DE102020103111A1 - Weather protection system with a supporting structure for mounting on parts of the building - Google Patents

Abstract

Weather protection system (100) with a support structure (1) for mounting the weather protection system (100) on at least two building parts (6, 7), the support structure (1) having at least two support elements (2, 3), each support element (2, 3 ) at least one holder (10) is provided for attachment to the respective building part (6, 7) and the holder (10) has three translational degrees of freedom (T1, T2, T3) so that the support elements (2, 3) are relatively independent of one another can be aligned with the building parts (6, 7) in the three translational degrees of freedom (T1, T2, T3).

Description

The invention relates to a weather protection system, in particular a lamellar roof, with a support structure for mounting on parts of the building, the holder being set up to compensate for irregularities on the surface of the parts of the building.

Unevenness in buildings generally occurs when several structural elements, for example, are not aligned, at right angles or parallel to one another, or when surfaces, such as plastered walls, are not designed to be flat.

Such irregularities require that weather protection systems, such as sun protection devices or shading devices, which are mounted on buildings, have to be adjusted based on the conditions on the building side. Weather protection systems are manufactured in compliance with tight tolerances, which are unusual for buildings. In order to enable a correct installation of a weather protection system on a building, the mounts of the weather protection system are either lined accordingly, or the mounts provide a certain scope for compensation options. In particular, this is also intended to avoid mechanical stresses in the weather protection system if the weather protection system is mounted on two parts of the building or if several brackets are provided for the weather protection system.

Such a fastening system is, for example, from DE 10 2013 008 597 A1 famous. A mounting system for fastening guide rails for sun protection systems is proposed here. The mounting system has a mounting bracket which is connected to the guide rail by means of a hammer head and an adapter. The hammer head and the adapter form a unit and can be fixed to the mounting bracket. The adapter engages in a receptacle of the fastening bracket, which is arranged perpendicular to the guide rail. The hammer head itself engages in the guide rail, so that the assembly system in this configuration allows two translations, namely one translation along the guide rail and another translation along the receptacle.

The object of the invention is to improve and simplify the assembly and fastening of weather protection systems, in particular of shading devices with a supporting structure, such as lamellar roofs.

This object is achieved according to the invention by a weather protection system according to claim 1. Advantageous further developments can be found in the dependent claims.

For a weather protection system with a supporting structure for mounting on at least two building parts, the supporting structure having at least two supporting elements, it is provided according to the invention that at least one holder is provided for each supporting element for attachment to the respective building part and the holder has three translational degrees of freedom so that the Support elements can be aligned independently of one another relative to the building parts in the three translational degrees of freedom.

One embodiment of a support structure can be a support frame or frame, wherein a support frame can have a polygonal shape. The support frame or the support structure is preferably rectangular.

Because the respective holder of the support structure has three degrees of freedom, the support elements can ideally be aligned parallel to one another or in alignment. This ensures that the supporting structure is not entangled and that the weather protection system is in the desired alignment with the parts of the building.

The provision of an adjustment of the holder in the three translational degrees of freedom is particularly advantageous when the building parts are not exactly aligned with one another, which is required by the weather protection system that is manufactured much more precisely. In this way, inaccuracies in the alignment of the building parts with one another or unevenness on the surface of building parts, such as those that can arise when cladding or plastering building surfaces, can be compensated for.

When assembling elements on buildings, it often happens that, for example, a mounting hole in the building part is not suitable for mounting an element to be attached to it because the building part does not have sufficient load-bearing capacity in the mounting hole or because the mounting hole is, for example, present Reinforcements in the part of the building are not designed deep enough. In practice, if several mounting holes are provided, the mounting of a fastening means in such a mounting hole is dispensed with. The inventive design of the bracket makes it possible to move the bracket parallel to the building part along one or two translational degrees of freedom and thus create a further attempt at fastening the bracket for mounting the support structure or the support frame on the building part.

Translational degrees of freedom are to be understood as the degrees of freedom under which a shift is possible in the respective spatial direction. In a coordinate system, the orientation of such degrees of freedom would be described, for example, by the three space vectors x, y, z.

