DE202020102332U1 - Plate-shaped component - Google Patents

Abstract

Plate-shaped component, in particular floor panel, which has a carrier plate (2) with an upper-side wear layer (3), characterized in that the carrier plate (2) is formed on the basis of a wood material and / or a plant material and magnesium oxide (MaO), the Proportion of the wood-based material and / or the plant material is at least 65% and the proportion of magnesium oxide is at least 5%, and the wear layer (3) has at least one layer (5) made of a bound powder mixture, the powder mixture comprising wood particles in a proportion between 25% and 75 % and color pigments, corundum and resin, in particular thermosetting resin, in powder form and the wear layer (3) has a veneer layer, in particular made of real wood or cork, which forms the visible side of the wear layer (3) and the carrier plate (2) and the wear layer (3) are pressed together under the influence of temperature and pressure.

Description

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

Surface coverings, for example floor coverings, come in a wide variety of designs. Panel-shaped components, in particular floor panels in the form of laminate or parquet with carrier panels made of compressed fibrous materials, are widespread. On the upper side of the carrier plate, a wear layer, which is generally constructed in several layers, is provided. This has a decorative layer, for example a resin-coated decorative paper. The decorative layer determines the look of the laminate. The so-called overlay forms a seal as the top layer and gives the component a high surface durability. A backing can be applied on the underside of the carrier plate. This is used for dimensional stability and moisture barrier. If necessary, impact sound insulation can also be provided on the underside.

To connect the components to one another, these are now mostly provided with a so-called click system. These are mechanical locking means on the grooves and on the springs, which come into locking engagement with one another in the case of components adjacent in a floor covering. This is to prevent the formation of gaps in the installed floor covering due to stretching and shrinking processes

The DE 10 2013 113 478 A1 discloses a plate-shaped component in the form of a panel, which has a carrier plate and a top wear layer. The carrier plate consists of a composite material made 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.

Also from the DE 10 2005 017 392 A1 a floor panel is known which has a carrier plate, a wear layer with a decorative layer and an overlay being arranged above the carrier plate. The carrier plate is formed on the basis of a mineral material and a binder.

Furthermore, screeds based on magnesia, so-called stone wood screeds, are known. However, magnesia-bound screeds cannot be used in rooms with high humidity, especially permanent humidity. Protection against rising damp is also required.

Also heard through the DE 199 44 399 A1 a floor panel with a support plate to the prior art, wherein the support plate is made of polyurethane or acrylate as a binder and fillers. Here mineral fillers are used, for example lime, quartz or sand.

From the DE 10 2014 002 154 A1 shows a building slab, in particular for use as a floor, wall or ceiling slab with a support plate on which locking contours are provided on the edge and a surface layer made of a mineral material. The surface layer should have at least one layer of fiber cement.

To the extent of EP 0 608 400 B1 describes a laminate structure produced under heat and pressure with a core consisting of a fiber cement board. The decorative layer comprises a resin-impregnated paper intermediate layer on which a resin-impregnated decorative overlay layer is laminated. However, depending on the application, carrier boards based on cement or cement fiber do not have the best conditions for multi-layer construction.

The three-layer construction of a plate-shaped component with profiled joining surfaces explained above is common, the carrier plate consisting of a compressed fiberboard. The fiberboard is basically well suited for the purpose. They have the necessary stability, are easy to work with and inexpensive. Nevertheless, there is room for improvement with regard to the properties of use, in particular the resistance to moisture, weather influences and fungal attack by fungal and / or pest attack, for example by termites, but also with regard to sustainability.

The invention has for its object to provide a qualitatively improved plate-shaped component with advantageous performance properties, which is highly stable, low warpage and moisture-resistant and has very good fire resistance.

The solution to the problem is shown in claim 1.

Advantageous embodiments of the plate-shaped component according to the invention are the subject of the dependent claims.

The plate-shaped component has a carrier plate and a top wear layer. The carrier plate is based on a wood material and / or a plant material as well as magnesium oxide (MaO). The proportion of the wood-based material and / or the plant material in the The carrier plate is at least 65% and the magnesium oxide content is at least 5%. The wear layer has at least one layer made of a bound powder mixture. The powder mixture contains wood particles, in a proportion between 25% and 75%. The powder mixture also contains color pigments, corundum and resins, in particular thermosetting resins in powder form. The resins are heat activated and hardenable. It is also essential to the invention that the carrier plate and the wear layer are pressed together under the influence of temperature and pressure.

