DE102022112037A1 - PROFILE BAR ARRANGEMENT - Google Patents

Abstract

A profile bar arrangement comprising a plurality of profile bars is provided, each of which includes a profile bar foot and a profile bar head on the material feed side. The profile rod head is swept over by a fibrous stock suspension as stock supply in a predetermined direction of flow. The profile bars are intended in particular for bar screening devices in the paper industry. A screen opening, in particular a screen slot, is formed between each two adjacent profile bars, which forms a flow connection to the acceptance side of the screening device. In order to improve the overall performance of such a bar screen device in operation, the profile bar head of the profile bar arrangement is designed in such a way that the upstream flank meets the downstream flank Flank overlapped by an adjacent profile bar. The downstream flank on the head of the profiled rod, on the material feed side, is in the form of a recess, for example a V-like recess, which comprises a first leading flank and a second leading flank. The two flanks enclose an angle (α). Furthermore, the axis of the screen opening encloses an angle (β) to the tangent line of the flow direction of the fibrous stock suspension as the stock feed. Preferred ranges for the angles are disclosed and in particular a tangential wear surface forms on the bar screen head which is essentially parallel to the flow direction of the stock feed.

Description

The invention deals with a profile bar arrangement which is intended in particular for bar screening devices in the paper industry. As usual, each profile bar comprises a profile bar foot and a profile bar head on the material feed side, which is swept over by a fibrous stock suspension as a material feed with a direction of flow. A screen opening or a screen slot is formed between each two adjacent screen bars, which forms a flow connection to the accept side.

Out of DE 199 16 038 A1 a method for wet screening of pulp suspensions in pressure screens and a pressure screening screen are known. The profile rods are designed in such a way that the profile rod heads of adjacent profile rods, which are swept over by the fibrous suspension, overlap one another. Also, the screen opening or the respective screen slot formed between two adjacent screen bars has an inclined course counter to the direction of flow of the fibrous suspension.

Out of EP 1 954 874 B1 a screen cylinder for cleaning or screening a fibrous stock suspension is known, wherein the accept channel is arranged in its entirety in a direction opposite to the feed flow direction of the fibrous stock suspension. Screen openings or screen slits are thus formed here, which run at an angle to the direction of feed flow and are inclined counter to the direction of feed flow.

Out of U.S. 6,119,867 a screen cylinder for fibrous stock suspensions is known, in which the downstream flank of the profile rod head is designed in the form of a recess on the stock feed side, with a kink being obtained in the profile base. Another screening device comprising a profile bar arrangement is from U.S.A. 4,846,971 known.

The invention aims to provide a profile bar arrangement in which the profile of each profile bar is designed in such a way that the pulp suspension is separated more effectively into rejects and accepts, at the same time a longer service life is achieved and there is a lower tendency to clogging.

According to the invention, a profile bar arrangement is provided for this purpose, comprising a plurality of profile bars with a profile bar foot and a profile bar head on the stock feed side, which is swept over by a fibrous stock suspension as stock feed with a predetermined flow direction, and which is intended in particular for screening devices or for bar screening devices in the paper industry. A screen opening with a flow connection to the accept side is formed between each two adjacent screen bars. According to the invention, the profile bar arrangement is characterized by the combination of the features of claim 1. The profile bar head is designed such that the upstream flank overlaps with a downstream flank of an adjacent screen bar, resulting in increased turbulence or vortex formation near the screen opening. As a result, the efficiency of the bar screening device can be improved when used as intended. On the material feed side, the downstream flank has a recess which comprises a first feeding flank and a second outgoing flank. An angle (α) is enclosed between the flanks and as a result, i.e. due to the V-shaped profile recess, an increased turbulence volume or increased vortex formation is obtained, as a result of which the effectiveness of the screening device can be increased. Furthermore, the axis of the screen opening is arranged at an angle β to the tangent line of the flow direction of the stock supply. This results in an inclined course of the screen opening or of the screen slot formed between adjacent screen bars, which is inclined counter to the direction of flow of the fibrous stock suspension as the stock supply. This results in an increased backflow, which reduces the tendency to clog. The angle (α) enclosed between the two flanks of the recess is in a range of 120° and 170°. In the form of a synergistic effect, these features work together in such a way that a screening device, in particular a bar screening device, is obtained which has a significantly more favorable overall range of performance in terms of sorting efficiency and throughput.

