EP3892793B1 - Panel with breakproof coupling elements - Google Patents

Description

Technical area

The present invention relates to a panel for cladding, in particular a floor panel for a floor covering.

Background of the invention

• eine Paneeloberfläche und eine hierzu parallele Paneelunterfläche, die mit einer Gesamtstärke voneinander beabstandet sind;
• ein oberes Koppelelement und ein unteres Koppelelement, wobei zwei solche Paneele mittels einer Abwärtsbewegung des oberen Koppelelements des ersten Paneels in Bezug auf das untere Koppelelement des zweiten Paneels aneinander koppelbar ausgebildet sind; wobei
• das obere Koppelelement an seinem distalen Ende einen keilförmigen Vorsprung und das untere Koppelelement eine Gegenfläche aufweisen, die im gekoppelten Zustand zweier Paneele ein erstes Verriegelungssystem bilden;
• das obere Koppelelement ein sich dem keilförmigen Vorsprung anschließendes Rastelement und das untere Koppelelement eine sich der Gegenfläche anschließende Rastaufnahme aufweisen, die im gekoppelten Zustand zweier Paneele ein zweites Verriegelungssystem bilden;
• das obere Koppelelement eine sich dem Rastelement anschließende Verriegelungsaufnahme und das untere Koppelelement an seinem distalen Ende ein sich der Rastaufnahme anschließendes Verriegelungselement aufweisen, die im gekoppelten Zustand zweier Paneele ein drittes Verriegelungssystem bilden.

What is known so far is a panel for cladding, in particular a floor panel for a floor covering

• a panel surface and a panel bottom surface parallel thereto, which are spaced apart from one another by a total thickness;
• an upper coupling element and a lower coupling element, two such panels being designed to be coupled to one another by means of a downward movement of the upper coupling element of the first panel with respect to the lower coupling element of the second panel; where
• the upper coupling element has a wedge-shaped projection at its distal end and the lower coupling element has a counter surface, which form a first locking system when two panels are coupled;
• the upper coupling element has a latching element adjoining the wedge-shaped projection and the lower coupling element has a latching receptacle adjoining the counter surface, which form a second locking system in the coupled state of two panels;
• the upper coupling element has a locking receptacle adjoining the latching element and the lower coupling element has a locking element adjoining the latching receptacle at its distal end, which form a third locking system in the coupled state of two panels.

Such a panel therefore always has a lower coupling element and an upper coupling element. When assembling panels, an upper coupling element becomes one The panel to be assembled is pressed onto a lower coupling element of a panel that has already been assembled and lying on the ground. In order to form the first locking system, a wedge-shaped projection of the upper coupling element is pressed onto a counter surface of the lower coupling element that runs obliquely to the ground. In order to form the second locking system, the lower coupling element is spread open in the area of the locking receptacle by the penetrating locking element of the upper coupling element. In order to form the third locking system, the upper coupling element is spread open in the area of the locking receptacle by the penetrating locking element of the lower coupling element. The spreading of the upper and lower coupling elements leads to high material loads during assembly and thus regularly to material failure, especially in thermoplastic panels containing styrene block copolymer.

US 10,000,935 B2 relates to a vertical connection system for substrates. The system is formed with interconnections that engage by relative movement in a direction perpendicular to the major surfaces of the substrate. The joints are configured to allow relative rotation of up to 3 degrees, ie, clockwise or counterclockwise, while maintaining joint engagement. The joints are further configured to form two locking levels, one on each of the innermost and outermost sides of the joint. Engagement around the locking planes is provided by transversely outwardly extending surfaces. The surfaces tower over the surfaces. At least one surface in each pair of engagement surfaces is smoothly curved. The joints may further be arranged to provide a third locking plane parallel to and between the locking planes. The joints are released by a combination of downward rotation of one joint relative to the other and then application of a downward force.

Due to these properties, flooring with the joint system can be installed on substrates that have undulations larger than current world industry standards. Additionally, replacing damaged substrates is possible by vertically lifting damaged substrates without having to pull up excess flooring from the nearest wall to the damaged substrates.

EP 3 543 427 A1 relates to a panel with a top, a bottom, and side areas that are formed as outer edge areas. Each of the edge regions has an end face with a first profile or a second profile in the thickness direction of the panel. The first profile is formed as a tongue-and-groove profile or double tongue-and-groove profile with at least one first horizontal locking projection with a first stop edge over the entire length of its edge region. The second profile is formed as a tongue-and-groove profile or double tongue-and-groove profile corresponding to the first profile, with at least one second horizontal locking projection with a second stop edge over the entire length of its edge region. On at least one of the outer edge regions, the horizontal locking projection associated with its profile only begins at a predetermined distance from one of the corners that the outer edge region forms with an abutting outer edge region.

EP 3 581 732 A1 relates to a panel comprising a panel top, a panel bottom, a panel core and complementary locking means which are provided in pairs on opposite panel edges, at least one pair of locking means being provided with complementary hook profiles, namely a receiving hook and, opposite this, a locking hook, with the proviso that the receiving hook has a hook edge arranged away from the fuselage and a receiving recess arranged closer to the fuselage, the receiving recess being open to the top of the panel and the locking hook being provided with a locking recess arranged closer to the fuselage and open to the underside of the panel and having a locking shoulder arranged away from the fuselage which is inserted in the vertical joining direction into the receiving recess of the The receiving hook fits, the locking hook having a vertically locking locking contour and the receiving hook having a positive locking contour which fits positively with the locking contour of the locking hook for the purpose of vertical locking, the locking hook having a horizontally locking holding surface arranged closer to the fuselage on its locking shoulder and the receiving hook further away from the fuselage in the Receiving recess is arranged with a horizontally locking holding surface, the receiving hook being provided with a sealing groove which is open to the top of the panel, and the locking hook having one to the bottom of the panel has a protruding sealing strip, which fits into the sealing groove when the complementary hook profiles are assembled, the sealing groove and the sealing strip being arranged in the area of the panel core, and that the surface of the sealing groove is formed from the material of the panel core and / or the surface of the sealing strip the material of the panel core is formed.