The carrier plate is formed on the basis of a wood material and / or a plant material as well as magnesium oxide. The proportion of wood-based material and / or plant material is at least 65%. Wood materials are materials that consist of shredded wood, plant materials consist of shredded plants. The wood particles and / or plant particles can be in the form of chips, fibers and / or powder. Bamboo in particular is used as the plant material.

An essential aspect of the invention is that the carrier plate consists at least for the most part of renewable, in particular rapidly renewable raw materials.

The carrier board is slightly compressible and corresponds in many properties to a wood fiber board, but is flame retardant, non-flammable and non-swelling. As a result of the dense surface and an optional dense backing, the plate-shaped component also absorbs little moisture.

The proportion of wood material and / or the proportion of plant material in the carrier plate is particularly preferably at least 75%. In particular, the proportion of wood-based material and / or plant material in the carrier plate is at least 85%. A mixture of wood material and plant material can also form the base of the carrier plate, the sum of wood material and plant material being in the range specified according to the invention.

The magnesium oxide is the determining binder in the base of the carrier plate. This is mixed with the wood materials and / or plant materials and pressed to the carrier plate. Despite the high wood or fiber material of more than 65%, the carrier plate is not swelling, but still has limited elasticity. The high proportion of wood or plant materials results in a surface which is suitable for direct pressing with the powder mixture provided according to the invention and optionally further layers of the wear layer.

In addition to wood-based material and / or plant material as the main constituent and magnesium oxide, further additives, for example fillers, can be contained in the carrier plate. Additives are especially hydraulic binders. In addition to magnesium oxide, magnesium chloride (MgCl2) and / or calcium sulfate dihydrate (gypsum) (CaSO4.2 H2O) or also cement, for example lime cement, are particularly preferably present.

The powder mixture is a fine or very fine free-flowing bulk material. The term powder also includes powder and dusts.

The powder mixture preferably has a particle size of less than or equal to ()) 500 μm. A stretched fibrous structure, for example in the case of wood fiber particles, is also a powder in the sense of the invention.

The resin in the powder mixture or the wear layer is in particular a thermosetting resin, preferably a urea resin or a melamine resin.

One aspect of the invention provides the pressing of the carrier plate and wear layer in a short-cycle press or a continuous press. The layers and the layers forming the layers are pressed in the press under heat and pressure. The pressure build-up and pressure reduction of the press can be regulated in stages. The components, that is to say the carrier plate or a large-area starting carrier plate and the components of the wear layer, are arranged in the press on the press table. The press is closed and the temperature and pressure act on the components. The resins form the essential adhesive component in the wear layer. During hot pressing, the adhesive components, mainly the resins and possibly other binder components, are activated and plasticized.

The resin in the wear layer is, in particular, polycondensation resin. Melamine- or polyurethane-based resins are preferably used. These can also be installed as a separate powder layer in the wear layer.

During hot pressing, the resins are melted in the powder mixture and the wear layer is formed. This also forms the surface of the wear layer. Immediately upon cooling, the resin components harden. The resin is made up in such a way that it binds with cooling, but still has elastic properties. For this purpose, the resins are preferably elasticized by means of polyurethane additives.

The wood particles in the powder mixture of the wear layer in the proportions specified according to the invention bring about a layer-appropriate absorption capacity for the resins and support their migration, wetting and binding capacity. The system forming the wear layer is coordinated in such a way that an optimized adhesive bond between the components is achieved after the resins have reacted through. The components themselves, their proportion and also their grain size and moisture content are optimized in accordance with the layer and coordinated in such a way that dehesive surface tensions and influences that impair adhesion, for example water vapor, are minimized or equalized.

An embodiment which is advantageous in practice provides that the wear layer is constructed in several layers. For this purpose, several layers of powder mixture can be applied to the carrier plate. The multiple layers of powder mixture are then pressed together with the carrier plate. Furthermore, it is also possible for layers made of other materials, for example fleece layers or paper layers, to be built into the wear layer. These are also pressed together with the layer of powder or powder mixture and the carrier plate under pressure and temperature.

