WO2000070180A1

WO2000070180A1 - Fastening of a glass pane to supporting structures

Info

Publication number: WO2000070180A1
Application number: PCT/EP2000/003961
Authority: WO
Inventors: Reinhard Janutta
Original assignee: Dorma Gmbh + Co. Kg
Priority date: 1999-05-19
Filing date: 2000-05-03
Publication date: 2000-11-23
Also published as: AU5807800A; DE19922472A1

Abstract

The invention relates to the fastening of a glass pane (1) to a supporting structure, especially by using a fitting that is configured as a point holder which, at one end, a boring (20) provided in the glass pane (1) is entered by a first seat, and which fastens the glass pane to the first seat by means of a nut. In addition, the fitting, at the other end thereof, is fastened, at a distance from the glass plane, by means of a second seat to a supporting structure located on the building, whereby a glass-specific part is provided in the boring (20) of the glass pane (1) in the form of a fastening seat (2) which is joined to the glass pane (1) with positive engagement and form fit in such a manner that dynamic and static loads in the glass plane (1) are prevented, and the fastening of mounting-specific fittings or fitting parts with the first receiver can be indirectly effected via the fastening seat (2).

Description

Title: Fastening a glass pane to supporting structures

description

The invention relates to an attachment of glass panes by means of fittings, here in particular with point holders, to support structure elements according to the preamble of claim 1

Point holders for glass panes are known in a wide variety of forms. DE 196 23 797 A1 discloses a holder for glass panes which is designed in a punctiform manner. There is a bore inside the glass pane, which is covered by a fitting part. Between the glass pane and the fitting part, that are screwed against each other, seals are included, which should compensate for the tolerances of the glass thickness accordingly.This is necessary because the part of the point holder, which is located inside the glass bore, consists of two parts that have to be screwed against each other. Such an assembly is very complex , since the thickness of the glass must be determined each time. Within the part of the fitting that is screwed into the glass, there is a connection for fastening the glass pane to a substructure. A ball or a partial element of a ball is preferably used here in order to Compensate for angular errors

EP 0 735 227 A2 describes a holder for plates to be attached to buildings, in particular double glass plates or laminated safety glasses, which are connected to a building-side substructure by means of point-shaped holders. The point holder is connected to the inside of the glass pane by means of a screw connection with positive and positive locking the other end of the point holder is also connected to the substructure by means of a screw connection with this force-fitting and form-fitting connection.There is a rubber block in between, which is intended to eliminate stresses arising from the glass pane due to the assembly.The rubber block can be turned like a crank around its central axis and also pendulum movements Execute With this type of fastening, however, those caused by the installation of the glass pane with the point holder Tensions are not eliminated, since the attachment is made by means of elastic intermediate layers, by tightening the nuts accordingly, tension can still be generated in the glass panes, which can then lead to the glass pane being destroyed. In addition, special processing of the glass is required for this type of construction necessary

The object of the invention is then to improve a point connection for glass panes in such a way that a wide variety of fittings can be used in a wide variety of applications and, moreover, no static stresses should arise in the glass during assembly and, furthermore, dynamic loads from the should also be used Keep glass away and no impermissible stresses are transferred to the substructure

DE 41 30 823 C2 shows the fastening of a glass pane with a fastening element. A rubber-elastic hollow cylinder body is inserted into a hole in a glass pane, which is penetrated by a fastening screw. When the fastening screw is tightened, the hollow cylinder body is deformed and lies between the glass pane and fastening element Tightening torque of the fasteners is no elastic saving of the glass pane

The object is achieved with the characterizing part of patent claim 1, the fastening of the glass pane in an installation-specific part ensuring the fastening of the glass pane and connection to a substructure of the most varied of types, and a glass-specific part which is connected to the glass pane during manufacture , is subdivided in such a way that the structure is modular and that there is an exchange of the installation-specific parts

By separating the connection of a glass pane in the glass-specific part and the installation-specific part, the use of universal point holders is possible. The glass-specific part is defined in such a way that not only are the known bores in the glass available, but the bores are also lined in such a way that no stresses occur in the glass during assembly, which are usually missing due to tolerances of the bores in the glass or also due to assembly or due to tolerances of the substructure . This is achieved in that a pre-formable, permanently elastic medium is present in a fastening receptacle between the point holder to be used and the actual bore on the glass. Thus, the glass is kept free of stresses during assembly and during loading. The installation-specific fittings are to be defined in such a way that they can be designed according to the specifications of the substructure. A tension-free installation need not be taken into account when choosing the fittings (point bracket). As a result, the costs of such fittings are reduced.