DE 20 2019 101807 U1 relates to a panel with a panel core, a panel surface, a panel underside and with at least one pair of edges of opposing complementary panel edges, which are provided with complementary locking means, the complementary locking means being designed in such a way that when two of these panels are joined together, they are located below a visible joint by means of the assembled complementary locking means, a locking effect of the panel edges can be achieved both in a direction perpendicular to the panel surface, and a locking effect against moving the panels apart, namely within the panel plane away from one another, can be achieved in a direction perpendicular to the locked panel edges, with the proviso that the Panel edges provided with the complementary locking means have an upper part area and a lower part area based on the thickness of the panel, the complementary locking means being arranged and designed in the lower part area of the panel edges, the upper part area of the panel edges being used for the design of the upper joint area including the visible one Part of the joint is provided and for this purpose the upper portion on each panel edge of the pair of edges has an edge refraction, which forms a recessed joint when two of these panels are joined together, the edge refractions of the complementary panel edges being of different sizes in the upper portion of the panel edges, and that in the assembled state of two complementary panel edges, the larger edge refraction is covered by the smaller edge refraction, characterized in that a blunt abutment surface is provided at a lower end of the larger edge refraction.

Description of the invention

Based on this situation, it is an object of the present invention to create a panel for cladding, in particular a floor panel for a floor covering, which is improved over the aforementioned disadvantages.

The object of the invention is achieved by the features of the independent main claim. Advantageous refinements are specified in the subclaims. If technically possible, the teachings of the subclaims can be combined as desired with the teachings of the main and subclaims.

• eine Paneeloberfläche und eine hierzu parallele Paneelunterfläche, die mit einer Gesamtstärke voneinander beabstandet sind;
• ein oberes Koppelelement und ein unteres Koppelelement, wobei zwei solche Paneele mittels einer Abwärtsbewegung des oberen Koppelelements des ersten Paneels in Bezug auf das untere Koppelelement des zweiten Paneels aneinander koppelbar ausgebildet sind; wobei
• das obere Koppelelement an seinem distalen Ende einen keilförmigen Vorsprung und das untere Koppelelement eine Gegenfläche aufweisen, die im gekoppelten Zustand zweier Paneele ein erstes Verriegelungssystem bilden;
• das obere Koppelelement ein sich dem keilförmigen Vorsprung anschließendes Rastelement und das untere Koppelelement eine sich der Gegenfläche anschließende Rastaufnahme aufweisen, die im gekoppelten Zustand zweier Paneele ein zweites Verriegelungssystem bilden;
• das obere Koppelelement eine sich dem Rastelement anschließende Verriegelungsaufnahme und das untere Koppelelement an seinem distalen Ende ein sich der Rastaufnahme anschließendes Verriegelungselement aufweisen, die im gekoppelten Zustand zweier Paneele ein drittes Verriegelungssystem bilden.

According to the invention, the object is therefore achieved by having a panel for cladding, in particular a floor panel for a floor covering

• a panel surface and a panel bottom surface parallel thereto, which are spaced apart from one another by a total thickness;
• an upper coupling element and a lower coupling element, two such panels being designed to be coupled to one another by means of a downward movement of the upper coupling element of the first panel with respect to the lower coupling element of the second panel; where
• the upper coupling element has a wedge-shaped projection at its distal end and the lower coupling element has a counter surface, which form a first locking system when two panels are coupled;
• the upper coupling element has a latching element adjoining the wedge-shaped projection and the lower coupling element has a latching receptacle adjoining the counter surface, which form a second locking system in the coupled state of two panels;
• the upper coupling element has a locking receptacle adjoining the latching element and the lower coupling element has a locking element adjoining the latching receptacle at its distal end, which form a third locking system in the coupled state of two panels.

In particular, it is provided that a material thickness of the lower coupling element between the lower surface of the panel and the locking receptacle is less than 100 percent of a material thickness of the upper coupling element between the panel surface and the locking receptacle.

Aspects of the claimed subject matter of the invention are explained below and preferred modified embodiments of the invention are described. Explanations, especially regarding advantages and definitions of features, are essentially descriptive and preferred, but not limiting, examples. If an explanation is limiting, this will be expressly mentioned.

One idea of the present invention is that when two panels are joined together, coupling elements are spread out in a less stressful manner than previously known panels by means of an adapted dimensioning and thus tend to material failure or breakage with a reduced risk. It has been found that the assembly loads on the lower coupling element can fundamentally be better balanced than the assembly loads on the upper coupling element. One reason for this is that the lower coupling element rests on a surface during assembly of the upper coupling element. The forces acting on the lower coupling element can therefore be directly and evenly counteracted by the ground and less damaging to individual components of the lower coupling element. In contrast, we have on the upper one Coupling element forces acting during the joining of two panels do not have such an opportunity for force distribution, so that the upper coupling element is generally more prone to material failure. Such a material failure or fracture usually occurs in areas with high loads and the lowest possible material thickness. The lower coupling element has the lowest material thickness between the bottom surface of the panel and the locking receptacle. The upper coupling element has the lowest material thickness between the panel surface and the locking receptacle. In the following, material thickness means a minimum or maximum material thickness in this respective area. If the wording material thickness is used, this affects this definition or arrangement.

As an improvement to a panel, the invention proposes that the material thickness of the upper coupling element is therefore greater than the material thickness of the lower coupling element.

