CH703431A2 - Construction element for system building, has two shaped profiles, where each profile has bar and profile flank that is arranged at bar - Google Patents

Abstract

The construction element (1) has two shaped profiles (2,2'), where each profile has a bar and a profile flank that is arranged at the bar. The profiles are connected with each other with bar surfaces (3,3') and flank surfaces (4,4') in a permanent manner. The bar surfaces are laid on each other. The bar surfaces or flank surfaces have multiple connecting points (5) along a longitudinal axis of the construction element. The connecting points are formed as pressure joint connection. An independent claim is also included for a method for manufacturing a construction element.

Description

The invention relates to a construction element for system structures, in particular for steel system lightweight structures, according to the preamble of independent claim 1 and a corresponding manufacturing method according to claim 9.

STATE OF THE ART

Various types of building structures are known from the prior art, such as for buildings or scaffolding, which are composed of metal components. In particular, components of steel are used for such constructions. From the elements, for example, exterior walls of buildings, roof structures, floor structures, floor slabs or steel skeletons can be created for interior work. Such constructions have a low weight and are generally not flammable.

As building elements usually elongated metal profiles of different shapes are used, such as profiles in U-shape, L-shape, C-shape, Z-shape or profiles with flanks at different angles. The profile shape is z. B. according to a load of the construction or according to additional functions, such as supplements for sound insulation, thermal insulation or electrical equipment selected. The individual building construction elements can already be constructed from several profiles or from a profile with additional metal elements which are connected to one another. In this case, the connection may be fixed or detachable. To connect the profiles usually screw, rivet, plug or welded joints are used.

From DE 19 728 582 is known e.g. a metal molding known that has been converted by parallel bending lines in a trough-like shape. The metal mold part has a plurality of thin stiffening plates, which are fitted vertically in the trough mold of the molded part and e.g. are attached by a clinch connection to the metal mold part. The stiffening plates allow a higher bending and torsional rigidity in the further processing of the metal moldings.

Further, building construction elements are e.g. known from DE 3 327 845, according to which the elements are screwed together to form a structure. In DE 4 331 680 a wide-span beam is described with a double-T-section, which consists of two in cross-section U-shaped profile carriers. The surfaces of the carriers are beaded for improved dimensional stability. The surface of a carrier has hooks which can be hooked into openings in the surface of the parallel-lying carrier, so that the profile carrier are connected to each other and together form the long-span carrier. In such a connection, it may, for. B. when moving the carrier against each other for insertion of the hooks in the openings come to tilting, which affect the exact shape of the wide-span carrier.

When screw or rivet connections additional connection components, d. H. Screws or rivets necessary, which must be introduced into the surfaces of the construction elements. This also leads to waste products, such as Schraubspähne or Nietreste.

OBJECT OF THE INVENTION

It is an object of the present invention to provide a multi-profiled construction element in which the profiles are connected in a simple and secure manner with each other, the connected profiles are positioned exactly to each other and no additional connection components are necessary and no waste products attack.

Furthermore, it is an object of the invention to provide a method for producing such a building construction element.

PRESENTATION OF THE INVENTION

This object is solved by the invention by a building construction element according to claim 1 and a manufacturing method for building construction elements according to claim 9. Advantageous embodiments and further embodiments are described in the dependent claims.

A construction element for system structures, in particular for steel system lightweight structures, according to the present invention is formed of at least two shaped profiles. The profiles each have a web and at least one profile flank arranged at an angle on the web and are permanently connected to one another with web surfaces and / or flank surfaces resting on one another. According to the invention, the profiled surfaces lying on one another, ie. H. the stacked land surfaces and / or flank surfaces, a plurality of connection points along a longitudinal axis of the building structure element, wherein the connection points are formed as Druckfügeverbindung.

Thus, e.g. two web surfaces, two flank surfaces or a web surface and a flank surface are positioned in their mutually provided end position to each other and are permanently connected to each other by means of the production of Druckfügeverbindung along the longitudinal axis of the building structure element. The interconnected profile surfaces thus form a common profile with increased thickness of both profiles.

The superimposed profiles need not be moved relative to each other for the preparation of the compound. Further, the use of pressure joint connections eliminates waste products and it is not necessary to prepare the material or the surface of the profiles for the preparation of the compound in a special way, such as the attachment of hooks, depressions and holes. As a result, the connection points between two profiles can be placed individually and attached at any point without preparatory measures. Thus, the number of connection points can also be varied according to the requirements of the building construction element. Furthermore, only a few steps for the preparation of the connection points are necessary.

