• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Coated panel with a substrate (6) and a decorative top layer (7), the substrate (6) comprising an optionally filled plastic composite, the coated panel (1) on at least a first pair of two opposite edges (2-3 ) is provided with mechanical coupling means (15) which allow two such panels (1) to be coupled to each other at the respective first pair of edges (2-3) whereby a locking is obtained both in a vertical direction (V1) perpendicular to the plane of the joined panels (1), as in a horizontal direction (H1) perpendicular to the respective edges (2-3) and in the plane of the joined panels (1), characterized in that said mechanical coupling means (15) or coupling members permitting a shift in the direction along the engaged edges, and wherein a horizontal active locking and/or contact surface (23) is formed on the second pair of opposite edges, preferably directly below the position e where the top surfaces of the joined panels (1) abut each other, and that this contact surface (23) is formed substantially, and preferably exclusively, on a compressible portion of the substrate and/or the top layer.
    公开号:BE1028491B1
    申请号:E20205843
    申请日:2020-11-23
    公开日:2022-02-15
    发明作者:Christophe Naeyaert;Dries Brouckaert;Bryan Rollier
    申请人:Unilin;
    IPC主号:
    专利说明:

    Upholstered panel.
    This invention relates to a coated panel.
    In particular, the invention relates to coated panels having a substrate and a decorative top layer, the decorative top layer comprising a print and a transparent top layer applied above. Such panels are widely known, for example from WO 97/47834, WO 2006/066776, WO 2010/023042 and WO2011/077311 and can imitate, for example, parquet panels or stone or ceramic tiles. It is known from WO 97/47834 to provide such panels with coupling means, such that a floating floor covering can be assembled on the basis of such panels.
    The coated panels of WO 97/47834 and WO 2006/066776 comprise a wood-based core, for example from HDF, covered with a hard decorative laminate top layer. As a result, the floor panels of the WO'834 are sensitive to moisture penetration and lead to a walking noise that is experienced as annoying when in use. In addition, the panels of WO 834 are subject to dimensional change with a change in ambient humidity.
    The panels from WO 2010/023042 and WO 2011/077311 describe panels with a flexible core of, for example, soft PVC and with a thermoplastic layer as wear layer, for example also made of PVC. Such panels are constructed of water resistant material and provide a more acceptable walking noise. However, such panels are also subject to dimensional change, but only with a change in the temperature of the environment. In contrast to humidity, the ambient temperature can be significantly less uniform over a paneled surface. With panels, such as those from WO'042 and WO'311, this can lead to local expansion phenomena, for example where sunlight falls directly on the cladding. In the market, such local expansion phenomena are referred to as “hot spots”. The inventors have found that the floor coverings composed with the prior art panels can hereby rise locally and form a kind of bubbles, and/or the seams between the panels concerned can protrude. The latter phenomenon is sometimes referred to in the market as “peaking”.
    The present invention primarily contemplates an alternative coated panel, which according to various preferred embodiments offers a solution to the problems with the coated panels of the prior art.
    To this end, according to a first independent aspect, the present invention relates to a coated panel with a substrate and a decorative top layer, the substrate comprising an optionally filled, preferably thermoplastic, plastic layer, the coated panel having two opposite edges on at least a first pair. is of mechanical coupling means which allow two such panels to be coupled to each other at the respective first pair of edges, whereby a locking is obtained both in a vertical direction perpendicular to the plane of the coupled panels and in a horizontal direction perpendicular to the respective edges and in the plane of the joined panels, characterized in that the aforesaid mechanical coupling means or coupling parts allow a displacement in the direction along the joined edges, and wherein a horizontal active locking and/or contact surface is formed on the second pair of opposite edges , b Preferably immediately below the position where the top surfaces of the joined panels abut each other, and that this contact surface is formed substantially, and preferably exclusively, on a compressible portion of the substrate and/or the top layer.
    Because a shift is possible at a first pair of edges, any local expansion in the direction of the first pair of edges can always be accommodated by a shift. At the first and/or second pair of edges, the compressibility at the horizontal active locking or contact surface ensures that no disturbing deformation or pushing up of the seams is caused by the expansion perpendicular to the direction of those edges.
    Preferably, rows of panels are formed in a floor covering composed of clad panels of the invention, wherein at least the first pair of edges extends in each case in the direction of the row concerned. In this way, the risk of bubble formation and peaking can be minimized most effectively. For example, they may be rectangular and elongate panels, where they are installed in rows extending in the longitudinal direction of the panels. In this case, the long pair of edges of the roach. Preferably both features, namely both the slidability and the compressible horizontal active locking surface, are present at least on the first pair of edges, which preferably form a long pair of edges of an elongate panel.
