EP3827703A1 - Profile arrangement for building elements, furniture panels and the like - Google Patents

Abstract

The invention relates to a profile arrangement for components, furniture panels and the like, comprising at least one melt layer and at least one structural layer connected to the melt layer, both of which have at least partially a polymeric material, both of which have a defined width B of about 10 to 120 mm, preferably 15 to 100 mm, which is characterized in that the melt layer on at least one longitudinal edge side L3 at least partially has a smaller width B3 than the width B2 of the than the structure layer, that the structure layer on at least one longitudinal edge side L2 at least partially from the longitudinal edge side L3 of the Melt layer is spaced apart.

Description

The invention relates to a profile arrangement for components, furniture panels and the like, comprising at least one melt layer and at least one structural layer connected to the melt layer, both of which have at least partially a polymeric material, both of which have a defined width B of about 10 to 120 mm, preferably 15 to 100 mm.

It is known from the prior art that profile arrangements are attached or fixed in order to protect in particular the end faces of components, furniture panels and the like. Hot-melt adhesives, for example, are used here, but these lead to the creation of a visible joint between the profile arrangements and the structural elements, furniture panels, which are not visually appealing.

From the EP 1 163 864 a component, in particular a furniture panel and a method for its production is known. It is disclosed how a profile element can be fixed via a polymeric functional layer with wood-based materials by introducing heat, for example by using laser technology. In order to fix this profile element to structural elements, it is difficult with different materials to achieve a secure hold, in particular for the polymer profile element.

Furthermore, it is known from the prior art that when the profile arrangements are applied to the end faces of components, furniture panels and the like, when activating / melting the melt layer through thermal activation, for example, the problem can arise that the profile arrangements with their melted, partially liquid Glue the melt layer in the corresponding guide elements of the edge banding machines, contaminate them and are therefore difficult to transport, so that the manufacturing process is not yet optimal.

The invention is based on the object of providing a profile arrangement for components, furniture panels and the like, which overcomes the disadvantages of the prior art, which can be produced economically and inexpensively, which can be fixed to the end faces of components, furniture panels and the like with virtually no parting line which does not affect the manufacturing process of the components, furniture panels and the like and which has a high level of moisture resistance, particularly in the connection area to the end faces of the components, furniture panels and the like.

In order to achieve this object, the invention provides a profile arrangement with the features according to claim 1, as well as a building board, furniture board and the like with at least one such profile arrangement.

It has surprisingly been found that a profile arrangement for components, furniture panels and the like, comprising at least one melt layer, as well as at least one structural layer connected to the melt layer, both of which have at least partially a polymeric material, both of which have a defined width B of about 10 to 120 mm, preferably 15 to 100 mm, is characterized in that the melt layer on at least one longitudinal edge side L3 at least partially has a smaller width B3 than the width B2 of the than the structure layer, that the structure layer on at least one longitudinal edge side L2 at least partially from the The longitudinal edge side L3 of the melt layer is arranged spaced apart. With the profile arrangement according to the invention, it is surprisingly possible to optimize the production of components, furniture panels and the like even further and to significantly reduce the breakdown and maintenance intervals of the edge banding machines that sometimes occurred in the past. A further advantage of the profile arrangement according to the invention is that, on the one hand, the corresponding edge banding machines are simpler and more optimally designed / manufactured and, on the other hand, the manufacture or production of such components, furniture panels and the like can be realized faster, easier and less maintenance. Another advantage of the profile arrangement according to the invention is that, on the one hand, the optimized melt layer enables optimal and joint-free fixation on the end faces of the components, furniture panels and the like and, on the other hand, material and / or energy savings can be achieved in the manufacturing process.

The invention has recognized that the melt layer on at least one longitudinal edge side L3 has an approximately 0.2-8.5%, preferably 05 to 4.7% smaller width B3 than the width B2 of the Has structural layer. As a result, the profile arrangement according to the invention can be produced both economically and inexpensively.

In a further advantageous embodiment of the profile arrangement according to the invention, the structure layer is arranged on at least one longitudinal edge side L2 at least 0.1-4.0 mm, preferably 0.15-2.0 mm from the longitudinal edge side L3 of the melt layer. The profile arrangement according to the invention can thus be individually adapted to the various components, furniture panels and the like as well as to the edge banding machines used for optimal production.