In one embodiment of the invention is a connection point by an at least approximately cylindrical recess in a first profile surface which engages positively and non-positively in an at least approximately cylindrical second recess in a second profile surface given. In this case, preferably an axis of the cylindrical recesses runs parallel to the plane of a flank surface of one of the profiles. For example, the web surfaces of two profiles are on each other, while projecting flanks on both longitudinal edges of the webs at an angle to the webs. In this case, the cylindrical recesses are arranged at the same angle to the webs. In the case of a U-shaped profile, the angle of the flanks to the web is e.g. 90 °, whereby the wells protrude 90 ° from the webs. The depth of the recesses is greater than the thickness of a profile in which the connection point is provided. On the underside of the connected profile surfaces, the depressions protrude slightly as a projection, which is likewise cylindrical and has a flat end surface. The projection thus has no sharp edges or burrs, which could pose a risk of injury when creating a building structure.

Such Druckfügeverbindungen can be advantageously prepared by means of a punch, which sinks the wells from one side of the superimposed profile surfaces. The two recesses of the superimposed profile surfaces engage positively and non-positively in each other. There are no other fasteners attached. The punch acts against a die, which is provided on the other side of the superposed profile surfaces of the stamp lying opposite. Preferably, the pressure joint connections are made with a pressure joint connection device which is movable relative to the profiles and which has a slide which, when the device is displaced relative to the construction element, slides along and is guided along at least one profile flank or along a web. With the carriage of the punch of Druckfügeverbindungseinrichtung can be accurately positioned relative to the superimposed profile surfaces to be joined together. In this case, the punch for producing the recesses for the Druckfügeverbindungen is moved parallel to the plane of a flank surface or a web surface along the connecting surface. Alternatively, it is possible to feed the superimposed profiles on a stationary punch, or slide over. In this case, the pressure joining device is stationary and the profiles are guided along the carriage. The carriage can also serve as a holder for the pressure joining connection device on the building construction element.

In a preferred embodiment of a building construction element along the longitudinal axis of the element at least one row of connection points along the profile surfaces is provided, wherein the connection points at a distance from each other of at most 500 mm and at a distance between 10 mm and 60 mm to the nearest angled profile surface, such as the flank or the web, are provided. To adjust the distance of the connection points of a nearest, angled edge of the stamp can be arranged to be movable relative to the carriage. This in turn allows individual positioning of the connection points on the construction element.

Preferably, the construction element is designed as a T-element or double-T element of two profiles, each having at least one edge on a longitudinal side of a web which protrudes at 90 ° from the web. The two profiles can e.g. have an L, C or U-shaped cross-section. The web surfaces of the two profiles are connected to one another by connection points so that at least two flanks of two profiles complement one another to form a planar overall surface. The flat overall surface, formed by two adjoining flanks running in the same plane, forms the T-bar of the T element or of the double T element. The depressions of a connection point preferably run parallel to the overall planar surface.

The inventive design of the connection points as Druckfügeverbindung ensures that the mutually positioned to a T-element individual profiles when connecting the profiles are not moved or rotated. When making the Druckfügeverbindung no force is exerted on one of the profiles, which causes a relative movement of the profile relative to the adjacent second profile. The pressure of the punch can also be absorbed by the die on the other side of the profile surfaces.

In a further preferred embodiment, a further profile is provided at least at one end of two interconnected profiles, on the web of which the end of the two profiles rests and abut the flanks of the two profiles on its flanks. The flanks of the two profiles and the flanks of the other profile are permanently connected to connection points. Preferably, the two interconnected profiles are arranged at right angles to the further profile. The mutually superimposed flanks are preferably permanently connected by means of four connecting points arranged in a quadrilateral on both sides. Such a construction element forms z. B. a corner construction element or a T-construction element. In principle, other profiles can be connected to the existing profiles of the construction element in this way.

The profiles of the inventive construction element are preferably made of steel grade S320 and have a surface thickness of about 0.5 mm to 5.0 mm, more preferably from 1.5 mm to 2.0 mm. The surfaces of the superimposed profiles may have a different thickness. The profiles can be provided as cold profiles. Particularly suitable is e.g. Corrosion-resistant steel S320GD + Z according to EN 10346 or DX51D + Z275 MAC according to EN 10327 with the following material characteristics: Yield strength fy = 320 N / mm <2>; Tensile strength Rm = 390 N / mm <2>; Elongation at break = A80 = 17%; Young's modulus E = 210 000 N / mm 2. Of course, slight deviations from these values are also suitable.

