FI90443B - Method and arrangement to control vacuum level in a drainage element in a paper machine - Google Patents

Description

90443

The invention relates to a method and a device for adjusting the vacuum level in a dewatering element of a paper machine. The invention relates to a method and a device for adjusting the vacuum level in a dewatering element of a paper machine.

Dewatering elements have been used on the wire part of the paper machine, in which the vacuum level and the drainage of water are maintained by the 15 ns formed in the liquid column. by means of a suction foot. These dewatering elements currently include e.g.

suction foil boxes and slats. The required height of the liquid column is created by the height difference between the surface in the foil box and the surface of the water trap part at the lower end of the suction foot. The suction section can be either pipes evenly spaced across the cross-section of the machine or a continuous vertical channel 20 extending across the machine.

In theory, the maximum vacuum level of such a dewatering element is the vacuum corresponding to the liquid column between the lower surface of the wire and the liquid surface of the water trap part. However, in practice, the wire carries 25 air with it to the box and also the leaking air enters between the wire and the box by suction under vacuum. In this case, the effective surface in the box is set to a height corresponding to the combined effect of these factors.

In the prior art solutions, a paper machine suction system or a separate ____ fan has often been used to generate the initial pressure of the dewatering elements. Once the suction foot is formed, the connection to the suction system can be closed.

The vacuum level control in the prior art device solutions is typically done by allowing leakage air into the box through connections made specifically for this purpose. The air mixes with the outgoing water and reduces the pressure effect of the suction foot.

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However, in practice, the above-mentioned method has not been adjusted with sufficient accuracy. This is partly due to the uneven mixing of the air. The end result has often been a situation where the desired vacuum levels have not been reached at all.

5 This application therefore seeks to find a solution to the above-mentioned problem of controllability. In the invention, it has been realized to adjust the vacuum level by acting on the liquid of the suction foot itself. The level of the liquid surface in the vacuum box of the suction foot is affected by affecting the so-called

10 water trap parts to the liquid level. In one embodiment of the invention, flexible hoses are connected to the suction part, through which the discharge water is discharged and the height position of which is adjustable. The other ends of these flexible flow paths are connected, for example, to a plate whose height position can be adjusted. Thus, the height of the outlet opening relative to the box can be adjusted, and thus the height difference between the liquid surface level above the suction foot and the liquid surface level below can be adjusted, which is an essential control parameter when adjusting the vacuum level of the vacuum box.

In one embodiment of the invention, the height difference between the liquid surface above and below the suction leg is adjusted by providing the device with a pivoted outflow chute whose upstream threshold height can be changed and thus based on the aforementioned height position adjusts the suction foot pressure effect and vacuum in the suction box.

. ·. r 25: In one embodiment of the invention, the height difference between the liquid surface above and below the suction foot is adjusted by influencing the flow resistance of the outflow flow of the suction foot by means of a separate valve device.

': 30. In one embodiment of the method according to the invention, the vacuum created by the suction foot in the vacuum box is acted upon by producing compressed air in the water trap part. In this case, by adjusting the flow rate of the compressed air, the density of the liquid of the water trap part is changed, and thus the vacuum effect caused by the suction foot 35 in the suction box is adjusted.

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The method according to the invention for adjusting the vacuum level of a dewatering element of a paper machine is mainly characterized in that the method uses a suction box divided by partitions in the width direction of the paper web into blocks, the level of vacuum in each block being adjustable by changing the high liquid level in each block.

The device according to the invention for adjusting the vacuum level of a dewatering element of a paper machine is mainly characterized in that the suction cup is divided into blocks in the width direction of the paper web, each block affects each block.

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The invention will now be described with reference to some preferred embodiments of the invention shown in the figures of the accompanying drawings, to which, however, the invention is not intended to be exclusively limited.

Figure 1A shows prior art dewatering elements with a wire section.

Fig. 1B schematically shows a dewatering element according to the prior art.

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Figure 1C shows a section I-I of Figure IB.