Another advantage of the profile arrangement according to the invention is that the material of the melt layer has a melt viscosity of about 0.05 Pas to 15 Pas (Pascal seconds), preferably from about 0.1 Pas to 10 Pas, at 210 ° C. in accordance with ISO 2884 and on at least one longitudinal edge side L3 has a width B3 that is approximately 0.5-4.7% smaller than the width B2 of the structure layer. It is also advantageous in the inventive profile arrangement that the material of the melting layer a melt volume rate (MVR) of 60 to 150 cm ^3/10 min. Preferably 85 and 125 cm ^3/10 min. In accordance with DIN ISO 1133 at 140 ° C / 1 20 kg and on the longitudinal edge side an approximately 0.5-4.7% smaller width B3 than the width B2 of the structure layer. As a result, profile arrangements according to the invention can be made available which can be produced economically and inexpensively, which can be fixed to the end faces of components, furniture panels and the like with virtually no parting line, which does not affect the production process of the components, furniture panels and the like and which especially in the connection area the end faces of the components, furniture panels and the like. Has a high level of moisture resistance.

The profile arrangement according to the invention is further characterized in that the material of the melt layer has a melt viscosity of about 0.05 Pas to 15 Pas (Pascal seconds), preferably from about 6 Pas to 10 Pas, at 210 ° C according to ISO 2884 and at least one Longitudinal edge side L3 has a width B3 that is approximately 0.5-2% smaller than the width B2 of the structure layer. Furthermore, the profile arrangement according to the invention is designed so that the material of the melting layer a melt volume rate (MVR) of 60 to 90 cm ^3/10 min. Preferably, 65 to 85 cm ^3/10 min. In accordance with DIN ISO 1133 at 140 ° C / 1 20 kg and on the longitudinal edge side an approximately 0.5-2% smaller width B3 than the width B2 of the structure layer. The invention has recognized that the profile arrangement can only be produced economically and inexpensively when, in the case of a component, Furniture board and the like, a melt layer which has a smaller width than the structural layer is used, which has such an optimal melt viscosity in accordance with ISO 2884. After extensive tests with a wide variety of materials for the melt layer of the profile arrangements, it was surprisingly found that in the selected ranges of melt viscosity of the material of the melt layer /: Melt volume rate MVR, despite the narrower width of the melt layer, it is possible to place the face of a component, a furniture panel and the like , to close optically without a parting line economically and inexpensively, without the water resistance of the component, the furniture board and the like is impaired.

It is also advantageous in the profile arrangement according to the invention that the material of the melt layer has a melt viscosity of about 0.1 Pas to 10 Pas (Pascal seconds), preferably of about 0.05 Pas to 5.5 Pas, at 210 ° C. in accordance with ISO 2884 and has a width B3 approximately 1.2-3.5% smaller than the width B2 of the structure layer on at least one longitudinal edge side L3. Also advantageous in the inventive profile arrangement is that the material of the enamel layer min a melt volume rate (MVR) of about 95 to 150 cm ^3/10., Preferably 95 and 125 cm ^3/10 min. In accordance with DIN ISO 1133 at 140 ° C / 1 , 20 kg and on the longitudinal edge side an approximately 1.2-3.5% smaller width B3 than the width B2 of the structure layer. Here, too, it was surprisingly found through various experiments that for these ranges of the melt viscosity of the material of the enamel layer, precisely because of the even smaller width of the enamel layer, it is possible without any problems to manufacture the components, furniture panels and the like economically and inexpensively and that when they are attached, the Profile arrangements according to the invention on the end faces of the components, furniture panels and the like, an optimized adhesive strength or peel strength with simultaneously better moisture resistance can be realized.

In particular, due to the advantageous properties of the material of the melt layer of the profile arrangement according to the invention for components, furniture panels and the like, this is both adhesive-free with energy from an energy source selected from the group laser source, infrared source, ultrasound source, magnetic field source, microwave source, plasma source and hot air source and the like applied for edging the end faces of components, furniture panels and the like can be used.

In a further advantageous embodiment of the profile arrangement according to the invention for components, furniture panels and the like, it has been shown that the side of the structural layer arranged opposite the melt layer has been subjected to a surface treatment by a corona process, flame treatment, plasma process, silicate process, silanization process and the like. As a result, an optimized bond of the melt layer with the structural layer of the profile arrangement according to the invention for components, furniture panels and the like, for the most varied of material combinations, in particular the melt layer, can be implemented in an optimized manner.

