WO2010099848A1

WO2010099848A1 - Device for attaching façade elements and façade element

Info

Publication number: WO2010099848A1
Application number: PCT/EP2010/000340
Authority: WO
Inventors: Alfons HÖRMANN
Original assignee: Creaton Ag
Priority date: 2009-03-06
Filing date: 2010-01-21
Publication date: 2010-09-10
Also published as: ES2409171T3; EP2404011B1; EA201190199A1; DE102009011564A1; CA2753452A1; EP2404011A1

Abstract

The invention relates to a device for attaching façade elements using support profiles (12) comprising a tape-like center segment (13) on which anchor elements (18) for receiving the façade elements are provided symmetrically to the longitudinal axis (14) of the support profile (12), wherein the anchor elements (18) comprise an embossment (16), the embossment is provided at least in the area of the retaining bar (20), and the outer edge (25) of the embossment (16) extends in the retaining bar (20) not parallel to the outer edge (21) of the retaining bar (20).

Description

Device for fastening facade elements and facade element

The present invention relates to a device for fixing facade elements.

For curtain, ventilated cladding, there are two principal possibilities for receiving panel elements, visible attachment by means of clips or loops made of stainless steel or non-visible attachment with the aid of fastening points applied on the back of the facade elements or special panel anchoring attachments which engage a substructure , For aesthetic reasons, the non-visible attachment is increasingly preferred. For this purpose, mostly ceramic facade panels of non-combustible building materials are used, which are attached to the substructure. From DE 198 05 913 Al facade elements and brackets for the facade elements are known. The brackets consist of supporting profiles, which can be fastened to a frame construction or a substrate. The support profiles have a band-shaped central portion on which are provided symmetrically to the longitudinal axis of the support profile anchoring elements for receiving facade elements. The anchor elements comprise a holding web and a broad support web, which are rigidly connected to each other.

The façade elements to be fastened thereto comprise a plate-shaped basic body which has a visible and a rear side with fastening elements arranged at the rear, which serve for non-visible attachment to the substructure, wherein at least two parallel to each other and arranged and in one piece on the plate-shaped Basic body molded fasteners are provided.

The anchor elements of the holder serve to engage in the fastening elements of the facade element.

The previously known facade elements and substructures are designed for facade elements with a maximum size of 600 mm x 1600 mm. The breaking load of the facade elements is about 1500 Newton.

For aesthetic reasons, and also to reduce the time required in connection with the installation of the facade increasingly larger facade elements are desired.

An increase in the surface of the facade elements while maintaining the construction of the facade elements and substructure but due to the resulting larger windage area and the associated higher wind forces such as wind pressure and wind suction causes the anchor elements deform or break off the support profiles and / or even the fasteners break off at the facade elements. The object of the present invention is to provide a holder for facade elements with a larger area, which does not deform or tear even under the higher wind load. Furthermore, the object of the invention is to improve the previously known facade elements to the effect that they have higher breaking loads and thus can be provided with larger areas.

This object is achieved with respect to the holder by the features of claim 1 and with respect to the facade elements by the features of claim 16.

According to the invention, the anchoring elements attached to the support profiles have an embossment, wherein the embossment is provided at least in the region of the retaining web of the anchor element and wherein none of the outer edges of the embossing is parallel to an outer edge of the retaining web. By this unusual arrangement of the embossing in the retaining web, an increase in the failure load under wind stress can be achieved surprisingly, so that larger facade elements can be fastened to the supporting profiles according to the invention, for example facade elements with a length of 1600 to 2000 mm.

The anchor elements are preferably L-shaped in the form of a hook, however, the anchor elements may also have a wide support web to which the protruding support member is formed.

The embossing according to the invention should be provided at least in the region of the retaining web of the hook-shaped anchor element, preferably in the middle region of the retaining web and the outer edge of the embossment at an acute angle of less than 10 ° and preferably less than 5 ° to the outer edge of the retaining web should extend.

The embossing can be shaped differently. On the one hand, the embossing may extend in the form of a straight line running at an acute angle to the outer edge of the holding web. On the other hand, the embossing can also be angled, straight or curved or shaped differently run, in turn, none of the outer edges of the embossing should be parallel to an outer edge of the holding web.

In a particularly preferred embodiment, the embossing has a flat V-shape (roof-shaped). The two legs of the "V" are preferably arranged at an obtuse angle, and the transition region is arcuate, the one leg of the embossing preferably extending approximately centrally in the holding web at an acute angle to the outer edge and the other leg in the supporting web preferably parallel or not parallel, in particular at an acute angle to its outer edge.

Preferably, the arrangement of the embossment in the support web is such that the outer edge of the embossment in the support web is not parallel to an edge of the support web.

