NL1026453C2 - Glass construction. - Google Patents

Abstract

The invention relates to a glass structure comprising a first and a second glass construction part, particularly bearing glass panels, each provided with at least one main surface, wherein both construction parts are interconnected by means of at least one connection assembly so as to transfer forces, the connection assembly comprising: a first connection member comprising a first connection surface which by means of an adhesive is attached to said main surface of the first glass construction part, a second connection member comprising a first connection surface which by means of an adhesive is attached to said main surface of the second glass construction part, and a third connection member connecting the first and second connection member for transferring constructive forces, wherein the first connection surface of the first and second connection member are each spaced apart from an edge of the first and second glass construction part, respectively. <IMAGE>

Description

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Glass construction

The invention relates to a glass construction, in particular a load-bearing structure with load-bearing glass structural parts.

The invention furthermore relates to an assembly for mutually connecting structural parts in such structures, as well as to connecting parts therefor.

Because of its properties, glass has a great attraction for architects and constructors. Up to now, use has mainly been made of the transparency and / or translucency of glass and glass mainly has a separating function, in particular a climate separating function. Glass panels are thus used in frames, doors and / or as facade cladding or in glass facades. In these applications, the glass panels are connected to a load-bearing structure of, for example, wood, metal, stone or concrete.

The use of the strength of glass, whereby glass itself is used as a structural component, has led to major problems to date. To realize large spans, such as for glass walkways, it is desirable to use interconnected glass structural parts. Such an interconnection of glass structural parts and in particular for the interconnected connection of bearing glass structural parts requires a connection between glass panels which is not only strong, but especially reliable and predictable in order to be able to build safely.

It is therefore an object of the invention to provide a Reliable and sufficiently strong load-bearing glass structure, which is provided with load-bearing glass construction parts.

It is a further object of the invention to provide a reliable connection for load-bearing glass structures, in which relatively large forces can be transmitted, despite the fact that glass is involved.

From one aspect the invention provides a glass construction comprising a first and a second glass construction part, each provided with at least one main surface, in particular load-bearing glass panels, wherein the two conetruction parts are mutually transmittingly connected by means of at least one connection assembly comprising: a first and second connecting part, each of which is provided with a first fastening element which is fixed by means of an adhesive on the relevant main surface of the glass component in question for transferring structural forces substantially parallel at the relevant main surface, and a third connecting part connecting the first and second connecting part for transferring structural normal forces.

In the construction according to the invention, bearing glass construction parts can be used for transfer of structural forces, despite the fact that glass (panels) is involved. The construction according to the invention can thus, for example, perform a beam function, in particular in a (walkway) bridge. Individual beam members, such as steel tubular structures, for the load-bearing function can at least partially be omitted.

The glass construction parts are preferably panel-shaped and are situated in a plane which is oriented approximately or entirely vertically.

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Preferably, the first connecting face of the first and second connecting member are each spaced apart from an edge of the first and second glass structural member, respectively. The connecting parts thus do not engage on the relatively weak edges of the glass structural parts, the edges thus being spared.

It is furthermore advantageous if the first connecting surface is provided with a recessed edge area, such as a slot which extends around its circumference. Surplus glue can overflow into this during application of the connecting part to the glass structural part.

The boundary edge of the slot remote from the first connecting surface is preferably recessed, so that it is positioned at a distance from the relevant main surface of the glass structural part. This ensures that only the connecting surface makes contact with the glass structural part, and thus prevents parts of the connecting part other than the connecting surface from supporting the glass structural part.

In one embodiment, each connecting part comprises a solid disc which is provided with the connecting surface. The adhesive disc is advantageously provided with coupling parts for coupling the third connecting part thereto. The third connecting part is preferably adapted to transfer normal forces, tensile and / or compressive forces.

The third connecting part is preferably hingedly connected to the adhesive disc about an axis substantially perpendicular to the main surface.

in one embodiment, the third connecting part 30 is fixedly connected to the adhesive disc, viewed in a plane perpendicular to the main surface.

in particular if the glass structural parts have two opposite main surfaces, it is preferable that each of the first and second connecting parts comprises a second connecting surface, the first and second connecting surface facing each other and on the respective main surface of the respective glass construction 10 * 64 53 iM___

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4 part have been placed. The two connecting surfaces which are attached to either side of the glass structural part by means of an adhesive may be mirror-symmetrical. with respect to the center plane of the glass construction! 5 part, which results in a favorable transfer of forces.