Basically, the information on the dimensioning of the panel is given with reference to a longitudinal section of the panel along its main axis of extension.

Furthermore, for all of the following dimensions, it must be taken into account that each feature leads to a reduced risk of material failure of the lower and/or upper coupling element. It is essential that the material thickness of the upper coupling element is greater than the material thickness of the lower coupling element. The further dimensions of the subclaims are each advantageous, but not limiting or not absolutely necessary.

According to a modified embodiment of the invention, it is provided that the material thickness of the lower coupling element between the lower surface of the panel and the locking receptacle is at least 62 percent, preferably at least 67 percent and particularly preferably at least 72 percent, of the material thickness of the upper coupling element between the panel surface and the locking receptacle . It has been found that a lower coupling element dimensioned in this way increases the tendency for its material to fail is particularly advantageously reduced, with this improving with each stage, since there is increasing material in the lower coupling element for a force flow distribution that is gentle on components.

According to a modified embodiment of the invention, it is provided that the material thickness of the lower coupling element between the lower surface of the panel and the locking receptacle is at most 82 percent, at most 77 percent and particularly preferably at most 72 percent of the material thickness of the upper coupling element between the panel surface and the locking receptacle. This sets a preferred maximum rigidity of the lower coupling element, so that it is advantageously flexible or resilient for connecting two panels and no components break out of the upper coupling element.

According to a modified embodiment of the invention, it is provided that the material thickness of the upper coupling element between the panel surface and the locking receptacle is at least 34 percent, preferably at least 39 percent, particularly preferably at least 44 percent, of the total thickness of the panel. It has been found that an upper coupling element dimensioned in this way reduces its tendency to material failure in a particularly advantageous manner, with this improving with each stage since there is increasing material in the upper coupling element for a force flow distribution that is gentle on components.

According to a modified embodiment of the invention, it is provided that the material thickness of the upper coupling element between the panel surface and the locking receptacle is at most 54 percent, preferably at most 49 percent, particularly preferably at most 44 percent, of the total thickness of the panel. This sets a preferred maximum rigidity of the upper coupling element, so that it is advantageously flexible or resilient for connecting two panels and no components break out of the lower coupling element.

According to a modified embodiment of the invention, it is provided that the material thickness of the lower coupling element between the bottom surface of the panel and the locking receptacle is at least 24 percent, preferably at least 29 percent, particularly preferably at least 34 percent, of the total thickness of the panel. These values have proven to be the preferred material thickness in order to further reduce the risk of undesirable material failure of the lower coupling element. This is made possible by an advantageous minimum force flow distribution volume.

According to a modified embodiment of the invention, it is provided that the material thickness of the lower coupling element between the bottom surface of the panel and the locking receptacle is at most 44 percent, preferably at most 39 percent, particularly preferably at most 34 percent, of the total thickness of the panel. It has been found that such a material thickness of the lower coupling element within these areas advantageously adjusts the rigidity of the lower coupling element in such a way that both the lower and the upper coupling element better withstand material failure.

• eine zur Verriegelungsaufnahme weisende Verriegelungselementfläche des Verriegelungselements im Wesentlichen eine gleichmäßige Bogenform aufweist und/oder dass
• eine zum Verriegelungselement weisende Verriegelungsaufnahmefläche der Verriegelungsaufnahme eine im Wesentlichen gleichmäßige Bogenform aufweist, wobei die Verriegelungselementfläche und die Verriegelungsaufnahmefläche insbesondere zueinander im Wesentlichen konturgleich ausgebildet sind. Dabei gilt bei mehreren Bogenformen ein Haupterstreckungsbogen als maßgebliche Bogenform, unabhängig dieses Ausführungsbeispiels. Ein Haupterstreckungsbogen ist jener aus mehreren Bögen, dessen Parabelformanteil an der Verriegelungsaufnahme beziehungsweise an dem Verriegelungselement am größten ist. Anders formuliert nimmt der Haupterstreckungsbogen die längste Strecke der Verriegelungsaufnahme beziehungsweise des Verriegelungselements ein. Insbesondere wird das Maß von Haftreibung reduziert, die zu Materialversagen führen könnte. Als im Wesentlichen gleichmäßige Bogenform gelten Bogenformen, die eine gleichmäßige Auflagefläche und somit eine gleichmäßige Kraftverteilung bieten, wobei keine spitzen Winkel hierzu zählen. Dies reduziert das Risiko von Materialversagen am Paneel.

According to the invention it is provided that

• a locking element surface of the locking element facing the locking receptacle has a substantially uniform arc shape and/or that
• a locking receiving surface of the locking receptacle facing the locking element has a substantially uniform arcuate shape, wherein the locking element surface and the locking receiving surface are designed in particular to have substantially the same contour as one another. In the case of several arch shapes, one main extension arch is considered the relevant arch shape, regardless of this exemplary embodiment. A main extension arc is that of several arcs whose parabolic shape portion on the locking receptacle or on the locking element is largest. In other words, the main extension arc takes up the longest distance of the locking receptacle or the locking element. In particular, the amount of static friction that could lead to material failure is reduced. Than essentially Uniform arch shape refers to arch shapes that offer an even contact surface and thus an even distribution of force, although this does not include acute angles. This reduces the risk of material failure on the panel.

According to a modified embodiment of the invention, it is provided that a radius of the arc shape of the locking element surface and/or a radius of the arc shape of the lock receiving surface is between 85 percent and 95 percent inclusive of the total thickness of the panel; and preferably approximately 90 percent of the total thickness of the panel. It has been found that within these values the most advantageous and even distribution of forces occurs. Due to the resulting flat arch shape, the coupling elements are advantageously protected against static friction and thus against the risk of breakage.

