FI123824B - Improved web runnability in a material web machine - Google Patents

Abstract

A runnability device, for example a runnability box such as a suction box, is for achieving improved runnability of a web when the web (W) progresses supported by a wire ( 61 ) to a closing gap between a roll and the wire. The runnability device ( 10 ) is located on the side of the wire before the roll and extends over the width of the web so that there is a slot between the wire and the runnability device. The runnability device comprises devices ( 11 ) for directing a vacuum from the side of the wire over the width of the closing gap so that the vacuum in the edge area (E) of the web wire is greater than in the central area of the web wire. A characteristic feature of the invention is that the vacuum device ( 11 ) which creates the vacuum effect is adjustable in the cross-direction of the web wire.

Description

Improved web runnability in a material web machine

The present invention relates generally to material web machines. More particularly, the present invention relates to a runner device in a material web machine for achieving improved runnability of a web when the web track is supported by a wire in machine direction, i.e. MD, or web advancement direction, to a closing web between the roll and the wire. the web track on the free side of the web prior to said roll and extending substantially to the width of the web such that there is a gap of 10 between the wire and the runner, the runner box comprising a vacuum device adjustable transverse to MD in the transverse direction; / or the width of the closing web such that the vacuum in the periphery of the web and / or the periphery of the closing web is greater than in the middle of the web, in which case the vacuum means is a seal, a bundle pack, preferably comprising a maze seal pack having at least two spaced-apart maze packings.

The present invention is suitable, for example, for use in connection with a vacuum box for a drying unit of a material web machine, but the present invention can also be applied to other types of drying unit concepts or web transfer concepts.

In the context of the present invention, the term material web machine generally refers to machines for processing any kind of web-like material, whereby the web-like material co q can be

CVJ

25 - a material web which generally refers to all kinds of webs, or cp - a fiber web which generally and more particularly means various paper webs, x carton web, tissue web and pulp web, etc., or cc paper and / or board web.

^ For the sake of simplicity, web-like material will hereinafter be referred to as the web.

LO

o 30 The tissue supporting the web is hereinafter referred to as the term wire. In this case, the web and the wire 00 form together the web. Thus, the material web machine may be, for example, particularly a fiber web machine or a paper / board machine, for example. In the context of the present invention, the general attribute used is a material web machine.

FI Publication No. 113973 discloses a method and apparatus for stabilizing the web passage with a press section of a material web machine 5 for straightforward web transfer supported by a felt from one roll to another roll, i.e.. web track support interval. According to the publication, the web support device enhances the vacuum side effect of the felt in critical areas such as opening and closing grids and in the peripheral areas of the web. In this case, ejection nozzles provide vacuum boosting gaps in critical areas over a wide web center region in the machine direction and transverse to CD direction, by limiting the vacuum effect by following a controlled leakage flow or by implementing reduced vacuum flows with limited backflow. Thus, according to the publication, a greater vacuum effect is obtained on the felt side near the support rolls and on the edge areas of the web.

15

The operation of the felt blanket box is entirely influenced by the blowing seal, which also provides air to the central portion of the web, which then has to be deaerated in addition to the normal leak air flow, i.e. double work by blowing and then sucking the same air. The felts also have a significantly dense structure than the dryer fabrics and the felts carry significant amounts of water, so that their contact with the suction box does not immediately cause the same frictional forces as the draping fabrics while the blowing still presses the fabric toward the suction box and warms the web. The wire section and the press section are used co o generally for suction boxes which contact the wet wire or felt and have a cured and c \ j lq 25 water-lubricated surface structure, o However, a particular problem with the prior art is that

CC

at the closing web, in the peripheral regions of the web formed between the wire and the roll, the web edge is detached from the wire when the web enters a suction roll such as vac roll 30 or groove roll. In the context of the present invention o 00, the portion of the closure web which is transverse to the machine direction, i.e. the CD direction, refers to the edge of the web that runs along the edge of the wire or web or 3 webs. Detachment of the web edge from the wire is due to the air introduced by the roll and the wire, which is attempted to be removed by: - removing the pre-roll and the next roll and wire closing gutter from the entire pocket space by means of a runner box and 5 - direct blow and suction interactions at the edge of the web.

