CZ34068U1 - Arrangement for the angular connection of two building components and dry or metal lightweight building construction - Google Patents

Description

Arrangement for angular connection of two building components and dry or metal lightweight building construction

Field of technology

The technical solution relates to an arrangement for angular connection of two components together, in which two profile elements arranged at right angles to each other are joined together, this arrangement comprising an angle piece having an angle ridge and one or two angle feet oriented towards it. , which can in each case be arranged on one of the components to be joined together, as well as two sides of the angle delimiting the side of the angle piece. The technical solution also relates to dry or metal lightweight construction.

Prior art

One arrangement of the above type is known in principle from US 7299593 B1. There is disclosed an angle piece which consists of a U-profile, in which the profile web is bent substantially at the end section into an angularly deflected angle foot, after which the respective arms of the U-profile are riveted to each other in their overlapping areas. The mutually riveted profile arms could be viewed together and also referred to as the sides of the angle.

In another exemplary embodiment in the prior art, a piece of block is placed on only a flat angular foot for reinforcement and consolidated with it.

U.S. Pat. No. 7,299,593 B1 addresses the problem that, in particular in the case of so-called half-walls, such as balustrades, window sills, railings or the like, the upper edge is free and not anchored, so that their construction can be slightly unstable.

Also, the present technical solution would like to show a type-appropriate arrangement in the sense of this problem, which strengthens and stabilizes the angular connection of two building components in order to prevent instability, in particular to prevent torsion, breakage or deformation of the involved building elements.

The essence of the technical solution

This object is solved according to this technical solution by an arrangement for angular connection of two components together, in which two profile elements arranged at right angles to each other are joined together, this arrangement comprising an angle piece having an angle ridge and one or two at an angle to angled feet oriented thereto, which are adapted to be arranged on one of the components to be joined together, as well as two angled sidewalls delimiting the side of the angular piece, characterized in that two triangular angled sides and at least one the angle foot is connected to the sides of the angle in that the angle foot is bent in one piece from at least one of the two sides of the angle.

Surprisingly, this measure according to the technical solution already ensures that the angle piece and the components connected by this angle piece and the jointly achieved structure can better and more safely absorb transverse forces and, for example, dissipate them to the foundation, i.e. especially forces which have a component points through a surface clamped by interconnected building components, resp. in the direction of the normal of their surfaces.

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An advantageous embodiment of the technical solution assumes that one section of the angle foot is bent away from each of the sides of the angle so that the sections of the angle feet protrude against each other. Thus, an abutment and fastening surface of the angle foot is preferably formed from the two sections of the angled feet, which is firmly connected to the sides of the angle in both directions transverse to the surface of the clamped components. Also, the sides of the angle can advantageously be first bent away from the ridge of the angle, so that a particularly stable angle piece is formed, which can withstand various forces and forces as one part. Additionally or alternatively, welds or the like could be designed. However, it has been found that the solution according to this technical solution mostly or essentially makes it unnecessary.

The sides of the triangle could advantageously be formed substantially in the form of a triangle, in particular so that one apex of the triangle points in the direction of the free end of the ridge of the angle and the arm of the triangle lying against this apex of the triangle forms

Furthermore, the above-mentioned task according to this technical solution is solved by an arrangement for angular connection of two components together, in which two profile elements arranged at right angles to each other are joined together, this arrangement comprising an angle piece having an angle ridge and one or two an angle foot oriented towards it, which are adapted to be arranged on one of the components to be joined together, as well as the side of the angle delimiting the side of the angle piece. The arrangement in this case is characterized in that it comprises an angular reinforcing element which can be inserted into the angular piece so as to extend on at least one angular foot transversely to the ridge of the angle from one side of the angle to the other side of the angle.

As such, the insert between the sides of the angle bracket can, according to the technical solution, advantageously and well support the desired absorption of forces from the transverse force components according to the technical solution. In principle, in order to insert an angular reinforcement element between the sides of the angle, its length should be dimensioned so as to give a certain clearance to the sides of the angle, but in principle the angle reinforcement element should extend as close to the sides of the angle as possible. timely offered a pad and support for the sides of the angle.

