DE102005056021A1 - Fastening arrangement has plate shaped attachment item, mounting and substructure whereby fastening arrangement has one support bearing with suspension - Google Patents

Abstract

Fastening arrangement has plate shaped attachment item (2), mounting and substructure. The mounting has two main bearings (14) designed as fixed bearing or floating bearing. The fastening arrangement has one support bearing (15) with a suspension.

Description

The Invention relates to a fastening arrangement with a plate-shaped fastening object, a bracket and a substructure. The mounting arrangement in particular concerns glass panes of a glass facade as plate-shaped fastening objects, but could also natural stone plates or other materials.

Such a fastening arrangement is for example from the document DE 100 09 531 A1 known. The document shows a fastening arrangement with a substructure consisting of vertical profiles, to which star-shaped holders are attached. The holder consists of a support which is fixed to the substructure and are arranged on the rotatably mounted arm-shaped support elements. At their end facing away from the carrier, the support elements on forked bearings in which einliegen undercut glass anchors with their shank. The undercut glass anchors are anchored in undercut blind holes of the plate-shaped glass element. By clamping the undercut glass anchor relative to the support member and the support member relative to the carrier, a fixed bearing can be obtained from the floating bearing. The term "non-locating bearing" is to be understood as meaning a movement parallel to the surface of the plate-shaped fastening object, which proposes to arrange such a fixed or movable bearing near the four corners of a rectangular glass plate.

Especially at large format Glass panels can, especially in wind suction forces, to considerable Loads of mounting arrangements come. This exists the risk of glass breakage in the area of the anchor. This can be counteracted be that on the long sides the glass plate between the arranged at the corners of the main bearings each one or more, designed as a floating bearing bearings are arranged. However, it has been shown by such an arrangement to considerable supportive moments comes in the area of support camp, so that the load capacity of the overall assembly through the support bearings is considerably limited.

Of the Invention is therefore the object of such a fastening arrangement to provide for plate-shaped attachment objects, especially for large format Fixing items an increased Load capacity reached.

These The object is achieved by the Characteristics of claim 1 solved. The invention provides that the fastening arrangement at least a support bearing having a suspension. Due to the suspension results on the one hand a targeted mobility in the direction perpendicular to the plate plane of the attachment. On the other hand, part of the in this direction acting forces, so for example, the wind suction forces, over the Suspension removed to the substructure. Opposite one Moving bearing without mobility perpendicular to the plate plane results thus a much cheaper Moment course within the attachment object and in total a significantly lower load on the main and support bearings. This will increase the carrying capacity the entire arrangement significantly improved.

Preferably is that at least one support bearing arranged between two designed as a fixed and / or floating bearings main bearings. in principle but also a triangular arrangement is conceivable, i. the support bearing does not have to be strict on an imaginary line between two main camps, but can also be located away from this line. Depending on Size of the attachment can also several support bearings be arranged between two main bearings. Preferably, the inventive mounting arrangement however, four main camps and between the main camps, at least on the long side the attachment object, depending on a support bearing.

Around one possible good visual appearance and a simple substructure to enable are the main and support bearings each preferably in the edge region of the plate-shaped attachment object arranged.

to Training the suspension points in the support bearing this preferably a cylindrical coil spring. alternative However, a variety of other types of feathers, as they stand out the art are well known, such as disc springs or Leaf springs, possible. It can Both tension and compression springs are used.

Preferably the suspension is biased towards the bracket. That I Wind suction forces that act contrary to this direction, as proved much more critical have as wind pressure forces, This results in a further optimization in terms of different load cases.

The Invention will be explained below with reference to an embodiment.

It demonstrate:

1 four similar mounting arrangements in the corner each glass plate in front view;

2 a schematic end view of a single glass plate;

3 a sectional view of the mounting assembly in the region of a main bearing; and

4 a sectional view of the mounting assembly in the region of a support bearing.

