In paper or board machines, stock is passed from a headbox to a forming section, i. e. a wire section, in which water is removed from the stock and a web is formed.

In the forming section, or the wire section, different types of formers are used in which water is drained from the web usually between two wires.

As known in the prior art, in the manufacture of paper and board webs, a stock is thus prepared first for the headbox, and fibre material, fillers, and fines and additives are mixed with said stock. The stock system mixes the fibres and fillers as well as fines and additives, if any, to form a stock that is as homogeneous as possible in order to be fed to the headbox of a paper or board machine. The headbox spreads the stock suspension produced evenly to the forming section, i. e. the wire section, where dewatering and the couching of the web begin.

Several different types of wire sections, or formers, in themselves known to a person skilled in the art, are known in the prior art: fourdrinier formers, hybrid formers and gap formers. A board machine may comprise several wire units. In forming sections, water is removed by means of forming rolls, suction rolls and by means of blade shoes or equivalent, which blade shoes typically have several vacuum chambers, so that the use of vacuum makes pressure pulses more effective. Loadable blades are generally placed on the opposite side of the web to assist dewatering by producing shear forces in the suspension within the web, which shear forces break up fibre flocs, thus improving the forming of the web.

After that, the fibrous web in formers is generally passed onto a suction roll, which further removes water from the web, after which the web is generally

passed to a press section. In connection with the suction roll, water guide plates or water collecting plates have generally been used for recovering the exiting water.

This has led to asymmetric dewatering to some extent and it has not been possible to regulate the distribution of dewatering in this arrangement to improve asymmetry.

EP patent 912798 (corresponding FI patent application 965277) discloses a suction box in a paper machine and a method in a suction box of a paper machine.

This document describes a suction box in which a vacuum chamber deck or a set of blades in an equivalent position forms a curved support surface for a wire at least in a running situation. In this kind of suction box, the friction between the wire and the blades or between the wire and the deck is very small. This document describes the use of a suction box placed on a wire run between two rolls, in which connection the suction box enables the run of the wire to be curved, and the use of the box at a wire guide roll, over which wire guide roll two wires are running, so that the run of the wire on the side of the box can be made curved by means of the suction box.

FIpatent 106730 discloses an arrangement in the wet end of a paper machine for transferring a web from a forming section to a press section. The forming section comprises a twin-wire zone defined mutually by an upper wire loop and a lower wire loop, after which the web is arranged to follow the upper wire at the point at which the web is transferred from the underside of the upper wire onto the top side of a fabric situated in the press section. At the end of the twin-wire zone there is a suction box within the upper wire loop and, in opposed relationship with the suction box, an open roll within the lower wire loop, the suction box having a deck which is curved at least in a running situation such that the tension of the upper wire reduces the normal force caused by the vacuum of the suction box between the wire and the deck, and which suction box can be provided with a vacuum which keeps the web at the suction box mainly apart from the roll and from the lower wire while adhering to the underside of the upper wire and

conforming to the curved shape of the deck of the suction box. Members are arranged in connection with the suction box and/or the roll for making the web follow the lower wire in a break situation to conduct it to the broke handling system. In the arrangement disclosed here, the web continues to travel on the surface of the wire on the side of the suction box.

An object of the invention is to eliminate or at least minimize the problems described above and encountered in the prior art applications.

An object of the invention is to provide a wire section of a paper or board machine which provides a more uniform distribution of dewatering than that of the prior- art wire sections.

One object of the invention is also to create a wire section by means of which a higher dry solids content is achieved before a press section, thus making it possible to shorten the wire section. Alternatively, the arrangement in accordance with the invention enables the running speed of the paper machine to be increased in wire section rebuilds.

The arrangement in accordance with the invention makes it possible to replace the traditionally used, large and expensive suction roll of the wire section with a smaller and less expensive suction roll because the force acting then on the suction roll is lower than in conventional arrangements.

With a view to achieving the objects described above as well as those coming out later, the arrangement according to the invention is mainly characterized in what is stated in the characterizing part of claim 1.

In accordance with the invention, a suction box, in which the deck or blades of the suction box can be adjusted to be curved at least in a running situation or the wire run in the area of the suction box is curved, is placed in connection with a suction

roll, which makes it possible to control the asymmetry of dewatering and, in addition, a higher dry solids content is imparted to the web before a press section, so that it is possible to shorten the wire section, when desired, because it is possible, for example, to omit one suction box situated on the run of the wire since the dewatering capacity increases when the arrangement in accordance with the invention is used.

