EP3543427A1 - Panel, second panel, panel connection and method of manufacturing the panel connection - Google Patents

Abstract

It proposes a panel with an upper side, a lower side, and side areas, which 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 spring-groove profile or double-spring groove profile with at least a first horizontal locking projection with a first stop edge over the entire length of its edge region. The second profile is formed as a corresponding to the first profile tongue and groove profile or double-tongue-spring profile with at least a second horizontal locking projection with a second stop edge over the entire length of its edge region. At 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, which forms the outer edge region with an outer edge region adjoining it.

Description

The invention relates to a panel, a panel connection and a method for producing the panel connection.

Panels are often designed as decorative elements such as wall, ceiling and floor coverings. Such coverings are, for example, engineered parquet, laminate flooring, elastic coverings made of plastics (eg LVT, PUR, WPC, PET, PVC), mineral-based coverings in square, rectangular or even hexagonal form. In general, such elements on a longitudinal side and on a transverse side of continuous grooves and on the respective opposite sides of continuous springs to be connected to each other by snapping into each other. The individual elements, also referred to as panels are thus connected to each other by a tongue and groove connection. Are known mechanical locking means for glueless installation of elements or panels with snap-in profiles in a plane, ie to a surface. As a rule, the longitudinal and transverse sides are pivoted into one another or pivoted longitudinally and horizontally displaced horizontally, so that a locking of the elements or panels can take place. In addition, spring elements can still be used to make the connection. Described panel connections are for example from the European patent application EP 16193185.2 , the European patents EP 2440724 B1 . EP 1936068 B1 , the German patent application DE 10 2014 103176 A1 , the German utility model application DE 202010018560 U1 or the US patent applications US 2009/217615 A1 and US 2011/0056167 A1 known. The connection of individual panels with each other is usually sufficient, but can still be improved.

It is therefore an object of the invention to provide improved tongue and groove profiles for panels. In particular, these panels are connected to a laid in the plane covering such as a floor, wall or ceiling covering, or to a corner joint, eg as a staircase trim, skirting board, lining for heating pipes etc. connected to each other. This object is achieved by the features of the independent claims solved. Advantageous embodiments are the subject of the dependent claims.

Provided is a panel having a top, a bottom, and side portions formed as outer margins. 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 spring-groove profile or double-spring groove profile with at least a first horizontal locking projection with a first stop edge over the entire length of its edge region. The second profile is formed as a corresponding to the first profile tongue and groove profile or double-tongue-spring profile with at least a second horizontal locking projection with a second stop edge over the entire length of its edge region. At 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, which forms the outer edge region with an outer edge region adjoining it. The proposed Ausappung on at least one corner of a panel can be achieved by inserting a laying.

Furthermore, a second panel corresponding to the panel is provided, which is formed as a left or right panel, depending on the design of the panel described above. Thus, different laying patterns, e.g. Herringbone, chessboard, be realized. So it can also be a simple crosswise installation. In addition, a panel connection is proposed consisting of a plurality of similar panels or panels formed as first and second panels, respectively. Likewise, a laying method for laying the panels by insertion is proposed.

• Figur 1a zeigt eine verbundene Fläche aus Rechtecken mit Ablegevorgang
• Figur 1b zeigt eine verbundene Fläche im Fischgrät mit Verlegerichtung, sowie einzelne dafür verwendete Paneele
• Figur 1c zeigt eine verbundene Fläche von Quadraten in Schachbrettform mit Verlegerichtung, sowie einzelne dafür verwendete Paneele
• Figur 1d zeigt eine verbundene Fläche von Dreiecken mit Verlegerichtung, sowie einzelne dafür verwendete Paneele
• Figur 2a den Querschnitt einer Verbindung aus einem ersten Profil mit 2 Federn und einer Nut und einem zweiten Profil mit einer Feder und zwei Nuten nach einer Ausführung der vorliegenden Erfindung.
• Figur 2b zeigt den Querschnitt des zweiten Profils 2 aus Figur 2a.
• Figur 2c zeigt den Querschnitt des ersten Profils 1 aus Figur 2a.
• Figuren 2d und 2e zeigen Ansichten des Einschiebens von zwei in einer Einschieberichtung C ineinander einzuschiebender Profile mit unterschiedlichen Auskappungen 102b und 106a nach unterschiedlichen Ausführungen der vorliegenden Erfindung.
• Figur 3 zeigt links die Position und Länge der Auskappung am zweiten Profil 2 und rechts die Position und Länge der Auskappung im ersten Profil nach unterschiedlichen Ausführungen der vorliegenden Erfindung.
• Figuren 4a-4d zeigen den Querschnitt von Profil 1 und 2 für extrem dünne Materialien nach unterschiedlichen Ausführungen der vorliegenden Erfindung.
• Figuren 5a, 5b und 6a, 6b zeigen ein Standard Profil, das in ein erfindungsgemäßes Einschiebeprofil geändert wurde.
• Figur 7a zeigt den Querschnitt des Einschiebeprofils als Eckprofil nach einer Ausführung der vorliegenden Erfindung.
• Figur 7b zeigt die Einschieberichtung C mit zugehörigem Winkel W5 für ein Eckprofil nach einer Ausführung der vorliegenden Erfindung.
• Figur 7c zeigt den Querschnitt des ersten Profils 1 der in Figuren 7a und 7b gezeigten Eckverbindung nach einer Ausführung der vorliegenden Erfindung.
• Figur 7d zeigt den Querschnitt des zweiten Profils 2 der in Figuren 7a und 7b gezeigten Eckverbindung nach einer Ausführung der vorliegenden Erfindung.
• Figur 8a zeigt den Querschnitt ein Anwendungsbeispiel des Eckprofils als Sockelleiste für nachträgliche Elektro- oder Heizungsinstallationen nach einer Ausführung der vorliegenden Erfindung.
• Figur 8b zeigt das Eckprofil mit Auskappung zur Montage in einer Zimmerecke nach einer Ausführung der vorliegenden Erfindung.
• Figur 9a zeigt eine weitere Variante des Eckprofils für eine Treppenverkleidung nach einer Ausführung der vorliegenden Erfindung.
• Figur 9b zeigt vergrößert eine Innenecke II für eine Treppenverkleidung der in Figur 9a gezeigten Ausführung.
• Figur 9c zeigt vergrößert die Außenecke I für eine Treppenverkleidung der in Figur 9a gezeigten Ausführung.
• Figur 9d zeigt das Eckprofil für eine stirnseitige Treppenverkleidung mit Auskappung 106a am zweiten Profil 2 nach einer Ausführung der vorliegenden Erfindung.

