EP2949811B1 - Segment de lame pour raffineur à disques - Google Patents
Segment de lame pour raffineur à disques Download PDFInfo
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- EP2949811B1 EP2949811B1 EP15166589.0A EP15166589A EP2949811B1 EP 2949811 B1 EP2949811 B1 EP 2949811B1 EP 15166589 A EP15166589 A EP 15166589A EP 2949811 B1 EP2949811 B1 EP 2949811B1
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- European Patent Office
- Prior art keywords
- blade
- blade segment
- side edge
- refining surface
- segment
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- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21D—TREATMENT OF THE MATERIALS BEFORE PASSING TO THE PAPER-MAKING MACHINE
- D21D1/00—Methods of beating or refining; Beaters of the Hollander type
- D21D1/20—Methods of refining
- D21D1/30—Disc mills
- D21D1/306—Discs
Definitions
- the invention relates to a blade segment of a disc refiner according to the preamble of claim 1, which is intended for refining lignocellulose material used in the production of fibrous material such as paper and board.
- a disc refiner consists of two or more opposite refining elements, at least one of which refining elements is rotatable.
- the rotating refining element can be referred to as rotor, and the non-rotating, or stationary, refining element can be referred to as stator.
- stator Between the refining elements is a refining gap, where the material to be refined is ground against the refining surfaces.
- the refining surface of the refining elements comprises blade bars and blade grooves.
- the refining surface is constituted by attaching one or more blade elements to the frame structure of the refining element, with the blade element having a refining surface which comprises blade bars and blade grooves.
- said blade element can also be attached directly to the frame structure of the refiner.
- the refining surface of the refining element can consist of one uniform blade element, in which case a single individual annular planar blade element can constitute an entire refining surface of a refining element.
- the refining surface of the refining element of a disc refiner is, however, constituted of several planar blade segments placed side by side, in which case each blade segment on its own constitutes only some portion of the complete annular refining surface of the refining element, and the blade segments placed side by side together constitute the complete annular refining surface of the refining element.
- a typical blade segment comprises an inner circumference of the blade segment directed in the direction of the inner circumference of the refining element and an outer circumference of the blade segment directed in the direction of the outer circumference of the refining element, and a first side edge of the blade segment and a second side edge of the blade segment connecting the inner circumference and the outer circumference of the blade segment, where the first side edge and the second side edge are straight, i.e. in the radial direction of the blade segment so that the blade segment resembles the shape of a sector of a ring.
- the side edges of the blade segments constitute a point of discontinuity at the interface or at the point of contact of adjacent blade segments, which can result for example in disturbances both in the actual refining and in the flow of the material that is to be refined and that has been refined at the interfaces of adjacent blade segments and in their vicinity.
- blade segments where the side edges are not straight, i.e. not in the radial direction of the blade segment, but instead in the vicinity of the inner circumference the side edge is in the radial direction and then turns at one point away from the radial direction against the intended direction of rotation of the blade segment.
- Such a construction requires precise tolerances at the interfaces of the blade segments so that unrefined pulp would not escape through the refiner.
- the blade segment comprises an inner circumference and an outer circumference as well as a first side edge and a second side edge which combine the inner circumference and the outer circumference, wherein the first side edge and the second side edge of the blade segment are curved so that one side edge is concave and the other side edge is convex.
- EP 2 559 807 A1 shows a refining plate segment for a mechanical refiner of lignocellulosic material including: a convex conical refining surface on a convex conical substrate of the plate, wherein the refining surface is adapted to face a concave conical refining surface of an opposing refiner plate, the convex conical refining surface including bars and grooves formed between adjacent bars, wherein an angle of each bar with respect to a reference line parallel to a rotational axis of the refiner increases at least 15 degrees and the angle is a holdback angle is 10 to 45 degrees at a periphery of the refining surface, and wherein the bars each include a leading sidewall having an irregular surface having protrusions extending outwardly from the sidewall toward a sidewall on an adjacent bar.
- WO 95/25199 A1 shows an annular base having radial breaker bars for transporting high consistency stock from a flinger nut section of a refiner to refining plates.
- the radial breaker bars are curved so that the radial outward ends curve away from the direction of rotation.
- the object of the invention is achieved by a blade segment of a disc refiner having the features of claim 1.
