DE102018106519A1 - Profile element for covering a building envelope - Google Patents

Abstract

The present invention relates to a profile element for a device for covering a building envelope. The profile element comprises a one-piece body portion having a self-contained hollow cross-section and which is preferably located in the center of the profile element, as well as at least one first single-walled wing, which protrudes from the body portion and is formed integrally therewith.

Description

The present invention relates to a profile element such as a Fassendenelement for a device for covering a building envelope, in particular for a device for influencing the transmission of light and / or heat radiation and air and sound.

To influence the permeability of Hüllkonstruktionen individual plastic profiles can be used in various configurations with appropriate devices such as shutters or shutters. For example, extruded hollow body profiles with several chambers are widely used as components of roller shutter armor. External venetian blinds or sliding shutters can also be made of plastic lamellae.

In such devices, the profiles can be assembled in one layer and / or with slight overlaps to planar components for covering building openings or glass facades in order to prevent or at least reduce the passage of solar radiation.

In order to be able to sufficiently reflect or absorb direct solar radiation by means of such devices at low levels of sunlight such as in winter on facades on the south side so that it can come to no glare in the interior of the building and no heating depending on the season, vertically or horizontally rotatable slats Use come.

Especially with such lamella-based devices, however, there is the risk of damage when used outdoors with strong winch loads, which is why the profiles or slats must be brought, for example by shirring into a secure position in which they are protected from wind attack, but this has the consequence in that the devices can no longer fulfill their task of protecting the sun and the glare.

A further problem of these devices is that they prevent both the transparency and the passage of air in the closed state and thus unfavorably contribute to the heating of the elements and to be protected interiors. Also, it can no longer be guaranteed the necessary for the illumination of the rooms daylight entry.

In contrast to these solutions, in other devices rigid and / or movable rods, slats or profile elements can be arranged at a distance from each other and additionally in several planes, so that on certain hand, the passage of direct solar radiation can be completely or partially suppressed, If necessary, however, a sufficient ventilation and ventilation as well as transparency remains. Such devices are for example in the DE 10 2007 003 233 A1 described.

With this principle, the direct passage of solar radiation can be wholly or partially suppressed as needed, while sky light and possibly solar radiation reflected several times in the device can happen the same. Depending on the nature and material properties of the individual elements in the form of, for example, bars, slats or profile elements that make up the respective device, on the one hand effective sun protection and, on the other hand, a required amount of daylight utilization can be guaranteed.

Such a multi-layered arrangement with spaced-apart individual elements allows good clearance and ventilation through the interstices, whereby unwanted additional heat radiation can be reduced in the interior.

The invention is therefore based on the object to provide a profile element for a device operating on this principle, but which can also be used quite generally as a cover element for a building envelope.

This object is achieved with a profile element for a device for covering a building envelope with the features of claim 1.

When viewed in cross-section, therefore, a self-contained thin-walled and significant hollow cross section forms the core of the profile element, as a result of which it reacts technically adequately to torsional and / or bending stresses. This, in turn, makes it possible to form the wing or wings which originate from the fuselage section formed as a hollow cross-section on one or two sides, but in almost one plane, relatively thin and, if necessary, even so filigree, that they are similar to flexible leaves can move in the wind, whereby a facade formed by means of the profile elements according to the invention receives a very natural character.

Due to the inventive design of the profile element with a load-removing fuselage section on the one hand and the wings extending from it on the other hand can thus meet the demands made on the profile element for stability on the one hand and filigree on the other hand by primarily the fuselage section gives the profile element the required stiffness, whereas the wings, which serve to influence the transmission of light and / or heat radiation and air and sound, can be made relatively thin, whereby the profile element is given the desired lightness.

The fact that the at least one wing can be made very filigree, not only material and thus corresponding costs can be saved; Rather, in the case that the material of which the profile element is made, has a certain transparency, solar radiation to a certain extent pass through the profile element by transmission and thus, for example, arrive scattered in the interior of a building. By adjusting the material thickness of the blade to the radiopacity of the material used, the degree of radiopacity of the wings and the profile element as a whole can be varied according to the tasks of the device. The material thickness of the wing over its length can be done continuously or in visible steps.

In the following, preferred embodiments of the invention will now be discussed. Further embodiments may be apparent from the dependent claims, the description of the figures and the drawings.

Although the two wings can each protrude at a slightly different angle from the body portion of the profile element; However, according to a preferred embodiment, the two wings are each at the same angle from the body portion, so that the two wings are mirror-symmetrical to each other, if they have the same shape.

