DE102016105046A1 - Plate-shaped component - Google Patents

Abstract

The invention relates to a plate-shaped component, in particular a floor panel, comprising an upper layer, which is arranged on the upper side on a carrier layer. The upper layer consists of a mixture of fibrous and / or pulverulent wood material, binders and color pigments, which is pressed under the effect of temperature and pressure. The carrier layer is formed on the basis of polyurethane.

Description

The invention relates to a plate-shaped component, in particular a floor panel.

Surface coverings, especially in the form of floor coverings, are available in a wide variety of embodiments. Widely used are plate-shaped components, in particular floor panels in the form of laminate or parquet, with carrier plates of compacted fibers. Resilient floor coverings are known in the form of PVC coverings, linoleum coverings or as cork coverings.

Floor, wall or ceiling panels and similar fabrics or moldings are known in the art, inter alia by the DE 10 2013 113 478 A1 , the DE 10 2009 000 717 A1 , the EP 2 523 804 B1 , the DE 10 2005 061 222 A1 or even the DE 30 05 707 A1 known.

The DE 10 2013 113 478 A1 discloses a panel having a support plate and a top-side wear layer. The carrier plate consists of a composite material of fibers and a hydraulic binder. The wear layer consists of a natural material-reinforced plastic. The carrier plate and the wear layer are hot-pressed together.

From the DE 10 2009 000 717 A1 is a nature / plastic sheet forth, containing linoxin and natural resin and organic and / or inorganic fillers, which may be applied to a carrier fabric.

By the EP 2 523 804 B1 includes a method of making a wear resistant topsheet of the prior art. For this purpose, a dry powder layer of a mixture of digested fibers, a binder, pigments and wear-resistant particles is applied to a support and then the mixture is cured to a pale-colored, wear-resistant layer using heat and pressure.

In the scope of DE 10 2005 061 222 A1 For example, a molded article containing vegetable fibers is described.

Furthermore, the describes DE 30 05 707 A1 a large-format building board made of composite layers with different thickness and different binder content and a method for their preparation.

Furthermore counts by the EP 2 755 818 B1 a floor covering the state of the art. This has a decorative layer, which consists of a pulp paper, which is impregnated with polyurethane. On the decorative layer, a wear layer is provided. The flooring also has a core and a backing layer. The decorative layer, core and back layer are each made of polyurethane.

Elastic floor coverings are also in the EP 2 907 655 A1 as well as the EP 1 938 963 B2 described.

The invention has for its object to provide a manufacturing and application technology improved plate-shaped component with very good installation and use properties, especially a floor panel show.

The solution to this problem is claimed in claim 1.

Advantageous embodiments of the inventive concept are the subject of the dependent claims.

Thereafter, it is provided that the plate-shaped component has an upper layer and a carrier layer. These are connected in one unit. The upper layer consists of a mixture of fibrous and / or powdered wood material, binders and color pigments, which is pressed under the effect of temperature and pressure.

This top layer is characterized by special properties: it is highly resistant to abrasion, comparable to laminate flooring, but in contrast to such coverings, it can be made more homogeneous in its basic structure and in larger layer thicknesses. In addition, very scratch-resistant and durable like tiles or natural stone coverings, but clearly haptically more pleasant and with body contact / barefoot walking much warmer than tile coverings.

The carrier layer is formed on the basis of polyurethane. The carrier layer thus consists of polyurethane binders (one- or two-component) and fillers or consists for the most part of polyurethane-based binders and fillers. One aspect in this case is the use of two components of a polyurethane and also fillers such as chalk, talc, mineral fillers, optionally also cellulose as fillers, pigments and foaming agents or pore formers. Also provided are additives and stabilizers.

The polyurethane components or polyurethane binders may also at least partially made of recycled products, ie recycled polyurethane and in fiber or cubic form, z. B. as polyurethane foams or fraying chips. Especially useful Polyurethane components, which consist of renewable raw materials, such as polyols from various vegetable oils.

The polyurethane of the carrier layer can be synthesized from an aromatic polyol. These are biogenic polyols, which are obtained from renewable raw materials. It is also possible to produce the polyurethane from an aliphatic polyol.

The carrier layer may also contain, in addition to polyurethane fillers, additives and / or dyes. These are mixed into the carrier material forming the base layer. About the fillers and / or additives the visual properties, in particular their elasticity and strength can be adjusted. Dyes are used to color the backing layer.

The top layer and the carrier layer can initially be manufactured separately and then glued together.

The top layer and the carrier layer can be pressed together. One aspect of the invention provides for the compression of the top layer and carrier layer in a short-cycle press.

An essential aspect of the invention is the upper layer, which is formed from a mixture of fibrous and / or pulverulent wood material, binders and color pigments. This mixture is pressed under the influence of temperature and pressure. The pressing process takes place between a lower press plate and an upper press plate in a heated press. The pressed mixture alone can form the upper layer.

