EP3260621B1 - Profile construction glass arrangement - Google Patents

Description

The invention relates to a profiled construction glass arrangement, comprising at least one row of adjacent profiled glass sheets, each having at least one web and at least one flange.

Such profiled glass arrays are for example from the EP 1 058 760 B1 or EP 0 742 324 B1 known.

In particular, translucent wall regions can be formed with such profiled glass arrangements. The profiled glass sheets are formed in particular by glass profiles. In particular, this U-glass profiles come with a web and two flanges, which together form a U-profile, or L-profiles with a web and a flange on one side into consideration.

The profiled glass sheets can be arranged single-shell or double-shelled. In particular, in a double-shell construction, a first series of profiled construction webs, all of which have aligned flanges to a first direction, and a second series of profiled construction webs, the flanges of which are oppositely directed, are nested so that between U-shaped profiled glass webs of the first row and corresponding profiled glass sheets of the second row cavities arise.

From the EP 0 742 324 B1 It is known to provide on the inside of the webs transparent thermal insulation devices. For example, capillary plates are arranged for this purpose. Thus, a wall component can be formed, which is capable of transparent thermal insulation, with light can be left in the building, but still a high insulating effect can be achieved.

From the CH 687 549 A5 a façade element is known, which consists of two in cross-section U-shaped glass profile discs and arranged in the cavity between the discs filler. The filler consists of a transparent thermal insulation, such as, for example, of stacked and interconnected, narrow, transparent, thin-walled tubes or of a honeycomb or grid structure of transparent, thin-walled plastic. The glass profile discs are connected to each other with connecting webs, which also carry support plates for the packing. Since the thermal insulation is firmly connected to the glass profile discs, the on-site assembly of such an arrangement is difficult.

The DE 198 06 424 A1 discloses a method for producing a honeycomb material which is usable in TWD (Transparent Thermal Insulation) systems. The honeycomb material is produced by extrusion technology. A filler produced thereby in the form of cuboid blocks, which are dimensionally stable and should fill the space formed between two profile glassware, is suitable as a transparent thermal insulation.

From the AT 409 989 B is a facade element consisting of two U-shaped discs whose legs are connected to each other via web plates, out. On one leg of a U-shaped disc is a first U-shaped elastomeric sealing profile, fitted on the other leg a second U-shaped sealing profile. In the cavity between the two U-shaped discs a transparent insulation is arranged.

The invention has for its object to provide such profiled glass from the EP 0 742 324 B1 known type in terms of thermal insulation and ease of installation to improve. It should be formed a profiled construction glass arrangement, which can be used to form wall portions of buildings in a simple manner, yet a higher thermal insulation capability than before in such profiled glass assemblies is achievable. Furthermore, the profile glass assembly should also have a high durability.

To solve this problem, the invention proposes a profiled glass arrangement according to claim 1.

Advantageous embodiments of the invention are the subject of the dependent claims.

According to a first aspect, the invention provides a profiled structural glass arrangement comprising at least one row of adjacently arranged profiled structural glass webs each provided with at least one web and at least one flange, the profiled architectural glass assembly comprising at least one self-supporting multiple web plate made of plastic, wherein the profiled architectural glass assembly comprises a plate-shaped self-supporting thermal insulating material, which is not attached to the respective profile glass sheets themselves, but separately and is formed by a multiple web plate assembly of several of the multiple web plates.

It is preferred that the multiple web plate is aligned with at least one directional component of its main extension direction parallel to the webs of the profiled construction webs.

It is preferred that a first row of adjacent profiled glass sheets is arranged on the outside of the multiple web plate to be arranged on the building in the intended use on a building.

It is preferred that a second row of profiled glass sheets arranged side by side is arranged on the inner side of the multiple web plate to be arranged inwardly on a building in intended use, so that the at least one Multiple web plate between at least two rows of juxtaposed profiled glass sheets is added.

It is preferred that on the outside of the multiple web plate is provided an outer multilayer glass web assembly having the first row and at least one third row of profiled webs, the flanges of the profiled webs of the first row and the flanges of the profiled webs of the third row facing each other.

It is preferred that on the inner side of the multiple web plate there is provided an inner multilayer glass web arrangement with the second row and at least one further row of profiled glass webs, wherein profiled glass webs are arranged with their flanges to one another.

It is preferred that the at least one multiple web plate is held together with a plurality of profiled construction webs on a common holding device.