In a likewise advantageous embodiment of the profile arrangement according to the invention for components, furniture panels and the like, it has been shown that the material of the melt layer and / or the material of the structural layer light and / or radiation absorbing additives in an amount of 0.01 to 5 wt .-% , preferably 0.02 to 3.0 wt .-%, based on the total amount, incorporated. In this embodiment of the profile arrangement according to the invention for components, furniture panels and the like, this can be optimally welded by laser joining processes known per se by the targeted introduction of energy into the material of the melt layer and / or the structural layer on the narrow sides of components, furniture panels and the like.

It has also been found to be advantageous that the material of the enamel layer and / or the material of the structural layer of the profile arrangements contains at least one additive, some of which contains inorganic and / or organic pigments, in an amount of about 0.01 to 5.0% by weight. , preferably 0.02 to 3.0 wt .-%, based on the total amount, incorporated. This makes it possible to attach the profile arrangement according to the invention over the melt layer with all currently known methods that can be activated by radiation on the end faces of structural elements, furniture panels and the like, inexpensively and economically.
Another advantage of the profile arrangement according to the invention for components, furniture panels and the like is that the additive of the enamel 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. By selecting the additives, a profile arrangement according to the invention can be made available that is optimized in each case for the radiation-activated attachment method but also for the materials of the components, furniture panels and the like.

In a further advantageous embodiment of the profile arrangement according to the invention for components, furniture panels and the like, the material of the enamel layer of the profile arrangement 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. Due to the various possibilities of arranging polar groups in the material of the enamel layer, a profile arrangement according to the invention for components, furniture panels and the like can be provided in which the material of the enamel layer has both polar and non-polar components.

By varying in particular the polar groups in the material of the enamel layer, it is possible for the first time to provide a profile arrangement according to the invention for components, furniture panels and the like, in which the material of the enamel layer is so optimized that, when used as intended, the profile arrangement cohesively with the end face of the component, furniture panels and the like, both optimal strength values or peel strength values and the same or better moisture resistance values can be achieved.

Another advantage of the profile arrangement according to the invention for components, furniture panels and the like is that the material of the structural layer 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); Polyetheretherketone (PEEK); Polyphenylene sulfide (PPS); Liquid crystal polymer (LCP); Polyamide imides (PAI); Polyvinylidene fluoride (PVDF); Polyphenyl sulfone (PPSU); Polyaryletherketone (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 are based. In this case, suitable fillers and / or reinforcing materials, which have a positive effect on the mechanical properties, in particular glass fibers, glass spheres, can be admixed with the polymeric material of the structural layer of the profile arrangement but also fillers such as chalk, talc, Teflon and the like. The fillers and / or reinforcing materials are contained 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, in particular, to close the geometry of the end faces of the components, furniture panels and the like in an automated and optimized manner using a profile arrangement in a sealing and visually appealing manner.

Furthermore, the profile arrangement according to the invention for components, furniture panels and the like is advantageously designed so that the material of the melt layer and / or the structural layer of the profile arrangement contains at least one of the following additives: stabilizers to improve the resistance to exposure to light, UV radiation and weathering; Stabilizers to improve thermal and thermo-oxidative resistance; Stabilizers to improve hydrolytic resistance, stabilizers to improve acidolytic resistance, lubricants, mold release aids, coloring additives, crystallization-regulating substances and nucleating agents, flame retardants, impact modifiers, fillers and / or plasticizers. Thus, a profile arrangement according to the invention for construction elements, furniture panels and the like can be made available, which on the one hand can be produced economically and inexpensively, but which also has important moisture resistance values known from the prior art or peel strength values for construction elements, furniture boards and the like improved.

The profile arrangement according to the invention for components, furniture panels and the like is also designed such that the material of the melt layer is arranged at a distance from the structural layer via at least one functional layer. This functional layer of the profile arrangement according to the invention for components, furniture panels and the like is used to ensure that an optimal bond between the material of the enamel layer and the material of the structural layer for a wide variety of material combinations, in particular the material of the functional layer, can be implemented cost-effectively and economically at any time. It was also found to be advantageous if the functional layer has a thickness of approximately 0.5 to 15 μm, preferably 1 to 10 μm. For cost-effective and economical production, application quantities of about 1 to 40 g / m ^2, preferably 5 to 30 g / m ^{2, can be} applied.

It has also proven to be extremely advantageous that the material of the functional layer is selected from the group of polyurethanes (PUR), acrylates, chloroprenes, epoxy resins, ethylene vinyl acetates (e.g. EVA dispersions), polyvinyl acetates (PVAC dispersions) and the like, as well as mixtures of two or more of the aforementioned substances.