Figure 2 shows a first preferred embodiment of the invention in an axonometric representation.

30. Figure 3 shows a section II-II of Figure 2.

Figure 4 shows another preferred embodiment of the invention in an axonometric representation.

35

Figure 5 shows a section III-III of Figure 4.

Figure 6 shows a third preferred embodiment of the invention.

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Fig. 7 shows an adjustment of the leakage flow throttle associated with the embodiment of Fig. 6.

Figure 8 shows a fourth preferred embodiment of the invention.

5

Figure 9 shows a fifth preferred embodiment of the invention.

Fig. 10 shows a transverse vacuum control arrangement associated with the embodiment of Figs. 2 and 3.

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Figure 11A shows a top view of the suction box and a first embodiment of the oblique arrangement of the partitions.

Figure 11B shows another preferred embodiment 13 of the oblique arrangement of the partitions.

Figure 1A schematically shows a prior art wire export with dewatering elements 10a, 10b, 10c and 10d. In the vacuum space C above the suction box 11, the vacuum 20 is maintained by the suction foot 12, the vacuum level depending on the height difference between the liquid surface 14a above the liquid surface 14a of the suction foot liquid N and the liquid surface 14b of the lower water trap portion 13.

In the prior art solution shown in Fig. 1B, the liquid N! 1 25 the level of the upper surface 14a at the desired point by adjusting the flow of the exhaust air V1 and the exhaust air V2. In the initial situation, an initial vacuum is created by means of pump P.

Figure 1C shows a section I-I of Figure IB. The height difference h between the lower surface 30 14b and the upper surface 14a of the suction foot 12, i.e. the height of the liquid column, determines the vacuum prevailing in the vacuum box 11 in its vacuum space C.

Figure 2 shows a first preferred embodiment of the invention. The suction box 11 comprises an upper suction box portion 11a and a channel portion 11b extending over the width direction of the paper web leading downwards therefrom 35. Connected to the space E below the channel section 11b are flexible flexible tubes 15a, 15b, 15c ... the upper ends of which are connected to the plate 16. By moving the plate 16 vertically (arrow L,) the height of the liquid surface below the suction foot and thus the vacuum created by the suction foot 11 in the vacuum state above C.

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Figure 3 shows a section II-II of Figure 2. The wire W is passed above the dewatering strips 17a, 17b and 17c and the vacuum in the vacuum space C of the suction box 11 is maintained and adjusted by adjusting the height of the lower surface 14b of the suction foot 12, adjusting the upper surface level 14b below the suction foot 10 and the suction foot level 14b. Said adjustment of the height difference H takes place by adjusting the height position of the discharge opening of the or hoses 15a, 15b ... by moving the plate 16 (arrow L 1).

As shown in Fig. 3, the additional control parameter can be considered to be the additional liquid introduced through the channel 17 in the separate initial control steps, which can be introduced by means of the pump device P2 and by adjusting the valve 18.

Figure 4 shows another preferred embodiment of the invention, in which the height level and the outflow level of the liquid surface 14b 20 are adjusted by adjusting the height position of the edge 21 of the outlet threshold of the trough 20. The tray 20 is movable around the joint 19 and the outlet edge 21 of the tray is adjustable in height as shown by the arrow Lj. The tray 20 is connected to the lower part of the suction section 11b of the suction box 11.

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Fig. 5 shows a section III-III of Fig. 4. By moving the trough 20, the height difference H between the liquid surface 14b above the trough and the liquid surface 14a above the suction foot and the vacuum created by the suction foot in the vacuum space C of the box 11 are adjusted.

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Fig. 6 shows an embodiment of the invention in which the liquid surface below the suction foot 12 of the suction box 11 and thus the height difference between the lower liquid surface and the upper liquid surface 14a, 14b is controlled by adjusting the outflow from the space D below the suction foot 12.