It is furthermore advantageous with regard to the force transfer when the first and second connecting surface are substantially congruent, which is favorable for good force transfer and is also favorable for the appearance. Equal first and second connecting surfaces are furthermore preferred for production-technical reasons; namely, for a device according to the invention, only one connecting surface model needs to be designed and produced.

In one embodiment, each of the connecting parts comprises a first adhesive disc provided with the first connecting surface, a second adhesive disc provided with the second connecting surface, and a coupling part extending through the through opening 20 for mutually coupling the first and second adhesive disc. Preferably, the first and second adhesive discs are substantially congruent.

It is furthermore advantageous here if the coupling part comprises tensioning means for exerting a tensioning force directed towards each other on the first and second adhesive discs. The adhesive thus transfers the forces mainly to pure shear to the glass construct everyone. The tensioning means provide a small pre-tension on the connection in order to increase the effective part of the connecting surfaces. This counteracts the effects of peeling stresses, for example caused by internal moments, involving forces transversely to the main plane and moments which tend to move the connecting plane and structural part away from each other.

In a simple embodiment, the first and second adhesive disc comprise a through-opening through which the tensioning means are passed, wherein the clamping means preferably lie against a side of the first and second adhesive disc remote from the glass plate, and wherein the! preferably include a nut and a shaft; Wherein the shaft is provided with an external screw thread near at least one of its ends, the nut being screwable on the end of the shaft provided with the external screw thread for adjusting the tension force on the first and second adhesive disc.

In one embodiment, the first and / or second connecting surface is located near the through opening in the main surface of the glass structural part but spaced apart from an edge of this through opening. The weakened edge area of the through-opening is thus kept free of contact, bridged by the respective adhesive disc, and not loaded.

The adhesive discs can be made in one piece from a metal or a metal alloy or a plastic. Due to the durable nature of the glass structural parts, a durable and low-maintenance material is preferably chosen for the connecting parts, such as, for example, stainless steel. The relatively small difference between the coefficient of thermal expansion of stainless steel and that of glass prevents problems due to temperature differences. The machinability is good, which is important because the bonding discs are made on a lathe. In addition, the visual combination of glass and stainless steel is also attractive.

Preferably, the third connecting parts 30 comprise normal force-transmitting rods, coupling strips or coupling rods which directly or indirectly engage the coupling part and in particular the shaft, and which are preferably also made of a metal or a metal alloy or a plastic. Preferably, one or more third connecting parts are placed on a side of each of the adhesive discs on a side remote from the glass construction. As a result, a moment-proof connection can be obtained for absorbing the various forces and moments that act on the glass construction according to the invention.

With regard to the force transfer, it is advantageous if third connecting parts are placed on either side of the main surfaces of the first and second bearing glass structural parts, and in particular if the third connecting parts are substantially parallel, mirror-symmetrical. are positioned relative to the major faces of the first and second bearing glass structural members. In practice, the coupling part will hereby usually be loaded by forces which are directed substantially parallel to the connecting surfaces. These forces are transmitted from the coupling part to the adhesive discs. In this case it is advantageous if the dimensions of the shaft and the through openings in the adhesive discs are chosen such that the shaft can be fitted in such through openings. In other words, the circumferential surface of the shaft abuts an internal surface of the through-opening, for transferring the forces.

The connecting surfaces preferably have a rotationally symmetrical shape. Preferably, the adhesive discs are also rotationally symmetrical in shape. The connecting surfaces can hereby be loaded in any direction and the manufacture and assembly are relatively simple.

In practice it appeared that the use of an epoxy-based adhesive as an adhesive can provide a good connection.

It is advantageous here if the thickness of the connection formed by the adhesive is smaller than 1 mm, preferably smaller than 0.2 mm. Little deformation can occur in the thin layer of glue, so that a very rigid and creep-free connection is obtained.

