EP1477609A2 - Apparatus for dewatering pulp - Google Patents

Abstract

The machine for the extraction of water from cellulose, especially in papermaking, has a sieve water extraction section (20), a press stage (30) and a drying station (40) followed by a lateral cutting unit (50). The sieve water extraction section is composed of four circular suction sieves (21-24) with an inverter press (25) and a drip press (26). Suction rollers (33,34) work with at least one smooth cylinder (31,32) at the press stage. The drying station has at least one drying tower (41), a swing tower (42) to heat or cool the cellulose web (11) followed by a cooling tower (43).

Description

The invention relates to a pulp dewatering machine, especially for the production of paper, with a screen drainage device, a press device, a drying device and a connected cross cutter.

Pulp dewatering machines of the type mentioned above are already known. According to the state of the art, the maximum driven speeds in such paper making machines in the range of 50 - 70 m / min.

The upper limit of the speed of such machines is based essentially on two factors, drainage capacity the sieve dewatering device and the speed of the Cross cutter. When manufacturing paper are considered Sieve dewatering device usually uses long sieves, the length of which is decisive for the drainage capacity. The latter increases with the length of the fourdrinier wire, but one Extending the fourdrinier wire by a few meters is only possible Increase the speed by a few m / min.

The cross cutters usually also do not allow higher ones Speeds than those given above. To achieve higher speeds would have to be in the cross cutter Overlap of the cellulose sheets may be possible, but because of the surface roughness of the cellulose sheets is not possible.

The invention has for its object a pulp dewatering machine to create which is a significant increase of those still used on pulp dewatering machines Permits speeds.

This task is done with a pulp dewatering machine of the type mentioned at the outset according to the invention, that the screen dewatering device is a circular screen cylinder device having. Circular sieves allow significantly higher ones Speeds in the range of approx. 90 m / min as long sieves. Special circular sieves, the so-called suction circular sieves even speeds up to 450 m / min too. To achieve The circular screen cylinder device can have a high drainage capacity have several, preferably four suction circular sieves. The cylinder screen device can also be a turning press, so that the pulp web drains from both sides can have, as well as a Egoutteurpresse.

The press device can be used to further increase the speed have at least one smoothing cylinder which with its ground and polished surface as one-sided Smoothing cylinder acts and the contact side of the circulating pulp web gives its own surface quality in mirror image. The one-sided smoothing of the cellulose web can be sufficient be an overlap of the pulp sheets in the cross cutter to enable. The at least one smoothing cylinder can thereby to further improve the drainage performance interact with one or more suction press rollers.

Advantageously, for smoothing both surfaces Cellulose web two smoothing cylinders can be provided. With the improvement of the surface quality of the cellulose web on both sides can be a flawless and problem-free in the cross cutter Overlap of the pulp sheets can be achieved. This allows Speeds in the range of 150-160 m / min can be achieved.

To support the subsequent drying can advantageously both smoothing cylinders equipped with dryer hoods his.

After pressing and smoothing, the cellulose web becomes Residual drying performed in the drying facility. The drying facility can expediently at least one Have drying tower, wherein in the at least one drying tower Impact flow nozzles can be arranged. At least that a drying tower can be a swing tower for heating or cooling follow the cellulose web. A cooling tower can then be installed downstream be sure that the pulp web is in front entry into the sheeter to a few degrees has cooled below room temperature so that static charges in the cross cutter, which would otherwise lead to a Could damage the vibrating dishes.

In a second preferred embodiment, the drying device a horizontally arranged drying channel for the pulp web. Advantageously, the Drying channel have three sections, the first Section drying is done with hot air. The second Section of the drying tunnel can be analogous to the swing tower Heating or cooling and the last section only for cooling the Cellulose web may be provided. Advantageously, the Drying channel have an automatic web edge control.

Between the last smoothing cylinder and the drying device can be arranged a dancer roller, so that a longitudinal shrinkage the cellulose web is compensated for by overdrying can be.

