EP0712971B1 - Arrangement for mounting and fastening of facade plates - Google Patents

Abstract

Each plate holder (5) covers only part of the edges (3,4) of a plate (1), and has an inner and outer clamp (6,7) to hold the plate edge (3,4) between them. A section (8) as a thermal insulation bonding is between the holder (5) clamps (6,7), with a laying edge (26) for the lower edge (3) of the plate (1). The inner clamp (6) of each holder (5) has a positioner (9) for setting on three axes which is fitted (10) to the building structure (11).

Description

The invention relates to a device for mounting and fastening of facade panels, especially glass panels Facades of buildings, the facade panels at the edge held by plate holders, and these plate holders Connected to the building structure via fasteners are.

It has been known from modern architecture for several years to clad entire building facades with glass panels, other plates, e.g. those with photovoltaic Elements that can be used. Such facades are known as all-glass facades, or under the English technology term "Structural glazing ". The all-glass facades are made up of individual Glass plates that abut each other in the edge areas, educated. You have to go through appropriate brackets held and connected to the building structure. The building structure forms the static skeleton and the facade panels the aesthetically pleasing cladding of the Building. So that the aesthetic effect is fully effective comes, the glass plates should be in their mutual assembly Alignable position and also in the common Can be aligned on each other. The well-known facilities for mounting facade panels, and in particular Glass plates do not have sufficient adjustability and sometimes result in undesirable and unaesthetic Transitions in the edge areas.

CH-A5-674 541 is a glass pane as a facade element known in which a glass sheet from several glass plates is built, and in which hook-shaped elements connect to a plate frame. Here grasp the hook-shaped elements between the individual Glass plates of the pane, which is a special design the connection between the plates and also a special one Manufacturing process requires. Therefore none can Glass panes from conventional manufacturing are used. In addition, a frame is required, which is the disc includes along the entire circumference. The assembly of the glass plates or glass panes on the building is done with additional Fasteners by means of which the frame the glass panes are connected to the building structure. The in the spaces between the glass plates of a glass sheet engaging hooks form a source of interference in the construction of the Glass pane, which can lead to breaks. Alignment of the individual glass panes against each other is only considerable Effort possible, so under certain circumstances unequal wide or sloping joints between the individual Disks are created. Another bracket for wall and Ceiling panels, in particular glass panels, is in DE-A1-39 27 653. With this type of bracket are in the Glass plates arranged through holes through which a clamping screw is carried out. With the help of this Tensioning screws are arranged on both sides of the glass plate Clamping plates against the two surfaces of the glass plate pressed and clamped with it. The against the Building structure facing side arranged clamping plate is mounted on a ball joint, which is the movements that can hold glass plates. The ball pivot of the ball joint is in turn connected to a screw connection, which allows adjustment in the axial direction. The Anchoring of the screw connection is further designed so that they can slide in one direction in one rail is. Additional setting options to compensate for Tolerances and dimensional differences are formed by the fact that the anchoring holes and also the hole through the Glass plate are larger than the continuous Screws or tenons. The solution described here points the disadvantage that holes are drilled in the glass plates have to be what, especially with multilayer built up glass plates to considerable difficulties leads. For facade glazing in most cases toughened glasses are used, in which the holes must be attached before pretensioning. For laminated glasses then the holes are usually not exactly on top of each other and this can lead to between Clamping screw and hole wall in different glasses there is no more leeway. In such cases there is a very great risk that the glass plates in the area of Bore damaged and destroyed in extreme cases. This is used for glass panels used in building facades become a serious shortcoming, obviously. Also the Additional adjustment options for the glass plate bracket described are very imprecise, and the adjustability is only perpendicular to the glass plate level in the axial direction guaranteed guaranteed. There is also another disadvantage in that a pre-positioning of the plate brackets is relatively difficult because, as mentioned, the drilling in the plates can deviate from their specified position and sometimes have no tolerance. There are also neighboring ones Boards in the edge areas not separated from each other, what about assembly, especially mutual Touching the panels, to damage the edge areas can lead. This, in turn, can break all over Lead plates. Both of the known solutions described above also have the disadvantage that they have a Form a cold or heat bridge from the outside in. This is particularly useful for facade glazing made of insulating glass undesirable. Another device for fastening Facade panels are also known from GB-A-2 155 981.

It is an object of the present invention to provide a device for the assembly and fastening of facade panels, in particular To create glass panels, in which the facade panels The facade panels are adjustable in all three room levels itself no holes or other breakthroughs and also should not have any elements between the layers of the glass plates, and the inside of which the plate holder from the outside thermally is isolated. In addition, the facility is to preposition allow the plate holder and vertical Protect neighboring panels from mutual contact. The plate holder should be designed so that it the external appearance of the overall facade, in particular with all-glass facades, do not disturb and an even Allow design of the joints between the facade panels.