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Fig. 7 shows an embodiment of the valve of Fig. 6, in which a perforated plate 24 is arranged in connection with the flow opening 23a and 23b, the movement of which is adjustable by arrow L, as shown, and thus the degree of coverage by which the plate 24 covers the openings 23a and 23b is adjustable. According to the degree of coverage 5, the outflow resistance and thus the height level of the lower liquid surface 14b in the suction foot relative to the upper liquid surface level 14a of the suction foot is adjusted. Also in the embodiment of Fig. 6, the level of the liquid surface in the suction foot 12 can be further influenced by introducing, as shown in the embodiment of Fig. 3, additional liquid controlled by the valve device 18 through the channel 17 10. Additional liquid can be introduced from the liquid tank T by the overpressure provided by the pump device Pj.

Fig. 8 shows a further embodiment of the invention in which an air connection 25 is introduced into the space D below the suction foot 12, through which compressed air F is blown into the upwardly open space G between the walls 26 and the inner wall 27 of the space D below the suction foot 12. the fluid density of the water trap portion is affected by the introduction of compressed air through the duct 25 and / or by adjusting the position of the duct 25.

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Fig. 9 shows an embodiment of the invention in which the suction box 11 comprises an actual suction box portion 11a and a downstream machine transverse actual suction foot passage portion 11b, from below which a pipe connection 27 leads to a container 29. A duct 27 is located in the duct 27 and opens upwards. 27b. The height position of the liquid surface levels 14b, and 14b2 of the spaces 27a and 27b and the height position of the liquid surface 14b3 of the container 29, respectively, are affected by changing the throttling of the valve device 28. The coarse arrangement of the liquid surfaces can also take place in this embodiment as in the previous ones by introducing additional liquid from the liquid tank T through the valve 18 into the channel 17 and further into the channel 27 by means of the pump P3.

Fig. 10 shows a special embodiment mainly related to the embodiments of Figs. 2 and 3, in which each channel 15a, 15b, 15c ... is adjustable in the height direction separately (arrows L 1), whereby the suction box 11 is divided into separate vacuum blocks 7 90443 11 ', 11 ", 11"' ... Thus, in this embodiment of the invention, a vacuum of the desired magnitude can be achieved at different widths of the machine and thus the amount of vacuum and the vacuum profile can be influenced by adjusting the height position of said pipes 15a, 15b. Thus, by adjusting the dewatering level, i.e. the vacuum in the blocks 11 ', 11 "..., the paper web and its moisture profile over the width of the paper web can be influenced as desired. The method is also available in other embodiments shown.

Fig. 11A shows the suction box 11 from above and the direction of travel of the paper web is indicated by the arrow T 1. The suction box 11 is divided into blocks 11 ', 11 ", 11"' ... as shown in the embodiment of Figure 10. The partitions S ', S ", S"' ... divide the suction box 11 into the above-mentioned blocks 11 ', 11 ", 11"' ... In the embodiment of Figure 11A, the partitions 15 S ', S ", S"' ... are placed obliquely with respect to the direction of travel T of the paper web, thus avoiding long discontinuities of the vacuum levels in the paper web caused by the partitions. In the embodiment of Fig. 11A, the partitions are set only slightly obliquely to the direction of travel T1 of the paper web.

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In the embodiment shown in Fig. 11B, the partitions S ', S ", S"' ... are set at an oblique angle of about 45 ° with respect to the direction of travel T of the paper web and so that the ends of the partitions are connected to each other.