One aspect of the invention provides that the wear layer has at least two layers of powder mixture. Here, at least two of the several layers of powder mixture are different in their composition. In particular, the proportion of resin and / or the resin itself is different from one another in the two layers.

In particular, the lower layer can have a higher resin content than the powder mixture of the layer arranged above it. The resin content in the lower layer is between 40% to 70%. The resin content of the layer above is lower and is between 35% and 55%. Furthermore, the powder mixture of the lower layer can contain a more reactive resin than a layer of powder mixture arranged above it. The measures set out above improve the bond between the carrier plate and the wear layer, in particular through a coordinated reactivity of the resin with regard to the curing time and the amount of resin.

The wear layer can furthermore have at least one layer made of melamine- or polyurethane-impregnated paper, noble cellulose, fabric, decorative laminate, wood veneer or cork veneer.

According to the invention, the wear layer has a veneer layer, in particular a veneer layer made of real wood or cork. This veneer layer forms the visible side of the wear layer. In the manufacture of the components, a layer of powder mixture is applied to the carrier plate or the output carrier plate. The veneer layer is positioned on the layer of powder mixture. Carrier board, powder mixture and veneer layer are pressed together.

Depending on the intended use of the component, it may be expedient if the wear layer is reinforced by at least one reinforcement layer. As a result, the crack resistance of the wear layer and in particular of the decorative paper contained in the wear layer can be improved. Nonwovens, glass fabrics or glass fleeces are used as reinforcement layers.

A stabilizing layer can be integrated in the carrier plate. This can be a prefabricated stabilization layer, which is embedded in the carrier plate during its manufacture. In particular, nonwovens, lattice or fabric layers are used as stabilizing layers.

A carrier plate which has a density of greater than or equal to ()) 700 kg / m ³ is advantageous in practice. In particular, the carrier plate has a density between greater than or equal to (≥) 700 kg / m ³ and greater than or equal to (≥) 1,800 kg / m ³ . A carrier plate is particularly preferred, the density of which is between 900 kg / m ³ to 1,400 kg / m ³ , inclusive. A carrier plate with a transverse tensile strength of greater than or equal to ()) 1.5 N / m ^{2 is} furthermore advantageous, in particular the carrier plate has a transverse tensile strength between 2.0 N / m ² and 6.0 N / m ² .

The wear layer can be ground flat. Depending on the requirements of the surface, the use of an abrasive with a grain can be used 80 or 120 on.

The surface of the carrier plate facing the wear layer can alternatively be provided with a surface-enlarging profile. The surface-enlarging profiling takes place in particular by mechanical means, preferably by roughening. This can be done by grinding, brushing and / or embossing. The surface is enlarged by roughening the carrier plate. The macroscopic conditions of the surface influence the bond strength. As the surface area increases after roughening, the surface-dependent atomic and molecular interactions increase. This improves the adhesion between the carrier plate and the wear layer.

The mechanical processing of the surface of the carrier plate, for example by means of a grinding process, can also be useful in order to level out plate or layer unevenness. Farther the carrier plate surface can be provided with a structure. In addition to grinding, such a structure can also be created by milling, brushing or embossing. This carrier plate with a recessed structure on the surface is pressed with the wear layer. This makes it possible to obtain structures on the surface, ie on the visible side of the component, which are deeper than the actual thickness of the wear layer.

The surface of the carrier plate can be subjected to a profiling surface treatment in such a way that a structure or a structural image can be seen in the finished component surface. The structures can be, for example, serrated structures or joint-like depressions. This enables the imitation of stone or tile decorations. The structure or the structural image can then be recognized on the finished plate-shaped component.

The plate-shaped component according to the invention is in particular a floor panel. The plate-shaped component has an upper side, a lower side and at least four edge sides. The edge sides are designed to be connected to edge sides of further plate-shaped components in order to cover a surface of a room. For this purpose, in an advantageous embodiment of the component, connecting means are formed on the side edges of the carrier plate, for example in the form of tongue and groove and snap and / or click connections.