Another advantage of the profile arrangement according to the invention is that the functional layer on at least one longitudinal edge side L5 has at least partially a smaller width B5 than the structural layer, that the structural layer is arranged on at least one longitudinal edge side L2 at least partially spaced from the longitudinal edge side L5 of the functional layer. As a result, an economical and inexpensive production of the profile arrangement according to the invention is possible and also an optimized, almost trouble-free production of components, furniture panels and the like.

It has also been found to be advantageous that the melt layer of the profile arrangement according to the invention for components, furniture panels and the like has a thickness of approximately 50 μm to 400 μm, preferably 100 μm to 300 μm, particularly preferably 100 to 250 μm. In addition to an economical and cost-effective production of the measurement profile arrangement, this advantageously means that the melt layer can be optimally adapted to the respective geometry of the end faces of the components, furniture panels and the like.

The profile arrangement according to the invention for components, furniture panels and the like is further characterized in that the profile arrangement fixed on the end faces of the components, furniture panels and the like via the melt layer has a peel strength of at least 15 N / cm according to DIN 2851, measured on components, furniture panels and has the like.

The profile arrangement according to the invention for components, furniture panels and the like will now be described in more detail using the following non-limiting exemplary embodiments.

Fig. 1:

perspektivische Darstellung einer Profilanordnung aus dem Stand der Technik neben der Stirnseite eines Bauelements, Möbelplatte,

Fig. 2:

perspektivische Darstellung einer Profilanordnung aus dem Stand der Technik fixiert an der Stirnseite eines Bauelements, Möbelplatte,

Fig. 3:

perspektivische Darstellung einer erfindungsgemäßen Profilanordnung neben der Stirnseite einer Möbelplatte.

Fig. 4:

perspektivische Darstellung eines einen Falz aufweisenden, Bauelements, insbesondere Türblatt mit einer erfindungsgemäßen Profilanordnung,

Show it:

Fig. 1:

perspective illustration of a profile arrangement from the prior art next to the front side of a component, furniture panel,

Fig. 2:

perspective view of a profile arrangement from the prior art fixed to the end face of a component, furniture panel,

Fig. 3:

perspective view of a profile arrangement according to the invention next to the end face of a furniture panel.

Fig. 4:

perspective illustration of a structural element having a rebate, in particular a door leaf with a profile arrangement according to the invention,

In the Fig. 1 is a perspective view of a profile arrangement 1 from the prior art next to the end face 40 of a component, furniture panel 4 is shown.

The profile arrangement 1 from the prior art has a structure layer 2 and a melt layer 3 connected to it. The width B2 of the structural layer 2 is approximately equal to the width B3 of the melting layer 3, in this exemplary embodiment approximately 20 mm. Furthermore, a component, furniture panel 4 is shown, which has an end face 40. The end face 40 of the component, furniture panel 4 has a thickness B4, in this exemplary embodiment of approximately 19 mm.

In the prior art, it has so far been the case that the width B2 of the structural layer 2 and the width B3 of the melt layer 3 are greater than the width B4 of the end face 40 of the component, furniture panel 4, as can be seen from the dashed lines on the structural layer 2 .
With the help of an activation device 10, the melt layer 3 of the profile arrangement 1 is activated / heated so that it is converted into an approximately molten state and is then pressed against the respective end face 40 of the component, furniture panel 4 and thus fixed by pressure elements (not shown).

In subsequent work steps in the prior art, the remainder of the profile arrangement 1 protruding beyond the width B4 of the end face 40 of the component, furniture panel 4, is then reduced by machining processes along the longitudinal edge until the width B2 of the structural layer 2 / the width B3 of the melt layer 3 approximately the width B4 of the end face 40 of the component, furniture panel 4 corresponds, as described below Fig. 2 shown.

In the Fig. 2 is a perspective view of a profile arrangement 1 from the prior art fixed to an end face 40 of a component, furniture panel 4 is shown.

The profile arrangement 1 (prior art) is fixed with its structure layer 2 on the front side 40 of the furniture panel 4 via the no longer visible, recognizable melt layer.

The profile arrangement 1 was on its two opposite longitudinal edge sides L2 (see Figure 1 ) processed by a machining operation in such a way that the width B2 of the structural layer 2 of the profile arrangement 1 now corresponds approximately to the width B4 of the end face 40 of the furniture panel 4.

