DE3344300A1 - Construction set for forming grid structures - Google Patents

Abstract

In the case of known construction sets for forming grid structures, the problem exists that, as a result of external forces which act on the grid supports, relatively high bending stresses occur in the bolt sections which are held by the clamping elements, because of the lack of suitable support, which bending stresses can lead to bending or breaking of the bolts. The invention therefore proposes a construction set in order to form grid structures (1) in which each clamping part (10, 11) has a centrally arranged depression (16) with a wall (17) in the form of a spherical section, in such a manner that a cavity (24), the majority of which is spherical, is formed when the two clamping parts (10, 11) are in the screwed-together state, the bolts (5, 5') resting with a spherical section (8) of identical curvature in a flat manner on the walls (17). This results in the bolts (5, 5') being drawn to the clamping parts (9, 10) when the clamping parts (10, 11) are screwed together, and resting firmly with their collar (6) on surfaces (23) of the clamping parts (9, 10), and being supported there. <IMAGE>

Description

The invention relates to a kit for the formation of grid structures

doors, consisting of at least one lattice girder and at least a clamping element provided for releasably connecting adjacent lattice girders, which consists of two clamping parts that can be screwed together and have grooves, in which equipped with undercuts, at the end of the lattice girders located bolts are guided.

With kits of the type mentioned above, fair or exhibition stands or also delimitations and the like. The lattice girders formed for this purpose are either flat or three-dimensional with a triangular cross-section. To the To be able to connect lattice girders with each other, clamping elements are common, in which the ends of the lattice girders are inserted and clamped.

By the French patent specification 78 20171 is a system for education such lattice structures are known. In this system, the lattice girders are at the end equipped with bolts that have a frustoconical head to which a cylindrical and then a likewise frustoconical shaft section connect. The associated Klemmelemeiite consist of two clamping parts, the can be centrally screwed to one another and in which they are arranged at an angle to one another, Grooves with a semicircular cross-section are provided in which the bolts can be inserted with a form fit with their front area. After screwing of the two clamping parts are the bolts and thus the adjoining lattice girders in your Fixed position.

A disadvantage of this system is that when it occurs of forces that are directed transversely to the longitudinal extension of the lattice girders on the cylindrical Shank section of the bolt, especially at the point where the frustoconical Head ends, very high bending stresses can become effective, which, since the cylindrical Shank portion has a relatively small diameter, cause the Bend or break off bolts. If they bend, the lattice girders are aligned no longer. Even if the bolts with their circular surface, which is on the Transition from cylindrical to frustoconical head is formed, on which support opposite surface of the grooves, remain in the cross-section of the cylindrical Shank portion of the bolt occurring bending stresses received anyway, because due to the arrangement of the frustoconical head on the bolts and in the grooves, when the clamping shells are screwed together a force is created that tries to to push the bolts and thus the lattice girders away from the clamping elements. That's why this system does not have a sufficient straightening and supporting function of clamping elements and bolts to each other.

The object of the invention is therefore in a kit of the type mentioned to make the clamping elements and the bolts so that on the shaft cross-sections of the bolts located within the clamping elements Bending stresses act and that the bolts are supported on the clamping elements in such a way that that an alignment of several lattice girders braced in a longitudinal direction is guaranteed is.

The object is achieved according to the invention in that each clamping part has a centrally arranged recess with a wall shaped like a segment of a sphere in such a way that that when two clamping parts are screwed together a largely spherical one Cavity is formed, the bolt having a spherical section same Curvature lie flat on the walls.

Furthermore, the fact that Klemr share on their circumference arranged at right angles to the groove axes flat surfaces have, on which the bolts lie with a collar.

The particular advantage of the invention is that the longitudinal axes the grooves, as well as the center of the spherical depressions of each clamping part arranged slightly above each of the mutual contact surfaces of the clamping parts are. This achieves a clamping effect when the clamping parts are screwed together on the cylindrical shaft part of the bolt located inside the clamping parts is exercised. Above all, however, it is caused that the bolts by their spherical Sections with which they rest against the walls, all the more into the cavity of the clamping element are pulled the further you screw the clamping parts together. As a result, the collar of each bolt is also connected to one on the circumference of the clamping parts located surface pressed. The bolts lie snugly against this surface on. Now occurs a transverse to the longitudinal direction of the lattice girders, on the lattice girders acting force, the bolts are supported with their collar on the outside Ebeneu surfaces of the clamping parts. The bolts are in the cylindrical shaft section therefore no bending stresses are effective. Due to the right-angled contact of the bolts there is also an exact alignment of several arranged in one direction on the clamping parts Lattice girder guaranteed.

