EP4174242B1 - Sealing arrangement for sealing the transition between façade elements of an element façade - Google Patents

Description

The invention relates to a sealing arrangement for sealing the transition between facade elements of an element facade. The invention also relates to an element facade with such a sealing arrangement.

Larger facade areas with a uniform design are often designed as so-called element facades. Such elemental facades consist of modular facade elements that can be completely prefabricated in the factory and assembled on site. The individual prefabricated facade elements can be easily assembled on the construction site from bottom to top and can be sealed against each other using suitable seals.

From the DE 20 2013 104 125 U1 a facade construction with several facade elements connected to one another via sealing elements is known.

Next is over DE 10 2005 001 986 A1 a facade or roof structure comprising posts and bars. Insulator profiles and glass support seals, to which surface elements such as glass panes can be fixed, are arranged on these posts and bars, whereby the glass system seals can be extruded onto the insulator or the components mentioned can be co-extruded.

DE 101 53 071 A1 discloses a sealing profile and a sealing connection for a post and transom arrangement. To form a sealing connection between a horizontal and a vertical sealing profile, a stainless steel plate is inserted into the front of one of the sealing profiles, with a projection of the stainless steel plate protruding from the sealing profile being inserted into a central slot on the side flank of the other sealing profile. Therefore revealed DE 101 53 071 A1 the features of the preamble of claim 1.

DE 10 2011 011 055 A1 further discloses a pressure strip seal for contact with facade elements.

The object of the invention is to create a sealing arrangement for sealing the transition between facade elements of an element facade and an element facade with such a sealing arrangement, which enable quick and safe assembly with improved sealing.

This object is achieved by a sealing arrangement with the features of claim 1 and by an element facade with the features of claim 12. Appropriate refinements and advantageous developments of the invention are specified in the subclaims.

The sealing arrangement according to the invention for sealing the transition between facade elements of an element facade comprises a saddle seal for sealing the horizontal transition between the facade elements and a coupling seal which can be connected to the saddle seal for sealing the vertical transition between the facade elements, the coupling seal being a co-extruded seal with a softer outer jacket and a harder core that can be inserted into an opening in the saddle seal and bonded to the saddle seal. Using such a sealing arrangement, a stable and continuous sealing of the element joint of the facade elements of an element facade with an optimized sealing function can be achieved. The sealing arrangement is easy to install and enables any water that occurs to be safely drained away.

According to the invention, the coupling seal has a protrusion of the harder core at its upper and lower ends relative to the outer jacket for engagement in the opening of the saddle seal. This allows a particularly stable connection to be achieved between the coupling seal and the saddle seal. The protrusion of the hard core can expediently be produced by cutting the softer sheath at a desired location up to the harder core, as with a power cable, and pulling it off from the core.

For example, the core can have a Shore hardness between 70 and 95 and the jacket can have a Shore hardness between 30 and 60.

In a further expedient embodiment, the opening in the saddle seal provided for receiving the core of the coupling seal can be designed as a cutout in a cover arranged above a receiving channel of the saddle seal and molded onto it. To make the opening easy, the cover can be provided with appropriate separating slots on its edges.

In a further advantageous embodiment, the saddle seal can contain an elastically flexible sealing body provided with an adhesive area for sealing the transition between horizontal frame elements of two horizontal facade elements arranged one above the other. By gluing the sealing body, it can be prevented that the sealing body sinks, particularly after prolonged use, thereby impairing the sealing effect. The adhesive area can be formed by a groove on the top of the sealing body.

To seal the transition between the horizontal frame elements of two horizontal facade elements arranged one above the other, the saddle seal can also have a web, which is expediently designed to engage in internal profiles of two horizontal facade elements arranged one above the other.

In a further advantageous manner, the web of the saddle seal can have a groove for receiving a support bracket. The saddle seal can be fixed using the support bracket. The saddle seal can also contain a nose for mounting in an outer profile of a horizontal facade element.

The invention also relates to an element facade in which the horizontal and vertical transitions between the facade elements formed with horizontal and vertical frame elements are sealed via a sealing arrangement described above.

