EP2192227A2 - Device for guiding or transferring a length of fibre sheet - Google Patents

Abstract

The device has an edge nozzle (7.1) for removing a threading strip (2a,2b,2c), which is severed from a web releasing web guiding surface. A separating element (11) has a knife roller (19) having a blade (21), whose rotation axis is arranged parallel to an axis (27) of a upstream cylinder (14).

Description

The invention relates to a device for guiding or transferring a fibrous web from a web-emitting web guide surface of a first processing or manufacturing station to a next station or to a web-receiving web guide surface along a web travel within a machine for producing and / or finishing the fibrous web, comprising at least an edge nozzle for detaching a threading strip separated from the web from the web-dispensing guide surface by means of an air jet ejected from the at least one edge nozzle, and comprising a belt conveyor for sucking and advancing the threading strip, the belt conveyor comprising a vacuum box and an air-permeable endless conveyor belt passing over an upstream roller and a roller disposed downstream, and the upstream end of the belt conveyor has a separating member for separating the threading thread fens and formation of a new web start is assigned.

Such a device is known from EP 1 440 926 known. On the EP 1 424 441 and the EP 1 245 729 should also be referred to in the context of the prior art. The unpublished DE 10 2008 002 260 shows an arrangement according to the described prior art with a rotating knife.

Such a transfer or Einfädelvorrichtung is necessary to thread the often about 8 to 12 meters wide webs in the manufacturing or processing or finishing machine or re-thread after a demolition can, because that is not possible in the entire width.

It is so that from the fibrous web, which runs immediately behind a first processing or manufacturing station of a web-issuing web guide surface in an arranged under the web pulper, first about 15 to 30 cm wide Einfädelstreifen (which also as Überführstreifen or Bändel designated is) is cut. This is then threaded into the machine and pulls later after a cross-cutting process the web in full width. When separating the Einfädelstreifens creates a new web start.

Often, the acceleration of the transported threading strip is too low and is thus in sharp contrast to the full machine and web speed during the transfer process. As a result, the threading strip can remain in the removal region, form a ball or lead by folding to a so-called double strip (double tail), with the result of getting caught and tearing off the tape or threading strip in the removal area.

This disadvantage was tried with the, in the mentioned EP 1 440 926 to eliminate the device described. Although it was possible to increase the tensile force on the threading strip and to achieve a deflection in the conveying direction through the suction zone and the vacuum conveyor belt conveyor, but the decrease of the web-emitting surface still does not always work properly.

In addition, this device is more suitable for fibrous webs with a low basis weight. In fact, the energy of the edge nozzles used is often insufficient to first guide the web or the threading strip and secondly separate it in the transverse direction for the purpose of achieving a new web or threading strip beginning for the transfer.

Particular reference is also made to the unpublished at the time of this application DE 10 2007 014 118 , According to the invention, there is provided that the upstream roller of the belt conveyor has a smaller diameter than the downstream roller, whereby the vacuum belt conveyor can arrange close enough to the web-issuing web guide surface and thus also the negative pressure region moves close to the web-issuing web guide surface. Thus it is possible that the threading strip - better than the State of the art - immediately and safely recorded and continued. In addition, according to the invention, a transversely acting separating element is associated with the upstream end of the belt conveyor. The separating element serves to separate the threading strip and to form a new web start. As a result, a very accurate and accelerated separation is possible. Overall, thus fibrous webs with high basis weights, such as cardboard sheets are easier to convert.

Experiments have shown, however, that with ever faster speeds of high-density fibrous webs, further improvement in stabilizing the web path of the threading strip is desirable. In particular, the detachment process from the web-dispensing web guide surface of a first processing or manufacturing station is to be improved because a strong jet of air does not necessarily under the Einfädelstreifens so attacked that a movement direction separator or belt conveyor is always performed in the necessary precision and the Einfädelstreifen in unintentional Way folds.

The in the DE 10 2008 002 260 arrangement shown here has largely remedied. Nevertheless, the result was not yet 100% satisfactory. The rotating knives led in some cases namely that the threading strip was moved laterally. This is the case in particular for relatively heavy papers and high speeds (greater than 1600 m / min).

The object of the invention is therefore to provide a device which can separate a threading strip so precisely that it no longer comes to significant problems in the transfer of a web-emitting web guide surface to a web-receiving web guide surface.