In one embodiment of the invention it is provided for the weather protection system that the respective bracket is attached to a fastening point on the respective support element and is provided for fastening to a fastening point on the respective building part and the translational degrees of freedom in the bracket in itself and / or on a or both of the attachment points are formed. In a further development, it can be provided that the first translational degree of freedom is provided in the fastening point of the holder on the support element. In a further embodiment, it can be provided that the second translational degree of freedom is formed in the holder. Alternatively, it can be provided that the first translational degree of freedom is formed in the holder itself. In a more detailed embodiment, it can be provided that the third translational degree of freedom is formed in the fastening point for fastening the supporting structure to the respective part of the building. By locating the translational degrees of freedom in this way, the mounting of the bracket on the respective part of the building is simplified. Another advantage is that no further devices are required to provide the degrees of freedom, which reduces the mechanical complexity and size of the holder.

Fastening points are not to be understood as points in the geometric sense, but rather locations at which the holder is or is to be fastened both to the respective support element of the support structure or the support frame and to the respective part of the building. At the respective fastening point, the mobility of the holder according to the invention with respect to the support element or the building part is given, unless the holder is finally mounted.

In a further embodiment of the invention it is provided that the respective support elements are arranged in a plane in an assembled state. This results in an assembly of the supporting structure or the supporting frame on the building parts, which is free of mechanical stresses parallel to the plane. This is particularly advantageous if the supporting structure is a supporting structure of a lamellar roof with shading lamellas displaceably guided in the supporting structure, since their mechanics require an exact and non-entangled alignment of the supporting structure.

According to a further embodiment of the invention, it is provided that the support structure rests on the brackets in an assembled position and can be aligned in one plane with respect to the building parts, the brackets being connected to the respective building part. Unless the mounts are finally fixed to the support structure or the support frame, there is a type of floating mounting of the support structure in relation to the building parts parallel to the plane. In this way it is also advantageously avoided that mechanical stresses build up in the support structure or the support frame.

In an optional development of the invention it is provided that the support elements are arranged on two opposite sides of the support structure. In this way it can advantageously be ensured that the supporting structure is securely fastened to the building parts by at least two brackets.

According to a further embodiment of the invention it can be provided that two holders are provided for each support element or for the support structure. By providing two brackets, the stability of the support structure or the support frame is increased. The inventive design of the brackets advantageously ensures that the degrees of freedom with regard to the assembly of the brackets or the support structure on the building parts and with regard to the alignment of the support elements with one another to form the support structure are maintained.

In a further development, it can be provided that the supporting structure has at least one structural element in addition to the supporting elements, the supporting elements and the structural element forming a frame or supporting frame of the supporting structure. In one embodiment, the support structure is designed as a polygonal support frame. In a further embodiment, the support structure is designed as a rectangular support frame. It is preferred here that the support elements and the structural elements are arranged in one plane. According to a further optional embodiment, it can be provided that the structural elements are arranged on two opposite sides of the support structure. Alternatively, two or more support elements can also adjoin one another in the circumferential direction of the support structure and only one structural element can be provided. In a further development, it can be provided that the structural elements are self-supporting and are each supported on the supporting elements in the corner regions of the supporting structure. Alternatively, it can be provided that the ends of the structural elements are each supported by the support elements. Furthermore, a structural element can be designed essentially like a support element without the Structural element has a bracket attached to it. The provision of such structural elements has the advantage that the sides of the support structure that are not intended for attachment to a part of the building can be configured differently than the sides of the support structure with the support elements. This simplifies production and has a positive effect on the appearance of the weather protection system, since under certain circumstances and depending on the installation situation, for example, no mounting points for seals on building parts or fastening options for the brackets need to be provided.