The sub-claims reflect a further embodiment of the inventive concept. The separation of the fitting into a glass-specific and an installation-specific part can be used for all types of glass, including for insulating glass with several panes. The installation-specific part takes on the adaptation to structural conditions and essentially balances the static assembly tolerances. In addition, the glass-specific part essentially has to compensate for the dynamic changes. These are in particular deflection due to wind load, dead weight, shocks, snow load or other traffic loads, both during assembly and after assembly. The dynamic changes can cause vibrations in the glass panes, which can also destroy the panes. This also includes vibrations caused by motor traffic or earthquakes. Furthermore, the thermal changes due to material expansion within the glass or the assembly structure should not be neglected. For this reason, the invention is based on the basic idea of power neutralization. By making a separation between the installation-specific and the glass-specific part, it can be ensured using a wide variety of installation-specific fittings that the elasticity of the glass is not prevented. This can, for example, stand that the glass-specific part is constructed in such a way that it does not allow or eliminate dynamic and static loads during assembly and also afterwards within the glass pane. Therefore, it is proposed according to the invention that the glass-specific part contains a fastening receptacle which is connected to the glass pane in a non-positive and positive manner, namely through a hole in the glass, but at the same time allows the glass its freedom of movement. With such a mounting fixture, manufacturing tolerances of the bore and the glass can be eliminated at the same time. A mounting receptacle can consist, for example, in the form of a sleeve with a projecting one-sided edge and a sleeve neck in such a way that the edge of the sleeve covers the edge of the bore within the glass pane. On the other hand, the sleeve neck can be flanged directly, or it is also conceivable that a disc is placed on the sleeve neck, which is coordinated with the sleeve neck in such a way that these two parts are connected to one another, for example by suitable methods, in a non-positive and positive manner. The space between the edge of the sleeve, the sleeve shaft and the other side edge or the disk is filled with a permanently elastic medium. This permanently elastic medium can be introduced by casting, for example, as an elastomer or silicone, but it is also possible to design this medium as a rubber ring which is introduced into the hole in the glass pane before the sleeve is inserted. Due to this type of connection, which can absorb more or less forces depending on the permanently elastic medium, there is no rigid clamping of the glass pane over the point holder, as is otherwise customary in the prior art. The result of this is that force neutralization takes place, since the glass pane is suspended or fastened to a certain extent in a floating manner.

This has enormous advantages, since the installation of the fastening receptacle can take place directly at the glass manufacturer under controlled conditions. For this purpose, for example, the fastening receptacles can be positioned in devices in such a way that the manufacturing tolerances in such glass panes are virtually eliminated. Characterized in that the mounting receptacle has a continuous bore, a point holder of various types and designs can then be used at the installation site. This point holder, which is fastened to the substructure through the fastening receptacle, does not in any way impair the elasticity behavior of the glass panes during assembly.

The invention is explained in more detail using various exemplary embodiments. He shows:

Figure 1: A glass pane with mounting receptacles in plan view.

Figure 2: As Figure 1 in side view.

Figure 3: A section through a mounting bracket and a

Glass pane.

Figure 4: A section through a mounting receptacle with a pane and a glass pane.

Figure 5: A mounting receptacle as a version with an insulating glass unit consisting of three panes.

Figure 6: Another embodiment of a mounting receptacle with an internal thread.

Figure 7: Another embodiment with an above

Mounting bolts.

A glass pane 1 shown in FIG. 1 is shown with four fastening receptacles 2, 18 which are located near the corners of the glass pane 1. Through bores 3 are provided within the mounting receptacles 2, 18 in order to ensure that they can be connected to a wide variety of point holders. 2 shows the glass pane 1 shown in FIG. 1 in a side view. This makes it clear that the mounting receptacles 2, 18 are available beyond the glass thickness. In a first exemplary embodiment in FIG. 3, the glass pane 1 is represented by a fastening receptacle 2 which has two flanged edges 5 and 6. The edges 5 and 6 protrude beyond the edge of the bore 20 within the glass pane 1. The space between the projecting edges 5 and 6 and the fastening receptacle in the form of a sleeve 4 with the glass pane 1 in between is filled by an elastic medium 7. The permanently elastic medium 7 is non-positively and positively connected to the glass pane 1, 10, 11. This pre-confectioning can easily take place in the manufacturing process after the glass panes 1 have hardened as laminated safety glass or as single-pane safety glass.

In a further exemplary embodiment in FIG. 4, the fastening receptacle 3 is in turn inserted into the bore 20 in the glass pane 1. In this case, the mounting receptacle 2 has only one edge 5. The free end of the sleeve 4, namely the sleeve edge 13 is designed so that it connects a disc 8 to be inserted via a corresponding non-positive and positive connection 9 with the sleeve neck 13. This type of attachment of the washer 8 to the sleeve neck 13 can also be regarded as a permanent connection, since the edge 5 and the washer 8 are covered by the point fitting to be inserted. Here, too, the space between the mounting receptacle 2 and the glass pane 1 is again filled with a permanently elastic medium 7. The permanently elastic medium 7 can be rubber, an isomer, a silicone compound, etc.

