EASY FIX (2 X 135 GRAD)

Abstract

The invention relates to a cladding system (100) for a wall (1), the cladding system (100) having a plate-shaped cladding element (50) connectable to a fastening profile (10) on two opposite longitudinal or transverse sides, the fastening profile (10) being configured to anchor the cladding system (100) to the wall (1), the cladding element (50) having a preferably strip-shaped fastening section (60, 62), which is bent in relation to a base surface section (64) of the cladding element (50), on the two longitudinal or transverse sides disposed in operative connection with a fastening profile (10), the fastening section (60, 62) interacting with a complementary, groove-shaped first or second reception section (16, 18) on the fastening profile (10), the two reception sections (16, 18) on the fastening profile (10) being disposed on the fastening profile (10) on the side opposite to a fastening surface (14) for the wall (1) on the fastening profile (10).

Description

BACKGROUND OF THE INVENTION

The invention relates to a cladding system for a wall. Furthermore, the invention relates to an arrangement of a cladding system according to the invention on a wall.

Various cladding systems for walls are known from the state of the art. In particular, they are used for the optical design of the wall and/or for a protection of a building wall against weather conditions or the like. The known cladding systems are normally composed of fastening elements in the form of oblong fastening profiles which can be mounted on the wall and which interact with cladding elements. The cladding elements are plate-shaped and have fastening sections, in particular on the longitudinal or transverse sides, which interact with the fastening profiles in order to connect the cladding elements to the fastening profiles. In addition to the intended optical properties of the cladding elements, a number of requirements of such a cladding system are known to guarantee the intended functionality or the protection of the wall over a long period of time. In particular, gaps or joints between the individual cladding elements are to be as small as possible. This serves not only visual reasons, but also to minimize the ingress of rain or dirt into the joints or spaces between the cladding elements. Additionally, the fastening profiles are anchored to the wall or on a substructure via screw connections, for example. Said screw connections are to be covered or disposed so as to be visually imperceptible, if applicable, by a corresponding geometric design of the cladding elements.

Specification DE 10 2018 106 155 A1 of the applicant already discloses a cladding system for a wall which is realized in a particularly advantageous manner with respect to the optical and functional design. In this realization, the individual cladding elements are anchored to the wall in the area of the longitudinal sides and of the transverse sides by means of fastening profiles. Furthermore, the known cladding system or the cladding elements are realized as sandwich components which have a core area and cover layers which are made of aluminum and cover the core area on both sides. This material has become known by the trade name ALUCOBOND® of the applicant and has already proven its worth in the worldwide use for such cladding systems. To fasten such a cladding element to a fastening profile, the specification mentioned above also discloses the creation of folding areas via groove-shaped milled slots on the cladding elements, sections used for the fastening to the fastening profile being manually bendable via the folding areas.

From WO 2020/084143 A1 of the applicant, a cladding system having the features of the preamble claim 1 is known. Said cladding system is characterized in that it allows an easy mounting on a wall. To this end, two reception sections for fastening sections on the cladding elements are provided on a fastening profile. An essential aspect is that a cladding element which can be anchored to the fastening profile has two fastening sections which are folded in a different manner, wherein the one fastening section is bent in the shape of a U, whereas the other fastening section is bent in the shape of a V or disposed at an inclined angle. The section which extends parallel to the plane of the cladding element on the fastening section bent in the shape of a U of the cladding element makes it necessary for the insertion slot realized between the two reception sections on the fastening profile to have a certain minimum width so that the fastening section can be inserted into the insertion slot. However, for optical reasons in particular, there is often a desire to design the insertion slot as narrow as possible. For this reason, it is also known from the specification mentioned above that the area of the insertion slot and of fastening screws for anchoring the fastening profile to the wall are covered inside the fastening profile by means of a strip-shaped cover element. However, the mounting of said cover element causes additional work and increases the costs. Furthermore, the U-shaped folding of the fastening section on the cladding element requires an additional work step compared to a simple, V-shaped folding.

SUMMARY OF THE INVENTION

The cladding system according to the invention for a wall having the features disclosed herein has the advantage that it allows a minimization of the insertion slot realized between reception sections for the cladding elements while simplifying the mounting process of the cladding system. Furthermore, the cladding system according to the invention allows an optimized or uniform deformation of the cladding elements when wind forces occur, for example, because the cladding elements have the same shape or same cross section in the area of their fastening. The manufacturing process of the cladding elements is also simplified compared to the state of the art, because the number of milling processes required to form grooves for folding is reduced and the same milling cutter can always be used.