It is not yet known to be able to connect such steel profiles by means of pressure joints such that sufficient permanent strength is created, which is suitable for use of the components as structural elements. Heretofore known clinch compounds have been used exclusively on thinner and softer materials. However, detailed tests by the applicant show, surprisingly, that the connections satisfy the requirements for building structures and thus enable a safe and at the same time simple design. The pressure-joining connections are preferably in the form of a round point with a diameter of between 7.0 mm and 12.0 mm, particularly preferably between 8.0 mm and 10.0 mm, the diameter values being taken off on the die side. The depth of the recesses of the Druckfügeverbindungen in the profile surfaces is about 1.0 mm to 2.0 mm, preferably about 1.2 mm to 1.5 mm.

The assembled according to the invention steel lightweight profiles are z. B. used for the creation of structural or non-structural building construction elements. Load-bearing elements are suitable for example in the form of a double-T for floor slabs, roof structures, walls, columns, facades, parapets, etc. Non-bearing elements are e.g. used in drywall for wide span beams in double T-shape for suspended ceilings and the like.

BRIEF DESCRIPTION OF THE DRAWINGS

Preferred embodiments of the invention are illustrated below with reference to the drawings, which are merely illustrative and not restrictive interpreted. Features of the invention which will become apparent from the drawings are to be considered individually and in any combination as belonging to the disclosure of the invention. In the drawings show: <Tb> FIG. 1: <sep> is a cross section through a building construction element according to the present invention, <Tb> FIG. 2: <sep> is a three-dimensional view of a building construction element according to FIG. 1, <Tb> FIG. 3: <sep> is a three-dimensional view of a second building construction element according to the present invention and <Tb> FIG. 4 is a schematic view of a pressure joining device in the manufacture of a building construction element according to the present invention.

In Fig. 1, a construction element 1 with a first molded profile 2 and a second molded profile 2 is shown. The profiles 2 and 2 each have a web with a web surface 3 and 3 and two flanks with flank surfaces 4 and 4, which are arranged on the longitudinal edges of the webs and project at right angles from these. The web surfaces 3 and 3 are arranged lying on each other parallel to each other. In this case, the flank surfaces 4 and 4 are aligned with each other so that the flank surface 4 of the profile 2 comes to rest in a plane with the flank surface 4 of the profile 2. The flank surfaces 4 and 4 thus form a flat overall surface. The building construction element 1 thus has a double T-shape, in which the flat overall surfaces formed by the flank surfaces 4 and 4 form the T-beams on both longitudinal edges of the webs.

In the sectional plane of Fig. 1, two connection points 5 are shown, which are formed as Druckfügeverbindung according to the present invention and permanently connect the two profiles 2 and 2 in the defined double T-shape.

Fig. 2 shows a three-dimensional view of the building construction element of Fig. 2, e.g. can be used as an elongated span carrier. Along the web surfaces 3 and 3 are each shown a row of connection points 5 in the longitudinal direction near the longitudinal edges web surfaces 3 and 3. The connection points 5 are provided near the flank surfaces 4 and 4. In the middle of the web surfaces 3 and 3 there are provided a series of openings 6, e.g. can serve the implementation or installation of other construction facilities.

In Fig. 3, another embodiment of a building construction element according to the present invention is shown. In this construction element, another profile 8 is attached to one end 7 of the profiles 2 and 2. The profile 8 has a web surface 9 and two flank surfaces 10. The end 7 of the profiles 2 and 2 abuts against the web surface 9, wherein the flank surfaces 4 and 4 come to lie on the inside of the flank surface 10 of the profile 8. The abutting flank surfaces 4, 4 and 10 are fastened to each other by connecting points 11 in the form of pressure joints.

4, the method for producing a construction element according to the invention 1 with reference to a schematic representation of a Druckfügeverbindungseinrichtung 12 is shown on a building construction element 1. The pressure joining connection device 12 comprises u. a. a punch 13 and a die 14. To mold the Druckfügeverbindungen the punch 13 presses the web surface 3 in the direction of the web surface 3 in the die 14 to a positive and non-positive connection between the web surfaces 3 and 3 has formed. Further, the Druckfügeverbindungseinrichtung 12 includes a carriage 15 which is movably mounted on the flank surfaces 4 and 4, and on the flat overall surface. With the aid of the carriage 15 which can be moved on the flank surfaces 4 and 4, the punch 13 and the die 14 can be moved along the longitudinal direction of the web surfaces 3 and 3 and positioned over an intended connection point. The flank surfaces 4 and 4 provide a reference system for exact positioning, so that the connection points along the web surfaces 3 and 3 can be individually but precisely aligned.