Furthermore, depending on the application or intended use of the components, it can be advantageous if the carrier plate is provided with a seal at least on the underside. The seal serves in particular to shut off moisture or supports the resistance of the carrier plate to moisture, weathering and / or fungal attack. In particular, such a carrier plate is waterproof. In general, the plate-shaped components according to the invention are suitable for use in damp rooms.

One aspect provides that permanent wetting of the carrier plate is avoided. For this purpose, the carrier plate is provided with a seal or a sealant on the top and bottom as well as on the side edges or edge surfaces. Due to the binder in the carrier plate, this shows practically no swelling behavior.

A backing is preferably provided on the underside of the carrier plate. This serves for stabilization and can act as impact sound insulation. The return can be applied separately. It is possible and advantageous to apply the counter-pull when pressing the carrier plate and the wear layer, ie the counter-pull layer is pressed together with the carrier plate and wear layer. The backing preferably consists of an impregnated fleece or fabric layer. These have tensile properties that are matched to the finished component.

In terms of materials, the backing can be made in the same way as the wear layer. The return train is then formed from a bound powder mixture. The powder mixture contains powder, in particular wood particles and resin. Colored pigments and corundum could also be contained in the powder mixture of the counter layer.

In order to produce a plate-shaped component according to the invention, a rectangularly configured, large-format output carrier plate is provided. Large format means that the output carrier plate has a much larger dimension than the plate-shaped component to be produced. The output carrier plate can have a width of 1,220 mm and a length of 2,440 mm, for example. According to the invention, the starting carrier plate is formed on the basis of a wood material and / or a plant material as well as magnesium oxide. The main component is the wood material and / or the plant material, totaling at least 65%. The proportion of magnesium oxide is at least 5%. The output carrier plate is not yet profiled on the edge, that is to say the side edges do not yet have any connecting means.

The wear layer is arranged on the starting carrier plate or the components forming the wear layer are applied. For this purpose, at least one layer of powder mixture is applied to the top of the base plate. The powder mixture has wood particles in a proportion between 25% and 75% as well as color pigments, corundum and resin, in particular thermosetting resin in powder form. The carrier plate and the wear layer are then pressed together under the action of temperature and pressure, and thereby connected.

The multilayer body is pressed in a hot press. For this purpose, the components of the multilayer body are positioned in the press. The pressing takes place at temperatures in a range from 100 ° Celsius to 240 ° Celsius. This temperature is set on the surface of a press plate that is brought into contact with the component. In a special embodiment, the pressing takes place from the side of the wear layer, that is to say the top side. In particular, this is preferably done if the backing is only applied later in a further separate operation.

The pressing temperature is above 120 ° C in particular. The temperature is preferably between 180 ° C. and 210 ° C. in each case.

The pressing time is in particular less than or equal to (≤) 120 seconds. In particular, the pressing time is between 5 seconds and 60 seconds, preferably between 5 seconds and 45 seconds.

The pressing pressure is greater than or equal to (≥) 1,000 kilopascals (kPa) and can be up to and including 6,500 kPa. The pressing pressure is preferably greater than or equal to (≥) 3,500 kPa.

In particular, a short-cycle press or a continuous press (CPL) is used as the press.

An adhesion promoter can be provided between the carrier plate and the wear layer. The adhesion promoter improves the adhesive strength between the wear layer and the carrier plate. The adhesion promoter is preferably applied separately as part of a surface treatment of the carrier plate or the starting carrier plate. Modified polyolefins or silane coupling agents are suitable as coupling agents. Polyurethane primers or primers are also suitable. A bonding agent which is advantageous for practical use is a PUR binder which hardens with the absorption of moisture from the ambient air or from the exit carrier plate.

Moisture from the pressing process can escape into the carrier plate.

During the pressing process, the surface of the wear layer can be given a structure, a pattern or ornaments by means of a structure sheet or a structure generator. The structure of the gloss level can vary in some areas. Different structure depths are also possible.

The top-side structure in the wear layer preferably has a depth of greater than or equal to ()) 50 μm. The wear layer receives its final appearance during the pressing process.

The pressed wear layer can also be coated. Painting can be carried out on the pressed, large-area base plate or after it has been divided into individual components.