    According to a practical embodiment, said horizontally active locking or contact surface is formed on a first layer of the substrate and optionally on the decorative top layer above it, said first layer being softer than a second layer of the substrate below. Preferably, both the first layer and the second layer, optionally filled, are plastic layers, preferably thermoplastic plastic layers. Preferably, both the first layer and the second layer contain PVC, said first layer of the substrate having a higher plasticizer content than the underlying second layer. Preferably, the first layer comprises at least 5 phr more plasticizer than said second layer.
    The aforesaid mechanical coupling means or coupling parts of the first pair of opposite edges can be formed with a clearance, fitting or clamping. Of course, any clamping may only influence the required displacement capability in a non-significant manner.
    Preferably, the energy per unit length required to mutually shift the first pair of edges in the engaged state by a certain distance, is less than the energy per unit length required to shift the second pair of edges in an installed state of two of such panels, over the same distance. The energy can be obtained by including the exerted force as a function of the obtained displacement over the relevant distance to be shifted. The area under the obtained curve is the required energy. Preferably, the energy required at the first pair of edges per unit length of those edges coupled is less than 90%, or even less than 75%, of the energy required at the second pair of edges per unit length of these edges joined together. In order to keep the installed, coupled or merged length constant when determining the relevant energy, it is possible to make one edge significantly longer than the other edge, such that during the complete offset recording the relevant length is equal to the length of the aforementioned other edge. It is clear that a smaller energy requirement results in a better shiftability of the first pair of edges compared to the shiftability of the second pair of edges.
    Preferably, the force required to overcome the static holding force is less, per unit length, at the first pair of edges when engaged than at the second pair of edges when installed or joined of two such panels. The force required to overcome the static holding force is the maximum force that is reached before the edges start to slide against each other. It is clear that a smaller static holding force results in better slidability of the first pair of edges compared to the slidability of the second pair of edges.
    Preferably, the static holding force at the first pair of edges is less than 25N per meter from the engaged edges, and preferably less than 10N per meter from the engaged edges. In combination with the above preferred embodiment, the static holding force at the second pair of edges is preferably greater than 25N and greater than 10N, respectively, per meter of the engaged edges.
    Preferably, the aforesaid mechanical coupling means of the first pair of rims is formed as a tongue and a groove bounded by an upper lip and a lower lip, said tongue and groove being provided with locking parts which move said tongue apart and counteracting a groove in said horizontal direction, wherein said lower lip is preferably, in a coupled condition, unloaded or, preferably, exhibits a maximum deflection of 0.07 millimeters or less, or of 0.04 millimeters or less. The unloaded or limited loaded condition of the lower lip prevents a great clamping force in the coupling of the first edges and prevents too limited sliding capacity.
    Preferably, the coupling means of the first pair of edges always have one or more contact surfaces in a coupled condition. As seen in a cross-section through the engaged edges, the one or more contact surfaces preferably occupy less than 25% of the contour of the respective edges, or even less than 15% or less than 10%. Due to the limited contact surface, a shift with less resistance is possible.
    Preferably also the second pair of rims is provided with a male coupling part and a female coupling part with a cantilevered lip, said male and female coupling parts being provided with locking parts which oppose the separation of the coupling parts in a horizontal direction, or with other means. words with horizontally active locking areas. Preferably, said cantilevered lip is unloaded in a coupled condition or, preferably, said cantilevered lip exhibits a maximum deflection which is greater than the maximum deflection of the lower lip at the first pair of edges. For example, a bending of more than 0.07 millimeters and more than 0.04 millimeters, respectively, can be used for the cantilevered lip. It goes without saying that the male and female coupling part of the second pair of rims can be designed as a tongue and groove delimited by an upper and lower lip, said protruding lip preferably being formed by said lower lip. It is further clear that the aforementioned compressible horizontal active locking or contact surface hereby forms a stop surface for the horizontal movement of the coupled panels towards each other.