LIST OF REFERENCE NUMBERS

[0028] <Tb> 1 <sep> Construction element <tb> 2, 2 <sep> profile <tb> 3, 3 <sep> bridge area <tb> 4, 4 <sep> flank surface <Tb> 5 <sep> junction <Tb> 6 <sep> Opening <Tb> 7 <sep> End <Tb> 8 <sep> Profile <Tb> 9 <sep> web surface <Tb> 10 <sep> flank surface <Tb> 11 <sep> junction <Tb> 12 <sep> Pressure joining connector <Tb> 13 <sep> stamp <Tb> 14 <sep> die <Tb> 15 <sep> sled

Claims (14)

1. building construction element for system structures, which is formed from at least two shaped profiles (2, 2), each having a web and at least one angled arranged on the web profile edge, and with superimposed web surfaces (3, 3) and / or Flank surfaces (4, 4) are permanently connected to each other, characterized in that stacked web surfaces (3, 3) and / or flank surfaces (4, 4) a plurality of connection points (5) along a longitudinal axis of the building structure element (1) have, which are formed as Druckfügeverbindung. 2. Building construction element according to claim 1, characterized in that a connection point (5) by an at least approximately cylindrical recess in a first surface (3, 3, 4, 4), the positive and non-positive in an at least approximately cylindrical second recess in a second surface (3, 3, 4, 4) engages, is given and an axis of the cylindrical recesses parallel to the plane of a flank surface (3, 3). 3. Construction element according to claim 1 or 2, characterized in that it is designed as a T-element or double-T element of two profiles (2, 2), which consists of an L, C or U-shaped cross-section a web and at least one flank on a longitudinal side of the web, wherein the web surfaces (3, 3) of the two profiles (2, 2) by connecting points (5) are connected to each other so that at least two flanks of two profiles (2, 2) to complete a planned total area. 4. Building construction element according to claim 3, characterized in that the depressions of a connection point (5) extend parallel to the plane overall surface. 5. Building construction element according to one of the preceding claims, characterized in that along the longitudinal axis of the construction element (1) at least one row of connection points (5) on the web surfaces (3, 3) is provided, wherein the connection points (5) in one Distance from each other of at most 500 mm and at a distance to the nearest flank between 10 mm and 60 mm are provided. 6. Construction element according to one of the preceding claims, characterized in that at least one end (7) of two interconnected profiles (2, 2), a further profile (8) is provided on the web, the end of the two profiles (2 , 2) and on the flanks of which the flanks of the two profiles rest, the flank surfaces (4, 4) of the two profiles and flank surfaces (10) of the further profile (8) being permanently connected to connection points (11). 7. Construction element according to one of the preceding claims, characterized in that a profile (2, 2, 8) made of steel of the grade S320 or DX51. 8. A building construction element according to one of the preceding claims, characterized in that the surfaces (3, 3, 4, 4) of the superimposed profiles have a different thickness. 9. A method for the production of structural elements for system structures in which two shaped profiles (2, 2), each having a web and at least one angled arranged on the web profile edge, with their web surfaces (3, 3) and / or flank surfaces (4 , 4) are positioned one above the other and are connected to one another along the surfaces (3, 3, 4, 4) lying on one another, characterized in that the surfaces (3, 3, 4, 4) resting on one another are connected to several Connecting points (5) along the longitudinal axis of the building structure element (1) by the production of Druckfügeverbindungen permanently connected. 10. The method according to claim 9, characterized in that the Druckfügeverbindungen at any point of the superposed surfaces (3, 3, 4, 4) without preparatory measures on the surfaces (3, 3, 4, 4) are produced , 11. The method according to claim 9 or 10, characterized in that the Druckfügeverbindungen by an at least approximately cylindrical recess in a first surface (3; 4) and an at least approximately cylindrical recess in a second surface (3, 4) by means of a punch (13) are made such that the recesses positively and non-positively engage in each other and no further connecting elements are attached. 12. The method according to any one of claims 9 to 11, characterized in that the connection points (5) in a row to each other at most 500 mm are arranged spaced. 13. The method according to any one of claims 9 to 12, characterized in that the Druckfügeverbindungen with a relative to the profiles (2, 2, 8) movable Druckfügeverbindungseinrichtung (12) are produced, comprising a carriage (15) along at least a profile edge (4, 4) or a web (9) slides and is guided by this, or this, wherein either the carriage is moved along the profiles or the profiles are evaluated along the carriage. 14. The method according to any one of claims 9 to 13, characterized in that the Druckfügeverbindungseinrichtung (12) has a punch (13) for forming the profile surfaces (3, 3, 4, 4), for producing the recesses for the Druckfügeverbindungen is moved parallel to the plane of a flank surface (4, 4).