In this case, high power is required to eliminate air accumulating directly through the wire from the outside of the web at the edge closure at the edge of the pocket at one of the 10 vacuum levels of the pocket. In order to create a vacuum in the periphery of the closing kid, the other pockets, i.e. in the middle, an unnecessarily high vacuum that bends the wire toward the box. Such deflection is detrimental, for example, in blowing, because as the distance increases, the drying power decreases, and when the drying power is different in the middle of the web and at the edges, a deviation corresponding to the transverse drying profile of the web. A low peripheral area vacuum also makes headaches more difficult and can, for example, cause web stripping. A small peripheral vacuum is also detrimental to the adjustment of the edge cut (width) and the blowing of the web. Further, it is a weakness of the prior art that it is difficult to adjust the position or the width or the intensity of the region of the vacuum effect of the peripheral region. The above problems are exacerbated and more difficult the higher the speed of the web.

It is an object of the present invention to eliminate or at least substantially reduce the problems and weaknesses of the prior art.

CM

It is another object of the present invention to provide a new and inventive runner for the improved runnability of the web in a material web machine.

It is a third object of the present invention to ensure that the web cc remains attached to the supporting wire.

It is a fourth object of the invention to reduce the deflection of the web and thus to smooth it

LO

30 Discrepancies in the CD drying profile. A fifth object of the invention is to reduce the runnability problems and thus to allow the speed of the web to be increased.

4

It is a sixth specific object of the present invention to improve the ability to adjust the position, width and / or intensity of the region of vacuum effect of the peripheral region.

In general, the objects of the present invention may be achieved by the runner device of the invention mentioned above, for example, that the vacuum means is adjustable transverse to the machine direction by - moving the vacuum means on the wire side at an optional distance from the web edge; adjustable in the peripheral region of the closing rod, and / or adjusting the angle between the vacuum means and the machine direction, wherein the distance of at least one end of the vacuum means is adjustable in the machine direction depending on the , and / or by adjusting the suction gap of the vacuum device, which substantially affects the air flow rate at the suction, whereby the vacuum the intensity of the ejection is adjustable at the edge of the web and / or at the edge of the closing web.

According to an example of the invention, the vacuum device of the runner device is transversely adjustable by means of seals or seal pack.

According to an exemplary embodiment of the present invention, the sealing means may consist of a co q maze seal pack having at least two spaced apart maze seals having substantially straight mating surfaces interposed therebetween with a suction gap cp having a substantially parallelepipedal cross-section. In this case, the vacuum effect x is provided by a direct suction from the wire side cr through the maze seal packet and through the boundary layer flow of air entrained with the web into the sealing means and any vacuum inside the runner box

LO

o 30 suction port open. The advantages of the maze seal package are, for example, that a sufficient vacuum effect is obtained while the seal package is simple and economically advantageous.

5

According to another embodiment of the present invention, the sealing means may consist of an ejector peripheral nozzle consisting of two spaced apart wall portions with mutually shaped, facing faces defining an air blowing gap forming an ejector principle. In this case, the vacuum effect is provided by the web track and / or closing web on the edge of the web in the ejector blowing slot and by the airflow with the web web over the blowing slot and additionally using a suction slit inside the runner. An advantage of the nozzle device is that even a small amount of air flow can achieve a high vacuum effect. The effect of the vacuum can be controlled by controlling the blowing flow and / or the separate suction flow.

The maze seal may also be implemented by placing the seals at an angle in the holder of the rectangular seal 15. In this case, the holder in the machine direction may have a diagonal seal, and both may have spaced remaining labyrinth seals. In this case, the labyrinth seal controls the boundary layer flow with the wire away from the closing rod.

It is recommended that the cross-adjustable sealing means be dimensioned and positioned so that it does not touch the web, which may deflect towards the runner under reduced pressure.

However, there may be contact between the web and the sealing means which, in order to avoid or minimize the resulting friction, the sealing means may be flexible in the direction of curvature of the web and in the shape of a possibly bending wire.

(M

25 matching current. One preferred material for the sealing device is cp ^ for example Teflon®.

X

CC

For other aspects of the invention, reference will be made to the following specific part of the specification and the appended claims.

LO

Among the advantages obtained by the invention, it can be mentioned in particular that the retention of the edge of the web in the wire is also ensured in the case of overblowing, that the shrinkage of the web 6 is reduced and that the deflection of the wire is reduced and uniform. Further advantages may be mentioned that the wire support rolls, which are, for example, suction vac rolls, can be provided with enhanced vacuum formation in the peripheral region. Thus, vac rolls can be provided with, for example, thicker grooves or denser suction holes in their peripheral areas. The suction rolls may be provided with separate peripheral suction chambers to form a higher vacuum, instead of grooving or suction.

