EP2754833B1 - Glass mount for a façade structure - Google Patents

Description

The present invention relates to a glass holder for a facade construction, with a fixing portion which can be fixed to a support profile of a facade construction and a support surface on which a filling element can be placed.

The EP 1 167 647 discloses a facade construction in which an angle-shaped clamping element is fixed to a support profile on a screw groove. The clamping element engages with a laterally projecting portion in a groove of a holding part, by means of which a filling element is set in the form of an insulating glass pane. Such holding parts must be provided circumferentially on a filling element at regular intervals depending on the static requirements. However, the clamping element mounted on the screw can not absorb weight loads of the filling element.

The DE 203 00 134 discloses a support structure for façade or roof lighting in which a glass holder is mounted on a screw groove of a support profile, engages with a lateral portion in a groove of a holding part between two glass panes an insulating glass and thus secures them against loosening of the facade construction. Again, there is the problem that such glass holder must be mounted circumferentially, but these can not absorb weight loads. For this purpose, additional plate-shaped glass holder are provided on a latch profile of the facade construction.

The EP 2 189 611 A1 discloses a facade construction in which an insulating strip made of an elastic material is inserted at a screw groove. In order to determine insulating glass panes, rotatable glass holders are also provided, which are fixed by means of fastening screws to the screw groove and engage with arms in a groove on an edge of an insulating glass pane, in order to fix these to sealing profiles.

It is therefore an object of the present invention to provide a glass holder for a facade construction, which allows easy installation and ensures a secure fixing of filling elements.

This object is achieved with a glass holder with the features of claim 1.

According to the invention, the glass holder comprises a support surface on which a filling element can be placed, and additionally the glass holder has at least one holding part that can be moved into a position projecting from the support surface in order to secure the filling element. As a result, the filling element, for example an insulating glass pane, can be placed on the support surface and aligned. About the support surface, the glass holder can absorb static weight loads, in which case the retaining member is moved to secure the filling element in a protruding position, so that a drop of the filling element is prevented. Distributed over the circumference several glass holder can be provided on the filling element.

The at least one holding part is displaceable or pivotable from a retracted position, in which it is received substantially within the glass holder, into a position projecting from the supporting surface. The holding part can be inserted in a starting position initially in a receptacle of the glass holder, so that the filling element can be placed on the support surface. If the filling element is aligned, then the holding part can be moved into the protruding position, for example in the groove of a holding part, on the outside of the filling element or in a receptacle on the outside of the filling element to secure it to the facade structure.

According to a preferred embodiment, the at least one holding part is rotatably mounted about an axis. The axis can be rotated with the holding part via a tool, such as a screwdriver. The axis of the holding part may be formed for example by a screw which can be screwed with a tip into a helical groove of the support profile. As a result, the holder can be clamped in a protruding position over the screws. When the holding member is rotatably supported, the rotational movement may be limited by stops to fix the holding member in a protruding position.

For a secure attachment of the glass holder to the facade construction of the glass holder may have a plurality of screw channels for inserting screws, which are screwed into a screw groove of the support profile. As a result, even static weight loads can be reliably removed by the filling element on the support profile.

Preferably, the glass holder is designed as a hollow profile or hollow component, for example made of plastic, wood or metal. In a hollow chamber can then be provided a holding part or a hollow chamber forms part of a screw. It is also possible to form the glass holder as a solid component, for example as a cast part or as a machined part.

It is possible that the holding part protrudes only on the support surface to secure a filling element. Preferably, the at least one holding part in the holding position on a protruding from the support surface portion and on the opposite side is also a portion of the glass holder protrudes. As a result, a filling element can be secured on the opposite sides of the glass holder via the holding part. By turning the holding part thus two filling elements can be secured to a facade construction.

According to an alternative embodiment of the invention, the at least one holding part is displaceably mounted on the glass holder and biased by a spring in a position protruding from the support surface. Then, the holding part can be pressed into a retracted position via a tool or the filling element and then snaps into a groove or receptacle on the filling element in order to secure the filling element to the glass holder.

The glass holders are preferably mounted in a crossing region of a facade structure and each have on the opposite sides of the intersection of the support profiles on a support surface with at least one holding part. Instead of two glass holders in the crossing region, it is also possible to use only one continuous glass holder which has a bearing surface with at least one holding part on opposite sides of the crossing. Then, by mounting a glass holder at two spaced positions, one or two filling elements can be defined.