To this end, the angle reinforcing element can advantageously abut the ridge of the angle in order to support the latter. Also, taking into account the levers occurring due to the connected components, forces from almost all directions can be absorbed in this construction and, in particular, deformations or twists can be prevented.

In general, the arrangement according to this technical solution advantageously allows a high degree of clamping, in particular cold-formed, thin-walled profiles, in particular in solid, load-bearing building components, such as reinforced concrete ceilings. The achieved clamping increases the load-bearing capacity of the whole structure and leads to a solution for stresses from uniform loads and / or impact loads, especially also on unilaterally anchored, protruding structures such as balustrades or railings, also with regard to relevant standards or other requirements, especially to protect persons against injury. In this case, it is also possible to keep in mind wall brackets, ceiling partitions or the like, which have some free edges or one-sided indentations, no matter in which orientation.

The following further development of the technical solution assumes that the angular reinforcing element is essentially formed as a profile element, in particular a U-profile element.

Another preferred embodiment consists in that the angular reinforcement element has a U-profile web adapted to be placed on at least one angle foot and the U-profile arms extend from one side of the angle to the other side of the angle, preferably one of the U-profile arms adjoining the ridge. angle.

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Another further development of this technical solution assumes that the ridge of the angle and the at least one angle foot have at least one fastening hole for the insertion of one fastening element, preferably a threaded bolt or a door screw.

Another advantageous embodiment of the technical solution consists in that the angular reinforcing element has at least one fastening hole for inserting a fastening element, preferably a threaded bolt.

Another advantageous embodiment of the technical solution consists in that the at least one fastening hole of the inserted angular reinforcing element corresponds to the at least one fastening hole of the at least one angular foot.

Another advantageous embodiment of the technical solution consists in that the at least one fastening hole is preferably formed as an elongate hole.

Preferably, the angle piece and also the angle reinforcement element are made of metal, in particular sheet metal. In this case, the angular piece, as well as the interconnected components, can be made relatively thin-walled, while the angular reinforcing element can advantageously be made relatively thick-walled.

The angle piece can be provided with mounting holes in the workshop, and later each of these mounting holes does not necessarily have to be used. A selection of mounting holes can also be prepared, which can be used according to the situation, for example the space available, the required stability, the accessibility of the tool, the concept of the corresponding mounting holes, a suitable substrate or background and so on.

Thus, for example, four elongated holes could be designed in the ridge ridge for fastening the connecting parts with door screws and five further circular holes for use with studs. For example, the at least one angle foot could have one elongated hole and one circular hole. Also the sides of the angle can be connected, for example, to the arms of the U-profile of the connected components, for example by studs.

Corresponding holes, for example of the at least one angle foot and the angle reinforcement element, could automatically lie on top of one another with the angle reinforcement element correctly inserted.

The angle piece could first be aligned and point through the holes to a supporting building part, for example a base rail, a beam, a ceiling or the like. Holes could then be drilled at the indicated points and then, by means of suitable anchoring means, the angle piece according to the technical solution could be tightened and pressed against the substrate using any suitable fastening holes and using the angular reinforcing element according to the technical solution. A built-in component could then be attached to the protruding ridge of the angle.

Naturally, other fastening sequences are conceivable with the angle piece according to the technical solution, and in particular the angle piece can also be used in other angles and orientations, not only at the base of a vertical column to the substrate, but also in higher cassette fields of the overall structure or horizontally, for example in an inlaid wall bracket.

As already mentioned above, the arrangement according to the technical solution can be designed in particular for the assembly and reinforcement of balustrades, railings or similar structures with at least one free edge by a loadable force.

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The arrangement according to the technical solution can also be particularly advantageously assembled and designed as a marketable fastening set, in particular also with a range of suitable fastening means.

