EP1176251B1 - Method for calendering a web - Google Patents

Description

The invention relates to a method for calendering a web of material in which the web of material passes through at least a nip is guided in a roll stack, in which a line load is generated, but not all Rolls of the roll stack have the same diameter.

Such a method is, for example, from EP 0 928 844 A2 known. The material web is made up of several Headed nips of a roll stack. The ones that make up the nips Rollers are mounted on levers that are fixed to the frame Swiveling axes and by means of force introduction devices are resilient.

The invention is based on a paper web described as an example of a material web. This is also the main application of the present invention. However, the invention is not on paper webs limited, but can also with other material webs are used, for example in cardboard webs or foils made of metal or plastic.

Paper webs are calendered in the course of their processing, while passing through the nip on the one hand be compressed. On the other hand, you can use calendering but also certain surface properties, such as gloss and / or smoothness. Calendering can either be in a so-called "soft" nip done by a hard roller and a soft roller, i.e. a roller with an elastic or compliant surface. The Calendering can also be done in a smoothing unit, where the nip is formed by two hard rollers is.

One can observe in practically all cases that after a certain operating time on the paper web Horizontal stripes form from the time they are become visible, lead to committee. These horizontal stripes are called "barrings". The causes of this Barring formation has not been conclusively clarified. Partially they will vibrate on the roller machine returned due to small imbalances in the rollers or periodic disturbances in the headbox of the paper web can be caused. Partially goes one assumes that small external disturbances, such as pollution, Defects on at least one roller generate that after a certain period of operation impress other rollers and again periodic faults produce. Possibly the ones that limit the nip Rolling due to such or other disturbances also polygonal over time, being then the edges of such a polygon in the paper web impress and lead to the formation of horizontal stripes.

However, all the causes may also be in some way Way together or there are no more known causes.

The invention has for its object problems by reducing barring formation.

This task is carried out in a method of the type mentioned at the beginning Art solved in that the line load continuously is changed.

So you reach into the pressurization of the material web one and varies this, so that one artificial disorder that contributes to the fact that Do not form barrings or at least do not form them can make them visible. Under "continuous" is understood primarily as a constant change, i.e. in this case is in successive Times always a difference in line load, i.e. the mean line load over the axial length of the nip, present. One can do such a continuous Change in line load but also in discrete Take steps, the time intervals between Changes remain small. Anyway, you have to be so small that between the individual changes develop no visible barring phenomena can.

The changes are preferably at most in the range of ± 5%. Such a change in track load does not have a negative impact on the calendering result is therefore harmless in this regard. Nonetheless, one can be of such a magnitude ensure that there is sufficient interference in the nip is entered to make the barring formation Reduce.

The line load is preferably changed by changing Cone forces changed. So you intervene, so to speak the suspension of one of the rollers forming the nip. This is a relatively simple way to control the stretch load to change because this is not complicated Controls are required.

The line load is preferably varied the compensation of overhanging loads changed. Usually at least on the bearing housings components of some rolls of a roll stack, such as guide rollers, finger protection brackets or the like, attached, their weight to the overhanging loads counts. This also includes the weight of the bearing housing. A roller would not work without compensation only with their own weight on the one below Press the roller and a corresponding line load in the Nip build up, but the line load would go through too these additional weights are affected. As this difficult to control the line load, it is known to compensate for these overhanging loads, i.e. for example, hydraulic cylinders are between the roller bearing and a stand arranged, that this the additional weight of the deflection rollers, Pick up the finger protection bracket etc. and the roller bearing can. If you look at the effect of this compensation changed, i.e. strengthened or weakened, one creates a simple change in the line load, without additional components being required.

The material web is preferably made up of several Headed nips formed by at least three rollers be, with at least two of these rollers overhanging loads and these compensations to be changed. So you don't just reach for one Nip one to change the line loads, but with multiple nips. In extreme cases you can even change the line loads of all nips. The more "Defects" are created, the lower the risk that barrings develop.

It is preferred that the compensation changes made in the same way for all affected rollers become. This simplifies control.