The invention is explained in more detail with reference to FIGS.

1 shows a lattice girder and two clamping elements; Fig. 2 two clamping elements with inserted bolts; 3 shows a knot of two lattice girders with post and FIG. 4 a two-part bolt.

The kit 1 shown in Fig. 1 consists of at least one Lattice girders 2 and at least one clamping element 9. The lattice girders 2 have two at a distance, parallel to each other arranged tubes 3, which by angled bent wires 4 are connected together. At the ends of the tubes 3 are located bolts 5, which are inserted into clamping elements 9, can be connected to these. Since the clamping elements 9 at least two opposite openings 12 for the Bolts 5 are provided, a lattice girder 2 can be used in a known manner line up with the other.

Fig. 2 shows how a connection between the clamping element 9 and the bolt 5 is made. The clamping element 9 consists of two clamping parts 10, 11. The clamping elements 9, viewed from above or below, preferably a square outline, but they can also be hexagonal, for example. In the example are the clamping parts 9 each equipped with four semicircular grooves 13, which are mutually attached Support surfaces 15 of the clamping parts 10, 11 are located. Looking at the cross section of the grooves 13, the longitudinal axes 14 of the grooves 13 are slightly above each bearing surface 15 (dimension a) arranged. Each clamping part 10, 11 has a centrally arranged Recess 16 with a wall 17 in the shape of a segment of a sphere, the center point the recess 16 at the intersection of the longitudinal axes 14 two at an angle to each other arranged grooves 13 is located. The spherical segment-shaped area 18 of the recess 16 extends in the clamping parts 10, 11 from the support surface 15 to a flat floor 19 which runs parallel to the support surface 15. Of course it could Recess 16 may be almost hemispherical, i.e. on the flat floor 19 would be omitted, but this would result in an unnecessary enlargement of the clamping parts 10, 11 result. Each clamping part 101 11 has a central bore for mutual Screw. The upper clamping part is used to make the screw heads invisible 11 with a countersunk hole 20 and the lower clamping part 10 with a threaded hole 21 equipped.

In the screwed state of the clamping parts 10, 11, the grooves 13 form in the example four openings 12 for receiving the bolts 5.

In the example there is a bolt 5 in a groove 13 of the lower clamping part 10 lying, drawn in. The same with a tube 3 of the lattice girder 2 Arranged longitudinal axis, with the pipe 3 by welding, or as shown, by Press connected bolt 5 connects with a collar 6 to one of those surfaces 23, which are provided on the circumference of the clamping parts 10, 11, at right angles to the longitudinal axes 14 of the grooves 13 are arranged. The cylindrical collar 6 is followed by a cylindrical one Section 7 of smaller diameter. The cylindrical section 7 rests almost positively in a groove 13, or in the screwed state of the clamping parts 10, 11 in an opening 12. Each bolt 5 ends, viewed in the direction of the clamping part 9, with a spherical one Section 8, which increases spherically starting from the cylindrical section 7. The spherical portion 8 has the same radius as any hemispherical Recess 16. This ensures that the spherical section 8 is flat the wall 17 of the clamping parts 10, 11 is present. In the screwed state of the clamping parts 10, 11, the bolts 5 cannot be pulled out of the openings 12 or the grooves 13, since the spherical sections 8 engage behind the grooves 13. Conversely, everyone educates cylindrical section 7 on the bolt 5 an undercut.

If you now place the bolt 5 of a lattice girder for the purpose of assembly 2 in a lower clamping part 10 and screwed the lower clamping part 10 to the upper one Clamping part 11, so press the walls 17 of the clamping parts 10, 11 due to the at a distance from the bearing surfaces 15 arranged position of the center of the sphere, on the spherical section 8 of the bolt 5, the more the more the clamping parts 10, 11 are screwed together. A resulting force develops which strives to the bolt 5 in the cavity 24 of the clamping element now formed 9 to pull in. As a result, the collar 6 of the bolt 5 is firmly pressed all the surface 23. The bolt 5 is therefore supported primarily with its large collar 6 on the clamping part 9 from.

