EP2446094A1

EP2446094A1 - Support section for a facade system

Info

Publication number: EP2446094A1
Application number: EP10724532A
Authority: EP
Inventors: Dirk Franz; Robert Wiedemann; Andreas Pech
Original assignee: Sto SE and Co KGaA
Current assignee: Sto SE and Co KGaA
Priority date: 2009-06-25
Filing date: 2010-06-21
Publication date: 2012-05-02
Anticipated expiration: 2030-06-21
Also published as: WO2010149631A1; DE102009030637A1; EP2446094B1

Abstract

The invention relates to a support section for a facade system, for directly or indirectly fixing at least one essentially panel-type wall-covering or ceiling-covering element to a support structure of a building, comprising a first contact surface (1) for attaching the support section to a support element which is directly or indirectly fixed to the support structure, and a second contact surface (2), for attaching an essentially panel-type wall-covering or ceiling-covering element or a further support element to the support section, lying essentially perpendicularly to the first contact surface. According to the invention the second contact surface (2) has several recesses (3) which are designed in a step-like manner and which run in the longitudinal direction of the support profile. The recesses (3) are separated by ridges (4) which form at least a part of the second contact surface (2), and the recesses (3) reduce the total surface of the contact surface by at least 30%, preferably by at least 50% or 60%. Furthermore, the invention relates to a fixing device for a facade system comprising such a support section and a facade system comprising such a fixing device.

Description

Holding profile for a facade system

The invention relates to a retaining profile for a facade system for the direct or indirect attachment of at least one substantially plate-shaped wall or ceiling lining element to an on-site substrate with the features of the preamble of claim 1. Furthermore, the invention relates to a fastening device for a facade system with such a retaining profile and a facade system comprising such a fastening device.

Walls and / or ceilings of modern buildings are usually constructed systemically to meet the requirements placed on each, for example, as an exterior wall or apartment partition wall. That is, they include multiple layers that perform different functions. A wall or

Ceiling structure is thus usually composed of the load-bearing structure, which can be created in solid or skeleton construction, and at least one other layer or level together, for example, to take account of building physics requirements and / or the wall or ceiling a special design to rent. As an outer layer or shell plate-shaped materials or components often find use, which allow a comprehensive covering of an underlying thermal insulation layer or installation level. These plate-shaped elements must be permanently securely connected to the supporting structure of the respective wall or ceiling. Since the requirements for the thermal insulation of buildings are constantly increasing, sometimes strong thermal insulation layers must be bridged. These can be, for example 10 to 20 cm thick. For reasons of building physics, in addition, the distance of the facade elements to the substrate is generally to be dimensioned such that an air layer for ventilating the facade can be formed between the thermal insulation and facade elements. The intended for attachment of the facade elements fastening device therefore has a spacer function as a rule. Already for this reason, such fastening devices regularly have at least one holding profile and a

Bracket for fixing the retaining profile at a predeterminable distance on a building site underground.

A holding profile of the aforementioned type or a mounting rail for a device for mounting wall panels on a wall is described for example in DE 20 2008 001 893 Ul. The cross-sectional profile of the mounting rail may optionally be a T-profile, C-profile or other profile on which a first contact surface for engagement with another element of a fastening device or for contact with a wall and a second contact surface for conditioning at least one wall plate on the Profile is provided. In order to achieve a ventilation of the wall panels over the joint spaces of the wall panels, the voltage applied to the wall panels second bearing surface of the support rail at least one step-like recess, the bottom surface and / or side surfaces are provided with at least one opening through which air can pass. A facade cladding produced with such a support rail should meet the requirements for wind-permeable facade cladding. If the proposed support rail made of metal, in particular aluminum, but it forms a thermal bridge between on-site support and wall plate, through which heat can be dissipated in an undesirable manner. This should be avoided. Object of the present invention is therefore to develop a holding profile of the type mentioned in such a way that the heat losses are reduced via the fastening device, in particular on the holding profile of the fastening device.

To solve the problem, a holding profile with the features of claim 1, a fastening device with the features of claim 9 and a facade system with the features of claim 10 is proposed. Advantageous developments of a retaining profile according to the invention are specified in the subclaims.

