EP1026110A2 - Method of and device for transfering a running web - Google Patents

Abstract

The invention relates to a method for transferring a running material web, in particular a paper web, into a target area, in particular onto a target roller, in which by means of at least two cutting elements movable in a plane approximately parallel to the material web in the running material web, approximately parallel to the direction of travel, in the running material web of the material web extending transfer strip is cut, with at least one of the cutting elements being moved out of an at least approximately identical, at least approximate cuts effecting widthwise position of the cutting elements in the direction of one of the web edges to cut a particularly pointed beginning of the transfer strip. The invention also relates to a device for transferring a running material web, in particular for carrying out the method according to the invention. <IMAGE>

Description

The invention relates to a method for transferring a running material web, in particular a paper web, in a target area, in particular on a target roller, in which by means of at least two in one for Material web about parallel plane movable relative to the material web Cutting elements in the running material web approximately parallel to the running direction the transfer strip running along the material web is cut.

The invention also relates to a device for transferring a running material web, in particular a paper web, with at least two in a plane approximately parallel to the material web relative to the material web movable cutting elements for cutting approximately parallel to Direction of the material web extending transfer strip.

Such methods and devices are used, for example, in papermaking in addition, when starting up a paper machine or after to bring the new web start of a target roller to a tear of the paper web, e.g. formed as a web guide roller deflecting the paper web or on which the paper web is to be wound.

WO 98/33974 describes a method and an apparatus for Forming an entry strip in a paper machine. From this publication it is known to start with one of two cutters to cut a narrow edge strip in the web and then the Cutting device together with another cutting device in To move towards the center of the web. Here, the web is by means of second cutting device cut from the edge of the web. The one there resulting free edge strips are fed into the pulper during the Entry strips to a conveyor running along the side of the web is blown. WO 98/33974 does not show how the beginning of the lead strip is formed.

It is known from WO 97/48632, with two approximately from the middle of one Outgoing paper web and ending at one of the web edges Cuts, each ejected by means of a movable nozzle Water jet are generated, the new path start without generation of a transfer strip. The cuts can be one have common starting point so that the web is complete is severed. Either on the new start of the track or on one Rollers on which the paper web is to be wound become strip-shaped Adhesive surfaces applied so that the new beginning of the web adheres stays when he touches the roller.

It is the problem (object) on which the invention is based, a method and to create a device of the type mentioned, the one easy and safe transfer of the running material web allow.

This task is solved by the characteristics of the independent Process claim and in particular in that for cutting a in particular at least the tip-shaped beginning of the transfer strip one of the cutting members from an at least approximately the same, width position at least approximating cuts the cutting elements moved out towards one of the web edges becomes.

Because of the at least approximately the same width position of the Cutting elements enables the invention to be achieved by means of the cutting elements generated cuts either at one point or over a certain one Length coincide or at least approximate each other in this way leave the beginning of the transfer strip from the Cut out the running material web so that a free strip start is generated, which are easily supplied to the target area can.

Another significant advantage of the invention is that it is the same Width position can basically be chosen arbitrarily, so that the beginning of the strip at any point along the width of the material web can be cut out. According to the invention thus not on a conveyor running next to the material web such as. set a cable. The conveyor for the Transfer strips can also be in the middle of the material web, for example to be ordered.

The invention allows optimal coordination of both the position also the width of the transfer strip to the specific design of the Conveyor as well as on the level in which the conveyor is arranged, it being particularly advantageous that this coordination is reproducible is. Furthermore, the invention allows cutting of the transfer strip in the material web, i.e. it is no need to cut the web from one of the web edges. The emergence of a free edge strip that compares with big effort in a defined manner and e.g. in the pulper must be blown can be avoided according to the invention.

According to a preferred embodiment of the invention, the Cutting member or the cutting members are moved such that from cross the cuts produced by the cutting elements.