While in Figures 1 and 2 the connection of lattice girders 2 is described, Fig. 3 shows, according to an extension of the invention, the possibility of as between two horizontally arranged lattice girders 2 on the clamping element 9, a vertical one Post 25, for example in the form of a further lattice girder 2, can be attached. One recognises In the drawing, the bolts 5 of two lattice girders 2, as well as the upper and lower Clamping part 10, 11, the lower clamping part 10 instead of a threaded hole 21 a »primary bore 22 has. Instead of a bolt 5, the vertical Post 25 has a socket 26, which with its Bulld ü atl the lower, parallel to Support surface 15 of the clamping part I () arranged surface 23 'rests flush. the Bushing 26 is like a bolt 5 with the tube 3 according to the one shown in Fig. 2-derten Way connected. To now the lattice girder 2 with the clamping element 9 and with the post 25 to connect is voii above through the countersunk hole 20 of the upper clamping part 11 and a screw 27 through the through hole 22 of the lower clamping part 10 out, which with its threaded shaft 28 in a centrally arranged threaded hole 29 of the socket 26 is screwed in.

If you tighten the screw 27, the lattice girders 2, the clamping parts 10, 11, as well as the post 25, aligned exactly at right angles or parallel to each other, braced against each other.

According to an extension of the invention, E2ig. 4 one two-part bolt 5 ', which consists of a bushing 26, as shown in FIG. 3, and from a screw 30 screwed into the threaded hole 29, which for example consists of a hexagon socket screw according to DIN 6912 and is processed in such a way that her head the spherical section 8 and part of the adjoining threaded shaft 28 forms the cylindrical section 7. By turning the screw 30 can the length of the cylindrical section 7 exactly when creating lattice structures to adjust. The bolt 5 ′ can thus replace the bolt 5. Can with bolt 5 ' larger length tolerances within the lattice girder 2 are better compensated.

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Claims (7)

Kit for the formation of lattice structures P A T E N T A N S P R Ü C H E 1. Kit for the formation of lattice structures, consisting of at least one Lattice girders and at least one for releasably connecting adjacent lattice girders provided & lemmelement, which consists of two clamp parts that can be screwed together consists, which have grooves in which equipped with undercuts, at the end bolts located on the lattice girders are guided, thereby g e k e n n -z e i c h n e t that each clamping part (10, 11) has a centrally arranged recess (16) with a spherical segment-shaped wall (17) such that screwed together) -tem State of two clamping parts (10, ii) a largely spherical cavity (24) is formed is, wherein the bolts (5 5 ') with a spherical portion (8) of the same curvature lie flat against the walls (17). 2. Kit according to claim 1, characterized in that g e k e n n z e i c h -n e t, that the section (8) of the bolt (», 5 '), starting from the cylindrical section (7), enlarged spherically. 3. Kit according to claim 1 or 2, characterized in that g e k e n n -z e i c h n e t that the center of the spherical segment-shaped depressions (16) in is arranged at a distance from the bearing surfaces (15). eats. Kit according to one of Claims 1 to .3, characterized in that nz e i c h n e t that the diameter of the cylindrical section (7) of the bolt (5, 5 ') is smaller than the diameter of their collars (6) and that the bolts (5, 5 ') on surfaces (23) located on the clamping part (9) with their collar (6). Construction kit according to one of Claims 1 to 4, characterized in that it has a k e n n z e i c h n e t that the clamping part (10) has an external, perpendicular to the thread or through hole (21, 22) arranged flat surface (23 '). 6. Kit according to one of claims 1 to 5, characterized in that g e -k e n n z e i c h n e t that in the tubes (3) of the post (25) sockets (26) are used are and that the bushes (26) rest with their collar (6) on the surfaces (23 '). 7. Kit according to one of claims 1 to 6, characterized in that g e -k e n n shows that the bolt (5 ') consists of a bushing (26) and a screw (30) is formed, the head of the screw (30) designed as a spherical portion (8) and a part of the threaded shaft (28) is provided as a cylindrical section (7) is.