According to a preferred embodiment, the angle α enclosed between the two flanks of the recess is in a range of 140° and 160°. The angle (β) for the inclination of the screen opening or the screen slot to the tangent line of the flow direction of the stock feed is in a range of about 30° and 90°, preferably of about 45° and 60°.

In a preferred embodiment of the profile bar arrangement, the head-side flank of the profile bar has a tangential course which is essentially parallel to the direction of flow of the fibrous stock suspension as the stock supply and forms an essentially tangential wear surface. This results in improved resistance to wear, so that the screening device, in particular the bar screening device, has a significantly longer service life in comparison to conventional screening devices.

The configuration of the profile bar is preferably such that the tangential wear surface of the screen bar head has an extension of approximately 0.4 mm to 1.5 mm, preferably approximately 0.5 mm to 1.2 mm.

In particular, the profile bar according to the invention is designed in such a way that the flanks of two adjacent screen bars downstream after the screen opening enclose an angle γ to the acceptance side, which is in a range of about 30° and 90°, preferably in a range of about 45° and 60° lies. As a result, the screen opening or the screen slot can open quickly in the direction of the accept side, reducing the flow resistance.

According to a preferred embodiment of the profile bar arrangement, the first feeding edge of the recess encloses an angle ε of between about 0° and 10°, preferably about 2° and 6°, to the tangent line of the direction of flow of the fibrous stock suspension as the stock supply.

The profile bar arrangement is preferably designed such that the second flank of the material feed-side recess encloses an angle δ of between 5° and 60°, preferably between about 15° and 35°, to the tangent line of the direction of flow of the material feed. These measures optimize the recess in terms of the vortex space or vortex volume.

In summary, it is essential according to the invention that, in the case of a profile bar arrangement, a special optimization of the profile bar head is carried out with regard to its geometric configuration in order to provide the largest possible eddy volume at the profile bar head in order to whirl up the fibrous stock suspension again before it passes through the screen opening and at the same time to reduce the tendency to clog to be suppressed during normal operation, since the axis of the screen opening encloses a predetermined angle to the tangent line of the direction of flow of the material supply, in order to generate a favorable reverse flow, thereby reducing the tendency to blockage during normal use.

• 1 eine schematische perspektivische Gesamtansicht einer Stabsiebvorrichtung in der Papierindustrie in Form eines Stabsiebkorbs,
• 2 eine schematische perspektivische vergrößerte Ausschnittsansicht eines Teils des Stabsiebkorbs nach 1, und
• 3 eine schematische Seitenansicht in vergrößerter Darstellung von zwei benachbarten Profilstäben der Profilstabanordnung zur Verdeutlichung der nach der Erfindung wesentlichen Winkel der Profilierung des Profilstabs.

The invention will be explained in more detail below by means of preferred non-limiting embodiments of the invention with reference to the attached drawings. It shows:

• 1 a schematic perspective overall view of a bar screening device in the paper industry in the form of a bar screen basket,
• 2 a schematic perspective enlarged detail view of a part of the bar screen basket 1 , and
• 3 a schematic side view in an enlarged view of two adjacent profiled bars of the profiled bar arrangement to illustrate the angle of the profiling of the profiled bar that is essential according to the invention.

In the figures of the drawings, identical or similar parts are provided with the same reference numbers.

1 shows a schematic perspective view of a screen basket, denoted overall by 1, which is a rod screening device in the paper industry, for example. The screen basket 1 comprises two axially opposite end rings 2, between which two reinforcing rings 3 or support rings are arranged in the example shown, in which profile rods 4 are accommodated.

