be simply positioned between the rollers, including the roller 80, without risk of being damaged in the event of an overload.
  • Fig. 2B shows the pellet mill 20 with the end plate 62.
  • the end plate 62 is attached to the auxiliary frame part 26 and carries the roller holder 54 (not shown in fig. 2B ).
  • the collar 86 with handle part 96, as well as the end piece 88, extends through the end plate 62.
  • the end piece 88 further comprises two seats, one of which is designated the reference numeral 108. Rotation of the collar 86 is transferred to the seats 108 via shear pins, one of which is designated the reference numeral 110, extending through corresponding bores (not shown) in the collar 86 and the seats 108.
  • Two oppositely positioned stoppers, one of which is designated the reference numeral 112 are provided within the collar 86 for engaging the seats 108 to prevent excessive rotation of the end piece 88 in the event that the shear pins 110 break, as will be described in further detail below.
  • Collar 86 may be acted upon by an actuator, in its entirety designated the reference numeral 114, being fastened to the end plate 62.
  • the actuator 114 comprises a hydraulic cylinder 116 in which one end of a piston 118 is positioned such that the supply or withdrawal of hydraulic fluid to the hydraulic cylinder 116 causes the piston 118 to extend or retract relative to the hydraulic cylinder 116.
  • the piston 118 is connected to the handle part 96 of the collar 86 via the pin 94 and a link part 120, which is threadedly connected to the piston 118 via a rod 122, which rod 122 is also threadedly connected to the piston 118.
  • a nut 124 is fastened to the rod 122 for allowing the rod 122 to be rotated for fine tuning/zero point adjustment of the rotational position of the collar 86
  • the hydraulic cylinder 116 is further connected to the end plate 62 via a pin 126 and a bracket 128, which bracket 128 is fastened to the end plate 62 by bolts 130 and 132.
  • the construction of the pellet mill 20 facilitates the provision of the actuators 1 14.
  • the actuators 114 are not confined to the roller holder 54 but can instead be connected to the frame 22, directly, or as shown in fig. 2B , via the end plate 62
  • the function of the actuator 114 will now be described in further detail with reference to figs 3-4
  • Fig. 3 shows, in partial cutaway side view, the pellet mill 20 with the end plate 62 partly cut away.
  • fig. 3 shows the offset of the second centre axis 74 from the first centre axis 72.
  • the second centre axis 74 is the axis around which the roller 80 rotates
  • the first centre axis 72 is the axis around which the first and second end sections 66 and 68 of the roller axle 64 rotate.
  • Fig. 4A shows the roller 80 in contact with the inner surface 44 of the annular die 42.
  • the actuator 114 has been activated to retract the piston 118 into the hydraulic cylinder 116 thereby pulling on the handle part 96 for turning the collar 86 causing the rotation of the collar 86 as indicated by the arrow designated the reference numeral 136.
  • the turning of the collar 86 is transferred to the end piece 88 via the shear pins 110 causing the roller axle 64 to turn.
  • the second centre axis 74 moves in a clockwise circular motion around the first centre axis 72, whereby the distance between the roller 80 and the inner surface 44 of the annular die 42 increases as indicated by the dashed line indicating the previously occupied position of the roller 80, designated the reference numeral 138.
  • the increase of the distance between the roller 80 and the inner surface 44 of the annular die 42 may, as described above in relation to figs 4A-4B , be deliberate such as upon the detection of an overload event, in which case the distance may be decreased again by extracting the piston 118 for turning the roller axle 64 counter-clockwise and decreasing the distance
  • the increase of the distance between the roller 80 and the inner surface 44 of the annular die 42 may also be spontaneous due to an increased amount of pelletizable material 106 being present between the roller 80 and the inner surface 44 of the annular die 42, which increased amount of pelletizable material 106 forces the roller 80 away from the inner surface 44 of the annular die 42 against the hydraulic pressure present within the hydraulic cylinder 116 of the actuator 114
  • the hydraulic pressure may be preset to provide a specific pressure between the roller 80 and the inner surface 44 of the annular die 42.
  • the pellet mill 20 possesses, by means of the actuator 114 and the roller axle 64, safety features for preventing damage to the pellet mill 20 in the event of an overload event. Further, in the event of extraordinarily severe overloading events or seizures of the pellet mill 20, such as for example being caused by the introduction of a foreign object, such as a forgotten handtool etc in the annular die 42, the shear pin 110 prevents damage to the pellet mill 20, particularly to the actuator 114 and the first and second roller bearings 82 and 84, by shearing, thereby allowing the roller axle 64 to rotate to the position where the distance between the roller 80 and the inner surface 44 of the annular die 42 is at a maximum, i.e.
  • the stopper 112 engages the seat 108 thereby limiting the rotation of the roller axle 64 for preventing the roller axle 64 from rotating past the position of maximum distance between the roller 80 and the inner surface 44 of the annular die 42 for preventing the roller 80 to strike the inner surface 44 of the annular die 42 and potentially damaging the annular die 42 and/or the roller 80 and/or the first and second roller bearings 82 and 84.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Crushing And Grinding (AREA)
EP11164246A 2011-04-29 2011-04-29 Pelletiermaschine Withdrawn EP2517869A1 (de)