Further features and advantages of the invention will become apparent from the following description of embodiments of the invention, with reference to the figures of the drawing, the inventive details shows, and from the claims. The individual features can be realized individually for themselves or for several in any combination in a variant of the invention. preferred Embodiments of the invention are explained below with reference to the accompanying drawings.

• FIG. 1a shows a connected area of rectangles with discard process
• FIG. 1b shows a connected area in herringbone with laying direction, as well as individual panels used for it
• Figure 1c shows a connected area of squares in checkerboard shape with laying direction, as well as individual panels used for it
• Figure 1d shows a connected area of triangles with laying direction, as well as individual panels used for it
• FIG. 2a the cross section of a compound of a first profile with 2 springs and a groove and a second profile with a spring and two grooves according to an embodiment of the present invention.
• FIG. 2b shows the cross section of the second profile 2 FIG. 2a ,
• Figure 2c shows the cross section of the first profile 1 from FIG. 2a ,
• Figures 2d and 2e show views of the insertion of two in a direction of insertion C hineinzuschiebender profiles with different Auskappungen 102b and 106a according to different embodiments of the present invention.
• FIG. 3 1 shows on the left the position and length of the cutout on the second profile 2 and on the right the position and length of the cutout in the first profile according to different embodiments of the present invention.
• FIGS. 4a-4d show the cross section of profiles 1 and 2 for extremely thin materials according to different embodiments of the present invention.
• FIGS. 5a, 5b and 6a, 6b show a standard profile that has been changed into a slip-in profile according to the invention.
• Figure 7a shows the cross section of the Einschiebeprofils as a corner profile according to an embodiment of the present invention.
• FIG. 7b shows the insertion direction C with associated angle W5 for a corner profile according to an embodiment of the present invention.
• FIG. 7c shows the cross section of the first profile 1 of in FIGS. 7a and 7b shown corner joint according to an embodiment of the present invention.
• FIG. 7d shows the cross section of the second profile 2 of in FIGS. 7a and 7b shown corner joint according to an embodiment of the present invention.
• FIG. 8a shows the cross section of an application example of the corner profile as skirting board for subsequent electrical or heating installations according to an embodiment of the present invention.
• FIG. 8b shows the corner profile with Ausklappung for mounting in a corner of a room according to an embodiment of the present invention.
• FIG. 9a shows a further variant of the corner profile for a stair case according to an embodiment of the present invention.
• FIG. 9b shows enlarged an inner corner II for a staircase covering in FIG. 9a shown execution.
• FIG. 9c shows enlarged the outer corner I for a staircase covering in FIG. 9a shown execution.
• FIG. 9d shows the corner profile for a front-end staircase trim with Auskappung 106 a on the second profile 2 according to an embodiment of the present invention.

In the following description of the figures, the same elements or functions are provided with the same reference numerals.

In principle, two panels A; B with mutually corresponding sides, i. a groove side and a corresponding thereto, that can be brought into engagement, spring side, are joined together to form a covering. The floor covering can be a wall, ceiling and floor covering when laying in the plane. The covering can be designed as a corner joint and thus also be used as a stair covering or a skirting board or a cladding.

The subsequently proposed panels A; B can have three or four edge regions or sides, ie be formed as a triangle or as a rectangle. Squares in the context of the invention are only squares whose sides form a 90 degree angle, ie rectangles and squares. Squares whose sides do not form 90 degrees, eg Trapeze, are to be treated like triangles in terms of design and installation. Hereinafter, the invention will be described only by the example of a triangle, as in Figure 1d shown as rectangles, as in FIGS. 1a and 1b shown, and as a square, as in Figure 1c shown, formed panels A; B described. But it can also be used forms, which are formed of several triangles, such as hexagons. The invention is equally applicable here. The invention may also be applied to a combination of several different shapes, eg a combination of triangles and rectangles.