According to the invention, it is provided that a tangent to the center of the arcuate shape of the locking element surface and/or a tangent to the center of the arcuate shape of the locking receiving surface relative to the panel surface and the panel bottom surface has a respective arc angle of less than 45 degrees, preferably less than 35 degrees, particularly preferably less than 25 degrees includes or includes. This means that as many vertical forces as possible can be absorbed by the locking element of the lower coupling element, evenly distributed horizontally. At the same time there is sufficient inclination to form the third locking system. This protects components and protects the panel.

According to the invention, it is provided that the counter surface encloses a respective counter surface angle of less than 45 degrees, preferably less than 35 degrees, particularly preferably less than 25 degrees, relative to the panel surface and the bottom surface of the panel. This means that as many vertical forces as possible can be absorbed horizontally, evenly distributed, by the counter surface of the lower coupling element. At the same time there is sufficient inclination to form the first locking system. This protects components and protects the panel.

• das Verriegelungselement eine zu der Paneelunterfläche führende Verriegelungsaußenfläche aufweist, die gegenüber einer Vertikalebene einen Verriegelungswinkel kleiner einschließlich 35 Grad, bevorzugt kleiner einschließlich 30 Grad, besonders bevorzugt kleiner einschließlich 25 Grad einschließt. Es hat sich herausgestellt, dass hierdurch vertikal wirkende Kräfte gut in den Untergrund geleitet werden können, wobei das Verriegelungselement möglichst wenig aufgespreizt wird. Gemäß einer modifizierten Ausführungsform der Erfindung ist vorgesehen, dass
• ein Ansatz der Verriegelungsaufnahme übergehend zum Rastelement als Rundung ausgebildet ist. Insbesondere wenn das obere Koppelelement auf das untere Koppelelement aufgesteckt wird, spreizt sich das obere Koppelelement zwischen der Verriegelungsaufnahme und dem Rastelement auf. Durch die Rundung werden Spannungspitzen und somit das Risiko reduziert, dass im Übergang der Verriegelungsaufnahme zum Rastelement ein Materialversagen auftritt.

According to the invention it is provided that the arc angle and the counter surface angle differ from one another by less than 20 degrees, preferably less than 15 degrees, particularly preferably less than 10 degrees. It has been found that it is advantageous to make the arc angle and the counter surface angle as similar as possible so that force can be distributed evenly. During assembly, in particular, forces are absorbed evenly so that no successive load maximums arise. The arc angle and the counter surface angle particularly preferably correspond. According to a modified embodiment of the invention it is provided that

• the locking element has a locking outer surface leading to the underside of the panel, which, relative to a vertical plane, includes a locking angle of less than 35 degrees, preferably less than 30 degrees, particularly preferably less than 25 degrees. It has been found that this allows vertically acting forces to be well directed into the subsurface, with the locking element being spread as little as possible. According to a modified embodiment of the invention it is provided that
• an approach of the locking receptacle is designed as a curve transitioning to the locking element. In particular, when the upper coupling element is plugged onto the lower coupling element, the upper coupling element spreads between the locking receptacle and the latching element. The rounding reduces stress peaks and thus the risk of material failure occurring in the transition from the locking receptacle to the locking element.

According to a modified embodiment of the invention, it is provided that an edge of the locking element facing a projection of the locking receptacle is designed as a curve. This reduces the risk of the locking element of the lower coupling element tilting with the locking element of the upper coupling element during the assembly of two panels. According to a modified embodiment of the invention it is provided that the locking element has a locking projection and the locking receptacle has a locking abutment, which form the second locking system in the coupled state of two panels. Such a configuration allows a reliable, form-fitting second locking system, whereby the interaction of the locking projection and locking abutment means that the panel is not subjected to any load that could damage components.

According to a modified embodiment of the invention, it is provided that the locking element has a locking projection and the locking receptacle has a locking abutment, which form the third locking system in the coupled state of two panels. Such a configuration allows a reliable, form-fitting third locking system, whereby the interaction of the locking projection and the locking abutment means that the panel is not subjected to any load that could damage components.

According to a modified embodiment of the invention, it is provided that the panel has at least partially, preferably completely, thermoplastic styrene block copolymers, TPS, as the base material. It has been found that TPS-containing panels are particularly suitable for the stressed dimensions of the coupling elements. The same applies to materials that have similar properties to TPS or that only partially have TPS.

Brief description of the drawings

The invention is explained in more detail below with reference to the accompanying drawings using preferred exemplary embodiments. The wording figure is abbreviated to Fig. in the drawings.

Figur 1

eine schematische Längsschnittansicht zweier miteinander verbundener Paneele gemäß Stand der Technik; und

Figur 2

eine schematische Längsschnittansicht zweier miteinander verbundener Paneele gemäß einem bevorzugten Ausführungsbeispiel der Erfindung.

Show in the drawings

Figure 1

a schematic longitudinal sectional view of two interconnected panels according to the prior art; and

Figure 2

a schematic longitudinal sectional view of two interconnected panels according to a preferred embodiment of the invention.

Detailed description of the exemplary embodiments

The exemplary embodiments described are merely examples that can be modified and/or supplemented in a variety of ways within the scope of the claims. Each feature described for a particular embodiment may be used alone or in combination with other features in any other embodiment. Each feature that is described for an embodiment of a particular claim category can also be used in a corresponding manner in an embodiment of another claim category.

Figure 1 shows a schematic longitudinal section view of two interconnected panels 10a, 10b according to the prior art. The representation is to be understood purely schematically and is not true to scale due to the arbitrary representation.