To center the web tip, one can be on the web tip Electromagnetically fixable clamping rod is provided be mounted on two side guide chains. Between the last smoothing cylinder and the drying device can also use a tee frame with one on both sides 45 ° swivel tee rocker to tee off the web top 500 - 1000 mm wide. To manage the Web edges can be arranged smoothly sliding be brought from a 45 ° position to a 90 ° position can be and have contact switches that when reached the 90 ° position, the upper clamping bar strip is ejected trigger.

Further advantages arise when a demagnetizing section after the last cooling tower together with a lifting device is provided for the upper terminal block. The the upper terminal block can then be lifted using a crane Discharge in pick-up machines transported back in front of the first dryer tower become.

To relieve the pulling press of the cross cutter during a longer machine downtime or in the event of a Leave the web in the machine to avoid re-performance the web can advantageously be a clamping press for the full web width between the last cooling tower and the Cross cutter may be provided.

To facilitate the work of the machine operator, the Pulp dewatering machine preferably digital measuring and Display devices for the residual moisture and the temperature of the cellulose webs at least before entering the Have cross cutters.

Preferred exemplary embodiments according to the invention are described below Pulp dewatering machines based on the drawing explained in more detail.

Fig. 1

eine schematische Ansicht einer ersten Ausführungsform einer erfindungsgemäßen Zellstoffentwässerungsmaschine;

Fig. 2

eine schematische Ansicht einer zweiten Ausführungsform einer erfindungsgemäßen Zellstoffentwässerungsmaschine.

Show it:

Fig. 1

a schematic view of a first embodiment of a pulp dewatering machine according to the invention;

Fig. 2

is a schematic view of a second embodiment of a pulp dewatering machine according to the invention.

Fig. 1 shows schematically a first embodiment of a cellulose dewatering machine 10 according to the invention with a Screen dewatering device 20, a press device 30, a drying device 40 and a connected cross cutter 50. The screen drainage device 20 has one Circular sieve cylinder device with four suction circular sieves 21, 22, 23 and 24, a turning press 25 and an ego press 26. The cellulose web 11 is after the first pass over the Suction circular screens 24 - 21 guided to the turning press 25, turned there and to drain the second side of the web again via the Suction circular screens 21 - 24 guided, then through the ego press 26, and then forwarded to the press device 30. The press device 30 has two smoothing cylinders 31 and 32, on a smoothing cylinder 31 of these for Improvement of drainage performance two suction press rollers 33 and 34 are arranged. To support the subsequent Drying are both smoothing cylinders 31 and 32 with dryer hoods 35 and 36 equipped. The use of two smoothing cylinders 31 and 32 in an S-loop enables treatment both sides of the cellulose web 11, this not only dewatered but also be smoothed so that a safe Overlap of the sheets on cross cutter 50 and thus speeds 150 - 160 m / min can be guaranteed. The Press device could also be just a smoothing cylinder instead have two. Then only one side of the web is smoothed out but possibly also to achieve high speeds sufficient by allowing the sheets to overlap can be.

The pulp web 11 is transferred from the press device 30 into the Drying device 40 listed, which is a drying tower 41, a swing tower 42 for heating or cooling and one Has cooling tower 43 for cooling the cellulose web 11. The Drying in drying tower 41 takes place with the help of in the figure Impingement nozzles not shown in detail. The swing tower 42 will optionally used for heating or cooling the cellulose web 11. The last tower 43 is used only for cooling, so the cellulose web 11 to avoid static charges in the Sheeter 50 before entering sheeter 50 cooled a few degrees below room temperature. The cross cutter 50 contains a reject gate in a standardized form 51 and a changeover switch 52 for bale or stack operation.

Fig. 2 shows schematically a second embodiment of a cellulose dewatering machine 10 'according to the invention with a Screen dewatering device 20 ', a press device 30 ', a drying device 45 and a connected Cross cutter 50 '. This second embodiment differs differs from the first from FIG. 1 only in that the Drying device 45 for the cellulose web 11 'a horizontally arranged drying channel with three sections 46, 47 and 48, the first section 46 for drying with hot air, the second section 47 for heating or cooling and the third section 48 for cooling the pulp web 11 ' is provided.

