DE19509396A1 - Fastener - Google Patents

Abstract

The proposal is for a connecting component for positively connecting bearing components of a supporting system in which there is a number of partial components (1) firmly secured together and arranged in three substantially vertical superimposed planes.

Description

The invention relates to a connecting element for non-positive connection of a support elements Structure according to the preamble of claim 1.

Fasteners of the type mentioned here are used in particular to create structural or lattice structures that consist of several supporting elements ten or strivings are formed the fasteners are attached. Between the struts can be wall or shelf elements ultimately, for example, one To realize a booth.

Fasteners of the type mentioned here are known. They are also called connection cubes or node. It turned out represents the load capacity of the fasteners often not sufficient for large structures.

It is therefore an object of the invention to provide a verb tion element of the type mentioned above  fen, which is characterized by a particularly high load capacity distinguished.

This task is ge with a connecting element according to the preamble of claim 1 using the in resolved this claim features. Thereby, that the connecting element from rigidly together connected sub-elements is composed, which in three mutually perpendicular levels are arranged, are in the connecting element initiated forces intercepted particularly well, so that there is a very high rigidity of the connection tion element and thus results in a high load capacity.

An embodiment of the Connecting element in which the cutting lines of two levels inside the connecting element lie, that is, inside the connection element enclosing enveloping arranged are. Such an arrangement leads to a particularly high stability of the connecting element.

In another preferred embodiment of the connecting element are on one level ordered sub-elements, preferably all parts elements trained equally. This leads to a be particularly inexpensive realization of the connection element.

Furthermore, an embodiment of the verbin preferred element in which the sub-elements essentially triangular and preferably sym  are metric, the cathets of the Partial elements in the imaginary outer surfaces of the verbin tion element. This creates a free one Interior of the connecting element, in the means suitable tools can be intervened, so that supporting elements of a structure at the Verbindungsele ment can be attached.

An embodiment of the Connecting element, in which the sub-elements over Composites are coupled together, which in are arranged on a level on which the levels stand vertically, in which on the composite piece brought sub-elements are arranged. There too this results in particularly high stability of the connecting element.

Further refinements of the connecting element he arise from the remaining subclaims.

The invention is based on a drawing tion explained in more detail. Show it:

Figure 1 is a plan view of four sub-elements of the connecting elements arranged in one plane.

Fig. 2 is a side view of the complete Ver binding element;

Figure 3 is a section through a first example of a Ausfüh approximately attachable to the connecting element fastener.

Fig. 4, the fastener of FIG. 3 in plan view and

Fig. 5 shows another embodiment of a fastener.

In Fig. 1, four preferably identically formed here triangular sub-elements 1 are Darge, which are arranged in a first plane E1 and are rigidly connected to each other via composite pieces 3 . The composite pieces 3 are, for their part, identical and formed as ring elements, the thickness of which is greater than that of the sub-elements. The composite pieces 3 are preferably twice as thick as the sub-elements 1 . The composite pieces 3 are hen on their peripheral surface with slots verses, in which the sub-elements 1 are inserted and fastened in a suitable manner. If the Teilele elements 1 and the composite pieces 3 made of metal Herge, a connection can be selected by brazing or welding. By the pieces in the composite 3 selected slots 5, a rigid connection between the Sonders be Teilelemen results th 1 and the composite pieces 3 and hence a high stability or carrying capacity.

While the inherently flat sub-elements 1 are all arranged in the plane E1, the composite pieces 3 are aligned perpendicular to the sub-elements; they are thus perpendicular to the image plane resulting in FIG. 1.

The sub-elements 1 are symmetrical, namely ausgebil det as isosceles right-angled triangles. Near the intersections 9 formed by the cathets 7 of the sub-elements 1 , projections 11 are provided which originate from the cathets 7 and which are just in the plane E1. The distance between the jumps 11 from the intersection points 9 corresponds approximately to the material thickness or thickness of the partial elements 1 . The projections 11 engage in the manufacture of a supporting structure in the supporting elements which are attached to the connecting element. In the arrangement of the projections 11 chosen here, the forces introduced into the projections are introduced into the composite pieces 3 , so that the above-mentioned high stability or load capacity results.

Openings 13 are provided near the vertices 9 , which serve to attach fastening elements for the production of a wind bandage.

The rigid shown in Fig. 1 together with affiliated sub-elements 1 form a first assembly B1 of the final connecting element.

In the visible in Fig. 1 slots 5 of the United bundles 3 are in turn perpendicular to the image plane of Fig. 1 sub-elements is inserted. Two opposite sub-elements then lie in a plane E2 or E3. The partial elements perpendicular to the image plane of FIG. 1 are in turn connected by a composite piece 3 , as can be seen from FIG. 2. This illustration shows the connecting element 10 in a side view, the four partial elements 1 shown in FIG. 1, which are in the plane E1, and the four perpendicular partial elements 1 , which are connected to one another via the connecting piece 3, can be seen.