It is preferred that the holding device has a U- or H-shaped retaining profile for encompassing flange ends of adjacent profiled structural webs.

It is preferred that the H-shaped retaining profile on both sides comprise flange ends of adjacent profiled structural webs of different rows of profiled structural webs of opposite arrangement, wherein on at least one retaining profile end face of the retaining profile, which is directed into a cavity which between the flanges of their flanges facing each other Profilbauglasbahnen is formed, an end face of at least one arranged in the cavity Mehrfachstegplatte is attached.

It is preferred that the multiple web plate is formed of transparent or translucent plastic.

The profiled glass sheets are formed for example of natural glass profiles, ornamental glass profiles, profile glass with heat protection coating, sandblasted profile glasses, color enameled profile glasses, UV protection profile glasses, prestressed profile glasses and / or prism profile glass, at least at its web one with a Prism structure have provided surface.

It is preferred that a distance is provided between the at least one multiple web plate and the web surfaces of the at least one row of profile webs arranged next to one another.

It is preferred that a plurality of multi-wall sheets are aligned in one plane and / or joined together at end faces to form a planar multiple web plate assembly.

Moreover, the invention relates to a glazing of such a profiled structural glass arrangement and / or a building with such profiled construction glass arrangement.

Recently, more and more building walls made of profiled glass arrays are desired. With such profiled glass arrangements provided walls have a very high quality appearance and can be changed depending on the design of profiled glasses in their appearance.

Some efforts have been made to improve the thermal insulation capability of such profiled glassware assemblies. For this purpose, different transparent thermal insulation materials were arranged on the webs. Partly also worked here with materials that are provided with Aero-gel. The installation of such profiled glass arrangements is complex, since the fitters in addition to the arrangement of profiled glass sheets also have to connect the transparent thermal insulation material with the glass profiles. Despite the increased installation costs leave the thermal insulation values to be desired.

If, on the other hand, a profiled construction glass arrangement of the type according to the invention is used, where an arrangement of profiled construction glasses arranged next to one another is combined with a multiple web slab, surprisingly high thermal insulation values can be achieved. In this case, such multi-wall sheets can be relatively easy to assemble, the assembly work for such multi-wall sheets are also familiar to low-skilled builders.

The at least one row of profile construction glasses is preferably arranged on a outside of the multiple web plate to be straightened outwards in the intended use. The outside is thus protected by the series of profile construction glasses. The arrangement behind the profile glassware has the advantage that the profiled glass already prevent a high proportion of UV light at the passage even with training from quite normal glass materials.

Multi-wall sheets are available in the construction sector in a large variety, they are used for example for the roofing of conservatories or carports. The multi-wall sheets are available, for example, as double-wall sheets, triple-sheet sheets or quadruple-piece sheets or with even more arrangements. Most multi-wall sheets available on the market are made of polycarbonate or similar plastics. Examples include polycarbonate multi-wall sheets from the company Rodeca, further examples can be found in the DE 101 59 373 A1 , the DE 101 29 702 A1 , the DE 10 2004 032 357 A1 , the DE 199 54 955 A1 , the DE 20 2011 052 489 U1 , the DE 10 2009 052 042 A1 or the DE 20 2012 101 408 U1 ,

Such multi-wall sheets are often modular or constructed as modules and can be combined into several to a large flat plate assembly.

In a particularly preferred embodiment of the profiled glass pane arrangement, such a flat multiple-wall plate arrangement is provided on at least one of its sides, preferably on its outside, with at least one row of adjacent profiled glass sheets.

In a particularly preferred embodiment, a double-shell arrangement of profiled glass sheets is provided on the outside, with a first row of profiled glass sheets are directed with their flanges towards the Mehrfachstegplatte and another series of profiled glass sheets with their flanges away from the Mehrfachstegplatte, the flanges of the first and the other row intermesh so as to form a double-shelled profile glazing on the outside of the multi-wall sheet.

In a still further preferred embodiment, at least one row of glass profile webs is provided not only on the outer side of the multi-web plate used in the intended use, but also on the other side - the inner side.

In a single-shell arrangement of the inside row of profiled glass sheets, the flanges are preferably directed directed towards the multi-web plate.

Such an arrangement of double-skinned glass sheet arrangement on the outside and einschaliger glass sheet arrangement inside and a multi-wall plate assembly in the middle has resulted in measurements a U-value, which is comparable with high-quality Mehrfachisoliergläsern or even better than such high-quality insulating glasses. The U value here is comparable to that of a triple insulating glass.