Laying of panels A; B can be done in a plane or in series, as is the case with wall, ceiling or floor coverings. That is, the bottoms U of the panels A; B are substantially parallel to each other and the substrate U, on which they are laid run. Alternatively, the proposed panel A; B also a corner joint can be easily realized, eg for stairwells, baseboards or other cladding, eg of heating pipes. In corner joints, at least two panels A to be joined together are A; B connected substantially orthogonally, as in FIGS. 9a to 9d to see.

The bottom U has in all panels in the direction of the ground U, so after installation no longer visible, and is substantially parallel to it.

Each panel A; B has at least three sides, which are formed as outer edge regions. The end faces 101 of the edge regions, which thus in the thickness direction of the panel A; B are formed, have introduced therein profiles 1 and 2, as in the sectional drawings of the panels A; B, eg in FIGS. 2a-2e . 4a-4d . 5a / 5b, 6a / 6b and 7a-7d , Several panels A; B are connected to each other by inserting corresponding profiles 1, 2. The profiles of the panels A; B are in contrast to profiles as described in the prior art formed such that they are not connected by snap-together (drop-down and fold-down profiles), but by insertion, as explained in more detail below.
The profiles locked in the stored state in a self-locking horizontal latch H bzw.in the self-locking vertical locks V1 and V2. Since no spring action of the first locking projection 102, as described later, for connecting the panels A; B is necessary, rigid or rigid materials can be used.

Hereinafter, the configuration required for insertion of the panels A; B described. Edge areas of the panels abut each other at corners, as in Figures 1a-1d shown for different panel shapes. A corner where two edge portions abut each other with the second profile 2 is referred to as a corner 103a. A corner where two edge portions abut each other with the first profile 1 is referred to as a corner 103c. A corner where a peripheral region having the first profile 1 and a peripheral region abutting with the second profile 2 is referred to as a corner 103b.

In a panel A formed as a rectangle; B abut a short side with the second profile 2 and a long side with the second profile 2 at a corner 103a, as in FIG FIGS. 1a and 1b shown. The other sides or edge areas have the first profile. The same applies to the special shape of the rectangle, a square, as in Figure 1c shown. In a panel A formed as a triangle; B are two variants with different profiles needed to allow laying, as in Figure 1d shown. In variant A, also referred to as left panel A, two edge regions or legs abut one another with the first profile 1 at a corner 103c. The other corners are corners 103b. In variant B, also referred to as right panel B, two edge regions or legs abut the second profile 2 at a corner 103a. The other corners are corners 103b.

The first profile 1 is formed either as a spring-groove profile 102, 105 (in the FIGS. 4a and 4c or 4d shown on the left). Or the first profile 1 is a double spring-groove profile 102, 104; 105 with at least a first horizontal locking projection 102 on the underside U of the panel A; B formed with a first horizontal stop edge 102a over the entire length of its edge region, such as in FIGS. 2a left and 2c and FIG. 3 shown right and bottom. The second profile 2 is formed either as a tongue and groove profile 106, 108 (in the FIGS. 4a and 4c or 4d shown on the right). Or the second profile 2 is a double-tongue spring profile 108, 107; 106 formed with at least a second horizontal locking projection 106 with a second horizontal stop edge 108a over the entire length of its edge region, such as in FIGS. 2a right and 2b and FIG. 3 shown on the left and top. The second horizontal stop edge 108 a is after insertion of the two profiles 1 and 2 with each other first horizontal abutment edge 102a engaged, ie they abut each other, and thus act as a horizontal latch H, such as in FIGS. 2a . 4c . 5b, 6b and 7a shown.

Spring-groove profiles and associated tongue and groove profiles, as well as double spring groove profiles and corresponding double groove spring profile are known. In these profiles, a first of panels to be joined together at an edge region, more precisely at its end face 101, at least one groove (or two grooves in a double-nib-spring profile) and a spring engageable in the groove of the panel to be connected therewith on. The other panel has at its edge region, more precisely at its end face 101, which is to be connected to the edge region or the end face 101 of the first panel, at corresponding points in the groove of the first panel engageable spring (or two springs at a Double spring groove profile) and a groove. The connection is a positive connection, i. that after joining two panels A; B at their end faces 101 a positive connection is formed, i. the end faces 101 are adjacent to each other. A double spring groove profile is shown in the figures as the first profile 1. A double-groove spring profile is shown in the figures as a second profile 2.

If the first profile 1 of one with another panel A; B to be joined A; B is formed as a double spring-groove profile 102, 104, 105, such as in FIG. 2a shown, this has a horizontal locking projection 102 (second spring) with a horizontal, serving as a locking H stop edge 102a. The horizontal locking projection 102 is connected to a locking channel 108 of the second profile 2 of the further panel A, which corresponds to the first profile 1 and which is designed as a double-groove spring profile. B engageable. Further, in a spring tongue 106 of the second profile 2 engageable locking groove 105 of the first profile 1 is present. This locking groove 105 is not orthogonal to the bottom U of the panel A; B, to allow insertion of the profiles 1 and 2 into each other. If the locking groove 105 were orthogonal, locking would have to be done, for example, by pushing away a spring of a profile, as in the prior art. The spring tongue 106 has on its outer edge region facing region a horizontal locking projection H with associated stop edge 108a and a first vertical locking projection V1 with the stop edge 104a of the first vertical locking projection 104 (first spring). This locking projection 104 of the first profile 1 is engaged after laying with the guide groove 107 of the second profile 2 in engagement. The region of the guide groove 107, which faces the underside U, serves as a stop edge 107a or first vertical locking projection V1. A second horizontal latch V2 is provided at the outermost portion of the first horizontal latching protrusion 102, more specifically, the stopper edge 102c of the first profile 1 which abuts against the abutment edge 108b of the second profile 2 after being laid. The first profile 1 (double spring groove profile 102, 104, 105) corresponding second profile 2 is as described above with a locking channel 108 (second groove) for the locking projection 102, a guide groove 107 (first groove) and a spring tongue 106 ( first spring), so that the two profiles 1 and 2 can engage with each other. If the first profile 1 of the panel A; B is formed as a tongue and groove profile 102, 105, this has only a first vertical locking projection 104; V1 with the stop edge 104a. The second profile 2 formed as a tongue-and-groove profile then correspondingly has a stop edge 107a as the first locking projection V1.

