EP2984226A1

EP2984226A1 - Fabric for a machine for producing web material

Info

Publication number: EP2984226A1
Application number: EP14716565.8A
Authority: EP
Inventors: Antony Morton; Andrew Allum; David Stuart Ponton; Paul Raymond Riding
Original assignee: Voith Patent GmbH
Current assignee: Voith Patent GmbH
Priority date: 2013-04-10
Filing date: 2014-04-09
Publication date: 2016-02-17
Also published as: CN105229226B; WO2014166984A1; US20160053436A1; CN105229226A

Abstract

A fabric (1) for a machine for producing web material, in particular paper, cardboard, tissue, film, a nonwoven product or a composite product, has a base fabric (2) and at least two pattern components (3, 4) which are applied to the base fabric (2). A cross-sectional shape of the first pattern component (3) and a cross-sectional shape of the at least one further pattern component (4) are different.

Description

Covering for a machine for the production of web material

The invention is based on a covering for a machine for the production of web material, such as e.g. Paper, cardboard, tissue, film, a nonwoven product or a composite product according to the preamble of claim 1.

Such a fabric, e.g. can be used as a forming fabric in a paper machine, is known from EP 1 690 981 A1. In this known papermachine fabric, a pattern of polymer material is applied to a support structure formed, for example, as a fabric in a screen printing process by means of a rotary screen. The pattern can be applied to the support fabric with substantially any desired configuration so as to generate a surface structuring on one side of the papermachine fabric produced in this way, which is evident in papermaking with a corresponding topography in the produced paper.

EP 1 690 982 A1 discloses a method for applying a pattern to a papermachine fabric, in which a polymer material forming the pattern is dispensed from an extrusion head in an extrusion process and thus applied to the surface of, for example, a fabric-like support structure. The extrusion head can be moved as desired over the surface of the support structure.

Furthermore, from US2008 / 0991701A a covering for a paper machine is known, in which a basic structure is printed several times with a polymer structure, wherein a first polymer layer has a lattice-like structure and a second polymer layer largely occupies the recesses in the lattice-like first layer and thereby the first layer partially overlaid. The production of such structures is characterized by full-surface application of a polymer on the surface of the basic structure, covering with a mask, irradiation with light of a certain wavelength and thereby curing the not covered areas and subsequent removal of the uncured polymer components achieved.

From US7624765B there is known a continuous papermachine woven papermachine fabric having a three-dimensional weave pattern having a structure having height differences of 0.2 mm or more in the z direction. The fabric has decorative elements surrounded by highlighting areas, the decorative elements being surrounded by the three-dimensional weave pattern of the fabric and having a lower height than the weave pattern structure. The weave pattern represents a textured background surface which is the predominant contact surface of the fabric to the paper web.

A disadvantage of known clothing is that the patterns that can be produced in this way may indeed fulfill their decorative purpose, for example by producing an aesthetic impression in the finished product, but the physical properties of clothing and product can not be adequately influenced by only one sample component. It is thus desirable, e.g. produce different shaped patterns that fulfill different functions. Although in many cases combinations of patterns can be produced by the above-mentioned methods, the patterns are all produced in the same way and the pattern order thus has the same cross-sectional shapes in all components due to the same application method. It is thus not possible to form individual pattern components with different cross sections, so that it is also not possible to specifically configure different pattern components for different tasks in the clothing.

If different patterns are generated by a specific design of the basic structure by a weave pattern and a subsequent printing with a polymer, the method is characterized by a high expenditure and thus also high costs. It is therefore an object of the present invention to provide a simple to produce fabric, which has pattern components that allow to influence the physical and aesthetic properties of the fabric targeted.

The object is achieved by the characterizing features of claim 1 in combination with the generic features. According to the invention, it is provided that a cross-sectional shape of a first pattern component and a cross-sectional shape of at least one further pattern component are different. As a result, for example, aesthetic motifs can be strongly and clearly highlighted and surrounded by a softer drawn and less prominent background. Coarse patterns for physical modeling of drainage parameters can be combined with fine patterns for an optically and haptically pleasing finish of the final product. The physical and aesthetic properties of the individual sample components can thus be varied and adjusted independently of each other in order to impress the finished product with different patterns and thus also to model the physical and aesthetic properties of the finished product. Furthermore, it is possible to model the properties of the fabric with respect to their behavior during the production of the fiber web and thereby to support dynamic processes. Further advantageous aspects and developments of the invention will become apparent from the dependent claims.

According to a preferred embodiment of the invention can be provided that the cross-sectional shape of the pattern components is angular, in particular rectangular or square, or rounded, in particular at least partially circular or oval. This allows either soft or hard-protruding structures in the Fiber web are generated, which help to influence the aesthetic and physical properties.

Preferably, an overall shape of the pattern components may be selected from: drops, beads, lines, lattice structures, contiguous or non-contiguous elements.

Advantageously, it can be provided that the pattern components touch each other depending on the requirement profile, intersect or are isolated from one another.