Priority Applications (23)

Application Number Priority Date Filing Date Title
EP11164246A EP2517869A1 (de) 2011-04-29 2011-04-29 Pelletiermaschine
CA2834119A CA2834119C (en) 2011-04-29 2012-04-27 Method of controlling a pellet mill
PCT/EP2012/057723 WO2012146696A1 (en) 2011-04-29 2012-04-27 Pellet mill
BR112013027359-3A BR112013027359B1 (pt) 2011-04-29 2012-04-27 Fresadora de pélete para formar material peletizado e método para formar péletes
BR112013027404A BR112013027404A2 (pt) 2011-04-29 2012-04-27 método de controle de moinho de pelotização
PCT/EP2012/057726 WO2012146699A1 (en) 2011-04-29 2012-04-27 Method of controlling a pellet mill
EP12717300.3A EP2701898A1 (de) 2011-04-29 2012-04-27 Verfahren zur steuerung einer pelletiermaschine
US14/114,691 US20140138865A1 (en) 2011-04-29 2012-04-27 Method of Controlling a Pellet Mill
PT127189629T PT2701899E (pt) 2011-04-29 2012-04-27 Prensa granuladora com um sistema de alimentação e um método para a moldagem de material granulado
RU2013152963/02A RU2550468C1 (ru) 2011-04-29 2012-04-27 Гранулятор с улучшенной системой подачи и способ образования гранулированного материала
EP12718962.9A EP2701899B1 (de) 2011-04-29 2012-04-27 Pelletiermaschine mit einem zuführsystem und verfahren zur herstellung von pelletiertem material
RU2013153092/02A RU2557858C2 (ru) 2011-04-29 2012-04-27 Способ управления гранулятором
US14/114,714 US8974710B2 (en) 2011-04-29 2012-04-27 Pellet mill having improved construction
RU2013152962/02A RU2563395C2 (ru) 2011-04-29 2012-04-27 Гранулятор улучшенной конструкции
CA2834120A CA2834120C (en) 2011-04-29 2012-04-27 A pellet mill with an improved feed system and a method of forming pelleted material
CN201280021304.5A CN103702824B (zh) 2011-04-29 2012-04-27 制粒机
BR112013027444-1A BR112013027444B1 (pt) 2011-04-29 2012-04-27 Usina de peletização e método de preparação de péletes a partir de um material peletizável
EP12723395.5A EP2701900B1 (de) 2011-04-29 2012-04-27 Pelletiermaschine
CN201280021302.6A CN103687719B (zh) 2011-04-29 2012-04-27 具有进给系统的制丸机和形成丸粒材料的方法
CA2834181A CA2834181C (en) 2011-04-29 2012-04-27 Pellet mill having improved construction
PCT/EP2012/057727 WO2012146700A1 (en) 2011-04-29 2012-04-27 A pellet mill with an feed system and a method of forming pelleted material
US14/114,722 US9616605B2 (en) 2011-04-29 2012-04-27 Pellet mill with an improved feed system and a method of forming pelleted material
CN201280021303.0A CN103717385B (zh) 2011-04-29 2012-04-27 制丸机的控制方法