According to a further embodiment, the two wings can lie in a common plane. In particular, in this case the profile element in its entirety with respect to a mirror plane may be mirror-symmetrical, which is oriented perpendicular to the plane in which lie the two wings. In this case, the mirror plane preferably divides the body section into two mutually mirror-symmetrical sections, so that the profile element in its entirety is symmetrical to the mirror plane.

According to a further embodiment, the at least two wings of the profile element can taper towards their respective free end, which not only saves material, but the profile element is given in its entirety a light and filigree character. However, if it is mentioned here that the wings are tapering towards their respective free end, this does not necessarily mean that the wings must continuously taper over their entire length. Rather, each wing may have a plurality of sections of different thickness, so that the respective wing gradually tapers in the direction of its cantilevered end. Similarly, it would be conceivable that the respective wing tapers towards its free end only over a certain area, whereas it has areas of constant thickness beyond this tapering area.

According to a further embodiment, the two wings may be arranged eccentrically on the body portion, which may prove advantageous, for example, with regard to the attachment of the profile element to a substructure construction.

According to yet another embodiment, at least one of the two wings may have a first portion and a second portion which extends in the continuation of the first portion and is slightly angled relative to the first portion. Due to the different orientation of the two sections of such a wing light incident on the wing is reflected in different directions, which can be achieved in particular in a multi-layer arrangement of profile elements according to the invention interesting light effects and / or multiple reflections, effectively kept away from the building shell by solar radiation and / / or in parts targeted to the ceiling or directly into the depth of the space to be exposed can be directed.

According to yet another embodiment, the profile element may further comprise a web which projects from the body portion and lies in a plane which divides the angle between the first and second wings into two preferably equal partial angles. Such a configuration may prove to be particularly advantageous when the profile element is used in a horizontal orientation and is rotatably mounted on a Untertragkonstruktion. Although the profile element may indeed be very rigid about an axis oriented perpendicular to the two wings due to its caused by the first two wings large area moment of inertia, whereby it is possible to bridge with the profile element in the horizontal relatively large spans when the wings aligned vertically are; the area moment of inertia of the profile element with respect to the axis in which the two first wings lie, however, is relatively small, which may result in that the profile element undergoes a significant deflection when it is in a position in which the two wings in one lying horizontal plane. To counteract such an undesirable deflection, the corresponding area moment of inertia can be increased by the web, without for this purpose increases or intensifies the body portion in its entirety must be what would otherwise be at the expense of the lightness of the profile element. Also, the overall impression of the profile element is only slightly affected by the web in question, since the profile element can be installed so that the web of the building envelope is facing and thus does not or only slightly from the outside appears in appearance.

As far as the fuselage section is concerned, it may have a round, oval or even a polygonal hollow cross-section. Preferably, the body portion may have a regular polygonal hollow cross-section, for example, a square, diamond-shaped, dragon quadrangular, triangular or trapezoidal cross-section. In the case of a polygonal hollow cross-section, it is provided that the two wings protrude from opposite corners or edges of the fuselage section, since in this case the fuselage section already has a relatively large area moment of inertia with respect to an axis oriented perpendicular to the two wings, which is advantageous affects the bending stiffness of the profile element.

According to a further embodiment, it may be provided that the body portion is mirror-symmetrical with respect to the common plane in which the two wings extend, or with respect to a plane parallel thereto. Since the attachment of the profile element to a Untertragkonstruktion preferably via the fuselage section, this thus allows the attachment of the profile element in two rotated by 180 ° orientations on the substructure, whereby the profile element is very flexible.

According to a further embodiment, it can be provided that the profile element is produced by means of an extrusion process from, for example, a plastic material. The profile element can thus be an extrudate which, if necessary, can also be fiber-reinforced, for example by admixing glass and / or natural fibers. By such a fiber reinforcement not only the strength properties of the profile element can be improved; rather, it is also possible to influence the light transmission properties of the profile element by targeted admixture of fibers.

In general, the profile element can be transparent or translucent, if necessary, by choosing appropriate plastics. permeable to radiation, but not transparent. In this way it can be ensured that, even in the closed state of a realized by means of the inventive profile element device with sufficient sun protection function still some of the daylight can enter the interior of a building or is given in transparent plastics still a partial outlook.