An even greater improvement in the thermal insulation value is achieved if a double-shell arrangement of profiled glass sheets is provided on both sides.

It can be variable between the outside arrangement of profiled glass sheets and the inside arrangement of profiled glass sheets - whether double-shell or single-shell or even more than two shells - the distance between the inside glass sheet arrangement and the outside glass sheet arrangement. Here, correspondingly thinner or thicker multi-wall sheets can be provided. Also, a distance between the profile glass sheets and the at least one multiple web plate may be provided.

In a further variant of the profiled glass arrangement, the multiple web plates are fastened to glass holders to which the profiled glass sheets are also fastened.

The multiple web plates may be provided at their faces with corresponding plug configurations, such as e.g. Grooves or springs of a tongue and groove system, or be formed with other male or female plug-in profiles. On the glass holders can be provided according to complementary plug-in arrangements to the interior in the interior between flanges of the profiled glass sheets side facing the glass holder. Thus, between glass holders, where respective flanges of the profiled glass sheets are held, and the multiple web plates can be easily attached.

There are also modular designs possible, with an array of glass profile webs, glass holders and multi-wall plates manufacturer pre-assembled and pre-assembled and are assembled at the site.

Particularly preferred is a device for transparent thermal insulation is provided, wherein at least one row of glass profile elements, in particular in the form of glass sheets, is provided in connection with at least one hollow channel plate, in particular a multiple web plate.

The hollow channel plate is preferably arranged between an outside row of glass profile elements and an inside row of glass profile elements.

Preferably, the glass profile elements are provided with thermal coatings. For example, a metal oxide coating is applied at least on at least one of the web surfaces.

Particular advantages of the profiled glass arrangements presented here are explained in more detail below.

Preferably, at least one row of profiled glass sheets is provided, which provide for a particularly good statics. In addition, a self-supporting thermal insulation material, preferably in the form of a multi-wall sheet, is provided in particular.

In particular, if at least on one side of the self-supporting thermal insulation plate material - preferably multi-wall plate - is provided an at least double-shell glass profile web arrangement, a particularly stable statics can be achieved, behind this stable arrangement, the thermal insulation can be arranged and so greater degrees of freedom can be achieved.

Due to the separation between glass profile webs and multiple web plates, a heat-insulating layer can be achieved whose space is variable in width. This applies in particular if the self-supporting thermal insulation material is arranged between at least one outer-side row of profiled sheets and an inner-side row of profiled sheets.

With the desired arrangement can also achieve a good fall protection. Especially with a double-shell arrangement and more Especially with thermally toughened glasses no further measures for fall protection must be provided.

Reference is made in particular to the building inspectorate approval no. Z-70.4-44 of 21.12.2012, which forms part of the disclosure herein and is attached to the application documents for more details on the arrangement of the profile glass sheets.

At least one of the inside or outside rows of profiled glass sheets is formed according to the double-shelled or single-shell design according to the approval Z-70.4-44 described herein.

The biggest advantage of such an arrangement, which is formed from profiled glass sheets and a multiple web plate is the hereby achievable very high thermal insulation.

In addition, a very variable design of the profiled glass pane arrangement can be achieved. An architect can thus provide very different elements and effects. Variability results from, for example, different choice of glass, different materials with low or high light transmission and different surface design, be it by ornamentation or be it by sandblasting. It can generate very different aesthetic impressions. In this case, very high requirements can be met for the statics and mechanical properties.

By sandblasting of surfaces, in particular the webs, a variation of the daylight input and the energy input can be achieved.

A variation of the daylight input as well as the energy input can also be achieved by designing the glass surfaces. For example, you can about rolled shapes and prism glasses depending on the different Irradiation angle to achieve a different light input and / or a different energy input.

In particular, on the inside of the webs color effects can be provided, such as a color enameling.

So you can achieve sun protection and thermal protection and provide with great variability.

In addition, the arrangement can be made very variable in terms of sound transmission.

Preferably, the multiple web plates are formed of transparent or at least translucent materials, so that light can be passed through the profile glass assembly. But it is also possible, for example, on certain areas or on the entire wall, opaque materials, in particular an opaque multi-wall sheet to provide.

By varying the glass melts, the passage of light and the aesthetics can also be changed. For example, the profile glass sheets may be made of green glass or low-iron glass. This allows the energy input and the aesthetics to vary.