The sub-elements shown in FIG. 1 thus form the first assembly B1, while the sub-elements arranged perpendicular to them result in an assembly B2 lying in the plane E2 and an assembly B3 in the plane E3, the assemblies B2 and B3 being perpendicular to one another stand and at the same time vertically on the assembly B1.

It can be seen that the imaginary intersection lines E1 and E2, E1 and E3 or E2 and E3 lie in the interior of the peripheral surface of the connecting element and preferably intersect at the imaginary center of the connecting element 10 . The forces taken by the assemblies B1, B2, B3 are optimally absorbed, so that they result in a high stability or load capacity. In addition, the connecting element 10 is characterized by a high torsional stiffness.

In Fig. 2 are 1 except the shown in Fig. 1 of four partial elements existing assembly B1, the two other modules B2 and B3, the right perpendicular to the image plane of FIG. 1 are provided, a drawn. The sub-elements 1 of the two assemblies B2 and B3 are rigidly and non-positively connected to one another in the manner described by a composite piece 3 , the sub-elements 1 engaging in the slots 5 which are introduced into the peripheral surface of the composite piece. In the Dar position shown in FIG. 2 it is clear that the Ver collar 3 are annular and have a central through hole 15 through which, for example, a fastening screw can be passed to attach a support element to the connecting element 10 Ver.

All assemblies B1 to B3 are quasi-identical, so that the manufacturing costs for the connecting element 10 are particularly low.

In the embodiment shown here, the partial elements 1 lie within an imaginary square. However, it is also possible to form the Teilele elements so that they are arranged within a ge rectangle. The sub-elements 1 are each aligned so that their cathets 7 are in the imaginary outer surface of the Verbindungsele element 10 and the corners formed by the cathets and Hy potenuse are attached to the composite pieces 3 .

The composite pieces 3 are in turn all identical and are preferably made of metal. It is also conceivable to use stamped parts here.

Fig. 2 shows that the composite piece 3 , which is shown in plan view, is arranged in a plane that is perpendicular to the levels E2 and E3 of the assemblies B2 and B3. The addressed composite piece is thus arranged parallel to the plane E1, in which the sub-elements 1 of the construction group B1 are arranged. Correspondingly, the other composite pieces are arranged parallel to the levels of the other assemblies.

It can be seen that four sub-elements 1 , which are arranged in a plane E1, E2 or E3, are all connected to one another in the same way, as can be seen from FIG. 1.

If we decompose the connecting element 10 is obtained for the view of the individual assemblies B1, B2 and B3, respectively, the arrangement shown in Fig. 1 of the sub-elements 1. The side view of the connec tion element 10 , which is shown in Fig. 2, results for all six sides of the substantially cube-shaped connecting element 10th

From Fig. 1 and 2 it is clear that the Hy potenusen 17 of the sub-elements 1 run substantially parallel to an imaginary diagonal that connects two opposite intersections 9 mitein other. This creates a free space in the interior of the rigidly interconnected sub-elements 1 , through which one can freely intervene in the interior of the connecting element 10 , for example screws which are guided through the through holes 15 of the connecting pieces 3 and engage in supporting elements of a supporting structure, to fix. Despite the large free space in the interior of the connecting element 10 , there is a very stable, rigid connection not only between the individual partial elements 1 but also between the connecting pieces 3 , so that the connecting element 10 has a very high stability or load capacity.

At the openings 13 in the sub-elements 1 fasteners can be attached, which serve to anchor a wind bandage on the connec tion element. Such fasteners are briefly explained with reference to FIGS. 3 to 5:

Fig. 3 shows a cross section through a first embodiment of a fastener 20 having an essentially circular base body 21 which is provided with a through hole 23 verses. The base body 21 has a projection 25 , into which a blind hole 27, which runs perpendicular to the through hole 23 and has an internal thread 29, is introduced. A screw can be passed through the through hole 23 and penetrates the opening 13 . In the internal thread 29 , a threaded rod can be screwed or any anchorage for the wind bandage.

In order to ensure a particularly uniform introduction of the forces into the connecting element 10 , two mutually opposite fastening elements 20 can also be provided, which are introduced on opposite sides of the partial element 1 .

The shape of the fastening element 20 according to FIG. 3 is particularly clear from the plan view in FIG. 4, from which the essentially circular base body 21 of the fastening element 20 and the projection 25 provided with the blind hole 27 shown in dashed lines can be seen. The through hole 23 is also clearly visible.

Fig. 5 shows a plan view of another example Ausfüh approximately a fastener 20 , the base body 21 is in turn provided with a through hole 23 . The base body 21 is again essentially circular, but here - in contrast to the embodiment shown in FIG. 4 - the through hole 23 is eccentric with respect to the imaginary center of the base body 21 angeord net. Perpendicular to the through hole 23 runs - as in the embodiment according to FIG. 4 - a blind hole 27 with an internal thread 29 , in which a threaded rod 31 engages here to produce a wind bandage.

The blind hole 27 is preferably made in the larger area of the base body 21 , which is released through the offset through hole 23 and thus has increased stability.