In a further exemplary embodiment in FIG. 5, a section of an insulating glass pane has been reproduced. The insulating glass pane here consists of glass panes 1, 10 and 11. Glass panes 1, 10 and 11 are spaced apart by spacer rings 12 in the region of the bores 20 penetrating them. A sleeve 4 is inserted within the bores 20, as has already been described in FIG. Here, too, the space between the spacer rings 12, the glass panes 1, 10 11 and the sleeve 4 is filled with the edge 5 and the pane 6 by a permanently elastic medium 7. The exemplary embodiment of a fastening receptacle 18 shown in FIG. 6 is as described above, however, the fastening receptacle 18 has a fastening receptacle bottom 14 which forms a bore 23, which is central within the fastening receptacle 18, as a blind bore. The bore 23 is provided with an internal thread 15 within this bore 23 can be accomplished with a corresponding external thread of a point holder, a connection of the glass sheet 1 to a substructure

FIG. 7 shows a modified type of fastening of a fastening receptacle 19. The fastening receptacle 19, like the fastening receptacle 2, is fastened within the bore 20 in the glass pane 1. However, the fastening receptacle 19 does not have a bore penetrating it, rather a fastening bolt 17 is present on the fastening bolt 17, an external thread is attached in order to be able to attach installation-specific constructions here. This can also be done, for example, by inserting such a glass pane 1 with, for example, four fastening receptacles 19 into prefabricated holes with the fastening bolts 17 and being secured with nuts anyway the glass pane 1 is suspended in a floating manner

The exemplary embodiments make it clear that by separating the fitting into a glass-specific and an installation-specific part during later assembly and, in addition, in the event of stresses, the elasticity of the glass panes 1, 10, 11 is retained.This is a basic requirement for a force-neutrality within the Reaching glass panes 1, 10 and 11 All previously known point mounting systems assume that the glass pane is firmly clamped and behind the glass pane there is a possibility of eliminating the occurring static and dynamic forces of the glass panes 1, 10, 11. However, this is not the right way, as is known, glass panes that are hung up and have their “freedom” do not break. Only through the rigid clamping of glass panes is the glass's freedom of movement and thus its elasticity taken away Reference numerals

1 sheet of glass

2 mounting bracket

3 hole

4 sleeve

5 rand

6 rand

7 elastic medium

8 disc

9 connection

10 glass pane

11 glass pane

12 spacer ring

13 sleeve neck

14 mounting base

15 internal thread

16 external threads

17 fastening bolts

18 mounting bracket

19 mounting bracket

20 hole

21 approach

23 hole

Claims

claims

1 . Fastening of a glass pane to a supporting structure, in particular by means of a fitting designed as a point holder, which at one end passes through a hole (20) present in the glass pane (1, 10, 11) and by means of a first receptacle

The mother fixes the glass pane (1, 10, 1 1) to the first receptacle, and at a distance from the glass pane (1, 10. 1 1) the fitting is attached at the other end to a building-side supporting structure by means of a second receptacle, characterized in that that in the bore (20) of the glass sheet (1. 10, 1 1) a glass-specific part in the form of a mounting receptacle (2, 18 19) with between the glass sheet (1, 10, 1 1) and the mounting receptacle (2, 18th , 19) deformable, permanently elastic medium (7) is present, the permanently elastic medium (7) being connected to the glass pane (1, 10, 1 1) in a non-positive and positive manner, the introduction of dynamic and static loads into the glass pane (1, 10, 1 1) is avoided and the fastening of installation-specific fittings or fitting parts with the first receptacle can be carried out indirectly via the fastening receptacle (2, 18, 19).

2. Fastening according to claim 1, characterized in that the fastening receptacle (2) consists of a sleeve (4) with a the glass pane (1, 10, 1 1) on one side overlapping edge (5), and the opposite side of the glass pane (1, 10, 1 1) is covered by a further overlapping edge, wherein between the wall of the sleeve (4), the edges (5, 6), the glass pane (1, 10, 1 1) and the bore (18) the deformable, permanently elastic medium (7) is present.

3. Fastening according to claim 2, characterized in that the sleeve (4) on one side has a formable edge (5) and the other end has a sleeve edge (13) which has a non-positive and positive connection with the glass pane (1, 10. 1 1) comprehensive glass pane.

4. Fastening according to claims 2 and 3, characterized in that the sleeve (4) has a bore (3) for receiving the installation-specific fittings or fitting parts.

5. Fastening according to claim 1, characterized in that the fastening receptacle (18) has a bore (23) in which a

Internal thread (15) is present.

6. Fastening according to claim 1, characterized in that a fastening bolt (17) with an external thread (16) is present on the fastening receptacle (19).

7. Fastening according to one or more of the preceding claims, characterized in that the fastening receptacles (2, 18, 19) consist of stainless steel.

8. Fastening according to one or more of the preceding claims, characterized in that the glass pane (1, 10, 11) made of toughened safety glass, laminated safety glass or

Insulating glass exists.

9. Fastening according to one or more of the preceding claims, characterized in that the permanently elastic medium is an elastomer, silicone or rubber.