After pressing the multilayer body, the pressed multilayer body is removed from the press. Immediately afterwards or later, the pressed multilayer body is separated or divided into individual plate-shaped components. The individual components are profiled on their side edges in a subsequent step. Profiling takes place after the pressed multilayer body has cooled at room temperature. When profiling, the individual components are provided with connecting means on their side edges, that is on the long and narrow sides.

The plate-shaped component can have a total thickness between 4 mm and 20 mm.

The wear layer can have a structure that matches the decor image. The surface of the finished component can have different degrees of gloss, preferably 3 to 4 different degrees of gloss, to match or match the decorative image of the decorative paper. Depending on the number of layers, the wear layer has a thickness in a range from 0.10 to 0.50 mm.

To improve the assembly and performance characteristics of the components, a lubricant and / or sealant can be applied to the side edges of the carrier plate.

The side edges of the carrier plate can be provided with a hydrophobicizing agent, the hydrophobicizing agents containing antimicrobial and / or antibacterial active ingredients.

The plate-shaped component according to the invention is waterproof. The component absorbs a maximum of 5% water and does not tend to swell, as is the case with conventional wood-based components or board materials. The edge swellings are less than 3% after 24 hours of water storage. The component according to the invention can be classified as flame retardant, non-flammable and non-swelling. The plate-shaped component shows little length and width growth and is therefore very dimensionally stable and can be installed floating over distances of more than 15 meters without movement joints. A component according to the invention has a high resistance to moisture, weather influences and fungal attack. The component also has very good fire behavior. Practical tests lead to the expectation that the component's fire behavior will be classified as flame retardant. In addition, it largely consists of renewable raw materials. This is a particularly advantageous aspect with regard to the use and usage properties.

• 1 eine Seitenansicht auf ein erfindungsgemäßes plattenförmiges Bauelement;
• 2 einen Ausschnitt aus dem Verbindungsbereich von zwei miteinander verbunden Bauelementen;
• 3 eine Seitenansicht auf eine weitere Ausführungsform eines erfindungsgemäßen plattenförmigen Bauelements und
• 4 einen Ausschnitt aus dem Verbindungsbereich von zwei miteinander verbundenen Bauelementen entsprechend der 3.

The invention is described below using an exemplary embodiment. Show it:

• 1 a side view of a plate-shaped component according to the invention;
• 2nd a section of the connection area of two interconnected components;
• 3rd a side view of a further embodiment of a plate-shaped component according to the invention and
• 4th a section of the connection area of two interconnected components according to the 3rd .

Corresponding components or component components are in the 1 to 4th provided with the same reference numerals. The 1 to 4th are technically schematic and are not to be understood to scale.

1 shows a plate-shaped component 1 in the form of a floor panel. 2nd shows a section of two interconnected components 1 .

The component 1 is configured rectangular and has a carrier plate 2nd with a top wear layer 3rd on. Underside of the carrier plate 2nd is a counterbalance 4th intended. In return 4th supports the dimensional stability of the component 1 and serves to shut off moisture and to isolate impact sound.

The carrier plate 2nd is based on a wood material and / or a plant material as well as magnesium oxide (MaO). The proportion of the wood material and / or the plant material in the carrier plate 2nd is at least 65%, preferably the proportion of wood-based material and / or plant material in the carrier plate is at least 75%. A carrier plate is particularly advantageous 2nd , which has a wood material and / or a plant material content of at least 85%. The proportion of magnesium oxide in the carrier plate is at least 5%.

A mixture of wood-based material and plant material can also be used. The wood and / or plant material particles are in the form of chips, fibers and / or powder. These are mixed with the magnesium oxide and pressed or connected in the form of a plate. In addition to magnesium oxide, other binders can be included. These are in particular hydraulic binders.

The wear layer 3rd is formed from a bound powder mixture. The powder mixture contains wood particles in a proportion between 25% and 75%. The powder mixture also contains color pigments, corundum and resins, in particular thermosetting resins, preferably urea resins or melamine in powder form.

The carrier plate 2nd and the wear layer 3rd are pressed together. This takes place under the influence of temperature and pressure. The wear layer 3rd points in the embodiment shown here according to the 1 and 2nd a layer of the bound powder mixture.