Also in the embodiment shown in Fig. 5 of the fastener 20 it can be assumed that at a symmetrical introduction of force into the connecting element 10 two fasteners arranged on opposite sides of a part elements 1 are easily seen by a screw through the through holes 23 and engages through the opening 13 , are anchored to the sub-element 1 .

Characterized in that the openings 13 are preferably arranged on the imaginary diagonal, the two mutually opposing intersections 9 connin det, the forces are introduced by the fasteners 20 in the sub-elements 1 that two adjacent composite pieces 3 are loaded practically evenly and the forces are introduced evenly into the connecting element 10 . This also results in a particularly high stability or load-bearing capacity of the connecting element 10 , because two Ver connection points between a partial element 1 and the adjacent connecting pieces 3 are evenly loaded with the forces generated by the wind bandage.

The fact that the projections 11 of the sub-elements 1 engage in the support elements or struts, which are fastened to the connecting element 10 , results in a safe, stable form circuit, which also ensures the absorption of high torsional forces. Due to the stable and rigid construction of the connecting element 10 , the torsional forces are safely absorbed.

The connecting element 10 as a whole is symmetrical in itself, so that all forces acting on the six sides of the connecting element 10 are absorbed and intercepted equally well.

Claims (24)

1. Connecting element for the non-positive connection of the supporting elements of a structure, characterized by a number of rigidly connected to one another, arranged in three mutually perpendicular planes (E1, E2, E3) arranged part elements ( 1 ). 2. Connecting element according to claim 1, characterized in that the intersection lines of two planes (E1, E2; E2, E3; E1, E3) lie in the interior of the connecting element ( 10 ). 3. Connecting element according to claim 1 or 2, characterized in that the intersecting lines of two planes intersect at the center of the connecting element ( 10 ). 4. Connecting element according to one of the preceding claims, characterized in that the Teilele elements ( 1 ) are flat. 5. Connecting element according to one of the preceding claims, characterized in that the Teilele elements ( 1 ) are all of the same design. 6. Connecting element according to one of the preceding Claims, characterized in that the parts elements are symmetrical in themselves. 7. Connecting element according to one of the preceding claims, characterized in that the Teilele elements ( 1 ) are substantially triangular. 8. Connecting element according to one of the preceding claims, characterized in that the Teilele elements ( 1 ) have the shape of an isosceles, right angled triangle. 9. Connecting element according to one of the preceding claims, characterized in that the Teilele elements ( 1 ) are stamped parts and preferably consist of Me tall. 10. Connecting element according to one of the preceding claims, characterized in that the Ka theten the sub-elements ( 1 ) in imaginary Außenflä Chen the connecting element. 11. Connecting element according to one of the preceding claims, characterized in that the partial elements ( 1 ) are arranged in the corners of an imaginary rectangle. 12. Connecting element according to one of claims 1 to 10, characterized in that the Teilele elements ( 1 ) are arranged in the corners of an imaginary square. 13. Connecting element according to claim 12, characterized in that the hypotenuses of the triangular partial elements ( 1 ) run parallel to the imaginary diagonal of the square. 14. Connecting element according to one of the preceding claims, characterized in that the sub-elements ( 1 ) near the intersection of the Kathe th at least one preferably per cathete each have a projection ( 11 ). 15. Connecting element according to one of the preceding claims, characterized in that the partial elements ( 1 ) of a level (E1) are connected to one another via composite pieces ( 3 ). 16. Connecting element according to claim 15, characterized in that the partial elements ( 1 ) are each connected to the composite pieces ( 3 ) by their corners formed by hypotenuse and cathete. 17. Connecting element according to one of the preceding claims, characterized in that the United collar pieces ( 3 ) are flat. 18. Connecting element according to one of the preceding claims, characterized in that the United collar pieces ( 3 ) are round. 19. Connect according to one of the preceding the claims, characterized in that the Ver binders are annular. 20. Connecting element according to one of the preceding claims, characterized in that the United collar pieces ( 3 ) consist of metal and are preferably stamped pieces. 21. Connecting element according to one of the preceding claims, characterized in that the United collar pieces ( 3 ) are provided with slots ( 5 ) into which the adjacent sub-elements ( 1 ) engage. 22. Connecting element according to one of the preceding claims, characterized in that the United bundles ( 3 ) of the partial elements ( 1 ) of a plane (E1) also serve to connect the partial elements ( 1 ) of a plane perpendicular thereto (E2; E3). 23. Connecting element according to one of the preceding claims, characterized in that the levels (E1, E2, E3) of the sub-elements ( 1 ), which are connected to one another by a connecting piece ( 3 ), run perpendicular to the plane in which the Ver bundstück ( 3 ) is arranged. 24. Connecting element according to one of the preceding claims, characterized in that the projections provided on the partial elements ( 1 ) are at a distance from the intersection ( 9 ) of the cathets ( 7 ) which is approximately as large as the thickness of the partial elements ( 1st ).