EP1394318A1 - Pressure screen for screening a fibrous suspension - Google Patents

Abstract

The pressure sorting assembly, to sort a paper fiber suspension (S), has a sieve (1) to separate and retain unwanted matter in the suspension. A centrifugal rotor (3) is in the inflow zone (4) to spin out heavy matter, to be extracted through a waste outlet (5) and keep the sieve clear. The rotor has passage openings (2) for fibers in the suspension to pass from outside and radially inwards through to the sieve. The passage openings are slits, with their length oriented at right angles or at an angle to the peripheral movement of the rotor. The maximum slit width is at least 10 mm, in the peripheral direction.

Description

The invention relates to a pressure sorter according to the preamble of claim 1 or 12.

Pressure sorters are used in the processing of paper fiber suspensions, namely to process the fiber suspension in a wet sieving. To do this contains such a pressure sorter has at least one sieve with a plurality of openings is provided. The fibers contained in the suspension should pass through the openings step through it while rejecting the unwanted solid components on it and be routed out of the sorter. As sorting openings are in usually round holes or slots are used. In most cases Pressure sorters of the type considered here are equipped with screen clearers that are close to each other be moved past the sieve. As a result, clogging is carried out in a manner known per se prevents the sieve openings.

The separating effect of a pressure sorter is therefore due to the fact that at least part of the contained in the supplied paper fiber suspension Contamination cannot pass through the sieve, i.e. due to its size, shape or Flexibility is separated from the paper fibers. Pressure sorters are also known where there is also a separation that specifically targets the density of the contaminants is made by the different forces in a centrifugal field Impurities are used. Even if the separation effect is optimal only in Hydrocyclones and centrifuges can reach them in weaker form Print sorters. A large part of the heavy parts would anyway do not fit through the screen openings normally used, i.e. there be separated, but there is a risk of damage or damage Wear when they come into contact with the sieve. This risk is heightened nor because almost always use screen clearers that are very close to the Move the sieve past at a relatively high speed.

A pressure sorter is known from EP 0 726 981 B1, in which the Inlet chamber is a conical, rotating part (chunk collar), which prevent should that heavy parts with the paper fiber suspension in the area of the sieve be drafted. They are then supposed to be attached to the inlet space Heavy part deduction can be removed. However, the effect is apparently not sufficient. One tries to improve this device by adding an additional one stationary guide plate keeps the inlet flow separate from the rest of the suspension.

In the sorter shown in EP 1 124 003 A2 for cleaning a Fibrous suspension is the actual screen element a rotating with the rotor Screen basket upstream, which serves for pre-sorting. To protect the surface of this Sieve basket in front of heavily abrasive heavy parts is also co-rotating Cleaning wings provided that the specifically heavy parts to the outside centrifuge.

The pressure sorter in EP 0 473 354 A1 has an upward cylindrical shape extended rotor, which is provided with radial strips or radial blades. Between the inlet chamber of the sorter and the inlet area to the actual one Sieve element (sieve basket) flows the suspension in the axial direction and passes through it the strips or wings. So large and heavy parts are thrown out and can be dissipated.

The invention is based on the object, so the known pressure sorters improve that with simple means part of the heavy parts from the Paper fiber suspension can be removed before it is placed on the screen element incident.

This object is achieved by those mentioned in the characterizing part of claim 1 or 12 Features solved.

With the help of the rotor designed according to the invention and positioned in the inlet space there is a sufficient rotational speed in the incoming pulp suspension to generate, so that already a considerable part of the heavy parts contained therein can be removed from the stream early. The heavy parts are from one strong rotational flow and thus to the outer wall of the inlet space guided. When transporting the inlet space to the sieve element, the suspension flows radially from outside to inside, which creates the centrifugal forces to remove heavy parts exploits particularly effectively. The rotor can therefore - unlike e.g. a rotating one Prescreen, which also has to develop sorting effects - relatively roughly structured his. If it is provided with through openings, then the area in which it is located Through openings are advantageously cylindrical, which is constructive is simple. Also, if desired, on the downstream side of the Install the rotor's static clearing elements that work in conjunction with the Rotary movement of the rotor to a possible additional defoliation of the Lead fiber. The static clearing elements should go along with the moving ones Centrifugal rotor have a distance of one to several millimeters to avoid that impurities are crushed inadmissibly or that the Power consumption is unnecessarily high. Clogging of the spaces between them Static clearing elements are not to be feared simply because of the rotor quite effective clearing effect.