From a further aspect, the invention provides a connecting part or a glass structural part as described above

From a further aspect, the invention 102645 $$ 7 provides an assembly for interconnecting glass structural parts provided with at least one main surface, in particular bearing glass panels, comprising a first and second adhesive disk, each of which is provided with a through-opening and a first and second connecting surface, respectively, a coupling part extending through the through opening for mutually coupling the first and second bonding disc, the coupling part comprising tensioning means for exerting an facing tension force on the first and second bonding disc, wherein the the first and second connecting surfaces are placed opposite each other for enclosing a glass structural part between them, the connecting surfaces being attachable to the relevant main surface by means of an adhesive for transferring structural forces substantially parallel to the main surface of the glass structural part.

From a further aspect, the invention provides a glass construction or structural part provided with an assembly as described above, wherein the connecting surfaces are attached to the relevant main surface of the glass structural part by means of an adhesive.

The invention will be elucidated on the shirt of an exemplary embodiment shown in the accompanying drawings. Shown is:

Figure 1 is a schematic side view of a glass span; Figure 2 is a schematic representation of a detail II of Figure 1;

Figure 3 shows a schematic cross-sectional view of an exemplary embodiment of a device for interconnecting glass structural parts; Figure 4 shows a diagrammatic cross-section of a second exemplary embodiment of a device for interconnecting glass structural parts, applied on a laminated glass plate;

Figure 5 shows a schematic cross-section of a third exemplary embodiment of a device for mutually connecting glass structural parts comprising two parallel laminated glass plates; and

Figure 6 shows a further development of the device for interconnecting glass structural parts, wherein a third glass plate is coupled to the two interconnected glass construction parts, wherein the third glass plate is substantially perpendicular to the plane of the two glass structural parts.

For the realization of a glass bridge with a large span, according to the invention, glass structural parts can be mutually coupled as shown, for example, in Figure 1. It is noted that with the bearing construction of bearing glass plates connected to each other in a force-transmitting manner, column structures and other load-bearing structures can be made, such as a cantilever beam, a load-bearing column, etc. The glass plates are situated in a vertical plane, or at a small angle therewith, so that the glass can transmit forces in its plane.

Figure 1 schematically shows a design of a glass bridge 1 with a large span S, wherein the bearing structure is formed by (in this example) seven glass structural parts, such as for instance glass panels 2. In the drawing only one vertical or upright longitudinal wall la is shown . It will be understood that behind the longitudinal wall la shown a second longitudinal wall, at a distance therefrom, is present.

The glass panels 2 are interconnected by means of connection assemblies comprising first and second connection parts 3, which devices 3 are connected to the glass construction parts 2 by means of an adhesive connection as described below. The first and second connecting parts 3 are mutually coupled by means of third connecting parts 4 which are in the form of strips

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9 or bars which are preferably made of steel and are hinged at the ends (in plane parallel to glass plate 2, direction A) on the connecting parts, so that they form pendulum bars.

A moment-proof connection can be obtained by placing first and second connecting parts 3 on the top and bottom of the two glass plates 2 to be coupled and connecting them together by means of steel strips 41. Cross forces can be absorbed by a diagonal bar 42. turn into. By thus mutually connecting each of the glass panels 2 arranged in series, a span built up from supporting glass plates can be realized which can reliably bridge the distance S between the support points 5. The longitudinal walls 1a form a beam or beam, as it were.

Figure 2 shows a connection assembly between two glass structural parts 2 in more detail. In this exemplary embodiment, each of the first and second connecting parts 3 comprises a round and disc-shaped adhesive disc 31 which is connected to the glass construction parts 2 by means of an adhesive connection. Such an adhesive disc 32 is also glued on the other side of the glass structural parts 2, wherein the opposed adhesive discs 31, 32 are mutually coupled by means of a coupling part 33 as schematically shown in the cross-sectional view of Figure 3.

The first exemplary embodiment of the device for interconnecting glass structural parts as shown in Figure 3 comprises a first adhesive disc 31 and an identical second adhesive disc 32 which are glued substantially opposite to each other on a glass plate 2. Both adhesive discs 31, 32 are each provided with a connecting surface 311, 321 which forms an annular adhesive surface which remains spaced around a through hole 21 in the glass plate 2 and thereby leaves an edge area of the glass around the hole.