The upper layer is a thermoset processed composite material which is formed from different proportions of fibrous and / or pulverulent wood material and binder in the form of plastics and additives or color pigments. Also thermoplastic raw materials or thermoplastic components may be included in the manufacturing process and embedded / melted in the cured top layer. The mixture of fibrous and / or pulverulent wood material, binders and color pigments is also referred to as a powder mixture in the context of the invention. Wood fibers contained in the powder mixture have a length of up to 500 μm.

The proportion of wood material in the mixture is at least 30%. In particular, the proportion of wood material and or wood-based recyclates in the mixture is over 30%.

In the context of the invention, in particular aminoplastic resins or polyurethanes are used as binders in the top layer. In particular, aminoplasts are advantageous. A practical binder is melamine resin. In addition, besides melamine resins and urea resins, phenolic resins or mixtures thereof are possible. Furthermore, polyurethanes or prepolymers are also well suited as binders.

The mixture can furthermore contain additives, for example effect particles, such as mica, and / or antiabrasive auxiliaries, for example corundum, silicon or porcelain granules, in particular cubic porcelain granules. Thickeners may also be added as additives. As a thickener cellulose can be used.

A further advantageous production of the upper layer provides that the powder mixture is precured before the pressing takes place in the press. Here, a skin formation is generated on the surface of the resting on a functional or stabilizing layer powder mixture. The skin formation can be done by reacting the binder contained in the manner of a fishing or by application of moisture, for example in the form of a water mist and / or by applying heat, for example by IR emitters done. The skin formation fixes the surface as well as color and design. Furthermore, a stirring up of the powder mixture during the pressing process can be avoided.

The upper layer can also be constructed in multiple layers. It is possible that the upper layer has an upper layer and a lower layer. The top layer and the bottom layer of the topsheet differ in thickness and / or composition. The upper layer and the lower layer may have different resin contents, dyes or filler degrees, in particular different proportions of wood particles.

In a particularly advantageous embodiment, the upper layer of the upper layer may be transparent even after the compression.

A functional position can be integrated into the upper class. Such a functional layer may be a veneer, in particular a real wood veneer. As a functional layer, furthermore, a fleece or a fabric layer can be used. The functional layer can form the basis for the composite material of the upper layer. On the functional position, the powder mixture can be sprinkled. Furthermore, the functional layer can function as a decorative top layer of the cover layer.

An advantageous embodiment provides a nonwoven fabric as a functional layer. Particularly advantageously, the nonwoven fabric consists of wood pulp or pulp. In particular, the functional position is carried out in the form of a paper layer or as a flat cellulose fabric or braid. The functional layer may in particular be a kraft paper, in particular an impregnated kraft paper. The kraft paper preferably has an impregnation based on melamine, urea or phenolic resin. In a functional layer made of non-woven fabric, this consists predominantly of pulp fibers, the usual additives such as starch or alum and glue are added. Furthermore, additives, resins and other thermoplastic material components may be contained in the functional layer. It may also consist of the functional layer itself of a thermoplastic material.

The combination of different flat functional layers is possible. The functional position can also be multi-layered.

Veneer functional layers are made of real wood. In special cases, two veneer layers are arranged one above the other. Preferably, the veneer layers are aligned transversely to each other. The veneer sheets have a thickness of 0.3 mm to 0.9 mm. The wood moisture should preferably be less than 14%.

In the case of a nonwoven functional layer, this preferably has a weight per unit area of 80 g / m ² to 500 g / m ² . Particularly advantageously, the nonwoven fabric is impregnated with resins. The functional layer of non-woven fabric and / or kraft paper in this embodiment already has resins, which are melted when pressing the top layer with. During the pressing process, the functional layer, such as veneers, or else an incorporated fleece, is impregnated with the molten powder mixture and impregnated in this process. As a result, a resin layer is also formed on the underside of the functional layer.

An ecological and economically advantageous aspect provides that the wood material is a waste product from the production and / or processing of compacted fiberboard. Fiberboard, in particular highly compressed or medium-density compressed fibreboard, which are used for example in the production of laminate or parquet flooring, are usually profiled edge. The resulting waste products in the form of wood flour come as part of the mixture for the production of the upper layer used.

The plate-shaped component may further comprise a stabilizing layer. In particular, as stabilization layer, nonwovens, lattice or fabric layers are used, which are incorporated into the plate-shaped component. Preferably, the stabilization layer is impregnated with aminoplastic binders. Particularly advantageously, the stabilization layer is integrated or embedded in the carrier layer. The stabilization layer can also be arranged under the carrier layer. In this case, the stabilization layer is applied to the underside of the carrier layer.

The visible surface of a plate-shaped component according to the invention or the upper layer can be processed. In particular, the layer surface is ground, embossed, brushed and / or sealed. Also, a painting of the visible surface is possible.

