EP0887459A1 - Pressure screen for fibre suspensions - Google Patents

Abstract

This rotary impulse straining unit is for wet fibrous suspensions or pulps (S). Its cylindrical sieve (1) has openings (2) passing suspension in accordance with particle or fibre size. Material rejected at the sieve openings is led off separately. To clear the sieve, a rotor (3) turns within it. Its closed hub (4) carries radial arms holding clearing blades (6). New aspects of this device include the comparatively large radial spacing (a) between hub (4) and sieve inner surface, exceeding 1/3 of the sieve radius. Blade circumferential length (b) is less than twice the radial spacing (a).

Description

The invention relates to a pressure sorter for fiber suspensions according to the Preamble of claim 1.

Pressure sorters for fiber suspensions are provided to the To process pulp suspension in a wet sieving. To do this contains one Sorter a sieve element that is provided with a plurality of openings. The in the Fibers contained should pass through the openings while the unwanted solid components rejected and removed from the sorter again be led out. Round holes are generally used as sorting openings introduced or slots. If the openings have a substantially elongated shape fibrous particles are more easily let through than the cubic, even if both species should be of a similar order of magnitude. Use for the separation of different fiber components is also conceivable the shorter of the longer fibers. In most cases, such sorters provided with clearers, e.g. Have wings moving close to the sieve. This prevents the sieve openings from clogging in a manner known per se.

A sorter is known from EP 0 444 051 B1, in which a rotor belonging wing elements should clear the sieve. Here are the Wing elements are relatively long and are located within a narrow one Sorting chamber, formed between the rotor hub and the inside of the screen basket. Such an arrangement is said to develop its advantages in that a relatively long one Suction pulse is generated at the screen openings. This is said to be part of the fluid that the sieve has already passed as a good substance, are sucked back, causing the Sieve basket openings are cleaned and also a redilution in the sieve chambers takes place. It cannot be ruled out that the throughput that is possible per se is reduced by the sorter.

The invention has for its object to provide a pressure sorter which its operation is particularly economical in economic terms, i.e. one if possible low specific energy requirements for clearing the screen requires a large one Throughput enables and is also suitable for suspensions whose consistency is well above 2%.

This object is achieved by the features mentioned in the characterizing part of claim 1 completely solved.

The subject of the invention unfolds its particularly advantageous effect in that the rotor is provided with a closed hub body, the diameter of which is relatively small, causing a between the outside of the hub body and the screen relatively large space is created, which is filled with suspension during operation. In this The clearing wings are relatively close to the radially inner side of the room Siebelementes moved past. The ones required to clear the sieve Flow mechanisms are known and need not be explained here. It is important for the invention that in the relatively large space between the Bottom of the reamer and the outside of the hub body an essentially annular escape volume is created, in which a mixture of the sieve rejected substances with flowing suspension takes place, causing a too strong Concentration is avoided. This is particularly important when using suspensions higher consistency should be sorted. Another major advantage lies in that the circumferential movement of the suspension in this evasive volume, which is mainly brought about by the circumferential movement of the scraper, is braked. This means a greater relative speed between the reamer and suspension possible. This relative speed is a prerequisite for Generation of the hydraulic impulses required for clearing the sieve. At the Subject of the invention can in comparison to previously known solutions Broaching movement slower at the same relative speed to the suspension will. This results in an energy saving.

Fig. 1

einen erfindungsgemäßen Sortierer in Aufsicht;

Fig. 2

eine Variante des Räumflügels, detaillierter;

Fig. 3

eine weitere Variante des Räumflügels.

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

Fig. 1

a sorter according to the invention in supervision;

Fig. 2

a variant of the clearing wing, more detailed;

Fig. 3

another variant of the clearing wing.

The illustration of a pressure sorter according to the invention in Fig. 1 shows schematically the essential features for the invention. The sieve element 1 is inside a substantially closed housing 7. It is cylindrical and with Provide screen openings 2, of which only a few are shown here. In the Such a strainer basket generally has a large number of holes or slots. Internally of the sieve element 1, a rotor 3 is arranged concentrically with a hub body 4, on the outside of brackets 5 are attached, usually welded. The clearing vanes 6 are located at the radially outer ends of the holders 5 Attachment of the clearing wing 6 to the brackets 5 is an adjustment option Slotted holes indicated. The effectiveness of the clearing wing 6 is usually on cheapest if it moves very close to the inner wall of the screen element 1 can be. Both this minimum distance and possibly the angle of the Clearing blades 6 for sieve element 1 can be adjusted in this way. Whether such Measures required depend on the individual case. Is very visible the relatively large distance a between the outside of the hub body 4 and the Inside of the sieve element 1. Furthermore, the circumferential length b is the clearing wing 6 shown.

