EP3315662B1 - Housing unit for a refiner - Google Patents

Description

The invention relates to a housing arrangement for a refiner, in particular for a disc refiner for the production of lignocellulosic fibers from wood.

Refiners are machines that are used for the technological production of fiber material by defibration of wood. The industrial production of lignocellulosic wood pulps takes place in a continuous process. This begins with the hydrothermal pretreatment of woodchips in a pre-dam, where they are heated to 70 ° C to 80 ° C. From the pre-damper, the wood chips arrive via a transport and dewatering screw into the preheater in which they are plasticized with steam at a temperature, for example above 160 ° C and a pressure of 6 bar - 10 bar for several minutes. A second plug screw and a screw conveyor transport the pretreated woodchips for defibration into the refiner. In the refiner, the pretreated woodchips between fiber discs of the rotor and stator at a rotational speed of the rotor of 3000 revolutions per minute are defibrated. The fibers then pass from the annulus or collecting channel - accelerated by driver and vapor pressure - via a radial outlet for further processing in the blowline.

The quality of the fiberization depends on various factors. On the one hand, the defibration is influenced by the type of pretreatment. On the other hand, the conditions inside the refiner, such as the The nature and dimensioning of the grinding discs, the width of the grinding gap or the power input on the quality of the defibration. For a consistent fiberizing quality is therefore necessary to create as constant as possible conditions in the refiner. Due to the high speeds and pressures of up to 14 bar, however, the components of the refiner are subject to relatively high wear loads, resulting in a high maintenance outlay. For example, refiners from known manufacturers require replacement of worn grinding discs at an interval of 2 to 6 weeks. Maintenance or replacement of refining components usually requires opening of the refiner housing formed in prior art refiner made of a cast material or welded sheet, and a plurality of bolts must be loosened to disassemble a door or open a door, for example. Due to the high number of screws maintenance, in particular a Mahlscheibenwechsel requires a relatively high amount of time and consequently high downtime.
Furthermore, there is a disadvantage in the known solutions in the largely invariable housing designs in that only a slight adaptation to material-specific properties or an adaptation of process conditions with respect to the size of the grinding discs is possible.

Out DE 10 2006 022886 A1 is a device for crushing feed with a rotating within a housing about an axis support plate known. In order to keep the tool change times and thus downtime of the device as short as possible, it is proposed that the support disk for attachment of the crushing tools has an axis concentric annular shoulder and clamping elements. The clamping elements are formed by axially parallel, about its longitudinal axis rotatable bolts which lie at a predetermined circumferential distance on a circumferential circle about the axis. The first ends of the bolts are each anchored in the support disk. Whose second ends each have an eccentric the longitudinal axis encircling clamping surface which acts directly or indirectly radially with a portion against the inner periphery of the first crushing tools.

EP 2 182 109 A2 discloses a refiner having an extension structure to increase the extension of the refining chamber toward the drive shaft.

Out EP 2 460 933 A1 is a known to waste paper recycling device called type, which has a smaller size compared to conventional solutions.

With a view to consistent and improved fiberization quality, a casing design is required that can respond to variable material properties, variable pretreatment conditions, or variable process conditions in defibering with a change in casing dimensions.

The object of the invention is now to propose a housing arrangement for a refiner, with the adaptation of housing dimensions according to required process conditions for defibration is possible.
The object is achieved by a housing arrangement with the features according to claim 1. Further developments are specified in the dependent claims.

The housing arrangement according to the invention for a refiner comprises a first outer housing element designed to receive a stator grinding disk, which has at least one first opening for a material inlet, and a second outer housing element designed to receive a rotor grinding disk, which can pivot with an articulated spacer element on the first outer housing element is coupled, that the outer housing elements between an open and a closed position are movable. Furthermore, the housing arrangement according to the invention comprises a cavity element having at least one material outlet, which can be arranged for housing the stator washer and the rotor grinding disk in an open position between the first outer housing element and the second outer housing element, the first outer housing element and the second outer housing element having means for fixing and clamping the cavity member in the closed position.