Out of 2 more details regarding the reinforcement rings 3 and the profile bars 4 can be seen. The profile bar 4 has a profile bar contour 5 which includes a profile bar foot 6 and a profile bar head 7 . The respective profile rod head 7 is fed by a fibrous stock suspension in an in 3 designated flow direction F swept over. A screen opening 9 is formed between each two adjacent profile bars 4 (see more in 3 illustrates), which forms a flow connection to the acceptance side 10 of the screen basket 1. The two in 2 Reinforcement rings 3 shown have recesses 8, in which the respective profile bar 4 is inserted with its profile bar foot 6 in a form-fitting manner. As schematic in 2 indicated, the profile rod head 7 has a special profile design essential according to the invention, with the profiles of two adjacent profile rods 4 of the profile rod arrangement overlapping at the head area of the profile rod head 7 .

With reference to 3 a preferred embodiment of the profiles on the profile rod head 7 is shown in an enlarged side view. In 3 two adjacent profile bars 4 are shown. The profile bar head 7 of each profile bar 4 is swept over by a fibrous stock suspension as a stock feed on the stock feed side. The direction of flow of the fibrous stock suspension as stock feed is indicated by F. Each profile bar head 7 is designed in such a way that an upstream flank 11 overlaps with a downstream flank of an adjacent profile bar 4 . The downstream flank 12 of the profile rod head 7 is formed on the material feed side in the form of a recess 13 which comprises a first feeding flank 16 and a second leading flank 17 . These two Flanks 16, 17 of the recess 13 on the respective profile rod head 7 enclose an angle α. Furthermore, the axis of the screen opening 9 encloses an angle β to the tangent line of the direction of flow F as the material supply. The overlapping of the profiles of adjacent profile bars 4 at the profile bar head 7 intensifies turbulence, as a result of which the screening efficiency can be improved. The recess 13, which is designed (V-shaped), causes an enlargement of the turbulence space, as a result of which the screening efficiency can be improved even further. Since the axis of the screen opening 9 preferably encloses an angle β to the tangent line of the flow direction F, a flow direction directed against the flow direction F is obtained at and in the screen opening 9. This generates an increased backflow in the operating state, which reduces the tendency to clog in normal operation leaves.

The angle α is in a range of about 120° and 170° and preferably in a range of about 140° and 160°.

The angle β for the inclined arrangement of the screen opening 9 is in a range of approximately 30° and 90°, preferably approximately 45° and 60°.

How out 3 As can be seen, each profile bar 4 of the profile bar arrangement has a head-side flank 18 which has such a tangential course that it is essentially parallel to the direction of flow F of the material supply. In the operating state, this head-side flank 18 forms a tangential wear surface which is abrasion-resistant and has a high wear resistance. This is intended to give the bar screening device a longer service life. The flank 18 on the head side, which forms a substantially tangential wear surface, preferably has an extent x of approximately 0.4 mm to 1.5 mm, preferably approximately 0.5 mm to 1.2 mm.

As also from the 3 As can be seen, the downstream flanks 19, 20 of two adjacent profile bars 4 adjoining the screen opening 9 enclose an angle γ in the direction of the acceptance side of the screen device and this angle is then in the range of about 30° and 90°, preferably in one range of about 45° and 60°. This ensures rapid opening of the passage through the sieve opening 9 in the direction of the acceptance side 10 in order to achieve a significant reduction in the flow resistance in this area in the direction of the acceptance side 10 .

According to a preferred embodiment, the first feeding flank 16 encloses an angle ε to the tangent line of the flow direction F of the material feed. This angle ε is in a range of approximately 0° and 10°, preferably in a range between approximately 2° and 6°. The angle ε gives the profile a greater profile depth and a maximization of the vortex space. In addition, this angle ε gives the profile of the recess 13 an additional vortex component in the direction of the subsequent screen opening 9.