Advantageously, it can be provided that the first pattern component consists of a first material and the at least one further pattern component consists of a second material, wherein the first and the second material may be the same or different. If different requirements are placed on the sample components, it may be advantageous if one of the materials is harder or softer, more abrasion resistant, smoother or rougher than the other.

Preferably, the material may contain or consist of the sample components: amide, ester, silicone, urethane.

According to preferred aspects of the invention, the dimensioning of the pattern components may be at a height of 0 to 10 mm above the base structure, in a width of 0.1 to 10 mm, and of 0.1 mm to any length. Particularly preferably, the dimensioning of the pattern components may be the same or different. The variety of patterns and the exact setting of the desired physical, in particular dynamic parameters of the clothing and any design of the final product are therefore no limits. The order of the sample components can be made on one or both sides of the basic structure depending on the application. Likewise, a combination with others Components are made, for example, to produce a press felt when the basic structure is finished printed.

The order of the sample components can be done in a simple manner by known per se application method such as extrusion, coating by rolling, spraying, knife coating or screen printing.

According to advantageous embodiment variants of the invention, the basic structure may be in the form of a woven fabric, a scrim, a knitted fabric, a spiral wire, a spiral structure or films as a seam-like fabric or endless strip.

The invention will be described in more detail below by way of example with reference to the figures without limiting the generality. In the figures show:

Fig. 1 is a highly schematic plan view of an inventive

Covering, and

Fig. 2 is a highly schematic cross-sectional view of an inventively designed fabric.

1 shows in a highly schematic view a plan view of a covering 1 which is particularly suitable for use in a machine for producing a fibrous web such as a paper, board, tissue or foil machine and in a machine for producing a nonwoven web. Product or a composite product is suitable. In Fig. 2, such a fabric 1 is shown in a highly schematic sectional view.

In such a machine, a plurality of clothing 1 are usually provided, which fulfill different tasks depending on their position. In the forming section, for example, a covering 1 serves as a forming fabric and thus the initial dewatering of the sprayed onto the forming fabric or in one Twin-wire former between two forming fabrics injected fiber suspension and the orientation of the fibers in the young fiber web. In the subsequent press section, coverings 1 are provided as press felts for further drainage, which should have a high water absorption capacity, good resilience, smooth contact surfaces to the fiber web and low tendency to rewet. In the dryer section, the fabric 1 is often designed as a dryer fabric in the form of a spiral structure and is characterized by a high temperature resistance with high vapor permeability. Cloths 1 are also often used to introduce a decorative pattern in the fibrous web, which represents today's standard, especially in the field of sanitary papers. The patterns have both aesthetic and the properties of the paper web influencing characteristics, such as the grip of the surface, the layer thickness, etc.

The individual features are often designed so that a decorative, often personalized pattern is desirable, but this can not meet the demands made on the physical properties of the fiber web. It was thus previously necessary to subject the fabric 1 at least two separate steps in order to produce at least two patterns in / on the respective fabric. For example, it is possible, as mentioned above, to produce a three-dimensional structure in the production of a basic structure 2 of the covering 1 and then to superimpose this structure by a pattern, for example printed on at least one surface of the covering 1. The structure of the basic structure 2 can be produced by fixed weave patterns, while the printed pattern is applied eg by a screen printing process. In particular, the weaving of such basic structures 2 is a very complex process, which is also still very limited in its variety of patterns. It can be due to the nature of weaving only the machine direction, the cross machine direction and diagonals are included in the pattern, an arbitrary pattern choice and a targeted intervention in the property profile of the fabric 1 are therefore not possible. According to the invention, it is therefore proposed to provide the basic structure 2 with at least two pattern components 3, 4 which have different cross-sectional shapes and thus produce different effects with regard to the aesthetic appearance and the physical property profile of both the covering 1 and the finished product.

Any base fabric such as woven fabric, scrim, knitted fabric, spiral fabrics, spiral structures and also films can be used as basic structure 2. The basic structure 2 may be in flat form with the possibility of stitching or endless belt. The permeability to liquids and gases is to be selected in view of the intended use of the covering 1. The basic structure 2 can subsequently be provided with additional components, not illustrated in more detail in the figures, such as staple fiber layers, films, nonwoven reinforcing structures or coatings on one or both sides and other components adapting the clothing 2 to the conditions, such as e.g. Impregnations are combined.

Several, at least two pattern components 3, 4 are applied to the basic structure 2 by any desired application methods such as extrusion (in the form of drops, lines, films, etc.), coating (by rolling, spraying, knife coating) or screen printing. The order can be made on one or both sides of the basic structure 2.

The pattern components 3, 4 may consist of the same or of different materials. It can be provided individual polymer types or even more specifically selected polymer groups / classes. The choice of materials can be made both microscopically and macroscopically according to the requirements of stability, dimensioning, smoothness, coefficient of friction, elasticity, open area, open volume, gas and liquid permeability or transportability for gas and liquid etc. of the individual sample components 3, 4 respectively. Examples of suitable materials are amides, esters, silicones and urethanes and any combinations thereof.