Another aspect concerns UV protection. Depending on the different melting techniques, the glass can be made with greater or lesser UV transmission. In particular, when glasses with very low UV transmission are used, the durability of multi-wall sheets formed from plastic materials which are disposed within a series of profiled glass sheets will increase significantly.

Otherwise, plastics are generally less durable than glass; with the arrangement shown here, the different longevity but at least compensate for something.

Fig. 1

einen Schnitt durch eine erste Ausführungsform einer Profilbauglasanordnung, die eine Anordnung aus mehreren Mehrfachstegplatten und beidseitig davon angeordnete Reihen nebeneinander angeordneter Profilbauglasbahnen aufweist, wobei an einer Außenseite eine doppelschalige Anordnung von Profilbauglasbahnen und an einer Innenseite eine einfachschalige Anordnung von Profilbauglasbahnen vorgesehen sind;

Fig. 2

ein weiterer Schnitt durch eine weitere Ausführungsform einer Profilbauglasanordnung, vergleichbar derjenigen von Fig. 1, wobei innenseitig ebenfalls eine doppelschalige Anordnung von Profilbauglasbahnen vorgesehen ist;

Fig. 3

eine dritte Ausführungsform einer Profilbauglasanordnung, wobei außenseitig und innenseitig eine einfachschalige Anordnung nebeneinander angeordneter Profilbauglasbahnen vorgesehen ist, die gemeinsam an einer Halteeinrichtung gehalten sind, wobei auch Mehrfachstegplatten an der Halteeinrichtung gehalten sind;

Fig. 4

eine Vergrößerung von Fig. 3 im Bereich der Halteeinrichtung.

Embodiments of the invention will be explained in more detail with reference to the accompanying drawings. It shows:

Fig. 1

a section through a first embodiment of a profiled glass assembly having an arrangement of a plurality of multi-wall sheets and arranged on both sides rows of juxtaposed profiled glass sheets, wherein on one outer side a double-shell arrangement of profiled glass sheets and an inner side a single-shell arrangement of profiled glass sheets are provided;

Fig. 2

a further section through another embodiment of a profiled glass, comparable to that of Fig. 1 , wherein on the inside also a double-shell arrangement of profiled glass sheets is provided;

Fig. 3

a third embodiment of a profiled construction glass arrangement, wherein the outside and inside a single-shell arrangement of juxtaposed profiled glass sheets is provided which are held together on a holding device, wherein also multiple web plates are held on the holding device;

Fig. 4

an enlargement of Fig. 3 in the area of the holding device.

In the Fig. 1 to 4 different embodiments of a profiled glass assembly 10 for forming a wall 12, a wall portion or a portion of a facade of a building (not shown) are shown.

The profile glass assembly 10 has at least one row 16, 22, 30, 32 of juxtaposed profile glass sheets 18 and combined with a plate-shaped self-supporting heat insulating material 24. The plate-shaped self-supporting heat insulating material 24 is not attached to the respective profile glass sheets 18 itself but separately.

The profile glass sheets 18 are formed from profile glasses with a web 34 and at least one flange 36, 38.

In the illustrated embodiments, the profile glasses 40 are formed as U-glass with a U-profile shape, where on both sides of the web 34 in each case a flange 36, 38 protrudes. But there are also L-shaped profile glasses 40 possible, in particular at the edge regions of the profile glass assembly 10th

The plate-shaped self-supporting thermal insulating material 24 is formed by a multi-wall plate assembly 26 of a plurality of multi-wall sheets 28. The multiple web plates 28 are made of plastic, wherein at least two plate-shaped plastic skins are connected by vertical thereto, arranged between the plastic skins 42 webs 44. The webs 44 may extend perpendicular or obliquely between the plastic skins 42. There is at least one double-ridge plate with two plastic skins 42 and webs provided in between. Preferably, at least a triple ridge plate with three plastic skins 42 and webs is provided therebetween. More preferred are multiple web plates 28 having a greater number of plastic skins 42, e.g. a four-ply board or five-ply board, etc.

The multiple web plate assembly 26 may also have a plurality of multi-web plates 28 juxtaposed in parallel in the thickness direction so that the plate-shaped self-supporting thermal insulating material 24 may have a very variable overall and be adapted depending on the application thickness.

Such multiple web plates 28 are commercially available, for example from the company. Rodeca.