This ensures, on the one hand, that the beginning of the transfer strip is cut out of the material web. Secondly, that the cutting elements - seen with respect to the width of the material web - swap positions. This opens up the possibility without time consuming Moving the cutting elements back to a starting position by a new change of position another stripe start cut if a previous transfer attempt failed. Of further, before cutting the transfer strip, i.e. before generating the intersecting cuts with the two cutting elements in the material web a lead strip upstream of the transfer strip get cut. A major advantage of the invention is that through the intersecting cuts the end of the lead strip completely cut out, i.e. separated from the new path start becomes. This separation, also known as the remaining ribbon separation the lead strip is thus automatically according to the invention by the Scored at the beginning of the transfer strip.

According to a further preferred embodiment of the invention the cutting members are moved such that the cutting members generated cuts at the beginning of the strip, especially at the tip of the strip, are passed so close to each other that a predetermined tear point is created.

This will automatically generate a free start of Transfer strip allows, for example, without crossing or cuts to cut from a single cut of the beginning of the strip must be carried out.

According to a further preferred embodiment of the invention becomes at least essentially immediately after the start of cutting of the transfer strip, the beginning of the strip, the target area and / or one Conveyor fed.

This practice is because of cutting out the beginning of the Transfer strip from the material web by the invention at all only made possible. An advantage of early handling of the beginning of the strip consists in the fact that the transfer strip between the Cutting organs and at least approximately along the target area can be moved along an ideal path along which e.g. the Material web is guided in normal operation.

The object on which the invention is based is also achieved by the features of the independent device claim and in particular in that at least one of the cutting members for Cutting a particularly tip-shaped beginning of the transfer strip from an at least approximately the same, at least one another approximate cuts effecting the width position of the cutting members is movable out towards one of the web edges.

Preferred embodiments of the invention are also in the subclaims, the description and the drawing.

Fig. 1a - 1c

schematisch verschiedene Phasen während des Schneidens eines Überführstreifens gemäß einer Ausführungsform der Erfindung,

Fig. 2a - 2f

rein schematisch verschiedene Möglichkeiten der Erzeugung von Schnitten zum Schneiden eines Überführstreifens gemäß der Erfindung,

Fig. 3

teilweise eine schematische Ansicht eines an einer Walze angeordneten Schabers zum Führen des Anfangs des Überführstreifens gemäß einer Ausführungsform der Erfindung, und

Fig. 4

eine schematische Seitenansicht eines Teils einer in Verbindung mit der Erfindung verwendeten Trockenpartie einer Papiermaschine zur Erläuterung von Vorteilen der Erfindung.

The invention is described below by way of example with reference to the drawing. Show it:

1a-1c

schematically different phases during the cutting of a transfer strip according to an embodiment of the invention,

2a-2f

purely schematically, various possibilities for producing cuts for cutting a transfer strip according to the invention,

Fig. 3

partly a schematic view of a scraper arranged on a roller for guiding the start of the transfer strip according to an embodiment of the invention, and

Fig. 4

is a schematic side view of part of a dryer section of a paper machine used in connection with the invention to explain advantages of the invention.

FIG. 1 a shows a material web 10 guided over a roller 18, which in FIG Web running direction L is a further roller 19 downstream. In that condition 1a, the material web 10 runs between the rollers 18, 19 through e.g. in the machine cellar or in the pulper of the paper machine, of which the rollers 18, 19 are assigned. The roller 19 is said to be a new one The beginning of the web of the running material web 10 are fed. The roller 19 can thus be referred to as a target roller. The following will in this regard generally from a target area for the new start of the path spoken.

For cutting a transfer strip in the material web 10 is one Cutting device provided, which comprises two cutting members 20, 21, which are only schematically indicated by circles in FIGS. 1a-1c. The cutting members 20, 21 are preferably each one Nozzle for ejecting a water jet, the water jet in a obliquely to a direction normal to the material web can be expelled. Such an inclination of the nozzles can ensure that neither the strip itself nor the new start of the path is affected by the water. Instead of liquid other cutting devices can also be provided be, for example rotating, preferably toothed circular knives, fixed Knives, needles or lasers.

The cutting members 20, 21 are movable and independent of each other operable, the movement of the cutting members relative to the material web 10 in a transverse direction perpendicular to the running direction L. he follows. The cutting members 20, 21 can be on a common carrier be arranged, which extends over the material web 10. It However, a separate carrier can also be provided for each cutting element 20, 21 become.