• eine Paneeloberfläche 12 und eine hierzu parallele Paneelunterfläche 14, die mit einer Gesamtstärke G voneinander beabstandet sind;
• ein oberes Koppelelement 16 und ein unteres Koppelelement 18, wobei zwei solche Paneele 10a, 10b mittels einer Abwärtsbewegung des oberen Koppelelements 16 des ersten Paneels 10a in Bezug auf das untere Koppelelement 18 des zweiten Paneels 10b aneinander koppelbar ausgebildet sind; wobei
• das obere Koppelelement 16 an seinem distalen Ende einen keilförmigen Vorsprung 20 und das untere Koppelelement 18 eine Gegenfläche 22 aufweisen, die im gekoppelten Zustand zweier Paneele 10a, 10b ein erstes Verriegelungssystem bilden;
• das obere Koppelelement 16 ein sich dem keilförmigen Vorsprung 20 anschließendes Rastelement 24 und das untere Koppelelement 18 eine sich der Gegenfläche 22 anschließende Rastaufnahme 26 aufweisen, die im gekoppelten Zustand zweier Paneele 10a, 10b ein zweites Verriegelungssystem bilden;
• das obere Koppelelement 16 eine sich dem Rastelement 24 anschließende Verriegelungsaufnahme 28 und das untere Koppelelement 18 an seinem distalen Ende ein sich der Rastaufnahme 26 anschließendes Verriegelungselement 30 aufweisen, die im gekoppelten Zustand zweier Paneele 10a, 10b ein drittes Verriegelungssystem bilden.

Figure 2 shows a schematic longitudinal section view of two interconnected panels 10a, 10b according to a preferred embodiment of the invention. A panel 10a, 10b is therefore provided for a cladding, in particular a floor panel for a floor covering. Although two different panels 10a, 10b are shown, each panel 10a, 10b has:

• a panel surface 12 and a parallel panel bottom surface 14, which are spaced apart from one another with a total thickness G;
• an upper coupling element 16 and a lower coupling element 18, two such panels 10a, 10b being designed to be coupled to one another by means of a downward movement of the upper coupling element 16 of the first panel 10a with respect to the lower coupling element 18 of the second panel 10b; where
• the upper coupling element 16 has a wedge-shaped projection 20 at its distal end and the lower coupling element 18 has a counter surface 22, which form a first locking system in the coupled state of two panels 10a, 10b;
• the upper coupling element 16 has a latching element 24 adjoining the wedge-shaped projection 20 and the lower coupling element 18 has a latching receptacle 26 adjoining the counter surface 22, which form a second locking system in the coupled state of two panels 10a, 10b;
• the upper coupling element 16 has a locking receptacle 28 adjoining the latching element 24 and the lower coupling element 18 has a locking element 30 adjoining the latching receptacle 26 at its distal end, which form a third locking system in the coupled state of two panels 10a, 10b.

In particular, it is provided here that a material thickness UM of the lower coupling element 18 between the panel lower surface 14 and the locking receptacle 26 is less than 100 percent of a material thickness OM of the upper coupling element 16 between the panel surface 12 and the locking receptacle 28.

The upper coupling element 16 and the lower coupling element 18 are represented by two different panels 10a, 10b that are connected to one another. However, each panel 10a, 10b has such an upper coupling element 16 and such a lower coupling element 18. This is independent of the in Figure 2 illustrated embodiment.

Furthermore, the panels 10a, 10b are in Figure 2 shown according to an exemplary preferred scale.

Furthermore, an embodiment of the invention according to Figure 2 Preferably, the material thickness UM of the lower coupling element 18 between the panel lower surface 14 and the locking receptacle 26 is at least including 62 percent, preferably at least including 67 percent and particularly preferably at least including 72 percent of the material thickness OM of the upper coupling element 16 between the panel surface 12 and the locking receptacle is 28. By Embodiment of the invention according to Figure 2 By way of example and independently of other features of this exemplary embodiment, this is 72 percent.

Furthermore, an embodiment of the invention according to Figure 2 Preferably, the material thickness UM of the lower coupling element 18 between the lower surface of the panel 14 and the locking receptacle 26 is at most including 82 percent, at most including 77 percent and particularly preferably at most including 72 percent of the material thickness OM of the upper coupling element 16 between the panel surface 12 and the locking receptacle 28 amounts. In the embodiment of the invention according to Figure 2 By way of example and independently of other features of this exemplary embodiment, this is 72 percent.

Furthermore, an embodiment of the invention according to Figure 2 Preferably, the material thickness OM of the upper coupling element 16 between the panel surface 12 and the locking receptacle 28 is at least including 34 percent, preferably at least including 39 percent, particularly preferably at least including 44 percent of the total thickness G of the panel 10a, 10b. In the embodiment of the invention according to Figure 2 As an example and independent of other features of this exemplary embodiment, this is 44 percent.

Furthermore, an embodiment of the invention according to Figure 2 Preferably, the material thickness OM of the upper coupling element 16 between the panel surface 12 and the locking receptacle 28 is at most 54 percent, preferably at most 49 percent, particularly preferably at most 44 percent of the total thickness G of the panel 10a, 10b. In the embodiment of the invention according to Figure 2 As an example and independent of other features of this exemplary embodiment, this is 44 percent.

Furthermore, an embodiment of the invention according to Figure 2 Preferably, the material thickness UM of the lower coupling element 18 between the lower surface of the panel 14 and the locking receptacle 26 is at least including 24 percent, preferably at least including 29 percent, particularly preferably at least including 34 percent of the total thickness G of the panel 10a, 10b. By Embodiment of the invention according to Figure 2 As an example and independent of other features of this exemplary embodiment, this is 34 percent.

