DE102011079934A1 - Aluminum-wood-core composite profile for elevations of solar modules, comprises load-through glued wood core provided with closed cross-section shell and hollow structure that is slid in transverse or longitudinal direction - Google Patents

Abstract

The aluminum-wood-core composite profile comprises load-through glued wood core such as hard beechwood provided with closed cross-section shell. The hollow composite profile is round profile, square profile or U-shaped profile. The profile is provided with hollow structure that is slid in transverse or longitudinal direction.

Description

It has long been known to produce a composite profile of a wood core and a metal shell and to use for a variety of applications. For example, since the 70s of the last century from the DE-OS 1 813 338 a curtain rod known. According to their 2 and claim 9 may be a cavity 18 this curtain carrying rod 12 through a wooden core 27 be filled. The pipe 12 this Gardinentragstange consists in the embodiment according to 2 made of a plastic, but can also be made of metal. Aluminum is not intended as a material of the sheath; rather, on page 4 is a decorative contrast effect of the tube 12 by an "aluminum color" and a "gold color". In case of a deviation from the in 2 preferably shown plastic 12 Towards a metal as a material is not thought of aluminum.

Similarly, the Scripture discloses DE-OS 1 552 045 a technique of which a composite profile with a wood core is known. The wood core is at least partially surrounded by a snug metal sheet skin. The fabrication of the composite profile is done by flanging the wood core with the metal skin, wherein the free edges of the metal engage in the wood.

The latter DE-OS are as application areas banister rails or the like. In contrast, the utility model shows DE 20 2006 001 782 U1 especially in 1 composite profile, in which a U-shaped reinforcing rail 20 a batten 19 wrapped as a carrier component 18 a solar module is used. The reinforcement rail 20 , as the material of steel sheet (galvanized, bent, deep-drawn, punched) is mentioned, ensures better load distribution in the support member 18 and increases its resistance to breakage.

The Utility Model DE 20 2008 003 830 U1 and their 9 also illustrates the structure of a purlin 44 holding a steel coat 52 and internal wood profile 54 having. The steel jacket 52 can be galvanized or painted to withstand corrosion. For the purlins 44 as well as for supports 40 of goats 30b In particular, fine-grained steel can be used as a casing. From this prior art, the invention is based.

For completeness, it should be noted that closed aluminum profiles are also known as elevations, for example, for scaffolding of solar modules and for scaffolding of tents. For example, the font shows DE 199 46 399 A1 Frame support elements designed as aluminum tubes with an outside diameter of 60 mm and a wall thickness of 3 mm. Instead of tubes other profile shapes such as square tubes can be used. As cores, however, only so-called integrated piping rails are provided, ie rails that represent end strips of tent fabrics. In addition to the material aluminum other materials such as steel, wood, etc. come into question for such hollow frame. A composite profile with an aluminum shell and a wood core is not disclosed in this prior art.

Task and solution

Opposite the utility model DE 20 2008 003 830 U1 The object of the invention is to optimize the carrying capacity of the metal-wood core composite profile.

This is done according to the claims by an improved choice of material and a coordinated dimensioning of metal shell and wood core. In particular, this object is achieved by an aluminum-wood core composite profile according to claim 1, which has a continuously mittragenden wood core. "Through-bearing" means that it is not enough to connect two aluminum hollow sections with a wooden connector ( DE-GM 76 08 13G ). In such a solution, the wood core would only wear at a joint between the two aluminum hollow sections. The composite profile according to the invention, however, should be continuously sustainable.

Advantages over the prior art

The aluminum shell according to claim 1 has the advantages that it is light and weather-resistant in relation to other materials. Compared to a steel jacket, the modulus of elasticity of the aluminum material is lower, so that a bending stress of the composite profile according to the invention (even without including a dimensioning of the composite cross section) even of the material combination evenly on the core material wood and on the cladding material aluminum is distributable.

A buckling of the aluminum wall is u. a. This avoids that the bearing reserves of the wood core with increasing deformation of the aluminum shell more and more come into play. For this effect, aluminum is better suited than steel, because of its more similar to the wood modulus of elasticity, which is effective even in the elastic load area - before a permanent deformation of the metal. Interaction between wood and metal can be better optimized by using aluminum.

The wood core brings in the composite profile according to claim 1 has the advantage that the wall thickness and / or the cross section of the supporting aluminum can be reduced compared to a pure aluminum profile without wood core. Wood is a renewable raw material, while aluminum is an energy-consuming raw material to produce.

The new aluminum-wood core composite profile is in the sum of its properties particularly suitable for mounting of solar modules, but not limited thereto. Both on roofs, d. H. on purlins and roof battens, as well as on earth or ground anchors are useful support structures or elevations whose profiles are simultaneously stable, light, weather-resistant and environmentally friendly.

A closed aluminum profile (round or square, etc.) has the advantage that the wood core in its entirety is coated weather-resistant.

