WO2005047634A1 - Fixing system - Google Patents

Abstract

A fixing system for fixing substantially flat construction elements on a façade or roof. At least one construction element is fixed with a stationary point holder (5), whereby one end thereof is placed on the façade or on the construction element (Pn) such that it is not moveable, and at least two point holders (7) which can move on the plane of the construction element are fixed, the ends thereof being respectively arranged on the façade and construction element such that they are tiltable. A support element (9), which engages with the construction element, is placed on the façade or roof and receives a force arising from torque acting on the construction element (Pn) around the longitudinal axis of the fixed point holder (5).

Description

 BEFΞSTIGUNGSSSYSTΞM

The present invention relates to a fastening system for fastening flat components to a facade or a roof.

In the case of fastening systems, point holders are used according to the prior art to hold flat components, in particular when designing facades. In known fastening systems, several point holders are used to mount the flat component, such as a glass pane, on a facade or a roof, so that the flat component is securely held on the facade or the roof on the one hand, and movements or tolerances of the flat component on the other hand can be included or compensated.

In the document EP 0 655 542 B1 it is proposed, for example, to use several point holders with different degrees of freedom in order to attach a flat component to a facade. It is necessary for the point holders to be supported in a statically determined manner in the plane of the flat component. This statically determined mounting with, for example, four point holders on a flat component is achieved according to the prior art in that the mounting is fixed at one position in the plane of the flat component, is horizontally movable at a further position and in at the two remaining positions the plane is free to move.

It is the object of the present invention to provide an improved fastening system for fastening flat components to facades or roofs. This object is achieved by a fastening system with the combination of the features of claim 1. Further developments of the invention are defined in the dependent claims.

In the fastening system for fastening essentially flat components to a facade or a roof, a component is at least fastened with: a fixed point holder, one end of which is immovably attached to the facade or to the component, and at least two in the plane of the component movable point holders, the ends of which are each tiltably attached to the facade and to the component.

According to the invention, the fastening system has a support device 9, which engages on the side of the component, which is attached to the facade or the roof and absorbs a force resulting from a torque acting on the component Pn about the longitudinal axis of the fixed point holder 5.

With the fastening system according to the invention it is possible to mount a component without influencing the position of a further element, in particular one arranged below it. The support device can thus be installed and adjusted independently of the other components. As a result, an error during assembly, in particular a positional deviation of a component, does not continue through further components.

According to a preferred embodiment of the invention, the fixed and the movable point holders extend between the facade and the component. As a result, the required spacing of the component from the facade can be achieved.

According to a preferred embodiment of the invention, the ends of the fixed point holder and / or the ends of the movable point holder can be rotated relative to one another. On the one hand, the rotatability makes assembly easier and improves the tolerance of the fastening system to dimensional deviations.

The support device can be installed after mounting the point holder. With this construction, only two different types of point holders are required. In addition, the support device is a simple component and can be easily handled.

According to a preferred embodiment of the invention, the support device between adjacent components is provided on a joint for transmitting the force that results from the torque of the component. As a result, the system can be stored in a statically determined manner and a relationship between the individual components can be ensured.

According to a preferred embodiment of the invention, the support device is used in the vicinity of the fixed point holder to introduce the force into a fixed element, in particular the fixed point holder or a console. According to the invention, both a force is absorbed by the component to which the fixed point holder is attached and by an adjacent component. This further simplifies the system.

According to a preferred embodiment of the invention, the components are one above the other in the vertical direction essentially arranged in one plane. In this way, for example, facade cladding or roof cladding with the appearance of a single level can be achieved.

According to a preferred embodiment of the invention, the fixed point holder is immovably attached to the facade with the first end perpendicular to its longitudinal axis and attached to the component with the second end via a ball joint. In addition, the movable point holder is tiltably attached to the facade with the first end perpendicular to its longitudinal axis and attached to the component via the ball joint with the second end. With this construction, the assembly can be simplified since only the position of the fixed point holder has to be precisely determined and the movable point holder can accommodate a deviation in its position.

According to a preferred embodiment of the invention, the movable point holder on the facade is elastic

Elements connected. An elastic connection is easy to make. In addition, the elastic connection can absorb weight forces to a certain extent during assembly, thereby simplifying the positioning of the components before the support device is inserted.