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Citations (15)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2626576A (en) * 1948-12-10 1953-01-27 Edgar N Meakin Roller adjustment indicator for pellet mills
US2887718A (en) * 1955-02-15 1959-05-26 Sprout Waldron & Co Inc Pellet mill
GB989603A (en) 1963-09-30 1965-04-22 Muhlenbau Dresden Veb Pressure-application device
DE7714334U1 (de) * 1977-05-06 1977-08-25 Kloeckner, Hermann, 3436 Hessisch- Lichtenau Vorrichtung zum verpressen von staubfoermigen, feinkoernigen oder fasrigen anorganischen oder organischen stoffen, insbesondere futtermittel
DE2917453A1 (de) 1979-04-30 1980-11-13 Unilever Nv Extrusionsverfahren und -vorrichtung
FR2548957A1 (fr) * 1983-06-23 1985-01-18 Realisa Thermiques Meca Et Galet de presse a granuler avec tete de reglage de l'excentricite
US4770621A (en) 1986-01-24 1988-09-13 Gebruder Buhler Ag Pellet mill
US4838779A (en) 1986-05-20 1989-06-13 Van Aarsen Machinefabriek, B.V. Apparatus for a pelletizer having hydraulically adjustable pressing rolls
EP0396200A1 (de) 1989-05-03 1990-11-07 Van Aarsen Machinefabriek B.V. Pelletpresse
NL8901038A (nl) * 1989-04-25 1990-11-16 Robinson Milling Systems B V Pelleteerpers.
US5248469A (en) 1992-10-19 1993-09-28 California Pellet Mill Company Mechanical remote roll adjusting apparatus and method for a pellet mill
EP0694380A1 (de) * 1994-07-26 1996-01-31 Salzhausener Maschinenbautechnik SALMATEC GmbH Verfahren zum Verarbeiten von pelletierbarem Material
US6244850B1 (en) 1996-10-18 2001-06-12 Pelleting Technology Nederland V.O.F. Pelletizing press
WO2004073963A1 (en) 2003-02-21 2004-09-02 Sprout-Matador A/S Roller adjustment apparatus for an extrusion mill
EP2105292A1 (de) 2008-03-26 2009-09-30 Salzhausener Maschinenbautechnik Salmatec GmbH Kollerverstellvorrichtung

Patent Citations (16)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2626576A (en) * 1948-12-10 1953-01-27 Edgar N Meakin Roller adjustment indicator for pellet mills
US2887718A (en) * 1955-02-15 1959-05-26 Sprout Waldron & Co Inc Pellet mill
GB989603A (en) 1963-09-30 1965-04-22 Muhlenbau Dresden Veb Pressure-application device
DE7714334U1 (de) * 1977-05-06 1977-08-25 Kloeckner, Hermann, 3436 Hessisch- Lichtenau Vorrichtung zum verpressen von staubfoermigen, feinkoernigen oder fasrigen anorganischen oder organischen stoffen, insbesondere futtermittel
DE2917453A1 (de) 1979-04-30 1980-11-13 Unilever Nv Extrusionsverfahren und -vorrichtung
FR2548957A1 (fr) * 1983-06-23 1985-01-18 Realisa Thermiques Meca Et Galet de presse a granuler avec tete de reglage de l'excentricite
EP0371519A2 (de) * 1986-01-24 1990-06-06 Buehler Ag Würfelpresse
US4770621A (en) 1986-01-24 1988-09-13 Gebruder Buhler Ag Pellet mill
US4838779A (en) 1986-05-20 1989-06-13 Van Aarsen Machinefabriek, B.V. Apparatus for a pelletizer having hydraulically adjustable pressing rolls
NL8901038A (nl) * 1989-04-25 1990-11-16 Robinson Milling Systems B V Pelleteerpers.
EP0396200A1 (de) 1989-05-03 1990-11-07 Van Aarsen Machinefabriek B.V. Pelletpresse
US5248469A (en) 1992-10-19 1993-09-28 California Pellet Mill Company Mechanical remote roll adjusting apparatus and method for a pellet mill
EP0694380A1 (de) * 1994-07-26 1996-01-31 Salzhausener Maschinenbautechnik SALMATEC GmbH Verfahren zum Verarbeiten von pelletierbarem Material
US6244850B1 (en) 1996-10-18 2001-06-12 Pelleting Technology Nederland V.O.F. Pelletizing press
WO2004073963A1 (en) 2003-02-21 2004-09-02 Sprout-Matador A/S Roller adjustment apparatus for an extrusion mill
EP2105292A1 (de) 2008-03-26 2009-09-30 Salzhausener Maschinenbautechnik Salmatec GmbH Kollerverstellvorrichtung

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