The invention will now be described by means of an embodiment, preferably sequenced in a drying unit of a papermaking machine, with reference to the accompanying drawings, in which FIG. 1 generally depicts a runner device according to the invention in a paper machine drying unit,

FIG. 2 shows a cross-sectional view of an embodiment of the runner box according to the embodiment of FIG. 1, taken along line A-A of FIG. 1,

FIG. 3 shows a cross-section of another embodiment of the runner box according to the embodiment of FIG. 1, taken along the cross-section of FIG. 1 line A-A,

Figure 4 shows two examples of the use of maze seals and blow seals, and

FIG. 5 is a top and side elevational view, partially in section, of a wire and web.

20

In FIG. The papermaking machine shown in Fig. 1 includes a wire section A or former, press section B and dryer section C. In press section B, first cycle 1 and second cycle 2 and third cycle 3 are felt turns and fourth press portion 4 is generally a transfer belt. The drying section C comprises a fifth cycle 5, which is a so-called transfer wire cycle, and a sixth cycle 6, which is typically a drying wire cycle.

cp ^ Naturally, other types of wire and press sections are also suitable for the present invention x.

CC

CL

FIG. In the example 1, the first fabric loop 1 and the second fabric loop 2 of press section B are partially aligned so that the fabric loops support at least one side of web W at all times. The third tissue cycle 3 and the fourth tissue cycle 4 of the press member are on both sides of the web W and can be as shown in FIG. 1, also 7 partially aligned so that the web passes supported by at least one tissue. In the example of FIG. 1 in the dryer section C, the transfer wire twist 5 supports the web from above The wire 61 of the dryer wire cycle 6 supports the web from below.

5. 1 in the dryer section C is aligned with the dryer wire cycle 6, an overflow hood 71, which is tracked above the web W supported by the dryer wire cycle wire 61. After the drying wire rotation, the web W passes to the next overflow section 8, where the web W first goes down past the first overflow section 81 of the overflow section and then upwards past the second overlay section 82 of the overflow section 10.

A runner 10 for achieving improved web runnability as the web passes through a support gap between the first roll 62 and the subsequent second roll 63 in the dryer section C supported by the wire 61 of the dryer wire cycle 6 in the machine direction to the closing roll 65 of the second roll 63 and 15 wire 61. The runner located on the inside of the wire 61 of the dryer wire cycle 6 before the second roll 63 and extending substantially across the width of the web W such that there is a gap between the wire 61 of the dryer wire cycle 6 and the runner 10. The runnability device comprises vacuum means 11, 12, preferably suction means or blowing means 20, for applying vacuum from the wire side of the drying wire cycle to the machine direction across the web web W 61, including the web W to the drying wire wire 61.

Referring to FIG. 2, FIG. 1

CM

25 is a cross-sectional view of an exemplary embodiment of a runner box of FIG. 1 line A-o A. Due to the targeted vacuum, the vacuum in the peripheral area E and / or x of the web web 64 is greater than in the central region of web W, 61 and / or the closing web 65.

CM

mo 30 To apply effective vacuum to the desired portion of web W and / or to determine the magnitude of vacuum 8 acting on the web W, through the wire 61 supporting the web 6, to apply the desired negative pressure to the desired portion, , 12, which is adjustable in the transverse direction with respect to the machine direction.

According to an exemplary embodiment of Figure 2, the vacuum means 11 in the runner box 10 5 is limited to a cross-machine-adjustable seal package. According to the invention, such a seal pack may be, for example, a maze seal pack 111, 112 having at least two spaced apart maze seals. In this case, the spaced apart labyrinth seals 111,112, whose counter surfaces are preferably straight, form a suction slot 13a between them, through which the seal is open inside the runner box 10.

It follows from the direct contact surfaces of the labyrinth seals 111, 112 that the cross-sectional profile of the suction opening 13a is a conical section having airflow directions parallel to the airflow, substantially constant, 15 - converging contact surfaces which cause the airflow to recoil, , which improves air flow in the suction port.

By adjusting the width and / or the shape of the suction slot 13a, the amount of vacuum under the upstream side of the suction slot 13a can thus be adjusted, i.e. the size and position of the vacuum acting on the web W through the wire 61 of the drying wire cycle 6.

