DE202018106965U1 - Component, in particular door leaf - Google Patents

Abstract

Component (1), in particular door leaf, comprising at least one frame element (2, 3, 4, 5), at least one frame element (2, 3, 4, 5) having at least one fold (6), and at least one profile element (7) comprising at least one decorative layer (8) and at least one functional layer (9), the functional layer (9) at least partially comprising a polyamide, preferably a copolyamide, characterized in that the frame element (2, 3, 4, 5) is at least partially made of Wood, in particular real wood, comprising cellulose, hemicellulose and lignin, is that the profile element (7) is integrally connected to at least one fold (6) via the functional layer (9), that the material of the functional layer (9) of the profile element (7) has a melt viscosity of approximately 50 mPas to 100 Pas (Pascal seconds), preferably approximately 500 mPas to 50 Pas, at 200 ° C. according to ISO 2884.

Description

The invention relates to a component, in particular a door leaf, comprising at least one frame element, at least one frame element having at least one fold and at least one profile element, comprising at least one decorative layer and at least one functional layer, the functional layer at least partially comprising a polyamide, preferably a copolyamide.

It is known from the prior art that profile elements are applied or fixed to protect, in particular, the end faces of such components, in particular door leaves. Known hot melt adhesives are used here, but they result in a visible joint between the profile elements and the components, in particular the door leaf, which does not look visually appealing.
Furthermore, it is known from the prior art that for components, in particular door leaves, in particular for frame elements with at least one fold, the attachment, adjustment and fixing of the profile elements on the respective narrow surfaces of the frame elements is extremely demanding and complex. This results, among other things, from the fact that a fold of a frame element is approximately orthogonal in the longitudinal direction and often has different fold widths or fold depths, which makes it even more difficult to attach and fix the profile elements.
Another difficulty with the components, in particular door leaves, from the known prior art is that when frame elements, in particular made of wood or real wood, are used, the profile elements used to date with the known hotmelt adhesives do not lead to optimal fixation and the required water resistance cannot be achieved is.

From the EP 1 163 864 a component, in particular a furniture panel and a method for their production is known. A description is given of how a profile element can be fixed via its functional layer with wood-based materials by introducing heat, for example by using laser technology. To fix this profile element to components, it is difficult with various materials to achieve a secure hold, in particular of the polymeric profile element.

The invention is based on the object of providing a component, in particular a door leaf, which can be produced economically and inexpensively, that in the case of frame elements made of wood, in particular real wood, at least one profile element can be optically fixed to at least one fold without a joint and which increases the area of connection to the component Has water resistance.

In order to achieve this object, the invention provides a component, in particular a door leaf, with the features according to claim 1.

It has surprisingly been found that a component, in particular a door leaf, comprising at least one frame element, at least one frame element having at least one fold, and at least one profile element, comprising at least one decorative layer and at least one functional layer, the functional layer being at least partially a polyamide, preferably has a copolyamide, characterized in that the frame element consists at least partially of wood, in particular real wood, comprising cellulose, hemicellulose and lignin, that the profile element is cohesively connected to at least one fold via the functional layer, that the material of the functional layer of the profile element is one Melt viscosity of about 50 mPas to 100 Pas (Pascal seconds), preferably from about 500 mPas to 50 Pas, at 200 ° C according to ISO 2884. The invention has recognized that the component according to the invention, in particular the door leaf, can only be produced economically and inexpensively if, in the case of a frame element made of wood, in particular real wood, a profile element with a functional layer having at least one copolyamide is used, which has such an optimal melt viscosity according to ISO 2884. After extensive tests with a wide variety of materials for the functional layer of the profile element, it had surprisingly turned out that, almost exclusively with such a copolyamide material of the functional layer, it was possible for the first time to fold a frame element of a component according to the invention, in particular a door leaf, economically and inexpensively without a joint close without the water resistance of the component according to the invention being impaired. The frame element is an approximately polygonal, for example square, profiled wooden strip with a defined length, in particular a real wooden strip.

Another advantage of the component according to the invention, in particular the door leaf, is that the material of the functional layer has a crystalline density ρ _c of at least 1.13 g / cm ³ DIN EN ISO 1183-1 (2013-04) having. As a result of this advantageous embodiment of the material of the functional layer of the profile element of the component according to the invention, the component has sufficient polar proportions, so that when the profile element is attached to the frame elements of the components according to the invention which have at least one fold, in particular a door leaf, an optimized adhesive strength or peel strength can be achieved with at the same time better moisture resistance is. Of the The material of the functional layer of the profile element of the component according to the invention is generally more densely structured in these crystalline areas than in the so-called amorphous areas. The crystalline density is calculated from the crystalline structure, while the amorphous density is measured experimentally on the amorphous material.