In a further optional embodiment it is provided that the holder has a compensation element and a bracket, the bracket being designed for mounting on the respective part of the building and the compensating element being designed to be received in the respective support element. In particular, it is provided that the console can be mounted at a fastening point on the building part and the compensating element can be mounted at a fastening point on the support structure or the respective support element. In a further embodiment it is provided that the first translational degree of freedom lies in the fastening point between the compensation element and the support element. By providing a bracket and a compensating element, it is achieved in an advantageous manner that the holder can move in itself and with respect to the support element.

In a further embodiment of the invention it is provided that the compensating element enables a first translational degree of freedom and the bracket enables two further translational degrees of freedom of the supporting structure with respect to the building parts. In a further development, it can also be provided that a movement corresponding to the second translational degree of freedom takes place between the console and the compensating element and a movement corresponding to the third translational degree of freedom takes place between the console and the building part, in particular in the attachment point between the console and the respective building part. In this way, each support element can be adjusted relative to the building part in every spatial direction or along every translational degree of freedom. This ensures an optimal alignment of the support structure or the support elements with respect to one another.

In a more detailed embodiment of the invention, it can be provided that the compensating element is designed as a profile element which has a C-shaped guide rail. In a further development it is provided that the compensating element has a plurality of guide rails running in parallel. Forming the compensating element as a profile element with one or more parallel guide rails ensures that the console can be translated with respect to the compensating element along the first direction or the first degree of freedom when the console engages the compensating element according to a further development of the invention is. This has a particularly space-saving effect on the design of the holder. Because several guide rails are provided, the holder can optionally be designed such that the console can be brought into connection with one of these guide rails. This has the advantage that the position of the console can be preset in the second direction, that is to say in the second degree of freedom.

In one embodiment of the invention it can be provided that the console is designed as an angle. In particular, the angle element can be designed as a right angle, a right angle not being understood as a perfect geometric right angle, but also including acute and obtuse angles, preferably in an angle range of 80 to 100 °. In a further preferred embodiment it is provided that the console has a first leg, which runs essentially parallel to the compensating element, and has a second leg, which runs essentially parallel to the respective part of the building. In a further development it is provided that the compensating element, which can be designed as a profile element, is arranged between the first leg of the console and the support element. The compensating element as part of the brackets can be connected to the support element in a final assembly at a fastening point. In this way, maximum freedom of assembly of the supporting structure on a part of the building is given, since it is predetermined by the compensating element that the supporting structure protrudes from the part of the building at an angle predetermined by the console. Such a design of the console avoids cumbersome ceiling mounting, a corresponding design of the console for such special mounting situations also being conceivable through appropriate modifications. In this case, the third translational degree of freedom would be represented by a mobility of the holder itself.

According to a further development of the invention, it can be provided that the console has at least two parallel elongated holes on the first leg. By providing elongated holes in their assembly with the compensating element, which embodies the invention, the advantage is given that the console can be moved relative to the compensating element along the second direction or along the second degree of freedom. The holder is thus adjustable in itself with respect to the second degree of freedom. This is particularly space-saving.

According to a further embodiment of the invention, it can be provided that the console has at least two groups of mounting holes on the second leg. Furthermore, it is provided in a further development that the groups of mounting holes are spaced apart from one another in a first direction parallel to the longitudinal direction of the compensating element. The mounting holes can be designed as elongated holes. Providing assembly holes in the second leg has the advantage that the device can be adjusted in a third direction or along a third degree of freedom via this adjustability when it is mounted on a part of the building. The structural integrity of the second leg, in particular with regard to bending moments that act on the second leg due to the load exerted on the first leg by the support structure, is ensured by the length-to-width ratio provided.

According to a further embodiment of the invention it can be provided that the console is connected to the compensating element via a connecting element. The connecting element can also engage behind an undercut of the compensating element. Furthermore, it can be provided that the connecting element likewise projects through at least one elongated hole in the first leg and engages behind it on the side facing away from the compensating element. In addition, it can be provided that the connecting element has a sliding block, a screw and a washer element. This type of connection means that the console can initially be mounted independently of the supporting structure. After the brackets have been installed on the building parts, the support structure can be placed on the brackets, the compensating elements being arranged between the bracket and the support structure. The sliding blocks advantageously ensure that the console can be displaced with respect to the compensating element in the first direction or along the first translational degree of freedom.