The core of the invention is a modular refiner housing arrangement which is formed with two outer housing elements and a cavity element which can be arranged between the outer housing elements. Characterized in that the outer housing elements are movable between an open and a closed position, it is possible to arrange and fix between the outer housing elements cavity elements of different dimensions. Modifications of a grinding space between the outer housing elements can thus be achieved in a simple manner by an exchange of the cavity element. This allows flexible adaptation of the refiner housing to changing process conditions or adaptation to the material to be fiberized and the fiber quality. A further advantage is that in case of damage only affected by the damage housing element must be replaced without replacement or disassembly of the entire refiner housing is required.

According to the invention, the refiner housing is designed to receive a stator grinding wheel and a rotor grinding wheel, wherein the rotor grinding wheel is coupled to a driven rotor shaft. The stator washer is non-rotatably attached to the first outer housing member. Both grinding disks can be formed with several grinding disk segments.

An open position of the outer casing members denotes an arrangement of the outer casing members, in which sufficient space for arranging a cavity member is provided between the outer casing members. A closed position indicates an arrangement, preferably parallel arrangement of the outer housing elements, wherein between the outer housing elements, a cavity element is enclosed.

In its simplest embodiment, the cavity element is a tubular, preferably cylindrical housing element. Adjustments of the cavity element, which defines the grinding chamber according to its configuration, are conceivable with regard to the size, the length, the shape of the cross-sectional area or a change in the cross-sectional geometry in the longitudinal direction and the arrangement of the material outlet. In a rotationally symmetrical embodiment of the cavity element, an arrangement of a material outlet formed in the lateral surface of the cavity element can be changed by simply rotating the cavity element. Furthermore, it can be provided that the cavity element has at least one tangential and / or at least one radial material outlet opening.

For enclosing and fixing the cavity element, at least one groove and / or at least one spring may be formed on the inner opposite sides of the outer housing elements. Bordering the cavity element into a groove has the advantage of sealing the grinding chamber subjected to pressure during operation. Conveniently, a groove and / or spring may also be formed on the end face of the cavity element. Advantageously, the inner opposite sides of the outer housing elements on a plurality of grooves and / or springs of different diameters to fix between the outer housing elements cavity elements of different diameters and to be able to capture.

For clamping the cavity element in the closed position, the outer housing elements may be screwed at their outer ends. In a rectangular shape of the outer housing elements, a screw connection may be provided at the outer corners in each case. In this case, the screw connections may have spacer sleeves to maintain a predetermined distance between the inner surfaces of the outer housing elements. The design of the screw is subject to no restriction. Thus, the screw can be formed with a screw connection, a screw-nut connection or a threaded bolt-nut connection to connect the outer housing elements together and clamp the fluid arranged between the outer housing elements cavity member.

For fixing the stator washer or for fastening individual Mahlscheibensegmente on the inner surface of the first outer housing member, a plurality of holes may be arranged around the first opening, which is provided for a material inlet. These may be simple blind holes in which the stator disc or the grinding disc segments are held with bolts. Alternatively, a screw fastening can be provided, wherein the holes have threads. Advantageously, the mounting holes are designed as through holes to allow attachment from the outside.

According to an advantageous embodiment of the invention, it may be provided that at least three Justagesurchbrechungen are formed in the first outer housing element, each having an adjusting screw for aligning an inside mounted stator disc or inside grinding disc segments.

According to an advantageous development, the first housing element may have a receptacle or recess for fastening a feed screw. Conveniently, the receptacle or recess is formed on the outside of the first housing element.

Since the rotor grinding disk or the segment carrier for the grinding disk segments is driven by means of a rotor shaft, the second outer housing element can have a second opening for receiving a rotor shaft. Usually, the rotor shaft is mounted outside the refiner housing or on the outside of the second outer housing member is a bearing for supporting the rotor shaft. In a further embodiment, it can be provided that in the second opening a bearing is enclosed for supporting the rotor shaft.