Also advantageous in the component according to the invention, in particular the door leaf, is seen that when a profile element comprising a functional layer and a structural layer connected to the functional layer, both of which at least partially have a polymeric material, are used, the material of the functional layer is selected from the group of polyamides (PA), preferably an aliphatic and / or partially aromatic and / or aromatic polyamide, the material of the functional layer being a copolyamide which, starting from polyamide formers, is selected from the group comprising caprolactam, laurolactam, aminoundecanoic acid, hexamethylene diamine, adipic acid , Azelaic acid, dodecanedioic acid, piperazine and the like, and a melt flow index (MFI) of at least 150 g / 10 min., Preferably about 190 g to 350 g / 10 min., Particularly preferably 200 g to 320 g / 10 min. according to DIN ISO 1133 at 160 ° C / 1.20 kg. This advantageously enables a profile element designed in this way to be attached very easily to the narrow sides of the frame elements of the component according to the invention, in particular the door leaf, without adhesive, the energy required for activating or transferring the functional layer, which consists of a polymeric material, from solid in a plastic or liquid state is lower than in the previously known prior art.

Another advantage of the edge trim according to the invention is that the material of the functional layer of the profile element makes it possible to attach chemical bonds, in particular secondary valence bonds, both to the wood material of the frame element of the component according to the invention and to the piece of furniture on the surfaces of the component according to the invention, in particular the door leaf Realize top layers, for example of paper-like or foil-like materials, which in turn results in a high level of adhesion between the individual components.

With the material of the functional layer of the profile element, it is therefore surprisingly possible for the first time to form chemical bonds, in particular secondary valence bonds, to all materials of the frame elements of the component according to the invention, in particular door leaf, in particular also hydrogen bonds to the cover plates and / or cover layers.

However, the material of the functional layer of the profile element of the component according to the invention, in particular the door leaf, can also form covalent bonds, secondary valence bonds and hydrogen bonds to bonding agent systems, especially those with reactive groups. This makes it possible for the profile element to have an optimal material connection to the narrow side of the component, in particular the door leaf, and thus for the first time also higher adhesive strength or peel strength values according to DIN 28510 can be achieved.
Another advantage is that better adhesion of the material of the functional layer of the profile element, in particular the door leaf, to the cover layers of the component according to the invention can also be achieved, for example, from polymeric materials such as PET. PET is polyethylene terephthalate, which is a thermoplastic from the polyester family that is produced by polycondensation.
Another advantage of the component according to the invention is that the formation of, in particular, the material of the functional layer for the component produced enables better or higher values of the moisture resistance important for components to be achieved for the first time, since the previous weak point in the prior art, namely the connection of the material the functional layer with the top layer applied to the component, such as CPL laminate, HPL laminate and melamine-impregnated paper materials, is optimized by realizing at least components of the material of the functional layer with parts of the materials of the top layers via chemical bonds, in particular secondary valence bonds, as well as hydrogen bonds are relevant on the one hand for the high adhesive strength or peel strength values and on the other hand for the better or higher values of the moisture resistance important for components. CPL laminate is a “Continuous Pressure Laminate”, which is produced in a continuous process from several layers of paper and resin. HPL laminate is a "high pressure laminate", which is produced in the high pressure press process in sheet form from several layers of paper and resin.

A further advantage is that better adhesion of the material of the melt layer to cover layers made of polymeric materials such as PET can also be achieved. PET is polyethylene terephthalate, which is a thermoplastic from the polyester family that is produced by polycondensation.

It is also advantageous that, even for non-polymeric surfaces of the top layers of the component, such as, for example, building boards coated or painted with paint, surprisingly for the profile element very good adhesive strength values or peel strength values can be measured according to DIN 28510.

It has also proven to be advantageous that the material of the functional layer has at least one copolyamide with a melting temperature range of approximately 170 to 235 ° C., preferably 180 to 220 ° C. This makes it possible to provide a profile element for the component according to the invention which, on the one hand, can be cohesively connected to the narrow side of the frame element with a low input of energy into the functional layer, and on the other hand also has a significantly higher adhesive strength or peel strength on the component according to the invention , in particular door leaf.