The adhesive discs 31, 32 in this exemplary embodiment S4 53> 11 10 are round stainless steel discs with a diameter of approximately 120 mm and a thickness of approximately 15 mm. In the middle there is a through hole 312, 322 for the passage ""; of a coupling part 33. The annular connecting surface 311,; ; 5 321 is cut between two circles of approximately 50 and 104 mm. In order to obtain a neat and controllable bonding, glue outlets 313, 314, 323, 324 are provided around the connecting surface 311, 321 for the glue. These outflow gutters 313, 314, 323, 324 are formed in this exemplary embodiment as a recess with a radius of approximately 2 mm. The transition between the connecting surface 311, 321 and the outflow channels 313, 314, 323, 324 has a radius of approximately 1 mm. This detail ensures a lower tension in the outer edge of the adhesive layer. The part of the adhesive discs 31, 32 which lies within the inner outflow channel 313, 323 is increased by approximately 1 mm, is thus approximately 1 mm above the glass plate 2 and is thus not glued to the glass plate 2. Due to the high rigidity of the stainless steel discs 31, 32 with respect to the glass 2 (about a factor of 5) 20, this middle part will hardly be loaded and deformed. The outer edge region of the adhesive disc 31, 32 outside the outer outflow gutter 314, 324 is approximately 1 mm above the glass plate 2 so as not to let any glue run out under the disc and the outflow of the glue into the outer outflow gutter 314, 324 to be able to check.

The adhesive discs 31, 32 are preferably glued to the glass 2 with a two-component epoxy with an adhesive layer of 0.1 to 0.2 mm thickness. Such a thin glue layer gives glue connection with a high strength and stiffness.

Good results can be obtained with the fast-curing two-component epoxy glue. Because this glue first becomes very thin during the curing process, it is necessary to hold the adhesive discs 31, 32 in place with a mold during curing. No pressure has to be exerted on the glue joint during curing.

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By using two adhesive discs 31, 32 placed opposite each other, the adhesive connections * are at least partially protected against possible adverse

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(effects of UV radiation.

The device as shown in Figure 3 further comprises a coupling part 33 which connects the adhesive discs 31, 32 to each other. This coupling part 33 comprises a threaded end 331. The threaded end 331 can be fitted in the adhesive discs 31, 32 without making contact with the glass 2, 10 where the hole is wider than the diameter of the shaft 331. The threaded end 331 is provided with two nuts 332 which, after the glue has fully hardened, are tightened to bias the adhesive discs 31, 32 against the glass.

Due to this bias which presses the adhesive discs 31, 32 towards each other, peaks in the peeling tensions can at least largely be compensated. The adhesive discs 31, 32 have an annular glue surface which extends well around the hole 21 in the glass plate 2 so that the weak edges of the hole 21 in the glass 2 are not glued and thus are not loaded. The hole 21 in the glass 2 is wide enough to compensate for the tolerances in the placement of the hole 21 and to allow some bending and biting of the threaded end 331.

The first connecting part as shown in figure 3 can be coupled to a further identical second connecting part on another glass plate by means of a third connecting part in the form of steel tie rods, strips or rods which are attached to both sides of the glass plate 2. coupled to the coupling means 33.

Due to the rotationally symmetrical shape of the adhesive disc 31, 32, as shown in Figure 2, the disc can be loaded in any direction and the manufacture and assembly are simple. The round shape together with the hole 312, 322 in the disc 31, 32 provides a favorable running width that decreases from the center to the ends. This results in a better distribution of the stresses in the adhesive layer. The annular shape of the connecting surface 311, 321 gives an efficient voltage distribution, with small connecting surfaces (smaller than 25 mm) having a higher efficiency because the longer the length of the overlap, the middle part starts contributing less to the voltage transfer Two separate small connecting surfaces one behind the other thus provide greater strength than a large connecting surface.

With a glass plate 2 laminated on one side or on two sides with a layer 22, 23, for example in the form of thin glass plates, the adhesive discs 31, 32 are preferably glued to the middle, thick glass plate 2 as shown in figure 4. In the layers 22, 23, a hole is made that fits freely around the adhesive discs 31, 32. The adhesive discs 31, 32 are provided on their side remote from the glass plate 2 with a circumferential edge 315, 325 which extends substantially over the layers 22, 23 so that there is no edge of the hole in the layers 22, 23 around the adhesive discs 31, 32 is visible. In order to be able to place the adhesive discs 31, 32 directly on the glass plate 2, the intermediate layers 221, 231 will have to be removed.