As can be seen from FIGS. 1a-1c, the cutting members 20, 21 are in The web running direction L is offset to the transverse direction to be able to move past each other.

In the state according to FIG. 1a, the cutting elements 20, 21 in the material web 10 in the area of one of the web edges 13 already two Cuts 42, 43 running parallel to the web running direction L. been. This creates a narrower, hereinafter referred to as a leader designated strip 36, which between a narrow edge strip 39th and the rest of the material web 10, which is also called wider below Edge strip 38 is designated, is arranged.

In the operating state according to FIG. 1a, the cutting elements 20, 21 double-cut material web 10 between the rollers 18, 19 passed through, i.e. the leading strip 36 and the two edge strips 38, 39 are automatically shared e.g. in the machine cellar or driven into the pulper without special measures must be taken.

The cutting members 20, 21 can be used to cut the leading strip 36 are attached to the material web 10 in such a way that they each start are moved towards one another from one of the web edges 12, 13, until they are at the desired transverse distance at the desired one Width position are reached, so that the material web 10 of both Web edges 12, 13 is cut here. The material web 10 can even only with one of the cutting members 20, 21 or starting from the same Cut edge 12 or 13 with both cutting elements 20, 21 become. Furthermore, it is also possible to use the cutting elements 20, 21 without cutting into the web beginning at the web edges 12, 13 Apply surface of the material web 10 and thus the cutting of the Lead strip 36 to begin at the desired width position. Finally, only one of the cutting members 20, 21 could be in the area the material web 10 is attached and with the other cutting member 21, 20 the material web 10 starting from one of the web edges 12, 13 be incised.

A side of the material web 10 in the region of the ends of the rollers 18, 19 conveyor 17 extending parallel to the web running direction L, which in the embodiment shown is designed as a cable, is in connection with Fig. 1c described in more detail.

The cutting members 20, 21 arranged offset in the web running direction L. after reaching a certain length of the leader 36 moved past each other perpendicular to the web running direction L, so that intersect the cuts produced by the cutting members 20, 21 and the two cutting members 20, 21 thus swap their latitude position. The cutting members 20, 21 are thus in a common width position driven and from this same latitude position in each direction the web edges 12, 13 moves. This way, they will cross each other Cuts 43, 41 and 42, 40 generated. In doing so, they form the common starting point A where the cuts intersect, subsequent cuts 40, 41 a tip-shaped beginning 32 of the cutting transfer strip 30, the course to be generated in Fig. 1b and Fig. 1c is indicated by dashed lines. This way, a free beginning 32 of the transfer strip 30 is generated, the common Starting point A of the cuts 40, 41 the position of the web running direction L front tip of the transfer strip 30 determined.

A major advantage of the invention is that Cross over the sections 43, 41 and 42, 40, respectively Cut the end of leader strip 36 from the web 10 cut out and completely from the transfer strip 30 is separated. The invention thus ensures automatic separation of the remaining ribbons.

The free beginning of the strip 32 is shown in FIG. 1c by suitable means Supplied conveyor 17, which detects the beginning of the strip 32 and in the direction of the target area. The two edge strips 38, 39 of the material web 10 continue to be between the two rollers 18, 19th passed through. Special handling measures in particular of the narrow edge strip 39 are therefore not necessary according to the invention.

At the desired time, e.g. when the transfer strip 30 is stable in Direction of the target area runs, the cutting members 20, 21 from each other moved away and in the direction of the respective web edge 12 or 13, to drive over the transfer strip 30 and spread over the to create full web width extending new web start. As soon as the Material web 10 is guided over its full width in the target area the transfer process is completed. As soon as the cutting members 20, 21 reach the web edges 12, 13 when driving wide, the material web 10 completely cut, and the remaining strips 38, 39 arrive automatically easily in the machine cellar or in the pulper.

2a - 2f show different ways of cutting the Start 32 of the transfer strip 30 in a purely schematic in each case Presentation. The reference numerals 20 ', 21', 22 'are the positions the cutting members 20, 21, 22 referred to after cutting of the beginning of the strip 32 are traversed.