Furthermore, the visible surface may be printed with a decor and / or be provided with a seal.

The visible surface of the plate-shaped component preferably has different degrees of gloss. Depending on the decor, up to four different degrees of gloss can be provided, for example, the visible side may have a matt finish in depressions and, in contrast, may have more gloss in elevations.

The plate-shaped component has a total thickness of between 3 mm and 10 mm. In particular, the total thickness of the device is between 4 mm to 6 mm.

The basis weight of the device is greater than or equal to (≥) 4.0 kg / m ² . In particular, the basis weight is 5.0 kg / m ² or higher.

For application quantities of the powder mixture from 100 g / m ² to 2,000 g / m ² , layer thicknesses of the top layer are from 0.1 mm to 1.5 mm. Depending on the binder and composition of the binder system, the top layer is extremely hard and resilient or even flexible. Advantageously, elastic properties can also be set. This is advantageous in laying, as well as in use.

The functional properties in terms of elasticity and flexibility and strength of the carrier layer can be adjusted by the polyol content and by the addition of fillers and additives. This is done by adding to the polyurethane starting material. Furthermore, the appearance or the color of the carrier layer can be adjusted by the addition of dyes.

Preferably, the plate-shaped components are configured rectangular or square. For this, the individual elements are separated from a large format plate in individual planks and profiled on the edge. The practical application of the plate-shaped components is improved in that the side edges of the plate body are provided with locking means. The locking means serve for the mechanical coupling of in a surface covering, in particular a floor covering, adjacent laid components. The locking means are designed in particular in the manner of a click system.

A compound of the plate-shaped components via mechanical locking means, in particular a lockable tongue and groove profile has the advantage that a surface covering can be installed floating. A bonding of the components to the ground is not necessary. A surface covering of plate-shaped components according to the invention, for example a floor covering, can be used immediately after installation.

A device according to the invention is waterproof and therefore suitable for wet rooms. Due to the particular construction, increased moisture from fresh screeds also does not cause moisture damage to the device, i. it is not to be expected with swelling damage or material delay. It is also advantageous that the component is elastic and flexible and can be cut with a simple cutting device, for example a cutter knife. This has processing or laying technical advantages. The carrier layer also gives the device impression stability and heat-resistant properties.

A floor covering of plate-shaped components according to the invention is wiederaufnehmbar and reusable. This is advantageous in many fields of application, for example in trade fair or shopfitting for presentation areas and the like.

To produce a plate-shaped component according to the invention, the upper layer and the carrier layer can be manufactured separately from each other and then connected to form a unit. This is preferably done by material bonding, in particular by a surface bonding of the two layers together. This can be done under the influence of pressure and temperature.

Another way of producing a component according to the invention provides for the production of the top layer in a first method step. Here, the mixture of fibrous and / or powdered wood material, binder and color pigments is pressed under the influence of temperature and pressure. Optionally, a functional position can be integrated into the upper layer.

In a further method step, the carrier layer is produced and joined to the top layer. For this purpose, the polyurethane material is applied to the back of the top layer. This can be done for example in liquid or gel or pasty form. The needs-based amount of polyurethane material is applied and evened out. Subsequently, the multilayer body of upper layer and applied polyurethane material goes into the curing phase. This takes place under the influence of heat, for example in a heating device. The heater preferably provides for the use of infrared radiators.

Before curing but also in intermediate stages or after curing, a stabilizing layer can be integrated into the carrier layer or arranged on the underside of the carrier layer. The stabilization layer can therefore be applied to the still pasty layer of polyurethane material before curing. It is also possible to apply the stabilizing layer after a gelling or hardening of the polyurethane material. Finally, it is also possible to apply the stabilization layer only after completion of the curing of the carrier layer or after passage of the intermediate product by the heater. This is expediently carried out immediately after the passage through the heating device, ie before the actual cooling process. In this way, shrinkage, in particular of the carrier layer, can be counteracted. Polyurethane shrinks in the curing phase. A stabilization layer inserted at the right position in the production process can effectively keep the carrier layer flat and counteract the shrinkage.

Alternatively, the carrier layer is provided on top and bottom with an impregnated, thermosetting stabilizing layer. In a second step, the carrier layer is pressed on the upper side with the upper layer and on the underside with a counter-pull in a press under heat and pressure.

The carrier layer is heat-resistant and withstands temperatures up to 200 ° C, in particular up to 160 ° C, for 30 seconds non-destructive stood.

The bonding of backing layer and top layer can be done in a short-cycle press or a continuous press. The carrier layer is not destroyed by the acting pressing temperature and the pressing pressure. The support layer should be plasticized to a maximum, so that after cooling no influence on the strength is given, therefore, the compression should have no strength-reducing effect in the support layer. For this purpose, the carrier layer is sufficiently thermally stable formulated. This is done by adjusting the polyurethane components and the fillers.