The invention also provides a facade construction, in particular a structural glazing construction or a transom-post construction, in which a glass holder according to the invention is mounted on a supporting profile. The glass holder can be used instead of a facade construction also in a light roof construction, which represents a facade construction in the context of the present invention.

Figur 1

eine Schnittansicht durch eine Fassadenkonstruktion mit einem erfindungsgemäßen Glashalter;

Figur 2

eine perspektivische Ansicht des Halteteils des Glashalters bei der Montage;

Figur 3

eine Draufsicht auf den Glashalter der Figur 1 während der Montage;

Figur 4

eine Detailansicht des Halteteils des Glashalters der Figur 3;

Figuren 5A bis 5C

mehrere perspektivische Ansichten von Glashaltern in unterschiedlichen Einbausituationen;

Figur 6

eine geschnittene Ansicht durch eine Fassadenkonstruktion mit einem modifizierten Glashalter;

Figuren 7A bis 7C

mehrere Ansichten des modifizierten Halteteils des Glashalters der Figur 6;

Figuren 8A und 8B

zwei Ansichten eines Glashalters mit unterschiedlichen Positionen des Halteteils; und

Figur 9

eine perspektivische Ansicht einer weiteren Ausführungsform eines erfindungsgemäßen Glashalters.

The invention will be explained in more detail with reference to several embodiments with reference to the accompanying drawings. Show it:

FIG. 1

a sectional view through a facade construction with a glass holder according to the invention;

FIG. 2

a perspective view of the holding part of the glass holder during assembly;

FIG. 3

a plan view of the glass holder of FIG. 1 during assembly;

FIG. 4

a detail view of the holding part of the glass holder of Figure 3;

FIGS. 5A to 5C

several perspective views of glass holders in different installation situations;

FIG. 6

a sectional view through a facade construction with a modified glass holder;

FIGS. 7A to 7C

several views of the modified holding part of the glass holder of FIG. 6 ;

Figures 8A and 8B

two views of a glass holder with different positions of the holding part; and

FIG. 9

a perspective view of another embodiment of a glass holder according to the invention.

A facade construction 1 comprises a supporting profile 2, which forms a bolt or post, preferably a horizontal bar. The supporting profile 2 has on an outer side two parallel spaced grooves 3, on which glass plant seals 4 are fixed. Between the two grooves 3, a screw groove 5 is formed on which an inventive glass holder 6 is fixed.

At the in FIG. 1 shown facade structure 1, the lower glass holder 6 is shown in a securing position in which protrudes on opposite sides of the glass holder 6, a holding part 7 and engages in a groove of a holder 8. The holder 8 is fixed to a filling element 9 in the form of an insulating glass pane, wherein the holder 8 is fixed with an adhesive to the glass panes of the insulating glass pane or is held by other mechanical fastening means. The holding part 7 is rotatably mounted about an axis 11.

In the glass holder 6 in the upper part of FIG. 1 the holding parts 7 are still received within the glass holder 6, so that the upper filling element 9 can be positioned on a support surface 20 of the glass holder 6 until the groove of the holder 8 is adjacent to the rotatable holding part 7, which can then be rotated into position , which is shown in the lower part of the facade construction 1.

In FIG. 2 the holding part 7 is shown, which has a ring 15 with a slot-shaped passage opening 16 at a central region, so that a web-shaped section is formed on opposite sides, which is arranged in a starting position within the glass holder 6 and by turning 90 ° in one of the support surface 20 and on the opposite side of the glass holder 6 protruding position can be rotated. In order to rotate the holding part 7, an axis 11 is provided which has a head portion with a tool holder 12 which is accessible from the outside. On the opposite side, the axis 11 is inserted with webs 14 in the slot-shaped passage opening 16 of the holding part 7, so that the axis 11 can be rotated together with the holding part 7. Thus, it is visible from the outside, whether the holding part 7 is arranged in a starting position or in a protruding position, depending on the position in which the tool holder 12 is aligned. The holding part 7 is held with the ring 15 in a receptacle of the glass holder 6, so that a movement perpendicular to the plane of the filling element 9 is prevented.