2a shows the procedure already described with reference to FIGS. 1a-1c, in which the cuts 42, made by means of the cutting members 20, 21 40 and 43, 41 crossed by moving both cutting members 20, 21 become. The width of the lead strip 36 corresponds to the width of the Transfer strip 30. The crossing point from which the the beginning of the strip 32 forming cuts 40, 41, is denoted by an A in Fig. 2a. By crossing the latitude positions of the Cutting elements 20, 21 interchanged.

In the embodiment according to FIG. 2b, none of that is to be cut Transfer strips 30 upstream lead strips in the sense of the variant cut from Fig. 2a, but the beginning 32 of the transfer strip 30 forming cuts 40, 41 start at the starting point A from a single one Section 44. Located during the generation of the cut 44 the cutting members 20, 21 thus in the same width position, whereby the front cutting element 20 in the web running direction L in that of the other Cutting element 21 generated cut 44 runs. In this embodiment are both cutting members 20, 21 from this common width position moved out to a symmetrical on the starting point A to produce a tapered strip start 32.

The procedure shown in Fig. 2c differs from that 2b in that only the cutting member 21 for cutting the beginning of the strip 32 from the common width position of the two Cutting members 20, 21 is moved out. In this way it is created an asymmetrically tapered strip start 32.

Fig. 2d shows a variant in which a leader strip 36 is cut, however in contrast to the procedure of Fig. 2a only that Cutting member 20 is moved transversely to the web running direction L. The other Cutting member 21 thus produces a parallel to the web running direction L. running cut 43, 41. This variant also creates an asymmetrical tapered strip start 32. The lead strip 36 and the transfer strip 30, which is separated at the starting point A of the cuts 40, 41 are thus offset from each other in the transverse direction.

The procedure according to FIG. 2e differs from the above explained variants in that the by means of the cutting members 20, 21st generated cuts 43, 41 and 42, 40 in the area of the beginning of the strip 32 do not have a common point. Instead, the cuts passed so close to each other that a short narrow web of material remains, which forms a predetermined tear point 14. The size of the web and in particular the minimum distance of the cuts will be dependent particularly adjusted by the nature of the material web. In this embodiment of the invention, the cutting members 20, 21 not exactly the same latitude position, but become the Formation of the predetermined tear point 14 initially in approximately the same Latitude position and then moved out of this latitude position again. The predetermined tear point 14 is designed such that the material web there 10 automatically tears by itself, so that even in this variant In accordance with the invention, a free start 32 of the transfer strip 30 is generated and at the same time a separation of the leading strip 36 is achieved.

In the variant according to FIG. 2f, three cutting members 20, 21, 22 are provided, the cutting members 20 spaced apart in the web running direction L, 21 before cutting the transfer strip 30 according to the embodiments 2b and 2c already show the same latitude position have, so that only a single cut 44 is produced. To the The third cutting element 22 is provided for cutting a leader strip 36, with which a cut 45 running parallel to the cut 44 is generated, e.g. may be near one of the edges of the web.

The two cutting members 20, 21 are part of a so-called turret nozzle arrangement and each with a constant distance of one perpendicular to the plane defined by the material web 10 Axis of rotation 24 arranged around which the cutting members 20, 21 together can be rotated, as indicated by the arrows in Fig. 2f is. By turning the axis 24, the cutting members 20, 21 are moved out of the same latitude position to the Path start 32 to generate by the from the common starting point A outgoing cuts 40, 41 is set. In the in Fig. 2f The illustrated embodiment of this variant corresponds to the distance between the axis of rotation 24 and the cutting member 21 of the width of the Lead strip 36 so that after turning the turret nozzle arrangement the cuts 41 and 45 produced by the cutting members 20, 21 by 90 ° collapse.

Fig. 3 shows a way to detach the free cut beginning 32 of the transfer strip 30 indicated by dashed lines from the of the running material web 10 defined area. This is one with a Blade 56 provided scraper 55 which is used to adjust the contact pressure to the roller 52, which is the last drying roller, for example Drying section of the paper machine can be by means of an actuator 55a can be rotated about an axis 55b. The contact pressure is thereby set so low that the run of the material web 10 does not affect and the web of material 10 between the roller 52 and the blade 56 is let through undisturbed. That of the blade 56 in the direction of web travel L upstream cutting members 20, 21 cut out Start 32 of the transfer strip 30 is gripped by the blade 56 and can be steered in the desired direction by means of the scraper 55 as well if necessary, fed to the target area by further conveyors become. The by crossing the cutting elements 20, 21 generated cuts formed and at the rear in the web running direction L end free lead section 37b is shared with edge sections 37a and 37c of the material web 10 in the machine cellar or in the pulper guided.