A U-shaped and thus opened aluminum profile offers the possibility that tearing or compression or buckling of an otherwise existing aluminum wall on a heavily loaded side of the composite profile can be avoided. By intentionally omitting or weakening the aluminum shell on a heavily loaded side, the wood core can alternatively accommodate a load for which it is better suited at this point of loading and under this type of load than an aluminum wall would be. Also by this constructive measure, the load (depending on an otherwise made wood selection and the other relative dimensioning) can be distributed more evenly to the composite components. Also different thicknesses of aluminum walls of a closed hollow profile come for better load distribution in question, the uneven aluminum hollow profile, for example, not only from one piece, but also from (seen in cross-section) may be composed of two or more sub-profiles. For example, two sub-sub-profiles can be plugged into each other to cover the wood core.

Several characteristics of the wood core can improve the bond: a high modulus of elasticity and a high density such as in beech wood, gluing and / or suitable grain profile of the wood core in profile direction, end grain for heavily used surfaces or free end surfaces.

A clever dimensioning of the composite profile (ratio of the moduli of elasticity and the ratio of the cross-sectional areas of the aluminum sheath and the wood core) has the advantage that a bending load can be distributed evenly more uniformly on the aluminum sheath and the wood core. A favorable surface area of the aluminum cross-section is about 10%, preferably between 5% and 20%. The skilled person has here an additional means in hand to reduce the material, energy and production costs of the composite profile (and thus the entire elevation). The ecological aspect, in particular of a solar module and its elevation, is also measured by this.

A loose sheath has the advantage that any swelling or warping of the wood core does not affect the integrity of the aluminum sheath, if this is important in a particular application of the composite profile.

A solid composite in which the wood core will eventually deform the aluminum shell somewhat during the manufacture of the product (eg by a press fit after driving in the wood core or by a clawing after beading or by a screw connection after a first loose fit or by gluing etc.), has the advantage that the loading forces are absorbed by both, the aluminum shell and the wood core, simultaneously and thus evenly from the beginning.

embodiments

The invention will be explained in more detail with reference to embodiments which are illustrated in the patent drawing. It shows:

1 in a perspective view resting on ground anchors elevation, in which the composite profiles according to the invention are used;

2 a side view of the elevation and composite profiles after 1 ;

3 a perspective view of an inventive composite profile with a hollow profile of aluminum and a wood core;

4 the composite profile according to the invention 3 in cross-section;

5 and 6 another embodiment of a composite profile according to the invention and in another use, with a U-profile made of aluminum (before and after mounting on a wooden core) and with a roof batten as a wood core.

In 1 and 2 is an uprising 1 for (unspecified) solar modules shown on ground anchors 2 rests. In the side view of 2 provides a framework 3 . 4 . 5 for the necessary stability. In the longitudinal direction according to 1 serve fasteners 8th and 9 as a carrier and Stabilizers. Each of the truss elements 3 . 4 . 5 and each of the connecting elements 8th . 9 can - individually or in combination with each other - in the form of a composite profile according to the invention 20 be designed. The structure of a preferred aluminum-wood core composite profile 20 is determined by 3 and 4 explained below.

The structure of the stand 1 preferably by means of previously produced as composite profiles 20 . 21 . 22 (please refer 3 and 4 ). However, it is also within the scope of the invention, the aluminum shell 21 wholly or partly later on the wood core 22 (or on the wooden cores 22 of the scaffolding 1 ), in particular to postpone.

The 5 and 6 show an elevation 1 for (not shown) solar modules, in contrast to 1 and 2 existing roof battens 10 and purlins 11 involved in the elevation. In this case, a supporting framework is 10 . 11 already present in the roof, which must, however, be reinforced because of the additional solar modules. For this purpose according to the invention en U-shaped aluminum profile is used 12 ( 5 ), so over a batten 10 pushed it together with her ( 10 and 12 ) en composite profile according to the invention 13 forms ( 6 ).

Overall, therefore, for the ground anchored elevations 1 ( 1 and 2 ) Composite profiles 20 with closed aluminum hollow profiles 21 preferred while for the roof anchored elevations 1 ( 5 and 6 ) Composite profiles 13 with U-shaped aluminum hollow sections 12 are preferred, and because of the easier mountability. However, as I said, other applications are possible if, for example, the Dachaufständerung 1 about the roofing 6 pulled upwards, or conversely, for example, the Bodenaufständerung 1 initially as a roof truss as a wooden scaffolding 10 . 11 has been erected.

The 3 and 4 show - in view and cross-section - en embodiment of an aluminum-wood core composite profile according to the invention 20 , The aluminum profile 21 surrounds here in closed form a wooden core 22 , The aluminum profile 21 in this case is the same on all sides and is in this case one-piece. The wood core is in this case in the closed profile 21 driven in and is kept in a tight fit; In addition, the wood core could 22 be provided with adhesive. The cross-sectional area of the aluminum 21 is slightly less than 10% of the total cross-sectional area of the composite 20 , the cross-sectional area of the wood core 22 correspondingly more than 90%. The wood core 22 in this case consists of beech wood that is not glued. The face 22 with the end grain could be used for special demands.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 1813338 [0001]
• DE 1552045 [0002]
• DE 202006001782 U1 [0003]
• DE 202008003830 U1 [0004, 0006]
• DE 19946399 A1 [0005]
• DE 760813 [0007]