For assembly or disassembly of the rotor grinding disk or grinding disk segments of the rotor grinding disk, the second outer housing element can have at least one third opening as a mounting opening, via which tool accessibility from the outside is ensured. Thereby, a further reduction of the time required is possible because in addition to the opening / closing of the housing assembly several assembly / disassembly steps can be performed simultaneously. Due to the pressure prevailing during operation of the Refinergehäuses the openings formed in the outer housing elements and openings are provided with corresponding covers.

Preferably, the first material inlet opening formed in the first outer casing member may be arranged to be concentric with the center axis of the rotor grinding disk or concentric with the second opening of the second outer casing member in the closed position. This ensures that the supplied material for fiberization in operation passes directly to the central axis of rotation of the rotor disk and can be accelerated evenly.

According to a further advantageous embodiment variant of the housing arrangement according to the invention, the first and / or the second outer housing element may comprise guide pins along which the outer housing elements are movable parallel to each other in the open position or in the closed position. Advantageously, the guide pins allow a variable adjustment of the distance between the outer housing elements, so that cavity elements of different lengths can be used. Another advantage of the guide pin is that the outer housing elements when moving to the open position initially slightly offset from each other or can be pulled apart, so that the distance between the outer housing elements initially only slightly increased, the cavity element of a groove or groove Spring connection can be moved out without being completely dissolved out of the housing assembly. In order not to limit the displaceability of the outer housing elements by the articulated spacer element, the articulated spacer element can also be designed to be displaceable. This can be achieved, for example, in that the articulated spacer element is formed with oblong holes or guide grooves, along which the articulated spacer element is displaceable.

According to an advantageous development, the first outer housing element may be guided in a guide on the articulated spacer element, wherein the guide allows a change in the distance between the parallel oppositely disposed outer housing elements. In this case, the guide may have adjusting screws with which the distance between the parallel outer housing elements is adjustable. Furthermore, it is possible by the guide on the articulated spacer element to pull apart the outer housing elements when opening the housing assembly and the To separate the cavity element from the outer housing elements before the first outer housing element is pivoted like a door in the open position.

According to the invention, the second outer housing element is pivotably coupled to an articulated spacer element on the first outer housing element, in order to ensure the largest possible opening angle between the outer housing elements in the open position. In a preferred simple embodiment, the articulated spacer element may be formed with a hinge attached to a plate as a spacer. According to a further preferred embodiment, the articulated spacer element may also have two joints in order to achieve the highest possible flexibility for moving the outer housing elements.

The housing arrangement according to the invention is suitable for refiners, in particular disc refiners for the production of lignocellulosic fibers from wood chips according to the procedure described above.

Fig. 1:

eine perspektivische Darstellung eines Ausführungsbeispiels der erfindungsgemäßen Gehäuseanordnung für einen Refiner ohne Hohlraumelement in einer geöffneten Position

Fig. 2:

eine perspektivische Darstellung des Ausführungsbeispiels der erfindungsgemäßen Gehäuseanordnung aus Figur 1 mit Hohlraumelement in einer geöffneten Position

Fig. 3a/b:

jeweils eine perspektivische Darstellung des Ausführungsbeispiels der erfindungsgemäßen Gehäuseanordnung aus Figur 1 mit Hohlraumelement in einer geschlossenen Position

Further details, features and advantages of embodiments of the invention will become apparent from the following description of exemplary embodiments with reference to the accompanying drawings. Show it:

Fig. 1:

a perspective view of an embodiment of the housing assembly according to the invention for a refiner without a cavity element in an open position

Fig. 2:

a perspective view of the embodiment of the housing assembly of the invention FIG. 1 with cavity member in an open position

Fig. 3a / b:

in each case a perspective view of the embodiment of the housing arrangement according to the invention FIG. 1 with cavity element in a closed position

Recurring features are identified in the figures with the same reference numerals.