The invention can be applied in connection with different types of formers, both with vertical and horizontal formers and, advantageously, with hybrid and gap formers.

The invention is applied in the twin-wire zone of the wire section, so that a suction box having, at least during running, a curved surface is placed within an upper wire loop at a suction roll situated within a lower wire loop. After that, in accordance with the invention, the web is caused to continue its travel on the surface of the lower wire. Advantageously, after the portion covered by the suction box, the roll has a suction zone in which the web is separated by means of vacuum such that the web starts to follow the lower wire. Alternatively, a suction box with a curved surface can be situated on the side of the lower wire loop and the roll can be situated on the side of the upper wire loop.

In an advantageous arrangement of the invention, a curved surface suction box is placed at a suction roll, which suction roll is provided with two suction zones, the first of which removes water and the second of which is arranged in the suction roll after the area covered by the suction box, the web being separated from the upper wire by means of a vacuum produced in the latter suction zone such that the web continues its travel on the surface of the lower wire loop and does not start to follow the upper wire.

The suction roll may also comprise only one suction zone, in which connection the suction zone is situated at least partly after the curved surface suction box in

the running direction of the web. In that case, the web is separated from the upper wire by means of the vacuum of the suction zone of the suction roll such that the web continues its travel on the surface of the lower wire loop.

In the arrangement in accordance with the invention, a curved surface suction box is thus placed on the side of the upper wire loop, thereby achieving a better distribution of dewatering because in the prior art applications the distribution of dewatering of a web has generally been asymmetric, and the arrangement in accordance with the invention makes it possible to improve the distribution of dewatering because a curved surface suction box is placed on the opposite side of the web with respect to the suction roll, thereby allowing dewatering to be regulated in both directions. The arrangement in accordance with the invention thus provides a more uniform distribution of dewatering, so that the web is not formed in an asymmetric manner.

Further, by regulating the dewatering ratio between two curved surface suction boxes it is possible to finetune the two-sidedness of the paper being formed (absorption properties, filler distribution).

In accordance with the invention according to an advantageous additional feature, a curved surface suction box is also placed in connection with a transfer suction roll which is situated at the end of a wire section and by which the web is transferred to a press section, so that by means of the curved surface suction box placed against the roll, rewetting of the web can be prevented and the dry solids content of the web is increased. By regulating the vacuum levels of both curved surface suction boxes it is possible to control the two-sidedness of paper.

In connection with the invention, a low vacuum can be used in the transfer suction roll and a large, massive suction roll having a high vacuum is not needed as the suction box assists in the transfer of the web.

In the following, the invention will be described in greater detail with reference to the figures in the appended drawing, but the invention is by no means meant to be narrowly limited to the details of the figures.

Figure 1 is a schematic view of one application of the invention in a horizontal former.

Figure 2 is a schematic view of another application of the invention in a horizontal former.

Figure 3 is a schematic view of one application of the invention in a vertical design former.

Figure 4 is a schematic view of one application of the invention in a hybrid former.

In the following Figs. 1-4, the same reference numerals are used of parts corresponding to one another. Figs. 1-4 illustrate different applications for formers, a horizontal gap former in Figs. 1 and 2, a vertical gap former in Fig. 3 and a horizontal hybrid former in Fig. 4. The principal running direction of the web is denoted with the reference arrow S. A stock suspension is supplied from a slice opening of a headbox 11 to a former 10, in which in the applications shown in Figs. 1-3 it first meets a forming roll 12 which forms a gap with a guide roll 22.

In the application shown in Fig. 4, the stock is supplied from the headbox 11 to a fourdrinier wire section 29 of the former 10 onto the surface of a lower wire loop 14.

In the applications shown in each of Figs. 1-4, the former 10 comprises two wire loops 13,14. The upper wire loop 13 runs while guided by alignment and guide rolls 24. The lower wire loop 14 runs while guided by alignment and guide rolls 22,23. In the gap former applications shown in Figs. 1-3, the forming roll 12 and

blade dewatering members 17 comprising vacuum chambers for removal of water are placed within the upper wire loop. In Figs. 3 and 4, blade dewatering members 17 comprising vacuum chambers are placed within the upper wire loop 13 and loading blades 28 are placed within the lower wire loop 14 for loading the blade in order to produce transverse shear forces and to remove water from the stock suspension.