- the blade segment of a disc refiner according to the invention is defined in claim 1.
- the first side edge and the second side edge of the blade segment are curved side edges which comprise a single radius of curvature.
- the blade segment comprises a refining surface, which comprises first refining surface portions that refine the material to be refined and second refining surface portions that run between the first refining surface portions and that carry the material to be refined, and the center line of the first refining surface portions and of the second refining surface portions is curved.
- the magnitude of the radius of curvature and the direction of curvature of the center line of the first side edge and second side edge of the blade segment and of the second refining surface portion are essentially the same.
- the first refining surface portion comprises a first blade bar running from the direction of the inner circumference of the blade segment to the direction of the outer circumference and the second refining surface portion is a first blade groove running from the direction of the inner circumference of the blade segment to the direction of the outer circumference and the upper surface of the first blade bar comprises second blade bars and between them second blade grooves.
- the first refining surface portion comprises blade bars and between them blade grooves
- the second refining surface portion is a blade groove running from the direction of the inner circumference of the blade segment to the direction of the outer circumference.
- At least one side edge of the blade segment comprises an area free from blade bars to constitute at least some portion of the second refining surface portion that is constituted between two adjacent blade segments.
- the volume of at least one blade groove included in the first refining surface portion is adapted to change in the run direction of the blade groove.
- the width and/or depth of the blade groove included in the first refining surface portion is adapted to change in the run direction of the blade groove.
- the width and/or depth of the first blade groove constituting the second refining surface portion is adapted to change in the run direction of the blade groove.
- the portion of the non-pumping curve is 0 to 50%, preferably approximately 20 to 40% and most preferably over approximately 30% of the radius of the blade segment.
- the blade segment is a blade segment of a rotatable refining element.
- Figure 1 schematically shows a blade segment 1 of a disc refiner, i.e. a planar blade segment 1 seen in the direction of the refining surface 2 of the blade segment 1.
- the blade segment 1 shown in Figure 1 is thus a planar blade segment that can be adapted to be a part of the stationary refining element of the disc refiner, i.e. a part of the stator, whereby the refining surface 2 of the blade segment 1 constitutes a portion of the refining surface of the stationary refining element, or it can be adapted to be a part of the rotating refining element of the disc refiner, i.e.
- the refining surface 2 of the blade segment 1 constitutes a portion of the refining surface of the rotatable refining element.
- the blade segment 1 can have securing openings 13, through which securing bolts can be inserted in order to fasten the blade segment 1 to the refining element.
- the blade segment can also be secured to the refining element so that the securing points do not extend through the blade segment, but there is bolt securing only at the back part of the blade segment, whereby the refining surface of the blade segment, i.e. the blade surface, remains intact.
- the blade segment 1 comprises an inner circumference 3 or inner edge 3 or feed edge 3 directed to the direction of the inner circumference of the refining element of the refiner, and from the direction of the inner circumference 3 or inner edge 3 or feed edge 3 the material to be refined is fed into the refining gap, i.e. blade gap, located between the opposite refining elements of the refiner.
- the blade segment 1 further comprises an outer circumference 4 or outer edge 4 or outlet edge 4 directed to the direction of the outer circumference of the refining element of the refiner, and the material to be refined travels in the blade gap of the refiner during refining to the direction of the outer circumference 4 or outer edge 4 or outlet edge 4 and the material that has been refined exits the blade gap of the refiner through it.
- the inner circumference 3 and outer circumference 4 of the blade segment 1 constitute a portion of the inner circumference and outer circumference of a complete refining surface of a refining element.
- the blade segment further comprises a first side edge 5 and a second side edge 6 combining the inner circumference 3 and outer circumference 4 of the blade segment 1.
- the refining surface 2 of the blade segment 1 comprises first refining surface portions 7 and between them second refining surface portions 8, with the first refining surface portions 7 constituting refining surface portions that refine the material to be refined and with the second refining surface portions constituting refining surface portions that run between the first refining surface portions and that carry the material to be refined.