In the in the 3rd and 4th The illustrated embodiment is the wear layer 3rd on the carrier plate 2nd built up in several layers. The carrier plate 2nd is formed as previously explained on the basis of a wood material and / or a plant material as well as magnesium oxide (MaO).

Underside of the carrier plate 2nd is a counterbalance 4th arranged.

The upper wear layer 3rd is built up in several layers. In the embodiment shown here are two layers 5 , 6 shown. The location 5 the wear layer 3rd consists of a bound powder mixture, which according to the requirement of the invention consists of wood particles, color pigments, corundum and resins in powder form. The powder mixture can be poured or scattered. The top layer 6 is a real wood veneer or a cork veneer. The top layer 6 is able to 5 the two layers are arranged and together 5 , 6 and the carrier plate 2nd hot pressed together.

The plate-shaped component 1 is on its side edges 7 , 8th profiled and with lanyards 9 and 10th Mistake. The lanyard 9 on the first page margin 7 has a continuous coupling groove 11 and a locking tongue projecting on the bottom 12th on. At the free end of the locking tongue 12th is a continuous rib shaped like a nose 13 educated. On the opposite second page margin 8th is the locking device 10th through a projecting clutch spring 14 educated. On the underside of the clutch spring 14 is a locking groove 15 intended. The clutch groove 11 and the clutch spring 14 are contoured so that they match each other when laying the components 1 for adjacent components in a floor covering 1 engage with each other.

For the production of a plate-shaped component 1 a multilayer body is formed. For this purpose, a large-area starting carrier plate is provided, which is formed on the basis of a wood material and / or a plant material as well as magnesium oxide. The proportion of wood-based material and / or the proportion of plant material total at least 65%. The proportion of magnesium oxide is at least 5%.

A wear layer is placed on the top of the exit carrier plate 3rd applied which at least one layer 5 from a powder mixture. The powder mixture contains wood particles in a proportion between 25% and 75% as well as color pigments, corundum and resins, in particular thermosetting resins in powder form. Optionally, the counter-tension layer can be on the underside of the exit carrier plate 4th to be ordered. The opposite situation 4th can be constructed in the same way as the wear layer. The multilayer body is then hot pressed in a press. Here the wear layer 3rd firmly connected to the output carrier plate, as is the optional counter-pull position 4th firmly connected to the output carrier plate. During hot pressing, the resin becomes in the adhesive layer 5 plasticized. The wear layer 3rd is pressed and glued to the base plate. The same applies to the counter-situation 4th . Likewise, the top layer 6 , which is a layer of veneer made of real wood or cork, infiltrated by the plasticized resin and embedded in the wear layer.

When pressing, the pressing pressure is more than 1000 kilopascals (kPa), preferably the pressing pressure is greater than or equal to (≥) 3,500 kilopascals (kPa). The pressing temperature is above 100 ° C, in particular the pressing temperature is greater than or equal to (≥) 120 ° C. The pressing temperature is preferably between 180 ° C and 210 ° C. The pressing time is less than 2 minutes (120 seconds). In particular, the pressing time is between 5 and 60 seconds, advantageously between 10 and 45 seconds.

The pressed multilayer body is removed from the press and after cooling into individual plate-shaped components 1 Cut. In a further processing step, the components 1 on their side edges 7 , 8th profiled and with the lanyards 9 , 10th Mistake.

The exit carrier plate can be sealed before the multilayer body is formed. In particular, the exit carrier plate can be coated on the underside with a seal or a seal can be applied to the underside.

When the multilayer body is pressed, a structure can be pressed into the surface of the wear layer.

On the side edges 7 , 8th the carrier plate 2nd on the finished components 1 a lubricant and / or sealant can be applied. Furthermore, the side edges 7 , 8th of the components 1 be provided with a hydrophobicizing agent, the hydrophobicizing agents in particular containing antimicrobial and / or antibacterial agents.

The margins 7 , 8th the carrier plate 2nd or the plate-shaped component 1 can be quenched by a chamfer on all four or even only on two edges. The bevel can be colored in contrast or match the decor. The chamfers can be lacquered or transparent.

It is also possible that the pressed wear layer 3rd is provided with a paint.