When the vacuum device is a maze seal package 111, 112, the vacuum effect is provided by the direct suction of the drying wire cycle 6 into the edge region E of the web web W 61, and / or the closing crotch 65 (see FIG. 1) 64 (see FIG. 1). on the side 61 of the wire, between the labyrinth seal packages 111, 112. The airflow between the labyrinth seal packages cp ^ may additionally be significantly FIG. 1 is a cross-sectional view taken along line A-A of FIG. 9 in another embodiment of the runner box according to embodiment 1. According to this exemplary embodiment, the sealing means in the runner box 10 consists of a nozzle means 12 which is an ejector-based peripheral nozzle which is mated to cooperate with the flow restrictor list 14.

Such an edge nozzle 12 according to FIG. 3 consists of two spaced apart wall portions 121, 122, with mutually directed and contoured counter surfaces defining an ejector blowing slot 13b having a curved portion first to provide an ejector effect. then 10 - a tapering zone with a small flow cross section, and finally - an outflow zone which can also be expandable.

In this case, the vacuum effect through the wire 61 to the edge area E of the web and / or to the edge area 64 of the closing web 65 is followed by a blowing gap 13b (or a suction gap 13a). In addition, the air flow along the web 61 of the web 60, along the wire 61 of the drying wire cycle 6 over the flow limiter 14 in the center region of the box, can be removed by vacuum in the runner box 10.

When a 12 ejector blast gap is applied as a vacuum device in the runner box, the vacuum effect is provided by the web track W, 61 to the edge region E and / or the sealing co q is open.

Reference is made to FIG. 4, which shows two examples of the use of labyrinth seals 111, 112 and x blowing seals 12. It is possible to limit the maze seal

CC

the flow restrictor list (14, cf. FIG. 3) is more effective in reducing air leakage from the center of the web to the periphery, i.e. the deflection of the middle of the wire can be reduced since the vacuum of m 30 is lower. Correspondingly, the peripheral area may be subjected to a greater vacuum of 00. Particularly in head-up situations, a higher and more targeted vacuum may be required at the head-end lane. The left-hand solution 10 of FIG. 4, provided with a separate suction slot 13a, also provides high vacuum at those points where the blow seal is not reached throughout the entire distance to be sealed. In this case, the blow seal may be replaced, for example, by a mechanical seal which closes the cross between the roll and the wire in the direction of flow.

5

Reference is made to FIG. 5, which shows a partially sectioned top and side view of the wire and web, i.e. a top view and a side view, respectively. Figure 5 shows the outgoing flow of blowing seals with arrows, which follows the coanda surface further and turns away from the wire plane, as seen from the side. The side seals 10 illustrate the possibility of moving them independently.

In the side view of FIG. 5, shingle blows are illustrated by arrows illustrating a stronger blowing effect in the closing flap and a smaller / adjustable blowing effect on the opening flap. The opening opening can also be mechanically sealed.

In the top view of FIG. 5, the shadows illustrate the various negative pressures acting on the periphery and middle region of the web, the control of which has been substantially improved by the invention.

20

Within the basic idea of the invention, the latching means can be adjusted transversely in many different ways. For example, the vacuum means 11, 12 can be moved along the wire side 61 of the drying wire cycle 6 at an optional distance from the edge of the web web W, 61 co g, whereby the vacuum action site in the web web edge area E and / or

CM

The peripheral region 64 of the closing flap 64 can be adjusted. Further, it is possible to adjust cp simultaneously or alone between the vacuum means and the machine direction, whereby the distance at least one end of the latching means x in the transverse or Z direction from the edge of the web may vary 30 area. In addition, the angular transverse angle of the lattice means may prevent the boundary layer o 00 from forming in the peripheral region of the closing fossa. It is still possible to adjust the width of the inlet opening 13a of the sealing means simultaneously or separately with the above adjustments whereby the airflow velocity in the inlet section can be substantially influenced, in particular adjusting the vacuum effect along the web track and / or

According to the invention, it is preferable that the cross-adjustable latching means does not touch the web path W, 61 so that the subsequent friction of the contact between the wire 61 of the moving dryer wire cycle 6 and the stationary sealing means 111, 112, 14 can be minimized. However, it may be advantageous for the latching means to be flexible in the direction of deflection of the web and / or to wear the shape of the wire of the drying wire cycle which possibly deflects from the contact points to the web. In this case, one recommended material for the sealing device is Teflon®.

The invention has been described above by way of example only by means of a preferred embodiment thereof. However, the invention is by no means limited to such 15 individual embodiments, but within the scope of the inventive idea defined in the appended claims, many alternative solutions and variations, as well as functionally different alternatives, are possible.

