EP1541759A1 - Method for treating a paper web - Google Patents

Abstract

In a process to glaze a moving web of paper, the paper is first over-dried to no more that 4% moisture, and then wound onto a reel and held in intermediate storage for 20 minutes or more, prior to unwinding from the reel. Prior to subsequent passage through a calendar nip, the paper is then moistened to a value between 8 to 12 %. The moistening process is effected between 0.3 and 0.6 seconds prior to passage through the nip. The moistening process is effected by steam jets and compressed air directed at both sides of the web.

Description

The invention relates to a method for treating a Paper web in which the paper web is overdried, rewetted and passed through a calender.

In particular, the invention relates to the treatment of SC paper in the off-line process.

When making a paper web from SC paper the paper web is at the end of the paper machine in the Drying section dried. Here, the middle Humidity adjusted to a predetermined value. It However, it turns out that "moisture nests" in the order of a few square centimeters form in and between the fibers of the web. This leads to "stains" with high moisture content in addition Areas with lower humidity. Particularly disadvantageous These damp spots are related to a Satinage from, after exposure to higher Pressure and higher temperature a so-called "cockling" can arise.

To eliminate this problem, it is known that Paper web to over-dry. Overdrying means the moisture content of the paper web to a value which is below a value that is for the calendering of the paper web in a calender is required is. The paper web then has a moisture vo for example, 2%. The overdried paper web is rewetted so that it receives the moisture that is required for the calendering. The rewetted Paper web can then be either satin or online wound up and later unwound and satined off-line become. The remoistening can still be done in the paper machine take place after the dryer section and if available, before winding.

The invention is based on the object, the result to improve the treatment of the paper web in the calender.

This object is achieved in a method of the aforementioned Sorted by solving the paper web over-drying in an over-dried state and stored for a predetermined rest period.

So you wrap the paper in a very dry state on. The humidification on the for the treatment the paper web takes place in the calender necessary moisture then only after rewinding the paper web and before going through the calender. It is believed that the over-drying of the paper web Do not completely eliminate moisture nests. Due to the rest period of the over-dried wound paper web But then can be a moisture balance carry out. The rest period does not have to be excessive be great. A moisture balance does not have to take place through the entire radius of the spool. One Balancing between adjacent paper web layers on the Tambour is enough. Also in length and width direction the web, so based on the spool so in the axial direction and in the circumferential direction, a moisture balance occur. This compensation already starts during of winding, so that for balancing the time sufficient to wind up overdried Paper web, the transport of the spool from the winding position to an unwinding position and unwinding needed. This time, especially the transport, usually takes at least a few minutes. In This time is the desired moisture balance in the overdried train takes place so far that one has a very can reach a uniform humidity. As additional Advantage results that the tambour to be transported unchanged conditions otherwise required - a little reduced due to the reduced humidity Has weight, which is beneficial to the transport can affect.

Preferably, the paper web is dried prior to winding to a maximum humidity of 4%. In many cases you will lower the humidity even further. Such overdrying has proven itself to the Moisture nests dry out so far that they do not disturb more.

Preferably, the paper web is rewetted before first nip of the calender to a moisture of at least 7%, in particular in the range of 8 to 12%.

Preferably, one sees an exposure time in the range of 0.1 to 1 s, in particular in the range of 0.3 to 0.6 s, between rewetting and going through the first nip in front. The overdried paper web will be so only relatively shortly before entering the first nip of the calender moistened. This has the consequence that the Moisture when passing through the first nip yet not very far penetrated in the middle of the paper web is. This results in a moisture gradient. The Paper web is at their top or their tops moister than in their midst. Accordingly behaves the center of the paper web is largely elastic, while the surface layers are plastically leveled can be. Accordingly, the thickness loss when passing through the calender lower.

Preferably, you take a cross profile control during rewetting the humidity or the corresponding correlating one Properties of the paper web before. this is a Another measure to the moisture distribution in the paper web to equalize.

Preferably, you take the rewet with a Nozzle applicator using gas powered Atomizer nozzles in front. With a nozzle applicator you get enough moisture on the paper web, so that in a relatively short time the required Moisture increase can be achieved.

In this case, it is preferable that the drive gas for the Atomizer nozzles used steam. The steam mediates the liquid used for moistening not just the desired kinetic energy that the Moisture for spraying and transport to the Surface of the paper web needed. In addition, the Moisture also heats up, giving you better penetration moisture in the surface of the paper web can reach. In addition, it gets to the condensing steam adds moisture to the Paper web. Also, the paper web becomes thermal energy fed, what the Satinageresultat on the basis of Improved "Temperature / Moisture Gradient Process".

Alternatively, one can use as the drive gas for the atomizer Use air. This is mostly below favorable in terms of cost.

Preferably, one moistens top and bottom the paper web. With a two-sided application of Moisture can be a moisture increase yet reach faster.