Due to the asymmetric arrangement of the embossing according to the invention, an asymmetrical compression of the material to the hook edge is effected, which positively influences the torque curve when in use.

The two legs of the V-shaped embossing can be both of the same and of different lengths.

For legs of different lengths, the leg of the embossing running in the support web can also extend beyond the support web into the middle section or the side cheek of the profile, as a result of which a particularly high stability of the anchor element can be achieved.

The support web can be shaped differently, for example rectangular or trapezoidal, wherein the trapezoidal support web is particularly preferred due to its higher stability.

The embossment is preferably a one-sided depression that is rounded. The embossing depth can vary and should be between 20% and 80% of the material thickness, wherein embossing depths between 50% and 70%, in particular of 60%, are particularly preferred. At a sheet thickness of 2.0 or 2.5 mm, the embossing depth is preferably about 1.2 to 1.5 mm.

The width of the embossing should be 0.1 to 0.8 times, preferably 0.3 to 0.65 times, the width of the holding web.

The embossing is preferably rounded.

The length of the embossment in the region extending at an acute angle to the outer edge of the holding web should be 0.3 to 0.8 times and in particular 0.5 to 0.7 times the length of the holding web.

The width of the retaining web of the hook-shaped anchor element should preferably be smaller than the width of the support web and be between 5 and 10 cm and preferably between 6 and 7 cm.

For the production of the profiles and hooks, it is generally possible to use aluminum with a thickness of between 1.5 and 4 mm, preferably between 2.0 and 3.0 mm and particularly preferably from 2.0 to 2.5 mm.

In principle, it is possible to further increase the stability of the profiles and hooks by tempering.

The support profile is made of aluminum or aluminum alloy, on the one hand to have a low weight and on the other hand to meet the fire safety regulations.

A further improvement in the stability of the profile with the anchor element can be achieved by the selection of aluminum alloys. Aluminum alloys which are preferred in the context of the invention are aluminum wrought alloys with the metals magnesium and / or manganese, in particular with a manganese content of 0.2 to 6.2%, in particular between 0.2 and 1.5% and a magnesium content between 0.5 and 8% and in particular between 3.5 and 5.5%, preferred. Particularly good results were achieved in the context of the present invention with AIMg _4/5 Mno, 7, in particular AIMg _4/5 Mn ₀ , ₇ H24.

The facade elements according to the invention have on their rear side specially designed fastening elements of a support web and a retaining web, wherein the thickness of the retaining web corresponds approximately to the thickness of the facade element. Also, the thickness of the retaining web is greater than the distance between the facade element back and the inside of the retaining web, which also contributes to increased stability of the fasteners.

With these fastening elements according to the invention, which moreover can also be reinforced on the side of the support element facing away from the retaining element, fastening elements are provided which have breaking loads of more than 3000 N and thus double the previously known facade elements.

The invention and further advantageous embodiments and developments thereof are described in more detail below with reference to the examples shown in the drawings and explained. The features to be taken from the description and the drawings can be applied individually according to the invention individually or in combination in any combination. Show it:

1 shows a perspective view of a holder for a facade element,

FIG. 2 shows a detailed view of a hook with embossing from FIG. 1,

FIG. 3 shows a perspective view of a supporting profile with joint profile and suspended facade element,

FIG. 4 shows a plan view of the joint profile 45 with a carrier profile 12,

FIG. 5: a side view of facade elements suspended in supporting profiles, FIG. 6 shows a second embodiment of a holder for the facade element with anchoring elements arranged directly on the middle section and

Figure 7: the side view of the support section of the second embodiment of Figure 6 with compression spring.

In Figure 1, designed as a support section 12 U-shaped bracket for facade elements is shown. The support profile 12 is preferably made of an aluminum alloy such as AIMg _4.5 Mn ₀ , ₇ H24. This alloy is characterized by a particularly high - stability with low weight.

The support profile 12 comprises a central portion 13 which extends along a longitudinal axis 14 of the support profile 12. Right and left close to the central portion 13 side cheeks 28, 29 at which anchor elements 18 are formed, which serve to receive the facade elements. To increase the stability, the anchor elements 18 on the embossment 16 according to the invention, which is shown in detail in Figure 2.

The hook-shaped anchor elements 18 are L-shaped and comprise a trapezoidal support web 24 which is rigidly connected to the side wall 28, 29. In the transition region between the support web 24 and the side wall 28, 29, two notches 26a, 26b are provided on both sides of the support web, which serve to avoid notch effect and cracking.