In Figs. 1-4, a suction roll 15 is placed within the lower wire loop 14 for removing water from the web. A curved surface vacuum box 16 is placed within the upper wire loop 13 at the suction roll 15, thereby allowing the two-sidedness of the web to be improved because the vacuum box 16 is placed on the side of the upper wire loop. In the applications shown in Figs. 1-4, the suction roll 15 is provided with a transfer suction zone 26, which assures that the web remains on the surface of the lower wire loop when the upper wire is separated from the surface of the web. In the application shown in Fig. 1, after the suction roll 15 the web is passed on the surface of the lower wire loop towards a press section. The web is transferred from the former 10 to the press section by means of a transfer suction roll 18, which is provided with a suction zone 27 to separate the web on the surface of the lower wire 14. In the applications shown in Figs. 1, 2 and 4, the suction roll 15 is provided with a suction zone 25 for sucking water from the web. In Figs. 1-4, a press felt or equivalent of the press section is denoted with the reference numeral 21 and its run is guided by alignment and guide rolls 31 (Fig. 1).

In the application shown in Fig. 1, a stock suspension is fed from a headbox 11 to a gap former 10, in which it first meets a forming roll 12 having a dewatering zone 32 in which water is removed from the stock suspension. After that there are blade dewatering members 17, by means of which water is removed further from the upper surface of the web. After that, the web is passed over a suction roll 15, a curved surface suction box 16 being placed at the suction roll 15 on the other side of wires 13,14 within the upper wire loop 13, so that water is removed from the web both by means of the suction roll 15 and by means of the suction box 16. The

suction zone 25 of the suction roll 15 extends in the running direction of the web beyond the area of action of the suction box 16, whereby it is assured that the web adheres to the surface of the lower wire 14. The run of the web on the surface of the lower wire loop 14 is ensured by means of a suction box 30. The web is passed on the surface of the lower wire loop 14 further towards a press section and to further processing from between a suction roll 18 placed within the following belt, felt or wire loop 21 and a curved surface suction box 19 placed on the opposite side of the suction roll 18.

In the application shown in Fig. 2, the upper wire loop 13 starts to turn upwards immediately after a suction roll 15, in which connection the web is prevented from starting to follow the upper wire 13 by means of a suction zone 26 of the suction roll 15 and the web is kept on the side of the lower wire loop 14. From here the web is passed downwards on the surface of the lower wire loop 14 towards a transfer onto the following press felt or equivalent 21, which transfer is accomplished by means of a transfer suction roll 18 and a curved surface suction box 19, by which suction box 19 the dry solids of the web is increased and, at the same time, rewetting of the web is prevented.

Fig. 3 shows a vertical former 10 with a forming section placed vertically, and in this application a stock suspension is fed from a headbox 11 between wire loops 13,14, and water is removed on a forming roll 12 in a dewatering zone 32, after which there are dewatering elements 17,28, in which water is removed into vacuum boxes as blade dewatering. After that, the web is passed to a curved surface suction box 16 placed at a suction roll 15 between the wire loops 13,14, where water is removed from the web by means of the suction box 16, after which the web is passed on the surface of the lower wire 14 forwards and the web is separated from the upper wire in a transfer suction zone 26 of the suction roll 15.

After that there is, in a corresponding manner, a suction roll 18, a curved surface suction box 19 being placed opposite the suction roll 18 for increasing the dry

solids of the web and for preventing rewetting, and the web is passed to the following processing step.

Fig. 4 shows a former in which there is first a fourdrinier section 29 in which water is removed as blade dewatering 22,17 and, after the blade dewatering portion where the web runs on the substantially horizontal surface of the lower wire loop 14, the web is passed to a suction roll 15 opposed by a curved surface suction box 16, by means of which, together with the suction roll 15, the asymmetry of dewatering is controlled, and the web is passed on the surface of the lower wire loop. The transfer of the web forwards on the surface of the lower wire loop is assured by means of a transfer suction zone 20 of the suction roll 15, which transfer suction zone is situated after the curved surface suction box 16.

The web is transferred to further processing by means of a suction roll 18 and a curved surface suction box 19, which suction box 19 serves to prevent rewetting of the wire at the same time.

Above, the invention has been described with reference to some of its advantageous exemplifying embodiments only, but the invention is by no means intended to be narrowly limited to the details of said embodiments.