Also, it is beneficial if you have the paper web in front of the Winding in a first stage in the field of Equilibrium rewet and after unwinding in a second stage further humidifies. The equilibrium moisture is for example 5% to 6%, but is usually not sufficient for the calendering. This allows the moisture order, which you to complete Remoistening needed, even more precise control. There is more time available, so that the moisture increase be made to the desired extent can.

It is preferred that the paper web in the first level to the level of equilibrium moisture moisturizes their environment. Such a moisture is on the order of 5 to 6%. Man creates So a condition in which between the humidity of the wound paper web, so the humidity of the spool, and the environment a moisture balance, so that neither moisture from the spool into the environment escapes an effect of moisture from the environment done on the drum.

Preferably, one uses a calender with several Roll stacking and takes a rewet also between two roll stacks before. Even with this one can be achieve sufficient rewet.

• einreihige Trockengruppe in der Trockenpartie
• mindestens eine Hochvakuumbox in der Trockenpartie
• einen Verdünnungswasserstoffauflauf
• einen Gapformer
• mindestens eine Schuhpresse mit mindestens einem Dampfblaskasten.

Mit diesen Baugruppen lassen sich die Querprofile der Papierbahn, insbesondere das Feuchteprofil, aber auch das Dicken- und Flächenmassenprofil, in einem hohen Maß vergleichmäßigen, so daß man eine sehr gute Qualität erhält.Particularly preferred is an embodiment in which one treats the paper web before winding with at least one of the following modules:

• single-tier dryer group in the dryer section
• at least one high vacuum box in the dryer section
• a dilution hydrogen casserole
• a gapformer
• at least one shoe press with at least one steam box.

With these assemblies, the cross sections of the paper web, in particular the moisture profile, but also the thickness and surface mass profile, can be uniformed to a high degree, so that you get a very good quality.

Fig. 1

eine schematische Darstellung zur Erläuterung der Vorgehensweise beim Behandeln einer Papierbahn und

Fig. 2

eine abgewandelte Ausführungsform.

The invention will be described in more detail below with reference to preferred embodiments in conjunction with the drawings. Herein show:

Fig. 1

a schematic representation for explaining the procedure when treating a paper web and

Fig. 2

a modified embodiment.

A paper web 1 is produced in a paper machine 2 and in the dryer section 3 of the paper machine 2 dried. The paper web 1 leaves the dryer section at an outlet 4 with a maximum humidity of 4%, preferably even with even lower humidity from only 2 to 3%. So it is overdried. Such a thing low humidity is not enough for the paper web 2 in a calender 5, which is separate from the paper machine 2, so off-line, is set to evening.

The thus overdried paper web 1 is in a reel 6 on a tambour shown only schematically 7 wound up. On the Tambour 7 is located So the over-dried paper web 1 with the described low humidity. So it's practically impossible that the paper web 1 during the time, in she is wound on the spool 7, moisture to the environment.

In addition, overdrying has the effect of that also moisture nests, which are usually in the Paper web form and a size of a few square centimeters have to be dried out. Even if they do not completely disappear as a result, it results but a very substantial homogenization of moisture over the surface of the paper web 1. This homogenization is further improved by the Paper web 1 in the very dry state on the spool 7 is wound up. A longer residence time The tambour is usually not required. The equalization, i. the moisture transfer from one layer of the paper web 1 to an adjacent one Position on the spool 7 already begins during winding, once paper web layers abut each other. The moisture balance may continue until these layers lifted off again when unwinding become. Accordingly, the time is usually enough which are available during winding and unwinding plus the time it takes to complete the drumming 7 of the illustrated winding 6 to a settlement 8 to transport, out to the desired Effect moisture balance.

The transport of the spool 7 from the winding 6 to Processing 8 is shown schematically by an arrow 9.

The rest period in which the paper web 1 on the drum 7 wound up, of course, can be longer, without that this would have negative effects. It is preferably in the range of 10 to 30 minutes.

In the settlement 8, the paper web 1 of the spool 7 unwound and in a humidifier 10 rewet, i. you increase the humidity of the paper web 1 to at least 7%, preferably 8 to 12%. Such moisture is favorable to the paper web. 1 to calender in the calender 5.

Conveniently, the moistening device two nozzle dampers 11, 12 on, on both sides the paper web 1 are arranged. The two nozzle dampers 11, 12 are at a distance before the first Arranged nip 13 of the calender 5, which is sized that the paper web 1 is about 0.1 to 1 s, preferably 0.3 to 0.6 s needed to reach the distance between the humidifier 10 and the first nip 13 of the calender 5 back.