According to yet another embodiment, the body portion may have a varying wall thickness over its circumference. For example, the wall thickness in the vicinity of the main axis of inertia of the body portion may be less than in areas further from the principal axis of inertia. In this way, the area moment of inertia or resistance moment of the body section can be increased disproportionately despite the reduced wall thickness in the vicinity of the main axis of inertia, since the distance to the respective main axis of inertia flows into the calculation of the area moment of inertia in the third and second power.

According to yet another embodiment, the body portion of the profile element may have a profiling, which is designed for releasably attaching the body portion to a Untertragkonstruktion or receiving a fastener for mounting the body portion to a Untertragkonstruktion. For example, in the case that the body portion has a polygonal hollow cross-section, in the / the shortest sides of the respective polygon, a concave or V-shaped groove or groove is formed, which serves to receive a corresponding fastener. In general, a profiling of the central body section can produce form-fitting connections to constructively necessary substructure constructions. Fixations by fasteners such as screws, nails or pins are also possible as fastenings by clipping.

Although the opacity of the profile element can be influenced by the material of which the profile element is made; In addition, however, the profile element may be provided with a coating that changes the opacity of the profile element or the material from which this is made. In addition, can be influenced by such a coating, the weather resistance and / or the reflection properties of the profile element, without the profile element has to be made of a special material for this purpose.

• 1 bis 22 unterschiedliche Ausführungsformen des erfindungsgemäßen Profilelements im Querschnitt zeigen;
• 23 bis 25 unterschiedliche Arten der Befestigung des erfindungsgemäßen Profilelements an einer Untertragkonstruktion zeigen; und
• 26 bis 30 unterschiedliche Anordnungsmöglichkeiten des erfindungsgemäßen Profilelements an einer Untertragkonstruktion zur Abdeckung einer Gebäudehülle zeigen.

In the following, the invention will now be described purely by way of example with reference to the drawing, in which:

• 1 to 22 show different embodiments of the profile element according to the invention in cross section;
• 23 to 25 different types of attachment of the invention Show profile element on a substructure construction; and
• 26 to 30 show different possible arrangements of the profile element according to the invention on a Untertragkonstruktion to cover a building envelope.

The following will now be first with reference to the 1 on the basic design of the profile element according to the invention, before then with reference to the 2 to 22 different embodiments are explained.

It should be said at this point that the proportions shown in the figures can vary and are infinitely scalable in various absolute sizes.

The 1 shows a first embodiment of a profile element according to the invention 10 which is a fuselage section 12 and two single-walled wings 14 . 16 that is from the body section 12 freely cantilevered. In the profile element 10 For example, it may be an extrudate of a plastic material, so not just the wings 14 . 16 integral with the body section 12 is formed, but also the body portion 12 even a one-piece section of the profile element 10 represents.

At the fuselage section 12 it is a self-contained, thin-walled hollow cross section, which forms in the embodiment shown here in cross section forms a circular ring. The wings 14 . 16 stand from opposite sides of the fuselage section 12 and extend in a common plane, which is oriented parallel to the Y-axis or normal to the X-axis of the coordinate system shown here schematically. The wings 14 . 16 They taper continuously from the point where they enter the fuselage section 12 pass over to their free end 18 down, causing the wings 14 . 16 can be formed very filigree, what the profile element 10 gives a certain lightness in its entirety.

When in the 1 illustrated embodiment, the profile element 10 thus doubly mirror-symmetrical and on the one hand to the plane passing through the two wings 14 . 16 is stretched, and on the other hand to a perpendicular to the plane of the wings 14 . 16 standing plane containing the fuselage section 12 divided into two equal halves.

As mentioned previously, it may be in the profile element 10 to act an extrudate of a plastic material; Alternatively, the profile element 10 However, also be made of metal and in particular aluminum or glass and acrylic glass. Depending on the type of production, the profile element 10 available as a piece by the meter in order to be able to cut to length appropriate sections of the respective desired length. Depending on the application, the cross-sectional dimensions of the profile element 10 vary, but the usual dimensions of the profile element in the direction of the Y-axis may be on the order of about 2 to 30 cm.

That in the 2 illustrated profile element 10 is different from that in the 1 represented only in that here the wing 14 shorter than the wing 16 is, as may be desirable, to accommodate specific structural requirements. If necessary, the wing can 14 but also completely omitted, so that there is a single-wing profile element. The profile element 10 can either already with two wings of different lengths 14 . 16 getting produced. Alternatively, it is also possible with the profile element 10 of the 1 the wing 14 for example, by means of a circular saw to shorten the profile element 10 of the 2 to get, or the wing 14 completely remove. Such a subsequent reduction in the length of at least one wing 14 . 16 is readily possible if the profile element 10 is made of a plastic material.