The task of the technical solution is further solved by a dry or metal light building structure, in which two profile elements arranged at right angles to each other can be connected to form balustrades or railings with one free edge loadable force, which is characterized by being at least one by said arrangement.

Another advantageous embodiment of such a dry or metal lightweight construction structure consists in that the two interconnected profile elements are U-shaped profile elements into which an angle piece can be inserted for angular connection so that its angle sides extend plane-parallel to the U-profile arms. the two U-shaped profile elements preferably come into abutment with at least one or two of them.

Explanation of drawings

Exemplary embodiments, from which other features of the technical solution may result, which in principle are to be regarded as exemplary only and which are not intended to limit the subject matter of the technical solution or its scope of protection, are shown in the drawings. On these he shows:

Fig. 1 is a perspective view of individual parts, resp. an exploded view of the arrangement according to the technical solution, FIG. 2 is a perspective view of the arrangement according to FIG. 1 in operation and mounted, and FIG. 3 shows the arrangement according to FIG. 1 in an altered orientation.

Examples of technical solution

Giant. 1 shows a view of the individual parts and an exploded view, respectively, of an arrangement according to this technical solution.

The arrangement according to this technical solution comprises an angle piece 1 and an angle reinforcing element 2. The angle piece 1 has an angle ridge 3 from which the sides 4 of the angle bent on both sides are substantially triangular in shape. From these sides 4 of the angle, the sections of the angle foot 5 are always bent away again. Thus, a certain type of shoe shape is created for the angle piece 1. The sections of the angle feet 5 face each other and together form a flange of the angle feet 5. Both this flange of the angle feet 5 and the ridge 3 of the angle can always be fastened to a component 11, 12 to connect in this way at an angle to each other. angularly abutting components 11, 12. For this purpose, the ridge ridge 3 and the sections of the angle feet 5 each have fastening holes 6, 1, which are formed as elongate fastening holes 6 and as circular fastening holes 7. In addition, the gap between sections of the angled feet 5, for example closed by a weld seam, which, however, according to this technical solution does not appear to be generally or quite necessary.

The arrangement according to this technical solution also comprises an angular reinforcing element 2, which in this embodiment shown is formed as a U-profile element and has a profile web 8.

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U and the arms 9 of the U-profile. The web 8 of the U-profile has mounting holes 10 formed as elongate mounting holes 10.

The angle reinforcing element 2 can be inserted into the angle piece 1 on the sections of the angle feet 5 until one of the arms 9 of the U-profile comes into abutment against the ridge 3 of the angle. Then the angle reinforcing element 2 extends from the side 4 of the angle to the side 4 of the angle and offers them a seat and a force support.

Giant. 2 shows the arrangement according to FIG. 1 assembled together and its functional assembly, in which two components 11, 12 are angularly connected to one another. The same structural elements are designated by the same reference numerals as in FIG. 1.

As can be seen from FIG. 2, only some of the fastening holes 18 are used to fasten the angle piece 1 and the angle reinforcement element 2 to the components 11, 12, so that in the exemplary embodiment shown here, door screws 13 are inserted.

The components 11, 12 shown are always formed as U-profile elements with U-shaped webs 14, 15 and U-shaped arms 16, 17. In this angular recess formed by these mutually U-shaped U-shaped elements, the angular piece 1 adjusts with its shoe shape so that that the ridge 3 of the angle rests on the profile web 14, the sections of the angle foot 5 to the profile web and the sidewall 4 of the angle at least to the arms 16 of the profile U of the building component 11, which is inserted into the building component 12. the side walls 4 of the angle connected to the arms 16 of the U-profile and generally also to the arms 17 of the U-profile, for example by studs, both of which are not absolutely necessary.

On the whole, it can also be seen very nicely in FIG. 2 that the entire arrangement according to the technical solution with the angular piece 1 and the angular reinforcing element 2 is located substantially invisibly and "lost" in the connected profiles of the components 11, 12 from the outside. This can also be one relevant advantage of the arrangement according to this technical solution.