    According to a different variant and/or another definition of the invention, the aforementioned mechanical coupling means or coupling parts of the first pair of edges, instead of having the characteristic that they allow a shift in the direction along the coupled edges, can have the characteristic in related to energy required for displacement, holding force, no-load or limited-load condition of the lower lip and/or percentage of contact area in engaged condition, as set forth above with reference to the preferred embodiments. In yet another alternative, the panel may be provided with a lubricant such as graphite, oil or wax at least on the first pair of edges. Preferably the panel is rectangular, the panel being provided with coupling means on both the long pair of edges and on the short pair of edges, the coupling means on the long pair of edges preferably allowing two such panels to be coupled together by means of coupling means. of a rotational movement and the coupling means on the short pair of edges preferably allow two such panels to be coupled together by means of a downward movement, the long pair of edges preferably forming the aforementioned first pair of edges, and the short pair of edges preferably forming said second pair of edges. Preferably, at least a part of the coupling means on the first pair of edges is provided with a water-repellent substance. Because the coupling parts on the first pair of edges are slidable or only clamp to a limited extent, it is possible for water to seep into the seam formed between two such panels. A water-repellent substance can prevent seepage. Preferably, said decorative top layer comprises a print and a transparent wear layer applied above it.
    The panel may have a recessed edge area on at least one edge. Both the aforementioned print and the aforementioned wear layer can herein extend continuously from the central surface of the panel over the aforementioned recessed edge region.
    The presence of a recessed edge region on one or more edges, especially on the aforementioned second pair of edges, can limit the risk of peaking even further. Preferably, said recessed edge region is a chamfer. Preferably, the aforesaid chamfer forms an angle with the top surface or the horizontal of less than 25°, or more preferably of 15° or less. Here 11° is a good value. Preferably, such chamfer extends for a distance measured in the surface of the panel of less than 2.5 millimeters. The actual associated depth is thus limited, in particular preferably less than 1.15 millimeters, more preferably less than 0.67 millimeters or less than 0.5 millimeters.
    In the most preferred embodiment, the bevel extends for a depth less than the thickness of the wear layer at the central top surface of the coated panel. Preferably, the above-mentioned wear layer has a thickness of 0.3 mm or more at the location of the central surface, but preferably less than 0.75 mm. Preferably, the aforementioned wear layer consists essentially of a thermoplastic plastic, such as polyvinyl chloride, PVC. The use of a thermoplastic plastic on the surface is desirable for minimizing tapping noises when using such a panel as a floor panel, or for minimizing scratching noises when using such a panel as a furniture panel or wall panel. In the prior art, the realization of a recessed edge region in a thermoplastic top layer, in particular when PVC is involved, gives rise to the creation of a glossy zone along the edge where the recessed edge region is provided.
    Preferably, the aforementioned print is located on a thermoplastic carrier film, and together with the film it forms, for example, a printed PVC film, PU film, PP film or PET film. In the case of a PP film, it can for instance be an oriented polypropylene film. In the case of a PVC foil, it is preferably a hard PVC foil, i.e. a PVC-based foil without a plasticizer or with a plasticizer proportion of less than 5 phr (parts per hundred of the resin). Such hard PVC foil can be printed with a higher accuracy, certainly when it comes to printing performed with water-based inks. In such a case, a drying operation on the basis of heat supply in the printing process is desirable, but the possible expansion of the foil is limited by the choice of hard PVC. As mentioned, the wear layer preferably also comprises a thermoplastic material, such as soft or hard PVC, PU, PP or PET. In the case of a PVC wear layer, it preferably comprises a plasticizer content of more than 5 phr, or even more than 10 or 15 phr.
    According to an alternative, it cannot be ruled out that the print would be applied to the underside of the wear layer. According to another alternative, the print is formed directly on the substrate by means of a printing which is performed on the substrate, preferably with the interposition of one or more primer layers.
    Preferably, the surface of said depressed edge region is essentially formed by the material of said wear layer. In this way a similar wear resistance can be obtained over the entire surface of the coated panel.
    Preferably, said print extends at the location of the above-mentioned recessed edge region in the same plane as at the location of the central surface. Thus, the substrate is preferably not deformed at the depressed edge region.
    Preferably, said substrate comprises a plastic layer with fillers, or consists essentially of plastic and fillers. The plastic is preferably polyvinyl chloride (PVC), but on the other hand it can also be selected from the list of polypropylene (PP), polyurethane (PU), polyethylene (PE) and polyethylene terephthalate (PET).
    According to a particular embodiment, the coated panel of the invention has coupling means at the second pair of edges which can be fitted together by means of a downward movement.