- the first refining surface portion 7 of the blade segment 1 comprises a first blade bar 9 and second blade bars 11 constituted at its upper surface and between them second blade grooves 12, with the second refining surface portions 8 being constituted by the first blade grooves 10 between the first blade bars 9, and the first blade grooves 10 constitute the feed grooves 10 of the blade segment 1, which feed grooves 10 carry the material to be refined from the direction of the inner circumference 3 of the blade segment 1 to the direction of the outer circumference 4.
- the width of the second blade bars 11 can be for example approximately 1.2 to 1.4 millimeters and the width of the second blade grooves 12 can be for example approximately 1.8 to 2.0 millimeters.
- the depth of the second blade grooves 12 can be for example approximately 5.0 to 7.0 millimeters.
- the width of the first blade grooves 10 on the inner circumference 3 of the blade segment 1 can be for example approximately 15 mm and can become narrower towards the outer circumference 4 for example so that the width of the first blade grooves 10 on the outer circumference 4 of the blade segment 1 is for example approximately 5 mm.
- the depth of the first blade grooves 10, i.e. the distance from the upper surface of the second blade bars 11 to the bottom of the first blade bars 10 is greater than the depth of the second blade grooves 12.
- the depth of the first blade grooves 10 can become smaller, i.e.
- the first blade grooves 10 can become shallower towards the outer circumference 4 of the blade segment 1, but in this case, too, the depth of the first blade grooves 10 on the outer circumference 4 of the blade segment 1 is greater than the depth of the second blade grooves 12.
- the second blade bars 11 and between them the second blade grooves 12 constitute dense blading, i.e. so-called microblading or microgrooving, on the refining surface 2 of the blade segment 1, whereby the shearing length of the refining surface 2 of the blade segment 1 becomes considerably large.
- Said second blade bars 11 and second blade grooves 12 can be straight or curved in their respective run direction.
- the width and height of the second blade bars 11 and correspondingly the width and depth of the second blade grooves 12 can be constant or they can vary in the run direction of said blade bars 11 and blade grooves 12.
- the first blade bars 9 and the first blade grooves 10 are curved, i.e. they run from the direction of the inner circumference 3 of the blade segment 1 to the direction of the outer circumference 4 of the blade segment 1 in a curved pattern, or in other words the center lines of the first blade bars 9 and the first blade grooves 10 are curved, i.e. they run from the direction of the inner circumference 3 of the blade segment 1 to the direction of the outer circumference 4 of the blade segment 1 in a curved pattern.
- the center line referred to in Figure 1 is only presented at one first blade groove 10 on the side of the first side edge 5 and marked with reference marking CL.
- the shape of the first blade groove 10 is curved so that in the vicinity of the inner circumference 3 of the blade segment 1 it is pumping, i.e. it enhances the travel of the pulp to be refined from the direction of the inner circumference 3 of the blade segment 1 towards the outer circumference 4, when the blade segment 1 constitutes a portion of the refining surface of the rotatable refining element and when the direction of rotation corresponds to the direction indicated by the arrow denoted with reference marking RD in Figure 1 .
- the blade groove 10 curves back so that in the vicinity of the outer circumference 4 of the blade segment 1 the blade groove 10 is non-pumping, i.e.
- the material to be refined is thus subject to a force effect which slows down or holds the travel of the material to be refined towards the outer circumference 4 of the blade segment 1, in other words it has a non-pumping effect on the material to be refined.
- the direction of the feed groove 10 on the side of the inner circumference 3 of the blade segment 1 intensifies the travel of the material to be refined towards the direction of the outer circumference 4 of the blade segment 1, and correspondingly on the side of the outer circumference 4 of the blade segment 1 the direction of the feed groove 10 slows down the travel of the material to be refined towards the direction of the outer circumference 4 of the blade segment 1.
- Figure 1 shows and also Figures 2 and 3 show the portion of the refining surface of the rotatable refining element, i.e. of the refining surface of the rotor, constituting the blade segment 1, but a similar piece can also be used in the stationary refining element, i.e. in the stator.
- the first side edge 5 of the blade segment 1 thus corresponds to the side edge of the blade segment adapted to the direction of rotation of the rotatable refining element and the second side edge 6 of the blade segment 1 thus corresponds to the side edge of the blade segment adapted to the direction opposite to the direction of rotation of the rotatable refining element.