This task is carried out by the im Defined claim 1 defined features. Beneficial Further developments of the invention result from the features of the dependent claims.

In the device according to the invention, the facade panels, which in most cases consist of glass plates, held by the two-piece plate holder. This Plate holders only extend over a part of the Length of a plate edge, and the two plate holder parts are connected to each other via a thermally insulating connecting part connected. The inner and outer clamping part of each Plate holder has no direct connection to the other Part on, and also the clamping element, which for clamping of the two plate holder parts on the edge of the facade or. Glass plate serves, engages in the thermally insulating Connecting part. This has the advantage that a Heat or cold flow from outside to inside, or vice versa, is interrupted. Another advantage of the invention is that the connecting part between the two Clamping parts of the plate holder as a support for the lower one Area of a facade or glass plate. So that will ensures that the overlying edge area of the glass plate rests on a homogeneous surface and any Dimensional differences between the outer and the inner Clamping part of the plate holder no damage to the edge areas cause. It is particularly advantageous off when between the connecting part of each plate holder and the edge area of the facade panel, an intermediate panel is inserted, and this intermediate plate opposite the connecting part is movable. This way Shifts in the edge areas, which are the result of Wind pressure or thermal deformations can occur even out without any areas of the edge areas would be burdened excessively.

Another advantage is that the positioning device, which with each inner clamp part of a plate holder is connected, adjustable in three spatial directions, and thus each plate holder both perpendicular to the surface of the facade panels, as well as in horizontal and vertical Direction is adjustable. This is on each plate holder the inner clamping part via an adjustable and lockable Threaded pin connected to a sliding plate, which on stored on a curved sliding surface and on this sliding surface Slidable in vertical and horizontal direction is. Additional setting aids enable precise Position the axis of each plate holder and corresponding Locking means a locking in the desired Position. The sliding plate can be used with any, in known structures formed static structures of a building connect. The positioning has an additional one high degree of freedom on what the possibilities the additional alignment of the facade panels improved.

The two clamping parts of each plate holder are on the opposite the barrel plate facing side with an elastic Sealing element equipped. This sealing element will determined in a known manner so that the hardness and design a perfect clamping of the enclosed edge area parts enable the facade panel. The geometric The design of the clamping elements leaves a lot of leeway open, and in particular the outer clamping part of each plate holder can be used as an additional structural element become. In any case, the clamping parts are so high that a guaranteed secure gripping of the edge areas of the facade parts is, and yet the aesthetic appearance the entire facade is not disturbed. Between neighboring Plate holders become those between the neighboring glass plates existing joints in a known manner with seals and sealants filled. The inventive The device has the advantage that both on the Inside, as well as on the outside of the facade Frame parts are present, which give the aesthetic impression can disturb. In addition, facade panels and in particular Use glass plates, which in a conventional manner are manufactured and do not require an additional frame. In order to can be easily and multiple glazings use, but also combinations of different Facade panel types. Because the facade panels no holes or openings have to have, and plates be used from the normal production process can result in a significant simplification and at the same time a higher security against damage to the Plates during use and their lifespan. At the Building or assembling a facade from appropriate Facade or glass panels have the additional advantage that the panels with the edge areas in the panel holder can be placed, and their lower Edge area between the sealing elements on the clamping parts and flexible by means of the movable intermediate plate is held. When installing the in the vertical direction above lying next adjacent plate will be the first Plate brackets attached over the first plate and so that this is fixed in their position. The top plate can now be put back into the plate holder and the top edge area of the bottom plate and the bottom Edge area of the top plate are in front of each other Touches and thus protected from the risk of injury. This represents an additional improvement which is security elevated. The whole structure of the facility is simplified but also the assembly and enables the alignment of the Panel holder during the construction of the facade and also at any necessary adjustments later. The inventive Setup also allows for the exchange of individuals Facade panels within the entire facade structure.

Fig. 1

einen Ausschnitt aus einer Fassade mit Fassadenplatten,

Fig. 2

einen Vertikalschnitt durch einen Plattenhalter und die Befestigung an der Gebäudestruktur,

Fig. 3

eine Aufsicht auf einen Plattenhalter und dessen Befestigung an der Gebäudestruktur,

Fig. 4

eine Frontansicht eines eingebauten Plattenhalters in vereinfachter Darstellung.