The FIG. 1 shows a perspective view of an embodiment of the housing assembly according to the invention for a refiner without cavity element in an open position. The reference numeral 1 denotes a first outer case member which is formed to receive a stator washer (not shown). In the present example, the first outer housing element 1 has a square shape, wherein in the middle of an opening for a material inlet 2 is formed. Between a first annular elevation 4, which is formed in a further development of the opening for the material inlet 2, and a second annular elevation 5, an annular recess 7 for the arrangement of a stator disc or grinding disc segments is formed. A plurality of mounting holes 3 are arranged in the recess 7 around the opening for a material inlet 2 for fixing a stator grinding disk or for fastening Mahlscheibensegmenten the stator disc. Preferably, the mounting holes 3 are made with a thread. According to an advantageous embodiment variant, the mounting holes 3 may also be designed as through holes, so that an attachment or a release of the stator grinding disk or the Mahlscheibensegmente from the outside is possible. By the reference numeral 17, three Justagesurchbrechungen are marked, which serve to align the stator stator disk or the Mahlscheibensegmente mounted on the inside. In this case, 17 setscrews are screwed into the Justagesurchbrechungen that exert pressure when rotating against the inside mounted (n) Statormahlscheibe or Mahlscheibensegmente, so that the stator disc or the Mahlscheibensegmente as planar as possible can / can be aligned.

Immediately at the second annular elevation 5, an annular groove 6 for receiving a cavity element (not shown in the example) is formed in the inner side 8 of the outer housing element 1. The annular groove 6 and the annular elevation 5 together form a pin on which the cavity element (not shown) can be held independently on the outer housing element 1. In each case at the corners of the first outer housing element 1 are further openings 11 as screw guides for fixing the housing assembly in a closed position ( FIG. 3 ) educated.

Reference numeral 9 designates a second outer housing element designed to accommodate a rotor wheel, which is coupled to an articulated spacer element 10 on the first outer housing element 1. In the example shown, the articulated spacer element 10 is a hinge, which is fastened with a spacer plate to a side surface of the second outer housing element 9, so that the first outer housing element 1 can be pivoted like a door. According to an advantageous embodiment, the spacer plate can have elongated holes, via which the spacer element 10 is fastened to the second outer housing element 9, so that the distance between the outer housing elements 1 and 9 can be varied by displacement along the elongated holes.

On the inner surface 13 of the second outer housing member 9, a circular recess 12 is formed. Since the recess 12 serves for receiving or for enclosing a cavity element, its diameter can be suitably adapted to the diameter of the annular groove 5. For the use of cavity elements with smaller or larger diameters, the first outer housing element 1 at least two preferably a plurality of annular grooves 5 of different diameters respectively. Accordingly, the circular recess 12 of the second outer housing element 9 can likewise be designed as an annular groove with corresponding diameters. In concentric arrangement with the circular recess 12, a second aperture 14 is further formed in the second outer housing member 9 as a passage or for receiving a rotor shaft of the rotor grinding wheel or a segment carrier for a rotor wheel. The arrangement of the second aperture 14 is chosen so that the first opening for a material inlet 2 and the second aperture 14 are concentrically aligned in a closed position of the outer housing elements 1 and 9. According to an advantageous embodiment, a bearing for supporting a corresponding rotor shaft in the second opening 14 may be enclosed to reduce friction. In another embodiment variant, the bearing for the rotor shaft is located outside the housing arrangement

By the reference numeral 15, a third opening in the second outer housing member 9 is formed in a relation to the second aperture 14 eccentric arrangement. The third opening 15 serves as a mounting opening, via which tool accessibility to a grinding disk or a segment carrier of the grinding disk can be ensured from the outside, that is, from an outer side of the second outer housing element 9.
Furthermore, the second outer housing member 9 on its inner side 13, two, in the example shown diagonally arranged threaded holes 24 which are provided as an assembly aid for fixing or fixing a cavity member.