In particular, due to the advantageous properties of the material of the functional layer of the profile element of the component according to the invention, in particular the door leaf, it is both adhesive-free and energized from an energy source selected from the group consisting of laser source, infrared source, ultrasound source, magnetic field source, microwave source, plasma source and hot air source and the like for the purpose of edging Pieces of furniture can be used.

Another advantage of the functional layer of the profile element of the component according to the invention, in particular the door leaf, is that the material of the functional layer has a Shore A hardness of at least 80 according to DIN EN ISO 868 having. On the one hand, this ensures the economical and cost-effective production of the profile strip and thus of the component according to the invention, in particular the door leaf, and on the other hand it is possible to match the material of the functional layer of the profile element to the respective requirements for the frame elements of the component according to the invention, in particular the door leaf, in particular those which have at least one fold to adapt. Another advantage is the better processability that can be achieved when the profile element is attached to the narrow sides / the frame elements of the component according to the invention, in particular the door leaf.

The component according to the invention, in particular the door leaf, is further characterized in that the material of the functional layer of the profile element has a tensile strength of at least 700 MPa DIN EN ISO 527 and an elongation at break of at least 400% DIN EN ISO 527 having.

It is also advantageous in the component according to the invention, in particular the door leaf, that the material of the functional layer of the profile element has a surface tension of at least 35 mN / m DIN EN 14370 having. This leads to improved adhesion to other, especially polar, materials.

In a further advantageous embodiment of the component according to the invention, in particular the door leaf, it has been shown that the side of the structural layer located opposite the functional layer of the profile element has been subjected to a surface treatment by a corona process, flame treatment process, plasma process, silication process, silanization process and the like. As a result, an optimized combination of the functional layer with the structural layer of the profile element of the component according to the invention, in particular the door leaf, can be implemented at any time for a wide variety of material combinations, in particular the functional layer.

In a likewise advantageous embodiment of the component according to the invention, in particular the door leaf, it has been shown that the material of the functional layer and / or the material of the structural layer of the profile element contains light and / or radiation-absorbing additives in an amount of 0.01 to 5% by weight , preferably 0.02 to 3.0 wt .-%, based on the total amount, contains. In this embodiment of the component according to the invention, in particular the door leaf, it can be optimally welded by known laser joining methods by the targeted introduction of the energy into the material of the functional layer on the narrow sides of components, in particular door leaves.

It has also been found to be advantageous that the material of the functional layer and / or the material of the structural layer of the profile element contains at least one additive, some of which contains inorganic and / or organic pigments, in an amount of approximately 0.01 to 5.0% by weight. , preferably 0.02 to 3.0 wt .-%, based on the total amount, contains. This makes it possible to attach the profile element inexpensively and economically to the frame elements of components, in particular the door leaf, via the functional layer using all currently known radiation-activatable methods. Another advantage of the component according to the invention, in particular the door leaf, is that the additive of the functional layer and / or the structural layer of the profile element is selected from the group of metal oxides, metal phosphates and metal salts of organic anions. Through the selection of the additives, an edge strip according to the invention can be made available, which is optimized in each case for the radiation-activated attachment methods but also for the materials of the pieces of furniture.

Another advantage of the component according to the invention, in particular the door leaf, is that the additive of the functional layer and / or the structural layer of the profile element is selected from the group of metal oxides, metal phosphates and metal salts of organic anions. Through the selection of the additives, an edge strip according to the invention can be made available, which is optimized in each case for the radiation-activated attachment methods but also for the materials of the pieces of furniture.

In a further advantageous embodiment of the component according to the invention, in particular the door leaf, the material of the functional layer of the profile element is polar groups based on amides, amines, carboxylic acids or their esters or salts, in particular acrylic acid, acrylic acid esters, silanes, titanates, alcohols, imides, Has ammonium compounds or sulfonic acids or their esters or salts, blocked isocyanates or the like. The various possibilities of arranging polar groups in the material of the functional layer can provide a component according to the invention, in particular a door leaf, in which the material of the functional layer has both polar and non-polar components.

Due to the variation in particular of the polar groups in the material of the functional layer of the profile element, it is possible for the first time to provide a component according to the invention, in particular a door leaf, in which the material of the functional layer of the profile element is so optimized that it can be used as intended if that Profile element is cohesive with the narrow side of the component according to the invention, in particular door leaf, both optimum strength values or peel strength values and equal or better water resistance values can be achieved.