The nozzle dampers 11, 12 work with atomizer nozzles, where the liquid on the paper web 1 is applied with the help of a pressurized Gas is atomized. As a liquid, it is preferable Water used. As a "propellant gas" you can Use steam. Steam has the advantage that he not only water in the jet humidifiers 11, 12 can atomise with a relatively high pressure. simultaneously the steam carries a certain amount of heat into it resulting liquid droplets, so that the Liquid can penetrate better in the paper web 1. In addition, with the steam, of course, additional Moisture is applied to the surfaces of the paper web 1. The paper web 1 is heated, so that In addition to a temperature gradient and a humidity gradient results.

As an alternative to steam, air can also be used as drive gas use.

Since, in principle, only the surface of the paper web 1 moistens becomes, results in a humidity gradient in the Paper web 1. The middle of the paper web 1 (in z-direction) So it stays drier in the nips of the calender So do not compress so much. The satinage in the calender 5 can thus be done volume-saving.

With the help of a sensor device 14, the moisture (or other correlating paper properties) and reported back to the humidifier 10. So you can rewet an automatic Cross profile of the moisture make.

Dashed lines show two additional nozzle dampers 15, 16 at the exit 4 of the dryer section 3. With Help of this nozzle moistener 15, 16 can be a two-stage Re-humidify. At the exit 4 of the dryer section 3, the paper web 1 is first on the Humidity of the respective ambient condition raised. These are usually 5 to 6%. Such a moisture is not enough to be satisfactory Calender result in the calender 5 to lead. Also after Re-humidification in the first stage through the nozzle moistener 15, 16 can therefore no moist delivery from Tambour 7 done to the environment. The second moistening device 10 can then with a lower Moisturizing job and you can still make sure that the paper web 1 upon reaching the first Calender 5 nips 13 which are necessary for the calendering Has moisture.

Fig. 2 shows an alternative embodiment in which the calender 5 consists of two roller stacks 5a, 5b. Same parts are given the same reference numerals as designated in Fig. 1. In addition, there are between the two Roller stacks 5a, 5b still further dampers 17, 18th arranged, which are used for rewetting.

In both cases, in the calender 5 or in the roll stacks 5a, 5b further moistening devices 19, 20 be provided to the moisture during the calendering to keep in a given range.

The procedure described is particularly in Connection with at least one single-row dryer group in the dryer section 3 and possibly high vacuum boxes interesting in the dryer section 3. It continues low, a dilution hydrogen headbox in the paper machine 2 to use, optionally one Gapformer and at least one shoe press with at least a steam box. By the mentioned elements, which can be used individually or in combination can, are the cross sections, in particular the moisture profile, but also the thickness and surface mass profile at a higher level of quality. This diminishes Problems with the winding up of overdried Paper web 1 on the drum 7 could arise.

Due to the lower moisture of the paper web 1 (in comparison the common off-line process) will wrinkle on the wound drum 7 in particular in the prevents upper layers. This wrinkling arises by shrinking operations of the paper web 1 in the natural Humidity balance according to the ambient conditions.

Since the paper web 1 with a relatively low humidity from 2 to 4%, after a first stage of rewetting also 5 to 6%, wound up and only after unwinding back to an increased humidity to 8 to 12% brought, such problems can not occur.

Claims (13)

Process for treating a paper web, in which the paper web is overdried, rewetted and passed through a calender, characterized in that , after overdrying, the paper web is wound up in an overdried state and stored for a predetermined period of rest. A method according to claim 1, characterized in that the paper web is dried prior to winding to a maximum moisture content of 4%. A method according to claim 1 or 2, characterized in that the paper web is rewetted before the first nip of the calender to a moisture content of at least 7%, in particular in the range of 8 to 12%. Method according to one of claims 1 to 3, characterized in that one provides an exposure time in the range of 0.1 to 1 s, in particular in the range of 0.3 to 0.6 s, between the rewetting and the passage of the first nip. Method according to one of Claims 1 to 4, characterized in that , during the rewetting, a transverse profile control of the moisture or corresponding correlating properties of the paper web is carried out. Process according to one of Claims 1 to 5, characterized in that the rewetting is carried out with a nozzle applicator using gas-operated atomizing nozzles. Process according to Claim 6, characterized in that steam is used as the drive gas for the atomizing nozzles. Process according to Claim 6, characterized in that it indicates that air is used as the drive gas for the atomizing nozzles. Method according to one of claims 1 to 8, characterized in that the top and bottom of the paper web is moistened. Method according to one of claims 1 to 9, characterized in that the paper web is moistened before winding in a first stage in the range of equilibrium moisture and further humidified after unwinding in a second stage. A method according to claim 10, characterized in that in the first stage the paper web is rewetted to the level of the equilibrium moisture of its environment. Method according to one of claims 1 to 11, characterized in that one uses a calender with a plurality of roll stacks and performs a rewet also between two roll stacks. Method according to one of claims 1 to 12, characterized in that the paper web is treated before winding with at least one of the following components: single-tier dryer group in the dryer section High vacuum box in the dryer section Dilution water headbox Gapformer Shoe press with at least one steam box.

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