The invention is based on the idea that the cladding elements are directly folded to the fastening profile at their fastening sections, namely in such a manner that the insertion slot can be minimized.

Thus, starting from the state of the art according to WO 2020/084143 A1 mentioned above, an essential aspect of the invention is that the fastening profile is realized in such a manner that the second reception section, like the first reception section, is bent at an inclined angle—and thus not in the shape of a U—wherein the inclined angle is preferably disposed between 30 degrees and 60 degrees, particularly preferably approximately 45 degrees, in relation to the fastening surface or to the base surface section of the cladding element, wherein a plane aligned with a lateral surface of the reception section assigned in the first or second reception section extends outside the cross section of a cladding element disposed in the other reception section, and wherein the two reception sections on the fastening profile have reception openings for the fastening sections of the cladding element which are disposed on sides which face one another on the fastening profile.

What is more, the latter feature also has the effect that mounted cladding elements block one another in a release direction, if applicable, and thus avoiding an unintended release of a cladding element from the fastening profile. This is of particular importance in connection with external forces which may occur as a result of wind forces or the like.

Furthermore, a realization defined of the cladding system disclosed herein allows a mounting of a cladding element when the fastening profile is already fastened to or anchored to the wall. In this process, another (second) cladding element can be inserted into the assigned reception opening of the fastening profile via its fastening section when a (first) cladding element is mounted on the wall via the first fastening section by means of the fastening profile, namely in a state in which the fastening section is still flat or is not yet formed. The V-shaped folding or bending of the fastening section on the cladding element is almost necessarily realized in a subsequent mounting step, namely in the manner which is required to be able to fasten the pre-mounted cladding element to the wall or to form a plane wall surface.

Advantageous embodiments of the cladding system according to the invention for a wall are disclosed in the dependent claims.

Particularly preferably, the two inclined angles of the reception sections on the fastening profile have the same size. In particular, this means that it is not necessary to pay attention to a specific mounting position of the fastening profile on the wall, because said fastening profile can be mounted on a wall at two positions which are offset by 180 degrees to one another.

A preferred constructive embodiment of the fastening profile also provides that the reception sections on the fastening profile each have an extension comprising a support surface on the side which faces away from the fastening surface of the fastening profile, the base surface section of the cladding element contacting the support surface on the side facing the first fastening section via a back parallel to the fastening surface, the two support surfaces being disposed parallel to and at the same distance from the base surface section of the fastening profile. In addition to the reception of the fastening section of the cladding element in the corresponding reception section of the fastening profile, such a realization also causes an additional form-fitting contact of the cladding element at the fastening profile for the exact positioning of the cladding element. In particular, this forces the cladding elements to form a plane overall surface or wall façade, even if, for example, the strip-shaped fastening sections on the cladding elements have different widths or narrow dimensions and thus project to different extents into the reception sections of the fastening profile.

To minimize the cross section or the required material of the fastening profile, the two reception sections are advantageously disposed at opposite edges of the fastening profile in relation to a transverse direction which extends perpendicular to the longitudinal direction of the fastening profile.

Preferably, the fastening or mounting of the individual cladding elements takes place by realizing an insertion slot, which serves for inserting the cladding elements into the reception sections, between the reception sections on the side of the fastening profile which faces away from the fastening surface, the insertion slot being continuous in the longitudinal direction of the fastening profile.

With respect to the mechanical strength and a relatively low weight, the cladding element is particularly advantageously realized as a sandwich component which has a core area and cover layers which are made of aluminum and cover the core area on both sides, wherein grooves are provided at edges and are realized in the area of a cover layer and of the core area of the cladding element. The grooves at the edges cause an intended weakening of the material of the cladding element in order to be able to fold the fastening sections, in particular manually and at the intended position from the plane of the cladding element. However, alternatively the cladding element can be made of a (single-layer) aluminum plate which has a thickness of approximately 1 mm to 3 mm.

In particular in order to improve the corrosion properties, it is intended that the fastening profile is made of aluminum and is realized as an extruded part. The fact that the fastening profile is made of aluminum moreover also allows the particularly simple realization of the (fastening) screws or screw openings, which are provided for the anchoring of the fastening profile to the wall, on the fastening profile with little effort during the mounting on site.