According to a preferred embodiment of the invention, the fixed point holder is mounted alternately in the vertical direction of the adjacent components on the upper left corner region of the component or on the upper right corner region of the component. In addition, according to the invention, the fixed point holder and three movable point holders are each provided on one of the corner regions of the component. An alternating configuration of the fixed point holder and thus also the Support device can prevent dimensional deviations between the adjacent components from being noticeable on only one side.

The support device preferably engages two components arranged next to one another. With this structure, the number of supporting devices required can be reduced.

It should be noted that the fastening device can be used equally for fastening the flat components on a facade and for fastening the flat components on a roof.

The invention is described below with reference to

Embodiments described with reference to the drawings.

Fig. 1 shows an embodiment of the fastening system according to the invention in a plan view.

FIG. 2 shows an enlarged view of the fastening system shown in FIG. 1.

Fig. 3 shows a fixed point holder, which is used in the fastening system according to the invention.

Fig. 4 shows a movable point holder which is used in the fastening system according to the invention.

5 shows a transition area of an upper component and a lower component in a side view according to an exemplary embodiment of the invention. Fig. 6 shows a support device according to the invention in a side view.

Fig. 7 shows the support device of Fig. 5 in front view.

Fig. 8 shows the top view of a toothed disc which is used for the support device according to the invention.

Fig. 9 shows the toothed disc of Fig. 8 in a side view.

10 shows a transition region of an upper component and a lower component in a side view according to a further exemplary embodiment of the invention.

FIG. 11 shows a top view of the transition region shown in FIG. 10.

An embodiment of the invention is described below on the basis of FIGS. 1-9.

Fig. 1 shows a fastening system according to the invention in a plan view. The fastening system is configured in accordance with the present exemplary embodiment for mounting flat components such as facade panels Pn. The facade panels can be made, for example, of glass or another material and have an essentially rectangular shape with an upper edge 1, a lower edge 2 and two lateral edges 3. 1 is suitable for mounting a plurality of facade panels Pn which are arranged adjacent to one another. Between each two adjacent facade panels Pn upper edge 1 of a lower facade panel Pn + 1 to the lower edge 2 of an upper facade panel Pn. The lateral edges 3 of facade panels Pn arranged next to one another also adjoin one another.

The individual facade panels Pn, Pn + 1, Pn + 2 are each held by a fixed point holder 5 and, according to this embodiment, by three movable point holders 7, which on one side essentially in the corner areas of the facade plate and on the other side on the Facade are attached. The fixed point holders 5 used according to this exemplary embodiment are shown in FIG. 3 and the movable point holders 7 used according to this exemplary embodiment are shown in FIG. 4.

5 is a side view of the fastening system according to the embodiment of the invention. 5 shows an area of two stacked facade panels Pn, Pn + 1, on which the joint is formed. A movable point holder 7 is provided at the lower region of the upper one of the facade panels Pn in the figure. A fixed point holder 5 is provided on the upper area of the lower facade panel Pn + 1. A joint is provided between the facade panels to ensure a necessary distance between the facade panels. A seal is inserted in the joint.

To connect the movable point holder 7 and the fixed point holder 5 with the facade is one

Console 13 provided. This console 13 shown in FIG. 5 has a facade support 19 which can be mounted on the facade. Two arms 15 and 17 are provided on the facade support, which support the fixed point holder 5 and the movable point holder 7. For this purpose, the to the Facade panel aligned eyelets provided at the free ends of the arms 15, 17.

In this construction, the facade panels Pn are held statically indefinite by the point holders alone. The fixed point holder 5 can be rotated about its longitudinal axis and is immovable or rigid perpendicular to its longitudinal axis, and the movable point holder 7 can also be rotated about its longitudinal axis and tilted perpendicular to its longitudinal axis, as a result of which gravity forces the facade panel Pn about a pivot point at the fixed point holder 5 would be turned down.

2, three facade panels P1, P2 and P3 are arranged adjacent to each other in this order from top to bottom.

The upper facade panel Pn is provided with a fixed point holder 5 at the upper right corner area. At the upper left and lower corner areas, the facade panel Pn is each provided with a movable point holder 7.

The lower facade panel Pn + 1 arranged below the facade panel Pn is provided with a fixed point holder 5 at the upper left corner area. At the upper right and lower corner areas, the facade panel Pn + 1 is provided with a movable point holder 7.

A further facade panel Pn + 2 is arranged below the facade panel Pn + 1, which is provided with the same configuration of fixed and movable point holders as the facade panel Pn. This means that the configuration with regard to the mobility and rotatability of the point holder in the vertical direction according to this exemplary embodiment varies from component to component.