For the compression both in the production of the top layer alone as well as the joining or pressing of the top layer and carrier layer for the production of the plate-shaped component, the following conditions apply:
The pressing pressure is greater than or equal to 25 kg / cm ² . The pressing temperatures are greater than 100 ° C and less than 200 ° C. The pressing times are based on the temperature of the top side press plate. That is, the upper press plate has a temperature of greater than 100 ° C in the specified temperature window. The pressing times are 10 seconds and 120 seconds, in particular between 15 seconds and 55 seconds.

The pressing temperature at the lower press plate may be lower than the temperature of the upper press plate. Possible and expedient is a temperature difference between the upper press plate and the lower press plate of up to 100 ° C. The temperature of the lower press plate is 25 ° C and above. Preferably, the temperature of the lower press plate during the pressing process is greater than 60 ° C.

An essential advantageous aspect of the invention is that the top layer is applied as a powder mixture. Covering in compression by a continuous resin film such as an impregnated overlay film is not required. As a result, condensate moisture arising during pressing can escape more easily. Accordingly, adhesion of the top layer to the carrier layer takes place. As mentioned, the product-specific composition of the top layer takes place as a powder mixture of fibrous and / or pulverulent wood material, binders and resins and fillers.

Below, three variants of a process for producing a plate-shaped component according to the invention are shown again:

Method 1

The support layer based on polyurethane and the top layer of the powder mixture are prepared separately from each other. In a further step, the top layer is glued or laminated onto the carrier layer and optionally a counter-pull under the carrier layer.

Method 2

A decorative layer is produced / pressed in a first operation. On top of this layer, the liquid polyurethane mixture is applied and cured. Preferably, a stabilization layer is integrated as a countermove.

Method 3

A backing layer of polyurethane is produced in a first operation. On this carrier layer, the powder mixture is applied and pressed together in a press under the action of temperature and pressure. That is, in one operation, the top layer is made and simultaneously connected to the carrier plate. Preferably, the PUR support layer contains top and bottom functional layers that allow a compression and secure connection in a press with heat and pressure between the top layer and the carrier layer.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102013113478 A1 [0003, 0004]
• DE 102009000717 A1 [0003, 0005]
• EP 2523804 B1 [0003, 0006]
• DE 102005061222 A1 [0003, 0007]
• DE 3005707 A1 [0003, 0008]
• EP 2755818 B1 [0009]
• EP 2907655 A1 [0010]
• EP 1938963 B2 [0010]

Claims (16)

Plate-shaped component, in particular floor panel, comprising a top layer, which is arranged on the top side on a carrier layer, characterized in that the top layer is formed from a mixture of fibrous and / or powdered wood material, binder and color pigments, which is pressed under the effect of temperature and pressure and the carrier layer is based on polyurethane. Plate-shaped component according to claim 1, characterized in that the upper layer and the carrier layer are pressed together. Plate-shaped component according to claim 1 or 2, characterized in that the upper layer and the carrier layer are glued together. Plate-shaped component according to one of claims 1 to 3, characterized in that in the upper layer, a functional layer is intergrated. Plate-shaped component according to one of claims 1 to 4, characterized in that the carrier layer contains fillers, additives and / or dyes. Plate-shaped component according to one of claims 1 to 5, characterized in that a stabilizing layer, in particular a fleece, grid or fabric layer, is incorporated. Plate-shaped component according to claim 6, characterized in that the stabilizing layer is impregnated with aminoplastischen binders. Plate-shaped component according to claim 6 or 7, characterized in that the stabilization layer is integrated in the carrier layer. Plate-shaped component according to claim 6 or 7, characterized in that the stabilization layer is arranged under the carrier layer. Plate-shaped component according to one of claims 1 to 9, characterized in that the carrier layer is profiled on the edge and provided with locking means. Plate-shaped component according to one of claims 1 to 10, characterized in that it has a basis weight of greater than or equal to (≥) 4.0 kg / m ² , in particular greater than or equal to (≥) 5.0 kg / m ² . Plate-shaped component according to one of claims 1 to 11, characterized in that it has a total thickness of 3.0 mm to 7.5 mm, in particular from 4.0 to 5.0 mm. Plate-shaped component according to one of claims 1 to 12, characterized in that the visible surface is ground, embossed, brushed and / or sealed. Plate-shaped component according to one of claims 1 to 13, characterized in that the visible surface is printed with a decor. Plate-shaped component according to one of claims 1 to 14, characterized in that the visible surface has different degrees of gloss. Plate-shaped component according to one of claims 1 to 15, characterized in that the carrier layer is heat-resistant and withstands temperatures up to 200 ° C, in particular up to 160 ° C, for 30 seconds non-destructive.