Thus, it should be noted that the positioning of the runner box is, of course, not limited to only 20 drying units, but the present invention can be applied to any processing unit of a paper machine or more generally a material web machine where there is only a need to secure the web. It should also be noted that the runner box may be located in the processing unit or co5 processing units of the material web machine rather than in a plurality of support slots (see, for example, Fig. 25). It is generally preferred, but not necessary, that the preferred application of the present invention be in the context of an overflow, so that the present invention may also be a solution in itself to the web wire retention problem.

IX

Q.

C \ J

m

C/O

o o

C \ J

Claims (10)

1. Drive device in a material web machine to provide an improved web portability as the web (W, 61) web (W) advances in support of the wire (61) in the machine direction or MD direction or in the path of the material path to a closing gap (65) between a roller (63) and the wire (65) on which the drive device (10) is typically a drive lug, for example a suction lug, which is located on the side of the web of the web (W, 61) which is free of the web before it. said roller and extends along the width of the web (W), such that a gap exists between the wire (61) and the drive device (10), and which drive device has a vacuum means (11, 12) which is adjustable in the direction across the MD direction to apply suppression from the side of the wire in the direction transverse to the machine direction on the width of the web (W, 61) and / or the closing gap, such that the suppression is applied to an edge area (E) of the web and / or to an edge area (64 ) of the closing gap is larger than on an intermediate region of the web, the vacuum means being a seal, a sealing package (111, 112, 121, 122, 14) or the like, which advantageously has a maze sealing package having at least two maze seals (111, 112). ) with a distance from each other, characterized in that the vacuum means (11, 12) is adjustable in the direction across the machine direction optionally 20 by moving the vacuum means on the side of the wire (61) to an optional distance from the can of the web (W, 61), wherein the place of the vacuum effect is adjustable on the edge area (E) of the web and / or on the edge area (64) of the closing gap (65), and / or by regulating the angle between the vacuum means and the machine direction, the distance of one end of the vacuum medium from the edge of the web the machine direction LO S5 is variable depending on the distance to the closing gap in the Z direction which is perpendicular LO to the web, whereby the power of the vacuum power is adjustable in the machine direction on the X £ edge region of the web, and / or of the web and / or edge area of the closing gap. A drive device according to claim 1, characterized in that substantially straight, opposing surfaces of the labyrinth seals (111, 112) define between the suction slot (13a) for air. A drive device according to claims 1 and / or 2, characterized in that direct suction from the side of the wire (61) through the vacuum means (11) between the maze seals (111, 112) and the boundary layer flow of the air, which advances with the web, between the maze seals and the possible vacuum. within the drivability device, where the seal of the vacuum means (11) is open, provides the vacuum effect on the edge region (E) of web 10 (W, 61) and / or on the edge region (64) of the closing gap (65) Drive device according to claim 1, characterized in that the vacuum means (12) can be formed by a nozzle means, which drives the ejector principle and is preferably the blow nozzle. 15 The drive device according to claim 4, characterized in that the vacuum means (12), which is the blow nozzle, consists of two separate wall portions (121, 122), whose facing shaped shaped surfaces define between them a blow slot (13b) which works with the ejector principle. 20 A drive device according to claims 1 and / or 2, characterized in that the blow slot (13b), which works with the ejector principle, as well as air flow with the web over the blow slot and the possible vacuum inside the drive device, where the sealing of the co-vacuum means (12) is open. gives the vacuum effect on the edge area (E) of the web (W, (M lq 61)) and / or on the edge area (64) of the closing gap (65). Drive device according to any one of claims 1-6, characterized in that the web cc (W, 61) does not touch the vacuum means (11, 12) and / or the seals or sealing packages (111, 112, 121, 122, 14) which includes vacuum means, i.e. the web is at a distance from the m and 30 seal. o CVJ Drive device according to any of claims 1-7, characterized in that the vacuum means (11, 12) and / or the seal or sealing packages (111, 112, 121, 122, 14) which include the vacuum means can be flexible in the direction of the web. (W, 61) flexure flexible and / or to the shape of the bending wire (61) possibly at its contact area with the web decreasing. Drive device according to claim 8, characterized in that the material of the vacuum means (11, 12) or the seal or sealant (111, 112, 121, 122, 14) is teflon®. 10 co δ c \ j m o m X IX CL CVJ m co o o c \ j