FI86652B - ANORDIN I I PAPPERSMASKIN FOER AOSTADKOMMANDE AV AVVATTNING PAO OEVERSIDAN. - Google Patents

Abstract

In an assembly in a paper and cardboard machine in a twin-wire section comprising a lower wire (1) constituted of the wire (1) of a fourdrinier wire section, and an upper wire (2) which is guided on top of the lower wire (1) by means of a forming roll (3), around which the twin-wire section is curved within a predetermined sector ( alpha ). The twin-wire section situated after the forming roll (3) is provided with a guiding means (6) on the side of the lower wire (1), the twin-wire section being curved at said guiding means in an opposite direction compared with the curvature on the forming roll (3). The section between the roll (3) and the guiding means (6) is provided with one or several dewatering means (4) on the side of the lower wire (1). Within said section on the side of the upper wire (2) there is provided a dewatering means, to which is connected means for effecting suction causing dewatering.

Description

86652

A device on a paper machine to provide overhead dewatering

The invention relates to the device shown in the preamble of claim 1 in a paper machine for providing overhead dewatering. The invention is intended for a two-wire section of a paper machine, in which a second wire is guided by means of a forming roll on a flat wire at the beginning of the paper machine and the fibrous web 10 formed thereon, which has undergone initial filtration. This two-wire section is dewatered through both the upper and lower wire, and the regulation of dewatering by this section is one of the most important factors influencing the formation of the paper web.

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High-speed paper machines most commonly use only vacuum-operated dewatering elements on the lower wire side, such as suction shoes, suction boxes, etc. Such solutions have been presented e.g. in Finnish Publication 75375 and in Finnish patent application 873034. As the speeds of paper machines increase, dewatering control has become a problem, and in this connection it has been found that the flexibility of the upper surface of the paper has not been sufficiently affected.

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The object of the invention is to provide an improvement in the above-mentioned drawbacks and to provide a device by means of which the dewatering can be better influenced by a two-wire section on both the upper and lower sides. To achieve this, the device according to the invention is mainly characterized by what is set forth in the characterizing part of claim 1. According to the invention, on the upstream side of the forming roll, there is a dewatering member connected to the suction-providing members.

Thanks to this member, water can also be removed in a controlled and adjustable manner through the upper wire, whereby the fiber flocs 2 86652 of the upper surface of the formed paper web can be broken. The consistency of the pulp after the forming roll is still so low that said flocs can still be broken by shear forces.

According to a preferred embodiment, the path of the two-wire section is straight at the upstream drainage member. This improves the controllability of the dewatering at said point.

The invention will now be described in more detail with reference to the accompanying drawing, which shows a two-wire section of a paper machine in which the device according to the invention is used, in a side view seen from the direction of the axes of the rolls.

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Before the two-wire section of the paper machine shown in the drawing, there is a single-wire flat wire section, on top of which the pulp is fed from a headbox. The pulp passes over the flat wire 1 towards the two-wire section 20, and at this point an initial filtration takes place, where water leaves the downwardly formed fibrous web W through the flat wire 1. The upper wire 2 is introduced from above via a wire guide roll 9 above the flat wire 1, after which the upper wire 2 joins the flat wire 1 with a forming roll 3, and after the junction the wires 1 and 2 wrap web W After the roll 3, the wires 1 and 2 run along a straight path to a smooth surface roll 6, 30 which is on the lower wire 1 side and in which the wires 1 and 2 again curve in the opposite direction to the forming roll 3, then directed obliquely downwards. After the roll 6, the wires 1 and 2 run on a smooth surface return roll 8, after which the upper wire 2 separates from the lower wire under the guidance of the wire guide roll 10 and the web W runs on the lower wire 1 towards the pressing part. The separation of the web on the lower wire 1 is effected by means of transfer suction boxes on which the lower wire 1 passes after the roll 8 and which are marked with the numbers 11 in the drawing.

5 In the following, the dewatering members located between the rollers 3 and 8 with a two-wire section and the related dewatering operations will be described in more detail.