Another advantage of the component according to the invention, in particular the door leaf, is that the structural layer of the profile element is based on polyvinyl chloride (PVC); Polyolefin, such as polypropylene (PP) or polyethylene (PE); a styrene-based polymer such as polystyrene (PS) or styrene-butadiene copolymer with a predominant styrene content (SB) or acrylonitrile-styrene-acrylic ester copolymers (ASA) or acrylonitrile-butadiene-styrene copolymers (ABS) or styrene-acrylonitrile (SAN); Polybutylene terephthalate (PBT); Polyethylene terephthalate (PET); Polyoxymethylene (POM); Polyamide (PA); Polymethyl methacrylate (PMMA); Polyphenylene oxide (PPO); Polyether ether ketone (PEEK); Polyphenylene sulfide (PPS); Liquid crystal polymer (LCP); Polyamideimides (PAI); Polyvinylidene fluoride (PVDF); Polyphenyl sulfone (PPSU); Polyaryl ether ketone (PAEK); Polyacrylonitrile (PAN); Polychlorotrifluoroethylene (PCTFE); Polyether ketone (PEK); Polyimide (PI); Polyisobutene (PIB); Polyphthalamide (PPA); Polypyrrole (PPY); Polytetrafluoroethylene (PTFE); Polyurethane (PUR); Polyvinyl alcohol (PVA); Polyvinyl acetate (PVAC); Polyvinylidene chloride (PVDC) and mixtures of at least two of these materials based.
Suitable fillers and / or reinforcing materials which positively influence the mechanical properties, in particular glass fibers, glass spheres, but also fillers such as chalk, talc, Teflon and the like, can be added to the polymeric material of the structural layer of the profile element. The fillers and / or reinforcing materials are present in amounts of about 2 to 50% by weight, preferably 5 to 35% by weight, based on the total mass. This makes it possible for the first time to automatically seal the orthogonal geometry of folds of the frame element of the component according to the invention, in particular the door leaf, in an automated manner in a sealing and visually appealing manner.

Furthermore, the component according to the invention, in particular the door leaf, is advantageously designed such that the material of the functional layer and / or the structural layer of the profile element contains at least one of the following additives: stabilizers to improve the resistance to light, UV radiation and weathering; Stabilizers to improve thermal and thermooxidative resistance; Stabilizers to improve hydrolytic resistance, stabilizers to improve acidolytic resistance, lubricants, mold release agents, coloring additives, crystallization regulating substances and nucleating agents, flame retardants, impact modifiers, fillers and / or plasticizers. Thus, a component according to the invention, in particular a door leaf, can be made available which, on the one hand, can be produced economically and inexpensively, but which also significantly improves the adhesive strength or peel strength values known to date from the prior art, and the water resistance which is particularly important for components, in particular door leaves .

The component according to the invention, in particular the door leaf, is further designed such that the functional layer of the profile element is arranged at a distance from the structural layer by at least one spacer layer. This functional layer of the profile element of the component according to the invention, in particular the door leaf, serves to ensure that an optimal bond between the material of the functional layer and the material of the structural layer can be realized at any time in a cost-effective and economical manner for a wide variety of material combinations, in particular the material of the functional layer. It turned out to be advantageous if the spacer layer had a thickness of approx. 1 to 15 microns, preferably 2 to 10 microns. For economical and economical production, application quantities of approximately 1 to 40 g / m ^2, preferably 3 to 15 g / m ^{2, can be} applied. It has also proven to be extremely advantageous that the material of the spacer layer is selected from the group consisting of polyurethanes (PUR), acrylates, chloroprene, epoxy resins, ethylene vinyl acetates (for example EVA dispersions), and polyvinyl acetates (PVAC dispersions). and the like, and mixtures of two or more of the aforementioned substances.

It has furthermore proven to be advantageous that the functional layer of the profile element of the component according to the invention, in particular the door leaf, has a thickness of approximately 10 μm to 350 μm, preferably 15 μm to 300 μm, particularly preferably 20 to 300 μm. In addition to economical and cost-effective production of the profile element of the component according to the invention, in particular the door leaf, this advantageously leads to the functional layer of the profile element being optimally adaptable to the respective geometry of the frame elements, in particular the fold, of the component according to the invention, especially the door leaf.

