FI80104B - FOERFARANDE OCH ANORDNING VID MAONGCYLINDERTORK I PAPPERSMASKIN, BESTRYKNINGSMASKIN OCH / ELLER LIMPRESS. - Google Patents

Description

80104 1 Method in a multi-cylinder dryer for a paper machine, a coating machine and / or a glue press Förfarande 1 mangcylindertorken av en pappersmaskln, beläggningsmaskin och / eller limpress 5

The invention relates to a method for a multi-cylinder dryer of a paper machine, a coating machine and / or an air press, in which a plurality of drying cylinders are used, and preferably a single-wire outlet. transverse to the moisture profile, and the multi-cylinder dryer has blowing means for blowing dry and hot drying air in connection with the web.

With regard to the state of the art related to the invention, reference is made to the brochure "Maschlnenbeluftung fiir Trockenpartlen von 20 Papiermaschinen" by Maschinenfabrik Andrltz AG. This brochure describes an adjustable blow tray placed in the paper machine in the area of the two-wire outlet between the lower cylinders and the upper cylinders near the guide roll of the drying wire. Said blow box has opposite curved wall sections coming at a small gap distance from the surfaces of adjacent cylinders in a sector of about 45 °. Said curved walls are perforated and air is blown through their holes against the web in direct contact with the surface of the drying wire and the drying cylinder.

The purpose of the known blow box described above is to enhance the drying of the web and the ventilation of the pockets between the drying cylinders, and to make it possible to control the transverse moisture profile of the web by means of zone control. Em. the blow box is not without problems suitable for use in the single wire export area of the drying section. In the area of one to 35 wire outlets of the paper machine, the web enters the outside of the drying wire by the drying cylinders, usually the lower cylinders, which are located inside the drying wire loop. Thus, the web cannot be brought into direct contact with the heated surface of the lower cylinders. This causes a decrease in evaporation and production capacity.

If the cylinder gaps are blocked by the above-mentioned known blow box, a serious problem is the removal of the wreck from the cylinder holidays.

In addition, one of the problems in the single-wire outlet area of the multi-cylinder dryer is the difficulty in discharging the web, which is particularly pronounced in the lower cylinders, where the web remains outside the cylinder surface and the drying wire passing over it.

The object of the present invention is to solve the problems which have arisen above and to provide a method by which evaporation can be intensified in the area of single-wire export and thus increase the production capacity and / or reduce the number of drying cylinders.

It is known from the past that an infrared dryer is used in connection with multi-cylinder dryers, the infrared radiators of which must be cooled by means of a clarifier. The known infrared dryer is placed, for example, in connection with the last cylinder of the drying group provided with a single-wire outlet, in which the web is outside. The purpose of said infrared dryer is to adjust the machine and in particular the pedal-like moisture profile of the web, for which purpose the infrared dryer, equipped with devices for regulating the electrical power supplied to its radiating elements, is quite suitable.

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However, the known applications of said infra-dryers have been the inadequacy of its control force in certain applications, as well as the fact that the cooling air of the infrared radiators is usually blown into the basement of the drying section, making the relatively high energy content of the infrared

The object of the present invention is to provide a new method in which the above-mentioned drawbacks can be largely avoided.

In order to achieve the above objects, the method according to the invention is mainly characterized in that the cooling air of the infrared radiators of said infrared dryer unit is blown against the web.

The method of the invention makes it possible to make efficient use of the infrared dryer for cooling air. The cooling air of the infrared dryer is dry enough for the adjustment of the transverse humidity profile of the ralna. When, according to the method of the invention, the drying air of the infrared dryer is introduced into the blow boxes according to the invention or other similar ones, the evaporating efficiency can be increased if necessary and tar-10 box to manage.

Thus, the method according to the invention provides a particularly good control force, especially in the control of the transverse profile of the ralna, as well as a very precise humidity profile. This is important in that the over-drying of certain parts of the ralna, which has occurred frequently in the past, can be avoided. Ralna's uniform moisture profile is important for the paper manufacturer also because the paper is sold by weight.

In the following, the invention will be described in detail with reference to some embodiments of the invention shown in the figures of the accompanying drawings, to the details of which the invention is in no way narrowly limited.

Figure 1 schematically shows an inf-25 cell coil used in the method of the invention, the rear end of a multi-cylinder dryer and the air system used in connection therewith.

Figure 2 shows a blow tray applied in the method of the invention in a single discharge area, seen from the treatment side of the paper machine.