The pressure sorter is particularly advantageous when processing waste paper used, namely where the fibrous material is still relatively heavily soiled. That the Centrifugal rotor downstream of the sieve element can be disc-shaped or be cylindrical. Disc-shaped sieve elements are particularly robust, which is what Waste paper processing is important.

Another typical use is sorting by the resolution of Paper machine broke. This is usually very little dirty, it heavy parts may have gotten into it, e.g. Screws the strainer of the Pressure sorter or downstream equipment would damage. But that happens extremely rare, so that for these alone the use of hydrocyclones is disproportionate.

Fig. 1

schematisch, geschnitten dargestellt, einen erfindungsgemäßen Drucksortierer;

Fig. 2

den oberen Teil eines erfindungsgemäßen Drucksortierers in variierter Ausführungsform;

Fig. 3 und 4

im Detail: Verschiedene Ausführungsformen des Schleuderrotors;

Fig. 5

Teilansicht einer Variation des Zulaufraumes;

Fig. 6

einen weiteren erfindungsgemäß gestalteten Drucksortierer, geschnittene Seitenansicht, schematisch dargestellt;

Fig. 7

einen scheibenförmigen Schleuderrotor;

Fig. 8

einen weiteren Schleuderrotor mit zylindrischem Teil.

The invention and its advantages are explained with reference to drawings. Show:

Fig. 1

schematically shown in section, a pressure sorter according to the invention;

Fig. 2

the upper part of a pressure sorter according to the invention in a varied embodiment;

3 and 4

in detail: different embodiments of the centrifugal rotor;

Fig. 5

Partial view of a variation of the inlet space;

Fig. 6

another pressure sorter designed according to the invention, sectional side view, shown schematically;

Fig. 7

a disc-shaped centrifugal rotor;

Fig. 8

another centrifugal rotor with a cylindrical part.

Fig. 1 shows a typical embodiment of the pressure sorter according to the invention, at which the fiber suspension S to be sorted first enters an inlet space 4, in which there is also a centrifugal rotor 3. This has in the example shown a cylindrical part 6, which has a larger number of passage openings 2 is provided, of which only a few are indicated schematically. Through this the Fibrous suspension S from the inlet space 4 radially from the outside inwards and can then flow to the sieve element 1. The sieve element 1 is a cylindrical one here Screen basket. The part of the fiber suspension S which can pass through the sieve openings passes into the accept material space 9 and from there through the accept material outlet 10 into the Processing process back. The proportions of the fiber suspension S that are not Siebelement 1 have passed through the reject outlet 11 from the Pressure sorter derived again.

It is important for the function of the pressure sorter according to the invention that the Inlet space 4 is connected to a heavy part outlet 5, which is here on the outside Diameter of the inlet space 4 is located. He can e.g. tangential to the inlet space 4 be attached and lead into a heavy part lock. Another option is continuous discharge of a partial stream containing heavy parts, which is more complex is, but less disturbing the process. It is crucial that the through Rotational movement of the centrifugal rotor 3 heavy parts thrown out optimally can be dissipated.

It can also be advantageous that a in the center of the inlet space 4 Light material discharge 12 is present, since the light materials, e.g. Styrofoam or air, are driven to the center. The inlet 8 for the Fibrous suspension S to the inlet space 4 can be a tangential inlet to the To support rotational flow in the inlet space 4. The inlet is 8 axially offset from the centrifugal rotor 3. The incoming fiber suspension S can then be accelerated to the rotation speed of the centrifugal rotor, without creating too many harmful vortices.