In a preferred embodiment, each Mehrfachstegplatte 28 on one end side of a projection profile 46 and on its opposite side a complementary recess profile 48, so that a plurality of multi-wall sheets 28 with their interlocking projection profiles 46 and 48 Rücksprungsprofiles are fastened together.

In this way, the multiple web plates 28 can be arranged with their end faces arranged to form a large multi-wall plate assembly 26 so as to form a large-scale plate-shaped self-supporting heat insulating material 24, which can be fastened next to the respective row 16, 22, 30, 32 of profile glass sheets 18.

The profiled glass 40 and the profiled glass sheets 18 are manufactured and constructed as described in the company publication " Lamberts LINIT - technical introduction U-glass ", 6th edition, printing note Lamberts / Linit TE 6 de / 012009 from September 2012 and / or described and shown in the general building inspectorate approval no. Z-70.4-44 of 21.12.2012. These two documents are incorporated herein by reference and form part of the disclosure herein.

Accordingly, the profile glasses 40 may be provided on their webs 34 and / or flanges 36, 38 of natural glass or ornamentation and / or sandblasted surfaces and / or with color enamels. A special ornamentation represents a prism structure surface, with which the light input through the profile glass sheet 18 can be controlled depending on the light. It is explicitly referred to in this context EP 1 066 445 B1 directed.

In the illustrated embodiments of the profiled glass assembly 10, at least one outer side 14 of the at least one multi-wall plate 28 is at least one first on the outer side 14 of the at least one multi-wall plate 28 which is in the intended use Row 16 of the profile glass sheets 18 is provided. Furthermore, at least one second row 22 of the profiled glass sheets 18 is provided on the inner side 20 of the at least one multi-wall sheet 28 which points inward in the intended use.

The flanges 36, 38 of the profile glass sheets 18 of the first row 16 and the second row 22 are respectively directed into the interior space between the profile glass sheets 18 of the first row 16 and the second row 22, thus directed toward the at least one multi-wall sheet 28, so that the webs 34 of the profiled glass sheets 18 arranged side by side form the outside 14 and the inside 20 of the profile glass assembly 10.

The profile glass sheets 18 arranged on the inner side 20 and the outer side 14 can be laid in single-shell or double-shelled form.

Fig. 1 shows an embodiment of the profile glass assembly 10, where between the first row 16 of the profile glass sheets 18 and formed of nested Mehrfachstegplatten 28 Mehrfachstegplattenanordnung 26 still a third row 30 of profiled glass sheets 18 to the outside 14 directed towards flanges 36, 38 is arranged so that the first row 16 and third row 30 with interengaging flanges 36, 38 form an outer double-skin glass sheet assembly 52. It can be provided on the respective outer side 14 and the inner side 20 even more rows of profile glass sheets 18, so that generally multi-layer glass sheet assemblies 52 may be provided on the outside 14 and / or the inside 20. As a result, on the outer side 14, an outer multi-layer glass sheet arrangement 52 of a first row 16 of profiled glass sheets 18 to the inner side 20 toward flanges 36, 38 and from a third row 30 of profiled glass sheets 18 to the outside 14 directed towards flanges 36, 38 are formed.

At the in Fig. 1 illustrated embodiment, only the second row 22 of profile glass sheets 18 is provided on the inner side 20, so that on the inner side 20, an inner single-shell glass sheet assembly 54 is provided.

The respective double-shell or multi-layer outer glass sheet arrangement 52 and the single-shell inner glass sheet assembly 54 are formed as for single-shell and double-shell or multi-shell glass sheet arrangements in the building inspection approval Z-70.4-44 and in the aforementioned company publication "Lamberts LINIT Technical Introduction U-glass "described and shown.

In the Fig. 2 illustrated embodiment of the profile glass assembly 10 substantially corresponds to in Fig. 1 illustrated embodiment of the profiled glass assembly 10, but on the inside 20 not only a single-pane glass sheet arrangement, but an inner multilayer glass sheet assembly 56 from the second row 22 and a fourth row 32 is formed of profiled glass sheets 18. The flanges of the profile glass sheets 18 of the fourth row 32 are directed towards the interior of the building and, together with the second row 22 in the illustrated embodiment form a double-skin glass sheet arrangement, as it is also provided on the outside.