The stop edge 102c and the stop edge 108b are substantially parallel to one another, so that they lie against each other after laying and form a second vertical lock V2.

The first profile 1 and the second profile 2 are formed corresponding to each other, so that they can be brought into engagement with each other during insertion of panels. That is, each of a first profile 1 is to be engaged with a second profile 2 to produce a panel connection, as in FIG FIGS. 2a-2e . 4a-4d . 5a, 5b, 6a . 6b and 7a . 7b shown.

In order to allow insertion of the profiles 1 and 2 into each other, in one of the profiles 1 or 2, the stop edge 102a or 108a of the associated locking projection 102 or 106 in a first embodiment at a predetermined distance L at one of the corners 103a, 103b or 103c out ausgekappt. This means that the stop edge 102a or 108a only in a predetermined Distance L from the corner 103a, 103b or 103c begins. The missing locking projection 102 or 106 is indicated in all figures as a dark hatched area 102b and 106a. This so-called Auskappung 102b in profile 1 and 106a in profile 2 may be present at the same time, or only in one of the two mutually engageable profiles 1 or 2. This depends on the shape of the panel A, B used.

The exemplary embodiments described below are particularly suitable, for example, for panels in the form of rectangles or squares. Here are two adjoining edge regions of the panel A; B, the second profile 2, and the second horizontal locking projection 106 of the one or both edge regions begins only at a predetermined distance L from the corner 103 a.

In one embodiment, the panel A; B formed as a rectangle, wherein an edge region has the second profile 2 and is a short side, and wherein one of the adjoining edge regions also has the second profile 2 and is a long side. As in the embodiment described above, the second short side horizontal locking projection 106 does not start from the corner 103a a predetermined distance L and extends the entire remaining short side, as in FIG FIG. 1b shown. Further, the second horizontal long side locking protrusion 106 may also start only at the predetermined distance L from the corner 103a and extend over the entire remaining long side, as in FIG FIG. 1b shown on the example of a herringbone pattern. By provided on the long side Auskappung 106a so laying in different installation directions V is possible, ie both backward and crosswise.

As described above, the panel A; B be formed as a square, as in Figure 1c shown. Since all sides of squares have the same length, however, there are no short and long sides. As previously described with respect to the rectangle, two edge portions of the square abutting on the corner 103a have the second profile 2, and the second horizontal locking projection 106 of the first side does not start from the corner 103a until the predetermined distance L. Furthermore, the second horizontal Locking projection 106 on the other edge region lying on the corner 103 a only begin at the predetermined distance L from the corner 103 a. Due to the additional Auskappung 106 a laying in different installation directions V is possible, ie both backward and crosswise. Alternatively, only the pattern of the surface may be rotated 90 degrees, as in FIG Figure 1c shown.

In a further embodiment, the panels A; B formed in the form of triangles, as already mentioned above.

The Ausappung can be provided on only one of the edge regions of a panel. But it can also be provided at two or more or all edge areas, without jeopardizing the stability of the panel connection, since it only serves to facilitate or make possible the insertion. Different possible cut-outs 102b and 106a are summarized in FIG FIG. 3 shown. For certain types of laying, such as herringbone or chess board, or forms of panels, eg triangle, two differently formed panels A and B are necessary, as mentioned above. In panels A formed as a quadrilateral, eg as a square or rectangle; B, the left panel A and the right panel B are identically formed but may have mirrored end caps 102b and / or 106a. In the case of a panel formed as a triangle, a left panel A is provided, for example, with two edges or legs with the second profile 2 and with the first profile 1 at the third edge area or legs. The laying of the triangle pattern as in Figure 1d shown right panel B is correspondingly formed so that it is provided at two edge regions or legs with the first profile 1 and at the third edge region or leg with the second profile 2.

The length of the stop edge along the edge region or the edge regions with the Auskappung 102b, 106a is in all embodiments at least 2/3 of the length of the edge region.

Alternatively, the distance L, that is, the cut-out region 102b or 106a, after which the stop edge begins, can be between 1 mm ≦ L ≦ 100 mm away from the respective corner 103a, 103b, 103c. That is, the blanking 102b or 106a is between 1 mm and 100 m long, measured from the respective corner 103a, 103b, 103c, depending on the design.

The Auskappung 102b and 106a, so the. Removal, e.g. By milling, the first locking projection 102 and / or the second locking projection 106 is carried out such that the capped surface 102b and 106a has a U to the bottom substantially parallel surface. This means that the region which has no locking projection 102 or 106 at a distance L has a surface which is substantially parallel to the underside U.