It is favorable if the outer diameter D1 of the centrifugal rotor 3 is chosen to be relatively large will, because this means that even at moderate peripheral speeds, a larger one Centrifugal action is possible. For example, the outer diameter D1 of the Centrifugal rotor 3 is preferably about 20% larger than the outer diameter D2 of the sieve element 1. These details refer to pressure sorters with a cylindrical one Sieve. The screen element 1 is usually kept clear by screen clearers 7, which are part of a rotor 13. It usually makes sense to also use the centrifugal rotor 3 from to drive this rotor 13. This results in optimal Speed ratios when the centrifugal rotor 3 has a larger one Has outer diameter D1 as the sieve element.

As already mentioned, the passage openings 2 can be used on the flow side Attach stator elements 16 that cause larger scraps of paper to dissolve and / or can prevent a blockage of the passage openings 2. This Stator elements are to be regarded as a special solution for certain problems.

3 and 4, the passage openings 2 on the centrifugal rotor 3 at two Examples are shown in more detail. The opening width b of these openings 2 can normally be chosen to be relatively large, e.g. 5 or 10 mm since it is this is not a sieve opening as it is e.g. the sieve element 1. As is well known, screen openings have the function of being too large due to their geometry Do not allow components of the suspension to pass. The size ratio of the Passage area, based on the total area of the cylindrical part of the Centrifugal rotor 3 is advantageously at least 40%. Sieve elements in Pressure sorters do less than that because of the completely different requirements Half. The flanks of these passage openings 2 can preferably be inclined to make attached parts slide off. 3 4 are closed openings or, according to FIG. 4, are open, which are therefore between Form protruding teeth. Of course, others are also e.g. round or oval openings imaginable.

Deviating from the shapes shown in FIGS. 1 and 2, the inlet space 4 according to Fig. 5 can also be designed so that the fiber suspension S centrally in the axial direction accrues. This creates a particularly low vortex flow. This figure shows as additional feature flaps 17, with the help of the inflowing Fibrous suspension S is accelerated in the inlet space 4 in the circumferential direction. Such Centrifugal fins can also be advantageous in other forms of the invention.

Fig. 6 shows an embodiment in which the centrifugal rotor 3 'is disc-shaped and forms an annular gap 14 through which the fiber suspension S from the inlet space 4 can reach radially inwards to the screen element 1. This form of the centrifugal rotor is significantly more space-saving and easier. Energy consumption should also be lower his. The axial width a of the annular gap 8 is a maximum of 100 mm in order to suck in To prevent heavy parts in the area of the sieve element 1. But it can also be significantly smaller, e.g. have a value between 3 and 10 mm. With too big A current could flow in the vicinity of the non-rotating wall of the annular gap train with insufficient rotation speed.

7 shows, a disc-shaped centrifugal rotor 3 'on its Outside diameter can also be provided with toothed vanes 18, of which only a part is drawn. With these toothed vanes, the rotation of the centrifugal rotor 3 ' the necessary rotational speed in the Suspension created. The tooth vanes are located in the area of the annular gap 14. In this figure, the centrifugal ribs 17 can also be seen in supervision. With advantage they are inclined at an angle 19 with respect to the radial, which e.g. approx. 30 ° can. Curved shapes for such centrifugal ribs are also conceivable.

In special embodiments, in addition to the passage openings 2 further openings for the fiber suspension S in the disc-shaped part of the Centrifugal rotor be present. This is shown in FIG. 8 using the example of a Centrifugal rotor 3 with cylindrical part 6. To have a larger free passage area to achieve additional openings 15 in the disc-shaped on such a rotor Part of the rotor, which is a continuation of the passage openings 2 form.