The proposed holding profile has a first abutment surface for abutment of the holding profile on a holding element, which is fastened directly or indirectly to the substrate, as well as a second abutment surface disposed substantially perpendicular to the first abutment surface for abutment of a substantially plate-shaped wall or ceiling lining element or another holding element the holding profile. According to the invention, the second contact surface has a plurality of step-like recesses extending in the longitudinal direction of the retaining profile, wherein the recesses are separated by webs forming at least part of the second contact surface, and wherein the recesses reduce the total area of the second contact surface by at least 30%, preferably by at least 50%, preferably further reduced by at least 60%. The advantage of the embodiment according to the invention is not only seen in a reduction of the contact surface and thus the heat transfer determining surface, but also based on the fact that the plate-shaped wall or ceiling clothing element continues to receive sufficient support by the holding profile. This is ensured by the fact that the voltage applied to the plate-shaped wall or ceiling covering element contact surface is formed essentially by spaced webs. To reduce heat loss - A -

it has proved sufficient that the depth of the recesses is less than half the profile thickness. Preferably, the depth of the recesses is 1 mm or less. Such a return causes an air-filled gap between the holding profile and plate-shaped wall or ceiling cladding element, so that heat transfer in this area is prevented or at least significantly reduced. At the same time, the formation of condensate in the region of the second contact surface is counteracted. Because of this, there is no moisture penetration of the plate and associated unwanted marks on the plate surface. Moistening also has the problem that they can lead to chipping material and finally to the complete destruction of the plate or facade with frost effect. When using a holding profile according to the invention these problems are effectively prevented. These advantages also come into play when panel-shaped wall or ceiling cladding elements are indirectly connected to the retaining profile using a further retaining element, since then the heat transfer between the retaining profile according to the invention and the further retaining element is reduced. About the webs of the retaining profile, the further retaining element is also sufficiently supported.

According to a preferred embodiment, the webs on straight and / or rounded side surfaces. When forming straight side surface areas, these can run perpendicular or obliquely to the second contact surface. An oblique course, in which the web width increases at the base, has the advantage that the web has a higher stability. This is particularly advantageous for small web widths. The land width is preferably selected to be greater than or equal to the return depth. It can therefore also be 1 mm.

In addition, the thermal bridge effect can be reduced in that at least one web has on its surface forming the second contact surface at least one notch extending in the longitudinal direction of the retaining profile. The notch further reduces the total area of the second contact surface. The notch may have a square or rounded cross-section. The depth of the notch may be, for example, half the depth of a return or less. For very small web widths, the surface of the web has only a single notch.

According to a further preferred embodiment, at least one, in the longitudinal direction of the holding profile extending step-like recess formed on the bottom side at least one extending in the longitudinal direction of the holding profile notch, which in turn may have a polygonal or rounded cross-section. In contrast to the notch of the web surface, however, the at least one notch of the bottom surface of the recess serves another purpose. In the region of a recess, the notch serves to guide a fastening means, wherein the fastening means can be, for example, a self-tapping screw or a rivet by means of which a plate-shaped wall or ceiling lining element can be fastened to the retaining profile. Since the exact position of the fastener in the production of the profile usually is not yet determined or may vary due to manufacturing and / or assembly tolerances, the bottom of a recess preferably has a plurality of extending in the longitudinal direction of the holding profile, equidistantly arranged indentations with polygonal or rounded cross-section to form a corrugation or a corrugated surface.

Alternatively or additionally, a region of the second contact surface, which can be brought into contact with a plate-shaped wall or ceiling covering element, several extending in the longitudinal direction of the holding profile, equidistantly arranged indentations with polygonal or rounded cross-section to form a corrugation or a corrugated surface have. If the second plant surface is formed not only of narrow webs but also of wider plateau regions, these have such a corrugation over at least a portion of their surface. By corrugation on the one hand, the contact surface and thus the heat transfer surface is reduced, on the other hand created a guide for any fasteners. Because a screwing or riveting of the plate-shaped wall or Deckenbekleidungselemente can also be done in the area of the second contact surface.

A corresponding corrugation can be formed at least over a portion of a parallel to the first contact surface surface of the holding professionals to guide in fixing the holding profile to a support member secured to the ground, for example to a bracket, the fastening means. At the same time, a fixing portion can be defined on the corrugated portion, which facilitates the assembly of the profile.