Figure 3 shows the same as Figure 2 seen from the operating side of the paper machine.

Fig. 4 shows a vertical section along the line IV-IV in Fig. 2.

4 80104 1 Figures 1, 2 and 3 show a part of the last drying cylinder group of a multi-cylinder dryer, for example, in which a single wire outlet is used. The top row cylinders, of which only one is shown in Figures 2 and 3, are denoted by reference numeral 11 and the bottom row cylinders by reference numeral 12. The drying wire 10 5 kneels from one row of cylinders to another and flanks the cylinders 11.12 at an angle of about 200 ° -240 °. The bottom row cylinders 12 are inside the loop of the weft wire 10 and the top row cylinders 11 are outside the loop of the drying wire 10 so that the paper web W passing through the drying group supported by the weft wire 10 remains outside the wire 10 11 against the surface. Since the web W is excluded by the lower cylinders 12 and the drying wire 10 comes directly against the surface of the cylinders 12, this causes a decrease in the evaporation power, which is prevented by the device according to the invention.

A pattern 13 is placed in the free sector below the upper cylinders 11, the blade 14 of which scrapes out impurities and wreckage from the surface of the cylinder 11, which can reach shown).

The following describes the main features of the structure of the device implementing the method of the invention. The device consists of blow boxes 20 placed in the gaps between the lower cylinders 12, which blow boxes 20 comprise a housing divided into zones 20, 20, 2 ° n of the partition wall 22 (Fig. 4). to each of which the cooling air of the radiating elements of the infrared dryer 40 can be supplied for adjusting the moisture level of the web W and in particular its transverse moisture profile. The blow box 20 has a curved end face 23 with a radius Rq slightly larger than the radius R of the blades of the drying cylinder-30, provided with a perforation 21. Through said perforation 21 hot and dry cooling air of the infrared dryer 40 is blown in the direction of the arrows F against the paper web W in sector a around the lower cylinders 12. The size of sector a is generally 40 ° -90 °, preferably about 60 ° -80 °.

The blows F also evaporate the moisture of the web W in the region of the lower cylinders 12, where otherwise little evaporation would occur.

n 5 80104 1 Thus, the humidity profile can be used to make basic adjustments and, if necessary, to increase the overall evaporation level.

In connection with the head export of the web W, web pieces 20 can be collected on the boxes 20. They can be removed by blasting air to create sharp jets away from the surface of the box from nozzles (not shown) with a diameter of e.g. 2 mm. This air blowing is performed only to a width of about 700 mm from the edge W of the web.

1Q with a blade 14 of the doctor blade 13 is secured at both ends to a k-selitapeln 15 of the body portion 18. The drive-side akselltaplssa 15 has an arm 16 which is connected to the working cylinder 17, a doctor blade 13, the blade 14 is loaded against the surface 11 of the cylinder and a doctor blade 13 is opened.

In the device used in the invention, the processing distance K of the blow box 20 is located immediately below the scraper 13, i.e. in the direction of travel of the web W and the wire 10, on the discharge side of the upper cylinders 11. This is important for Wreck-Polston as will be seen in more detail later.

2q The blow boxes 20 are attached to the paper machine frame beams 31 and 32 in an openable manner so that the blow boxes 20 can be pivoted to the open position 20 'shown in Fig. 2, opening below the scraper 13 from the curved top 23R of the end face 23 between. Through the space 25 Y, the wreck removed from the surface of the roll 11 by the scraper 13 on the blade 14 can be transferred quite unobstructed to the pulper below.

The blow boxes 20 are dimensioned and articulated to the gaps between the lower cylinders 20 so that a sufficiently large space V can be opened in connection with the breaks 3Q. The opening of the boxes 20 and the space V is preferably combined with automatic cutting, so that in the event of a break in the web W, the boxes 20 automatically turn to the open position 20 'by their actuators 28a, 28b.

For this purpose, the blow boxes 20 are fixed to their end walls 20a by means of flanges 26 to the shaft pins 27. The shaft pins 27 are fixedly connected to the arms 29a, which in turn are pivotally fixed to the shaft pins 29b. The shaft pins 29b are attached via flange portions 25 to the side frames of the paper machine to which the working cylinders 28a are attached. The piston rod 28b of the cylinders 28a is connected via an arm 28c to the end wall 20a of the blow box 20. With the working cylinders 28a, 28b, the blow boxes 20 can be pivoted from the blow positions shown in the figure to the open position 20 '. The working cylinder 28a is guided by means of 5 pressure control valves (not shown) which are connected to the cut-off automation of the paper machine known per se.

