WO2013020745A1

WO2013020745A1 - Press belt for shoe press device

Info

Publication number: WO2013020745A1
Application number: PCT/EP2012/061560
Authority: WO
Inventors: Uwe Matuschczyk; Delphine Delmas; Hermann Reichert; Peter Elsner; Christof HÜBNER
Original assignee: Voith Patent Gmbh
Priority date: 2011-08-10
Filing date: 2012-06-18
Publication date: 2013-02-14
Also published as: DE102011080728A1

Abstract

Press belt (7, 7.1, 7.2) for a shoe press device (10) for dewatering or calendering a fibrous web (1), in particular a paper, cardboard or tissue web, wherein the press belt (7, 7.1, 7.2) has an elastomer matrix with embedded reinforcing threads (11.1, 11.2), wherein there are two different filler materials at least in one part of the elastomer matrix (12, 12.1, 12.2), wherein one filler material consists of a powder and the other filler material consists of microfibers, and wherein the percentage by weight of the entire filler material, in relation to the matrix, lies between 0.1% and 30%, preferably between 1% and 10%.

Description

Press belt for shoe press device

The invention relates to a press belt for a shoe press device for dewatering or smoothing a fibrous web, in particular a paper, board or tissue web, wherein the press belt has an elastomer matrix with embedded reinforcing threads.

The press belt runs together with a fibrous web through a shoe press nip, which is formed between a stationary pressing element, the so-called press shoe, and a cylindrical counter-roller. The press shoe is supported on a fixed yoke and is hydraulically pressed against the counter roll. In addition to the fibrous web and the press belt, one or more endlessly circulating felts and / or further endlessly circulating press belts can be guided through the press nip.

The press belt can be designed as a press jacket of the shoe press roll, that is, it is held as a closed shell of two side clamping disks and rotates about the stationary press shoe. In order to reduce the friction of the press belt on the press shoe, oil is applied to the inside of the press belt for lubrication. Instead of the guide through the two side clamping disks, the press belt, as is the case with open shoe presses, can be guided over the press shoe and a plurality of guide rollers. The surface of the press jackets is often provided with grooves and / or blind holes. The press belt can also be designed as a transfer belt, which is guided between the fibrous web and the mantle of the counter-roller as an endlessly circulating belt in order to transport the fibrous web through the shoe press nip. The fibrous web is then removed after the shoe press nip using a suction roll from the press belt, taken on another fabric and fed to the following machine group. That is, the surface of the transfer belt must have sufficient adhesion to the fibrous web to guide it safely, and must have a good smoothness and a low tendency Markmark to sit. On the other hand, it must also be designed so that the fibrous web can be pulled off again.

Due to the high pressing forces, the high dwell time and the strong alternating bending in the shoe press nip, the press belts are subjected to particularly high loads. In order to ensure reliable production in the production of the fibrous web, the press belts must achieve a safe lifetime of several months. From DE 197 02 138 A1 is known, a press cover with embedded particles, e.g. made of rock flour or ceramic or carbon-based, harder and more wear-resistant. DE 44 1 1 620 A1 proposes to provide only an outer layer of the press jacket with embedded wear-resistant particles.

And from DE 196 49 647 A1 it is known foreign particles, e.g. Stone or ceramic flour, to embed in the press cover so that they form part of the surface and roughen it. This should enable a better detachment of the web.

In DE 10 2005 039 301 A1 a transfer belt with grooves on the inside is described.

However, crack propagation, which is particularly critical in press belts with grooves or blind bores, can not be reduced or even worsened by such additions. Likewise, the hardness decrease after water or oil storage is not improved. In the shoe press nip the press belt is heavily loaded on alternating bending, so it needs a good flexibility and high bending fatigue strength, but at the same time it should also have sufficient hardness. So far only a compromise between the different important characteristics is possible. On the other hand, the ever increasing speed with which shoe presses are used increases the demands. The object of the invention is to further develop a press belt for a shoe pressing device so that it not only has a higher abrasion resistance but at the same time also improved properties in terms of crack growth, flexibility, swelling resistance and oil and chemical resistance.