- the first side edge 5 of the blade segment 1 thus constitutes the front edge of the blade segment 1 and the second side edge 6 of the blade segment 1 constitutes the back edge of the blade segment 1.
- the first side edge 5 and second side edge 6 of the blade segment 1 are curved, in other words the first or front side edge 5 and second or back side edge 6 of the blade segment 1 run in a curved pattern from the inner circumference 3 of the blade segment 1 to the outer circumference 4 so that the first side edge 5 of the blade segment 1 has the shape of a concave curve and the second side edge 6 has the shape of a convex curve, in other words the center point of the radius of curvature of the curves constituted by the side edges 5 and 6 is residing in the direction of rotation RD of the rotatable refining element, ie.
- the center points of the radii of the side edge curves reside on the left side of the corresponding side edges, and, respectively, the bottom points of the side edge curves are thus residing opposite to the rotating direction. Since the center point of the radius of curvature of the curves constituted by both side edges 5 and 6 is located in the same direction with respect to the direction of rotation RD of the rotatable refining element, it can be said that the direction of curvature of the curved side edges 5, 6 is the same. Moreover, in order to simplify the structure of the blade segment 1, the magnitude or value of the radii of curvature of the side edges 5, 6 is essentially the same.
- the first side edge 5 and second side edge 6 of the blade segment 1 are curved so that the first side edge 5 and second side edge 6 curve in the vicinity of the inner circumference 3 to the pulp-carrying direction, i.e. to the pumping direction, and in the vicinity of the outer circumference 4 to the pulp-holding direction, i.e. to the non-pumping direction.
- Both the first curved side edge 5 and second curved side edge 6 of the blade segment 1 are composed of only one radius of curvature.
- the magnitude of the radius of curvature may vary on the basis of the size category of the blade segment 1, i.e. on the basis of the distance between the inner circumference 3 and outer circumference 4 of the blade segment 1, i.e. on the basis of the radius R of the blade segment 1.
- Figure 1 schematically shows the radius R of the blade segment 1 beside the first side edge 5 of the blade segment 1. The essential matter is that when the blade segment 1 constitutes a portion of the refining surface of the rotatable refining element, the side edges 5 and 6 of the blade segment 1 curve in the vicinity of the inner circumference 3 to the pulp-carrying direction, i.e.
- the portion of the non-pumping curve is 0 to 50%, preferably approximately 20 to 40% and most preferably over approximately 30% of the radius R of the blade segment 1, when used as a rotating refining element.
- the curved side edges 5 and 6 of the blade segment 1 are especially advantageous when the second refining surface portions 8, i.e. the first blade grooves 10, i.e. the feed grooves 10 included in the blade segment 1 are made to be curved, as presented in Figure 1 and in the related description above, so that the radius and direction of curvature of the side edges 5 and 6 of the blade segment 1 and the radius and direction of curvature of the first blade grooves 10 of the blade segment 1 are the same.
- the first blade grooves 10 running from the direction of the inner circumference 3 of the blade segment 1 to the direction of the outer circumference 4 in a curved manner can be arranged easily in the blade segment 1 without a need for the first blade bar 9 or the first blade groove 10 to continue from the direction of the inner circumference 3 to the direction of the outer circumference 4 over the interface of adjacent blade segments 1 from one blade segment to another in order to accomplish a desired refining surface blade pattern which comprises curved refining surface portions.
- the first blade grooves 10 can hence run from the direction of the inner circumference 3 of the blade segment 1 to the direction of the outer circumference 4 essentially as intact uniform portions without any points of discontinuity that might cause disturbance both in the actual refining and in the flow of the material that is to be refined and that has been refined.
- Another advantage is that the microgrooving constituted by the second blade bars 11 and the second blade grooves 12 on the refining surface 2 is directed to the pumping direction, in other words to the same direction as the curvature of the first side edge 5 on the side of the inner circumference 3 of the blade segment 1, when used as a rotating refining element
- the first side edge 5 curves away from the direction of the second blade grooves 12, i.e. to the holding direction.
- FIG 2 schematically shows a second blade segment 1 of a disc refiner seen in the direction of the refining surface 2 of the blade segment 1.
- the blade segment 1 comprises an inner circumference 3 and an outer circumference 4 of the blade segment 1 and a curved first side edge 5 and a curved second side edge 6 combining the inner circumference 3 and the outer circumference 4.
