DE19731019A1 - Paper-making press blanket - Google Patents

Abstract

The press blanket, on both sides of a fibre web to carry it through the gap between press rollers, has an outer layer (4) on the side towards the web which has a denser structure than the inner layer (5). The inner layer (5) has hollow zones (11) with pressure stability and a capacity under operating pressures which is greater than the water vol. to be taken in. Preferably the outer layer is thinner than the inner layer, for operating pressures of \-100 KPa, and the inner layer (5) is at least 50% thicker than the outer layer (4). The material of the outer layer (4) has a weight of 200-800 g/m<2>, and the inner layer material (5) is 600-3000 g/m<2> and pref. 1400-3000 g/m<2>. The side of the inner layer (5) towards the outer layer (4) has a denser structure than the other side.

Description

The invention relates to a press belt for absorbing water from a company serstoffbahn within a press zone consisting of at least two Layers and their application in a press section.

Such press belts are for example from DE-OS 42 26 592 and DE-C2 40 40 861 known. They serve to absorb the squeezed out what sers of the fibrous web. One or more press belts can be used the sides of the fibrous web are passed through the press nip. Generally felts or fabrics made of plastic fibers or threads are used for this.

However, the often insufficient water absorption is insufficient ability of the press belt especially during the compressed Condition in the press nip and the unwanted rewetting of the fiber fabric web, if this after the press nip in one section together with a press belt continues.

The object of the invention is therefore a press belt with the largest possible Water absorption capacity in the press nip and little rewetting create.

According to the invention the object was achieved in that the outer of the company Layer facing the material web has a denser structure than the inner layer has and the inner layer has cavities that are so pressure-stable tet that their water storage volume is greater than even under operating pressure is the volume of water to be absorbed. The inner layer forms one sufficiently large water storage in the form of pressure-stable as possible Cavities and the outer layer is a boundary layer to minimize the Remoistening of the fibrous web. The outer layer should be for better Shape adjustment and thus to avoid embossing in the fiber fabric  be elastic and consist of plastic fibers. For the inner one Layer is particularly suitable a multi-layer, preferably four-layer Fabrics made of plastic threads and / or metal wires. Both layers can be needled together via the plastic fibers of the outer layer.

Especially if the pressure is greater than 100 KPa, the inner should Layer is preferably at least 50% thicker than the outer layer, so that a sufficiently large water storage volume is retained. To the one reduces the volume of the cavities, if possible in ge ring circumference with stronger pressing presses and on the other hand the outer Layer does not represent too large a barrier for the water to be absorbed.

The mass per unit area of the outer layer should be between 200 and 800 g / m ² and that of the inner layer between 600 and 3000 g / m ² , preferably between 1400 and 3000 g / m ² .

It can be used to design a gradual transition between layers be of advantage if the inner layer on top of the outer layer facing side has a denser structure than on the inner side. Of further to reduce rewetting, the outer layer in the New condition with a differential pressure of 100 Pa a permeability for air of less than 0.1 m / sec.

When using the press belt in a press section for drainage a fibrous web is at least one endless press belt together with the fibrous web through at least one press nip of the press section ge leads. Press belts can also be on both sides of the fibrous web to be available. Use is particularly advantageous for long press nips of more than 300 mm, since this accommodates the larger ones Amounts of water allowed.  

It is characteristic here that within the course of the press belt min at least a water collecting device to hold the predominant Part of the water absorbed by the press belt is arranged. This Water collecting device preferably has the shape of a machine width Tub and should be advantageous in the wrap area of a guide roller Press belt may be arranged, the guide roller outside the course of the Press belt is located and the wrap area of the guide roller as large as possible should be greater than 30 °.

In order to ensure that as much water as possible is thrown out of the inner layer into the water collecting device, sufficiently large centrifugal forces must be provided in the belt area. Therefore, the quotient of the square of the speed of the press belt and the radius of the guide roller should be at least 500 m / sec ² . This has a positive effect if the inner side of the inner layer has larger cavities than the outer side.

To support the drainage of water into the water collecting device can at least one stripping element touching the press belt in the form of a Serve scraper. Furthermore, can occur within the course of the Pressban of the at least one, preferably following the looping area arranged suction device.

Because of the weight-related deflection of the guide roller and its bean stress caused by the tension of the press belt, it can be an advantage if the guide roller is divided axially into several sections and at the ends and is rollably mounted on a support between the sections.  

In the following, the invention is to be explained in more detail using several exemplary embodiments to be refined. The attached drawing shows

Fig. 1 shows a cross section through a press belt 1 and

Fig. 2-4 different press assemblies with a Wasserauffangvorrich device 6th

As can be seen in FIG. 1, the press belt 1 consists of two layers 4 and 5 , the outer layer 4 facing the fibrous web having a denser structure than the inner layer 5 . The inner layer 5 has cavities 11 which are designed to be pressure-stable in such a way that their water storage volume is greater than the water volume to be recorded even under operating pressure. For this purpose, the outer layer 4 consists of plastic fibers and the inner layer consists of a four-layer fabric made of plastic threads, the four layers 12 being connected to one another via transverse threads 13 . Due to the arranged one above the other layers 12 , a stable inner layer 5 is ben ben. Both layers 4 and 5 are knitted together via the plastic fibers.

To ensure sufficient water absorption capacity, the inner layer is more than 50% thicker than the outer layer 4 . The mass per unit area of the outer layer 4 is between 200 to 800 g / m ² and that of the inner layer 5 is between 600 and 3000 g / m ² .

In addition, the inner layer 5 on the side facing the outer layer 4 has a denser structure, ie smaller cavities 11 than on the inner side. This results from the thread spacing of the plastic threads, which decreases towards the outer layer 4 and has the consequence that most of the water is stored on the inside of the inner layer 5 .