Figur 1

einen Horizontalschnitt eines Übergangsbereichs zwischen Fassadenelementen einer Elementfassade;

Figur 2

einen Vertikalschnitt eines Übergangsbereichs zwischen Fassadenelementen einer Elementfassade;

Figur 3

eine Dichtungsanordnung zur Abdichtung des Übergangs zwischen Fassadenelementen einer Elementfassade in einer Perspektivansicht;

Figur 4

eine Koppeldichtung der in Figur 3 gezeigten Dichtungsanordnung;

Figur 5

eine Satteldichtung der in Figur 3 gezeigten Dichtungsanordnung;

Figur 6

eine Verbindung der in Figur 4 gezeigten Koppeldichtung mit der in Figur 5 gezeigten Satteldichtung und

Figur 7

die in Figur 6 gezeigte Koppeldichtung und Satteldichtung mit einem Rahmenelement.

Further special features and advantages of the invention result from the following description of a preferred exemplary embodiment based on the drawing. Show it:

Figure 1

a horizontal section of a transition area between facade elements of an element facade;

Figure 2

a vertical section of a transition area between facade elements of an element facade;

Figure 3

a sealing arrangement for sealing the transition between facade elements of an element facade in a perspective view;

Figure 4

a coupling seal in Figure 3 seal arrangement shown;

Figure 5

a saddle seal in Figure 3 seal arrangement shown;

Figure 6

a connection of the in Figure 4 coupling seal shown with the in Figure 5 shown saddle seal and

Figure 7

in the Figure 6 shown coupling seal and saddle seal with a frame element.

In Figure 1 is a horizontal section and in Figure 2 a vertical section of a transition area or element joint of two facade elements of an element facade formed with vertical frame elements 1 and horizontal frame elements 2 is shown. An element facade is usually formed by several facade elements arranged next to one another and one above the other. These facade elements can be completely prefabricated in the factory and assembled on site. When assembling the element facade, the lower facade elements are first attached to a supporting structure. Further facade elements are then placed on the lower facade elements and connected to each other using sealing elements. This means that large-scale facades can be installed easily. In the embodiment shown, the vertical and horizontal frame elements 1 and 2 forming a frame of the facade elements are a wood-metal construction with a support 3 or a cross member 4 made of wood and holding elements 5 attached thereto for fastening glass panes, panels or other facade elements 6 executed. The supports 3 and cross members 4 form a support frame made of wood to which the holding elements 5 are attached. The holding elements 5 are designed as composite profiles with an inner profile 7 and an outer profile 9 connected to it via insulating webs 8.

The support frame formed from the vertical supports 3 and the horizontal cross members 4 is made of wood in the embodiment shown, but can also be made of metal, plastic or another suitable material. The inner profile 7 and outer profile 9 are preferably made of aluminum, while the insulating webs 8 are preferably made of hard plastic. In the exemplary embodiment shown, the composite profile is attached to the support 3 or the cross member 4 by means of screws 10 and 11 via the inner profile 7, which is preferably made of aluminum.

The inner profile 7, which is fastened here by means of the screws 10 and 11 to the support 3 or the cross member 4, has an outwardly open receiving channel 12 on its outside facing the inner profile 7 of the next facade element and one provided with a holding profile on its inside facing the facade element 6 Holding web 13 for holding an inner support seal 14. The inner profile 7 also contains a screw channel 15 for a fastening screw 16 for fastening a pressure strip 17 on its front end facing away from the support 3 or the cross member 4. The outer profile 9, which is connected to the inner profile 7 via the insulating webs 8, also contains a screw on its outside externally open receiving channel 18 and on its front end facing away from the insulating webs 8 a holding channel 19 for holding a compensating element 20. The side facing the frame elements 1 and 2 of the next facade element is used as the outside of the inner profile 7 and the outer profile 9 and the side facing the facade element is used as the inside 6 pointing side designated.

The pressure strip 17, which is fastened to the inner profile 7 via the fastening screw 16, has two mutually parallel receiving grooves 21 for receiving two outer seals 22. A cover 23 is attached to the press bar 17 via a clip connection.