- the refining surface 2 of the blade segment 1 comprises first refining surface portions 7 and between them second refining surface portions 8, with the first refining surface portions 7 constituting refining surface portions that refine the material to be refined and with the second refining surface portions 8 constituting refining surface portions that run between the first refining surface portions and that carry the material to be refined.
- the center lines of the refining surface portions 7, 8 are curved from the direction of the inner circumference 3 of the blade segment 1 to the direction of the outer circumference 4 of the blade segment 1 as shown in Figure 1 .
- the first refining surface portion 7 comprises a first blade bar 9 and second blade bars 11 constituted at its upper surface and between them second blade grooves 12, with the second refining surface portions 8 being constituted by the first blade grooves 10 between the first blade bars 9, and the first blade grooves 10 constitute the feed grooves 10 of the blade segment 1, which feed grooves 10 carry the material to be refined from the direction of the inner circumference 3 of the blade segment 1 to the direction of the outer circumference 4.
- the width of the second blade bars 11 can be for example approximately 3.5 to 4.0 millimeters and the width of the second blade grooves 12 can be for example approximately 4.0 to 4.5 millimeters.
- the depth of the second blade grooves 12 can be for example approximately 5.0 to 11.0 millimeters.
- the second blade bars 11 and the second blade grooves 12 can be straight or curved in their respective run direction, as shown in Figure 2 .
- the width and height of the second blade bars 11 and correspondingly the width and depth of the second blade grooves 12 can be constant or they can vary in the run direction of said blade bars 11 and blade grooves 12 within the above-mentioned range of variation.
- FIG 3 schematically shows a third blade segment 1 of a disc refiner seen in the direction of the refining surface 2 of the blade segment 1.
- the blade segment 1 comprises an inner circumference 3 and an outer circumference 4 of the blade segment 1 and a curved first side edge 5 and a curved second side edge 6 combining the inner circumference 3 and the outer circumference 4.
- the refining surface 2 of the blade segment 1 comprises first refining surface portions 7 and between them second refining surface portions 8, with the first refining surface portions 7 constituting refining surface portions that refine the material to be refined and with the second refining surface portions 8 constituting refining surface portions that run between the first refining surface portions and that carry the material to be refined.
- the center lines of the refining surface portions 7, 8 are curved from the direction of the inner circumference 3 of the blade segment 1 to the direction of the outer circumference 4 of the blade segment 1 as shown in Figure 1 .
- the first refining surface portion 7 comprises a first blade bar 9 and second blade bars 11 constituted at its upper surface and between them second blade grooves 12, with the second refining surface portions 8 being constituted by the first blade grooves 10 between the first blade bars 9, and the first blade grooves 10 constitute the feed grooves 10 of the blade segment 1, which feed grooves 10 carry the material to be refined from the direction of the inner circumference 3 of the blade segment 1 to the direction of the outer circumference 4.
- the microblading or microgrooving constituted by the second blade bars 11 and the second blade grooves 12 has been arranged to be sparser than on the side of the outer circumference 4 of the blade segment 1 or in its vicinity.
- the width of the second blade bars 11 can be for example approximately 2.3 millimeters, and the width of the second blade grooves 12 can be for example approximately 7.0 to 9.0 millimeters, and the depth of the second blade grooves 12 can be for example approximately 8.0 to 18.0 millimeters.
- the width of the second blade bars 11 can be for example approximately 2.2 millimeters, and the width of the second blade grooves 12 can be for example approximately 2.8 to 3.6 millimeters, and the depth of the blade grooves 10 can be for example approximately 4.0 to 8.0 millimeters.
- the blade bars 11 and the blade grooves 12 can be straight or curved in their respective run direction, and the width and depth of the blade grooves 12 can be constant or they can vary in the run direction of said blade grooves 12 for example within the above-mentioned range of variation.
- an area free from blade bars 9, 11 has been arranged beside the first side edge 5, whereby said area is intended to constitute at least a portion of the portion of the refining surface 2 of the blade segment 1 intended as a feed groove 10.