Several described panels A; B can be connected together to form a panel connection. Such a panel connection consists of at least one panel A; Tie one to panel A; B connected second panel A; B, wherein the second panel may be identical to the first panel or as a right or left part, depending on the design of the first panel may be formed. That is, the panels A; B may therefore be identically formed as panels A or panels B, as described above, or the second panel A or B is mirror-inverted to the panel B or A formed, the panels A and B are thus as the left and right panel A. , B, as described above and in more detail below. Left and right panels A; B are needed above all for panel connections, which are to be laid as a pattern, eg as in FIG. 1b shown as herringbone or as in Figure 1d shown as alternating triangles in their direction. In order for the end cap 102b or 106a to be in the correct position for the laying operation, ie pointing to the next panel A or B to be laid or pointing away from the laying direction V, in some cases left and right panels A; B will be made available. These are in principle the same as the panels A described above; B thus have at least one edge region on a corresponding Auskappung 102b and 106a and the stop edge begins only at the distance L from the corner 103a, 103b, 103c, at which the Auskappung occurs. But they are mirrored to the panel A; B, with which they are joined, formed. This is especially true for rectangles or squares. For triangles, the profiles are formed as already described above.

In Figures 1b and 1d this is clearly shown. In FIG. 1b are rectangles, which are to be laid in a herringbone pattern represented. As can be seen, the rectangle shown at the top is shown as the left panel A with the cutout 106a at the upper left corner 103a. In this embodiment, therefore, a Auskappung 106 a at the two edge regions or sides with the second profile 2 is present. The rectangle below the uppermost rectangle is formed as a right panel B, wherein the Auskappung 106a here at the upper right corner 103a, mirrored to the left panel A, is formed. Under mirror-inverted so is to be understood that the panel is either mirrored on its transverse side, or mirrored on its longitudinal side. However, the Auskappung 106a is then still at the adjoining edge regions or sides with the second profile 2. As a triangle formed panels A; B need, as in Figure 1d to be seen as mutually complementary triangles are formed, as already described in detail above. In one embodiment, the endcap 102b is still at corner 103b.

The designations right panel B and left panel A are intended only to represent that the two panels are mirror-inverted or complementary to each other. It would also be possible to use designations such as first panel A and second panel B or only panels A and panels B or other terms suitable for distinguishing the two panels.

The connection of the panels A; B when laying done by an insertion process such that the second to be laid panel A; B in the existing panel A; B is inserted in a predetermined insertion direction C and laying direction V, as described below and in Figures 1a-1d or more clearly in Figures 2d and 2e shown. A capped area 102b and / or 106a of the panel A; B to be laid, that is to say the area without a locking projection, points in the direction of the laying person, ie away from the laying direction V, as in FIG Figures 1a-1d by using the markers A and B for left and right panels A; B to see. The insertion and the corresponding insertion angle will be described in more detail below.

In principle, the proposed panels A; B both for the laying of floor coverings and the laying of corner joints, as in FIGS. 7a-7d shown, especially for stairs, as in FIGS. 9a to 9d shown, or as skirting or as a subsequent cover or covering of exposed heating pipes, as in FIGS. 8a and 8b shown to be used. The profiles for corner joints are basically formed in the same way as for connections in the plane. It is only the end faces 101, in which the profiles 1 and 2 are formed, not as a vertical section through the thickness of the panel A; B formed but at an angle to it. Here, as in eg Figure 7a to see the area where the tops O of panels A; B lie against each other, be formed so that the end face 101 of the panel A; B only at a distance from the surface O, which represents the tread surface in a staircase begins. Thus, it is avoided that the abutting edge of the two panels A; B is located exactly at the corner of the stairs and is thus delivered higher wear. The same principle can be applied to other corner joints, if necessary. When using as a staircase trim, as in FIGS. 9a to 9d For better installation, it is advantageous to make the cutout 106a at the edge region with the second profile 2, so that the region of the cutout 106a is in the groove profile. As in FIGS. 9a to 9c to see the invention can be applied to both inside corners I and outside corners II. FIG. 9d shows the length of the Auskappung 106a, ie the length of the distance L, in which no stop edge is present, based on a version of a staircase (nverkleidung). When used as a skirting board or as a subsequent covering of exposed heating pipes, as in FIGS. 8a and 8b it may be more advantageous if the Auskappung 102b takes place on the side of the first profile 1, so that an insertion from above is possible.

The laying method, ie the method for providing a panel connection by connecting a plurality of panels A; B is described as follows and in Figures 2d and 2e for different Auskappungen 102b and 106a by two panels A to be joined together; B indicated executed.

As in the example in Figure 2d to see a row of panels A to be laid; B (in Figure 2d through two panels A; B indicated) in a raised storage position brought and each panel A; B of the row to be laid is in an insertion direction C and in the laying direction V in a corresponding edge region with the corresponding profile 1 or 2 of an existing series of panels A; B inserted. It is advantageous that at least one of the profiles 1 or 2 to be joined together of the existing or already stored panel A; B or in the filed A panel; B to be inserted A panel; B have a Auskappung 102b or 106a. But it can also have both profiles 1 and 2 a Auskappung 102 b or 106 a. Also, at other edge areas a Auskappung 102b or 106a in the profile 1 or 2 may be present.