A support device 9 is provided on the joint between the upper facade panel Pn and the facade panel Pn + 1 arranged below it. The support device 9 is shown in FIG. 2 in the joint in the area between the movable point holder in the lower left corner area of the upper facade panel Pn and the fixed point holder in the upper left corner area of the facade panel Pn + 1 arranged below and behind the facade panels Pn, Pn Arranged +1.

FIG. 2 shows that this structure continues alternately in the vertical direction, so that the same structure results in the facade panels lying further down, in which the point holder arrangement is mirrored on the vertical axis.

In addition to the facade panels Pn, Pn + 1 and Pn + 2, facade panels with the corresponding fastening system can also be arranged on both sides so that the facade panels adjoin one another on the sides.

According to the invention, the support device 9 is provided for statically determined support of the facade panels Pn on a lower edge 2 of the facade panel Pn, as shown in FIG. 5. In the following, the support device 9 and its function are explained in more detail with reference to FIGS. 5-9. As shown in FIG. 5, the support device 9 has a support section 11 which bears against the lower edge of the facade panel Pn and receives a force resulting from the torque acting on the facade panel Pn. According to this embodiment, the

Support device 9 in the vicinity or directly above a fixed point holder 5 of the underlying facade panel Pn + 1.

The invention is based on the principle that a statically indeterminate mounting of a facade panel with a fixed point holder which can be rotated about its longitudinal axis and further point holders which can be tilted perpendicular to the longitudinal axis is statically determined by the support device 9 between an edge of the facade panel and an edge of a facade panel adjacent to it , According to the invention, the force resulting from the gravity acting on a facade panel is absorbed by the support device 9 and in particular by the support section of the support device 9. The support device 9 is non-positively connected to a fixed element of the system and can thus introduce the force into this fixed element.

Since the support section 11 of the support device 9 is only in contact with the lower edge of the upper facade panel and is not in contact with the upper edge of the lower facade panel or at least essentially no force acts on the support device 9, the facade panels can operate independently of one another can be installed without an assembly / disassembly of one facade panel influencing the attachment status of another facade panel. According to this embodiment, the fixed element is a fixed point holder, which is arranged below the facade panel, which is to be held statically determined by the support device 9.

In this way, the force that would turn the facade panel around the pivot point on the fixed point holder due to gravity, for example, can be absorbed.

The support device 9 according to this exemplary embodiment is designed as an L-shaped arm, as shown in FIGS. 6 and 7. The short leg of the support device 9 serves as a support section 11, which is inserted into the joint between two facade panels Pn, Pn + 1. This support section 11 is in contact with the lower

Edge of an upper facade panel Pn and thus absorbs the force acting from the upper facade panel Pn. According to this exemplary embodiment, the support section 11 is spaced from the upper edge of the lower facade panel Pn + 1.

A toothing 21 is attached to the long leg of the support device 9. In addition, an elongated hole 23 is provided in the region of the toothing 21.

In cooperation with a toothed washer 25, which is shown in FIGS. 8 and 9, in particular by interaction of the toothing 21 of the support device 9 with a toothing 27 of the toothed disk 25, the position of the support device 9 can be fixed with respect to the one

Point holder can be set, as can be seen in Fig. 5. For this purpose, the screw connection with nuts 29 on the fixed point holder 5 is loosened, the position of the support device 9 is adjusted and the screw connection is then tightened again. In accordance with this principle according to the invention, in the present exemplary embodiment the facade panels Pn, Pn + 1 are arranged one above the other, so that the fixed point holder is alternately provided on the upper left corner area and on the upper right corner area of the facade panels. In the case of the facade panels Pn, Pn + 1 arranged one above the other, the support device 9 is also to be arranged alternately offset to the right and left at the joint, so that a support device 9 is always arranged at a joint above the fixed point holder of the underlying facade panel Pn + 1.

In this exemplary embodiment, no connection is provided between the vertical rows of the facade panels that continue to the left and right.

According to a further exemplary embodiment, the support device is fastened to the console, as is shown in FIGS. 10 and 11. For this purpose, the support device 109 is designed such that the adjustable mechanism consisting of toothing 21 and toothed disk 25 is fastened to the console via fastening screws 131.

The support device 109 is designed here as a flat element which is welded to the toothed disk 125.