Claims (11)

A method of controlling vacuum level in the dewatering element of a paper machine, which dewatering element (10a, 10b ...) comprises a vacuum space (C) above the suction vessel (11), whereby a vacuum is maintained by means of a suction foot (12). is formed by a liquid statue, the suction foot (12) comprising an upper surface (14a) of a liquid (N) and a lower surface (14b) confined to the water reading portion of the water statue, by which method the vacuum level of the vacuum space 10 (C) is controlled by the suction cup (11) in the desired manner by regulating the level (14b) of the liquid surface of the lower water reading portion of the suction foot (12), characterized in that a suction cup (11) which is subdivided is used in the process. by means of partitions in sections (11 ', 11 ", 11"') in the width direction of the paper web, wherein the suppressor hub in each section can be adjusted in the desired manner by changing the height (h) of the liquid stature in each section. Nitt. Method according to claim 1, characterized in that the method uses a suction suction (11), in which a duct 20 (15a, 15b ...) is connected to each section (11 *, 11 ", 11 ''), advantageously a flexible hose, wherein the height position on the free end of the channel (15a, 15b ...) can be controlled by controlling the height on the upper surface (14a) of the liquid statue (12) in each case. a section (11 ', 11 ", 11"'). 25 3. A method according to any of the preceding claims, characterized in that a suction suction (11) is used in the process, in which channels extend to the lower liquid space of this advantageous pipe (15a, 15b, 15c). ..), the positions of which can be adjusted, wherein the height position on the free end of the channels (15a, 15b, 15c ...) is changed by controlling the pressure level to be poured into the upper vacuum space t (C) of the suction tube (11). 4. A method according to any preceding claim, characterized in that in the process the vacuum is regulated in the vacuum space by introducing pressurized air via a duct (23) into a lower liquid space, whereby the density of the liquid in i2 can be controlled. 90 443 the water part after the insertion point on the compressed air and the elevation position and the desired pressure level in the vacuum compartment (C). 5. Device for regulating the vacuum level in the dewatering element of a paper machine, the device comprising a suction drawer (11) in association with the dewatering element (10a, 10b, 10c.), Maintaining the desired vacuum level in the upper vacuum space ( ) of the suction means by means of a suction foot (12), the suction foot (12) comprising a liquid surface (14a) confined to the vacuum space (C) and a lower liquid surface (14b) confined to the lower water welding portion, which comprises means for controlling the vacuum level of the upper vacuum space (C) of the suction drawer (11), by means of which means the height level is influenced on the liquid surface (14b) of the lower water part (13) and thereby the vacuum level of the upper vacuum space, characterized thereof, that the suction drawer (11) is subdivided into sections (11 ', 11 ", 11"' ...) in the width direction of the paper web, whereby it leads its own outflow channel (15a, 15b ...) for the liquid stream to each t section or the corresponding device, by means of which the height level can be adjusted on the upper liquid surface (14b) of the lower water part (13) and the pressure level acting in each section (11 ', 11 ", 11' ”...). Device according to the preceding claim, characterized in that there is a channel (15) in connection with each section 25 (11 ', 11 ", 11"' ...) where the height position of these ends can be controlled. Device according to claim 5 or 6, characterized in that the partitions (S ', S ", S"' ...) of the sections (11 ', 11 ", 11"' ...) are placed obliquely in relation to the direction of travel of the paper web, avoiding discontinuous locations at the suppression levels caused by the paper web. Device according to any one of the preceding claims 5-7, characterized in that the device comprises one or more pipes 35 (15a, 15b ...) which can be moved in the vertical direction in connection with the liquid space of the aqueous welding part (14). , whereby by regulating the height of the outlet opening of the tube (15a, 15b ...), the height difference between the upper fluid surface (14a) and the lower fluid surface (14b) and the vacuum level which rides in the vacuum space can be adjusted (C). 9. Device according to any of the preceding claims 5-8, characterized in that there are several hoses (15a, 15b) which are attached to a disc (16) or the like, whereby by changing the height position of the disc ( 16) can change the height position p in the open free end of the hose attached to the disk and thus the negative pressure level which rides in the space (C). Device according to claim 8 or 9, characterized in that the ducts (15) are flexible hoses. 11. Apparatus according to the preceding claim 5 - characterized in that the system comprises an inlet opening (25) for compressed air in connection with the water sliding part (13), whereby the effective height (h) of the suction foot is regulated. (12) with the compressed air introduced through the introductory opening (25) by regulating the density of the liquid 20 of the water sliding portion.