At its outer corners, the second outer housing member 9 each having a female spacer sleeve 16, wherein the spacer sleeves are arranged so that they are arranged in a closed position of the outer housing elements 1 and 9, in which the outer housing elements 1 and 9 in parallel , with the openings 11 of the first outer housing element 1 correspond. By the length of the spacers, the distance between the outer housing elements 1 and 9 is defined in the closed position. Conveniently, the spacers 16 may be screwed to vary the distance between the outer housing elements 1 and 9 accordingly or to be able to compensate for unequal distances. According to a further embodiment, the spacers are formed without internal thread, the spacers serve as feedthroughs for screws or threaded bolts, so that the outer housing elements 1 and 9 can be screwed together on the outside.

The FIG. 2 shows a perspective view of the embodiment of the housing assembly according to the invention FIG. 1 with a cavity member 18 in an open position. In the example shown, the cavity element 18 is a cylindrical housing element whose end faces are each formed such that it is enclosed on one side in the annular groove 6 of the first outer housing element 1 and on the opposite side by the annular recess 12 of FIG second outer housing element 9 is enclosed. Reference numerals 19.1 and 19.2 each denote a material outlet opening, wherein the material outlet opening 19.1 is a radial outlet opening and the material outlet opening 19.2 is a tangential outlet opening for fiber material. Both material outlet openings 19.1 and 19.2 have a flange for connection to a further pipeline.

The cavity member 18 defined by its shaping and dimensioning in its interior, the grinding chamber for a defibration of supplied material. The main advantage is the interchangeability of the cavity member 18, since this gives the possibility of the grinding chamber in terms of size, length, the shape of the cross-sectional area or a change in the cross-sectional geometry in the longitudinal direction and the arrangement of a material outlet 19.1 or 19.2 to different To adapt requirements.

In the example shown the FIG. 2 the cavity member 18 on the outside two diagonally disposed tabs 20, via which the cavity member 18 is secured with a screw fastening in the threaded holes 24 on the second outer housing member 9.

The FIGS. 3a / 3b each show a perspective view of the embodiment of the housing assembly according to the invention FIG. 1 with cavity member 18 in a closed position, wherein the outer housing elements 1 and 9 are arranged parallel opposite one another with four screws 21 which are inserted through the screw guides 11 in each of the spacer sleeves 16, and thereby clamp the cavity member 18. The reference numeral 22 designates a circular recess formed in the outer surface (23) for receiving a feed screw (not shown) with which the material to be shredded can be conveyed via the material inlet opening 2 into the grinding chamber.

At the in FIG. 3b As shown, it can be seen that the first outer housing element 1 is guided in a guide 25 on the articulated spacer element 10, wherein a movement of the first outer housing element 1 along the guide 25 allows a distance change between the outer housing elements 1 and 9. In this case, the guide 25 adjusting screws 26, with which the distance between the outer housing elements 1 and 9 is adjustable. In the illustration shown, the housing arrangement is in the closed position, so that a distance 27 is formed between the first outer housing element 1 and the guide 25 of the articulated spacer element 10. By loosening the set screws 26, the first outer housing element 1 when opening the housing assembly are first moved so that the distance between the housing elements increases uniformly, with the distance 27 between the first outer housing element 1 and the guide 25 decreases before the first outer housing element 1 can be opened like a door.

The person skilled in the art recognizes that the housing arrangement according to the invention for a refiner is to be dimensioned with regard to the material selection and / or wall thicknesses of the outer housing elements 1, 9 and the cavity element 18, taking into account the process parameters required for defibration of woodchips.