The component according to the invention, in particular the door leaf, is further characterized in that the profile element fixed to the frame elements via the functional layer has a peel strength of at least 25 N / cm according to DIN 2851, measured on building panels, in particular door leaves.

The component according to the invention, in particular the door leaf, will now be described in more detail using these non-limiting exemplary embodiments.

• 1: perspektivische Darstellung eines erfindungsgemäßen Bauelements, insbesondere Türblatt,
• 2: perspektivische Schnittdarstellung eines einen Falz aufweisenden, erfindungsgemäßen Bauelement, insbesondere Türblatt mit einem Profilelement,
• 3: perspektivische Darstellung eines Profilelements des erfindungsgemäßen Bauelements, insbesondere Türblatt.

Show it:

• 1 : perspective view of a component according to the invention, in particular door leaf,
• 2nd 1 shows a perspective sectional illustration of a component according to the invention having a fold, in particular a door leaf with a profile element,
• 3rd : Perspective representation of a profile element of the component according to the invention, in particular door leaf.

In the 1 is a perspective view of a device according to the invention 1 , especially the door leaf.

The component 1 , in particular door leaf, includes frame elements 2nd , 3rd , 4th , 5 , at least the frame element 2nd at least one fold 6 has, in this embodiment by a profile element 7 the fold at his 6 narrow side, is covered.

The component 1 , in particular door leaf, is further designed so that there are a total of four frame elements 2nd , 3rd , 4th , 5 which are connected orthogonally, forming an approximately square frame.
At the top of the frame elements 2nd , 3rd , 4th , 5 is a first cover plate 12th arranged the the frame elements 2nd , 3rd , 4th , 5 covers the entire area.
On the cover plate 12th opposite side of the component 1 , especially the door leaf, is another cover plate 11 arranged which has the same geometry as the first cover plate 12th has and the bottom of the frame elements 2nd , 3rd , 4th , 5 covered.

The frame elements 2nd , 3rd , 4th , 5 In this exemplary embodiment, the component 1 according to the invention, in particular the door leaf, are made entirely of wood, in particular real wood, comprising cellulose, hemicellulose and lignin.

The frame element 2nd it is designed so that there is a fold over its long side 6 has, which is approximately orthogonal in cross section with a perpendicular to the cover plate 12th arranged rebate depth of about 25 millimeters and one at right angles and parallel to the cover plate 12th arranged fold width of about 13 millimeters.
On the frame element 2nd of the component according to the invention 1 , in particular door leaf, is the profile element in this embodiment 7 over the functional layer 9 cohesive with the fold 6 connected.
Even the profile element 7 is equivalent to the geometry of the frame element in this embodiment 2nd angled at the fold of the frame element 2nd fixed.
In this exemplary embodiment, the material of the functional layer has 9 of the profile element 7 a melt viscosity of about 5 Pas (Pascal seconds) at 200 ° C according to ISO 2884.
The material of the functional layer 9 of the profile element 7 of the component according to the invention 1 , in particular the door leaf, is a copolyamide in this exemplary embodiment and has a melt flow index MFI of approximately 282 g / 10 min. according to DIN ISO 1133 at 160 ° C / 1.20 kg.

This advantageous embodiment of the material of the functional layer 9 of the profile element 7 it is therefore possible for the first time that a fold 6 having frame element 2nd of the component according to the invention 1 , in particular the door leaf, to be sealed on its narrow side in a completely sealing and visually appealing manner.
Only through the use of the special material of the functional layer 9 of the profile element 7 is such an economical and inexpensive fixation and a closure of the frame element 2nd only possible.

In the 2nd is a perspective sectional view of a fold 6 having component according to the invention 1 , in particular door leaf with a profile element 7 shown.

The section shown of the component according to the invention 1 , in particular the door leaf, shows a part of the frame element 2nd and a further part of the frame element arranged thereon 5 . The frame elements 2, 5 are connected to one another by an adhesive known per se.

On the top of the frame elements shown on the left 2nd , 5 is a cover plate 12th arranged, which is integrally connected to the frame elements in 2, 5.
On the top of the cover plate 12th is a top layer in this embodiment 14 arranged, which is designed as a decorative film.
On the cover plate 12th of the component 1 , in particular door leaf, opposite side is another cover plate 11 arranged which with the frame element 2nd , 5 is cohesively connected. On the surface of the cover plate 11 is a top layer in this embodiment 13 , covering them all over, arranged.