Furthermore, an embodiment of the invention according to Figure 2 Preferably, the material thickness UM of the lower coupling element 18 between the lower surface of the panel 14 and the locking receptacle 26 is at most 44 percent, preferably at most 39 percent, particularly preferably at most 34 percent of the total thickness G of the panel 10a, 10b. In the embodiment of the invention according to Figure 2 As an example and independent of other features of this exemplary embodiment, this is 34 percent.

• dass eine zur Verriegelungsaufnahme 28 weisende Verriegelungselementfläche 32 des Verriegelungselements 30 im Wesentlichen eine gleichmäßige Bogenform aufweist und/oder dass
• eine zum Verriegelungselement 30 weisende Verriegelungsaufnahmefläche 34 der Verriegelungsaufnahme 28 eine im Wesentlichen gleichmäßige Bogenform aufweist, wobei die Verriegelungselementfläche 32 und die Verriegelungsaufnahmefläche 34 insbesondere zueinander im Wesentlichen konturgleich ausgebildet sind. In dem Ausführungsbeispiel der Erfindung gemäß Figur 2 ist dies beispielhaft und unabhängig von anderen Merkmalen dieses Ausführungsbeispiels dargestellt. So weisen sowohl die Verriegelungselementfläche 32 als auch die Verriegelungsaufnahmefläche 34 eine solche Bogenform auf. Dabei gilt bei mehreren Bogenformen ein Haupterstreckungsbogen als maßgebliche Bogenform, unabhängig dieses Ausführungsbeispiels. Ein Haupterstreckungsbogen ist jener aus mehreren Bögen, dessen Parabelformanteil an der Verriegelungsaufnahme 28 beziehungsweise an dem Verriegelungselement 30 am größten ist. Anders formuliert nimmt der Haupterstreckungsbogen die längste Strecke der Verriegelungsaufnahme 28 beziehungsweise des Verriegelungselements 30 ein. Wie in Figur 2 zu sehen ist, weisen die Verriegelungsaufnahme 28 und das Verriegelungselement 30 im Wesentlichen eine gleiche Kontur auf, nämlich eine flache Wölbung. Im Wesentlichen bezieht sich darauf, dass abgehend vom jeweiligen Ende der Bogenformen der Verriegelungselementfläche 32 und der Verriegelungsaufnahmefläche 34 Konturabweichungen vorhanden sein können.

Furthermore, an embodiment of the invention according to Figure 2 according to the invention,

• that a locking element surface 32 of the locking element 30 facing the locking receptacle 28 has a substantially uniform arc shape and/or that
• a locking receiving surface 34 of the locking receptacle 28 facing the locking element 30 has a substantially uniform arc shape, wherein the locking element surface 32 and the locking receiving surface 34 are designed, in particular, to have substantially the same contour as one another. In the embodiment of the invention according to Figure 2 This is shown as an example and independently of other features of this exemplary embodiment. Both the locking element surface 32 and the locking receiving surface 34 have such an arc shape. In the case of several arch shapes, one main extension arch is considered the relevant arch shape, regardless of this exemplary embodiment. A main extension arc is that of several arcs whose parabolic shape portion on the locking receptacle 28 or on the locking element 30 is largest. In other words, the main extension arc occupies the longest distance of the locking receptacle 28 or the locking element 30. As in Figure 2 can be seen, the locking receptacle 28 and the locking element 30 have essentially the same contour, namely a flat curvature. Essentially this refers to the fact that contour deviations may be present starting from the respective end of the arc shapes of the locking element surface 32 and the locking receiving surface 34.

Furthermore, an embodiment of the invention according to Figure 2 Preferably, a radius R of the arcuate shape of the locking element surface 32 and / or a radius of the arcuate shape of the locking receiving surface 34 is between 85 percent and 95 percent inclusive of the total thickness G of the panel 10a, 10b. In the embodiment of the invention according to Figure 2 By way of example and independently of other features of this exemplary embodiment, this is approximately 90 percent of the total thickness G of the panel 10a, 10b. Roughly means here that a deviation can be present, in particular from 87.5 percent to 92.5 percent inclusive, with exactly 90 percent being preferred.

Furthermore, an embodiment of the invention according to Figure 2 According to the invention, a tangent to the center of the arcuate shape of the locking element surface 32 and/or a tangent to the center of the arcuate shape of the locking receiving surface 34 relative to the panel surface 12 and the panel bottom surface 14 has a respective arc angle alpha less than 45 degrees, preferably less than 35 degrees, particularly preferred less than or including 25 degrees. The tangent to the center of the arc shape of the locking receiving surface 34 is determined analogously from the side of the locking element surface 32. In the embodiment of the invention according to Figure 2 The respective arc angle alpha of the locking element surface 32 and the locking receiving surface 34 is 22 degrees, for example and independently of other features of this exemplary embodiment.

Furthermore, an embodiment of the invention according to Figure 2 According to the invention, the counter surface 22 encloses a respective counter surface angle beta less than 45 degrees, preferably less than 35 degrees, particularly preferably less than 25 degrees, relative to the panel surface 12 and the panel bottom surface 14. In the embodiment of the invention according to Figure 2 the respective counter surface angle beta is 35 degrees, for example and independently of other features of this exemplary embodiment.

Furthermore, an embodiment of the invention according to Figure 2 According to the invention, the arc angle alpha and the counter surface angle beta are less than or equal to 20 Degrees, preferably smaller including 15 degrees, particularly preferably smaller including 10 degrees, differ from each other. In the embodiment of the invention according to Figure 2 the arc angle alpha and the counter surface angle beta deviate from each other by 13 degrees, for example and independently of other features of this exemplary embodiment.