This facilitates the removal of the water from the press belt 1 , as described below. In order to influence the size of the cavities 11 , the diameter of the plastic threads can also be changed. The outer layer 4 has a permeability for air of less than 0.1 m / sec when new at a differential pressure of 100 Pa. This is sufficient to allow a sufficient passage of the water to the inner layer 5 . At the same time, however, the rewetting of the fibrous web 2 after the press zone is minimized. The plastic fibers of the outer layer 4 are sufficiently elastic to prevent impressions in the fibrous web 2 .

In Figs. 2 to 4, the fibrous web 2 is in each case together with an endless press belt 1 by a gap formed by a pair of rolls pressing the press section 3 performed. These designs also have in common that a water collecting device 6 in the form of a machine-wide tub for receiving the water thrown off the press belt 1 is arranged within the course of the press belt 1 . The Wasserauf catch devices 6 are located in the wrapping area of a guide roller 7 of the press belt 1 , the guide roller 7 is outside the course of the press belt 1 . In all cases, the wrapping area of the guide roller 7 is greater than 30 °. In order to generate sufficiently large centrifugal forces for centrifuging the water, the quotient of the square of the speed of the press belt 1 and the radius of the guide roller 7 is greater than 500 m / sec ² .

In FIGS. 2 and 3 to improve the removal of water from the press belt 1 in the water collecting device 6 is a touch the press band 1 of the stripping member 8 in the form of a scraper mounted.

In the arrangement in Fig. 2, the guide roller 7 is also divided axially into several sections. At the ends and between the sections, the guide roller 7 is rollably mounted on a carrier 10 .

This counteracts the deflection of the guide roller 7 and enables a more precise adaptation of the water collecting device 6 to the barrel of the press belt of the first

In Fig. 3, the possibility is shown with the water collecting device 6 at the same time to collect the water discharged from a press roll arranged above it.

In the example shown in FIG. 4, the water is collected at the looping area by two guide rollers 7 arranged one behind the other with a common water collecting device 6 . To support the water release is located within the press belt 1 at the end of the order looping area of the last guide roller 7, a suction device 9th

Claims (18)

1. press belt ( 1 ) for receiving water from a fibrous web ( 2 ) within a press zone consisting of at least two layers ( 4 , 5 ), characterized in that the outer ( 4 ) of the fibrous web ( 2 ) facing layer has a denser structure than the inner layer ( 5 ) and the inner layer ( 5 ) has cavities ( 11 ) which are designed to be pressure-stable in such a way that their water storage volume is greater than the water volume to be taken up even under operating pressure. 2. Press belt according to claim 1, characterized in that the outer layer, especially when the pressure is above 100 KPa is thinner than the inner layer. 3. Press belt according to claim 1 or 2, characterized in that the inner layer ( 5 ) is at least 50% thicker than the outer layer ( 4 ). 4. Press belt according to one of claims 1 to 3, characterized in that the mass per unit area of the outer layer ( 4 ) is between 200 to 800 g / m ² . 5. Press belt according to one of claims 1 to 4, characterized in that the mass per unit area of the inner layer ( 5 ) is between 600 to 3000 g / m ² , preferably between 1400 and 3000 g / m ² . 6. Press belt according to one of claims 1 to 5, characterized in that the inner layer ( 5 ) on the side facing the outer layer ( 4 ) has a denser structure than on the inner side. 7. Press belt according to one of claims 1 to 6, characterized in that the outer layer ( 4 ) at a differential pressure of 100 Pa has a per meability for air of less than 0.1 m / sec. 8. Press belt according to one of claims 1 to 7, characterized in that the inner layer ( 5 ) consists of a multi-layer, preferably four-layer fabric made of plastic threads and / or metal wires. 9. Press belt according to one of claims 1 to 8, characterized in that the outer layer ( 4 ) consists of plastic fibers. 10. Press belt according to one of claims 1 to 9, characterized in that the inner ( 5 ) and outer ( 4 ) layer are needled together. 11. Use of the press belt ( 1 ) according to one of claims 1 to 10 in a press section for dewatering a fibrous web ( 2 ), wherein at least one endless press belt ( 1 ) together with the fibrous web ( 2 ) through a press nip ( 3 ) of the press section is characterized in that within the course of the press belt ( 1 ) at least one Wasserauf catch device ( 6 ) for receiving the water from the press belt ( 1 ) th is disposed. 12. Application of the press belt according to claim 11, characterized in that the water collecting device ( 6 ) in the looping area of a guide roller ( 7 ) of the press belt ( 1 ) is arranged, the guide roller ( 7 ) being outside the course of the press belt ( 1 ) . 13. Use of the press belt according to claim 11 or 12, characterized in that the wrap area of the guide roller ( 7 ) is greater than 30 °. 14. Use of the press belt according to one of claims 11 to 13 since characterized in that the quotient of the square of the speed of the press belt ( 1 ) and the radius of the guide roller ( 7 ) is at least 500 m / sec ² . 15. Use of the press belt according to one of claims 11 to 14, characterized in that the water collecting device ( 6 ) has the shape of a machine-wide tub. 16. Use of the press belt according to one of claims 11 to 15, characterized in that at least one stripping element ( 8 ) touching the press belt ( 1 ) is present for removing the water into the water collecting device ( 6 ). 17. Use of the press belt according to one of claims 11 to 16, characterized in that within the course of the press belt ( 1 ) is at least one suction device ( 9 ) arranged preferably in connection with the looping area. 18. Use of the press belt according to one of claims 11 to 17, characterized in that the guide roller ( 7 ) is axially divided into several sections and is rotatably mounted on a carrier ( 10 ) at the ends and between the sections.