In an alternative embodiment it is provided that the web of material is passed through nips that through Rolls of different types are formed, the Compensation changes in rolls of one kind different than with other types of rollers. The rollers of the a kind can for example by the so-called soft rollers are formed while the rollers of the the hard rollers are different. If you now the compensation changes in the soft In many cases it does not roll more necessary, a corresponding compensation changes also with the hard rollers. This again simplifies control.

Preferably the overhanging loads are with the help compensated by compensation cylinders in which the Pressures to be changed. This is a relatively simple one Measure to take the influence of overhanging loads change. The pressures in the compensation cylinders are proportional to the forces acting on the compensation cylinders muster. If you increase these pressures, then the weight forces of the overhanging loads more compensated. If you lower the pressures, then bear the weight of the overhanging loads a larger part of the line load.

Preferably, the pressure change is at least one Compensation cylinder made at random. So you use a random generator, for example, the values for the pressures or pressure differences of the compensation cylinder or specifies. By the Randomly it is practically impossible that a stationary situation that leads to a barring formation leads.

In an alternative or additional embodiment can be provided that the pressure change in at least a compensation cylinder depending on a matrix that contains a multitude of individual values contains that processed in a predetermined manner become. For example, the matrix can either contain a number of pressure values, which in the corresponding Compensation cylinder can be set. or it can be absolute or relative pressure value differences by which the pressure in the compensation cylinder is changed. Such an approach is recommended whenever there is already experience when operating a calender.

The matrix preferably also contains times at which the pressures are changed. Then you are no longer rely on the pressures at equal time intervals or along ramps with constant inclines change, but can also change speed influence.

Preferably takes place synchronously with the change in the pin forces at least with a deflection adjustment roller a change in the pressurization of their pressure elements. This allows an even better change of the line loads in the individual nips.

The invention is based on a preferred Embodiment in connection with the drawing described in more detail. Here the only figure shows: a calender as a roller machine.

In the figure, a calender 1 is shown schematically as an example shown for a roller machine with which one Paper web 21 can be calendered. The paper web is handled schematically by a transaction 10 for this purpose and wound up in a winder 11.

The calender 1 has eight rolls 2-9, of which four rollers 2, 4, 7, 9 a hard metallic surface and four rollers 3, 5, 6, 8 an elastic plastic covering 13 have. The bottom roller 9 is as Deflection adjusting roller and has hydrostatic Support shoes 32 on, as is known per se is.

All rollers are driven and with their roller journals stored in bearing housings 23, 23 '. The bearing housing 23 ' the middle rollers 3-8 are attached to levers 24, whose fulcrum 25 is on the calender frame 26. Below the roll stack, which is through the rolls 2-9 is formed, a hydraulic cylinder 27 is provided, on the one hand that for the satinizing of the paper web 21, which is used here as an example for a material web Forces in the closed nip or nip applies and on the other hand lower the lower roller 9 can. By lowering the lower roller 9 lie down the levers 24 on stops 28, in such a way that between the rollers gap of 1 to 10 mm form.

The two middle hard rolls 4, 7 cannot in heating steam or hot oil Heating can be supplied. Heating steam or oil is passed through peripheral holes 22 so that it can give off its heat to the rollers.

A sensor 22 is provided to detect the surface of the paper web 21 to investigate. The sensor 22 can be long determine in front of the human eye whether on the paper web Horizontal stripes, so-called barrings, appear. As soon as the sensor 22 has such barring formation determines, he gives this knowledge to a control device 14 further, which are discussed below becomes.

Additionally or alternatively, a vibration sensor can be used 30 attached to the frame 26 of the calender 1, which is also connected to the control device 14 is.

Deflection rollers 33, 37 are arranged on the bearing housings 23 ', which form so-called overhanging loads. To others also belong to these overhanging loads "Attachments", such as finger guards, scrapers or the weight of the bearing housing 23 'itself. To have an influence of these overhanging loads on the middle one Line load, i.e. the pressure distribution in the nips of the To reduce or even eliminate roller stacks 2-9, compensation cylinders 15-20 are provided, which arranged between the levers 24 and the stand 26 are. When this compensation cylinder is pressurized then they generate forces equivalent to the weight forces opposite of the overhanging loads are.