In the 1 illustrated end view shows four similar combined mounting arrangements 1 each with a glass plate 2 as a plate-shaped attachment object, which has a common support 3 on a substructure 4 are attached. This substructure 4 , which is designed as a vertical profile, for example, via heavy duty anchor to a building wall or the like. Be attached (not shown). The holder 3 consists of a carrier 5 that has a screw connection 6 on the substructure 4 is attached. In part-circular recesses 7 of the carrier 5 are arm-shaped support elements 8th rotatably or pivotally mounted, ie they can parallel to the plate plane of the glass plates 2 be pivoted. At her the carrier 5 opposite end have the support elements 8th forked bearings 9 on. These act as linear bearings also parallel to the plate plane of the glass plates 2 , In the forked bearings 9 each is the shaft 10 an undercut glass anchor 11 as explained below 3 will be explained. The undercut glass anchors 11 are each in an undercut blind hole 12 anchored.

One support element each 8th and an undercut glass anchor 11 form either a fixed or a floating bearing. Is a mobility parallel to the plate plane of the glass plates 2 given as described above, there is a floating bearing. In contrast, the undercut glass anchor 11 opposite the support element 8th and the support element 8th opposite the carrier 5 tense, so there is a fixed camp. In the exemplary embodiment shown, a mixed form is actually present. So are the two support elements 8th in the lower half of the drawing with adjustable stops 13 supported. This is the support elements 8th actually only in one direction swiveled. In the direction of the acting forces, the bearing thus acts as a fixed bearing or floating bearing. The aim of these fixed and floating bearings or mixed forms is on the one hand, the weight of the glass plates 2 on the other hand allow thermally induced shifts. As a result, additional loads on the mounting arrangement are avoided. Various ways to configure the fixed or floating bearings are well known and therefore need no further explanation at this point.

2 shows in schematic form the storage according to the invention with reference to a single glass plate 2 , As in 1 are in the corners of the glass plate 2 each fixed or floating bearing 14 arranged in the following as the main warehouse 14 should be designated. Between every two main bearings 14 is a support camp 15 also in the edge area of the glass plate 2 arranged.

The comparison of 3 and 4 shows the difference between main bearings 14 and support bearings 15 , In both cases, a known undercut glass anchor 11 in an undercut blind hole 12 inserted and lies with his shaft 10 in the forked bearing 9 a support element 8th one. At the screw head 16 of in 3 illustrated main bearing 14 exists at the bottom 17 some air to the support element 8th , As a result, the fork-shaped bearing acts 9 as a floating warehouse. In contrast, the screw head 16 of in 4 illustrated support bearing of a washer 18 backed, which is about a cylindrical coil spring 19 as a suspension on the support element 8th supported. During the said game at the main camp 14 out 3 only the displaceability of the glass plate 2 parallel to its plane of the plate is by the coil spring 19 at the support camp 15 achieved a mobility perpendicular thereto. If there is a wind suction on the glass plate 2 can the glass plate in the area of the support bearing 15 specifically against the force of the coil spring 19 from the support element 8th move away or arch in this area. As a result of this specifically permitted deformation, a more favorable stress distribution results overall than in the case of a further main bearing used as an alternative to the support element. Thus, the proposed mounting arrangement can withstand higher wind suction loads. coil spring 19 and shaft 10 of the support bearing are dimensioned so that the support bearing 15 is biased in the rest position shown, that is, designed as a compression spring coil spring 19 something is upset.

Claims (6)

Mounting arrangement ( 1 ) with a plate-shaped attachment object ( 2 ), a holder ( 3 ) and a substructure ( 4 ), whereby the holder ( 3 ) at least two executed as a fixed and / or floating bearing main bearing ( 14 ), characterized in that the fastening arrangement ( 1 ) at least one support bearing ( 15 ) with a suspension ( 19 ) having. Fastening arrangement according to claim 1, characterized in that the at least one support bearing ( 15 ) between two main bearings ( 14 ) is arranged. Fastening arrangement according to claim 1, characterized in that the attachment four main bearings ( 14 ) and at least two support bearings ( 15 ) having. Fastening arrangement according to claim 3, characterized in that the main and support bearings ( 14 . 15 ) in the edge region of the plate-shaped fastening object ( 2 ) are arranged. Fastening arrangement according to claim 1, characterized in that the suspension is a cylindrical coil spring ( 19 ) having. Fastening arrangement according to claim 1, characterized in that the suspension ( 19 ) in the direction of the holder ( 3 ) is biased.