How out Figure 1 As can be seen, for sealing the vertical transition between the two successive vertical frame elements 1 of two facade elements arranged next to one another in the two receiving channels 12 of the inner profiles 7 arranged next to one another, one is also in Figure 3 shown and in Figure 4 vertical coupling seal 24 shown separately is used. To seal the in Figure 2 The horizontal transition shown between the two horizontal frame elements 2 arranged one above the other of two facade elements arranged one above the other also serves in Figure 3 shown and in Figure 5 saddle seal 25 shown separately, which can be connected to the coupling seal 24.

The coupling seal 24 is designed as a co-extruded seal with a harder core 26 and a softer outer jacket 27. In the embodiment shown, the outer jacket 27, for example, has a Shore hardness of 50 and the harder core has a Shore hardness of 90. The strip-shaped coupling seal 24 contains a core 26 with a rectangular cross-section and a jacket 27 surrounding it, on which outwardly projecting sealing lips 28 and 29 are provided for sealing contact with the inner walls of the receiving channels 12. As with a power cable, the softer jacket 27 can be cut and removed at a desired location up to the harder core 26, so that a desired projection 30 of a rectangular hard part of the core 26 is left on the top and bottom of the coupling seal 24 for positive engagement with the Saddle seal 25 remains.

How out Figure 2 As can be seen, the saddle seal 25 has a rear web 31 for engaging in the two recesses 12 of two inner profiles 7 arranged one above the other on the upper and lower horizontal frame elements 2 of two facade elements arranged one above the other. The saddle seal 25 also contains a cover 32 projecting forward from the web 31, which projects over the inner profile 7, the upper insulating web 8 and the outer profile 9 of a holding element 5 on a horizontal frame element 2 of the lower facade elements and at its front end over a molded one Nose 33 is held in a receiving channel 18 of the outer profile 9. On the side of the cover 32 facing away from the nose 33, an upwardly projecting, elastically flexible sealing body 34 is formed. The saddle seal is additionally fixed via a support bracket 36 which engages in a groove 35 in the web 31 and can be fastened to the cross member 4 by means of the screw 11. The sealing body 34, designed as a hollow body, is used to rest on a flat seal 37, which is arranged on the outer profile 9 of a holding element 5 on a horizontal frame element 2 of an upper facade element. The saddle seal 25 seals the horizontal distance between facade elements arranged one above the other.

In Figure 5 It can be seen that the saddle seal 25 on the top and bottom of the web 31 each has a receiving groove 39 closed by means of a cover 38 for receiving the projection 30 of the coupling seal 24. The cover 38 is included on its edges Separating slots 40 are provided to form a separating contour. As a result, the cover 38 can be easily separated at certain points and the receiving groove 39 can be exposed there for connection to the coupling seal 24. The contour of the receiving groove 39 is matched to the contour of the harder core of the coupling seal 24, so that the projection fits exactly into the receiving groove 39. The receiving groove 39 has a width corresponding to the thickness of the core. The sealing body 34 contains an adhesive area 41 on its upper side facing the flat gasket 37 for a firm connection to the flat gasket 37. In the embodiment shown, the adhesive area 41 is designed as a groove for introducing an adhesive. By gluing the sealing body 34 to the flat gasket, it is possible to prevent the sealing body from sinking and thereby impairing the sealing effect.

For further sealing of the vertical transition between the two successive vertical frame elements 1 of two facade elements placed next to one another, according to Figure 1 In the two receiving channels 18 of the juxtaposed outer profiles 9, elastically flexible and mutually abutting outer seals 42 are inserted. In addition, on the successive supports 3 and cross members 4 of the frame in the Figures 1 and 2 shown, mutually abutting, elastically flexible privacy seals 43 may be arranged.

When assembling an element facade with the sealing arrangement described above, one can be installed in the Figures 3 and 5 Saddle seal 25 shown is placed on the upper horizontal frame elements 2 of several lower facade elements arranged next to one another and fastened by means of the support brackets 36. Either before or afterwards, specific areas of the covers 38 can be removed on the saddle seal 25 at the locations intended for the coupling seals 24 Figure 6 rectangular openings 44 shown are created on the top of the web 31. An adhesive can then be introduced into the receiving grooves 39 via these openings 44, which are adapted to the size of the core 26 of the coupling seal 24, before the coupling seal 24 with its exposed core 26 is inserted into the opening 44. An adhesive is then introduced into the adhesive area 41 designed as a groove. According to Figure 7 A facade element provided with horizontal and vertical holding profiles 5 can then be placed on the saddle seal 25 in such a way that the outer profile 9 of the horizontal holding element 5 with its flat seal 37 rests on the sealing body 34 of the saddle seal 25, the web 31 of the saddle seal 25 in the Receiving channel 12 on the horizontal lower holding element 5 of the attached facade element and the coupling seal 24 enters the receiving channel 12 on the vertical holding element 5. 25 additional facade elements can then be placed on the saddle seal, as shown in Figure 3 is shown.