The object is achieved in that at least in one part of the elastomer matrix of the press belt, two different fillers are present, one filler consists of pulverulent filler and the other filler consists of microfibers and wherein the weight fraction of the total filler based on the corresponding Part of the matrix containing the two fillers is between 0.1% and 30%, preferably between 1% and 10%.

Only through the targeted and coordinated addition of powder and microfibers was it possible to achieve a synergistic effect which would allow the desired combination of properties and was unexpected. Experiments have shown that a significant reduction in abrasion, a significant reduction in crack growth and better groove stability with improved hardness after water or oil storage can be achieved. Furthermore, by the inventive combination of fillers and the risk of delamination can be reduced, which consists in the previously known embodiments with fillers due to a poor connection of the elastomer matrix to the reinforcing threads.

Thus, the press belt according to the invention is suitable both for the embodiment as a press jacket, which is guided in direct contact over an oil-lubricated, standing press shoe, as well as for the execution as a transfer belt, which comes directly in contact with the fibrous web. Within the filler combination according to the invention, further optimization possibilities arise in order to best set the properties with regard to the respectively specific requirements.

In particular, inorganic powder is suitable as pulverulent filler, with carbon black hereby being explicitly regarded as inorganic. Preferably, one filler essentially consists of carbon black or glass powder and the other filler consists essentially of glass fibers or carbon fibers. As a result, particularly good property combinations are achieved and at the same time not too high raw material costs caused.

It is advantageous if the mixing ratio between the one powdery and the other microfiber filler is between 10:90 and 90:10, preferably between 75:25 and 25:75. In this mixing area, the necessary properties can be achieved and optimized for specific requirements. A preferred filler admixture with which very good properties, in particular with regard to abrasion and crack growth, are achieved, consists for example of 2% carbon black and 2% glass fiber (based on the elastomer matrix). Furthermore, it is advantageous for the adjustability of the properties if the microfibers, in particular the glass fibers or carbon fibers, have a length between 10 and 500 μm, preferably between 50 and 300 μm. As a result, they can be incorporated well into the elastomer matrix without forming impurities for strength or limiting flexibility, but are long enough to achieve the desired improvement.

The nominal filament diameter of the microfibers, in particular of the glass fibers or carbon fibers, should be between 1 and 50 μm, preferably between 5 and 20 μm. This also helps them to integrate better.

The properties of the press belt can be further improved if the specific surface of the pulverulent filler, in particular the glass powder or the carbon black, is between 10 and 1500 m ² / g, preferably between 100 and 1000 m ² / g. As a result, inter alia, the swelling in water or oil and the abrasion resistance can be controlled.

In order to improve the incorporation of the fillers, it is good if at least one of the two different fillers is mixed before being mixed into the elastomer mat. Rix was surface-treated, in particular with silane or titanate or functional polymer or reactive gas, so that the filler can form covalent bonds to the elastomer matrix. The elastomer matrix is preferably formed substantially from polyurethane or substantially from elastic epoxides. The elastomers mentioned offer good basic properties for the press belt, inter alia with respect to the compression behavior and can be processed well together with the fillers, in particular, for example, pour. The elastomer matrix, in particular if it is formed from polyurethane, can also be designed as a foam, ie with embedded gas bubbles.

In order to achieve a sufficient basic strength in both the machine and in the transverse direction, the reinforcing threads may be formed as a scrim or fabric, with threads in the circumferential direction and in the transverse direction. In particular, the reinforcing threads may be completely embedded in the elastomeric matrix so as not to be worn.

For a simple production of the press belts, it may be advantageous if distributed in the entire elastomer matrix two different fillers. However, it can also be advantageous if the elastomer matrix has a plurality of layers, in particular two layers, and, for example, only one of the layers, in particular the outer layer, contains two different fillers, while the other layer (s) only contains one filler , preferably glass powder or carbon black, or contains no filler at all. Thus, for example, the outer layer can be optimized for crack growth and hardness while optimizing the inner layer for oil resistance and abrasion.