As is apparent from FIGS. 1 and 2, the two pattern components 3, 4 are provided in the embodiment both with different shapes and with different cross-sections. The first pattern component 3 is in the form of elongated structures having a polygonal cross-section, while the second pattern component 4 is in the form of roundish structures having a substantially convexly rounded cross-sectional shape.

The formation of these differently shaped pattern components 3, 4 can be accomplished, for example, by extruding a relatively hard and fast curing polymer from a suitably shaped die for the first pattern component 3 and dropping a more liquid and thus stronger polymer from a differently shaped die for the second Pattern component 4 done.

In the illustrated embodiment, a fine and detailed background structure is produced in the finished product by the second pattern component 4 by means of low height above the basic structure and soft rounded shapes. The background structure of the product is generated by mechanical influences such as hydraulic pressure and fiber distribution in the fiber suspension and later in the finished product. On the other hand, the first pattern component 3 is higher above the basic structure 2 and can thereby convey a higher topography combined with a higher functionality. The resulting advantages are to be seen in particular in the optimization of the liquid discharge or the liquid transport during the dynamic shaping of the end product. Conversely, this higher and coarser structure can serve as reinforcement of the basic structure 2. Thus, the base structure 2 supports the pattern component 3 while making the fabric 1 a higher liquid receiving volume. The latter is an important one Parameter in the evaluation of the dynamic properties of the fabric 1. Mass and gas flow rates are good examples of the dynamic state that can be influenced here, as seen in the liquid migration or evaporation drying process, for example.

Further advantages of the stronger topography of the first sample component 3 can be seen in the three-dimensionality of the end product. Depending on the specific application of the fabric 1, in particular from the time of embossing in the fiber web during their production, the three-dimensionality may be semi-permanent (similar to embossing) or permanent and thus a feature of the finished fiber web. The latter can be done in particular during the last manufacturing steps such as drying or curing of the final product.

A further advantageous aspect of the high topography of the first pattern component 3 can be seen in the ease with which the fabric 1 is drawn into the fiber web machine. The fact that fewer contact points are present and can be lowered by a suitable selection of the first pattern component 3 forming material, the friction coefficient of the support points, it is easier and safer for the staff to collect and dismantle the fabric 1.

With respect to the dimensions of the sample components 3, 4 reference is made to common orders of magnitude, which in the range of 0 to 10mm in height above the fabric 1, from 0.1 to 10mm in width and any length for the first pattern component 3 in the illustrated Embodiment may amount. The rounding in the embodiment forms of the second pattern component 4 may have similar dimensions with the same or similar extent in all directions. It is conceivable and possible, in the exemplary embodiment illustrated two pattern components 3, 4 further not shown sample components with other identical or different cross-sectional shapes, from the same or add different polymers in the same or different dimensions.

The invention is not limited to the illustrated embodiments. In particular, combinations of the features are possible and conceivable.

Claims

claims

1 . Covering (1) for a machine for producing web material, in particular paper, cardboard, tissue, film, a nonwoven product or a composite product, wherein the covering (1) has a basic structure (2) and at least two on the basic structure (2 ) has applied pattern components (3, 4), characterized in that a cross-sectional shape of the first pattern component (3) and a cross-sectional shape of the at least one further pattern component (4) are different.

2. covering according to claim 1, characterized in that the

Cross-sectional shape of the pattern components (3, 4) angular, in particular rectangular or square, or rounded, in particular at least partially circular or oval.

3. covering according to claim 1 or 2, characterized in that an overall shape of the pattern components (3, 4) is selected from: drops, beads, lines, lattice structures, contiguous or non-contiguous elements.

4. Covering according to one of claims 1 to 3, characterized in that the pattern components (3, 4) touch, intersect or are isolated from each other.

5. Covering according to one of claims 1 to 4, characterized in that the first pattern component (3) and the at least one further pattern component (4) are formed of the same or different materials.

6. covering according to claim 5, characterized in that the material of the at least two pattern components (3, 4) contains or consists of: amide, Esther, silicone, urethane.

7. covering according to one of claims 1 to 6, characterized in that the dimensioning of the pattern components (3, 4) at a height of 0 to 10mm above the base structure (2), in a width of 0.1 to 10mm and from 0 1 mm up to any length.

8. covering according to claim 7, characterized in that the

Dimensioning of the pattern components (3, 4) is the same or different.

9. covering according to one of claims 1 to 8, characterized in that the order of the pattern components (3, 4) takes place on one or both sides of the basic structure.

10. Covering according to one of claims 1 to 9, characterized in that the order of the pattern components (3, 4) by application methods such as extrusion, coating by rolling, spraying, knife coating or screen printing.

1 1. Covering according to one of claims 1 to 10, characterized in that the basic structure (2) is present as a woven fabric, scrim, knitted fabric, spiral screen, spiralized structure or films as a seam or endless belt.