Claims (18)

Pressure sorter for sieving a fiber suspension (S) with at least one sieve element (1) which is provided with a plurality of sieve openings through which part of the fiber suspension (S) fed through an inlet (8) into an inlet space (4) of the sorting device Due to the dimensions of the fibrous particles contained therein, in particular the fibers, can pass while another part of the suspension is rejected at the sieve openings and discharged separately from the sorting device,
a driven centrifugal rotor is located in the inlet space (4),
the inlet space (4) being connected to a heavy part outlet (5) and
the centrifugal rotor (3) having passage openings (2) through which the fiber suspension (S) can reach the sieve element (1) radially from the outside inwards from the inlet space (4),
characterized in that the through openings (2) are slots, the longitudinal extension of which is perpendicular or oblique to the circumferential movement of the centrifugal rotor (3), and that the maximum opening width (b) of the through openings (2), viewed in the circumferential direction, is at least 5 mm. Pressure sorter according to claim 1,
characterized in that the centrifugal rotor (3) has a cylindrical part (6) in which there are through openings (2). Pressure sorter according to claim 1 or 2,
characterized in that the inlet (8) for the fiber suspension (S) is arranged axially offset with respect to the passage openings (2). Pressure sorter according to claim 1, 2 or 3,
characterized in that the inlet (8) opens tangentially into the housing of the pressure sorter. Pressure sorter according to claim 1, 2 or 3,
characterized in that the inlet (8) opens centrally into the housing of the pressure sorter. Pressure sorter according to one of the preceding claims,
characterized in that the maximum opening width (b) of the passage openings (2), viewed in the circumferential direction, is at least 20 mm. Pressure sorter according to one of the preceding claims,
characterized in that the slots are continuous in the axial direction. Pressure sorter according to one of the preceding claims,
characterized in that the total area of all passage openings (2) is at least 40% of the area which the centrifugal rotor (3) has in the area of the passage openings (2). Pressure sorter according to one of the preceding claims,
characterized in that there are stator elements (16) downstream of the passage openings (2), the shortest distance (e) from the centrifugal rotor (3) of between 1 and 10 mm. Pressure sorter according to one of the preceding claims,
characterized in that the sieve element (1) is cylindrical. Pressure sorter according to one of the preceding claims,
characterized in that the axial extent (c) of the passage openings (2) is between 5% and 25% of the axial extent of the sieve element (1) immediately following downstream. Pressure sorter for sieving a fiber suspension (S) with at least one sieve element (1) which is provided with a plurality of sieve openings through which part of the fiber suspension (S) fed through an inlet (8) into an inlet space (4) of the sorting device Due to the dimensions of the fibrous particles contained therein, in particular the fibers, can pass while another part of the suspension is rejected at the sieve openings and discharged separately from the sorting device,
wherein a driven centrifugal rotor is located in the inlet space (4) and
the inlet space (4) being connected to a heavy part outlet (5),
characterized in that the centrifugal rotor (3 ') consists of a disk which is arranged at right angles to the axis of rotation and is positioned such that it forms an annular gap (14) through which the fiber suspension (S) radially inwards from the inlet space (4) can reach the screen element (1) and its axial width (a) is at most 100 mm. Pressure sorter according to claim 12,
characterized in that the axial width (a) is at most 10 mm. Pressure sorter according to claim 12 or 13,
characterized in that the disc is closed. Pressure sorter according to one of the preceding claims,
characterized in that a drivable screen clearer (7) is provided to keep the screen element (1) free and that the centrifugal rotor (3, 3 ') and screen clearer (7) are connected to the same rotor (13). Pressure sorter according to one of the preceding claims,
characterized in that the outer diameter (D1) of the centrifugal rotor (3, 3 ') has at least the size of the outer diameter (D2) of the sieve element (1) immediately following downstream, preferably at least 1.2 times. Pressure sorter according to one of the preceding claims,
characterized in that the centrifugal rotor (3, 3 ') is provided with radially extending centrifugal ribs (17). Pressure sorter according to one of the preceding claims,
characterized in that the centrifugal rotor (3, 3 ') is provided with toothed vanes (18) on its outer diameter.

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