Reference list

1

Plate-shaped component

2nd

Carrier plate

3rd

Wear layer

4th

Counterbalance

5

Location of 3rd

6

Location of 3rd

7

Margin

8th

Margin

9

Lanyard

10th

Lanyard

11

Coupling groove

12th

Latch

13

rib

14

Clutch spring

15

Locking groove

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included 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.

Patent literature cited

• DE 102013113478 A1 [0004]
• DE 102005017392 A1 [0005]
• DE 19944399 A1 [0007]
• DE 102014002154 A1 [0008]
• EP 0608400 B1 [0009]

Claims (18)

Plate-shaped component, in particular floor panel, which has a carrier plate (2) with an upper-side wear layer (3), characterized in that the carrier plate (2) is formed on the basis of a wood material and / or a plant material and magnesium oxide (MaO), the Proportion of the wood-based material and / or the plant material is at least 65% and the proportion of magnesium oxide is at least 5%, and the wear layer (3) has at least one layer (5) made of a bound powder mixture, the powder mixture comprising wood particles in a proportion between 25% and 75 % and color pigments, corundum and resin, in particular thermosetting resin, in powder form and the wear layer (3) has a veneer layer, in particular made of real wood or cork, which forms the visible side of the wear layer (3) and the carrier plate (2) and the wear layer (3) are pressed together under the influence of temperature and pressure. Component after Claim 1 , characterized in that the proportion of wood material and / or plant material in the carrier plate (2) is at least 75%, preferably at least 85%. Component after Claim 1 or 2nd , characterized in that the wood material and / or the plant material is chip, fiber and / or powder. Component according to one of the Claims 1 to 3rd , characterized in that the carrier plate (2) contains, in addition to wood material and / or plant material as the main component and magnesium oxide, further additives, in particular hydraulic binders, preferably magnesium chloride (MgCl 2) and / or calcium sulfate dihydrate (Ca [SO4] • 2H2O) or cement . Component according to one of the Claims 1 to 4th , characterized in that the carrier plate (2) has a density of greater than or equal to (≥) 700 kg / m3, in particular between greater than or equal to (≥) 700 kg / m3 and greater than or equal to (≥) 1,800 kg / m3, preferably of 900 kg / m3 to 1,400 kg / m3, and has a transverse tensile strength of greater than or equal to (≥) 1.5 N / m2, in particular between 2.0 N / m2 and 6.0 N / m2. Component according to one of the Claims 1 to 5 , characterized in that a stabilizing layer, in particular a fleece, grid or fabric layer, is integrated in the carrier plate. Component according to one of the Claims 1 to 6 , characterized in that connecting means (9, 10) are provided on the side edges (7, 8) of the carrier plate (2). Component according to one of the Claims 1 to 7 , characterized in that the carrier plate (2) is provided at least on the underside with a seal. Component according to one of the Claims 1 to 8th , characterized in that a backing layer (4) is provided on the underside of the carrier plate (2). Component according to one of the Claims 1 to 9 , characterized in that a lubricant and / or sealant is applied to the side edges (7, 8) of the carrier plate (2). Component according to one of the Claims 1 to 10th , characterized in that the wear layer (3) is constructed in several layers. Component after Claim 11 , characterized in that the wear layer (3) is formed by two or more layers of a powder mixture, the composition of the powder mixture being different from one another in at least two layers. Component after Claim 12 , characterized in that the resin and / or the resin content in the at least two layers is different from each other. Component according to one of the Claims 1 to 13 , characterized in that the layer (5) of bound powder mixture is provided with a decor, in particular is printed. Component according to one of the Claims 1 to 14 , characterized in that at least one layer of decorative paper, in particular of melamine or polyurethane impregnated paper, noble cellulose, tissue, decorative laminate, wood veneer or cork veneer is integrated in the wear layer (3). Component according to one of the Claims 1 to 15 , characterized in that the top layer (3) has a structure on the top side, in particular a structure with a depth of greater than or equal to (≥) 50 µm. Component according to one of the Claims 1 to 16 , characterized in that the wear layer (3) receives its final appearance during the pressing process. Component according to one of the Claims 1 to 17th , characterized in that the pressed wear layer (3) is provided with a lacquer.

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