The holding profile according to the invention is not limited to a specific profile cross-section. So the retaining profile may be a T-profile or L-profile or the

Holding profile cross-section may have at least one T-shaped or L-shaped portion for forming a first contact surface and a second contact surface arranged substantially perpendicular thereto. Thus, box-shaped or U-shaped profiles are suitable for forming a retaining profile according to the invention.

Preferably, the retaining profile made of metal, further preferably made of aluminum. Aluminum has the advantage that profiles made therefrom are particularly light and very resistant to corrosion due to their natural oxide layer. Furthermore, the retaining profile is preferably an extruded product, that is, it has been produced in an extrusion molding process. Further preferably, during extrusion, the formation of the recesses and / or the indentations takes place at the same time. In this way, the holding profile according to the invention can be produced cheaply. The indentations and / or the recesses can however also in another work step, for example by means of milling, subsequently introduced.

Claimed is also a fastening device for a facade system for fixing at least one substantially plate-shaped wall or

Ceiling covering element on an on-site substrate, that at least one inventive retaining profile and a bracket for attachment of the holding profile on the ground comprises. In addition, the fastening device can also comprise further retaining elements, by means of which, for example, the wall or ceiling clothing elements are fastened to the retaining profile. The above-described advantages of a retaining profile according to the invention apply correspondingly to a fastening device comprising such a retaining profile.

In addition, a facade system is claimed with an inventive retaining profile comprehensive fastening device. The facade system further has at least one substantially plate-shaped wall or ceiling cladding element, which can be fastened by means of the fastening device to an on-site substrate.

A preferred embodiment of a retaining profile according to the invention will be described below with reference to the single drawing. This shows the holding profile in cross section.

In the illustrated embodiment, the retaining profile has a T-shaped cross section, which is formed of two legs arranged perpendicular to each other or a leg and a flange. On the leg shown upright, a first contact surface 1 is provided for engagement with a bracket of a fastening device. The lying leg or flange shown has a second contact surface 2 for abutment of a substantially plate-shaped wall or ceiling covering element on the retaining profile.

In order to be able to apply the retaining profile optionally with the left or the right leg side to a bracket, both leg sides each have a first one

Investment surface 1 on. Both contact surfaces 1 have a plurality of equidistant notches extending in the longitudinal direction of the holding profile with an angular cross-section for forming a corrugation 9, which extends at least over a portion of the respective contact surface 1. If the bracket is applied, for example, with the left leg side to a bracket, the corrugation 9 comes to bear on the right leg side. It serves as an assembly aid, as it leads thereto a fastener when inserting or screwing, if it is, for example, in the fastener is a screw leads. Furthermore, the corrugation 9 marks the available assembly area. Since both leg sides are of identical design, what has been said above also applies if the retaining profile is applied with its right leg side to a mounting bracket.

On a transverse to the above-described leg flange surface of the T-shaped retaining profile, the contact surface 2 is provided for conditioning at least one plate-shaped wall or ceiling covering element. Advantageously, at least two plate-shaped wall or ceiling cladding elements are applied to the flange of the holding profile and possibly pushed in the region of the flange center to form a joint. The second contact surface 2 is characterized by a plurality of recesses 3, which in the longitudinal direction of the

Retaining profiles run and are formed step-like. Distributed over the flange twice three parallel recesses 3 are arranged, which are each separated by webs 4. Each side three recesses 3 are bordered by plateau areas of the second bearing surface 2, which form the contact surface 2 together with the webs 4. By the recesses 3 this is Investment area 2 reduced by more than 60%. The webs 4 as well as the lateral plateau surfaces of the contact surface 2 ensure that plate-shaped wall or ceiling clothing elements applied thereto receive sufficient support.

To reduce the contact surface 2 also contributes to each provided on the upper side 6 of a web 4 notch 7 at. Even with a relatively small depth of the notch 7 makes a reduction of the thermal bridge effect noticeable. The depth of the notch 7 is presently about 0.3mm and that of the recesses 0.75mm. To give the webs 4 sufficient stability, they have obliquely to the top 6 extending side surfaces 5, i. the webs 4 are wider toward their base.