- the portion arranged beside the first side edge 5 of the blade segment 1 free from blade bars 9, 11 is preferably dimensioned so that said portion can constitute a whole feed groove 10, whereby when placing the first side edge 5 of the blade segment 1 with a butt joint with the second side edge 6 of the blade segment 1 located adjacent to it, the formation of an interface between adjacent blade segments is avoided in the area of the feed groove 10, since this might disturb the flow of the material to be refined in the feed groove 10.
- a blade segment 1 of a disc refiner intended for refining fibrous material is provided, which blade segment 1 comprises an inner circumference 3 and an outer circumference 4 as well as a first side edge 5 and a second side edge 6 which combine the inner circumference 3 and the outer circumference 4.
- the first side edge 5 and the second side edge 6 of the blade segment 1 are curved so that one side edge is concave and the other side edge is convex.
- the first side edge 5 and the second side edge 6 of the blade segment 1 curve in the vicinity of the inner circumference 3 to the pulp-carrying direction, i.e. to the pumping direction, and in the vicinity of the outer circumference 4 to the pulp-holding direction, i.e. to the non-pumping direction, when used as as rotating refining element.
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Claims (10)
- Segment de lame (1) pour un raffineur à disques prévu pour raffiner un matériau fibreux, lequel segment de lame (1) comprend une circonférence interne (3) et une circonférence externe (4) ainsi qu'un premier bord latéral (5) et un second bord latéral (6) qui combinent la circonférence interne (3) et la circonférence externe (4), dans lequel :le premier segment latéral (5) et le second segment latéral (6) du segment de lame (1) sont incurvés de sorte qu'un bord latéral est concave et l'autre bord latéral est convexe,le segment de lame (1) a une surface de raffinage (2) comprenant des premières parties de surface de raffinage (7) et entre elles, des secondes parties de surface de raffinage (8), les premières parties de surface de raffinage (7) constituant des parties de surface de raffinage qui sont configurées pour raffiner le matériau fibreux à raffiner, et les secondes parties de surface de raffinage (8) constituant les parties de surface de raffinage qui s'étendent entre les premières parties de surface de raffinage (7) et qui sont configurées pour transporter le matériau fibreux à raffiner,chacune des premières parties de surface de raffinage (7) comprend des premières barres de lame (9),les secondes parties de surface de raffinage (8) sont constituées par des premières rainures de lame (10) entre les premières barres de lame (9), et les premières rainures de lame (10) sont configurées pour transporter le matériau fibreux à raffiner de la direction de la circonférence interne (3) à la direction de la circonférence externe (4), etles premières barres de lame (9) et les premières rainures de lame (10) sont incurvées,le premier bord latéral (5) constitue le bord avant du segment de lame (1) et forme le bord latéral concave du segment de lame (1),le second bord latéral (6) constitue le bord arrière du segment de lame (1) et forme le bord latéral convexe du segment de lame (1),les premières rainures de lame (10) sont incurvées dans la même direction que le bord avant (5), caractérisé en ce que chacune des premières parties de surface de raffinage (7) comprend également des secondes barres de lame (11) sur la surface supérieure des premières barres de lame (9) et constituant entre elles des secondes rainures de lame (12), et en ce que :
une largeur des premières rainures de lame (10) sur la circonférence interne (3) devient plus étroite vers la circonférence externe (4). - Segment de lame selon la revendication 1, caractérisé en ce que le premier bord latéral (5) et le second bord latéral (6) du segment de lame (1) sont des bords latéraux incurvés (5, 6) qui comprennent un seul rayon de courbure.
- Segment de lame selon la revendication 1 ou 2, caractérisé en ce que la ligne centrale (CL) des premières parties de surface de raffinage (7) et des secondes parties de surface de raffinage (8) est incurvée.
- Segment de lame selon la revendication 1, 2 ou 3, caractérisé en ce que la grandeur du rayon de courbure et la direction de courbure de la ligne centrale (CL) du premier bord latéral (5), du second bord latéral (6) et de la seconde partie de surface de raffinage (8) du segment de lame (1) sont essentiellement identiques.
- Segment de lame selon l'une quelconque des revendications 3 à 4, caractérisé en ce qu'au moins un bord latéral (5, 6) du segment de lame (1) comprend une zone dépourvue de barres de lame (9, 11) pour constituer au moins une certaine partie de la seconde partie de surface de raffinage (8) qui est constituée entre deux segments de lame (1) adjacents.