According to a further embodiment of the invention it is provided that the console has a stiffening element enclosed between the legs. This has the advantage that the structural integrity of the holder or the console is increased.

• 1: eine schematische Aufsicht einer Ausführungsform einer Tragstruktur für eine Wetterschutzanlage in einer beispielhaften Einbausituation,
• 2: eine schematische Darstellung der Halterung in einer perspektivischen Ansicht,
• 3: eine schematische Darstellung der Halterung in einer Seitenansicht.

An embodiment of the invention is shown in the figures and is explained below. Show it:

• 1 : a schematic plan view of an embodiment of a support structure for a weather protection system in an exemplary installation situation,
• 2 : a schematic representation of the holder in a perspective view,
• 3 : a schematic representation of the holder in a side view.

Unless otherwise stated, the following reference symbols relate to all of the figures given.

1 a schematic plan view of an embodiment of a support structure 1 for a weather protection system 100 in an exemplary installation situation in which the supporting structure 1 or the weather protection system 100 , which is designed as a lamella roof in this embodiment, of four parts of the building 6th , 7th , 8th , 9 is surrounded. Such an installation situation can occur, for example, in an inner courtyard of one or more buildings.

The supporting structure 1 has a first support element 2 and a second support element 3 on. The two supporting elements 2 , 3 are formed opposite one another. Between the supporting elements 2 , 3 slats of a slat roof are arranged.

The supporting elements 2 , 3 are each by means of two brackets 10 each a console 20th and a compensation element 40 exhibit. With the console 10 are the supporting elements 2 , 3 on the respective support element 2 , 3 assigned part of the building 6th , 7th assembled.

The supporting structure 1 lies on the brackets 10 on and is with the brackets 10 in a known manner at the attachment points 16 connected. The mounts 10 are on the parts of the building 6th , 7th assembled and with the building parts 6th , 7th each at the fastening points 17th connected. The supporting structure 1 itself is not with the building parts 6th , 7th connected and is circumferentially at least partially at a distance from the building parts 6th , 7th on. This distance is provided with a seal, not shown, which prevents fluids from entering between the support structure 1 and the parts of the building 6th , 7th , 8th , 9 prevented.

Between the supporting elements 2 , 3 in the area of the building parts 8th , 9 on which no supporting elements 2 , 3 are arranged are structural elements 4th , 5 available. Together with the supporting elements 2 , 3 form the structural elements 4th , 5 the supporting structure 1 the weather protection system 100 .

The structural elements 4th , 5 themselves are not on the adjacent parts of the building 8th , 9 mounted, but are with the supporting elements 2 , 3 connected, in particular they are in the corner areas of the rectangular support structure on the support elements 2 , 3 on. The structural elements 4th , 5 thus form a self-supporting part of the supporting structure 1 .

The supporting structure 1 is essentially rectangular and runs in a plane that is preferably aligned horizontally, that is, perpendicular to a perpendicular.

2 shows a schematic representation of the holder 10 in a perspective view as shown in a sectional support element 2 , 3 is arranged.

The bracket 10 assigns a console 20th and a compensation element 40 on.

The compensation element 40 is in this embodiment with three parallel guide rails 41 educated. The support element 2 , 3 assigns a recording 13th on into which the compensating element 40 can be used by means of a substantially trapezoidal shape. The support element 2 , 3 lies with the admission 13th on the trapezoidal part 42 of the compensation element 40 the bracket 10 on and is with this in a known manner at the attachment point 16 connected. The guide rails 41 run along a first direction R1 and each have an undercut in cross section. In this embodiment, the guide rails are 41 each designed as a C-profile.

The console 20th is angular in this embodiment and has a first leg 21 and a second leg 22nd on. Furthermore, a stiffening element is between the legs of the console 23 arranged.

The first leg 21 the console 20th is due to the compensation element 40 on the side with the guide rails 41 on. The second leg 22nd the console 20th lies in an assembly position on the respective support element 2 , 3 assigned part of the building 6th , 7th on (cf. 1 ).