Reference symbol list

1

Vertical frame element

2

Horizontal frame element

3

support

4

Cross beam

5

Holding profile

6

Facade element

7

Internal profile

8th

Insulating bridge

9

External profile

10

screw

11

screw

12

Recording channel

13

holding bridge

14

Inner support seal

15

screw channel

16

Fastening screw

17

Press bar

18

Recording channel

19

holding channel

20

Compensating element

21

receiving groove

22

External seal

23

cover

24

coupling seal

25

Saddle seal

26

core

27

outer skin

28

sealing lip

29

sealing lip

30

Got over

31

web

32

Cover leg

33

Nose

34

sealing body

35

Nut

36

Support angle

37

Flat gasket

38

cover

39

receiving groove

40

Separation slot

41

Adhesive area

42

External seal

43

Privacy seal

44

opening

Claims (12)

1. Sealing arrangement for sealing the transition between facade elements (1, 2) of an element facade, the sealing arrangement comprising a saddle seal (25) for sealing the horizontal transition between the facade elements (1, 2) and a coupling seal (24) which can be connected to the saddle seal (25) for sealing the vertical transition between the facade elements (1, 2), wherein the coupling seal (24) is formed with a softer outer shell (27) and a harder core (26) which can be inserted into an opening (44) of the saddle seal (25) and can be bonded to the saddle seal (25), the coupling seal (24) having at its upper and lower end a projection (30) of the core (26), which projects with respect to the outer shell (27), for engagement in the opening (44) of the saddle seal (25), characterized in that the coupling seal (24) is designed as a coextruded seal.
2. Sealing arrangement according to claim 1, characterized in that the core (26) has a Shore hardness of between 70 and 95 and the shell (27) has a Shore hardness of between 30 and 60.
3. Sealing arrangement according to one of claims 1 or 2, characterized in that the opening (44) in the saddle seal (25) provided for receiving the core (26) of the coupling seal (25) is formed as a cutout in a cover (38) arranged over a receiving channel (39) of the saddle seal (25) and integrally formed thereon.
4. Sealing arrangement according to claim 3, characterized in that the cover (38) is provided with separating slits (40) at its edges.
5. Sealing arrangement according to one of claims 1 to 4, characterized in that the saddle seal (25) contains an elastically resilient sealing body (34) provided with an adhesive area (41) for sealing the transition between horizontal frame elements (2) of two horizontal facade elements arranged one above the other.
6. Sealing arrangement according to claim 5, characterized in that the adhesive area (41) is formed by a groove on the upper side of the sealing body (34).
7. Sealing arrangement according to one of claims 1 to 6, characterized in that the saddle seal (25) contains a bar (35) for sealing the transition between horizontal frame elements (2) of two horizontal facade elements (2) arranged one above the other.
8. Sealing arrangement according to claim 7, characterized in that the bar (35) of the saddle seal (25) is designed to engage in inner profiles (7) of two horizontal facade elements (2) arranged one above the other.
9. Sealing arrangement according to claim 7 or 8, characterized in that the bar (35) of the saddle seal (25) has a notch (35) for receiving a support brace.
10. Sealing arrangement according to one of claims 7 to 9, characterized in that the sealing body (34) is formed on a cover (32) of the saddle seal (25) projecting forwards from the bar (35).
11. Sealing arrangement according to one of claims 1 to 10, characterized in that the saddle seal (25) includes a lug (33) for mounting in an outer profile (9) of a horizontal facade element (2).
12. Element facade, in which the horizontal and vertical transitions between the facade elements formed with horizontal and vertical frame elements (1, 2) are sealed via a sealing arrangement according to one of claims 1 to 11.

Images