- Segment de lame selon l'une quelconque des revendications 3 à 5, caractérisé en ce que le volume d'au moins une rainure de lame (12) comprise dans la première partie de surface de raffinage (7) est adapté pour changer dans la direction de circulation de la rainure de lame (10, 12) .
- Segment de lame selon la revendication 6, caractérisé en ce que le volume et/ou la profondeur de la seconde rainure de lame (12) comprise dans la première partie de surface de raffinage (7) est adapté(e) (sont adaptés) pour changer dans la direction de circulation de la rainure de lame (12).
- Segment de lame selon l'une quelconque des revendications 4 à 7, caractérisé en ce que :
le volume et/ou la profondeur de la première rainure de lame (10) qui constitue la seconde partie de surface de raffinage (8) est adapté(e) (sont adaptés) pour changer dans la direction de circulation de la rainure de lame (10). - Segment de lame selon la revendication 1, caractérisé en ce que le segment de lame (1) est un segment de lame pour un élément de raffinage rotatif.
- Segment de lame selon l'une quelconque des revendications 4 à 9, caractérisé en ce que les secondes barres de lame (11) et les secondes rainures de lame (12) constituent un dispositif de lame dense, dénommé micro-rainurage, qui est dirigé dans la même direction que la courbure du premier bord latéral (5) du côté de la circonférence interne (3) du segment de lame (1).
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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FIU20144124U FI10978U1 (fi) | 2014-05-26 | 2014-05-26 | Levyjauhimen teräsegmentti |
Publications (2)
Publication Number | Publication Date |
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EP2949811A1 EP2949811A1 (fr) | 2015-12-02 |
EP2949811B1 true EP2949811B1 (fr) | 2019-04-03 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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EP15166589.0A Active EP2949811B1 (fr) | 2014-05-26 | 2015-05-06 | Segment de lame pour raffineur à disques |
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EP (1) | EP2949811B1 (fr) |
JP (1) | JP3200740U (fr) |
CN (1) | CN105274895B (fr) |
ES (1) | ES2728914T3 (fr) |
FI (1) | FI10978U1 (fr) |
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FI20215746A1 (en) * | 2021-06-24 | 2022-12-25 | Valmet Technologies Oy | System and method for processing recycled textile material |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
AU2117695A (en) * | 1994-03-15 | 1995-10-03 | Beloit Technologies, Inc. | Breaker bar section for a high consistency refiner |
JP3833258B2 (ja) * | 1995-12-21 | 2006-10-11 | バルメツト・フアイバーテツク・アクテイエボラーグ | リファイニング要素 |
AT508895B1 (de) * | 2010-01-14 | 2011-05-15 | Erema | Läuferscheibe |
DE102010002459A1 (de) * | 2010-03-01 | 2011-09-01 | Voith Patent Gmbh | Verfahren zur Mahlung von wässrig suspendierten Zellstofffasern sowie Mahlgarnituren zu seiner Durchführung |
FI125031B (fi) * | 2011-01-27 | 2015-04-30 | Valmet Technologies Inc | Jauhin ja teräelementti |
US9670615B2 (en) * | 2011-08-19 | 2017-06-06 | Andritz Inc. | Conical rotor refiner plate element for counter-rotating refiner having curved bars and serrated leading sidewalls |
-
2014
- 2014-05-26 FI FIU20144124U patent/FI10978U1/fi active IP Right Grant
-
2015
- 2015-05-06 ES ES15166589T patent/ES2728914T3/es active Active
- 2015-05-06 EP EP15166589.0A patent/EP2949811B1/fr active Active
- 2015-05-22 JP JP2015002518U patent/JP3200740U/ja active Active
- 2015-05-26 CN CN201510275514.2A patent/CN105274895B/zh active Active
Non-Patent Citations (1)
Title |
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Also Published As
Publication number | Publication date |
---|---|
EP2949811A1 (fr) | 2015-12-02 |
ES2728914T3 (es) | 2019-10-29 |
JP3200740U (ja) | 2015-11-05 |
FI10978U1 (fi) | 2015-08-26 |
CN105274895B (zh) | 2018-09-25 |
CN105274895A (zh) | 2016-01-27 |
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