DE701579C - Process for the production of steel wire reinforced flat glass - Google Patents

Description

Process for the production of steel-wire-reinforced flat glass In cast and rolled flat glass, different-meshed, possibly also parallel-running iron wire nets or individual wires have been embedded in order to increase the strength of the same and to prevent broken pieces from falling out. The transparency of the usual wire glass is hindered by a narrow wire mesh insert, so that its use for windows, cars and other panes that require a clear view has remained relatively low. Non-reinforced glass is a loading sondere curing and also connection made durcl-i more such layers to pressure and impact resistant to substantially prevent the success and the intention of the sharp fragment formation in the destruction of the disk.

With the glass production according to the invention, a higher pressure and tensile strength of the glass surface can be achieved. According to the invention. should the fracture formation excluded by an insert of highly pretensioned steel strings, but at least can be significantly reduced. The steel string insert can, as with wired glass known from network-like superimposed or parallel single wires exist. A stabIstring has such a high tensile strength in the cell like an equally strong iron wire used for the inlay. It will now as well by the high bias of the same according to the invention one of the bias, the Strings appropriate pre-pressure exerted on the glass surface. The bias absorption ability compared to an iron wire of the same strength is also ten times, apart from the fact that a planned tightening of iron wire inserts for the Glass reinforcement has not yet taken place.

It is known per se in the manufacture of wired glass to keep the Dralit insert under tension. The only purpose of this, however, is to prevent the wire insert from warping during embedding and to ensure proper storage in the cut glass. In contrast, according to the present invention, steel string inserts with a high preload, e.g. B. up to 12,000 kg / cni2, embedded in the softened glass. The large, precisely calculable individual forces absorbed by each string that is tensioned in this way are now transferred to the glass surface as pre- compression tension and make it fully elastic and break-proof, depending on the degree of pre-tensioning forces z # and the desired network size. By virtue of this high pretensioning, the distance or the width of the strings can also be left so wide that a view through the glass is unimpeded; Because with a net width of iocm, such a glass surface already has a significantly higher breaking strength than wire glass with a net insert of 1 cm 3 "lug width. To increase transparency, II only needs the string thickness to achieve the desired tension effect o, 5 mm be without the biasing possibility of the string substantially affecting the spacing of the string from each other but may also be less than IOEM clauses, as in certain Autoscheibeii the Dralitabstand is about 5 cm, without this visibility through the Sche. be somehow hindered.

The steel string inserts are pre-tensioned in the known tensioning devices. The so-tensioned string inlet is expediently pressed in by an upward movement of the table on which the softened glass surface for receiving the tension net is located. After the insert has been pressed in, it is advisable, as is known in the manufacture of dralite glass, to roll over the glass surface in order to achieve a firm enclosure of the strings with the glass. The glass is then transported to the cooling system. It is now necessary to maintain the pretensioning while cooling the glass, and the tensioning device must therefore be brought into the cooling system. The steel strings remain under the pretension until the glass has completely solidified; this is only released after it has cooled down completely. In order to avoid annealing of the steel strings while they are being pressed into the softened glass, the composition of the raw materials for the production of the glass used must be chosen so that a glass with the deepest possible softening is obtained, approx. It should be noted that the expan-9 needs to be done b chung just enough to Ni, EDRi attitude of the temperature that a Eindrückmöglichkeit of the strings is just possible.

Due to the high tension, the strings change in length and as a result of this expansion a weakening of their cross-section by -about i '/,. To Once the glass has been cooled and the tension is released, this rejuvenation remains Strings inevitably preserved in the glass, however, the elasticity of the strings requires that this cross-section change at the string ends not located in the glass immediately goes back. This end reinforcement by 10 /, forms wedge-like at the edge of the glass Extensions, in addition to the tight enclosure of the steel strings by the glass prevent them from warping and thus releasing the tension. Through this will complicate the fabrication & special anchoring of the wires in the tension state obsolete. These wedges are also inevitably formed when cutting through the glass sheet into smaller parts, however, it should be noted that the string ends have a certain length must be retained for the wedge formation so that the tension is maintained.

When using the pretensioning method of steel string inserts in the glass panels result in a correspondingly high pre-pressure in an even distribution on the entire glass surface, which it did not reach by other methods Imparts break resistance and insensitivity to the highest demands. Through this is achieved that, for example, window glasses and high detonation pressures, such as can withstand them, for example, caused by projectile detonations; which, as is generally known, usually lead to the destruction of the panes. Despite extensive By eliminating the possibility of breakage, the view of the glass is not hindered, because the distance or the mesh size of the insert can be kept so that a The insert did not interfere with the inspection.

Claims (2)

PATENT CLAIMS-. i. Process for the production of steel wire arm, ertem Flat glass, characterized in that steel strings are embedded in the glass, which are highly pre-tensioned in a tensioning device with tapering and stretching and kept under tension, whereupon the whole is placed in a cooling device and only after the glass has completely solidified that which is applied to the strings from the outside Preload is released. 2. The method according to claim i, characterized in that the string ends protruding at the edges of the preserved glass panel only behind cut off the wedge-like thickenings that arise after releasing the preload will.