DE1471864A1 - Method and device for the production of hollow bodies from sheet glass - Google Patents

Description

Kempthorne Proprietary, limited 8.I.1964

Clayton (Victoria), Australia

Ί864

Method and device for the production of hollow bodies from sheet glass

The invention relates to a method and a Device for the production of hollow bodies from sheet glass by blowing, the sheet glass sohon in the fluff State is provided with decorations or patterns that are formed by the sheet glass or on it are shaped.

The aim is to remove a circumferential ratea from the blown product can be avoided or simplified in a special process step. The well-known Machining such a burr in a special operation is expensive and also causes waste breakthrough.

According to the method according to the invention, that is sheet glass resting on an annular support is heated to a plastic or viscous state, and a bottom link is placed against the heated plate glass held, which completes a region on a surface of the plate glass. Then with a mutable Gasdruok a force on the locked area exercised, and thereby brought the glass into the desired shape, whereupon the plate glass along a line, which essentially encloses the mentioned area, is separated, namely still in a heated, soft state, and then the one lying outside the dividing line Part of the sheet glass is removed «Usually the shaping of the glass is achieved by that

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the heated soft glass is pressed into a.! prm ·.

The separation of the sheet glass can be carried out in that a soharfkantiges tool is pressed into the surface of the sheet glass, and is completely separated in this way the heated glass, and before, during or NaOH completion ·

At appropriate temperatures during cooling of the glass after its formation, the part of the separated glass falls outside the dividing line, and although under the influence of the differential contraction · If that is not the case, then this part of the Glass lends to be broken off along the dividing line. In addition to the dividing line, others can also extending to the outside of the sheet glass Notches can be provided in order to break off the hanging of scrap material outside the dividing line.

Blowing is carried out in a press that carries the heated die on a platen while compressed air is fed to another plate. Instead, or in addition, the press can be designed in such a way that that the glass was sucked into the die If the die is made of a material with low thermal conductivity then it does not need to be heated

The sharp-edged cutting tool can be attached to the plate from where the air is supplied, or on the die, or on the support, or on a special part. Razor-sharp tools of the same shape can also be used on both sides of the table glass at the same time notch so that the resulting edge of the product is rounded on both sides.

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If the blown product is to have perforations, then The die can have holes or cutouts, two-piece with sharp edges, into which the duroh den different gas pressure a bubble is blown. After cooling to room temperature, the bubble becomes light knocked off, leaving a perforation of the desired The size and shape remain.

The support usually consists of sheet steel of appropriate thickness and is covered with chalk or carbon to prevent the sheet glass from sticking.Ssupports made of other material, cast iron, for example, but such materials are not as effective as steel because they take a long time to heat up. The support is intended to protect the edges of the sheet glass from undesirable temperature changes and the edges during of heating and molding to essentially the same Maintain temperature like the support bleoh. The most common form of support is that of a flat plate with an upwardly extending peripheral edge, the one slightly larger area than the edges of the table glass to be heated. The plate has in the In the middle an opening through which the glass is subsequently blown. Those adjacent to the central opening Parts of the support can be curved downwards so that the sheet glass can sag when heated without change of direction at the opening edge.

Embodiments of the invention are in the drawings shown.

Fig.l shows a press and a molding apparatus for the method according to the invention,

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Pig.2 shows a section to Pig.l in an enlarged view Scale,

Pig.5 is a partial section according to FIG a later process

Pig «4 shows a section of a plate glass on an At) support after the treatment in the oven,

Pig. 5 shows thematically the formation of perforations, Pig 6 shows a modified device in section

m. ■

to carry out the journey,

FIG. 7 shows the forms in another embodiment of the device.

According to the Pig. 1 to 4, the press 1 carries on its? lower plate 2 a die 3. The die 3 is made by means of one (Jasbrennerringe · 4 heated and has a base plate · I »which by means of the rod 6 in the vertical direction can be moved back and forth. BntlüftelÖoher 7 »7 rerhinder an accumulation τοη air in the Boken de · lowered ·. Its upper plate 8 of the press carries a tool 9 with a sharp edge 10, which when separated cooperates with the edge 11 of the die 3.