The Figure 3 shows a perspective illustration of a profile arrangement 1 according to the invention next to the end face 40 of a furniture panel 4.

The profile arrangement 1 for components, furniture panels 4 and the like comprises a melt layer 3, as well as at least one structural layer 2 connected to the melt layer 3, both of which have at least partially a polymer material, both of which have a defined width B2, B3 of about 10-120 mm , preferably 15-100 mm.

The profile arrangement 1 according to the invention is designed in such a way that the melt layer 3 on at least one longitudinal edge side L3 at least partially has a smaller width B3 than the width B2 of the structural layer 2. The profile arrangement 1 according to the invention is also designed such that the structural layer 2 is arranged on at least one longitudinal edge side L2 at least partially at a distance from the longitudinal edge side L3 of the melt layer 3.
Furthermore, the profile arrangement 1 according to the invention is designed such that the melt layer 3 has a width B3 about 0.5-4.7% smaller than the width B2 of the structural layer 2 on at least one longitudinal edge side L3, in this exemplary embodiment about 1 percent.

The profile arrangement 1 according to the invention is further characterized in that the structural layer 2 on at least one longitudinal edge side L2 is at least 0.1-4.0 mm, preferably 0.15-2.0 mm, in this exemplary embodiment about 0.5 mm from the longitudinal edge side L3 of the melt layer 3, is arranged.
The melt layer 3 of the profile arrangement 1 according to the invention serves, when used as intended, to seal the oppositely disposed end face 40 of the furniture panel 4 with a material fit by means of an adhesive bond, in a visually appealing manner. In this exemplary embodiment, the end face 40 of the furniture panel 4 has a width B4 of approximately 19 mm.

In this exemplary embodiment, the profile arrangement 1 according to the invention is designed such that the width B3 of the melt layer 3 is roughly equal to the width B4 of the end face 40 of the furniture panel 4.

Furthermore, the profile arrangement 1 according to the invention is designed such that the material of the melt layer 3 has a melt viscosity of approximately 0.05 Pas to 15 Pas (Pascal seconds), preferably of approximately 0.1 Pas to 10 Pas, at 210 ° C. in accordance with ISO 2884 and has a width B3 approximately 0.5-4.7% less than the width B2 of the structural layer 2 on at least one longitudinal edge side L3. Another advantage of the profile arrangement 1 according to the invention is that the material of the melt layer 3 has a melt volume rate (MVR) of 60 to . 150 cm ^3/10 min, preferably 85 and 125 cm ^3/10 min according to DIN ISO 1133 at 140 ° C / 1.20 kg and along the edge side, about a 0.5 -. 4.7% smaller width than the width B2 B3 the structure layer 2 has.
In this exemplary embodiment, the profile arrangement 1 according to the invention is designed such that the material of the melt layer 3 has a melt viscosity of approximately 0.1 Pas to 10 Pas (pascal seconds), preferably from approximately 0.05 Pas to 5.5 Pas, at 210 ° C. ISO 2884 and has a width B3 approximately 1.2-3.5% smaller than the width B2 of the structural layer 2 on at least one longitudinal edge side L3. Also advantageous in the inventive profile arrangement 1 is that the material of the enamel layer 2 min a melt volume rate (MVR) of about 95 to 150 cm ^3/10., Preferably 95 and 125 cm ^3/10 min. In accordance with DIN ISO 1133 at 140 ° C / 1.20 kg and on the longitudinal edge side an approximately 1.2-3.5% smaller width B3 than the width B2 of the structural layer.
Due to the advantageous configuration of the profile arrangement 1 according to the invention, in particular the width B3 of the melt layer 3, it is surprisingly possible for the first time that the profile arrangement 1 according to the invention has a peel strength of at least 15 N / cm according to DIN 2851, measured on chipboard, and thus differs from the previous known profile arrangements from the prior art stands out.

In the Figure 4 a perspective view of a component 4 having a fold 6 with a profile arrangement 1 according to the invention is shown.

In this exemplary embodiment, the component 4 has a fold 6 with a defined fold depth 61 and a defined fold width 62 arranged at right angles thereto; in this exemplary embodiment, the fold depth 61 is approximately 25 millimeters and the fold width 62 is approximately 13 millimeters.