The press belt can also only in strip-shaped areas along the circumference, in particular in the region of the lateral edges, contain two different fillers, wherein between the strips areas with only one filler or without filler are present. As a result, it is possible to meet particularly high requirements, for example in the area of press-shoe edges. The filler combinations have a particularly positive effect on press belts which have depressions, in particular grooves and / or blind bores, on the inside or outside. This allows a significantly longer life of the press belts and a high groove stability can be achieved in Schuhpressnip.

On the basis of preferred embodiments, further advantageous features of the invention will be explained with reference to the drawings. they show

in Fig.1a the cross section of a preferred embodiment of the press belt according to the invention

in Figure 1 b shows the cross section of another preferred embodiment of the press belt according to the invention

in Figure 2, the top view of yet another preferred embodiment of the press belt according to the invention

in Figure 3, a shoe pressing device with an inventive

Press belt as a press cover

in Figure 4, a further shoe pressing device with an inventive

Press belt as a press cover and an inventive

Press belt as transfer belt

The figures are described in more detail below.

The cross-section in Fig.1a shows a press belt 7 according to the invention, as it can be used as a press cover or as a transfer belt. The reinforcing threads 1 1 .1, 1 1 .2 give the necessary tensile strength in the transverse direction and in the circumferential direction. In the entire elastomer matrix 12, which surrounds the reinforcing threads, the two different fillers are largely evenly distributed. In Figure 1 b, however, the elastomer matrix of the press belt 7 according to the invention is constructed in two layers. The layer 12.1 on the outside 14 contains two different fillers, wherein the proportion by weight of the fillers in the layer 12.1 is between 0.1% and 30%, preferably between 1% and 10%. The location 13 of Elastomeric matrix contains only one filler, for example carbon black in a proportion of between 1% and 10%, preferably between 4% and 6%, or it contains no filler. Shown is that the reinforcing threads 1 1 .1, 1 1 .2 is embedded in the layer 13 with or without filler. This can have the advantage that the elastomer matrix is better connected to the reinforcing threads. Alternatively, the press belt can also be designed so that the reinforcing threads are embedded in part or in the entire position 12.1 with two fillers. Furthermore, even more layers can be provided. 2 shows a plan view of a press belt 7 according to the invention which has strip-shaped regions 12.2 with two different fillers, the strip-shaped regions extending in the circumferential direction and in particular continuously over the entire circumference. In between lies a region 13.1 which contains only one filler or no filler. The arrow indicates the circumferential direction and thus also the machine direction. The strip-shaped regions 12.2 may also, unlike the illustrated, extend continuously to the lateral edge of the press belt. There may also be more than two strip-shaped areas with two different fillers and, accordingly, between them also several areas with one or no filler. The strip-shaped regions can be present either over the entire thickness of the press belt or, in the case of a multilayer construction, only on the inside or outside. By such an embodiment, the press belt in specific areas can be adapted to the specific requirements with respect to abrasion and strength, for example, at the lateral edge of the press shoe or at the edge of the fibrous web.

FIG. 3 shows a shoe pressing device 10 with a closed shoe press roll 2, in which a press belt according to the invention can be used as a press cover 7.1. The shoe press nip is formed between the shoe press roll 2 and the counter roll 3. The stationary press shoe 4 presses the rotating press cover 7.1 in the direction of the counter roll 2. The fibrous web 1 is passed between two felts 5, 6 through the shoe press nip. In most cases, the press belts, which are used as a press cover, have on the outside in the form of grooves and / or blind holes in order to absorb the water pressed out in the nip.

In other, similar embodiments, the fibrous web can be performed only with a felt or without felt through the Schuhpressnip. For this purpose, smooth press belts without recesses are then used. Such shoe press devices can be used for dewatering and / or smoothing the fibrous web. 4 shows a further shoe pressing device 10, in which a press belt can be used as a press cover 7.1 and / or a press belt as a transfer belt 7.2. The fibrous web is not guided here between two felts but between a felt 5 and a transfer belt 7.2 through the shoe press nip. The transfer belt comes directly into contact with the fibrous web 1 and must transport it safely until a transfer, not shown, for example, up to a suction roll, which takes over the fibrous web 1 to a covering of the following machine group.