    According to a particular embodiment, the aforementioned substrate comprises, as aforesaid, several layers. Preferably, a first layer having a first hardness is located between said print and a second layer having a second hardness that is higher than said first hardness. Such a first layer can impart special properties to the coated panel and/or in the manufacture. For example, additional damping of tapping noises is obtained and deeper structural features can be provided in the surface of the panel. The difference in hardness is preferably at least 10 on the Shore A hardness scale. In this case, the above-mentioned second layer preferably has a hardness of 80 Shore A or more. The different hardness in the aforesaid layers can be achieved, for example, in that both the first and the second layer contain polyvinyl chloride, the plasticizer content in said first layer being higher than in said second layer. Preferably there is a difference of at least 5 phr between the layers concerned. Preferably, in the coupled condition of two such panels, a locking and/or contact surface is created directly below the connection of the respective top surfaces of the coupled panels, this contact surface being formed substantially, or even exclusively, on the material of the aforesaid first layer of both linked panels and possibly on the layers of the decorative top layer located above it. The inventors have noticed that with such a geometry of the connection of the top surfaces there is a reduced tendency for peaking or deflection of the top edges due to dimensional changes after installation, and/or due to the application of a so-called bias. The residual tendency can be further masked by applying a lowered edge. Pre-tensioning as mentioned above is achieved by providing an overlap in the contours of the male and female coupling members, so that a clamp fit is created.
    Preferably, the overlap is at least, and preferably essentially, at the location of said horizontally active locking surfaces.
    This preferably creates a deflection on the underside of the panel, for instance on the side with the groove.
    The bent-out portion then, in an attempt to return to its rest position, presses the male coupling portion towards the female coupling portion.
    This preferably creates a tension on the aforementioned contact surface below the connection of the top surfaces of the coupled panels.
    This stress will lead to a reduced extent to peaking due to the formation of the contact surface on said first layer.
    As mentioned, any load on the lower groove lip on the first pair of edges is preferably limited to a load that gives rise to a deflection of 0.07 millimeter at the most.
    It is clear that the effects as described above can also be achieved if a coating, for example with a water-repellent substance, were present on one or both contact surfaces.
    In such a case it is preferably a coating of limited thickness, preferably less than 0.1 mm thick, or even less than 0.01 mm thick.
    This may, for example, be a coating with the water-repellent substance described below.
    In the context of the present invention, in such an embodiment, the contact surface is still seen as formed on the substrate and optionally the layers of the decorative top layer overlying it.
    Preferably, the substrate contains one or more glass fiber layers.
    In this way, dimensional changes of the panel as a whole can be limited.
    The possible deformations as a result of dimensional changes that still occur can then be further minimized or prevented by means of the measures of the invention, namely the slidability or limited clamping at the first pair of edges and the compressible contact surface at the second pair of edges.
    Preferably, at least a part of the surface of said coupling means is provided with a water-repellent substance. Because a water-repellent substance is used, the applied pretension can be limited, while a sufficiently water-resistant result of the seam between the coupled panels is nevertheless achieved. This capability leads back to a reduced tendency for the coupled top edges to deflect. Preferably, said water-repellent substance is provided immediately below the connection of the upper surfaces of the coupled panels, or at least at a position above the actual coupling means, i.e. at a level above the above-mentioned horizontal locking surfaces, and preferably also above the level of any vertically active locking surfaces. As the aforementioned water-repellent substance, a fluorocopolymer is preferably used.
    The above-mentioned coupling means can have one or a combination of two or more of the following properties: - the property that the mechanical coupling means or coupling parts are mainly designed as a tongue and a groove delimited by an upper lip and a lower lip, these tongue and groove being mainly responsible for locking in said vertical direction, and wherein the tongue and groove are provided with additional locking parts mainly responsible for locking in said horizontal direction. Preferably, the locking members comprise a projection on the underside of the tongue and a recess in the lower groove lip. Such coupling means and locking parts are known, for example, from WO 97/47834; -the property that the mechanical coupling means or coupling parts press the coupled floor panels against each other, for instance because these mechanical coupling means are designed with so-called pretension, as is known per se from EP 1 026 341. can be printed, for example,
    in combination with the above property, are obtained by means of a lower lip bent out in coupled position, or another part of a female coupling part, which presses against the underside of the tooth or the male coupling part in an attempt to spring back; - the property that the mechanical coupling means allow coupling by means of a horizontal, or quasi-horizontal, sliding movement of the panels towards each other; - the property that the mechanical coupling means allow coupling on the basis of a rotating movement along the respective edges; - the property that the mechanical coupling means allow coupling on the basis of a downwardly directed movement of a male coupling part, for example with a tooth, into a female coupling part, for example with a groove. As mentioned, there is a risk of peaking with this type of panel; -the property that the mechanical coupling means, or at least the associated top edge is realized by means of a milling operation with rotating milling tools.
    It will be appreciated that the clad panel of the invention according to the most preferred embodiment is a floor panel for forming a floating floor covering. However, it is not excluded that the invention can be applied to wall panels, ceiling panels or furniture panels. Preferably, the thickness of the coated panels of the invention is between 3 and 8 mm, more preferably between 4 and 6 mm.
