DE102015100218A1 - Plate-shaped component - Google Patents

Abstract

The invention relates to a plate-shaped component, in particular a floor panel with a panel body. The panel body is formed from a mixture of fibrous and / or pulverulent wood material, binder and color pigments, which is pressed under the effect of temperature and pressure. A carrier layer, such as veneer or non-woven, may be integrated in the plate body.

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.

The invention has for its object to provide a manufacturing and application technology improved plate-shaped component, in particular a floor panel show.

The solution to this problem is claimed in claim 1.

Thereafter, it is provided that the plate-shaped component has a panel body, which is formed from a mixture of fibrous and / or pulverulent wood material, binders and color pigments, which is pressed under the effect of temperature and pressure.

The pressing process takes place between a lower press plate and an upper press plate in a heated press.

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

An essential aspect of the invention is the use of the mixture of fibrous and / or pulverulent wood material, binders and color pigments. This mixture is pressed under the influence of temperature and pressure. The pressed mixture alone can form the plate body. Furthermore, a carrier layer can be integrated in the plate body. The carrier layer may be a veneer, in particular a real wood veneer. As a carrier layer, furthermore, a fleece or a fabric layer can be used. The combination of different flat carrier layers is possible. The carrier layer can also be constructed in multiple layers.

The veneer carrier layers are made of wood. As a rule, 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%.

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%.

The mixture may further contain additives, for example, effect particles such as mica, and / or antiabrasive auxiliaries, for example corundum.

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 in the context of the invention as waste products for the preparation of the mixture according to the invention or the powder mixture for use.

The plate-shaped component may further comprise a reinforcement. In particular, as reinforcements nonwoven, rovings or glass fiber fabric are used, which are incorporated in the plate-shaped component or the plate body.

The reinforcement may contain thermoplastic material components which melt during the pressing of the floor covering and advantageously influence or support the formation of the plate-shaped component and its properties, such as elasticity.

The surface of a plate-shaped component according to the invention can be processed. In particular, the surface is ground, embossed, brushed and / or sealed. It is also possible to paint the surface.

Furthermore, the surface may be printed with a decor.

The plate-shaped component has a thickness between 1 mm and 5 mm. At application rates of the powder mixture of 100 g / m ² to 2,000 g / m ² , layer thicknesses of the plate body of 0.1 mm to 1.5 mm. The plate body is depending on the binder and composition of the binder system extremely hard and resilient or even flexible. Advantageously, elastic properties can also be set. This is advantageous in laying, as well as in use.

Preferably, the plate-shaped components are configured rectangular. The practical application of the plate-shaped components is improved in that the side edges of the panel body are profiled and 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.

To produce a plate-shaped component according to the invention, the mixture of fibrous and / or pulverulent wood material, binders and color pigments is sprinkled onto a press plate. In particular, a press plate made of a good thermal conductivity material is used. In particular, the press plate is made of metal, preferably of light metal, such as aluminum. The sprinkled with the powder mixture press plate is then retracted in a heated press. There, the powder mixture is pressed and formed the plate-shaped component.

An essential aspect is that the press plate is designed so that water or liquid contained in the powder mixture, resulting from the reaction of the mixture components contained during compression, can escape without damaging the plate body, for example by bubbling. For this purpose, the press plate may have pores or be provided with a microperforation. Furthermore, the press plates may consist of sintered materials, in particular sintered metal, which have a porosity and absorb or dissipate moisture.

In addition, a metallic press plate has the advantage that heating of the plate-shaped component during pressing takes place from below. This results in a more uniform curing of the plate-shaped component.

The press plate may also be structured or have a structured pressing surface through which the plate body receives a surface structure during pressing. The structuring or profiling of the press plate can also serve to dissipate moisture. As a result, as already stated above, residual moisture or process moisture during pressing can be neutralized.

The contact of the plate body with the lower press plate during the pressing process ensures a uniform curing and avoids warping of the plate-shaped component. In principle, the press plate can also be provided with a release agent, for example an emulsion, which ensures that the plate body can be easily removed from the press plate after being pressed. Also possible is the use of release papers or silicone edges and the like as a release agent.

In the production of a plate-shaped component based on a laminated body, the powder mixture, as already stated above, scattered onto the carrier layer. The carrier layer has been previously positioned on the press plate. Subsequently, the structure of veneer and powder mixture is pressed in a press under temperature and pressure.

In principle, it is also possible to apply the powder mixture on the press plate and then hang the carrier layer on the powder mixture. During the pressing process, the carrier layer is then embedded between the lower press plate and an upper press plate in the matrix of the molten powder mixture.

In the context of the invention, the binders used are in particular aminoplastic resins or polyurethanes. 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.

During the pressing process, the carrier 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 carrier layer.

One aspect of the invention is that the carrier layer in the initial state is impermeable to the powder mixture. As a result, the powder mixture can advantageously be distributed on the carrier material in terms of application technology by means of scattering devices. The carrier material is dense in this state. Only in the press under pressure and temperature, the powder mixture is melted and the carrier material permeable. The carrier material can soften during the pressing process, so that the molten powder mixture completely penetrates and / or infiltrates the carrier material.

The pressing pressure is greater than or equal to 35 kg / cm ² . The pressing temperatures are greater than 120 ° C and less than 220 ° 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 120 ° 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.

After compression, the finished products, ie the plate-shaped component, are stacked and cooled to room temperature. Here, the individual plate-shaped components are carefully stacked straight, to avoid deformation and bumps.

Another advantageous production sequence 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 powder mixture resting on the press plate. 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 plate-shaped component according to the invention can in principle be used without a carrier plate, that is, for example, a carrier plate made of compacted fibrous material. This is a use as a direct surface coating.

Of course, it is also possible to apply components of the invention on support plates or similar carrier materials, in particular stick.

Since the plate-shaped components can also be made elastic or flexible and bendable, it is also possible to use the components as cladding of curved or round structures, such as columns and the like.

Claims (10)

Plate-shaped component, in particular floor panel, with a panel body, characterized in that the panel body is formed from a mixture of fibrous and / or pulverulent wood material, binder and color pigments, which is pressed under the effect of temperature and pressure. Plate-shaped component according to claim 1, characterized in that in the plate body, a carrier layer is integrated. Plate-shaped component according to claim 2, characterized in that the carrier layer consists of at least one veneer. Plate-shaped component according to one of claims 1 to 3, characterized in that a reinforcement, in particular a fleece or a fabric layer, is incorporated. Plate-shaped component according to claim 4, characterized in that the reinforcement contains thermoplastic material components. Plate-shaped component according to one of claims 1 to 5, characterized in that the wood material is a waste product from the production and / or processing of compacted fiberboard. Plate-shaped component according to one of claims 1 to 6, characterized in that the surface is ground, embossed, brushed and / or sealed. Plate-shaped component according to one of claims 1 to 7, characterized in that the surface is printed with a decor. Plate-shaped component according to one of claims 1 to 8, characterized in that the plate body has a thickness between 0.1 mm and 5 mm. Plate-shaped component according to one of claims 1 to 9, characterized in that the plate body is profiled edge and provided with locking means.