The invention is explained in more detail below on the basis of exemplary embodiments and with reference to the accompanying drawings. Show it:

Fig. 1

a section of a facade with facade panels,

Fig. 2

a vertical section through a plate holder and the attachment to the building structure,

Fig. 3

a top view of a plate holder and its attachment to the building structure,

Fig. 4

a front view of a built-in plate holder in a simplified representation.

The facade shown in Fig. 1 consists of facade panels, which are formed by glass plates 1, 2. With these Glass plates 1, 2 are rectangular safety insulation glazing, which in a known manner from several with spaced glasses. The glass plates 1, 2 are along their edge areas 3, 4 spaced from each other so that horizontal Form parting lines 12 and vertical parting lines 13. The Glass plates 1, 2 are held by plate holders 5, which arranged in the areas of the horizontal parting lines 12 are. These plate holder 5 are on the in Figs. 2 and 3 described fastening parts 10 with a building structure 11 connected. Such formed from glass plates 1, 2 All-glass facades form a design element of a building, and the facade surface should be smooth and even be trained. It is therefore also desirable that the Parting lines 12, 13 run evenly, which is why the panels 1, 2 must be adjustable during assembly. With the plate holder 5 according to the invention is the alignment in easily possible, and it can be even form running joints 12, 13. The plate holder 5 are arranged in the region of the joints 12, 13, whereby only a partial area of the entire edge area 3, 4 one Include plate 1, 2. Nevertheless, the plate holders guarantee 5 a secure mounting of the glass plates 1, 2 without the to disrupt the overall aesthetic impression. Instead of the glass plates 1, 2, the facade panels can also be made from others known materials exist, or for example by Panels can be replaced with photovoltaic elements. The inventive Device for mounting and fastening Facade panels are particularly suitable for such panels, whose structure is not through holes, breakthroughs or elements engaging in the plates should be disturbed. These are in particular toughened glass plates and multi-layer Safety and fire protection glazing.

Fig. 2 shows a vertical section through a plate holder 5 and the edge areas held by this plate holder 5 3, 4 of the glass plates 1, 2, and the associated Connection to the building structure 11. The plate holder includes an inner clamping part 6 and an outer clamping part 7, which via a connecting part 8 and clamping means 14 in the form are connected by screws. The clamping parts 6 and 7 and the connecting part 8 form two receiving channels 15, 16, in which the edge areas 3, 4 of the glass plates 1, 2 are included. In the example shown is the inner clamping part 6 is a T-piece, consisting of a rectangular plate 17 and a web 18. At the against the Glass plates 1, 2 facing inside of the plate 17 a seal 19 is arranged, which is also a rectangular Plate forms. The outer clamping part 7 is shown in the Example also a rectangular plate and has on the inside directed against the glass plates 1, 2 a plate-shaped seal 20. The two plate-shaped Seals 19, 20 are molded rubber pieces with a specified, defined shore hardness. This hardness requirement ensures a uniform elastic pressure and Holding the edge areas 3, 4 of the glass plates 1, 2. How 3, are in the web 18 of the inner Clamping part 6 arranged three holes 21, in which pin-like Extensions 22 of the connecting part 8 engage. The pin-like extensions 22 of the connecting part 8 have also a hole in which a pin 23 with a threaded bore 24 is inserted. In these threaded holes 24 engage the screws 14, whereby the two Clamping parts 6 and 7 can be clamped together. The connecting part 8 is a molded piece of a thermally insulating Material, for example in the illustrated embodiment Polyamide. This connecting part 8 is essentially also rectangular and instructs the cone-like extensions already mentioned on one side 22, and a separating bar 25. On the bottom edge 3 of the facade panel 2 facing upper side the connecting part 8 has a concave bearing surface 26. Between the lower edge 3 of the glass plate 2 and this concave Support surface 26, an intermediate plate 27 is installed, which in turn has a convexly shaped lower surface 28 and with the contact surface 26 of the connecting part 8 cooperates. The edge or the edge area 3 of the glass plate 2 lies on the outer surface 29 of the intermediate plate 27 on. This arrangement enables an edition and Holding the glass plates 1, 2 in a way, wherein are formed from their own weight and wind load Distribute the lines of force very well on the plate holder 5. Bends of the edge areas 3 by deformations of the Plates 2 can through the curved surfaces 26, 28, or the intermediate plate 27 movable along these surfaces is compensated become. This protects the edge areas or edges 3 of the glass plates 2 against point-like overloads and thus damage that could lead to destruction.

