EP1813717A1 - Conveyor belt - Google Patents

Abstract

The transport belt (10) has a belt core (12) and a web material e.g. paper, contact layer (18) carried by the belt core. The web material contact layer has a structured surface for contacting a product to be produced or processed, where the material contact layer has a hardness greater than a hardness of the belt core. The material contact layer is non-compressible under compressive loads arising during paper producing/processing operations, where the contact layer is constructed from a hydrophilic material e.g. epoxide resin. An independent claim is also included for a method of making paper, paperboard and paper product.

Description

The present invention relates to a conveyor belt, such as may be used in machines, with which paper, cardboard or the like is manufactured or processed.

From the EP 0 576 115 A1 a conveyor belt is known, with which the paper layer is transported through various processing stations in the papermaking process. This known conveyor belt is formed with a core area providing the support structure of the belt, in the inner structure of which fiber material is present, for example in the manner of a woven fabric. At a provided for contacting the paper side, a coating of elastic material is provided. This coating is structured on its surface, with which the paper is also contacted, for example by carrying out an abrading process. This structuring, in conjunction with the comparatively elastic material chosen for this coating, means that, when this transport belt carrying a paper web is moved through the press nip formed between two transporting or press rolls and is subjected to a line load, the coating is compressed and a more or less smooth surface is provided at the interface with the paper. The consequence of this is that between the paper and the coating or the conveyor belt, a water film not interrupted by the roughness of the coating is formed from the water emerging from the paper. In the areas in which the paper web and the conveyor belt are separated, the elasticity of the surface roughness providing coating, the unloaded state existing roughness can be recovered, with the result that the first still more or less continuous water film is interrupted and an unwanted adhesion effect between the conveyor belt and the paper web can be avoided.

It is the object of the present invention to provide a conveyor belt, in particular for machines for the production or processing of web material, such as e.g. Paper, with which the operation of the processing or the manufacture of such web material is improved improved feasible.

According to the invention, this object is achieved by a conveyor belt, in particular for machines for producing / processing web material, such as e.g. A paper or board comprising a ribbon core and on at least one side of the ribbon core a sheet material contact layer providing a patterned surface for contacting paper to be made, the sheet material contact layer having a greater hardness than the ribbon core and / or the sheet contacting layer Carrier material of the ribbon core.

Turning away from the conveyor belt known from the prior art, the present invention makes the way to make the region with which the conveyor belt contacts the web material to be produced or processed comparatively hard. The consequence of this is that even where large pressures or stresses occur in the machining process, the structuring provided in the web material contact layer remains essentially unchanged, this web material contact layer is therefore essentially not compressed. This has the consequence that due to the structuring provided in this web material contact layer or in the adjoining region to the web material to be produced recesses or depressions are retained, which can absorb the liquid emerging from this web material, so for example water. In those areas where the web material and the conveyor belt are separated again, the risk that from the web material by the pressure load previously leaked liquid is taken up again in the web material, reduced, since this liquid is still contained in the depressions of the conveyor belt and is taken away by this. The risk of a sticking effect generated by a continuous film of water is virtually eliminated since the formation of a continuous water film is avoided by the structuring of the web material contact layer, which is also present under pressure.

In order to maintain the structuring of the web material contact layer even with comparatively large pressure loads, it is proposed that this has a hardness of at least 97 Shore A.

Furthermore, it is proposed that the web material contact layer is constructed with hydrophilic material for the most uniform possible wetting and liquid absorption. This is preferably polymeric material, e.g. Epoxy resin.

On the one hand, in order to be able to provide the desired hardness or stiffness in the area contacting the web material, and on the other hand to be able to ensure the required flexibility of such a transport band, it is proposed that the web material contact layer have a thickness in the range of 0.02 mm to 1.5 mm , preferably 0.03 mm to 0.7 mm.

As already stated above, in the conveyor belt according to the invention, the web material contact layer is preferably constructed so that under the pressure loads occurring during machining operations, which in the case of pressing rollers against each other at a line pressure in the range of 20 kN / m to 1700 kN / m, the Web material contact layer is substantially not compressed. This may mean, for example, that the thickness change occurring during compression is less than 10%. Of course, a slight change in thickness of the web material contact layer will also occur in the structure according to the invention by the loads occurring. Nevertheless, this will not lead to the depressions provided by the structuring of the web material contact layer being reduced so far or their receiving volume being reduced to such an extent that the liquid emerging from the web material can no longer or at least substantially no longer be absorbed therein.

The structure of the conveyor belt according to the invention may further be such that the belt core comprises a central region and this at least partially surrounding and / or embedding and the web material contact layer bearing support material. For example, the carrier material may be constructed with polymer material, preferably polyurethane resin. In order to absorb the stresses occurring in the machining process in the conveyor belt and also to be able to distribute it evenly, it will be further suggested that the central region comprises fiber material, preferably fiber fabric.

The ribbon core may, for example, have a thickness in the range of 2 mm to 8 mm.

The present invention will be described below with reference to FIG. 1, which shows a schematic cross-sectional view of a conveyor belt according to the invention.

Fig. 1 shows in cross-section an inventive conveyor belt 10, as it can be used for example in the production of paper webs or other web material, such as cardboard sheets or the like. The conveyor belt 10 comprises a belt core 12, which occupies the substantial thickness range or volume fraction of the conveyor belt 10.