Furthermore, the invention comprises an arrangement of an above-described cladding system according to the invention on a wall. The arrangement according to the invention is characterized in that, in relation to a bottom of the wall, the two reception sections extend perpendicular to the bottom of the wall on the fastening profile. Such an arrangement of the reception sections and therefore of the corresponding fastening sections of the cladding elements causes that an accumulation of water or dirt in the gaps between the cladding elements on the fastening profile is minimized, because the corresponding media or substances are transported towards the bottom by gravity. Alternatively, the fastening profiles can of course be fastened parallel to the bottom of the wall, forgoing the advantage mentioned above.

Further advantages, features and details of the invention are apparent from the following description of preferred exemplary embodiments and from the drawing.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a top view of a cladding element having a rectangular base surface,

FIG. 2 shows a cross section of a cladding element in a folding area,

FIG. 3 shows a cross section of a fastening profile,

FIG. 4 shows an enlarged view of a detail of FIG. 3 in the area of a reception opening for a fastening section of a cladding element in the fastening profile and

FIG. 5 shows the fastening profile according to FIG. 3 having two mounted cladding elements.

DETAILED DESCRIPTION

In the figures, the same elements or elements having the same function are referenced with the same reference numerals.

The figures show the essential components of a cladding system 100 for covering a wall 1 (for reasons of simplification, only FIG. 5 shows wall 1). Wall 1 is a building wall or a garage wall, for example. Cladding system 100 is substantially composed of a plurality of fastening profiles 10 which interact with (flat) cladding elements 50, wherein cladding elements 50 are connected to fastening profiles 10 and fastening profiles 10 in turn can be anchored into wall 1 by means of fastening screws 2. Fastening profiles 10 in turn are in particular disposed or fastened parallel to one another on wall 1, namely preferably perpendicular or parallel to a bottom (not shown) of wall 1.

In a top view, cladding element 50 shown in a detail view in FIG. 1 preferably has a rectangular shape and is realized as a sandwich component 52. According to the illustration of FIG. 2, the composition of sandwich component 52 or of cladding element 50 is composed of a core area 54 and cover layers 56, 58 which are made of aluminum and cover core area 54 on both sides. Such a sandwich material as described above has become known by the name ALUCOBOND® of the applicant and is particularly characterized by a relatively low weight and good strength properties.

On its two opposite longitudinal sides or transverse sides, cladding element 50 has a first fastening section 60 and a second fastening section 62 which are each strip-shaped. The two fastening sections 60, 62 are connected in a monolithic manner to base surface section 64 of cladding element 50 via straight edge areas 63, base surface section 64 being plane and rectangular in the exemplary embodiment. According to the view of FIG. 2, grooves 65 are realized at edges 63, the material of one cover layer 56 and of core area 54 being removed from the area of grooves 65.

Additionally, it is mentioned that base surface section 64 of cladding element 50 is plane in the shown exemplary embodiment. However, it is also conceivable to design base surface section 64 in a three-dimensional manner by providing beads or edges, for example, to be able to achieve desired effects of cladding element 50 which are intended for reasons of strength or for optical reasons, for example. Additionally, cladding elements 50 do not have to realize a shared plane surface when said cladding elements 50 are fastened to wall 1. Instead, cladding elements 50 which are inclined in relation to wall 1 can be provided by providing fastening sections 60, 62 in different widths in order realize a three-dimensional wall design.

Cladding elements 50 are preferably manufactured by the manufacturer of cladding elements 50 in standardized sizes having a width between 1 m and 2 m, for example, in the direction of fastening sections 60, 62 and a length between 2.5 m and 3.5 m extending perpendicular to the width and are already provided with grooves 65 or fastening sections 60, 62. Additionally, cladding elements 50 are preferably delivered or transported by the manufacturer of cladding elements 50 to the mounting location on wall 1 in the plane state of fastening sections 60, 62, i.e., in a state in which fastening sections 60, 62 are not folded from the plane of base surface section 64. This is done in particular with respect to the space requirement which needs to as small as possible during the transport of such cladding elements 50.

Fastening profile 10, which is clearly visible in FIGS. 3 and 5, is made of aluminum and is realized as an extruded part. It is strip-shaped and has an exemplary width B of approximately 30 mm and a height H of approximately 65 mm, the longitudinal direction of fastening profile 10 extending perpendicular to the drawing layer of FIGS. 3 and 5. Preferably, the length of fastening profile 10 corresponds to the length of fastening sections 60, 62. Fastening profile 10 has a (plane) base surface section 12 which realizes a (plane) fastening surface 14 on the side which faces wall 1. In a transverse direction which is perpendicular to the longitudinal direction of fastening profile 10, fastening profile 10 has reception sections 16, 18, preferably each disposed mirror-symmetrical to a symmetry plane 15, at opposite edges for receiving a fastening section 60, 62 of two cladding elements 50.