This object is achieved in a device of the type mentioned above in that the separating element comprises a blade provided with at least one blade roller whose axis of rotation is substantially parallel to the axis of the upstream Roller is arranged. By arranging the blades on a knife roller, which should be at least as long as the threading strip is wide, the threading strip is separated almost without lateral force. The term blade in this case is to be understood as meaning any element which, by sharp-edgedness, is capable of introducing an incision or perforation into the threading strip. Optionally, with the help of the air jet, the threading strip is thereby completely separated. Since the knife roller attacks uniformly over the entire width of the threading strip, there are no longer folds or double strips.

It is advantageous if the knife roller has a plurality of blades. This increases the security of a separation process.

It is also advantageous if at least one blade is hook-shaped. Several blades are in this case rather in relation to the knife roller length short, sharp-edged tips. In this form, however, the high impact pressure of the blade ensures that the threading strip is cut off. It also comes to a compression of the new web start.

Preferably, at least one blade can be arranged spirally around the knife roller. The slightly oblique dipping of the blade favors the cut. The effect of the transverse shift is usually negligible. Should problems nevertheless arise with regard to this, the blade can be designed as a left-hand thread on one half of the knife roller and as a right-hand thread on the other half of the knife roller. Of course, multiple threads are conceivable.

Advantageously, it is ensured that the direction of rotation of the knife roller during the separation process is identical to the direction of rotation of the upstream roller. This ensures that the new web start is guided in the direction of further transport and is directed by the knife roller on the belt conveyor.

Preferably, the peripheral speed of the knife roller is 1 to 1.5 times, preferably 1.05 to 1.2 times, the speed of the threading strip. This speed offers two advantages. First, the blades exert exactly the right pull to separate the web and transport it to the belt conveyor. Secondly, the driving speed is high enough to ensure that there is no overlap even when the web starts to form a loop.

It is favorable if the knife roller has a distance of 2 to 6 mm from the web-dispensing surface. In this arrangement, the air consumption of the at least one edge nozzle is still very low to lift the Einfädelstreifen of the web-delivering surface to a blade of the knife roller.

In many cases, and especially in heavy paper grades, it is advantageous if, in addition to the one edge nozzle, at least one second edge nozzle acts on the same side of the threading strip. And more particularly, if the angles between the edge nozzles and the web-dispensing guide surface are adjustable, it is possible to use a jet to lift the threading strip edge from the web-dispensing surface. The other air jet should then be set to blow compressed air between the threading strip and the web dispensing surface so that it can convey the threading strip in the direction of the separating element.

The exiting from the first edge nozzle air flow is directed so that it lifts the threading strip on the web-emitting guide surface, which is usually a roller. It forms a kind of hump at a point on the web-emitting guide surface, the threading strip continues to run in the direction of pulper. Only the air supply from the second edge nozzle causes the threading strip comes into contact with the separating element. As a result, the new web start of Einfädelstreifens is formed. This "task sharing" of the two air jets has proven to be special proved beneficial and functional. It is no longer common, as in the past, to erroneous attempts when separating the Einfädelstreifens.

Preferably, the bearings for the knife roller are connected via a holding device with the housing of the belt conveyor. You can then install the belt conveyor and the knife roller as a compact already aligned unit in a paper or a paper finishing machine. A possibly expensive second holder for the knife roller on the machine stand can be omitted.

It is particularly preferred if the motor of the drive of the knife roller is at least partially enclosed in the housing of the belt conveyor. As a rule, there is a free space within the belt conveyor that is not used. This space is used to accommodate the drive motor for the knife roller. As a result, the engine is largely protected from dust.

The invention will be explained in more detail with reference to an embodiment.

Figur 1:

ein Ausführungsbeispiel der erfindungsgemäßen Vorrichtung mit drei verschiedenen Zuständen der Einfädelstreifen zu unterschiedlichen Zeitpunkten

Figur 2:

eine schematische Draufsicht auf die erfindungsgemäße Vorrichtung zum Führen bzw. Überführen einer Faserstoffbahn

Show it:

FIG. 1:

An embodiment of the device according to the invention with three different states of Einfädelstreifen at different times

FIG. 2:

a schematic plan view of the inventive device for guiding or transferring a fibrous web

In the FIG. 1 a device 1 for guiding or transferring a fibrous web 2 is shown. The fibrous web 2 should from a web-emitting web guide surface or processing station 3 to the next station 4 or to an intermediate, web-receiving web guide surface 5 within a machine for producing and / or finishing the fibrous web 2 at startup The machine can be performed or threaded during production or after a web break.