The profile element 10 of the 3 is different from that in the 1 represented by the fact that here both wings 14 . 16 were shortened.

The profile elements 10 according to the 4 and 5 differ from that in the 1 represented by the fact that here the trunk section 12 each having an oval cross-section.

That in the 6 illustrated profile element 10 differs from the one in the 1 represented by the fact that here the trunk section 12 has a square cross section, wherein the wings 14 . 16 from opposite corners or edges of the fuselage section 12 out.

That in the 7 Profile element shown differs from that in the 6 represented by the fact that here the wall thickness of the fuselage section 12 towards the corners or edges, of which the wings 14 . 16 stand, continuously decreases, which may be desirable for example in favor of material savings. However, the material saving is not or only to a small extent at the expense of the rigidity of the profile element 10 because the moment of resistance W _y with respect to the Y-axis is largely determined by those cross-sectional portions which are farther from the wing plane. Although tapered in the profile element 10 of the 7 the wings 14 . 16 towards her free end 18 back; In addition, the two wings point 14 . 16 however on one side a big jump 20 on, which in addition material can be saved. If necessary, each wing 14 . 16 have several such thickness jumps, wherein such thickness jumps 20 basically also on both sides of the respective wing 14 . 16 can be trained. In the embodiment shown here, however, form the two wings 14 . 16 on the big jump 20 opposite side each have a flat surface 21 off, which lie in a common plane, leaving the two wings 14 . 16 for example, can lie flat against a substructure construction.

The profile element 10 according to 8th is different from that of 7 in that here is a jetty 22 is provided, that of the fuselage section 12 protrudes and is integrally formed with this. The jetty 22 is significantly shorter than the other two wings 14 . 16 , However, this is sufficient to increase the resistance moment W _y such that the profile element 10 according to the orientation according to 8th can be rotated by 90 ° without bending due to its own weight and / or snow load.

The in the 9 . 10 and 11 illustrated profile elements 10 differ from those in the 6 represented essentially in that here the fuselage section 12 has no square but a diamond-shaped cross-section, wherein the profile of the 11 in addition the wings 14 . 16 are abbreviated.

In the in the 12 illustrated profile element 10 has the body section 12 also has a substantially diamond-shaped cross-section, in which case, however, the diamond dimension in the direction of the Y-axis is less than in the direction of the X-axis. Furthermore, the body section 12 two profilings 24 in the form of two V-shaped grooves or recesses, along the two free corners or edges of the fuselage section 12 are formed. On the possible purpose of such profiling 24 will be discussed in more detail below.

The in the 13 and 14 illustrated profile elements 10 differ from that in the 12 represented essentially in that here the wings 14,16 are shortened by a certain amount. The profile element 10 of the 14 is from the in the 12 It emerged from this that the wings 14 . 16 along the Dickensprungs 20 For example, were shortened by means of a circular saw, so that the thickness jump 20 not only serves to save material, but also represents a kind Einhürzhilfe.

In the profile element 10 according to 15 has the body section 12 a symmetrical with respect to the Y-axis and with respect to the X-axis hexagonal hollow cross-section, wherein the opposite corners or edges, of which the two wings 14 . 16 go out, inside the fuselage section 12 additionally by an intermediate wall 26 for purposes of additional stiffening of the profile element 10 connected to each other.

The profile elements 10 according to the 16 and 17 turn turn a further development of the profile element of 15 with a double-symmetrical rectangular section 12 Here, along the two short side surfaces, which are aligned parallel to the Y-axis, profiles 24 with V-shaped ( 16 ) or concave cross section ( 17 ) are provided, whose purpose will be discussed in more detail below.

The 18 shows a profile element 10 with a cross section reminiscent of a bridge cross section. In this embodiment, the body portion 12 a substantially rectangular cross-section, wherein the wings 14 . 16 in the extension of the longer side of the rectangular cross-section of the fuselage section 12 extend and move towards their free end 18 continuously rejuvenate.

Unlike the profile element 10 of the 18 will be in the in the 19 illustrated the fuselage section 12 formed by a symmetrical with respect to the X-axis trapezoid, added as another difference that here the wings 14 . 16 have a constant thickness over their entire length.