Furthermore, an embodiment of the invention according to Figure 2 Preferably, the locking element 30 has a locking outer surface 40 leading to the panel bottom surface 14, which, relative to a vertical plane, includes a locking angle gamma of less than 35 degrees, preferably less than 30 degrees, particularly preferably less than 25 degrees. In the embodiment of the invention according to Figure 2 For example, the locking angle gamma is 30 degrees, regardless of other features of this exemplary embodiment.

Furthermore, an embodiment of the invention according to Figure 2 Preferably, an approach 36 of the locking receptacle 28 is designed as a curve transitioning to the locking element 24.

Furthermore, an embodiment of the invention according to Figure 2 Preferably, an edge 38 of the locking element 30 facing an approach 36 of the locking receptacle 28 is designed as a curve.

Furthermore, an embodiment of the invention according to Figure 2 Preferably, the latching element 24 has a latching projection 42 and the latching receptacle 26 has a latching abutment 44, which form the second locking system in the coupled state of the two panels 10a, 10b shown.

Furthermore, an embodiment of the invention according to Figure 2 Preferably, the locking element 30 has a locking projection 46 and the locking receptacle 28 has a locking abutment 48, which form the third locking system in the coupled state of the two panels 10a, 10b shown.

Furthermore, an embodiment of the invention according to Figure 2 Preferably, the panel 10a, 10b has at least partially, preferably completely, thermoplastic styrene block copolymers, TPS, as the base material.

Reference symbol list

10a, 10b

panel

12

panel surface

14

Panel bottom surface

16

upper coupling element

18

lower coupling element

20

wedge-shaped projection

22

Counter surface

24

Locking element

26

snap-in recording

28

Locking recording

30

Locking element

32

Locking element surface

34

Lock receiving surface

36

Approach of the locking receptacle transitions to the locking element

38

edge of the locking element pointing towards an approach of the locking receptacle

40

Locking outer surface

42

locking projection

44

Locking abutment

46

Locking projection

48

Locking abutment

G

Overall strength

OM

Material thickness of the upper coupling element

AROUND

Material thickness of the lower coupling element

alpha, α

Arc angle

beta, β

Opposite surface angle

gamma, y

Locking angle

R

radius

Claims (19)

1. Panel (10a, 10b) for a paneling, in particular floor panel for a floor covering, comprising:

   a panel upper surface (12) and a panel lower surface (14) extending parallel thereto, which are mutually spaced from each other by a total thickness (G);

   an upper coupling element (16) and a lower coupling element (18), wherein two panels (10a, 10b) of this type can be coupled to each other by means of a downward movement of the upper coupling element (16) of the first panel (10a) with respect to the lower coupling element (18) of the second panel (10b), wherein

   the upper coupling element (16) has at its distal end a wedge-shaped protrusion (20) and the lower coupling element (18) has a mating surface (22), which, in the coupled state of two panels (10a, 10b), form a first locking system,

   the upper coupling element (16) has a latching element (24) adjoining the wedge-shaped protrusion (20) and the lower coupling element (18) has a detent receptacle (26) adjoining the mating surface (22) which, in the coupled state of two panels (10a, 10b), form a second locking system,

   the upper coupling element (16) has a locking receptacle (28) adjoining the latching element (24), and the lower coupling element (18) has at its distal end a locking element (30) adjoining the detent receptacle (26), which, in the coupled state of two panels (10a, 10b), form a third locking system, wherein a material thickness (UM) of the lower coupling element (18) between the panel lower surface (14) and the detent receptacle (26) is less than 100 percent of a material thickness (OM) of the upper coupling element (16) between the panel upper surface (12) and the latching receptacle (28), characterized in that

   a locking element surface (32) of the locking element (30) facing the locking receptacle (28) has essentially a uniform arc shape; a tangent to the center of the arc shape of the locking receptacle surface (34) with respect to the panel upper surface (12) and the panel lower surface (14) includes a respective arc angle (alpha) less than or equal to 45 degrees; the mating surface (22) with respect to the panel upper surface (12) and the panel lower surface (14) includes a respective mating surface angle (beta) of less than or equal to 45 degrees; the arc angle (alpha) and the mating surface angle (beta) deviate by less than or equal to 20 degrees from each other.
2. Panel (10a, 10b) for a paneling, in particular floor panel for a floor covering, comprising:

   a panel upper surface (12) and a panel lower surface (14) extending parallel thereto, which are mutually spaced from each other by a total thickness (G);

   an upper coupling element (16) and a lower coupling element (18), wherein two panels (10a, 10b) of this type can be coupled to each other by means of a downward movement of the upper coupling element (16) of the first panel (10a) with respect to the lower coupling element (18) of the second panel (10b), wherein

   the upper coupling element (16) has at its distal end a wedge-shaped protrusion (20) and the lower coupling element (18) has a mating surface (22), which, in the coupled state of two panels (10a, 10b), form a first locking system,

   the upper coupling element (16) has a latching element (24) adjoining the wedge-shaped protrusion (20) and the lower coupling element (18) has a detent receptacle (26) adjoining the mating surface (22) which, in the coupled state of two panels (10a, 10b), form a second locking system,

   the upper coupling element (16) has a locking receptacle (28) adjoining the latching element (24), and the lower coupling element (18) has at its distal end a locking element (30) adjoining the detent receptacle (26), which, in the coupled state of two panels (10a, 10b), form a third locking system, wherein a material thickness (UM) of the lower coupling element (18) between the panel lower surface (14) and the detent receptacle (26) is less than 100 percent of a material thickness (OM) of the upper coupling element (16) between the panel upper surface (12) and the latching receptacle (28),

   characterized in that

   that a locking receiving surface (34) of the locking receptacle (28) facing the locking element (30) has a substantially uniform arc shape;

   in that a tangent to the centre of the arcuate shape of the locking receiving surface (34) relative to the panel upper surface (12) and the panel lower surface (14) includes a respective arc angle (alpha) less than or equal to 45 degrees;