The adhesive discs 31, 32 can be connected to the third connecting parts 4 by means of coupling parts as also shown in Figure 5 to be discussed below.

Figure 5 shows a further exemplary embodiment in which two glass plates 2a, 2b are placed in parallel, and in which two connecting parts are placed in series and a common coupling part in the form of a wire-end 331 parts. As a result, the two glass plates 2a, 2b are mutually coupled by the connecting parts placed in series. The first glass plate 2a and the second glass plate 2b are both provided with a through hole around which the laminated layers 22a, 23a, 22b, 23b are removed. Adhesive discs 31a, 32a, 31b, 32b are then connected to the two glass plates 2a, 2b by means of their adhesive surfaces. Placed between the adhesive discs 32a, 3b located within the two glass plates 2a and 2b 13 02, 53b is a pad 412 which determines the distance between the parallel placed glass plates 2a, 2b in situ. The spacer 412 can also serve to connect one or more third connecting parts 41, such as, for example, a coupling rod, for coupling the two glass plates 2a, 2b placed in parallel with further glass plates of a glass construction according to the invention. At both ends of the coupling part 331 there are also placed end bushes or caps 411 for covering the ends of the threaded end 331 and the nuts 332. These end caps 411 can also be adapted to connect one or more third connecting parts 41 thereto. In this case it is favorable for the distribution of forces if the exemplary embodiment as shown in Fig. 5 is mirror-symmetrical with respect to the plane which runs parallel to the glass plates 2a, 2b and is situated midway between these glass plates 2a, 2b.

The end buses 411 and the bus 412 are rotatable about axis X, in directions A, in a plane parallel to the major planes. For example, the bushes 411 and 412 may be rotatable about inner bushes 413 and 414, which may themselves be rotatable with the shaft 331 and the adhesive discs. However, in a direction perpendicular to the main surfaces, the connection of the rod 41 to the adhesive disc 31a, 31b, 32a, 32b is moment-proof.

Figure 6 shows that the connecting assembly 3, 41 according to the invention, after some modifications, can also be used for interconnecting two perpendicular glass plates 2, 6. For this purpose the coupling part of the first and second connecting part 3 is used. of the glass plates 2 extended 43 in the direction of the coupling part 33 of a first connecting part 31 of the glass plate 6, and connected thereto. It is to be noted here that a tensile force in the plane of the glass plate 6 loads the first connecting part 31 of the glass plate 6 while the first and second connecting parts 3 of the glass plates 2 are hereby subjected to an axial pressure (perpendicular to the plane of the glass plate). ° 2 6453.0 14 glass panels 2). The forces are thus transferred only in the first connecting part 31 of the glass plate 6 by means of substantially shear stresses; as described above.

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Claims (20)