4 shows a further advantage of the invention. The one Roll 51 brought material web 10 by means of the cutting members 20, 21 comprising cutting device 29 in one by Drying roller 52 supported area in which the web of material 10 no longer in contact with one guided by rollers 53 Sieve 54 is located.

Where is the ideal train path along which the Material web 10 moves in normal operation. The course of this ideal course Where is determined by a deflection roller 59. Because according to the invention the beginning of the transfer strip 30 is cut out of the material web 10 the beginning is free and can immediately follow its production is detected by suitable means and, for example, that in Fig. 4 shown, comprising two endless conveyors 50 fed and transported from this to the target area.

Due to the early, defined guidance of the beginning of the transfer strip 30 according to the invention, the transfer strip 30 and thus the new start of the web can be moved along a web path W ₁ which runs close to the ideal web W ₀ . Since, according to the invention, the transfer strip 30 is free from the start, the new path start need not be guided by means of a scraper 55 'and a deflection element 60 along the substantially longer path W ₂ , which is indicated in FIG. 4 by a dash-dotted line. This was previously necessary in order to cut the beginning of the strip free, for example by means of a separating device 57 having a knife 58. The tightening or so-called catch-up of the transfer strip 30 for taking the ideal path W ₀ can therefore be achieved in a significantly shorter time according to the invention, since the lower path W _{2 is} considerably longer than the approximately ideal path W ₁ .

In principle, the cutting device 29 can also be on another Place in the paper machine, where the web of material 10 also in an area supported by a sieve or in an unsupported area Area, e.g. in one free move, can be cut.

Reference list

10th

Material web

12, 13

Web edges

14

Breaking point

17th

Conveyor, cable pull

18, 19

Rollers

20, 21, 22

Cutting elements

20 ', 21', 22 '

Positions

24th

Axis of rotation

29

Cutting device

30th

Transfer strips

32

Start of the transfer strip

36

Leader

37b

Lead section

37a, c

Edge sections

38, 39

Edge strips

40, 41

Cuts for threading strips

42, 43

Cuts for leader strips

44, 45

Cuts

50

Conveyor

51

roller

52, 52 '

Drying roller

53

Rollers

54

scree

55, 55 '

scraper

55a

Actuator

56

blade

57

Separator

58

knife

59

Deflection roller

60

Deflector

A

starting point

L

Web direction

W ₀

ideal train path

W ₁

Approximately ideal path for a train

W ₂

longer path

Claims (24)