   said mating surface (22) includes a respective mating surface angle (beta) of less than or equal 45 degrees with respect to said panel surface (12) and said panel lower surface (14);

   in that the arc angle (alpha) and the mating surface angle (beta) differ by less than or equal to 20 degrees.
3. Panel (10a, 10b) according to claim 1 or 2, characterized in that
   the material thickness (UM) of the lower coupling element (18) between the panel lower surface (14) and the detent receptacle (26) is greater than or equal to 62 percent, preferably greater than or equal to 67 percent, and particularly preferably greater than or equal to 72 percent of the material thickness (OM) of the upper coupling element (16) between the panel upper surface (12) and the locking receptacle (28).
4. Panel (10a, 10b) according to at least one of the preceding claims, characterized in that
   the material thickness (UM) of the lower coupling element (18) between the panel lower surface (14) and the detent receptacle (26) is less than or equal to 82 percent, preferably less than or equal to 77 percent and particularly preferably less than or equal to 72 percent of the material thickness (OM) of the upper coupling element (16) between the panel upper surface (12) and the locking receptacle (28).
5. Panel (10a, 10b) according to at least one of the preceding claims, characterized in that
   the material thickness (OM) of the upper coupling element (16) between the panel upper surface (12) and the locking receptacle (28) is greater than or equal to 34 percent, preferably greater than or equal to 39 percent, particularly preferably greater than or equal to 44 percent of the total thickness (G) of the panel (10a, 10b).
6. Panel (10a, 10b) according to at least one of the preceding claims, characterized in that
   the material thickness (OM) of the upper coupling element (16) between the panel upper surface (12) and the locking receptacle (28) is less than or equal to 54 percent, preferably less than or equal to 49 percent, particularly preferably less than or equal to 44 percent of the total thickness (G) of the panel (10a, 10b).
7. Panel (10a, 10b) according to at least one of the preceding claims, characterized in that
   the material thickness (UM) of the lower coupling element (18) between the panel lower surface (14) and the detent receptacle (26) is greater than or equal to 24 percent, preferably greater than or equal to 29 percent, particularly preferably greater than or equal to 34 percent of the total thickness (G) of the panel (10a, 10b).
8. Panel (10a, 10b) according to at least one of the preceding claims, characterized in that
   the material thickness (UM) of the lower coupling element (18) between the panel lower surface (14) and the detent receptacle (26) is less than or equal to 44 percent, preferably less than or equal to 39 percent, particularly preferably less than or equal to 34 percent of the total thickness (G) of the panel (10a, 10b).
9. Panel (10a, 10b) according to at least one of the preceding claims, characterized in that the locking element surface (32) and the locking receptacle surface (34) are designed in particular identical in contour to one another.
10. Panel (10a, 10b) according to at least one of the preceding claims, characterized in that a radius (R) of the arc shape of the locking element surface (32) and/or a radius of the arc shape of the locking receptacle surface (34) is between 85 percent inclusive to 95 percent inclusive of the total thickness (G) of the panel (10a, 10b), and preferably about 90 percent of the total thickness (G) of the panel (10a, 10b).
11. Panel (10a, 10b) according to at least one of claims 9 or 10, characterized in that
    a tangent to the center of the arc shape of the locking element surface (32) and/or a tangent to the center of the arc shape of the locking receptacle surface (34) with respect to the panel upper surface (12) and the panel lower surface (14) includes or include a respective arc angle (alpha), wherein the respective arc angle (alpha) is preferably less than or equal to 45 degrees, more preferably less than or equal to 35 degrees, more preferably less than or equal to 25 degrees.
12. Panel (10a, 10b) according to at least one of the preceding claims, characterized in that
    the mating surface (22) includes a respective mating surface angle (beta) with respect to the panel upper surface (12) and the panel lower surface (14), wherein the respective mating surface angle (beta) is less than or equal to 45 degrees, preferably less than or equal to 35 degrees, particularly preferably less than or equal to 25 degrees.
13. Panel (10a, 10b) according to claims 10 and 11, characterized in that the arc angle (alpha) and the mating surface angle (beta) deviate by less than or equal to 15 degrees, preferably less than or equal to 10 degrees from each other.
14. Panel (10a, 10b) according to at least one of the preceding claims, characterized in that
    the locking element (30) comprises a locking outer surface (40) which leads to the panel lower surface (14) and includes a locking angle (gamma) with respect to a vertical plane, wherein the locking angle (gamma) is less than or equal to 35 degrees, preferably less than or equal to 30 degrees, particularly preferably less than or equal to 25 degrees.
15. Panel (10a, 10b) according to at least one of the preceding claims, characterized in that
    an extension (36) of the locking receptacle (28) transitioning to the latching element (24) is formed as a rounding.
16. Panel (10a, 10b) according to at least one of the preceding claims, characterized in that
    an edge (38) of the locking element (30) facing to an extension (36) of the locking receptacle (28) is formed as a rounding.
17. Panel (10a, 10b) according to at least one of the preceding claims, characterized in that
    the latching element (24) has a latching protrusion (42) and the detent receptacle (26) has a latching counter-bearing (44) which, in the coupled state of two panels (10a, 10b), form the second locking system.
18. Panel (10a, 10b) according to at least one of the preceding claims, characterized in that
    the locking element (30) comprises a locking protrusion (46) and the locking receptacle (28) comprises a locking counter-bearing (48), which, in the coupled state of two panels (10a, 10b), form the third locking system.
19. Panel (10a, 10b) according to at least one of the preceding claims, characterized in that
    the panel (10a, 10b) comprises at least partially, preferably completely, thermoplastic styrene block copolymers, TPS, as a base material.

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