The thickness D of this band core 12 can be in the range of 2 mm to 8 mm, depending on the material to be produced and the operation to be performed. In the center of the band core, for example, a fiber fabric 14 is provided as the basis, which provides structural strength, especially in the plane of the conveyor belt 10. Here preferably polymer fiber material is used. It is of course also possible to use non-woven material, e.g. provide individual fibers, for example in the machine direction or transversely to the machine direction. The fiber material 14 is preferably surrounded on both sides by a carrier material 16 or is embedded in this carrier material 16. This carrier material 16 is preferably relatively soft or elastic polymeric material, such as e.g. Polyurethane. This carrier material 16, in conjunction with the fiber material 14 in the central region of the web core, ensures that despite the required structural strength, the conveyor belt 10 can be guided over rollers and deflected there, thus having the required flexibility.

On at least one side of the ribbon core 12, a contact layer 18 is provided. This contact layer 18 is provided on that side of the belt core 12 which is intended to come into contact with the web material to be processed or produced, for example the paper web. The other side of the belt core 12 is guided over rollers and is therefore designed, for example, by appropriate coating or material selection so that it meets the requirements occurring.

The contact layer 18 substantially completely covers the belt core 12 on its side facing the web material to be processed, ie, that at least that region of the conveyor belt 10 which comes into direct contact with the web material is coated with this contact layer 18. It can already be seen from the basic illustration of FIG. 1 that the contact layer 18 is thinner than the ribbon core 12, for example For example, this contact layer 18 has a thickness d in the range of 0.02 mm to 1.5 mm. FIG. 1 also shows that this contact layer 18 is not smooth or planar at its side 20 coming directly into contact with the web material, but is structured. Structured means that there are elevation areas and depression areas, so that, for example, based on the highest elevation areas, a volume is created by the depressions then formed, in which liquid emerging from the web material to be processed or produced, such as water, is taken up during the processing operation can. In order to be able to ensure or maintain this ability to exude liquid emerging from the web material during the machining process, the contact layer 18 is constructed with a material which is essentially incompressible even under the pressure loads that occur. This pressure load, which occurs, for example, in the nip between two rolls, can be in the range from 20 kN / m to 1,700 kN / m, based on a line force. In this area of force, the contact layer 18 should thus be essentially non-compliant, which means in the context of the present invention that the volume change or the change in thickness of the contact layer 18 should be less than 10% in the case of the pressure load to be applied. Accordingly, the volume provided for receiving liquid will change only slightly at these pressure loads.

In order to provide this behavior, which is incompressible for the purposes of the present invention, the contact layer 18 can be constructed, for example, from epoxy resin. This material is harder than the substrate 16 and preferably has a Shore A hardness of at least 97. Next, the ability to dissipate from the layer to be processed the web material exiting liquid with the conveyor belt according to the invention thereby improved that hydrophilic material is used for the contact layer 18, resulting in the most uniform possible wetting and entrainment of the liquid during separation of the conveyor belt Railway material supported.

It goes without saying that, by configuring the contact layer 18 and also the band core 12 and, above all, also by the material selection, the behavior can be influenced in principle. Thus, depending on requirements, the belt core 12 and the contact layer 18 for liquid or / and air permeable or else be configured impermeable. Also building material can be used, the material properties, in particular elasticity or hardness, are temperature-dependent and thus can be influenced by temperature variation of the conveyor belt.

Claims (10)

Conveyor belt, in particular for machines for the production / processing of web material, e.g. A paper or board comprising a belt core (12) and on at least one side of the belt core (12) a web material contact layer (18) providing a structured surface (20) for contacting paper to be processed, the web material contact layer (18) has a greater hardness than the belt core (12) or / and the web material contact layer bearing support material (16) of the ribbon core (12). Conveyor belt according to claim 1,
characterized in that the web material contact layer (18) has a hardness of at least 97 Shore A. Conveyor belt according to claim 1 or 2,
characterized in that the web material contact layer (18) is constructed with hydrophilic material. Conveyor belt according to one of claims 1 to 3,
characterized in that the web material contact layer (18) is constructed with polymer material, preferably epoxy resin. Conveyor belt according to one of claims 1 to 4,
characterized in that the web material contact layer (18) has a thickness (d) in the range of 0.02 mm to 1.5 mm, preferably 0.03 mm to 0.7 mm. Conveyor belt according to one of claims 1 to 5,
characterized in that the web material contact layer (18) is substantially uncompressible in the pressure loads encountered in papermaking / processing operations. Conveyor belt according to one of claims 1 to 6,
characterized in that the belt core (12) comprises a central region (14) and this at least partially surrounding and / or embedding and the web material contact layer (18) supporting the carrier material (16). Conveyor belt according to claim 7,
characterized in that the carrier material (16) is constructed with polymer material, preferably polyurethane resin. Conveyor belt according to claim 7 or 8,
characterized in that the central region (14) comprises fiber material, preferably fibrous tissue. Conveyor belt according to one of claims 7 to 9,
characterized in that the ribbon core (12) has a thickness in the range of 2 mm to 8 mm.

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