    Preferably, the coated panels of the invention have a useful surface, namely the surface that remains visible in a coating composed of such panels, with a width between 12 and 25 centimetres, preferably between 15 and 22 centimetres, and a length between 110 and 25 centimetres. 210 centimetres, preferably between 115 and 150 centimetres.
    In order to better demonstrate the features of the invention, some preferred embodiments are described below, by way of example without any limiting character, with reference to the accompanying drawings, in which: Figure 1 shows a coated panel with the features of the invention; Figures 2 and 3 show on a larger scale a cross-section according to the lines II-II and III-IIT shown in Figures; Figure 4 shows a larger-scale view of the area indicated by F4 in Figure 3, Figure 5 shows in perspective how the panels of Figures 1 to 4 can be assembled into a floating floor covering; Figures 6 and 7 show the coupled state in a view similar to that of figures 2 and 3; Figure 8 shows the contour of the coupling means with the groove of Figure 7; and Figures 9 and 10 further illustrate possible advantages of the invention.
    Figure 1 shows a rectangular and elongate lined panel 1, in this case a floor panel having a first pair of long opposing edges 2-3 and a second pair of short opposing edges 4-5.
    Figures 2 and 3 show that the panel 1 comprises a substrate 6 and a decorative top layer 7, the decorative top layer 7 comprising a print 8 and a transparent wear layer 9 applied above it.
    The panel 1 has on at least one edge, and in this case on both edges of both the short pair of opposite edges 4-5 and the long pair of opposite edges 2-3, a recessed edge region 10. In this case, the recessed edge region 10 is a chamfer forming an angle A with the horizontal of less than 25°, in this case about 11°.
    Figure 4 shows that the wear layer 7 has a thickness T of at least 0.3 millimeters, in this case about 0.55 mm. The wear layer 7 consists essentially of thermoplastic plastic, in this case of polyvinyl chloride, and has a superficial layer 11 on the surface, for instance based on a radiation-cured polyurethane or acrylate compound.
    Both the print 8 and the aforementioned wear layer 9 extend continuously from the central surface 12 of the panel 1 across the depressed edge regions 10, and the surface of the aforementioned depressed edge region is essentially formed by the aforementioned wear layer 9, with the exception of the above-mentioned superficial layer 11. The print 8 extends at the location of the lowered edge region 10 in the same plane as at the location of the central surface 12. In the example, the print 8 is arranged on a thermoplastic carrier foil 13 and the substrate 6 consists essentially of plastic and/or fillers, such as from PVC and calcium carbonate. A, preferably foamed, layer 14 is provided on the underside of the substrate 6, for instance based on cross-linked polyethylene, with a view to sound damping and/or accommodation of unevenness in the substrate. Figures 2 and 3 clearly show that the floor panel 1 is provided on both pairs of opposite edges 2-3;4-5 with coupling means 15 that allow two of such panels 1 to connect to each other at the respective edges 2-3;4-5. be linked. In the coupled situation, a locking is created both in a vertical direction V1 perpendicular to the plane of the coupled floor panels 1, and in a horizontal direction H1-H2 perpendicular to the respective edges 2-3;4-5 and in the plane of the coupled floor panels. panels 1. The coupling means 15 are in each case designed as a male coupling part 16 and a female coupling part 17, wherein horizontally active locking surfaces 18 are formed in the coupled condition, which counteract the drifting apart in the horizontal direction of the coupled floor panels 1. On the long pair of opposite edges 2-3, the male coupling part 16 is formed by a laterally projecting tooth 19, and the female coupling part by a groove 20.
    As shown, the substrate 6 comprises a plurality of layers 21-22, a first layer 21 having a first hardness being located between said print 8 and a second layer 22 having a second hardness higher than said first hardness. Both the first layer 21 and the second layer 22 contain polyvinyl chloride. The plasticizer content in the aforesaid first layer 21 is higher than in the aforesaid second layer 22. In the coupled condition of two such panels 1, a horizontal active contact surface 23 is created directly below the junction of the respective upper surfaces, this contact surface 23 being formed exclusively is on the aforementioned first layer 21 and the layers 8-9 located above it of the decorative top layer 7, namely in particular at least on the first layer 21, and the wear layer 9, with the exception of the superficial layer 11. The aforementioned horizontally active locking surfaces 18 which oppose the separation of the tongue 19 and the groove 20 are formed solely on the material of the aforesaid second layer 22.