1. Glass construction comprising a first and a second bearing glass structural part, each provided with at least one main surface, in particular bearing glass panels, wherein the two structural parts are mutually transmittingly connected by means of at least one connecting assembly comprising: a first and a second connecting part, each of which is provided with a first connecting surface which is attached by means of an adhesive to the relevant main surface of the respective glass structural part for transferring structural forces substantially parallel to the relevant main surface, and a third connecting the first and second connecting part connecting part for transferring constructive normal forces. The glass construction according to claim 1, wherein the glass construction parts are preferably panel-shaped and located in a plane which is oriented approximately or entirely vertically. 3. Glass construction as claimed in claim 1 or 2, wherein the first connecting surface of the first and second connecting part is each spaced apart from an edge of the first and second glass structural part, respectively. 4. Glass construction as claimed in claim 1, 2 or 3, wherein the first connecting surface is provided with a recessed edge area, such as a slot circumferentially extending around its circumference, wherein a boundary edge of the slot remote from the first connecting surface is recessed, so that it lies on distance from the respective main surface of the glass structural part. 5. Glass construction as claimed in any of the foregoing claims, wherein each connecting part comprises an adhesive disc provided with the connecting surface. 6. Glass construction as claimed in claim 5, wherein the adhesive disc is provided with coupling parts for coupling the third connecting part thereto. 7. Glass construction as claimed in any of the foregoing claims, wherein the third connecting part is adapted for transfer of normal forces, tensile and / or pressure forces. 8. Glass construction as claimed in claim 7, wherein the third connecting part is hingedly connected to the adhesive disc about an axis substantially perpendicular to the main surface. 9. Glass construction according to claim 7 or 8, wherein the third connecting part is momentarily connected to the adhesive disc, viewed in a plane perpendicular to the main surface. 10. Glass construction as claimed in any of the foregoing claims, wherein the glass construction parts have two opposite main surfaces, and wherein each of the first and second connecting parts comprises a second connecting surface, the first and second connecting surface facing each other and on either side of the main surface of the glass component in question is placed. The glass structure of claim 10, wherein the first and second connecting surfaces are substantially consecutive. 12. Glass construction as claimed in claim 10 or 11, wherein each of the connecting parts has a first adhesive disc provided with the first connecting surface, a second adhesive disc provided with the second connecting surface, and a coupling part extending through the through opening for mutually connecting the first and second adhesive disc. A glass structure according to claim 12, wherein the coupling part comprises tensioning means for exerting an facing tension force on the first> 1026453 and second adhesive disc. 14. Glass construction as claimed in claim 13, wherein the first and second adhesive disk have a continuous surface opening through which the tensioning means are fed. 15. Glass construction as claimed in claim 14, wherein the tensioning means abut against a side of the first and second adhesive disc remote from the glass plate. 16. Glass construction as claimed in claim 15, wherein the tensioning means comprise a nut and a shaft, the shaft being provided with an external screw thread near at least one of its ends, the nut on the end of the shaft provided with the external screw thread is screwable for adjusting the tension on the first and second adhesive discs. 17. Glass construction as claimed in claims 12-16, wherein the first connecting surface is placed near a through opening in the main surface of the glass construction part and at a distance from an edge of this through opening. A glass structure according to any one of claims 12-17, wherein the adhesive discs are made in one piece from a metal or a metal alloy or a plastic. 19. Glass construction according to claim 18, wherein the adhesive discs are made of stainless steel. 20. Glass construction as claimed in any of the claims 12-19, wherein the third connecting part engages the coupling part. 21. Glass construction as claimed in any of the claims 10-20, wherein third connecting parts are placed on either side of the main surfaces of the first and second bearing glass construction parts. Glass construction according to claim 21, wherein the third connecting parts are arranged substantially parallel and mirror-symmetrical with respect to the main surfaces of the first and second bearing glass structural parts. 23. Glass construction as claimed in any of the foregoing claims, wherein the first connecting surface has a rotationally symmetrical shape. A glass structure according to any one of the preceding claims, wherein the adhesive comprises an epoxy-based adhesive. 25. Glass construction as claimed in any of the foregoing claims, wherein the thickness of the connection formed by the adhesive 10 is smaller than 1 mm, preferably smaller than 0.2 mm. A connecting part apparently suitable and intended for a glass construction according to any one of the preceding claims. 27. Glass construction part apparently suitable and intended for a glass construction as claimed in any of the claims 1-25. 28. Assembly for mutually connecting glass structural parts provided with at least one main surface, in particular bearing glass panels, comprising a first and second adhesive disk, each of which is provided with a through-opening and a first and second connecting surface, respectively, coupling part 25 extending through the opening for mutually coupling the first and second adhesive disc, wherein the coupling part comprises tensioning means for exerting a tensioning force on the first and second adhesive disc, the first and second connecting surface 30 being placed opposite each other for locking them in between of a glass structural part, wherein the connecting surfaces are attachable to the relevant main surface by means of an adhesive for transferring structural forces substantially parallel to the main surface of the glass structural part. 29. Glass construction part provided with an assembly according to claim 28, wherein the connecting surface 4026453 / s is attached to the relevant main surface of the glass construction part by means of an adhesive. 30. Glass construction with one or more Γ ''! of the characterizing measures described in the attached description and / or shown in the attached drawings. 31. Glass construction part provided with one or more of the characterizing measures described in the attached description and / or shown in the attached drawings. 32. connecting part for mutually connecting glass structural parts provided with one or more of the characterizing measures described in the attached description and / or shown in the attached drawings. 33. Method comprising one or more of the characterizing steps described in the accompanying description and / or shown in the accompanying drawings. -o-o-o-o-o-o-o- 20 BP / AT 1 026453 -