Also, the recesses 3 are provided with notches 8, which extend in the longitudinal direction of the holding profile and are arranged equidistantly. The notches 8 in the

Area of the recesses 3 thus also result in a corrugation. The purpose of the corrugation in the region of the recesses corresponds to that of the corrugation in the region of the first contact surface 1 or the attachment surface opposite this contact surface. That is, the notches 8 are primarily used to guide fasteners, such as self-tapping screws or rivets. In the figure, the notches 8 are shown by way of example only for a return 3. Preferably, however, each recess 3 has such a notch or corrugation. The same applies to the plateau-like surfaces of the second contact surface 2, which are also provided throughout with a corresponding corrugation 9. In the area of the contact surface 2, however, the corrugation not only serves as an assembly aid, but also allows a further reduction of the total area of the second contact surface 2 and thus effectively reduces the heat transfer, so that the thermal bridge effect is further reduced. Again, the notches are shown only as examples. The proposed holding profile according to the invention therefore has several advantages. On the one hand caused by the holding profile heat losses are significantly reduced, on the other hand it is very easy to install, since the corrugation defines a mounting area and the fasteners are guided over the notches. Consequently, these advantages also have a fastening device comprising such a retaining profile. The same applies to a facade system, which in turn comprises such a fastening device. Furthermore, the visual impression of the façade is improved by preventing the formation of condensation between the façade panel and the profile, which can lead to unwanted marks on the façade surface. It can be both moisturized

Areas on the façade surface appear darker in shape, as well as areas that dry faster due to thermal bridges after sprinkling. The latter, however, cause bright spots on the facade surface. Such markings can be effectively prevented or at least significantly reduced by using a holding profile according to the invention.

LIST OF REFERENCE NUMBERS

1 first contact surface

2 second contact surface

3 return

4 footbridge

5 bridge side surface 6 bridge surface

7 notch

8 notch

9 ribbing

Claims

claims

1. Holding profile for a facade system for direct or indirect

Attachment of at least one substantially plate-shaped wall or ceiling cladding element to an on-site substrate with a first contact surface (1) for abutment of the holding profile on a holding element which is directly or indirectly attached to the ground, and a second arranged substantially perpendicular to the first contact surface second

Bearing surface (2) for abutment of a substantially plate-shaped wall or ceiling lining element or of a further holding element on the holding profile,

characterized in that

the second abutment surface (2) has a plurality of step-like recesses (3) extending in the longitudinal direction of the retaining profile, the recesses (3) being separated by webs (4) forming at least part of the second abutment surface (2), and wherein the Recesses (3) reduce the total area of the second contact surface (2) by at least 30%, preferably by at least 50%, more preferably by at least 60%.

2. Retaining profile according to claim 1, characterized in that the webs (4) straight and / or rounded side surfaces (5), wherein the straight portions of the side surfaces (5) perpendicular or obliquely to the second abutment surface (2).

3. retaining profile according to claim 1 or 2, characterized in that at least one web (4) at its the second contact surface (2) forming Surface (6) has at least one extending in the longitudinal direction of the holding profile notch (7), wherein the notch (7) has a polygonal or rounded cross-section.

4. retaining profile according to one of the preceding claims, characterized in that at least one extending in the longitudinal direction of the holding profile, step-like recess (3) on the bottom side at least one extending in the longitudinal direction of the holding profile notch (8), wherein the notch (8) has a polygonal or has rounded cross-section.

5. holding profile according to one of the preceding claims, characterized in that at least one contact surface (1, 2) has a plurality of extending in the longitudinal direction of the holding profile, equidistantly arranged indentations (7, 8) with polygonal or rounded cross section to form a corrugation (9), which at least over a partial area of the

Bearing surface (1, 2) extends.

6. retaining profile according to one of the preceding claims, characterized in that a parallel to the first contact surface (1) arranged further surface of the retaining profile at least over a partial area with a

Corrugation (9) is provided for guiding fasteners.

7. Retaining profile according to one of the preceding claims, characterized in that the cross section of the retaining profile has at least one T-shaped or L-shaped section or the retaining profile is a T-profile or L-profile.

8. holding profile according to one of the preceding claims, characterized in that the holding profile made of metal, preferably aluminum, and / or is an extruded product, wherein preferably at the same time during extrusion the formation of the recesses (3) and / or the notches (7 , 8).

9. Fastening device for a facade system for attaching at least one substantially plate-shaped wall or ceiling covering element to an on-site substrate, wherein the

Device comprises at least one retaining profile according to one of the preceding claims and a bracket for fixing the retaining profile on the ground.

10. Facade system with a fastening device according to claim 9 and at least one substantially plate-shaped wall or ceiling clothing element which can be fastened by means of the fastening device to an on-site support.