    Figure 4 further shows that at least a part of the surface of the coupling means 15 is provided with a water-repellent substance 24. Preferably, the water-repellent substance is provided at least directly below the connection of the upper surfaces of the coupled panels 1, namely at a position above the actual coupling means 15, namely, in the case of the long opposite edges 2-3, above the engagement of the tongue 19 in the groove 20, namely above the level of any vertically active locking surfaces 25. In this case, the water-repellent substance 24 is provided at least on said horizontal active contact surface 23 located directly below the junction of the upper surfaces. Figure 5 shows that the floor panel 1 of figures 1 to 4 is suitable for assembling a floating floor covering. In this case, the coupling means 15 on the long pair of edges 2-3 can be coupled together by means of a revolving movement W, and the coupling means 15 on the short pair of edges 4-5 can be coupled together by means of a downward movement N. .
    Figures 6 and 7 show the coupled state of the coupling means 15 at the short pair of opposite edges 4-5 and the long pair of opposite edges 2-3, respectively. The coupling means 15 and the associated top edge 26 are realized on the basis of a milling operation with rotating milling tools.
    The coupling means 15 on the short pair of opposite edges 4-5, shown in figure 6, are designed as a male coupling part 16 and a female coupling part 17 which can be fitted into each other. The male coupling part 16 comprises a hook-shaped portion 27 which projects at the top of the panel 1, and the female coupling part 17 comprises a hook-shaped portion 27 in the form of a lip which protrudes on the underside of the panel 1. The hook-shaped part 27 of the male coupling part 16 comprises a downwardly projecting locking part 28 which can cooperate with a recess 29 in the hook-shaped part 27 of the female coupling part 17. The cooperation of the downwardly projecting locking part 28 and the recess 29 is substantially responsible for the locking in the horizontal direction HI. The hook-shaped portions 27 are further provided with one or more snap portions 30 and undercuts 31 co-acting therewith, which provide the locking in vertical direction V1.
    The coupling means 15 on the long pair of opposite edges 2-3, shown in figure 7, are, as mentioned above, formed as a tongue 19 and a groove 20, bounded by an upper lip 32, or upper lip, and a lower lip 33, or lower lip. . The tongue 19 and groove 20 per se provide the locking in the above-mentioned vertical direction V1, and are provided with locking parts 34-35, mainly responsible for the locking in the above-mentioned horizontal direction H2. In the example, the locking parts comprise a projection 34 on the underside of the tongue 19 and a recess 35 in the lower lip 33 of the groove 20.
    In this case, the mechanical coupling means 15 are designed with pretension, obtained on the basis of a lower lip 33 bent in the coupled position, which presses against the underside of the tooth 19 in an attempt to spring back.
    The coupling means 15 shown here also allow coupling up to on the basis of a horizontal sliding movement S of the panels 1 towards each other. Also in the example of figure 6, a bias is applied because a portion 36 of the cantilevered lip of the female coupling part 17 is bent, in this case the upwardly extending element 36 on the hook portion 27 of the female coupling part 17. This element 36 in an attempt to spring back, presses against the male part 16, more particularly against the downwardly projecting locking part 28 thereof.
    Figure 7 further shows that the lower lip 33 of the groove 20, in a coupled condition, exhibits a maximum deflection B. In this case, the maximum deflection B is less than 0.07 millimeters, namely about 0.04 millimeters.
    Figures 7 and 8 further show that the coupling means 15 of the first pair of edges 2-3, in a coupled condition, always have one or more contact surfaces 37-38-39, in this case three contact surfaces 37-38-39, namely a contact 37 at the location of the already mentioned locking or contact surface 23, a contact 37 at the location of the vertically active locking surfaces 25, namely between the top of the tooth 19 and the underside of the upper lip 33, and a contact 38 at the location of the locking surfaces 18. As seen in a cross-section through the coupled edges, and shown in this example in figure 8, the contact surfaces 37-38-39 together cover only a limited part of the contour 40 of the edge 3. In this case the contact surfaces 37 cover. -38-39 less than 10% of the length of this contour, as seen in the cross-section perpendicular to the coupled edges and shown in Figure 8.
    Figures 9 and 10 show a floor covering 41 assembled from panels 1 having the features of the invention, more particularly from the panels 1 shown in figures 1 to 8. The floor coverings 41 differ only in that they differ in a different way. direction, namely in directions that are mutually perpendicular to each other.
    The floor covering 41 is in each case provided in a room with a window section 42 through which sunlight can enter directly on the floor covering.
    This creates a warm spot (hot spot) on the floor covering 41, as indicated by the dashed line 43. Within the dashed line 43 the panels start to expand.