Claims (30)

An aluminum-wood core composite profile ( 20 ; 13 ) with a continuously supporting wood core ( 22 ; 10 ). Composite profile ( 20 ) according to claim 1, for elevations ( 1 ) of solar modules. Composite profile ( 20 ) according to claim 2, for elevations ( 1 ) of the solar modules on roofs. Composite profile ( 20 ) according to claim 2, for elevations ( 1 ) of the solar modules on earth or ground anchors ( 2 ). Composite profile ( 20 ) according to any one of claims 1 to 4, with a closed cross-section jacket or sheath or hollow profile ( 20 ) made of aluminium. Composite profile ( 20 ) according to claim 5, wherein the hollow profile ( 20 ) is a round profile. Composite profile ( 20 ) according to claim 5, wherein the hollow profile ( 20 ) is a square profile. Composite profile ( 20 ) according to one of claims 1 to 4, with a cross-sectionally U-shaped profile ( 12 ) made of aluminium. Composite profile ( 20 ) according to claim 5, wherein the aluminum hollow profile ( 20 ) is not the same everywhere in terms of wall thicknesses. Composite profile ( 20 ) according to claim 9, wherein the aluminum hollow profile ( 20 ) at a seam line or at a side surface has the strength zero. Composite profile ( 20 ) according to one of claims 1 to 10, characterized in that the elastic modulus and / or the density of the wood core ( 22 ; 10 ) is high by a choice of material of the type of wood. Composite profile ( 20 ) according to one of claims 1 to 10, characterized in that for the wood core ( 22 ; 10 ) hard beech wood is used. Composite profile ( 20 ) according to one of claims 1 to 12, characterized in that the wood core ( 22 ; 10 ) is glued. Composite profile ( 20 ) according to one of claims 1 to 13, characterized by a fiber path of the wood core ( 22 ; 10 ) in the direction of the composite profile ( 20 ). Composite profile ( 20 ) according to one of claims 1 to 13, characterized by a fiber path of the wood core ( 22 ; 10 ) so that end grain is used for heavily used surfaces. Composite profile ( 20 ) according to one of claims 1 to 15, characterized in that the cross-sectional areas of the metal-wood composite profile ( 20 ) in a ratio of aluminum [x]: wood [y] of [x = approx. 10]: [y = approx. 90]. Composite profile ( 20 ) according to claim 16, characterized by a proportion of the aluminum ( 21 ; 12 ) in a range of [x = 8% - 11.5%], ie a proportion of the wood 22 ; 10 ) in a range of [y = 94% - 88.5%]. Composite profile ( 20 ) according to claim 16 or 17, characterized by a proportion of the aluminum ( 21 ; 12 ) in the range of [x = 5% - 20%], ie a share of the wood 22 ; 10 ) in the range of [y = 95% - 80%]. Composite profile ( 20 ) according to one of claims 1 to 18, characterized in that the aluminum hollow profile ( 21 ; 12 ) transversely or longitudinally on the wood core ( 22 ; 10 ) is plugged or pushed. Composite profile ( 20 ) according to one of claims 1 to 18, characterized in that the aluminum hollow profile ( 12 ) on the wood core ( 10 ) is umbördelbar. Composite profile ( 20 ) according to one of claims 1 to 18, characterized in that the aluminum hollow profile ( 21 ; 12 ) on the wood core ( 22 ; 10 ) is aufspritzbar. Composite profile ( 20 ) according to one of claims 1 to 19, characterized in that the aluminum hollow profile ( 21 ; 12 ) the wood core ( 22 ; 10 ) loosely, ie without press fit and without flanging surrounds. Composite profile ( 20 ) according to one of claims 1 to 19, characterized in that the aluminum hollow profile ( 21 ; 12 ) a firm bond with the wood core ( 22 ; 10 ), in particular a press fit or a flanging forms. Composite profile ( 20 ) according to one of claims 1 to 19, characterized in that the aluminum hollow profile ( 21 ; 12 ) with the wood core ( 22 ; 10 ) is glued or glued. Composite profile ( 20 ) according to one of claims 1 to 19, characterized in that the aluminum hollow profile ( 21 ; 12 ) by a screw the solid composite with the wood core ( 22 ; 10 ). Composite profile ( 20 ) according to one of claims 1 to 25, characterized in that the aluminum hollow profile ( 21 ; 12 ) from at least two sub-profiles ( 12 ) is composed. Composite profile ( 20 ) according to claim 26, characterized in that two U-profiles ( 12 ) are composed of the same strength, so that result in an overlap on two sides reinforced walls. Composite profile ( 20 ) according to one claim 26, characterized in that two U-profiles are assembled, each with unequal thickness of the U-legs, so that the same wall thicknesses result on all sides by an overlap on two sides. Composite profile ( 20 ) according to claim 26, characterized in that two corner profiles of the same thickness, for example two angle profiles, are assembled, so that the same wall thickness results on four sides. Composite profile ( 20 ) according to one claim 26, characterized in that two corner profiles are assembled with wall elements of unequal strength, so that unequal wall thicknesses of the aluminum hollow profile ( 21 ; 12 ).

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