On the cheek 28, 29 opposite side of the support bar 24, a holding web 20 is formed. The retaining web 20 serves to engage behind the fastening element 50 on the facade element 51. The hook end 19 of the holding web 20 is rounded. Outer 21 and inner edge 22 of the retaining web 20 and outer edge 30 of the side wall 28, 29 are parallel to each other. For reinforcement, the anchor element 18 has the embossing 16 according to the invention, which extends substantially in the central zone 31 of the anchor element 18. The outer side 25 of the embossment 16 in the holding web 20 is not parallel but at an acute angle γ of in particular about 3 to 4 ° to the outer edge 21 of the holding web 20th

The outer side 22 of the embossment 16 in the support web 24 also extends at an acute angle δ of in particular about 3 to 4 ° relative to the outer edge 23 of the support web 24th

Due to the acute-angled course of the outer edges 22, 25 of the embossing to the outer edges 21, 23 of the webs 20, 24 an asymmetrical compression of the material is achieved to the hook edge.

The embossment 16 is V-shaped, wherein the two legs of the "V" form an obtuse angle ε of about 120 °, the transition region of which is arcuate / curved The embossing depth is from 2.0 to 2.5 for a thickness of the aluminum sheet mm about 1.2 to 1.5 mm.

In the embodiment shown in Figure 2, both legs of the coin 16 are the same length.

In a variant which is characterized by a higher rigidity, however, the leg extending in the support web 24 may be longer and extend into the cheek 28 or the middle section 28, 29.

The support profile 12 shown in Figure 1 has a plurality of pairs of anchor elements 18, 18 ', which are advantageously identical. Each pair of anchor elements 18 is arranged at the same height on both sides of the two side cheeks 28, 29. At a certain distance are below the first pair of anchor elements 18 more pairs of anchor elements 18 '.

The angle between side cheeks 28, 29 and central portion 13 is preferably 90 °, but it may also be greater or less than 90 °. The support profile 12 is fixed by abutment of the rear side of the central portion 13 on an outer wall or Umfassungswand or a frame structure via known fastening means, such as a screw, rivets or the like.

Cups 40 may be provided between the anchor elements 18, 18 'provided on each side wall 28, 29, which serve to fasten a joint profile 45. In each cup 40, the cup bottom 41 is marked further inward than corresponds to the escape of the outer edge 30 of the side edge 28, 29. This results in a relation to the outer edge 30 lowered, but parallel to it cup receiving surface 42, the recording of joint profiles 45, which are described in detail in DE 102 48 597 Al serve. By the joint profile 45, the outwardly open U-profile 12 is covered by the joint profile 45 is placed between the two side walls 28, 29 on the Napftrageflächen 42. The joint profile consists of a metal strip, which is folded back on both sides by an edge bend at an angle of almost 180 ° as a spring strip on itself (see Figure 4).

In Figure 3, the joint profile 45 is placed on the support section 12, and the anchor elements 18 are partially hung facade elements 51. The joint profile 45 serves to space the hinged facade elements 51 and to seal the joint 60 lying between the facade elements 51. The facade elements 51 rest on the joint profile 45 under a slight bias. Furthermore, the joint profile 45 includes spring tongues 46, which serve as dismantling safety.

5 shows the engagement of the anchor elements 18 of the support profile 12 to the fastening elements 50 of the facade element 51. The single-shell facade tile 51 has a smooth front 52 and a back 53, are arranged on the fasteners 50 in parallel to each other extending rows with each other. Each fastening element 50 is hook-shaped and extends over the entire width of the rear side of the facade element. Alternatively, individual fastening means 50 may be provided on the rear side 53 of the facade element 51. The fastening elements 50 of the facade element 51 are hook-shaped and also have a support web 54 and a holding web 55 on.

The fasteners 50 of this large-scale facade elements have been improved according to the invention to the effect that tearing off of the fasteners 50 is prevented even under higher wind loads. This is achieved in that the thickness 56 of the retaining web 55 corresponds approximately to the thickness of the facade element 62 and is greater than the distance 57 between facade element rear side 53 and inside 58 of the retaining web 55. The support web 54 has the shape of an inclined trapezium, and the outer edge 59 of the support web 54 is reinforced to counteract a notch effect.

These facade elements with the improved fasteners have breaking loads above 3000 N and thus about twice as the previously known facade elements.

The anchor elements 18 of the support profile 12 engage with their retaining webs 20 in the located on the back 53 of the facade element 51 recess 61 between the back 53 of the facade element 51 and the inside 58 of the retaining web 55th

In this case, the outer side 21 of the retaining web 20 of the anchor element 18 rests against the rear side 53 of the facade element 51 and the inner side 58 of the retaining web 55 of the facade element 51 on the inner side of the retaining web 20 of the anchor element. 18th

An alternative embodiment for the holder with the hook embossed according to the invention is shown in FIGS. 6 and 7. In this alternative profile 72 no side cheeks 28, 29 are provided. Rather, anchoring elements 18 are formed integrally with the embossment 16 according to the invention at the middle section 73, wherein the anchor elements 18 are bent at right angles relative to the central section 73. This profile is particularly suitable for low construction heights. To increase the stability, the anchor elements 18 have the embossing 16 according to the invention described above in detail, which likewise extends in a V-shape in the retaining web 20 and the support web 24 of the anchor element 18.