Method for transferring a running material web (10), in particular a paper web, into a target area, in particular onto a target roller, in which at least two cutting members (20, 21) movable in a plane approximately parallel to the material web (10) relative to the material web (10) , 22) a transfer strip (30) running approximately parallel to the running direction (L) of the material web (10) is cut in the running material web (10),
characterized by
that for cutting an in particular tip-shaped beginning (32) of the transfer strip (30) at least one of the cutting elements (20, 21) from an at least approximately identical, at least approximate cuts (40, 41, 42, 43) causing the width position of the cutting elements (20, 21) is moved in the direction of one of the web edges (12, 13). Method according to claim 1,
characterized by
that cuts (40, 41, 42, 43) produced by the cutting elements (20, 21) have a common starting point (A) at the beginning of the strip (32), in particular at the tip of a strip. The method of claim 1 or 2,
characterized by
that intersect cuts (40, 41, 42, 43) produced by the cutting members (20, 21). The method of claim 1 or 2,
characterized by
that the cuts (40, 41) produced by the cutting members (20, 21) and defining the beginning of the strip (32) are based on a single cut (44), preferably running approximately parallel to the web running direction (L). Method according to at least one of claims 1 to 4,
characterized by
that the cutting elements (20, 21) spaced apart in the web running direction (L) for cutting the beginning of the strip (32) are preferably rotated about 90 ° about an axis (24) which is preferably approximately perpendicular to the material web (10). Method according to claim 1,
characterized by
that cuts (40, 41, 42, 43) produced by the cutting elements (20, 21) are passed so close to one another at the beginning of the strip (32), in particular at the tip of the strip, that a predetermined tear point (14) is produced. Method according to at least one of the preceding claims,
characterized by
that the transfer strip (30) is cut approximately in the middle of the material web (10). Method according to at least one of the preceding claims,
characterized by
that the transfer strip (30) is cut with a width which is small compared to the width of the material web (10) and which is preferably at least approximately constant. Method according to at least one of the preceding claims,
characterized by
that the cutting members (20, 21) are moved in the direction of different web edges (12, 13) after the cutting of the transfer strips (30) defining cuts (40, 41). Method according to at least one of the preceding claims,
characterized by
that the cutting member or the cutting members (20, 21) is or are moved substantially perpendicular to the web running direction (L). Method according to at least one of the preceding claims,
characterized by
that the transfer strip (30) is cut after cutting a leading section (36; 37b) which is preferably designed as a strip (36) running parallel to the web running direction (L) and preferably close to one of the web edges (12, 13). Method according to at least one of the preceding claims,
characterized by
that the material web (10), in particular two edge sections (37a, 37c) or a preferably strip-shaped lead section (36; 37b) and two preferably strip-shaped edge sections (38, 39; 37a, 37c) together, along a path leading past the target area, in particular in the machine cellar or into the pulper of a paper machine. Method according to at least one of the preceding claims,
characterized by
that at least substantially immediately after the beginning of the cutting of the transfer strip (30) the beginning of the strip (32) is fed to the target area and / or a conveyor (50). Method according to at least one of the preceding claims,
characterized by
that the transfer strip (30) is moved at least approximately along an ideal path (Wo) between the cutting members (20, 21, 22) and the target area. Method according to at least one of the preceding claims,
characterized by
that the material web (10) is cut in a supported area, the support being provided in particular by a roller (52; 52 ') and / or by a sieve. Method according to at least one of claims 1 to 14,
characterized by
that the material web (10) is cut in an unsupported area, in particular in a free train, preferably immediately in front of a roller. Method according to at least one of the preceding claims,
characterized by
that as the cutting member (20, 21, 22) in each case a nozzle for ejecting a liquid jet, in particular a water jet, is used, the liquid jet being ejected in a direction extending obliquely to a normal to the material web (10). Device for transferring a running material web (10), in particular a paper web, in particular for carrying out a method according to at least one of the preceding claims, with at least two cutting members (20, movable in a plane approximately parallel to the material web (10) relative to the material web (10) 21, 22) for cutting a transfer strip (30) running approximately parallel to the running direction (L) of the material web (10),
characterized by
that at least one of the cutting members (20, 21) for cutting a particularly tip-shaped beginning (32) of the transfer strip (30) from an at least approximately identical, at least approximate cuts (40, 41, 42, 43) causing the width of the cutting members (20, 21) can be moved out in the direction of one of the web edges (12, 13). Device according to claim 18,
characterized by
that the cutting members (20, 21, 22) can be moved and / or operated independently of one another. Device according to claim 18 or 19,
characterized by
that the cutting members (20, 21, 22) can be moved with an approximately constant distance from one another with respect to the web running direction (L) and preferably along a common axis running approximately perpendicular to the web running direction (L). Device according to at least one of claims 18 to 20,
characterized by
that the cutting members (20, 21, 22) are arranged on a common carrier, which preferably extends perpendicular to the web running direction (L) over the material web (10). Device according to at least one of claims 18 to 21,
characterized by
that the cutting members (20, 21) are rotatable about an axis (24) which is preferably approximately perpendicular to the material web (10). Device according to at least one of claims 18 to 22,
characterized by
that the cutting members (20, 21, 22) each comprise at least one nozzle for ejecting a liquid jet, in particular a water jet, a rotating, preferably toothed circular knife, a fixed knife, a needle or a laser. Device according to at least one of claims 18 to 23,
characterized by
that it is part of a dryer section, a wet section, a coating unit or a final group of a paper machine.

Images