The profile element 10 according to 20 represents an evolution of the profile of the 19 showing the wings 14 . 16 towards their respective free ends 18 continuously rejuvenate. It also adds that here the fuselage section 12 strictly speaking has no trapezoidal cross-section, since here the side surface of the fuselage section 12 between the two wings 14 . 16 through two surface sections 28 . 30 which together form an obtuse angle on the order of about 160 °, thereby forming a V-shaped recess. In contrast, the shorter side of the fuselage section 12 similar in the 17 a profiling 24 in the form of a concave recess, whose purpose will be discussed in more detail below.

The 21 shows a profile element 10 in which the fuselage section 12 essentially has a krakar quadrangular cross-section, which, like the entire profile element with respect to the X- Axis is mirror-symmetrical. Again, the fuselage section 12 along the corners or edges, which face each other in the direction of the X-axis, a profiling 24 with V-shaped cross section. The wings 14 . 16 On the other hand, they stand on the two corners or edges, which face each other in the direction of the Y-axis, with each of the two wings here 14 . 16 a first section 32 as well as a second section 34 which is in the continuation of the first section 32 extends and angled relative to this at an acute angle in the order of about 5 to 15 °. On the two wings 14 . 16 incident light is thus at the two wing sections 32 . 34 reflected differently, as may be desirable to achieve special lighting effects.

Also with the profile element 10 of the 22 has the body section 12 is substantially a krakar quadrangular cross-section, but different from the embodiment according to FIG 21 the wall thickness of the fuselage section 12 over the circumference of the fuselage section 12 does not vary, but is constant or everywhere the same size. Here, too, the wings are rejuvenating 14 . 16 continuously towards their respective free ends 18 However, here again differently than in the embodiment of the 21 not angled in itself.

For the sake of completeness, it should be noted at this point that the 1 to 22 merely represent a variety of exemplary profile elements according to the present invention. However, the invention is not limited to these exemplary profile elements; Rather, for example, arbitrary body sections according to the 1 to 22 as well as individual features thereof with any wing configurations according to the 1 to 22 and combined with individual features thereof.

With reference to the 23 to 25 Now different attachment options are exemplified using the in the 17 shown profile element 10 on a substructure construction 36 explained.

In the substructure construction 36 it may, for example, be a transverse or longitudinal beam, which has a substantially V-shaped recess 83 for partially receiving the trunk section 12 of the profile element 10 having. At the bottom of this recess 38 is a kind of mushroom cone 40 provided, the form-fitting with a corresponding profiling 24 mates, along the shortest side of the fuselage section 12 is formed, so that in this way the profile element 10 by means of a kind of tilting attachment to the substructure 36 can be secured.

In the lower illustration of the 23 is the profile element 10 in the V-shaped recess 38 the substructure construction 36 fastened by a fastener 42 such as a screw through the body portion 12 to the substructure construction 36 screwed.

According to the upper illustration of 24 is the profile element 10 also by means of a fastener 42 at the substructure construction 36 secured, but here the fuselage section 12 with one of its long side surfaces over the entire surface of the substructure construction 36 abuts and the fastener 42 both through this and the diametrically opposite side surface of the fuselage section 12 extends through.

According to the lower illustration of 24 in turn becomes one half of the fuselage section 12 from a V-shaped recess 38 in the substructure construction 36 recorded, with the two wings 14 . 16 with their side surfaces 21 , which have no thickness jumps and lie in a single plane, all over the substructure construction 36 abutment, in which case the attachment by means of two by the wings 14,16 in the Untertragkonstruktion 36 bolted screws done.

According to 25 can the profile element 10 of the 17 on a substructure construction 26 such as a support 46 by means of two pins 44 be secured to the support 46 are welded and from this stand vertically to get into the two profiles 24 of the fuselage section 22 extend into it.

The 26 to 30 show finally various possible arrangements of the profile element according to the invention, can be achieved by the different effects, which should not be discussed in detail here. However, as these representations can be seen, the profile elements in the sense of slats in vertical and horizontal (relative to the axis in the extrusion direction or longitudinal direction) arrangements can be added to surface elements or put together. Also, the profile elements can be arranged overlapping or with certain distances in one or more planes. Furthermore, the profile elements can be used in rigid or movable (rotating and / or sliding) arrangements in devices of various kinds application. Also, in such arrangements, the profile elements viewed in cross-section can be arranged in facades so that the wings of the profile elements are aligned vertically, whereby the stress of the profile elements is carried by its own weight or snow load in the strong axis. Also, the derivation of rainwater is very Well ensured and dirt and dust from the ambient air can accumulate only with difficulty.