On the central portion 73, a compression spring 74 is attached, which ensures a tight fit of the hinged facade elements and prevents subsequent dismantling of the facade element. This compression spring 74 is preferably connected to the profile 72 by clinching.

The production of the profiles is carried out by simultaneous punching and embossing of the embossing and - in the first preferred embodiment - the wells. Subsequently, the anchor elements or the side walls are transformed with the anchor elements.

Subsequently, the joint profiles can be plugged in the case of the first preferred embodiment of the profile with the side cheeks or be clinched in the case of the profile without side cheeks on the central portion.

Comparative tests:

The better carrying capacity of the hook-shaped anchor elements according to the invention according to FIG. 2 is demonstrated by the following comparative experiments.

The verification of the carrying capacity was carried out by determining the wind suction stress of the various anchor elements. All investigated anchor elements were equally shaped and of the same material thickness (2 mm). The test was carried out at a test speed of 5 mm / min and a distance of 9 mm.

The results are shown in the table below.

The tests carried out prove that the failure load of the tested hooks can be increased by the embossing according to the invention and by the selection of a suitable aluminum alloy.

Claims

claims

1. A device for fastening facade elements with support profiles (12) having a band-shaped central portion (13) on which symmetrical to the longitudinal axis (14) of the support profiles (12) anchor elements (18) are provided for receiving the facade elements, characterized in that the anchor elements (18) have a stamping (16), the stamping (16) is provided at least in the region of the holding web (20) and the outer edge (25) of the stamping (16) in the holding web (20) is not parallel to the outer edge (20). 21) of the holding web (20) extends.

2. Apparatus according to claim 1, characterized in that the anchor elements (18) are L-shaped and have a support web (24) and a holding web (20).

3. A device according to claim 2, characterized in that the embossing is arranged substantially in the central region of the holding web (20).

4. Device according to one of claims 2 or 3, characterized in that extending the outer edge (25) of the embossment (16) in the holding web (20) at an acute angle γ to the outer edge (21) of the holding web (20).

5. Device according to one of claims 1 to 4, characterized in that the anchor elements (18) write a support web (24) and the outer edge (22) of the embossment (16) in the support web (24) parallel or not parallel, in particular under a acute angle δ with respect to the outer edge (23) of the support web (24) extends.

6. Apparatus according to claim 4 and / or 5, characterized in that the acute angle γ and / or δ less than 10 ° and preferably less than 5 ° and more preferably between 3 and 4 °

, be.

7. Device according to one of the preceding claims, characterized in that the embossment (16) is straight or angled.

8. Device according to one of the preceding claims, characterized in that the embossing (16) is V-shaped, both legs of the embossment (16) are arranged at an obtuse angle and the transition region is arcuate.

9. Apparatus according to claim 8, characterized in that the lengths of the legs of the embossment (16) are equal or the length of the leg in the support web (24) is greater than the length of the leg in the holding web (20).

10. Device according to one of claims 1 to 9, characterized in that the embossing depth between 20% and 80%, preferably between 50% and 70%, of the material thickness.

11. Device according to one of claims 1 to 10, characterized in that the width of the embossing (16) is 0.1 to 0.8 times, preferably 0.3 to 0.65 times, the width of the Haltestegs (20).

12. Device according to one of claims 1 to 11, characterized in that the embossing is rounded.

13. Device according to one of the preceding claims, characterized in that the material thickness between 1.5 mm and

4 mm and in particular between 2.0 mm and 2.5 mm.

14. Device according to one of the preceding claims, characterized in that it is made of aluminum or an aluminum alloy.

15. The apparatus according to claim 14, characterized in that the aluminum alloy is an aluminum wrought alloy with the metals magnesium and / or manganese, in particular with a Man- content of 0.2 to 6.2%, in particular between 0.2 and 1.5% and a magnesium content between 0, 5 and 8.0% and in particular between 3.5 and 5.5%.

16, facade element for attachment to a device according to one of claims 1 to 15, characterized in that on the back (53) of the facade element (51) fastening means (50) are provided, which has a support web (52) and a holding web (53). and the thickness (56) of the holding web (53) corresponds approximately to the thickness of the facade element (52).

17. Facade element according to claim 16, characterized in that the thickness of the holding web (53) is greater than the distance (57) between facade element back and inside (58) of the holding web (55).