The glass plates 1, 2 shown in FIGS. 2 and 3 act it is triple glazing which made of three toughened glass panes 30 are constructed. The three Glass panes 30 are spaced along their circumference 31 separated from each other and glued together and sealed. But other glass plates can also be known Kind be used. The glass plates 1, 2 have none additional frame, but can be directly in the plate holder 5 are used and form a Composite structure for the building facade.

A threaded pin 32 is connected to the inner clamping part 6, which engages in a threaded sleeve 33. This threaded sleeve 33 is rotatably mounted in a sliding plate 34 and enables changes in position of the Plate holder 5 in the direction of the horizontal axis 35. Die Sliding plate 34 lies on a sliding surface 36 Fastening part 10 and is by clamping shoes 37, 38th held. The clamping shoes 37, 38 have clamping elements in the Form of screws 40 with which the sliding plate 34th can be clamped on the fastening part 10. The sliding plate 34 is perpendicular to axis 35 both vertically can also be moved in the horizontal direction. For Fine adjustment in the vertical direction is on the lower clamping shoe 38 an adjusting screw 39 is arranged, with which also the vertical position of the slide plate 34, and thus the Plate holder 5 is secured. The surface 41 of the fastening part 10, on which the sliding surface 36 of the sliding plate 34 rests, is arched in the example shown, i.e. it forms a section of a circular cylinder surface. The sliding plate 34 with the clamping shoes 37, 38 and the screw connection 32, 33 equipped with a fine thread form the positioning device 9 of the plate holder 5. This positioning device 9 enables an accurate Positioning the horizontal central axis 35 of the plate holder 5 in the three spatial directions. Every plate holder is there 5 via the positioning device 9 or the fastening part 10 individually connected to the building structure 11. The connecting elements between the fastening part 10 and the building structure 11 are not shown there However, known means such as screw connections can be used become.

3 is the plate holder 5 shown in FIG. 2 shown in a top view, the glass plate 2 and the connecting part 8 are partially cut. On the inside Clamping part 6, web 18 is less wide than plate 17. The connecting part 8 has the same length or width on like the web 18. This ensures that the out Moldings existing seals 19, 20 along their entire Can seal the circumference and in the intended manner can be adapted to the surfaces of the glass plates 1, 2. The outer clamping part 7 is by means of the three screws 14 clamped together with the inner clamping part 6. These screws 14 engage in pin 23, which in the pin-shaped Extensions 22 of the connecting part 8 held and stored are. For this purpose 23 threaded holes 24 are in the pin available. In the separating bar 25 of the connecting part 8 and in Web 18 are corresponding through holes for the Screws 14 in place. Thanks to this arrangement, there is between the outer clamping part 7 and the inner clamping part 6 not a direct metallic connection, but the two Clamping parts 6, 7 are thermal through the connecting part 8 insulating polyamide completely separated. Nevertheless, there is a positive and non-positive connection ensures that the connecting part 8 via the pin-like Extensions 22 in the web 18 of the inner clamping part 6 is supported and held. In Fig. 3 is also the arched Surface 41 of the fastening part 10 can be seen, along which the slide plate 34 in both horizontal and vertical Direction is displaceable. The curved surface 41 enables alignment of the glass plates 1, 2 on the Total area of the facade even if the building structure 11 angular deviations from this total area. Each However, according to the shape and design of the building structure 11 the surface 41 on the fastening part 10 more or less arched or straight, i.e. parallel to the facade surface run.

The positioning of the individual plate holder 5 can the device according to the invention normally already before the installation of the respective upper glass plate 2. Appropriate However, fine adjustments are also complete assembled facade possible, since no elements in the Intervene glass plates 1, 2, or carried out through holes are. Due to the elastic mounting of the edge areas 3, 4 of the glass plates 1, 2 between the clamping parts 6, 7 a subsequent adjustment is possible without the risk damage to the edge areas 3, 4. When building the facade can, for example, from a lower glass plate 1 can be assumed, which already by means of the plate holder is precisely aligned. In the area of the upper edge 4 the upper plate holders 5 can now be positioned, in such a way that the contact surface 26 on the connecting part 8, or the outer surface 29 of the intermediate plate 27 the exact Distance of the horizontal parting line 12 determined. The upper Glass plate 2 can now in the upper receiving channel 15 between the clamping parts 6, 7 inserted and parked. The horizontal parting line 12 is already precisely predetermined, and the vertical parting line 13 can by precise Positioning the glass plate 2 can be determined. Surrender after the facade has been completely built up through the facade panel 1, 2 deviations in the uniformity of the joints 12, 13, so you can use the setting options on the positioning device 9 of each plate holder 5 can be compensated later. Despite this comprehensive Adjustment possibility ensures the inventive Set up a secure holding of the glass plates 1, 2 and a secure connection to the building structure 11. The Fasteners 10 can be in a wide range Designs and needs of the building structure 11 adapted become.