In the first leg 21 the console 20th are two elongated holes 25th formed with its long side parallel to an angled side 26th run off the console.

Furthermore, the console 20th on the second leg 22nd at least two groups 24a , 24b of two parallel to an angular edge 26th running mounting holes 27 on. The groups 24a , 24b of mounting holes 27 are in the first direction R1 parallel to a longitudinal extension of the guide rails 41 spaced from each other. The bracket 10 is at the attachment point 17th with the respective part of the building 6th , 7th connected in a known manner, for example by a screw connection in masonry.

The console 20th is with the compensation element 40 via a connecting element 50 connected. The connecting element 50 engages behind an undercut of the compensating element 40 or a guide rail 41 . Here, the connecting element protrudes 50 also at least one elongated hole 25th of the first leg 21 and reaches behind the first leg 21 on the compensating element 40 remote side.

The connecting element 50 has a sliding block 51 for engaging a guide rail 41 , a screw 53 with screw head and a washer 52 for installation on the compensating element 40 facing away from the first leg 21 on.

For adjusting the supporting structure 1 represents each bracket 10 a first translational degree of freedom T1 in the first direction R1 , a second translational degree of freedom T2 in a second direction R2 and a third translational degree of freedom T3 in a third direction R3 ready.

In this exemplary embodiment, the first direction runs R1 parallel to the extension of the guide rails 41 . The first translational degree of freedom T1 arises during the assembly of the supporting structure 1 in that the the guide rail 41 engaging connecting element 50 along the first direction R1 , i.e. along the guide rail 41 can slide.

The second direction R2 runs in this exemplary embodiment essentially perpendicular to the first direction R1 , namely in the direction of the angle side 26th the console 20th or in the direction of the longitudinal extension of the elongated holes 25th . The second translational degree of freedom T2 arises during the assembly of the supporting structure 1 in that the connecting element 50 in at least one elongated hole 25th is movable or the console 20th compared to the compensation element 40 in the second direction R2 is movable.

The third direction R3 runs essentially perpendicular to the first direction R1 and the second direction R2 . The third translational degree of freedom T3 arises during the assembly of the supporting structure 1 by having the console 20th opposite the part of the building 6th , 7th through mounting holes 27 that have a length to width ratio and have their long side in the third direction R3 extend in the third direction R3 is movable.

In the attachment point 16 can also be the translational degree of freedom T1 lie when the bracket 10 not finally with the supporting structure in a pre-assembly 2 , 3 connected is. In the attachment point 17th can also be the translational degree of freedom T3 when the bracket is in a Pre-assembly is not yet final with the part of the building 6th , 7th connected is.

3 shows a schematic representation of the holder 10 in a side view, with the bracket 10 is mounted in this view. You can see that the first leg 21 the console 20th on the compensation element 40 and by the mutual engagement of the sliding block 51 and the screw 53 with the washer 52 with the compensation element 40 connected is. The compensation element 40 lies in the recording 13th of the support element 2 , 3 on.

The invention is not restricted to one of the embodiments described above, but can be modified in many ways. For example, it is conceivable that the support structure 1 is mounted in a reveal of a door or window opening of a building. Here, for example, each support element 2 , 3 , which is arranged on one side of the reveal, a bracket 10 to connect the supporting structure 1 be provided with the reveal. On the side of the supporting structure facing away from the building 1 or the weather protection system 100 vertical supports can be provided to support loads.

It is also conceivable that the support structure 1 is arranged in a right-angled corner of the building. Here is at least one support element 2 , 3 with a part of the building 6th , 9 connected and the corner of the supporting structure opposite the corner of the building 1 supported by a vertical support.

All of the features and advantages arising from the claims, the description and the drawings, including structural details, spatial arrangements and method steps, can be essential to the invention both individually and in a wide variety of constellations.