For this purpose, the device has at least one first edge nozzle 7.1 and a second edge nozzle 7.2 on at least one side of the threading strip 2c. These edge nozzles serve to detach the threading strip 2c from the web-dispensing guide surface 3.

From the fibrous web 2 is a narrow Einfädelstreifen 2c with a in the FIG. 1 Not shown lace cutter cut longitudinally. The remaining fibrous web and the cut threading strip 2c first pass into the pulper 8.

Serving for detaching the threading strip with an air jet edge nozzles 7.1 and 7.2 are laterally attached to the housing 26 of the subsequent web guide surface 5 having belt conveyor 10.

Advantageously, a separating element 11 is provided for strip removal in the transverse direction and for forming the new web or Einfädelstreifenanfanges 2b on the belt conveyor 10. Upon activation of the separating element 11, the threading strip 2b is severed transversely and at the same time a new beginning or free end of the threading strip 2b is created. This can now fed to the web-receiving web guide surface 5 and thus the threading to the next station 4 are completed and then the web can be driven ever wider, until the full web width of the fibrous web 2 is reached. At this stage, in which the threading strip is fed to the next station 4, it is in the FIG. 1 provided with the reference numeral 2a.

The said belt conveyor 10 with its web-receiving web guide surface 5 has a vacuum box 12 and an air-permeable endless conveyor belt 13. The conveyor belt 13 forms with its top the already mentioned web-receiving Web guide surface 5 and runs with its inside over a stroaufwärtig arranged roll 14 and a downstream arranged roller 15th
In this case, the upstream roller 14 is formed as a suction roller and forms an upstream end 16 of the belt conveyor 10, whereas the downstream roller 15 is a drive roller.

The illustrated separating element 11 and also the edge nozzles 7 are arranged at the upstream end 16 and fastened by means of holding devices 25 directly to the housing 26 of the belt conveyor 10. The separating element 11 is the essential new and inventive part of the device 1 for guiding or transferring a fibrous web 2. The blades 21 are fastened to a rotating knife roller 19. The knife roller has an axis of rotation 24 which is arranged parallel to the axis of rotation 27 of the upstream roller 14. The knife roller 19 is located very close to the upstream roller 14 of the belt conveyor and rotates in the same direction of rotation.

Equally tight, the separating device 11 is arranged on web-emitting surface 3 and spaced only about 2 - 6 mm from this. This is a very compact, yet easy to implement, effective device for immediate release, separating and transferring a Einfädelstreifens created.

The blade 21 may have a variety of non-illustrated shapes with a smooth or toothed cutting surface. It may also be merely hook-shaped, so that a particularly hard engagement in the threading 2c takes place. Over the length and circumference of the knife roller 19, the blades 21 may be mounted in multiple, not shown versions. The selection depends on the thickness or the basis weight in g / cm ^{2 of} the fibrous web 2 to be guided or transferred. As a rule, several very short blades 21 are sufficient.

The sheet-discharging surface 3 in the example is a surface of a drying cylinder against which a scraper 18 is set. It is advisable to provide that the belt conveyor 10 can be varied in its length by special designs of its housing, by stretching or compression of the same, if desired. Thus, these facilities can be adapted to the local conditions in the machine without much effort and are therefore extremely flexible. However, said length adjustment is not shown in the figures.

The embodiment according to FIG. 2 shows blades 21, which are arranged on both sides like a left and half-side like a right-hand thread spiraling around the knife roller 19. In a separating operation, the threading strip (2c, 2b) is cut uniformly over the entire width without resulting transverse forces, which would lead to an undesired folding or would make the transfer process to the belt conveyor 10 more difficult. Even with fibrous webs with a higher basis weight of 100 to 500 g / m ² as a trouble-free transfer can be guaranteed.

In FIG. 2 the arrangement of the edge nozzles 7.1 and 7.2 is shown schematically. It can be clearly seen here that the edge nozzles are given a different blowing direction because they are at an angle to one another. The edge nozzle 7.1 ensures that the threading strip 2c lifts off from the web-dispensing surface 3, for example a drying cylinder surface, in the shape of a hump and thus creates a free space 9 between the web-dispensing surface 3 and the threading strip 2a (see FIG Fig. 1 ) creates.