Both in the embodiment of the Fig. 1 as well as in the embodiment of Fig. 2 can the multi-layered glass sheet assemblies 52, 56 and the single-pane glass sheet assembly 54 with the from the building inspection approval Z-70.4-44 and from the company publication "Lamberts LINIT - Technical Introduction U-glass" known holders are secured to the edge, the outer glass sheet 52nd and the inner glass sheet assemblies 54, 56 are spaced apart and the multiple web plate assembly 26 is sandwiched therebetween. The multiple web plate assembly 26 may be mounted in its own brackets (not shown) therebetween, as for such multiple web plate assemblies 26 alone is known in principle. For example, here U-aluminum profiles may be provided at the edge, which engage around the multi-wall plate assembly 26 at the edge and hold so. However, such U-profiles can also be formed on the respective supports of the glass sheet assemblies 52, 54, 56 or integrally formed therewith.

The 3 and 4 show a particular embodiment in which the holder for multiple web plates 28 on a holding device 60 for holding the flanges 36, 38 of the first row 16 and the second row 22 of the profile glass sheets 18 is provided.

Here, the holding device 60 has an H-shaped retaining profile 62 for embracing the flange ends of the flanges 36, 38 of respectively adjacent profiled glass sheets 18.

The flange ends are each surrounded by buffer material 64. The buffer material 64 is designed to conduct heat poorly and to protect the flanged ends. For example, plastic profiles, roller cords or silicone materials or other sealing materials are provided here.

These buffer materials 64 also ensure that the holding device 60 is formed thermally separated from the outside 14 and preferably also from the inside 20.

Instead of the illustrated H-holding profile 62, a U-holding profile (not shown) could also be provided, in particular for single-pane glazing or for glazing with a distance from one another.

At the respective retaining profile end face 66 which is directed into the interior space between the flanges 36, 38 of the profiled glass 40 held thereon, a fastening arrangement 68 is provided for fastening at least one of the multiple web plates 28.

In the illustrated embodiment, the mounting arrangement 68 has the respective complementary shape to the projection profile 46 or the recess profile 48. Thus, on a first retaining profile end face 66, a corresponding projection profile 46 and on the opposite Halteprofilstirnseite 66, the corresponding recess profile 48 is provided so that the multiple web plates 28 can be pushed onto the retaining profiles 62 and then held. Alternatively, U-profile areas (not shown) are also conceivable, which surround the peripheral edge areas of the multiple web plates 28.

The multiple web plates 28 are preferably formed of translucent material, possibly also of transparent material. Through the multiple web plates 28 a plurality of hollow channels are formed, which are filled accordingly with air - or with Wärmeisoliermaterialien-. The more plastic skins 42 are provided, the more levels of corresponding hollow chamber channels are formed in the respective multiple web plates 28.

In accordance with transparent or translucent design of the multi-wall sheets 28 is formed by the arrangement within two rows 16, 22 of profile glass sheets 18 an excellent device for transparent thermal insulation, which combines the advantages of U-glass with the advantages of multiple web plates 28. The profile glasses 40 filter out even with normal glass formation a high proportion of UV range, so that arranged in the interior between the rows 16, 22 of profile glass sheets 18 Mehrfachstegplatten 28 are attacked less by UV light or other harmful radiation than in the otherwise In a particularly preferred embodiment, this effect is further enhanced by the fact that a profile glass 40 with higher UV filter function - in particular UV protection glass - is provided.

The profiled glass assembly 10 further has the advantage that the multi-web plate 28 arranged in the interior is protected by the outside profiled glass sheets 18 against further external influences. Even with normal glass, the profile glass sheets 18 already offer a very high resistance and can absorb high static forces. Even impacts of balls are harmless even with normal profile glass 40, so that the profile glass assembly 10 is also suitable for sports halls. Especially with the use of toughened glass, these properties are further improved.

Further, the profile glass assembly 10 can be used without further measures as a wall 12 for areas visited by the audience. There is no need to provide separate fall arresters.