The component 12 has no fastening holes in the embodiment shown (in contrast to the fastening holes 18 in the component 11 usable for the angle piece 1). This may or may not mean the case that the building component 12 is the main foundation beam of a wall structure on the floor or ceiling of the building, to which and with which the angle piece 1 and the angle reinforcement element 2 are anchored on this foundation. . The arrangement according to this technical solution can be more or less used in another place and in a different orientation and in some other installation situation.

Giant. 3 shows the arrangement according to FIG. 1 in a different orientation. The same components are again denoted by the same reference numerals as in the previous figures.

In particular, in comparison with FIG. 1, it can be seen in comparison with FIG. 1 that only one of the sections of the angle feet 5 has an elongate mounting hole 6, while the other has a circular mounting hole 7.

Claims (11)

CLAIMS FOR PROTECTION An arrangement for angular connection of two components (11, 12) together, in which two profile elements arranged at right angles to each other are joined together, this arrangement comprising an angle piece (1) having an angle ridge (3) and one or two angled angle feet (5) facing it, which are adapted to be arranged on one of the components (11, 12) connected together, as well as two angle sides (4) delimiting the side of the angle piece (1), characterized by by being from both sides of the angle (3) of the angle -5 CZ 34068 UI bent two triangular sides (4) of the angle and at least one angle foot (5) are connected to the sides (4) of the angle by the fact that the angle foot (5) is bent in one piece from at least one of the two sides (4) ) of the angle. Arrangement according to claim 1, characterized in that one section of the angle foot (5) is bent away from each of the sides (4) of the angle so that the sections of the angle feet (5) face each other. An arrangement for angular connection of two components (11, 12) together, in which two profile elements arranged at right angles to each other are joined together, this arrangement comprising an angle piece (1) having an angle ridge (3) and one or two angled angle feet (5) facing it, which are adapted to be arranged on one of the components (11, 12) connected together, as well as the sides (4) of the angle delimiting the side of the angle piece (1), in particular according to one according to the preceding claims, characterized in that it comprises an angular reinforcing element (2) which can be inserted into the angular piece (1) so as to extend on at least one angular foot (5) transversely to the ridge (3) of the angle from one sidewall ( 4) an angle to the second side (4) of the angle. Arrangement according to Claim 3, characterized in that the angular reinforcing element (2) is designed as a profile element, preferably a U-profile element. Arrangement according to claim 4, characterized in that the angular reinforcement element (2) has a U-shaped web (8) adapted to be placed on at least one angular foot (5) and the U-shaped arms (9) extend from one side (4) ) of the angle to the second side (4) of the angle. Arrangement according to one or more of the preceding claims 1 to 5, characterized in that the angle ridge (3) and the at least one angle foot (5) have at least one fastening hole (6, 7) each for a fastening element to be inserted through, preferably a threaded bolt. Arrangement according to Claim 6, characterized in that the angular reinforcing element (2) has at least one fastening hole (10) for the insertion of a fastening element, preferably a threaded bolt. Arrangement according to Claim 7, characterized in that the at least one fastening hole (10) of the inserted angle reinforcing element (2) corresponds to the at least one fastening hole (6, 7) of the at least one angle foot (5). Arrangement according to one of Claims 6 to 8, characterized in that the at least one fastening hole (6, 7) is designed as an elongate hole. 10. A dry or metallic lightweight building structure in which two profile elements arranged at right angles to each other are connectable to form balustrades or railings with one free edge by a loadable force, characterized in that it is formed by at least one arrangement according to one or more of of the preceding claims 1 to 9. Dry or metal lightweight building structure according to claim 10, characterized in that the two interconnected profile elements are U-shaped profile elements into which an angle piece (1) can be inserted for angular connection so that its side wall (4) ) of the angle extend parallel to the arms (16, 17) of the U-profile of the two U-shaped profile elements, they preferably come into abutment with at least one or two of them.