A pulp dewatering machine according to the first embodiment 1 with a trimmed working width from Z. B. 2800 mm and four benefits from z. B. 4 x 700 mm width, 1000 mm length, with batch operation with a stack height of approx. 1400 mm and a speed of z. B. 150 m / min a maximum theoretical performance of 672,000 tons per year, based on continuous operation with 350 working days a year.

When operating the bale at a speed of e.g. 75 m / min and with a bale height of approx. 500 - 600 mm the performance would be about half of the value given above, whereby to take into account that the cross cutter is open, d. H. is driven without overlap.

In batch operation at a speed of 150 m / min the extension cycle time is approximately three minutes for each four benefits. This could be used, for example, for two film shrinking furnaces connected to the system for stack packaging become.

When operating the bale at a speed of 75 m / min the extension cycle time is approximately two minutes. she lies thus fully in line with, for example, four bale lacing machines to be able to connect on wire or plastic basis.

A change of the executed variants from bale to Batch operation and vice versa can be done at any time without reduction the speed can be done by using the cross cutter to gap is driven. The sheets that are removed thereby pass through the reject gate into a dissolving tank underneath, where, together with the edge strips of the pulp web of the outer slitter cut and into the machine chest be pumped back.

It also proves to be advantageous that each of the executed Variants for a slow order build in the early days or in the case of intermittent orders, only with the both inner benefits are driven at half power can.

Claims (15)

Pulp dewatering machine, in particular for the production of paper, with a screen dewatering device (20, 20 '), a press device (30, 30'), a drying device (40, 45) and a connected cross cutter (50, 50 '), characterized in that the Screen drainage device (20, 20 ') has a cylinder screen device (21 - 24, 25). Pulp dewatering machine according to claim 1, characterized in that the circular sieve cylinder device has four suction circular sieves (21-24). Pulp dewatering machine according to claim 1 or 2, characterized in that the circular screen cylinder device has at least one turning press (25) and one ego press (26). Pulp dewatering machine according to one of claims 1 to 3, characterized in that the press device (30, 30 ') has at least one smoothing cylinder (31, 32). Pulp dewatering machine according to claim 4, characterized in that at least one smoothing cylinder (31, 32) interacts with suction press rollers (33, 34). Pulp dewatering machine according to one of claims 4 to 5, characterized in that two smoothing cylinders (31, 32) are provided for processing both surfaces of the pulp web (11, 11 '). Pulp dewatering machine according to one of Claims 4 to 6, characterized in that the smoothing cylinders (31, 32) are equipped with dryer hoods (35, 36). Pulp dewatering machine according to one of claims 1 to 7, characterized in that the drying device (40) has at least one drying tower (41). Pulp dewatering machine according to claim 8, characterized in that impingement flow nozzles are arranged in the at least one drying tower (41). Pulp dewatering machine according to claim 8 or 9, characterized in that the at least one drying tower (41) is followed by a swing tower (42) for heating or cooling the pulp web (11) and a cooling tower (43). Pulp dewatering machine according to one of claims 1 to 7, characterized in that the drying device (45) has a horizontally arranged drying channel for the pulp web (11 '). Pulp dewatering machine according to claim 11, characterized in that the drying channel (45) has three sections (46-48), the first section (46) for drying with hot air, the second section (47) for heating or cooling and the third section ( 48) is provided for cooling the cellulose web (11 '). Pulp dewatering machine according to claim 11 or 12, characterized in that the drying channel (45) has an automatic web edge control. Pulp dewatering machine according to one of claims 1 to 13, characterized in that a dancer roller is arranged between the last smoothing cylinder (31, 32) and the drying device (40, 45). Pulp dewatering machine according to one of claims 1 to 14, characterized in that it has measuring and display devices for the residual moisture and the temperature of the pulp webs (11, 11 ') at least before the entry into the cross cutter (50, 50').

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