FIG. 11 shows the structure of the present exemplary embodiment from FIG. 10 in a top view. The support device 109 extends into the

Gap between the facade panels Pn. The free end of the support device 109 is widened according to this exemplary embodiment, so that a support device 109 can support two facade panels Pn arranged next to one another. In contrast, the structure of the overall system remains unchanged. With this structure, the force resulting from the torque of the facade panel can be introduced into a fixed element, which in the case of the present exemplary embodiment is the console. Ultimately, also according to this embodiment, the force is introduced into the facade and the fastening system is kept statically determined.

With the fastening system according to the exemplary embodiment described above, it is possible to fasten and detach the support device 109 without influencing the fixed point holder 5, since the support device 109 is fastened to the console 13.

In addition, according to the exemplary embodiment described above, the fixed point holder 5, which is mounted below the support device, can be assembled or disassembled without the support device 109 having to be changed.

The invention is not restricted to the exemplary embodiments described above.

A damping material can be used between the support section 11, 111 and the facade panels Pn, Pn + 1 in order to avoid damage.

In the exemplary embodiment, a fixed and three freely movable point holders or holding points are shown. However, it is possible to provide a fixed and only two freely movable point holder or holding points. The configuration of the various point brackets and the support device 9 or of the various breakpoints and the support point does not necessarily have to be provided alternately. The fixed point holder or holding points and thus the support device can also be arranged on only one side.

Claims

Expectations

1. fastening system for fastening essentially flat components to a facade or a roof, wherein a component is at least fastened with: a fixed point holder (5), one end of which is immovably attached to the facade or to the component (Pn), and at least two point holders (7) movable in the plane of the component, the ends of which are each tiltably attached to the facade and to the component, characterized by a support device (9) acting laterally on the component, which is attached to the facade or the roof, and absorbs a force resulting from a torque acting on the component (Pn) about the longitudinal axis of the fixed point holder (5).

2. Fastening system according to claim 1, characterized in that the support device (9) of the component (Pn) on the fixed point holder (5) of a component arranged below (Pn + 1) is attached.

3. Fastening system according to claim 1, characterized in that the support device (9) is attached to the facade directly or via a bracket (13) attached to the facade.

4. Fastening system according to claim 3, characterized in that the console (13) is attached to the facade and point holder (5, 7) of at least two adjacent components (Pn, Pn + 1).

5. Fastening system according to one of claims 1-4, characterized in that the position of the support device (9) with respect to the facade is essentially adjustable in the plane of the component (Pn) in particular by means of a fixable toothing (21, 27).

6. Fastening system according to one of claims 1-5, characterized in that the fixed and the movable point holder (5,

7) with their longitudinal axes between the facade and the

Extend component (Pn).

7. Fastening system according to one of claims 1-6, characterized in that the ends of the fixed point holder (5) and / or the

Ends of the movable point holder (7) are rotatable relative to each other.

8. Fastening system according to one of the preceding

Claims, characterized in that the fixed point holder (5) and the movable point holder (7) between the facade and the component (Pn) extend substantially perpendicular with respect to the component and / or the facade.

9. Fastening system according to one of the preceding

Claims, characterized in that the support device (9) on the lower edge of the upper

Device (Pn) attacks.

10. Fastening system according to one of the preceding claims, characterized in that the components (Pn, Pn + 1, Pn + 2) are arranged one above the other in the vertical direction substantially in one plane.

11. Fastening system according to one of the preceding claims, characterized in that the fixed point holder (5) is tiltably attached with one of its ends to the component (Pn) or to the facade.

12. Fastening system according to claim 11, characterized in that the fixed point holder (5) is attached with one of its ends to the component (Pn) or to the facade via a ball joint.

13. Fastening system according to one of the preceding claims, characterized in that the movable point holder (7) is attached via a ball joint to the facade and / or the component (Pn).

14. Fastening system according to one of claims 1-13, characterized in that the movable point holder (7) is attached to the facade and / or the component (Pn) via an elastic clamping connection.

15. Fastening system according to one of the preceding claims, characterized in that the component (Pn) is substantially rectangular and the point holders (5, 7) are attached to corner regions of the component (Pn).

16. Fastening system according to claim 15, characterized in that the fixed point holder (5) in the vertical direction of the adjacent components (Pn) is alternately attached to the upper left corner region of the component or to the upper right corner region of the component.

17. Fastening system according to one of the preceding claims, characterized in that the number of movable point holders (7) on the component (Pn) is three.

18. Fastening system according to one of the preceding claims, characterized in that the support device (109) engages two components (Pn) arranged next to one another.