The profile arrangement 1 according to the invention is designed in such a way that it has a melt layer 3 and at least one structural layer 2 connected to the melt layer 3, both of which have at least partially a polymer material, both of which have a defined width B2, B3 of about 10-120 mm, preferably 15-100 mm, in this exemplary embodiment 60 mm.
In this exemplary embodiment, the profile arrangement 1 according to the invention is designed in such a way that the melt layer 3 at least partially has a smaller width B3 than the width B2 of the structural layer 2 on at least one longitudinal edge side L3. The structural layer 2 of the profile arrangement 1 according to the invention is arranged on at least one longitudinal edge side L2 at least partially at a distance from the longitudinal edge side L3 of the melt layer 3.

Furthermore, the profile arrangement 1 according to the invention is designed such that the melt layer 3 on at least one longitudinal edge side L3 has a width B3 that is approximately 0.5-4.7%, in this exemplary embodiment 1.2 percent, smaller than the width B2 of the structural layer 2.

The profile arrangement 1 according to the invention is also designed in such a way that the structural layer 2 on at least one longitudinal edge side L2 is at least 0.1-4.0 mm, preferably 0.15-2.0 mm, in this exemplary embodiment about 0.5 mm from the longitudinal edge side L3 the melt layer 3 is spaced apart.
The profile arrangement 1 according to the invention is further characterized in that the material of the melt layer 3 has a melt viscosity of about 0.05 Pas to 15 Pas (Pascal seconds), preferably from about 0.1 Pas to 10 Pas, at 210 ° C. in accordance with ISO 2884 and on at least one longitudinal edge side L3 has a width B3 that is approximately 0.5-4.7% smaller than the width B2 of the structural layer 2 Profile arrangement 1 is that the material of the enamel layer 3 has a melt volume rate (MVR) of 60 to 150 cm ^3/10 min., Preferably from 85 to 125 cm ^3/10 min. In accordance with DIN ISO 1133 at 140 ° C / 1.20 kg and Has a width B3 about 0.5-4.7% smaller than the width B2 of the structural layer 2 on the longitudinal edge side.
In this exemplary embodiment, the profile arrangement 1 according to the invention is designed such that the material of the melt layer 3 has a melt viscosity of approximately 0.05 Pas to 15 Pas (Pascal seconds), preferably of approximately 6 Pas to 10 Pas, at 210 ° C. in accordance with ISO 2884 and has a width B3 that is approximately 0.5-2% smaller than the width B2 of the structural layer 2 on at least one longitudinal edge side L3. Furthermore, the profile arrangement 1 of the invention configured such that the material of the enamel layer 3 has a melt volume rate (MVR) of 60 to 90 cm ^3/10 min., Preferably 65 to 85 cm ^3/10 min. In accordance with DIN ISO 1133 at 140 ° C / 1.20 kg and on the longitudinal edge side an approximately 0.5-2% smaller width B3 than the width B2 of the structural layer 2. Furthermore, the melt layer 3 of the profile arrangement 1 according to the invention is designed in this exemplary embodiment in such a way that it has a width B3 which is smaller than the width B4 of the building board 4.

The invention has recognized that the profile arrangement 1 according to the invention in this embodiment, due to the changed properties of the material of the melt layer 3 with a further reduced width B3 of the melt layer 3, the profile arrangement 1 according to the invention on the end face 40 of the component 4, this optically appealing, sealing is fixable.

By applying in particular the melt layer 3 of the profile arrangement 1 according to the invention with an energy from an energy source selected from the group of laser sources, infrared sources, ultrasound sources, magnetic field sources, microwave sources, plasma sources and gassing sources and the like, the material of the melt layer 3 of the profile arrangement 1 according to the invention takes the supplied by the energy source Energy and heats up to a melting temperature range of about 140 to 180 ° C. In this state it is possible to bring the profile arrangement 1 into an adhesive bond via the melt layer 3 with the fold 6 of the frame element 4.

It is also within the scope of the invention that the material of the melt layer 3 of the profile arrangement 1 according to the invention, light- and / or radiation-absorbing additives in an amount of 0.01 to 5 wt .-%, preferably 0.02 to 3.0 wt .- % of the total amount stored. In the specific embodiment, the material has the Melt layer 3 of the profile arrangement 1 according to the invention 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.