LIST OF REFERENCE NUMBERS

1 fibrous web

2 shoe press roll

3 mating roll

4 press shoe

5, 6 felt

7 press belt

7.1 Press belt designed as a press cover

7.2 Press belt designed as a transfer belt

8 suction roll

9 guide rollers

10 shoe press device

1 1 .1, 1 1 .2 reinforcing threads

12, 12.1, 12.2 Area of the elastomer matrix with two different ones

fillers

13, 13.1 Area of the elastomer matrix with only one or no

filler

14 outside of the press belt

Claims

claims

1 . Press belt (7,7.1, 7.2) for a shoe press device (10) for dewatering or smoothing a fibrous web (1), in particular a paper, board, or tissue web, wherein the press belt (7,7.1, 7.2) with an elastomer matrix having embedded reinforcing threads (1 1 .1, 1 1 .2),

characterized,

in that at least one part of the elastomer matrix (12, 12.1, 12.2) contains two different fillers, one filler consisting of a pulverulent filler and the other filler consisting of microfibers and wherein the weight fraction of the total filler relative to the matrix ( 12, 12.1, 12.2) is between 0.1% and 30%, preferably between 1% and 10%.

2. Press belt (7,7.1, 7.2) according to claim 1

characterized,

in that one filler consists essentially of carbon black or glass powder and the other filler essentially consists of glass fibers or carbon fibers.

3. Press belt (7,7.1, 7.2) according to one of the preceding claims

characterized,

the mixing ratio between the one and the other filler is between 10:90 and 90:10, preferably between 75:25 and 25:75.

4. press belt (7,7.1, 7.2) according to one of the preceding claims

characterized,

that the microfibers, in particular the glass fibers or carbon fibers, have a length of between 10 and 500 μm, preferably between 50 and 300 μm.

5. press belt (7,7.1, 7.2) according to one of the preceding claims

characterized,

the microfibers, in particular the glass fibers or carbon fibers, have a nominal filament diameter between 1 and 50 μm, preferably between 5 and 20 μm.

6. Press belt (7,7.1, 7.2) according to one of the preceding claims, characterized

the specific surface area of the pulverulent filler, in particular of the glass powder or of the carbon black, is between 10 and 1500 m ² / g, preferably between 100 and 1000 m ² / g.

7. press belt (7,7.1, 7.2) according to one of the preceding claims

characterized,

the elastomer matrix (12, 12.1, 12.2, 13, 13.1) is essentially formed from polyurethane or substantially from elastic epoxides.

8. press belt (7,7.1, 7.2) according to one of the preceding claims

characterized,

that in the entire elastomer matrix (12) distributed two different fillers are present.

9. press belt (7,7.1, 7.2) according to one of claims 1 to 7

characterized,

the elastomer matrix has a plurality of layers, in particular two layers (12.1, 13).

10. press belt (7,7.1, 7.2) according to claim 9

characterized,

that only one of the layers (12.1), in particular the outer layer, contains two different fillers, while the other layer (s) (13) contains only one filler, preferably glass powder or carbon black, or no filler at all.

1 1. Press belt (7,7.1, 7.2) according to one of the preceding claims

characterized,

the press belt (7, 7, 1, 7.2) contains two different fillers only in strip-shaped regions (12.2) along the circumference, in particular in the region of the lateral edges, regions (13.1) with only one filler or without filler being present between the strips are.

12. Press belt (7,7.1, 7.2) according to one of the preceding claims, characterized

the press belt (7, 7, 1, 7.2) has depressions, in particular grooves and / or blind bores, on the inside or outside.

13. Press belt (7,7.1, 7.2) according to one of the preceding claims

characterized,

in that the reinforcing threads (1, 1, 1, 1, 1, 2) are in the form of a scrim or fabric, with threads in the circumferential direction and in the transverse direction.

14. Press belt (7,7.1, 7.2) according to one of the preceding claims

characterized,

in that the reinforcing threads (11.1, 11.2) are completely embedded in the elastomer matrix (12, 12.1, 12.2, 13, 13.1).

15. Press belt (7,7.1, 7.2) according to one of the preceding claims

characterized,

in that at least one of the two different fillers has been surface-treated before being mixed into the elastomer matrix (12, 12.1, 12.2), in particular with silane or titanate or functional polymer or reactive gas.