List of reference symbols

100

Weather protection system

1

Support structure

2, 3

Support element

4, 5

Structural element

6, 7, 8, 9

Part of the building

10

bracket

13th

recording

16, 17

Attachment point

20th

console

21

first leg

22nd

second leg

23

Stiffening element

24a, 24b

group

25th

Elongated holes

26th

Angular edge

27

Mounting holes

40

Compensation element

41

Guide rail

42

trapezoidal part

50

Connecting element

51

Sliding block

52

Washer

53

screw

R1

first direction

R2

second direction

R3

third direction

T1

first translational degree of freedom

T2

second translational degree of freedom

T3

third translational degree of freedom

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was 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.

Patent literature cited

• DE 102013008597 A1 [0004]

Claims (13)

Weather protection system (100) with a support structure (1) for mounting the weather protection system (100) on at least two building parts (6, 7), the support structure (1) having at least two support elements (2, 3), characterized in that each support element ( 2, 3) at least one holder (10) is provided for attachment to the respective building part (6, 7) and the holder (10) has three translational degrees of freedom (T1, T2, T3) so that the support elements (2, 3) can be aligned independently of one another relative to the building parts (6, 7) in the three translational degrees of freedom (T1, T2, T3). Weather protection system (100) Claim 1 , characterized in that the respective bracket (10) is attached to a fastening point (16) on the respective support element (2, 3) and is provided for fastening to a fastening point (17) on the respective building part (6, 7) and the translational degrees of freedom (T1, T2, T3) are formed in the holder (10) in itself and / or at one or both of the fastening points (16, 17). Weather protection system (100) according to one of the preceding claims, characterized in that the respective support elements (2, 3) are arranged in one plane in an assembled state. Weather protection system (100) according to one of the preceding claims, characterized in that the supporting structure (2, 3) rests in an assembled position on the brackets (10) and can be aligned in one plane with respect to the building parts (6, 7), the brackets (10) are connected to the respective building part (6, 7). Weather protection system (100) according to one of the preceding claims, characterized in that the support elements (2, 3) are arranged on two opposite sides of the support structure (1) and that two brackets (10) are provided for each support element (2, 3). Weather protection system (100) according to one of the preceding claims, characterized in that the supporting structure (1) has at least one structural element (4, 5) in addition to the supporting elements (2, 3), the supporting elements (2, 3) and the structural element (4 , 5) form a frame of the supporting structure (1). Weather protection system (100) according to one of the preceding claims, characterized in that the holder (10) each has a compensating element (40) and a bracket (20), the bracket (20) for mounting on the respective building part (6, 7 ) and the compensating element (40) is designed to be received in the respective support element (2, 3). Weather protection system (100) Claim 7 , characterized in that the compensating element (40) enables a first translational degree of freedom (T1) and the bracket (20) enables two further translational degrees of freedom (T2, T3) of the supporting structure (1) with respect to the building parts (2, 3). Weather protection system (100) according to one of the Claims 7 until 8th , characterized in that the compensating element (40) is designed as a profile element which has at least one C-shaped guide rail (41). Weather protection system (100) according to one of the Claims 7 until 9 , characterized in that the console (20) is designed as an angle and has a first leg (21) which runs essentially parallel to the compensating element (30) and has a second leg (22) which is essentially parallel to the respective Building part (6, 7) and that the console has at least two parallel elongated holes (25) on the first leg (21). Weather protection system (100) Claim 10 , characterized in that the console (20) has a second leg (22) with at least two groups (24a, 24b) of mounting holes (27), the groups (24a, 24b) of mounting holes (27) in a first direction (R1) are spaced apart from one another parallel to the longitudinal direction of the compensating element (40). Weather protection system (100) according to one of the Claims 7 until 11 , characterized in that the console (20) is connected to the compensating element (40) via a connecting element (50) and the connecting element (50) engages behind an undercut of the compensating element (40), the connecting element (50) also having at least one elongated hole ( 25) of the first leg (21) protrudes through and engages behind it on the side facing away from the compensating element (40). Weather protection system (100) according to one of the Claims 7 until 12th , characterized in that the console (20) has a stiffening element (23) enclosed between the legs (21, 22).

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