In FIG. 3 is a plan view of a facade construction shown during assembly. On the right side, a glass holder 6 is mounted on a support profile 2, wherein on the glass holder 6 a plurality of screw channels 21 are formed, can be inserted through the screws, which are then screwed into the screw 5 of the support section 2. Adjacent to a screw 21, the head portion 12 of the axis 11 can be seen, by means of which the holding part 7 can be rotated. In FIG. 3 the holding part 7 is received within the glass holder 6 while in FIG. 4 a position is shown in which the holding member 7 has been rotated by 90 °, so that both on the upper side of the glass holder 6 and on the underside a web-shaped portion of the holding member 7 protrudes and can secure a filling element 9 in the mounted position.

In the FIGS. 5A to 5C different embodiments of a glass holder 6 are shown, which can also accommodate large loads. In FIG. 5A a glass holder 6 is shown, which has two spaced support surfaces 20, on each of which a holding part 7 is rotatably mounted. Between the support surfaces 20, a vertical vertical insulating bar 30 is provided, so that the glass holder 6 is mounted in a crossing region of a facade construction, wherein the insulating web 30 is located only above the glass holder 6.

At the in FIG. 5B embodiment shown is the glass holder 6 opposite FIG. 5A rotated by 180 °, so that the vertical insulating bar 30 is directed downward. Now support surfaces 20 are formed on the upper side, on each of which a holding part 7 protrudes. In FIGS. 5A and 5B glass holders 6 are shown which can be mounted on T-shaped connection points on the facade structure.

In FIG. 5C a cross-shaped glass holder is shown in which two bearing surfaces 20 are provided on opposite sides of a crossing point. Further, a vertical insulating ridge 30 is provided which protrudes both at the top and at the bottom of the glass holder 6.

On the side facing the screw groove 5, the glass holders 6 have a fastening section 25 which has webs which can be inserted around the screw groove 5 or into the screw groove 5.

In FIG. 6 a modified facade construction is shown in which on the support profile 2, a glass holder 6 is fixed by screws 28 to a screw 5. The glass holder 6 has a rotatable holding part 7, as in FIG. 1 in a groove of a holder 8 can be inserted in order to secure a filling element 9 in the form of an insulating glass pane on the support profile 2. Unlike the one in FIG. 1 As shown, the holding part 7 is rotatably mounted about an axis in the form of a screw 29, which is screwed into the screw groove 5. By tightening the screw 29, the holding member 7 can be clamped in a protruding position.

In the FIGS. 7A to 7C the holding part 7 is shown in detail, which is formed substantially web-shaped and at the central region has a protruding ring 15 with a slot-shaped passage 16. Through the slot-shaped passage 16, which is formed in the central region substantially circular, can be screwed into a shank of a screw 28. The holding part 7 protrudes upon rotation on opposite sides of the glass holder 6.

In Figures 8A and 8B the glass holder 6 is shown in different positions, in FIG. 6 the holding part 7 is received within the glass holder 6, which is formed as a hollow profile and at the top of a flat support surface 20 is formed. On the side facing the support profile 2, the glass holder 6 is provided with a fastening portion 25 which has two outer webs 26 which can engage around the screw groove 5 of the support profile 2. Between the two webs 26, a central web 27 is arranged, which engages in the screw groove 5, so that the glass holder 6 is fixedly mounted to the horizontal support section 2 for fixing by one or more screws.

In FIG. 8B the holding part 7 is shown in a rotated position, projects in the portions of the holding part 7 of the upper support surface 20 and also on the lower side of the glass holder, the holding part 7 protrudes. Furthermore, a tip of a screw 28 can still be seen on the attachment portion 25, which can be screwed into the screw groove 5.

In FIG. 9 a modified embodiment of a glass holder 6 'is shown having two spaced bearing surfaces 20, on which modified holding parts 7' are provided. The holding parts 7 'are non-rotatably mounted on the glass holder 6', but displaceable, wherein the glass holder 7 'from a retracted position in which they are disposed within the glass holder 6, are displaceable in a protruding position, and a spring element is provided, which biases the holding parts 7 'in a protruding position. The holding parts 7 'can be pressed in by hand 35 or via a tool, to mount a filling element 9 on the glass holder 6 '. In an intermediate region of the glass holder 6 'an insulating web 30 is provided with screw channels 31, so that this glass holder 6' can be mounted at a crossing point of a facade construction. It is also possible to provide the glass holder 6 'only with a holding part 7' or to arrange it on a T-connection of a facade construction. It is advantageous in the sprung version of the glass holder 6 ', the tool-free and positionally secure installation of the filling elements by the latching undercut. The release is again possible only with a corresponding tool.