The second, leading flank 17 of the recess 13 on the material feed side encloses an angle δ to the tangent line of the flow direction F of the material feed. This angle is between about 5° and 60°, preferably between about 15° and 35°.

The special profiling that is essential according to the invention, especially in the area of the profile bar head 7 of the profile bar arrangement, represents an overall combination of measures which interact in the form of a synergistic effect in such a way that a screening device is obtained which is designed in the form of a screen basket 1 and has an overall more favorable performance allows in the operating state without possibly costly additional measures. In particular, the increased formation of vortices in the area of the recess 13 is essential for improving the overall efficiency of the screening device.

Of course, the invention is not limited to the preceding preferred exemplary embodiments and their details, but numerous alterations and modifications are possible, which those skilled in the art will make if necessary without departing from the inventive idea, which is seen as providing a screening device overall, preferably a bar screening device , which has significantly improved properties when used as intended and is also, in particular, more resistant to wear.

reference list

1

strainer basket overall

2

end rings

3

reinforcement rings (support rings)

4

profile bar

5

profile bar contour

6

profile bar foot

7

profile head

8th

Recesses in reinforcement rings 3

9

sieve opening

10

acceptance page

11

Upstream Flank

12

Downstream Flank

13

recess

14

first leading flank of the recess 13

15

second leading flank of the recess 13

16

head flank

17

downstream flank

18

downstream flank of adjacent section bar 4

f

Flow direction of the stock feed in the form of a pulp suspension

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent Literature Cited

• DE 19916038 A1 [0002]
• EP 1954874 B1 [0003]
• US6119867 [0004]
• US4846971A [0004]

Claims (9)

Profile bar arrangement comprising a plurality of profile bars (4) with a profile bar foot (6) and a profile bar head on the stock feed side, which is swept over by a fibrous stock suspension as a stock feed with a flow direction (F), in particular for bar screening devices in the paper industry, with one profile bar between each two adjacent profile bars (4). Screen opening (9) is formed with a flow connection to the accept side (10), in which the profile bar head (7) is designed in such a way that an upstream flank (11) overlaps with a downstream flank (12) of an adjacent profile bar (4), a downstream flank (12) on the material feed side is designed in the form of a recess (13) with a first feeding flank (16) and a second outgoing flank (17) including an angle (α) between the flanks (16, 17), the axis the screen opening (9) to the tangent line of the direction of flow (F) of the material feed includes an angle (β) and the Angle (α) is in a range of 120° and 170°. profile bar arrangement claim 1 , characterized in that the angle (α) is in a range of 140° and 160°. profile bar arrangement claim 1 or 2 , characterized in that the angle (β) is in a range of 30° and 90°, preferably of 45° and 60°. Profile bar arrangement according to one of Claims 1 until 3 , characterized in that the head-side flank (18) has a tangential course which is parallel to the flow direction (F) of the material feed and forms a tangential wear surface. profile bar arrangement claim 4 , characterized in that the tangential wear surface of the profile rod head (7) has an extension of 0.4 mm to 1.5 mm, preferably 0.5 mm to 1.2 mm. Profile bar arrangement according to one of the preceding claims, characterized in that the screen opening formed between two adjacent profile bars runs inclined to the tangent line of the direction of flow (F) of the stock supply. Profile bar arrangement according to one of Claims 1 until 5 , characterized in that the downstream flanks of two adjacent profile bars (4) after the screen opening (3) enclose an angle (γ) to the accept side (10) which is in a range of 30° and 90°, preferably in a range of 45° and 60°. Profile rod arrangement according to one of the preceding claims, characterized in that the first feeding flank (16) of the recess (13) forms an angle (ε) between 0° and 10°, preferably between 2° and 6°, to the tangent line of the flow direction (F) of the material feed °, includes. Profile rod arrangement according to one of the preceding claims, characterized in that the second flank (17) of the recess (13) on the material feed side encloses an angle (δ) to the tangent line of the flow direction (F) of the material feed which is between 5° and 60°, preferably between 15° ° and 35°.

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