Just like second reception section 18 assigned to second fastening section 62, first reception section 16 assigned to first fastening section 60 on fastening profile 10 is groove-shaped and extends in the longitudinal direction of fastening profile 10, i.e., perpendicular to the drawing layer of FIGS. 3 and 5. As in particular shown in the illustration of FIG. 4, reception sections 16, 18 which interact with fastening sections 60, 62 in a form-fitting manner can be provided with a saw-tooth-like structure 20 on lateral surfaces 29, 30 which face fastening sections 60, 62, structure 20 causing fastening sections 60, 62 to claw into reception sections 16, 18, in particular if a force is applied to fastening sections 60, 62 against an insertion direction into reception sections 16, 18.

The two reception sections 16, 18 each extend at an inclined angle α, β between 30° and 60°, preferably approximately 45°, in relation to the plane of base surface section 12 or of fastening surface 14. Preferably, the two angles α, β have the same size. A lateral wall 22 which limits respective reception section 16, 18 has an extension 24 which realizes a support surface 26 parallel to base surface section 12 for a base surface section 64 of cladding element 50. The two support surfaces 26 each have the same distance from base surface section 12 of fastening profile 10. The two reception sections 16, 18 each realize a reception opening 31, 32 for respective fastening section 60, 62, the two reception openings 31, 32 being disposed on sides facing one another on fastening profile 10 or towards symmetry plane 15.

Fastening profile 10 has a continuous insertion slot 34 between both reception sections 16, 18, the insertion slot 34 extending in the longitudinal direction of fastening profile 10 and serving for inserting respective fastening section 60, 62 of respective cladding element 50 into corresponding reception section 16, 18.

Additionally, the cross section of fastening profile 10 has one channel 35 near both of the two reception sections 16, 18, respectively, channel 35 having an additional longitudinal slot 37 and extending in the longitudinal direction. Channel 35 is used for the fixation of cladding elements 50 by means of additional fastening elements (not shown) in an arrangement on wall 1 in which fastening sections 60, 62 extend in a vertical direction in relation to wall 1.

As in particular shown in FIG. 3, base surface section 12 has a groove-shaped recess 36 in central alignment with insertion slot 34, recess 36 extending in the longitudinal direction and preferably being disposed in an approximately central area of fastening profile 10 in relation to the transverse direction of fastening profile 10 or being aligned with symmetry plane 15. Recess 36 is used for the localization or marking of the position at which fastening profile 10 can be connected to wall 1 by means of at least one fastening screw 2 (shown in FIG. 5). Such a recess 36 can in particular be used as a drilling aid for realizing a corresponding through bore on fastening profile 10, so that fastening screw 2 can be mounted in a subsequent step.

As FIG. 5 shows, the two base surface sections 64 of the two cladding elements 50 disposed on a fastening profile 10 realize a shared plane or are aligned with one another; this means, for example, that base surface sections 64 are disposed at the same distance from and parallel to base surface section 12 of fastening profile 10. As explained above, however, this is not necessarily required. The illustration of FIG. 5 further shows that cladding elements 50, which are connected to fastening profile 10 via fastening section 60, 62 flushes with support surfaces 26 of extension 24 via back 68 of base surface section 64 which faces fastening profile 10.

An essential aspect of the arrangement or realization of, in particular, the two reception sections 16, 18 on fastening profile 10 is that, according to the illustration of FIG. 5, in a state in which the two cladding elements 50 are received in reception sections 16, 18 via fastening sections 60, 62, a plane 70 aligning with lateral surface 29 in reception section 16, 18 extends outside the cross section of cladding element 50 disposed in the other reception section 18, 16. When cladding element 50 is already disposed on fastening profile 10 via fastening section 60, 62, such an arrangement allows an insertion of fastening section 60, 62 of other cladding element 50 into reception section 16, 18 of fastening profile 10 in a state in which fastening section 60, 62 of cladding element 50 mounted last is in a plane with base surface section 64, i.e. is not yet folded from base surface section 64.

Cladding system 100 for a wall 1 as described above can be adapted or modified in many ways without departing from the idea of the invention.