The row to be laid is placed after insertion in such a way that the panels A; B after laying flat with substantially parallel to each other aligned lower sides U are connected to each other. The insertion direction C is defined by several angles of individual parts of the profiles to each other, as in FIG. 2a for in-plane panels A; B and in FIGS. 7a, 7b for corner panels laid A; B and shown. The insertion takes place in a first insertion angle W1, which is an angle between an imaginary parallels to the bottom U of the panel A; B of the existing row and the imaginary line to the first stop edge 102a of the panel A; B is the existing row when inserting. The insertion takes place either only or additionally in a second insertion angle W2, which is an angle between the bottom U and the imaginary line to the bottom U of a first vertical stop edge 104a of the first profile 1, the bottom U of a first spring 104 of the first Profile 1 faces. The insertion is further either only or additionally in a third insertion angle W3, which is an angle between an imaginary parallels to the bottom U and the imaginary line to the bottom U of a second vertical stop edge 108b of a groove 108 of the second profile 2.

In a corner joint, which is formed by inserting at least one panel A to be deposited; B in a stored panel A; B in an insertion direction C such that the lower sides U of the two panels A; B in the final position after removal of the panel A to be deposited; B form a fourth angle W4, the insertion direction C is defined by a first insertion angle W1, which is an angle between an imaginary parallels to the underside U of the panel A to be deposited; B and the imaginary line to the second horizontal abutment edge 108a of the panel A to be deposited; B is when inserting. In addition, a second insertion angle W2 alone or additionally be present, which is an angle between the bottom U and the imaginary line to the bottom U of a first vertical stop edge 107a of the second profile 2, the bottom U of a second groove 107 of the first profile. 1 is facing. In addition, a fifth insertion angle W5 is present, which is the angle between the lower sides U of the panels to be joined together and larger than the fourth angle W4. The fifth insertion angle W5 is thus the angle in which the panel A to be laid; B in the already existing panel A; B is inserted for laying, ie the fifth angle defines the angle in which the panel A to be laid; B in storage position to the existing panel A; B is located. The fourth angle W4, ie the angle between the two panels A; B after placing the panel A to be laid; B, ie the angle W4 in the end position, is 30 ° ≤ W4 ≤ 150 °. The fifth insertion angle W5, ie the angle at which the panel A to be laid is; B for laying in the existing panel A; B is inserted, is greater by 1 ° to 3 ° than the fourth angle W4, that is, for example, between 91 ° and 93 °, when the angle in the end position of the two panels is 90 degrees.

The second insertion angle W2 and the third insertion angle W3 are less than or equal to the first insertion angle W1. In addition, depending on the design of the panel connection: W2 and W3 ≤ W1; and 10 ° ≤ W1, W2, W3 ≤ 90 ° or W1 = W2 and W1, W2, W3 ≥ 10 °; and W1, W2, W3 ≦ 90 °, or W1 = W3 and W1, W2, W3 ≥ 10 °; and W1, W2, W3 ≦ 90 °, or W1 = W2 = W3 and W1, W2, W3 ≥ 10 °; and W1, W2, W3 ≤ 90 °.

So far, panel connections are mainly executed as a cross-profile connection. But through the proposed panel A; B with the correspondingly arranged Auskappungen 102b and 106a, a longitudinal profile connection can be realized, ie it can be realized a variety of patterns in different installation directions V. The laying direction V is the direction and order in which panels are laid. The arrow in the figures indicates the laying direction V, starting in the upper left versions and then moving on to the right is relocated. Subsequently, the next row is moved, etc. However, a laying in another direction of laying V, for example starting with the top right and left going to continue, can take place.

By the proposed panels A; B is a panel connection created in which the so-called pull-out values are significantly higher than in previously known panel connections. Due to the tongue and groove connection of the locking projection 102 with the guide groove of the locking channel 108, the pull-out values, ie the horizontal pulling apart, are increased in the longitudinal direction up to a value of ten times. This is among other things, that the springs with the grooves after laying are self-locking to each other. For example, the first lock projection 102 is engaged with the corresponding guide groove of the lock channel 108, more specifically, the stop edge of the vertical lock 108b is engaged with the stop edge of the horizontal lock projection 102a after being laid, such as in FIG FIG. 2a to see that pulling up is made difficult by the slight undercut of the stop edge of the second vertical lock V2 and 108b with 102c. Also, the first vertical lock V1 or the stop edge of the first vertical lock 104a, which is engaged with the stop edge of the vertical lock projection 107a after being engaged, makes it difficult to pull up.

The fact that no third element such as a separate spring element, is necessary, can be saved both during production and laying a step and the laying and production are simplified. There are no "height-adjustable" fold-down or "side-push" profiles on the market with plastic springs. Due to the required third element, the production of such a locking system is more expensive, the plastic springs have thickness tolerances and are difficult to adjust. The required spring injectors are usually prone to failure and reduce productivity. On the market "push down" profiles are usually only suitable for elastic materials (PVC, LVT). For hard floor coverings, there would always be an open gap in the cross section. It also requires a hammer or an indenting roller to bring these profiles into one another. Through the panel, which is a panel connection by pushing instead of by snapping allows the above-mentioned disadvantages are overcome, ie it can not be laid elastic materials as described.