LIST OF REFERENCE NUMBERS

10

Profilbauglasanordnung

12

wall

14

outside

16

first row

18

Profile glass sheet

20

inside

22

second row

24

plate-shaped self-supporting heat insulating material

26

Multi-wall sheet arrangement

28

Multi-wall sheet

30

third row

32

fourth row

34

web

36

first flange

38

second flange

40

profile glass

42

Plastic skin

44

Bridge of the multi-wall plate

46

protrusion profile

48

Return profile

50

front

52

outer multi-layer glass sheet arrangement

54

single-pane glass sheet arrangement

56

inner multi-layer glass sheet arrangement

60

holder

62

H-retaining profile

64

buffer material

66

Retaining profile front side

68

mounting assembly

Claims (14)

1. Profile construction glass assembly (10) comprising at least one row of profiled glass strips (18) arranged side by side, each of which is provided with at least one web (34) and at least one flange (36, 38), the profile construction glass assembly (10) having at least one self-supporting multiple web plate (28) made of plastic, characterized in that the profile construction glass assembly (10) comprises a plate-shaped self-supporting thermal insulation material (24) which is not attached to the respective profiled glass strips (18) themselves but separately and is formed by a multiple web plate assembly (26) composed of a plurality of multiple web plates (28).
2. Profile construction glass assembly (10) according to claim 1, characterized in that a first row (16) of profiled glass strips (18) arranged side by side is disposed on the outer side (14) of the at least one multiple web plate (28), which outer side (14) is to be arranged facing outwards on a building when used as intended.
3. Profile construction glass assembly (10) according to claim 2, characterized in that a second row (22) of profiled glass strips (18) arranged side by side is disposed on the inner side (20) of the at least one multiple web plate (28), which inner side (20) is to be arranged facing inwards on a building when used as intended, so that the at least one multiple web plate (28) is received between at least two rows (16, 22) of profiled glass strips (18) arranged side by side.
4. Profile construction glass assembly (10) according to claim 3, characterized in that on the outside (14) of the at least one multiple web plate (28) there is provided an outer multiple-shell glass strip arrangement (52) having the first row (16) and at least one third row (30) of profiled glass strips (18), the flanges (36) of the profiled glass strips (18) of the first row (16) and the flanges (38) of the profiled glass strips (18) of the third row (30) being directed towards one another.
5. Profile construction glass assembly (10) according to claim 3 or according to claims 3 and 4, characterized in that on the inner side (20) of the at least one multiple web plate (28) there is provided an inner multiple-shell glass strip arrangement (56) with the second row (22) and at least one further row (32) of profiled glass strips (18), wherein profiled glass strips (18) with their flanges (36, 38) are arranged towards one another.
6. Profile construction glass assembly (10) according to one of the preceding claims, characterized in that the at least one multiple web plate (28) is held together with a plurality of the profiled glass strips (18) on a common holding device (60).
7. Profile construction glass assembly (10) according to claim 6, characterized in that the holding device (60) comprises a U- or H-shaped holding profile (62) for enclosing flange ends of adjacent profiled glass strips (18).
8. Profile construction glass assembly (10) according to claim 7, characterized in that the H-shaped holding profile (62) comprises on both sides flange ends of adjacent profiled glass strips (18) of different rows (16, 22, 30, 32) of profiled glass strips (18) of opposite arrangement, wherein an end face (50) of the at least one multiple web plate (28) in a cavity which is formed between the flanges (36, 38) of profiled glass strips (18) directed with their flanges (36, 38) towards one another, is fastened to at least one holding profile end face (66) of the holding profile (62) which is oriented into the cavity.
9. Profile construction glass assembly (10) according to one of the preceding claims, characterized in that the at least one multiple web plate (28) is formed from transparent or translucent plastic.
10. Profile construction glass assembly (10) according to one of the preceding claims, characterized in that the profiled glass strips (18) are selected from a group of profiled glasses (40) which comprises natural glass profiles, ornamental glass profiles, profiled glasses with heat protection coating, sandblasted profiled glasses, colored enameled profiled glasses, UV-protection profiled glasses, tempered profiled glasses and prism profiled glasses which have a surface provided with a prism structure, at least at the web.
11. Profile construction glass assembly (10) according to one of the preceding claims, characterized in that a spacing is provided between the at least one multiple web plate (28) and the web surfaces of the at least one row (16, 22, 30, 32) of profiled strips (18) arranged side by side.
12. Profile construction glass assembly (10) according to claim 1 or according to one of claims 2 to 11, as far as related back to claim 1, characterized in that the plurality of multiple web plates (28) are aligned in one plane and/or fastened together at end faces (50) to form the planar multiple web plate arrangement (26).
13. Glazing comprising at least one profile construction glass assembly (10) according to one of the preceding claims.
14. A building comprising at least one profile construction glass assembly (10) according to any of claims 1 to 12 or glazing according to claim 13.

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