REFERENCE SIGNS

• 1 wall
• 2 fastening screw
• 10 fastening profile
• 12 base surface section
• 14 fastening surface
• 15 symmetry plane
• 16 first reception section
• 18 second reception section
• 20 structure
• 22 lateral wall
• 24 extension
• 26 support surface
• 29 lateral surface
• 30 lateral surface
• 31 reception opening
• 32 reception opening
• 34 insertion slot
• 35 channel
• 36 recess
• 37 longitudinal slot
• 50 cladding element
• 52 sandwich component
• 54 core area
• 56 cover layer
• 58 cover layer
• 60 first fastening section
• 62 second fastening section
• 63 edge
• 64 base surface section
• 65 groove
• 68 back
• 70 plane
• 100 cladding system
• B width
• H height
• α, β angle

Claims

1. A cladding system (100) for a wall (1), the cladding system (100) comprising a plate-shaped cladding element (50) connectable to a fastening profile (10) on two opposite longitudinal or transverse sides, the fastening profile (10) being configured to anchor the cladding system (100) to the wall (1), the cladding element (50) having a fastening section (60, 62), which is bent in relation to a base surface section (64) of the cladding element (50), on the two longitudinal or transverse sides disposed in operative connection with a fastening profile (10), the fastening section (60, 62) interacting with a complementary, groove-shaped first or second reception section (16, 18) on the fastening profile (10), the two reception sections (16, 18) on the fastening profile (10) being disposed on the fastening profile (10) on the side opposite to a fastening surface (14) for the wall (1) on the fastening profile (10), the first reception section (16) being disposed at an inclined angle (a) to the fastening surface (14) or to the base surface section (64), wherein

the second reception section (18) is disposed at an inclined angle (β) to the fastening surface (14) or to the base surface section (64), a plane (70) aligned with a lateral surface (29) of the reception section (16, 18) assigned to the first or second reception section (16, 18) extending outside the cross section of a cladding element (50) disposed in the other reception section (18, 16), and the two reception sections (16, 18) on the fastening profile (10) having reception openings (31, 32) for the fastening sections (60, 62) of the cladding element (50), the reception openings (31, 32) being disposed on sides facing one another on the fastening profile (10).

2. The cladding system according to claim 1, wherein the fastening section (60, 62) is a strip-shaped fastening section (60, 62).

3. The cladding system according to claim 1, wherein inclined angle (α) is between 30 degrees and 60 degrees.

4. The cladding system according to claim 1, wherein the inclined angle (α) is 45 degrees.

5. The cladding system according to claim 1, wherein the inclined angle (β) is between 30 degrees and 60 degrees.

6. The cladding system according to claim 1, wherein the inclined angle (β) is 45 degrees.

7. The cladding system according to claim 1, wherein the two inclined angles (α, β) in the two reception sections (16, 18) have the same size.

8. The cladding system according to claim 1, wherein the reception sections (16, 18) on the fastening profile (10) each have an extension (24) comprising a support surface (26) on the side which faces away from the fastening surface (14), the base surface section (64) of the cladding element (50) contacting the extension (24) on the side facing the fastening section (16) via a back (68) parallel to the fastening surface (14), the two support surfaces (26) being disposed parallel to and at the same distance from the base surface section (64).

9. The cladding system according to claim 1, wherein the two reception sections (16, 18) are disposed at opposite edges of the fastening profile (10) in relation to a transverse direction which extends perpendicular to the longitudinal direction of the fastening profile (10).

10. The cladding system according to claim 1, wherein an insertion slot (34) for inserting the cladding elements (50) into the reception sections (16, 18) is realized between the reception sections (16, 18) on the side of the fastening profile (10) which faces away from the fastening surface (14), the insertion slot (34) being continuous in the longitudinal direction of the fastening profile (10).

11. The cladding system according to claim 10, wherein at least one fastening screw (2) for anchoring the fastening profile (10) to the wall (1) can be positioned in the area of the fastening surface (14) and in alignment with the insertion slot (34).

12. The cladding system according to claim 1, wherein the cladding element (50) is realized as a sandwich component (52) which has a core area (54) and cover layers (56, 58) which are made of aluminum and cover the core area (54) on both sides, and wherein grooves (65) are provided at edges (63) and are realized in the area of a cover layer (56) and of the core area (54).

13. The cladding system according to claim 1, wherein the fastening profile (10) is made of aluminum and is realized as an extruded part.

14. An arrangement of a cladding system (100) according to claim 1 on a wall (1), wherein in relation to a bottom of the wall (1), the two reception sections (16, 18) on the fastening profile (10) extend perpendicular to the bottom of the wall (1).