In this exemplary embodiment, the profile arrangement 1 according to the invention has a structure layer 2 and a melt layer 3, which are arranged at a distance from one another via a functional layer 5. The material of the functional layer 5 is selected from the group of polyurethanes (PUR), acrylates, chloroprenes, epoxy resins, ethylene vinyl acetates (for example EVA dispersions), polyesters, polyvinyl acetates (PVAC dispersions) and the like, as well as mixtures made of two or more of the aforementioned substances, in this embodiment polyurethane (PUR).
In this exemplary embodiment, the material of the melt layer 3 of the profile arrangement 1 has a tensile strength of approximately 720 MPa in accordance with DIN EN ISO 527 and an elongation at break of approximately 410% in accordance with DIN EN ISO 527.
The material of the structural layer 2 of the profile arrangement according to the invention one can be selected from any materials, 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, in this embodiment polypropylene (PP). Suitable fillers and / or reinforcing materials can be added to the polymeric material of the structural layer 2 of the profile arrangement 1 according to the invention, which have a positive effect 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 2 to 50% by weight, preferably 5 to 35% by weight, based on the total mass.

Claims (11)

Profile arrangement (1) for structural elements, furniture panels and the like, comprising at least one melt layer (3) and at least one structural layer (2) connected to the melt layer (3), both of which have at least some of a polymer material, both of which have a defined width ( B2, B3) of about 10 to 120 mm, preferably 15 to 100 mm, characterized in that the melt layer (3) on at least one longitudinal edge side L3 at least partially has a smaller width B3 than the width B2 of the structure layer (2), that the structural layer (2) is arranged on at least one longitudinal edge side L2 at least partially at a distance from the longitudinal edge side L3 of the melt layer (3). Profile arrangement (1) according to Claim 1, characterized in that the melt layer (3) on at least one longitudinal edge side L3 has a width B3 that is approximately 0.2-8.5%, preferably 0.5-4.7% smaller than the width B2 the structure layer (2). Profile arrangement (1) according to one of the preceding claims, characterized in that the structural layer (2) on at least one longitudinal edge side L2 at least 0.10-4.0 mm, preferably 0.15-2.0 mm from the longitudinal edge side L3 of the melt layer ( 3) is spaced apart. Profile arrangement (1) according to one of the preceding claims, characterized in that the material of the melt layer (3) has a melt viscosity of about 0.05 Pas to 15 Pas (Pascal seconds), preferably from about 0.1 Pas to 10 Pas, at 210 ° C according to ISO 2884 and on at least one longitudinal edge side L3 has a width B3 which is approximately 0.5-4.7% smaller than the width B2 of the structural layer (2). Profile arrangement (1) according to any one of the preceding claims, characterized in that the material of the enamel layer (3) min, a melt volume rate (MVR) of 60 to 150 cm ^3/10 min., Preferably from 85 to 125 cm ^3/10 min. In accordance with DIN ISO 1133 at 140 ° C / 1.20 kg and on the longitudinal edge side an approximately 0.5-4.7% smaller width B3 than the width B2 of the structural layer (2). Profile arrangement (1) according to one of the preceding claims, characterized in that the material of the melt layer (3) and / or the material of the structural layer (2) light- and / or radiation-absorbing additives in an amount of 0.01 to 5 wt. %, preferably 0.02 to 3.0% by weight, based on the total amount, incorporated. Profile arrangement (1) according to one of the preceding claims, characterized in that the material of the melt layer (3) and / or the material of the structural layer (2) contains at least one additive, partially containing inorganic and / or organic pigments, in an amount of about 0 .01 to 5% by weight, preferably 0.02 to 3.0% by weight, based on the total amount, incorporated. Profile arrangement (1) according to one of the preceding claims, characterized in that the material of the melt layer (3) and / or the structural layer (2) 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 thermal and thermo-oxidative resistance; Stabilizers to improve hydrolytic resistance, stabilizers to improve acidolytic resistance, lubricants, mold release aids, coloring additives, crystallization-regulating substances and nucleating agents, flame retardants, impact modifiers, fillers and / or plasticizers. Profile arrangement (1) according to one of the preceding claims, characterized in that the material of the melt layer (3) is arranged at a distance from the structural layer (2) via at least one functional layer (5). Profile arrangement (1) according to claim 9, characterized in that the functional layer (5) at least partially on at least one longitudinal edge side L5 has a smaller width B5 than the width B2 of the structural layer (2) that the structural layer (2) is arranged on at least one longitudinal edge side L2 at least partially at a distance from the longitudinal edge side L5 of the functional layer (5). Building board, furniture board and the like with a profile arrangement (1) according to at least one of Claims 1 to 10.

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