4 is a section of the overall facade according to Fig. 1 in the area of a plate holder 5 in a front view shown. It can be seen that the width of the exterior Clamping part 7 and thus each plate holder 5 only a partial area of the edge areas 3, 4 of the glass plates 1, 2 includes. This essentially results in punctiform Requirements of the glass plates 1, 2. As shown in the Example shown, on each lower edge area 3 of the glass plates 1, 2 two plate holder 5 arranged, so results a statically determined storage and mounting of the glass plates 1, 2, and the possibility of the occurrence of unwanted Holding forces are reduced to a minimum. Outside the areas covered by the plate holders 5 are the Parting lines 12, 13 between the glass plates 1, 2 in a known manner Way together by an adhesive and sealant 42 connected and sealed. In addition, seals can also be used be inserted from molded parts. The sealing and Adhesive 42 is up to the edge areas 43 of the web 18, or the connecting part 8 between the inner and outer clamping part 6, 7 used. This spills over seal 20 formed from a mold plate also this Area and ensures a safe and perfect seal.

Claims (9)

1. Arrangement for mounting and fastening facing panels, in particular glass panels (1, 2), on the façades of buildings, wherein the facing panels (1, 2) are held at the rim region (3, 4) by panel-holders (5), each panel-holder (5) comprises an inner and an outer gripping part (6, 7) which gripping parts are not directly connected to one another, the inner gripping part (6) of each panel-holder (5) is connected to a positioning arrangement (9) which is adjustable in the direction of the three spatial axes and the said positioning arrangements (9) are connected to the structure (11) of the building via fastening parts (10), each of the panel-holders (5) encompasses only a partial region of the rim (3, 4) of a facing panel (1, 2) and the said partial region of the rim (3, 4) is held between the two gripping parts (6, 7), a thermally insulating connecting part (8) is disposed between the inner and outer gripping parts (6, 7) of the panel-holders (5), and the said connecting part (8) at the same time forms a support (26) for a lower edge (3) of the facing panels (1, 2).
2. Arrangement according to patent claim 1, characterised in that the inner gripping part (6) of the panel-holders (5) is adjustable at right angles to the plane of the facing panels (1, 2) by means of the positioning arrangement (9), and is also displaceable, approximately parallel to the plane of the facing panels (1, 2), in two directions which are at right angles to one another.
3. Arrangement according to patent claim 1 or 2, characterised in that the connecting part (8) of the panel-holders (5) is mounted in the inner gripping part (6) and has fastening means (22, 23) for clamping elements (14) on the outer gripping part (7).
4. Arrangement according to one of patent claims 1 to 3, characterised in that the connecting part (8) of the panel-holders (5) has a concave support face (26) on the side directed towards the lower edge (3) of the facing panel (1, 2), an intermediate plate (27) rests, with a correspondingly convex-shaped face (28), on the said concave face (26), and the edge (3) of the facing panel (1, 2) is supported on the other, outer face (29) of the intermediate plate (27).
5. Arrangement according to one of patent claims 1 to 4, characterised in that the two gripping parts (6, 7) of the panel-holders (5) have an elastic sealing element (19, 20) on the side directed towards the facing panel (1, 2).
6. Arrangement according to one of patent claims 1 to 5, characterised in that the connecting piece (8) between the gripping parts (6, 7) of the panel-holders (5) is formed from polyamide.
7. Arrangement according to one of patent claims 1 to 6, characterised in that the positioning arrangement (9) comprises a sliding plate (34), the said sliding plate (34) is mounted on the fastening part (10) via a cambered slide face (36) and guided via guide elements (37, 38), the sliding plate (34) being displaceable parallel to the axis of the cambered slide face (36) and being swivellable about the axis.
8. Arrangement according to patent claim 7, characterised in that a threaded sleeve (33) is rotatably mounted in the sliding plate (34), the axis (35) of the said threaded sleeve (33) extends at right angles to the axis of the cambered slide face (36), and a threaded peg (32) connected to the inner gripping part (6) is screwed into the said threaded sleeve (33).
9. Arrangement according to one of patent claims 1 to 8, characterised in that the facing panels (1, 2) are held without frames in the panel-holders (5), and the edge regions (3, 4) of adjacent facing panels (1, 2) are connected to one another, between adjacent panel-holders (5), via elastic sealing elements (42).

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