In the embodiments shown, a holder 7 or 7 'is provided on a bearing surface 20. It is possible to provide the glass holder with a plurality of spaced-apart holding parts 7, 7 ', which engage in a groove of a holder 8 of the same filling element 9.

The holding part 7 has, during a rotation, two projecting portions which each serve to define an upper and a lower filling element 9. It is also possible to let the holding part 7 protrude only on one side, just in the edge region of a facade structure. 1

For a stable support of the filling elements 9, the glass holder 6 may be made of metal or plastic. Also, the holding part 7 can be made of plastic or metal as needed. The glass holder 6 can be made for example as an extruded hollow profile, which is separated in the desired length and then provided with a holding part 7 '.

The glass holders 6, 6 'are used in particular for fixing insulating glass panes. But it is also possible with the glass holders 6, 6 'other filling elements 9 to fix, for example, panels, panels or signs for the outer lining of a building, wherein the filling elements 9 need not be made of glass.

LIST OF REFERENCE NUMBERS

1

facade construction

2

support section

3

groove

4

Glazing seal

5

screw groove

6

glass holder

6 '

glass holder

7

holding part

7 '

holding part

8th

holder

9

filling element

11

axis

12

tool holder

14

web

15

ring

16

Through opening

20

bearing surface

21

screw

25

attachment section

26

web

27

center web

28

screw

29

screw

30

Insulating web

35

hand

Claims (11)

1. Glass mount (6) for a façade construction, having a fastening section (25) which can be fixed to a supporting profile (2) of a façade construction, and having a bearing surface (20) for a filling element (9), wherein at least one holding part (7, 7') is provided on the glass mount (6, 6'), which holding part can be moved into a position projecting from the bearing surface (20) in order to secure the filling element (9), wherein the at least one holding part (7, 7') is displaceable or pivotable from a retracted position, in which it is received substantially inside the glass mount (6, 6'), into a position projecting from the bearing surface (20), and the holding part (7, 7') is insertable into a receptacle of the glass mount (6), characterized in that the filling element can be placed on the bearing surface.
2. Glass mount according to claim 1, characterized in that the at least one holding part (7) is rotatably mounted about an axis (11, 25).
3. Glass mount according to claim 2, characterized in that the axes (11, 28) with the holding part (7) are rotatable via a tool.
4. Glass mount according to claim 2 or 3, characterized in that the axes (11, 25) of the holding part (7) are formed by a screw which can be screwed with a tip into a screw groove (5) of the supporting profile (2).
5. Glass mount according to one of the preceding claims, characterized in that a plurality of screw channels (21) are provided on the glass mount (6, 6') for inserting screws for fastening the glass mount (6, 6') to a screw groove (5) of the supporting profile (2).
6. Glass mount according to one of the preceding claims, characterized in that the glass mount (6, 6') is designed as a hollow profile.
7. Glass mount according to one of the preceding claims, characterized in that the at least one holding part (7) projects in a holding position from the bearing surface (20) and on the opposite side a section of the holding part (7) also projects from the glass mount (6).
8. Glass mount according to one of the preceding claims, characterized in that the at least one holding part (7') is displaceably mounted on the glass mount (6') and is pretensioned by a spring into a position projecting from the bearing surface (20).
9. Glass mount according to one of the preceding claims, characterized in that the glass mount (6, 6') can be mounted on the façade construction in an intersection region and a bearing surface (20) with at least one holding part (7, 7') is provided on opposite sides of the intersection of the supporting profiles (2).
10. Glass mount according to one of the preceding claims, characterized in that the glass mount (6, 6') and/or the holding part (7, 7') are made of plastic or metal.
11. façade construction, in particular structural glazing construction or transom-mullion construction, characterized in that a glass mount (6, 6') according to one of the preceding claims is mounted on a supporting profile (2).

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