Of course you can use the compensation cylinder 15-20 also on the other side of the roll stack 2-9 Arrange. In this case, their pressure should be in the opposite direction.

The compensation cylinders 15-20 are with the control device 14 connected. The control device 14 provides the pressures in the compensation cylinders 15-20 now not to a constant value that is sufficient the weight of the overhanging loads to compensate, but the control device 14 changed the pressures in the compensation cylinders 15-20 in such a way that the average line loads can change in the nips by ± 5%. This change takes place continuously, i.e. either continuously or with such small intervals that with a constant line load, no barring formation yet has resulted.

For this purpose, the control device 14 has a random generator 29, which outputs random numbers with their Help the compensation cylinder 15-20 are controlled. For example, the random numbers with a constant value to be multiplied to a product form the pressure in a compensation cylinder 15-20 is raised or lowered.

The control device 14 additionally has a memory 31, different in the form of a matrix Pressure values are stored in order at the individual compensation cylinders 15-20 set become. In addition, can also in the memory 31 Stored times that indicate how long a individual pressure value in a compensation cylinder 15-20 is applied. Finally, the control device 14 also have an influence on the control of the support elements 32 take for further changes in line load bring about.

Of course, these measures can be used to reduce barring still be connected to others, already known measures. So is schematic in the figure shown that a pulley 33 perpendicular to a level 34 is shiftable, in which the axes of rotation the upper roller 2 and the lower roller 9 are arranged. For this purpose, a hydraulic cylinder 35 is provided which Deflection roller 33 in the direction of a double arrow 36 perpendicular moved to the plane. This way the way between the two nips, which are from the roller 3 be limited, changed. This measure is special effective against barring formation caused by a periodically changing headbox of the paper machine is caused.

In addition, there are two rollers, namely rollers 3 and 6, offset laterally from the plane through which Rotation axes their two neighboring rollers 2, 4 and 5.7 is defined. This also contains a small one Phase shift between two nips.

Since all rollers 2-9 have their own drive, can also be provided that the control device 14 controls all drives and here the control device a drive torque distribution varies and thereby interferes with smooth operation. Finally the calender roll stack is constructed in such a way that the rollers are not all the same diameter. For example, the heated rollers 4.7 are smaller than the top and bottom rollers 2, 9. The two rollers 5, 6 also have different diameters. The Roller 3 is larger than roller 4. This measure too counteracts barring formation.

Claims (12)

1. Method for calendering a web, in which the web is led through at least one nip in a roll stack in which a line load is produced, not all the rolls of the roll stack having the same diameter, characterized in that the line load is changed continually.
2. Method according to Claim 1, characterized in that the changes lie at most in the range of ±5%.
3. Method according to Claim 1 or 2, characterized in that the line load is changed by changing journal forces.
4. Method according to one of Claims 1 to 3, characterized in that the line load is changed by varying the compensation for overhanging loads.
5. Method according to Claim 4, characterized in that the web is led through a plurality of nips which are formed by at least 3 rolls, the overhanging loads being compensated for in at least two of these rolls and this compensation being changed.
6. Method according to Claim 5, characterized in that the compensation changes are carried out identically in all the rolls involved.
7. Method according to Claim 5, characterized in that the web is led through nips which are formed by rolls of different type, the compensation changes in rolls of one type being made differently from those in rolls of the other type.
8. Method according to one of Claims 4 to 7, characterized in that the overhanging loads are compensated for by using compensation cylinders in which the pressures are changed.
9. Method according to Claim 8, characterized in that the pressure change is made by at least one compensation cylinder in accordance with the random principle.
10. Method according to Claim 8 or 9, characterized in that the pressure change in at least one compensation cylinder is made as a function of a matrix which contains a large number of individual values which are processed in a predetermined manner.
11. Method according to Claim 10, characterized in that the matrix also contains times at which the pressures are changed.
12. Method according to one of Claims 3 to 11, characterized in that, in synchronism with the change in the journal forces, at least in the case of a controlled deflection roll, a change in the pressurization of its pressure elements is made.

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