The frame element 2nd of the component according to the invention 1 , in particular the door leaf, is a polygonal, in particular quadrangular, profiled wooden strip with a width of approximately 40 mm and a height of approximately 40 mm in cross section and has a fold in this exemplary embodiment 6 on.
The fold 6 is along the entire length of the frame element 2nd of the component according to the invention 1 , in particular door leaf, introduced.
The fold 6 has a rebate depth in this embodiment 61 of about 20 millimeters and an approximately orthogonal fold width 62 from about 15 millimeters.

The profile element 7 is about the functional layer 9 cohesive with the fold 6 of the frame element 2nd connected. In this exemplary embodiment, the material of the functional layer has 9 of the profile element 7 a melt viscosity of about 8 Pas (Pascal seconds) at 200 ° C according to ISO 2884 on.
The material of the functional layer 9 of the profile element 7 In this exemplary embodiment, it is also designed such that it has a crystalline density of approximately 1.12 g / cm ³ DIN EN ISO 1183-1 (2013-04) having. This extremely advantageous embodiment of the material of the functional layer 9 of the profile element 7 For the first time it is possible to optimally and optically fasten and cover the frame element made of real wood 2nd the component 1 according to the invention, in particular the door leaf.

The challenge for the component according to the invention 1 , in particular door leaf, is that profile element 7 Manufacture so that it both conforms to the geometry of a frame element 5 as well as the geometry of a fold 6 having, frame element 2nd can be attached or fixed.

In particular due to the complex geometry of a fold 6 with different fold depths 61 or rebate depths 62 it was previously not possible to fix the profile element effectively and optimally 7 to realize.
Only with the component according to the invention 1 , in particular door leaf, with the material found of the functional layer 9 of the profile element 7 it is possible for the first time to realize such an economical and inexpensive fixation without a joint in a visually appealing form, manufactured automatically.
It is with the component according to the invention 1 , in particular door leaf, surprisingly possible, the integral connection of the profile element 7 over the functional layer 9 with the frame elements made of wood, especially real wood 2nd , 3rd , 4th , 5 to realize economically and inexpensively using the currently possible methods by means of laser radiation, plasma radiation, microwave radiation, infrared radiation, hot air, and the like.

The material of the functional layer 9 of the profile element 7 of the component according to the invention 1 In this exemplary embodiment, in particular the door leaf, is a copolyamide which, starting from the polyamide formers selected from the group consisting of caprolactam, hexamethylene diamine, adipic acid, laurolactam and aminoundecanoic acid, is produced and a melt flow index MFI of approximately 270 g / 10 min. according to DIN ISO 1133 at 160 ° C / 1.20 kg.

Between the structural layer 8th and the functional layer 9 de of the profile element 7 of the component according to the invention 1 , in particular the door leaf, is a spacer layer in this exemplary embodiment 10th arranged, which is selected from the group of polyurethanes.
The material of the functional layer 9 of the profile element 7 demonstrates a tensile strength of about 720 MPa in this embodiment DIN EN ISO 527 and an elongation at break of about 410% DIN EN ISO 527 on.

As a structural layer 8th of the profile element 7 of the component according to the invention 1 , in particular door leaf, a layer is called the profile element 7 essentially gives their structure, their geometry as well as their design.

The material of the structural layer 8th of the profile element 7 can be selected from any material, for example from polymeric materials such as polyvinyl chloride (PVC); Polyolefin, such as polypropylene (PP) or polyethylene (PE); a styrene-based polymer such as polystyrene (PS) or styrene-butadiene copolymer with a predominant styrene content (SB) or acrylonitrile-styrene-acrylic ester copolymers (ASA) or acrylonitrile-butadiene-styrene copolymers (ABS) or styrene-acrylonitrile (SAN); Polybutylene terephthalate (PBT); Polyethylene terephthalate (PET); Polyoxymethylene (POM); Polyamide (PA); Polymethyl methacrylate (PMMA); Polyurethane (PUR); as well as mixtures of at least two of these materials. The polymeric material of the structural layer can 8th of the profile element 7 Suitable fillers and / or reinforcing materials can be added, which have a positive influence on the mechanical properties, in particular glass fibers, glass spheres, but also fillers such as chalk, Teflon and the like. The fillers and / or reinforcing materials are contained in amounts of about 5 to 50% by weight, preferably 10 to 35% by weight, based on the total mass.
The material of the functional layer 9 of the profile element 7 In this exemplary embodiment, it has a melting temperature range of approximately 120 ° C., so that the required energy input around the material of the functional layer 9 available, can be kept relatively low.