The measures for flow guidance in the sorter are indicated. By a Inlet opening 8 is fed to the pulp suspension S to be screened, namely in the Space that is located radially within the sieve element 1. The accepted substance that during operation of the sorter passes through the screen element, can be out of the room are withdrawn outside the sieve element through the outlet opening 9 during the Residue, that is to say rejected on the sieve element, flows out through the reject opening 10. It is again noted that this representation is not a construction drawing is to be understood.

2 shows the area of a clearing wing 6 in somewhat more detail. The circumferential length is chosen somewhat longer than that in FIG. 1. The outer contour of the clearing wing 6 and the inner contour of the sieve element 1 have a radial distance c from each other viewed against the direction of rotation U of the rotor 3, becomes larger in the one shown here Trap steady. As a result, a suction pulse to keep the Sieve element 1 generated. At the front edge of the clearing wing there is a essentially flat surface with the normal N. perpendicular to it the normal N has an angle α with respect to the radius R, which is between 60 and 90 °, a deflecting edge forms, which the rejected substances as a result of Movement of the clearing wing is transported radially inwards. Because of the invention existing relatively large volume, which is between the hub body 4 and Sieve element 1 is located, can be diluted by the inflowing substance, which has a favorable effect on the sorting effect.

1 and 2, the clearing wings 6 are made relatively thin, the in Fig. 3 shown a larger radial extension. This can result in the rejection of Residues at the front edge of the clearing wing 6 'can be improved.

Claims (13)

Pressure sorter for sieving a fiber suspension (S) with an essentially cylindrical sieve element (1) which is provided with a plurality of sieve openings (2) through which a part of the fiber suspension (S) fed to the sorting device due to the dimensions of the solid particles contained therein, fibers, in particular, can pass while another part of the suspension at the screen openings (2) is rejected and discharged separately from the sorting device, with a rotor (3) which can be moved relative to the screen element (1) and which consists of a closed one is provided to keep the screen free There is a hub body (4) which is rotatably mounted within the sieve element (1) and to which at least one holder is attached, which extends radially outwards and is provided with at least one clearing wing (6, 6 ') at its end on the sieve side,
characterized by
that the radial distance (a) between the hub body (4) and the inside of the screen element (1) is greater than a third of the screen element radius 'and that the circumferential length (b) of a clearing wing (6, 6') is shorter than that Double the radial distance (a) between the hub body (4) and the inside of the sieve element (1). Pressure sorter according to claim 1,
characterized by
that the circumferential length (b) is shorter than 1.5 times the radial distance (a) between the hub body (4) and the inside of the sieve element (1). Pressure sorter according to claim 1 or 2,
characterized,
that the circumferential length (b) is at least as large as the radial distance (a) between the hub body (4) and the inside of the sieve element (1). Pressure sorter according to claim 1, 2 or 3,
characterized,
that the radial distance (a) between the hub body (4) and the inside of the screen element (1) corresponds to at least half of the screen element radius. Pressure sorter according to claim 1, 2, 3 or 4,
characterized by
that the closed hub body (4) is circular cylindrical. Pressure sorter according to claim 1, 2, 3, 4 or 5,
characterized by
that the gap width (c) between the outer contour of the clearing wing (6, 6 ') and the inside of the screen element (1), viewed against the direction of rotation (U) of the rotor (3), widens. Pressure sorter according to claim 6,
characterized by
that the widening of the gap width (c) is continuous. Pressure sorter according to one of the preceding claims,
characterized by
that the front of the clearing wing (6, 6 ') has a substantially flat surface with a surface normal (N) which is at an angle to the radius (R) which on the radially inner side has a value between 60 ° and 90 ° Has. Pressure sorter according to one of the preceding claims,
characterized by
that the radial extension of the clearing wing (6 ') has at least 50% of the circumferential length (b) a value of at least 20% of the radial distance (a) between the hub body (4) and the inside of the sieve element (1). Pressure sorter according to one of claims 1 to 8,
characterized by
that the radial extension of the clearing wing (6 ') has a value of at most 5% of the radial distance (a) between the hub body (4) and the inside of the sieve element (1). Pressure sorter according to one of the preceding claims,
characterized by
that the clearing wings (6, 6 ') on the brackets (5) are adjustably attached. Pressure sorter according to claim 11,
characterized by
that the clearing vanes (6, 6 ') are adjustable in the axial direction. Pressure sorter according to one of the preceding claims,
characterized by
that it has at least one inlet opening (8) for the fiber suspension (S) to be sieved, which is hydraulically connected to the space inside the sieve element (1), and at least one outlet opening (9) which connects to the space outside the sieve element (1) is hydraulically connected, and at least one reject opening (10) which is hydraulically connected to the space within the sieve element.

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