An embodiment of the method according to the invention will now be described with reference to Figure 1.

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Figure 1 shows the end of the hood 30 of the drying section, inside which only the lower cylinders 12 of the multi-cylinder dryer are drawn for clarity. .

The infrared dryer 40 comprises a plurality of radiating elements in the pedal direction, to each of which an adjustable electric current can be applied to control the longitudinal and / or transverse moisture profile of the web 20 W. Said moisture profile is measured by a measuring device system 61 known per se, which, via a control unit 60, regulates the electric currents of the various radiating elements of the infrared dryer 20 separately. If necessary, the control system 60 can also be connected to the control of the temperature and / or the amount of the blow air of the blocks 25 20 ... 20 ^ of the blow plates 20. The infrared dryer 40 can also be operated on gas.

The radiators of the infrared dryer 40 need cooling air so that their ambient temperature does not rise too high, for example in terms of fire risk. Infrared dryer 40 the cooling air is introduced from the outside in the direction of the arrow F. In the paper machine hall, for example, through the roof of pre-warmed D-Melle 41, the cooling air is transferred through conduit 42 to the steam radiator 44 and a filter 43 to the suction side of the fan 45. 45 Puhaltlmen pressure-side channel 46 is guided through the damper 47 inside the infrared dryer 40 of the housing 35, in which said air to cool the radiating elements environment.

7 80104 1 In the infrared conveyor 40, the heated mucus is led through the outlet duct 48 to the suction side of the fan 49. Puhaltlmen 49 of the discharge channel 50, through the control valve 54 connected to conduit 56, which branch off weather-töpeltlen through 57 channels puhalluslaatikolden 20 different blocks 20 ^ ... g 20n so that each block of the number of inflatable mucus is separately adjustable Raman W of the transverse moisture profile of the mastering for. Puhaltlmen 49 of the suction chamber 48 is guided ohlvirtauskanava 51 45 puhaltlmen the suction duct 42. The duct 51 is arranged a weather töpeltl 52, which is controlled by the controller 53. The controller 53 also controls the puhaltlmen 48 • | Q Adjustment valve, the pressure side 50 through the channel 54. Controller 53 can be controlled by the blow boxes 20 amount of mucus going.

Thus, in the present invention, the cooling air of the infrared conveyor 40 is efficiently utilized by increasing the profile control volume of the wear section 15 and, if necessary, the overall level of evaporation power by this cooling line. Thus, in the invention, the cooling air of the infrared converter 40 is not blown, at least not to a substantial extent, into the basement spaces below the floor L of the paper machine, as has been done before.

Also within the scope of the present invention are those applications of the blown tiles described above, in which the tile block (s) are used, e.g. in a coating machine, between different wear rolls for cooling the web, so that in question. cooling air flows are directed against the web through the boxes. In this context, single wire export is not usually used. The blow boxes according to the inventor-25 n8n can be located in connection with the lower and / or upper cylinders.

The following claims set forth within the scope of the inventive idea defined by the various details of the invention may vary and differ from those set forth above by way of example only.

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Claims (4)

8 80104 A method for a multi-cylinder dryer of a paper machine, a coating machine and / or an air press using a plurality of drying cylinders g (11,12), and preferably a single-wire outlet (10), the multi-cylinder dryer having an infrared radiation for electric or gas operation adjusting the moisture profile of the paper web (W) to be dried, in particular the transverse moisture profile, and having a multi-cylinder conveyor with blowing means (20) for blowing dry and hot drying air in connection with the web (W), characterized in that infrared cooling air of the infrared radiators of the unit (40). 1 Claims A method according to claim 1, characterized in that the cooling air of the infrared radiators is led to said infrared dryer unit (40) preheated. Method according to claim 1 or 2, characterized in that said blowing members (20) are divided in the transverse direction of the web (W) into blocks (20 ^ ... 20 ^), to each block of which adjustable amount or temperature of drying air of the web (W ) for the basic adjustment of the humidity profile, in particular the transverse profile. Method according to one of Claims 1 to 3, characterized in that the method measures the transverse moisture profile of the web (W) by measuring devices (61) which control the distribution of the radiated power of the infrared dryer unit (40) in the transverse direction of the web (W) and / or the volumes of air and / or their temperatures introduced into the blocks. 30 35 9 80104 j Patentkrav