In addition, the almost completely closed profile on the underside U, ie the very small remaining gap between the underside of the first locking projection 102 and the bottom of the abutment edge of the second vertical locking 108b greatly reduces the penetration of moisture, i. reduced by up to 90%. This is very important, especially in countries with high humidity in order to avoid damage to the floor and the floor due to moisture accumulation as possible.

During the laying process, the groove profile 2 can be simultaneously pushed over the spring profile 1 on the side to be joined by being angled or pushed in on the longitudinal side on the side to be joined. This works at the same time during the filing process in one operation. In the stored state, the groove profile 2 could be pushed or beaten on the side to be joined only with greater force by a second operation on the spring profile 1 on the head side without the proposed Auskappung 102 b, 106 a. In addition, there would be no unhindered in the insertion direction C positive connection of the two sides to be joined together. In the stowed state, a horizontal H and two vertical V1, V2 latches of the two profiles 1 and 2 are present. By the tongue and groove connection of the first vertical locking projection 104 with the guide groove 107 and a very good height adjustment is achieved.

The profiles 1 and 2 are suitable for material thicknesses of the panel from 2 mm. An execution for thin materials is in FIGS. 4a to 4d shown. As a material, in principle, any suitable as a covering material can be used, for example, solid wood, wood composite, metal, plastics, vinyl, layered materials, even in mixed form, acrylic, plexiglass, etc. Another advantage of the invention is that existing panels can be changed by adding the Auskappung in a described insertion profile with tongue and groove profiles, double-groove spring profiles and tongue and groove profiles and double spring groove profiles and thus have the advantages mentioned. Examples of this are in Figures 5a, 5b, 6a and 6b shown.

LIST OF REFERENCE NUMBERS

A; B

paneling

1

first profile, spring profile

2

second profile, groove profile

101

front

102

Spring with horizontal and vertical locking projection,

102

Stop edge of the horizontal locking projection

102b

Auskappbereich, spring profile

102c

Stop edge of the vertical locking projection

103a-103c

corners

104

vertical locking projection

104a

Stop edge of the first vertical lock, spring profile

105

non-orthogonal groove

106

Spring with horizontal and vertical locking projection, groove profile

106a

Auskappbereich, groove profile

107

guide

107a

Stop edge of the vertical locking projection

108

Guide groove locking channel

108a

Stop edge of the horizontal lock

108b

Stop edge of the second vertical lock

L

Length Auskappbereich spring profile,

C

insertion

H

Horizontal locking

V1, V2

first or second vertical locking

W1

Angle - horizontal lock

W2, W3

Angle - vertical lock

W4

mounting Brackets

W5

Einschiebewinkel

O and U

Top and bottom

I and II

Inside corner and outside corner stairs

Claims (15)