The profile elements can thus be combined with one another in terms of a modular system in different sizes, materials, degrees of transparency in different rigid or movable arrangements. They can be added to surface components, e.g. find in sliding elements and / or folding elements and / or rotary wings and / or folding elements use.

Various rake modeled arrangements and metrological examinations of built prototypes under real external conditions have shown that can be achieved by means of the profile element according to the invention in corresponding surface arrangements in one or more levels above average overall performance in sun protection in conjunction with sufficient daylight passage and air exchange. This above-average feature helps to reduce heating and cooling energy requirements in residential and administrative buildings.

LIST OF REFERENCE NUMBERS

10

profile element

12

fuselage section

14

first wing

16

second wing

18

free end

20

Dick jump

21

flat surface

22

web

24

profiling

26

partition

28

surface section

30

Flächeanabschnitt

32

wing section

34

wing section

36

Under supporting structure

38

recess

40

Mushroom cams

42

fastener

44

spigot

46

support

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 102007003233 A1 [0007]

Claims (14)

Profile element (10) for a device for covering a building envelope, in particular for a device for influencing the transmission of light and / or heat radiation and air and sound, comprising: - A one-piece body portion (12) having a self-contained hollow cross-section and which is preferably in the center of the profile element (10); and at least one first single-walled wing (14, 16) projecting from and integrally formed with the body portion (12), and preferably a second single-walled wing (16, 14) projecting from a location of the body portion (12), which is opposite to the point from which the first wing (14, 16) protrudes from the body portion (12), wherein in particular the wings (14, 16) are mirror-symmetrical to each other. Profile element after Claim 1 , characterized in that the two wings (14, 16) lie in a common plane, wherein in particular the profile element (10) is mirror-symmetrical with respect to a plane oriented perpendicular to the common plane mirror plane, preferably the fuselage section (12) in two mutually mirror-symmetrical sections divided. Profile element according to at least one of the preceding claims, characterized in that the two wings (14, 16) taper towards their respective free end (18), preferably continuously and / or stepwise. Profile element according to at least one of the preceding claims, characterized in that the two wings (14, 16) are arranged eccentrically on the body portion (12). Profile element according to at least one of the preceding claims, characterized in that at least one of the two wings (14, 16) has a first portion (32) and at least one second portion (34) extending in the continuation of the first portion (32) and angled relative to the first portion (32). Profile element according to at least one of the preceding claims, characterized in that the profile element (10) has a web (22) which projects from the body portion (12) and lies in a plane which defines the angle between the first and second wings (14 , 16) is preferably halved, wherein in particular the web (22) is shorter than both the first and the second wings (14, 16). Profile element according to at least one of the preceding claims, characterized in that the body portion (12) has a round, an oval or a polygonal hollow cross-section, preferably a regularly polygonal hollow cross-section, in particular a polygonal hollow cross-section which is substantially square, diamond-shaped, dragon quadrangular , triangular or trapezoidal. Profile element according to at least one of the preceding claims, characterized in that the body portion (12) has a polygonal hollow cross-section, wherein the two wings (14, 16) project from opposite corners of the body portion (12) having a polygonal hollow cross-section. Profile element according to at least one of Claims 2 to 8th , characterized in that the body portion (12) is mirror symmetrical with respect to the common plane in which the two wings (14, 16) lie or with respect to a plane parallel thereto. Profile element according to at least one of the preceding claims, characterized in that the body portion (12) has a wall thickness varying over its circumference and / or at least one profiling (24), which for releasably attaching the body portion (12) to a supporting structure (36 ) or for receiving a fastening element (42) for attachment of the fuselage section (12) to a support structure (36) is formed. Profile element according to at least one of the preceding claims, characterized in that the profile element (10) is an extrudate, which is preferably made of a plastic material and / or fiber-reinforced. Profile element according to at least one of the preceding claims, characterized in that that the profile element (10) is not or in different degrees radransdurchlässig and in particular transparent or translucent. Profile element according to at least one of the preceding claims, characterized in that the profile element (10) has a coating which changes the weather resistance, the reflection properties and / or the opacity of the profile element (10). Shading device for a building envelope with a plurality of profile elements (10) according to at least one of the preceding claims, wherein the individual profile elements (10) are arranged rigidly or movably in one or more planes.

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