The material of the functional layer 9 of the profile element 7 of the component according to the invention 1 , in particular the door leaf, is a copolyamide which has at least one polyamide in this exemplary embodiment 6 , at least one polyamide 6.6 and at least one polyamide 12th includes. The material of the functional layer 9 of the profile element 7 contains a polyamide 6 about 45 to 35% by weight, a polyamide 6.6 to about 30 to 10 wt .-%, and a polyamide 12th about 45 to 35 wt .-%, based on the total mass.

By loading the functional layer in particular 9 of the profile element 7 of the component according to the invention 1 , in particular door leaf, with an energy from an energy source selected from the group consisting of laser source, infrared source, ultrasound source, magnetic field source, microwave source, plasma source and fumigation source and the like becomes the material of the functional layer 9 of the profile element 7 absorb the energy supplied by the energy source and heat up to a melting temperature range of approximately to 170 to 235 ° C.

In this state it is possible for the profile element 7 over the functional layer 9 with the fold 6 of the frame element 2nd of the component according to the invention 1 , especially door leaf, cohesively in an adhesive bond.

It is also within the scope of the invention that the material of the functional layer 9 of the profile element 7 of the component according to the invention 1 , in particular door leaf, contains light and / or radiation absorbing additives in an amount of 0.01 to 5% by weight, preferably 0.02 to 3.0% by weight, based on the total amount. In the specific embodiment, the material of the functional layer 9 of the profile element 7 an additive containing inorganic pigments in an amount of about 0.3% by weight, based on the total weight, this additive being selected from the group of metal phosphates, in particular copper hydroxide phosphate.

Due to the advantageous design of the profile element 7 of the component according to the invention 1 , in particular door leaf, in particular the material of the functional layer 9 it is surprisingly possible for the first time that the profile element 7 has a peel strength of at least 25 N / cm according to DIN 2851, measured on chipboard, and thus stands out from the previously known profile strips on the components, in particular door leaves, from the prior art.

Furthermore, it is with the functional layer 9 of the profile element 7 possible for the first time on the frame elements 2nd , 3rd , 4th , 5 edged components according to the invention 1 , in particular door leaf, which, when tested in the tests for moisture and climate resistance in accordance with the requirements of AMK leaflet AMK-MB-005, issue date 07/2007, lead to optimal results, ie that the components 1 , especially the door leaf, show almost no damage after completion of the test, such as cracks, joints, detachments or changes.

In the 3rd is a profile element 7 of the component according to the invention 1 , especially the door leaf.

The profile element 7 has a decorative layer 8th as well as a functional layer 9 on that over a spacer layer 10th are spaced from each other.
The material of the spacer layer 10th is selected from the group of polyurethanes (PUR), acrylates, chloroprene, epoxy resins, ethylene vinyl acetates (e.g. EVA- Dispersions), the polyvinyl acetates (PVAC dispersions) and the like, and mixtures of two or more of the aforementioned substances.

The material of the structural layer 8th of the profile element 7 can be selected from any material, for example from polymeric materials such as polyvinyl chloride (PVC); Polyolefin, such as polypropylene (PP) or polyethylene (PE); a styrene-based polymer such as polystyrene (PS) or styrene-butadiene copolymer with a predominant styrene content (SB) or acrylonitrile-styrene-acrylic ester copolymers (ASA) or acrylonitrile-butadiene-styrene copolymers (ABS) or styrene-acrylonitrile (SAN); Polybutylene terephthalate (PBT); Polyethylene terephthalate (PET); Polyoxymethylene (POM); Polyamide (PA); Polymethyl methacrylate (PMMA); Polyurethane (PUR); as well as mixtures of at least two of these materials. The polymer material of the structural layer of the profile element 7 Suitable fillers and / or reinforcing materials can be added, which have a positive influence on the mechanical properties, in particular glass fibers, glass spheres, but also fillers such as chalk, Teflon and the like. The fillers and / or reinforcing materials are present in amounts of about 2 to 50% by weight, preferably 5 to 35% by weight, based on the total mass.
The material of the functional layer 9 of the profile element 7 preferably has a copolyamide with a melt viscosity of about 50 mPas to 100 Pas (Pascal seconds), preferably of about 500 mPas to 50 Pas, at 200 ° C. according to ISO 2884.
The material of the functional layer 9 of the profile element 7 is selected from the group of polyamides (PA), preferably an aliphatic and / or partially aromatic and / or aromatic polyamide, the material of the functional layer being a copolyamide which, starting from polyamide formers, is selected from the group comprising caprolactam, laurolactam, aminoundecanoic acid, Hexamethylenediamine, adipic acid, azelaic acid, dodecanedioic acid, piperazine and the like, is produced and a melt flow index (MFI) of at least 150 g / 10 min., Preferably 190 g to 350 g / 10 min., Particularly preferably 200 g to 320 g / 10 min . according to DIN ISO 1133 at 160 ° C / 1.20 kg.