Panel (A) having a top (O), a bottom (U), and side portions which are formed as outer edge regions, each of which has an end face (101) with a first profile (1) or a second profile (2) Thickness direction of the panel (A), and wherein - The first profile (1) as a tongue and groove profile (102, 105) or double spring groove profile (102, 104, 105) with at least a first horizontal locking projection (102) with a first stop edge (102 a) over the entire length of its edge area, and - The second profile (2) as a first profile (1) corresponding tongue and groove profile (108, 106) or double-groove spring profile (108, 107, 106) having at least a second horizontal locking projection (106) with a second stop edge (108b) over the entire length of its edge region, is formed, and wherein - At least one of the outer edge regions of the profile (1, 2) associated horizontal locking projection (102, 106) only at a predetermined distance (L) of one of the corners (103a, 103b, 103c), the outer edge region with a forms abutting outer edge region begins. The panel (A) according to claim 1, wherein two of the outer edge portions abutting on a corner (103a) have the second profile (2), and - The second horizontal locking projection (106) of one of the edge portions only at a predetermined distance (L) from the corner (103 a) begins, or - The second horizontal locking projections (106) of both abutting outer edge regions with the second profile (2) only at a predetermined distance (L) from the corner (103 a) begin. The panel (A) according to claim 1 or 2, wherein at least one of the outer edge portions abutting on one corner (103b) has the first profile (1), and the other edge portion has the second profile (2), and - The first horizontal locking projection (102) only at a predetermined distance (L) from the corner (103 b) begins, and / or - The second horizontal locking projection (106) only at a predetermined distance (L) from the corner (103 b) begins. Panel (A) according to one of the preceding claims, wherein two of the outer edge regions adjoining one another at a corner (103c) have the first profile (1), and - The first horizontal locking projection (102) of one of the edge regions only begins at a predetermined distance (L) from the corner (103c), or - The first horizontal locking projections (102) of both outer edge portions only at a predetermined distance (L) from the corner (103 c) begin. Panel (A) according to one of the preceding claims, wherein, when the panel is formed as a rectangle, two outer edge portions adjoining one another at a corner (103a) and forming a short and a long side of the rectangle have the second profile (2), and the second short side horizontal locking projection (106) does not begin at a predetermined distance (L) from the corner (103a). Panel (A) according to one of the preceding claims, wherein the length of the stop edge (102a, 108b) is at least 2/3 of the length of the edge region, and / or wherein the distance (L) between 1 mm ≤ A ≤ 100 mm. Panel (A) according to one of the preceding claims, wherein the first locking projection (102) and / or the second locking projection (106) in the case that in the region of the distance (A) no stop edge (102a, 108a) is present, one to the bottom (U) have substantially parallel surface, and / or wherein the first horizontal stop edge (102a) and the stop edge of the second stop edge (108b) are substantially parallel to each other. Second panel (B) formed as a counterpart to the panel (A) according to any one of the preceding claims, wherein - If both panels (A, B) are formed as a quadrangle, two at a corner (103 a) abutting outer edge regions have the second profile (2), and at the other two outer edge regions, the first profile (1), wherein - The second panel (B) is formed such that - The arrangement of the profiles (1, 2) of the second panel (B) is a mirror image of the profiles (1, 2) of the panel (A), and / or - The surface of the top (O) of the second panel (B) has a different orientation than the surface of the top (O) of the panel (A). Second panel (B) formed as a counterpart to the panel (A) according to any one of claims 1 to 7, - where if both panels (A, B) are formed as a triangle, and if the panel (A) has the second profile (2) at two outer edge regions adjoining one another at a corner (103a) thereof, and the outer edge region, which lies opposite the corner (103a), has the first profile (1), - The second panel (B) is formed such that it has at two at a corner (103c) of abutting outer edge regions, the first profile (1) and that the outer edge region, which the corner (103c) opposite, the second profile (2). Panel connection consisting of - At least two panels according to one of claims 1 to 7 or from - At least two second panels according to one of claims 8 or 9, or from at least two panels according to any one of claims 1 to 7 and a plurality of second panels according to any one of claims 8 or 9, wherein the connection is made by an insertion process such that the panels (A, B) in a predetermined insertion direction (C) and laying direction (V) are inserted into each other. Panel connection according to claim 10, wherein if the first profile (1) of the panel (A, B) is designed as a spring-groove profile (102, 105), this one with a locking channel (108) corresponding to the first profile (1) as tongue and groove Profile formed second profile (2) of the panel (A, B) connected to the further panel (A, B), an engageable horizontal locking projection (102) and in a spring tongue (106) of the second profile (2) in engagement has engageable locking groove (105), or if the first profile (1) of the panel (A, B) is designed as a double spring groove profile (102, 104, 105), this one with a locking channel (108) corresponding to the first profile (1) as a double groove Feather profile formed second profile (2) of the associated further panel (A, B) engageable horizontal locking projection (102) and in a spring tongue (106) of the second profile (2) engageable locking groove (105), as well as in addition in a guide groove (107) of the second profile (2) engageable locking spring (104). A method of providing a panel connection by connecting a plurality of panels according to any one of claims 1 to 9, wherein a row of panels (A, B) to be laid is brought into a raised storage position and each panel (A, B) of the row to be laid with its side is inserted with the second profile (2) in a direction of insertion (C) and in the laying direction (V) in a side with the first profile (1) an existing series of panels (A, B), and the row to be laid after insertion is stored so that the panels (A, B) after laying flat with essentially parallel to each other aligned lower sides (U) are interconnected, wherein the insertion direction (C) is defined by a - First insertion angle (W1), which is an angle between an imaginary parallels to the bottom (U) of the panel (A, B) of the existing row and the imaginary line to the first stop edge (102a) of the existing panel row (A, B) Slide in, and / or one - second insertion angle (W2), which is an angle between the bottom (U) and the imaginary line to the bottom (U) of a first vertical stop edge (104a) of the first profile (1), the underside (U) of a first spring ( 104) of the first profile (1) faces, and / or a - Third insertion angle (W3), which is an angle between an imaginary parallels to the bottom (U) and the imaginary line to the bottom (U) of a second vertical stop edge (108b) of a groove (108) of the second profile (2). A method according to claim 12, wherein the panel connection is a corner joint formed by inserting at least one panel (A, B) to be deposited into a stored panel (A, B) in an insertion direction (C) such that the undersides (U) form the two panels (A, B) in the end position after depositing the panel to be deposited (A, B) a fourth angle (W4), and the insertion direction (C) is defined by a first insertion angle (W1), which is an angle between an imaginary parallel to the underside (U) of the panel (A, B) to be deposited and the imaginary line to the second horizontal abutment edge (108a) of the panel (100; 200) to be deposited; and / or one second insertion angle (W2), which is an angle between the underside (U) and the imaginary line to the bottom (U) of a first vertical stop edge (107a) of the second profile (2), the underside (U) of a second groove (U) 107) of the first profile (1) faces, and a fifth insertion angle (W5), which is the angle between the undersides (U) of the panels (A, B) to be joined together and which is greater than the fourth angle (W4). The method of claim 13, wherein the fourth angle (W4) is: 30 ° ≤ W4 ≤ 150 °, or wherein the fourth angle (W4) is: 30 ° ≤ W4 ≤ 150 ° and the fifth insertion angle (W5) by 1 ° to 3 degrees greater than the fourth angle (W4). Method according to one of claims 12 to 14, wherein the second insertion angle (W2) and the third insertion angle (W3) are less than or equal to the first insertion angle (W1) and applies: W2 and W3 ≤ W1; and 10 ° ≤ W1, W2, W3 ≤ 90 ° or W1 = W2 and W1, W2, W3 ≥ 10 °; and W1, W2, W3 ≤ 90 °, or W1 = W3 and W1, W2, W3 ≥ 10 °; and W1, W2, W3 ≤ 90 °, or W1 = W2 = W3 and W1, W2, W3 ≥ 10 °; and W1, W2, W3 ≤ 90 °.

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