LIST OF REFERENCE NUMBERS

1

first outer housing element

2

first opening for a material inlet

3

mounting holes

4

first annular elevation

5

second annular elevation

6

groove; ring groove

7

annular recess

8th

Inner side of the first outer housing element

9

second outer housing element

10

articulated spacer element

11

screw guides

12

annular recess

13

Inner side of the second outer housing element

14

second opening

15

third opening / mounting hole

16

Distance sleeves / guide pins

17

Justagedurchbrechungen

18

cavity element

19.1

radial material outlet opening

19.2

Tangential Materialauslassöffnung

20

flap

21

screw

22

recess

23

Outside of the first outer housing element

24

threaded holes

25

guide

26

screws

27

distance

Claims (16)

1. Housing assembly for a refiner, comprising: a first outer housing element (1) designed to accommodate a stator grinding disc, which [housing element] has at least a first opening for a material inlet (2), a second outer housing element (9) for accommodating a rotor grinding disc (9), which [housing element] is linked in a swivel-mounted manner to an articulated spacer element (10) on the first outer housing element (1) in such a way that the outer housing elements (1, 9) are capable of being moved between an open and a closed position, characterised by a cavity element (18) having at least one material outlet (19.1, 19.2), which, in order to encase the stator grinding disc and the rotor grinding disc, is capable of being arranged in an open position between the first outer housing element (1) and the second outer housing element (9), whereby the first outer housing element (1) and the second outer housing element (9) have means for fixing and clamping the cavity element (18) in the closed position.
2. Housing assembly in accordance with Claim 1, characterised in that on the inner, opposing sides of the outer housing elements (1, 9) at least one groove (6) and/or at least one tongue are constructed for enclosing and fixing the cavity element (18).
3. Housing assembly in accordance with Claim 1 or 2, characterised in that the means for fixing and clamping the cavity element (18) is designed with at least four screw connections (21), whereby the screw connections (21) are constructed on the outer ends of the outer housing elements (1, 9).
4. Housing assembly in accordance with one of Claims 1 to 3, characterised in that the first outer housing element (1) has several assembly holes (3) arranged around the first opening (2) for attaching a stator grinding disc or for attaching grinding disc segments of a stator grinding disc.
5. Housing assembly in accordance with one of Claims 1 to 4, characterised in that the first outer housing element (1) has a slot or recess (22) for attaching a feed screw.
6. Housing assembly in accordance with one of Claims 1 to 5, characterised in that the second outer housing element (9) has a second opening (14) for the accommodation or feed-through of a rotor shaft.
7. Housing assembly in accordance with Claim 6, characterised in that in the second opening (14), a bearing is enclosed for the mounting of the rotor shaft.
8. Housing assembly in accordance with one of Claims 1 to 7, characterised in that the second outer housing element (9) has at least a third opening (15) as an assembly opening for the assembly/disassembly of the rotor grinding disc or grinding disc segments of the rotor grinding disc.
9. Housing assembly in accordance with one of Claims 1 to 8, characterised in that the first opening for a material inlet (2) is designed in such a way that in the closed position it is arranged concentric to the central axis of the rotor grinding disc.
10. Housing assembly in accordance with one of Claims 1 to 9, characterised in that the first and/or the second outer housing element (1, 9) have guide bolts (16) along which the outer housing elements (1, 9) are capable of being moved, parallel and opposite to each other, into an open position or into a closed position.
11. Housing assembly in accordance with one of Claims 1 to 10, characterised in that the articulated spacer element (10) is designed capable of being displaced.
12. Housing assembly in accordance with one of Claims 1 to 11, characterised in that the first outer housing element (1) is guided in a guideway (25) on the articulated spacer element (10), whereby a movement of the first outer housing element (1) along the guideway (25) enables a change in the distance between the outer housing elements (1; 9).
13. Housing assembly in accordance with one of Claims 1 to 12, characterised in that the articulated spacer element (10) has at least one hinge, preferably two hinges.
14. Housing assembly in accordance with one of Claims 1 to 13, characterised in that the cavity element (18) is designed having a ring shape.
15. Housing assembly in accordance with one of Claims 1 to 14, characterised in that the cavity element (18) has at least one radial material outlet opening (19.1) and/or at least one tangential material outlet opening (19.2).
16. Housing assembly in accordance with one of Claims 1 to 15, characterised in that in the first outer housing element (1) at least three alignment openings (17) are constructed, each of which have an adjusting screw for aligning a stator grinding disc attached on the inner side or for aligning grinding disc segments of the stator grinding disc attached on the inner side.

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