The forming roll 3 has an open surface and at it 10 water is compressed from the web W in both directions through the lower wire 1 and the upper wire 2. The water compressed through the upper wire 2 flows into the open points of the surface of the roll 3 and moves under the influence of centrifugal force caused by the rotation of the roll into a trough or trough 13 located in front of the roll 3 between the wire guide roll 9 and the roll 3. The lower edge of the guide surface 7 ends a short distance above the upper wire 2, leaving a small gap between the lower edge and the upper wire 2, whereby the upper wire 2 is not subjected to mechanical stress due to the guide surface 20. At this point there is a straight suction box 4 against the lower wire 1 with a straight section after the roll 3. The suction box 4 is connected to the suction-providing means and through its open surface water leaves the web through the lower wire 1. After the suction box, on the side of the upper wire 2, there is a stationary dewatering member 5, which first comprises an autoslice 5a of the suction scraper 1. located in the direction of travel of the wires and then one or more suction boxes 5b. The surfaces 30 of the suction boxes comprise strips transverse to the direction of travel of the wires, between which water exits through the upper wire 2 due to the suction arranged in the suction boxes 5b. The autoslice 5a is also connected to the suction and the suction of these different compartments can be adjustable independently of each other. The autoslice 5a and the suction boxes 5b guide the wires 1 and 2 along a straight path parallel to the common tangent 4 86652 of the roll 3 and the roll 6. After the dewatering member 5, there is another straight suction box 4 on the downstream side before the smooth roll 6, with which the wires turn towards the return roll 8.

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With the direct section between the rollers 3 and 6, the adjustment of the parameters affecting the dewatering can be performed in a controlled manner by means of suction. The pressure pulse on the web is then only caused by the suction of the suction boxes. 10 The dewatering pressure which would result from the web tension (T) and the track curvature radius (R) and which can be described by the formula p = T / R does not occur in said range.

15 In the case of a smooth roll 6, water leaves the web through the upstream 2 due to centrifugal force and compression caused by the curvature of the path and is directed by a centrifugal force to a water collecting tray 12 above the wires. 8 to a common tangent, and this section has two more straight suction boxes 4 on the underside 1 side.

The invention provides a better formation for the paper web to be formed, where overhead dewatering plays an important role. Especially for paper grades with a basis weight of more than 50 g / m2, overhead dewatering plays a significant role in the formation improvement. With the dewatering box above the forming roll 30, this overhead dewatering can be adjusted to the desired level, and the fiber flocs on the upper surface can still be disintegrated at a sufficiently low consistency by shear forces. By arranging the path of the wires straight at this point 35, the dewatering operation is also made sufficiently calm.

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Claims (5)

5 86652 A device in a paper and board machine with a two-wire section having a lower wire (1) consisting of a wire (1) 5 of a flat wire section and an upper wire (2) guided on the lower wire (1) by a surface-forming roller (3) around which the two-wire section curves in sector (a) and diverges from it above the plane of the planar wire, whereby a guide member (6) is arranged on the downstream side (1) of the two-wire section after the forming roll 10 (3), whereby the two-wire section curves in a daily direction with respect to curvature (3) and the guide member (6) are provided with one or more dewatering members (4) on the lower wire (1) side, characterized in that the dewatering through the upper wire takes place not only on the forming roll (3) but also with a suction device 20 fitted inside the upper wire loop. with a dewatering member (5). Device according to Claim 1, characterized in that the path of the two-wire section at the dewatering element (5) on the upper wire (2) side is straight. Device according to Claim 1 or 2, characterized in that the dewatering element (5) comprises one or more suction boxes (5b) after the autoslice (5a) of the suction scraper 1. and the autoslice (5a) 30. Device according to one of Claims 1 to 3, characterized in that at the point where the two-wire section separates from the forming roll (3) after sector (a) 35, there is a guide surface following the surface of the roll (3), such as a plate (7) communicating with the roll. (3) to the water collection tank (8) on the side of the flat wire section. 6 86652 Device according to Claim 4, characterized in that there is a gap between the edge of the guide surface (7) on the side of the upper wire (2) and the upper wire (2). 7 8665?