    In the prior art floor coverings this would give rise to the formation of a bubble at this location and possibly peaking at the seams 44. With the coated panels 1 of the invention, in the case of figure 9, the expansion in the direction L are able to push and slide the remaining panels in the respective rows 45 where the hot spot manifests itself, so that no bubble is formed.
    The expansion in the direction W of the panels located in the hot spot can be accommodated by compression at the contact surface 23 without peaking occurring.
    A shift in the direction W is limited because the panels that are not in the hot spot prevent or counteract a shift.
    After all, these panels are not expanded to the same extent, so that the width of the rows 45 does not or hardly change.
    The same action takes place in the case of the floor covering 41 of figure 10. The dimensional expansion in the direction L is accommodated by displacement, while the dimensional expansion in the direction W results in a compression at the location of the locking or contact surface 23. The The present invention is by no means limited to the embodiments described above, but such coated panels, methods of manufacturing them, and milling tools employed therein can be realized without departing from the scope of the present invention.
    权利要求:
    Claims (20)
    [1]
    1.- Coated panel with a substrate (6) and a decorative top layer (7), the substrate (6) comprising an optionally filled plastic layer, the coated panel (1) on at least a first pair of two opposite edges ( 2-3) is provided with mechanical coupling means (15) which allow two such panels (1) to be coupled to each other at the respective first pair of edges (2-3) whereby a locking is obtained both in a vertical direction (V1 ) perpendicular to the plane of the joined panels (1), as well as in a horizontal direction (H1) perpendicular to the respective edges (2-3) and in the plane of the joined panels (1), characterized in that the aforesaid mechanical coupling means (15) or coupling members permitting a shift in the direction along the engaged edges, and wherein a horizontal active locking and/or contact surface (23) is formed on the first pair and/or on the second pair of opposite edges, preferably and that this contact surface (23) is substantially, and preferably exclusively, formed on a compressible portion of the substrate and/or the top layer.
    [2]
    Clad panel according to claim 1, characterized in that said horizontally active locking or contact surface is formed on a first layer (21) of the substrate (6) and the decorative top layer (7) above it, said first layer (21) is softer than an underlying second layer (22) of the substrate (6), wherein both the first layer (21) and the second layer (22) contain PVC and said first layer (21) of the substrate has a higher plasticizer content than the underlying second layer (22).
    [3]
    Clad panel according to claim 1 or 2, characterized in that the said mechanical coupling means (15) or coupling parts of the first pair of opposite edges are designed with a clearance, fitting or clamping.
    [4]
    Clad panel according to any one of the preceding claims, characterized in that the energy per unit length required to mutually slide the first pair of edges in the coupled state over a certain distance is less than the energy per unit length required for sliding of the second pair of edges in an installed condition of two such panels, over the same distance.
    [5]
    Clad panel according to any one of the preceding claims, characterized in that the force required to overcome the static holding force, per unit length, is smaller at the first pair of edges in the engaged state than at the second pair of edges in the installed state of two such panels.
    [6]
    Clad panel according to any one of the preceding claims, characterized in that the said mechanical coupling means (15) of the first pair of edges are formed as a tongue and a groove bounded by an upper lip and a lower lip, said tongue and groove having locking members which oppose the movement of said tongue and groove apart in said horizontal direction (HI), said lower lip in a engaged condition being unloaded or exhibiting a maximum deflection of less than
    0.07 millimeters.
    [7]
    Clad panel according to any one of the preceding claims, characterized in that the panel (1) is rectangular, the panel (1) on the long pair of edges (2-3) as well as on the short pair of edges (4-5). ) is provided with coupling means (15), the coupling means (15) on the long pair of edges (2-3) allowing two such panels (1) to be coupled to each other by means of a revolving movement (W), and the coupling means on the short pair of edges (4-5) preferably allow two such panels to be joined together by means of a downward movement (N), the long pair of edges preferably forming said first pair of edges, and the short pair of edges preferably forms said second pair of edges.
    [8]
    Coated panel according to one of the preceding claims, in which at least a part of the coupling means (15) on the first pair of edges is provided with a water-repellent substance (24).
    [9]
    Coated panel according to any one of the preceding claims, characterized in that said decorative top layer (7) comprises a print (8) and a thermoplastic wear layer (9) applied above it.
    [10]
    Coated panel according to claim 9, characterized in that said panel (1) has a recessed edge region (10) at least on one edge (2-3;4-5), wherein both said print (8) and said wear layer (9) extending continuously from the central surface (12) of the panel (1) over the aforementioned recessed edge region (10).