With the edge nozzle 7.2 an air blast is then blown in the other direction of action in the free space 9, which moves the threading strip in the direction of separating element 11 and helps to direct the new beginning on the web-receiving web guide surface 5. The air blast from the edge nozzle 7.2 can be much larger and delayed with respect to edge nozzle 7.1.

By the arrangement of the knife roller between the web-dispensing surface 3 and the upstream roller 14 and because the peripheral speed of the knife roller is slightly greater than the web speed (1 to 1.5 times, preferably 1.05 to 1.2 times) , the new web start is automatically performed on the web-receiving surface 5 of the belt conveyor.

In FIG. 2 an example of a drive option for the knife roller is shown. For this purpose, the drive motor 23 is housed within the housing 26 of the belt conveyor 10. There he is protected from dust. Only the shaft journal looks out of the housing. The pin of the knife roller 19 and the shaft of the motor 23 are drivingly connected, for example by means of V-belts on V-belt pulleys.

LIST OF REFERENCE NUMBERS

1

Device for guiding or transferring

2

Fibrous web

2a, 2b, 2c

threading strip

3

web-emitting web guide surface or processing station

4

next station

5

railway receiving web guide surface

6

Machine for manufacturing and / or finishing

7.1,7.2

edge nozzle

8th

pulper

9

free space

10

belt conveyors

11

separating element

12

Vacuum box

13

endless conveyor belt

14

upstream roll or suction roll

15

downstream roller or drive roller

16

upstream end (belt conveyor)

17

downstream end (belt conveyor)

18

scraper

19

knife roll

20

camp

21

blade

22

drive

23

engine

24

axis of rotation

25

holder

26

casing

27

Axial upstream roll or suction roll

Claims (11)

Device for guiding or transferring a fibrous web from a web-emitting web guiding surface (3) of a first processing or production station to a next station (4) or to a web-receiving web guiding surface (5) within a machine (6) for production and / or finishing the fibrous web (2), comprising at least one edge nozzle (7.1) for detaching a threading strip (2a, 2b, 2c) separated from the web by the web-dispensing guide surface (3) by means of an air jet ejected from the at least one edge nozzle (7.1) and having one Belt conveyor (10) for sucking and further transporting the threading strip (2a, 2b, 2c), the belt conveyor (10) comprising a vacuum box (12) and an air-permeable endless conveyor belt (13) arranged over an upstream roller (14) and downstream Roller (15) is guided, and the upstream end (16) of the belt conveyor (10) a Separating element (11) for separating the threading strip (2c) and forming a new web start (2b) is assigned,
characterized in that
the separating element (11) comprises a knife roller (19) provided with at least one blade (21), the axis of rotation (24) of which is arranged essentially parallel to the axis (27) of the upstream roller (14). Device according to claim 1,
characterized in that
the knife roller (19) has a plurality of blades (21). Apparatus according to claim 1 or 2,
characterized in that
at least one blade is hook-shaped. Device according to one of claims 1 to 3,
characterized in that
at least one blade is arranged spirally around the knife roller (19). Device according to one of claims 1 to 4,
characterized in that
the direction of rotation of the knife roller (19) during the separation process is identical to the direction of rotation of the upstream roller (14). Device according to one of claims 1 to 5,
characterized in that
the peripheral speed of the knife roller (19) is 1 to 1.5 times, preferably 1.05 to 1.2 times, the speed of the threading strip (2a, 2b, 2c). Device according to one of claims 1 to 6,
characterized in that
the knife roller (19) has a distance of 2 to 6 mm from the web-dispensing surface (3). Device according to one of claims 1 to 7,
characterized in that
at least one second edge nozzle (7.2) acts on the same side of the threading strip (2a, 2b, 2c) in addition to the one edge nozzle (7.1). Device according to claim 8,
characterized in that
the angle between the edge nozzles (7.1, 7.2) and the web-emitting guide surface (3) are adjustable. Device according to one of claims 1 to 9,
characterized in that
the bearings (20) for the knife roller (19) via a holding device (25) with the housing (26) of the belt conveyor (10) are connected. Device according to one of claims 1 to 10,
characterized in that
the motor (23) of the drive (22) of the knife roller (19) is at least partially enclosed in the housing (26) of the belt conveyor (10).

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