DE932087C - Glazing, in particular roof glazing, with wire glass panels - Google Patents

Description

Glazing, especially roof glazing, with wire glass panels known putty and putty-free glazing, raw or wired glass is used on load-bearing, mostly T- or U-shaped rungs laid in putty or in a putty-free construction. With such glazing, which is used in particular on industrial buildings, train stations, etc. in high heights above the floor, so at which there is a risk of falling cracked panes must be prevented by the existing building regulations the use of cast glass with wire inserts prescribed so that in the case of Formation of cracks etc. the glass panels are held together even when they are cracked guaranteed and thus the risk of falling is reduced.

In these known glazings, a wire insert is inserted into the raw glass panels introduced, which has either tissue or braid form. Mostly they are rectangular or hexagonal wire mesh. But these have the disadvantage that a relatively high expenditure of wire is required; there is also the risk that air bubbles form at the crossing points of the wires, creating the load-bearing cross-section of the glass is weakened and thus the risk of breakage is increased. In addition, through the braided or net-like wire insert a relatively significant reduction causing light transmission.

These disadvantages are avoided according to the invention in that at a glazing, in particular a roof glazing, with the support or support bars placed wire glass panels the wire glass panels with non-intersecting and not parallel single wires connected in some way to form a fabric or braid reinforced are that run approximately perpendicular to the rung direction and on both sides Lines of contact of the glass panels with the muntin protrude so far that the glass panels can be firmly attached to the rungs in the area of their reinforcement.

In the drawing are several examples of those designed according to the invention Glazing shown. FIG. 1 shows glazing laid on rungs in a diagrammatic representation, FIG. 2 shows a wire glass panel with one in its edge zone located hole, Fig. 3 a wire glass panel with edge strip and one the edge strip overlapping cover rail. On the rungs i in FIG. I, for example The glazing construction shown are based on a known compliant or elastic Sealing tape 2 the wire glass panels 3 with cross wires q. relocated. These cross wires run perpendicular to the rungs i and extend from longitudinal edge to longitudinal edge the wire glass panel. To avoid the risk of corrosion on the cut edges of the wire glass panel, So to avoid from the outside, the wires expediently end just before the actual long edge of the table, so that they are surrounded airtight by the glass mass.

Furthermore, according to the invention, a cover rail 5 is provided by means of the screw connection 6 applied so that the edges of the cover rail 5 the ends of the cross wires q. encroach so that in the event of breakage of the glass panels 3, they are prevented from falling down will. In cases where glass with a rough surface is used or where the cover rails 5 are made of rolled material or similar material, is expedient between the cover rail 5 and the glass panel 2 an elastic sealing cord or a sealing strip inserted. There where a strong one exerted by the cover rail Pressure in the direction of arrow 8 is undesirable, for example when using relatively thin glass sheets, the non-positive connection that can be achieved through the pressing pressure of the screw connection 6 is effected on the cover rails 5, too can be achieved in that two adjacent glass panels 3 and 3 'through an adhesive tape 9 are connected, in the manner shown in Fig. I, the ends of the inserted Cross wires overlap. Such an adhesive connection can, among other things, also through known plastics based on phenolic or ethoxylin resins, among others. manufactured will. When the synthetic material itself has a strength-transmitting fabric applied or the tissue is embedded in it, this creates a Train very resistant connection of the discs 3 and 3 'guaranteed. aside from that can this connection with a suitable choice of plastics in the manner according to the invention have the necessary elasticity to withstand the elongation and shrinkage loads parallel to the longitudinal axis of the glass roof, under the influence of the various Weather conditions occur with extensive glazing. Of course In special cases these strips can also be one with bitumen or something similar Have mass-impregnated surface. Where there is a particularly secure hold from the jump Discs is necessary, for example, by internal overpressure or strong Companies at risk of vibrations can use the cross-reinforced wire glass panels are additionally secured in such a way that they, as shown in Fig. 2, to their side edges get holes io that are inside of wire loops i i of the cross wires are arranged. Through these holes retaining bolts, for. B. screws are performed, which hold the glass panels securely even in the event of breakage.

Another possibility according to the invention of securing the transversely reinforced Wire glass panels consists in that, as shown in Fig. 3, with edge strips i2 are provided parallel to the longitudinal edge into which the transverse wires merge. The cover rails 5 overlap the edge strips in this case, which is also a particularly good one Protection is given in the event of glass breakage.

According to the invention, the transverse wires themselves can be used to protect against the risk of breakage and falling by bending them over when a glass edge strip is arranged in the edge strip, that is to say that they are pulled up to 13 towards the exterior of the glass roof structure. In this way, the edge strip itself is connected particularly well and securely to the actually flat glass panel, even in the event of a break.

Claims (6)

PATENT CLAIMS: i. Glazing, in particular roof glazing, with the supporting or supporting bars placed on the wire glass panels, characterized in that, that the wire glass panels (3) are not intersecting and not in any way Reinforced parallel single wires (q.) connected to form a fabric or braid are that run approximately perpendicular to the rung direction and on both sides Lines of contact of the glass panels (3) with the rungs (i) sä protrude far that the glass panels (3) in the area of their reinforcement with the rungs (i) frictionally can be attached. 2. Glazing according to claim i, characterized in that that the positive connection between the rungs (i) and the side edges the glass panels (3) by pressing pressure by means of a screw connection (6) Cover rails (5), expediently with a flexible or elastic one in between and possibly adhesive sealing tape (2) or a corresponding sealing cord (7) takes place, the top rail edges overlapping the wire ends. 3. Glazing according to claim i, characterized in that the fastening is carried out by an adhesive connection the side edges of two adjacent ones cross-reinforced wire glass panels (3, 3 ') by means of plastic strips, connecting strips impregnated with bitumen or Similar adhesive tapes (9) is made. . 4. Glazing according to claim r, characterized characterized in that the side edges of the glass panels (3) have bores (1o), which lie within a wire loop (i i) of the cross wires through the corresponding Retaining bolts can be performed. 5. Glazing according to claim z, characterized in that that the glass panels (3) have an edge strip (I2) parallel to the longitudinal edge, in which the transverse reinforcement wires (q.) run in and over the corresponding one Cover strip (5) overlaps. 6. Glazing according to claim 5, characterized in that that the cross wires (q.) in the edge strip (i2) are bent up or down.