    [11]
    Clad panel according to claim 10, characterized in that said lowered edge region (10) is a chamfer.
    [12]
    Coated panel according to claim 10 or 11, characterized in that the surface of said recessed edge region (10) is essentially formed by said wear layer (9).
    [13]
    Clad panel according to any one of claims 10 to 12, characterized in that said print (8) extends at the location of the said recessed edge region (10) in the same plane as at the location of the central surface (12).
    [14]
    Coated panel according to any one of claims 9 to 13, characterized in that said wear layer (9) has a thickness (T) of 0.3 mm or more, but preferably less than 0, at the central surface (12). .75mm.
    [15]
    Coated panel according to any one of claims 9 to 14, characterized in that said wear layer (9) consists essentially of a thermoplastic plastic, such as polyvinyl chloride.
    [16]
    Clad panel according to any one of claims 9 to 15, characterized in that said print (8) is applied to a thermoplastic carrier film (13).
    [17]
    Coated panel according to any one of claims 9 to 16, characterized in that said substrate (6) comprises a plurality of layers (21-22), a first layer (21) having a first hardness being located between said print (8). ) and a second layer (22) having a second hardness higher than said first hardness.
    [18]
    Coated panel according to claim 17, characterized in that both the first layer (21) and the second layer (22) contain polyvinyl chloride, the plasticizer content in said first layer (21) being higher than in said second layer ( 22).
    [19]
    Clad panel according to one of claims 12 or 13, characterized in that in the coupled state of two such panels (1) a contact surface (23) is created directly below the connection of the respective upper surfaces of the coupled panels (1 ), wherein this contact surface (23) is formed mainly, or even exclusively, on the material of the aforementioned first layer (21) and the layers (8-9) located above it of the decorative top layer (7).
    [20]
    Coated panel according to any one of the preceding claims, characterized in that the coated panel (1) is a floor panel for forming a floating floor covering.
    类似技术:
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    同族专利:
    公开号 | 公开日
    BE1028493A1|2022-02-08|
    BE1028493B1|2022-02-15|
    WO2022013645A1|2022-01-20|
    BE1028491A1|2022-02-08|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    WO2008078181A1|2006-12-22|2008-07-03|Flooring Industries Limited, Sarl|Floor panel with a moisture sealed edge region and method for manufacturing the floor panels|
    EP3245352A1|2015-01-15|2017-11-22|Flooring Industries Limited, SARL|Floor panel for forming a floor covering|
    EP3144449A1|2015-09-16|2017-03-22|Guido Schulte|Plate-shaped building element|
    US20190292793A1|2016-11-10|2019-09-26|Ivc Bvba|Floor panel and method for manufacturing a floor panel|
    BE1010487A6|1996-06-11|1998-10-06|Unilin Beheer Bv|FLOOR COATING CONSISTING OF HARD FLOOR PANELS AND METHOD FOR MANUFACTURING SUCH FLOOR PANELS.|
    WO2006063803A2|2004-12-16|2006-06-22|Flooring Industries Ltd|Floor panel imitating a wood pattern on its surface and method for manufacturing|
    DE602005018165D1|2004-12-23|2010-01-21|Flooring Ind Ltd|Layered floor panel|
    EP3470193A1|2008-04-07|2019-04-17|Välinge Innovation AB|Wood fibre based panels with a thin surface layer|
    DE202008011589U1|2008-09-01|2008-11-27|Akzenta Paneele + Profile Gmbh|Plastic floor panel with mechanical locking edges|
    EP3561197A3|2009-12-22|2019-11-06|Flooring Industries Limited, SARL|Panel, covering and method for installing such panels|
    WO2012004701A2|2010-07-09|2012-01-12|Flooring Industries Limited, Sarl|Floor panel|
    WO2013050910A2|2011-10-03|2013-04-11|Unilin, Bvba|Panel and method for manufacturing panels|
    DE202012013676U1|2012-12-18|2019-06-21|Guido Schulte|floor element|
    DE102013113478A1|2013-12-04|2015-06-11|Guido Schulte|Floor, wall or ceiling panel and method of making the same|
    BE1021743B1|2013-12-10|2016-01-14|Unilin Bvba|FLOORING AND MANUFACTURING METHOD|
    BE1023310B1|2015-07-02|2017-01-31|Unilin, Bvba|Floor panel and method for manufacturing floor panels.|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    BE20205539A|BE1028493B1|2020-07-17|2020-07-17|Clad panel, method for its manufacture and milling tool used|PCT/IB2021/055438| WO2022013647A1|2020-07-17|2021-06-21|Coated panel|
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