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

• EP 1163864 [0003]

Non-patent literature cited

• DIN EN ISO 1183-1 (2013-04) [0007, 0042]
• DIN EN ISO 868 [0016]
• DIN EN ISO 527 [0017, 0046]
• DIN EN 14370 [0018]
• ISO 2884 [0042]

Claims (11)

Component (1), in particular door leaf, comprising at least one frame element (2, 3, 4, 5), at least one frame element (2, 3, 4, 5) having at least one fold (6), and at least one profile element (7) comprising at least one decorative layer (8) and at least one functional layer (9), the functional layer (9) at least partially comprising a polyamide, preferably a copolyamide, characterized in that the frame element (2, 3, 4, 5) is at least partially made of Wood, in particular real wood, comprising cellulose, hemicellulose and lignin, is that the profile element (7) is integrally connected to at least one fold (6) via the functional layer (9), that the material of the functional layer (9) of the profile element (7) has a melt viscosity of approximately 50 mPas to 100 Pas (Pascal seconds), preferably approximately 500 mPas to 50 Pas, at 200 ° C. according to ISO 2884. Component (1) after Claim 1 , characterized in that the material of the functional layer (9) of the profile element (7) has a crystalline density ρ _c of at least 1.13 g / cm ³ according to DIN EN ISO 1183-1 (2013-04). Component (1) according to one of the preceding claims, characterized in that the material of the functional layer (9) of the profile element (7) has at least one copolyamide with a melting temperature range of approximately 170 to 235 ° C, preferably 180 to 220 ° C. Component (1) according to one of the preceding claims, characterized in that the material of the functional layer (9) of the profile element (7) has a Shore A hardness of at least 80 according to DIN EN ISO 868. Component (1) according to one of the preceding claims, characterized in that the functional layer (9) of the profile element (7) is arranged at a distance from the structural layer (8) via at least one spacer layer (10). Component (1) according to one of the preceding claims, characterized in that the side of the structural layer (8) of the profile element (7) arranged opposite the functional layer (9) of a surface treatment by a corona process, a flame treatment process, a plasma Process, a silicatization process, a silanization process and the like. Component (1) according to one of the preceding claims, characterized in that the functional layer (9) of the profile element (7) can be melted by means of laser radiation, plasma radiation, microwave radiation, infrared radiation, hot air and the like. Component (1) according to one of the preceding claims, characterized in that the material of the functional layer (9) and / or the material of the structural layer (8) of the profile element (7) light and / or radiation-absorbing additives in an amount of 0.01 contains up to 5% by weight, preferably 0.02 to 3.0% by weight, based on the total amount. Component (1) according to one of the preceding claims, characterized in that the material of the functional layer (9) and / or the material of the structural layer (8) of the profile element (7) contains at least one additive, partially containing inorganic and / or organic pigments contains an amount of about 0.01 to 5% by weight, preferably 0.02 to 3.0% by weight, based on the total amount. Component (1) according to one of the preceding claims, characterized in that the material of the functional layer (9) of the profile element (7) has polar groups based on amides, amines, carboxylic acids or their esters or salts, in particular acrylic acid, acrylic acid esters, silanes , Titanates, alcohols, imides, ammonium compounds or sulfonic acids or their esters or salts, blocked isocyanates or the like. Component ((1) according to one of the preceding claims, characterized in that the material of the functional layer (9) and / or the structural layer (8) contains at least one of the following additives: stabilizers to improve the resistance to the action of light, UV radiation and weathering ; Stabilizers to improve the thermal and thermo-oxidative resistance; Stabilizers to improve the hydrolytic resistance, Stabilizers to improve the acidolytic resistance, lubricants, mold release agents, color additives, crystallization regulating substances and nucleating agents, flame retardants, impact modifiers, fillers and / or plasticizers.

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