DE748930C - Method for the temporary hardening of hollow glass - Google Patents

Description

Process for the temporary hardening of hollow glass The process relates on the temporary hardening of a hollow glass body worked with the machine and aims to accelerate its shaping. In a subsequent treatment should the partial pre-tensioning be wholly or partly in the manner of the commercially available Cooling can be removed again.

When manufacturing glass sheets by the rolling process it is known to harden the panels in connection with your rolling and - them for to relax the further processing after any time in the cooling furnace.

Such a method cannot easily be applied to the hollow glass transferred, as this, with the exception of the pressed glass, is not carried out in one operation which would correspond to folding, but has to be used to shape it the glass mass was kept in a state of particular working strength for a certain time will. That is why the performance of a pair of molds, consisting of preform and finished mold all hollow glass processing machines that are made by the press-blow or blow molding process d. H. in several stages, work, a certain and almost uri-dependent of the Machine type.

With the method proposed here, the timing of the application significantly accelerated for a pair of molds and further production such as cooling of the hollow glass object simplifies and shortens its impact and pressure resistance increase.

In the previous machine processes, the sucked in or with Speiser introduced glass gobs or the Külbel the heat almost exclusively the wall of the preform, withdrawn. A cooling system has already been proposed and thus to enable earlier demolding of the parison in that not only was air blown into the interior, but also blown through it. this has only purpose in the so-called feeder process, in which the parison is relatively wide is inflated and therefore in relation to the glass mass to be cooled one larger inner surface is available. It is also known. the bucket and the glass inside and outside of the finished form for working toughness lizw. up to strength to cool off.

The present invention consequently builds on this idea and connects him. effective with the experience of air hardening to increase and improve clc; Manufacturing process including the subsequent cooling of the glass. It teaches you how to conduct the inside and outside cooling in terms of quantity and how to do it intermittently is to be carried out and acts temporarily as a hardening. She continues to give the instruction. not to leave the hardening state, since the unequal edge thickness and the The difficult shape of most commercially available hollow slopes only conditional, d. H. to be carried out in a manner that increases the material strength only slightly is, but then to relax the object sufficiently so that the more tense Parts are no longer prone to breakage arid the whole object on a same scale:, ige, bearable Verispainiung is brought. If necessary, he can of course also do so be cooled so that it appears as free of tension in the usual commercial sense.

In the process, the parison is in the first step up to about Double its volume as a glass gob inflated and after immediate demoulding from inside and outside with air currents or the like or suitable coolants for so long next = chilled, just enough toughness necessary to expand: inflate the inner and outer layer is given. This air cooling makes a lot more even flow of the individual layers and a more even, flatter one Pill the same towards your inside achieved than before.

On the other hand, the prepared bulb is inflated. either Enclosed on the spot by the finished form, or to fall asleep: falling into the same Convicted. Then the ready-made blowtol ;, so died> as admissible, whereupon the finished form: opened again immediately and cooling the inside and outside of the hollow glass continued in an appropriately distributed pressure and with the highest possible degree of efficiency until all parts are deformable. Your floor can be a little longer as the rest of the part a support e quake will be expediently made particularly well thermally conductive material since). The object formed and hardened so quickly does not need to be transferred directly to the cooling furnace, provided that this is done does not appear to be desirable for operational reasons. In any case, you have the advantage that the funding question can be brought to a manifold solution, because the Risk of breakage, which would otherwise have to be taken into account ;; for a certain short funding period, is practically completely eliminated. The glasses can be either continuous or in @aninielf ('ii- (ivrung or with intermediate storage to the Külilof (, n, <; el) racl) t «-erden.

The cooling itself can be compared to (luin previously usual procedures shorten considerably, because the even bracing does not end at the same time Teniper area required in the hot zone. -Only the most strongly tensioned parts should Maintained a sufficient time in the range above the lower relaxation temperature ü-earth, so that dangerous tension, for example at the edge of the mouth or ini 1 ') oden so be widely balanced. that there is no particular risk of breakage at these points. Eat will all be expedient, the object its general similar to eating Leave the tension to a certain extent.

For performing this last part of the procedure with the ultimate goal. of an evenly, moderately strained hollow glass. that on indoor and outdoor evacuation However, there should be no long pause in it let in before cooling, this will change the shape and immediately Connect hardening. Then the thicker parts with their greater heat content and 'their likely greater tension in a suitable relaxation area this overvoltage due to the temperature-increasing influence of the noticeable palpable Lose heat while the thinner parts retain their general prestress, -Because time and relaxation temperature can be selected accordingly.

The practical result is. that the period in which a certain 'Machine can produce a glass object is reduced to about 6oo'o, whereby the time in which the forms are in contact with the whole glass is reduced than half: is. This means considerable savings in mold cooling and a decrease in mold weight. Both are major issues Cost. Likewise, the scaling of the shape is reduced and thereby the possibility the output from a pair of fountains, which has so far been limited to 2,000 to .00,000 pieces was increased to two-liis threefold. This means lowering the main cost of ownership of fully automatic operation to a fraction.

To carry out the method, one can advantageously: particularly simply constructed glass blowing machine of a known type can be used in which, as known that on upside down tubs after removal of the Vorforin remains in place, there enclosed by the finished form and in this Layer is finished blown. However, the same cooling devices are used for Innenjind External cooling used for pre- and final blowing.

Since the work process in one and the same mouth shape from the beginning until the end is carried out, although the pre-molds and finished molds are filled with Glass cannot be used at the same time in such a machine, hence the number of pieces in the unit of time per pair of molds is generally lower than when exchanging the Muzzle shape against a prefabricated blow head. For this, however, is when carrying out the invention Method on such a machine the thermal stress on the mold; their wear and tear and the cooling requirement is correspondingly lower. Since such a machine is under construction is particularly simple and cheap, so it will if on it according to the procedure the invention is worked to give a wider scope for it, for example for glasses that are to be processed very hot and as a machine with only one pair of molds.

Claims (2)

PATENT CLAIMS: i. Method for the temporary hardening of hollow glass with subsequent complete or partial relaxation, characterized in that the measured glass mass of the parison after accelerated demolding and pre-cooling inside, through cooling with air, gaseous or atomized coolants is simultaneously cooled from inside and outside to work toughness and that thereupon after a blow to the complete filling of the finished form this as quickly as possible removed and an internal and external cooling by air o. The like. In one for the hardening necessary strength and speed to sufficiently below the deformation temperature the glass mass in question is continued, whereupon the object immediately or is later subjected to a usual but abbreviated cooling. 2. The method according to claim i, characterized by the use of a glass blowing machine. in which the upside-down parison remains in place after the preform has been removed, is enclosed by the finished mold and blown in this position, but the same cooling devices are used for internal and external cooling, the pre-blowing and the finished blowing. To distinguish the subject of the application from the state of the art, the following publications were taken into account in the granting procedure: - _ German patent specification ....... Tr. 66 ... 14j6; British - ....... 310421.