The "hot" enför * ige Abeohlueeglied 12 is carried by the tool J and is cushioned opposite the tool by a spring 13, the over disks 14 »15, 16. And bolt 17 acts * lin Gaabrennerring 18 keeps the tool 9 and the disc 12 at a certain temperature, and the heat transfer to the upper plate 8 is limited by the disc 15, which consists of asbestos.

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BATH ORIGINAL

Duron openings 19, heated air can be fed to the lower side of the lower part 12

A sheet of glass 20 with a patterned surface 21 has on the flat side a decorative pattern in the form of an applied fusible rode · the pane of glass is on a circular support member 23 made of stainless steel placed. The support member has an upwardly extending peripheral flange 24 and a central opening, around which the material of the support member is thickened, so that a circumferential flange 25 is formed. The support 23 with the sheet glass 20 is placed in an oven and slowly heated while rotating it to a smooth level To achieve heating. If the temperature is so high that the glass is softened accordingly the supports and the sheet glass are taken out of the furnace and placed on the die 3 · Gate the pressing the die is heated to prevent a thermal shock. The support 23 is moved downwards until it rests on the shoulder 26, and then the upper Plate 8 of the press moved down. The disk 12 contacts the top surface 22 of the sheet glass and becomes. held in contact by the spring pressure, with heated air being introduced through all the liner 19. Of the Air pressure causes the sheet glass to conform to the shape of the die 3, as shown in FIG. 2. With further Movement of the plate 8 downwards separates the sharp edge 10 from the outer edge part 27 of the sheet glass 20 as shown in Fig.3. Then the plate 8 is raised again, and the mold plate 5 is moved naoh up to remove the manufactured product from the mold

6 shows another embodiment with simplified pressing tools. Here the die 28 is arranged similarly as before, but has a solid base 29. The

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upper plate 30 of the press carries a wheel 31 'the diameter slightly smaller than the glass sheet, and the press plate 31 has distributed over the periphery a nachuiten directed knife edge 32 _e

After heating the plate glass on a mat and after being placed on the die 28, the upper plate is moved downwards so that the knife edge 32 moves into the upper surface 33 of the glass pane is pressed in and thus sealed. Then pressurized air is introduced through an opening 34 in the center of the pane is embedded, and this is how the softened sheet glass is pressed to adapt to the incision 35 of the form 28. The glass product 36 produced is then removed from the press and brewed in an annealing furnace. Pressing the knife edge 32 into the Sheet glass not only creates an incision 37 »but pulls the material into a round edge 38 and compresses it the part 39 outside the incision, so that the sheet glass becomes thicker and has internal tension. At the Cooling causes the material ring on the outside of the separating incision to cool down more quickly than with that shaped glass body, and this creates a sharp zone of different tension along the divider ohnitts 37 · As a result, the glass breaks along the separation cut 37 »and the exit ring 40 outside the incision falls off, or can easily be broken off, so that the manufactured product has a gently rounded edge that no longer needs to be machined.

When executing according to Jig. 7, a proportional large sheet glass 41 supported by a rigid, perforated metal bracket 42 and heated. The shell 42 has an upwardly extending flange 43. The heated sheet glass 41 and bowl 42 are on top

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a multi-part die 44 placed in such a way that each Perforation of the shell lies over a cavity 45 of the die. A finishing and cutting tool 46 having a plurality of Knife edges 47 »47 is made on a" Unterlagbleoh 48 " Metal and is placed on top of the plate glass. The die cavities 45 are placed under vacuum by drawing air through the outlets 49-49 · This will make the file overlying each cavity des Tafeiglaie · pulled down and adapts to the lOrm of the corresponding cavity, as shown in Pig. 7. Due to the suction caused by the displacement of the plate glass, the base 48 is moved downwards, and every! Lieiserglied 47 presses itself into the glass and thus forms separating lines 50 around the die and at the same time, the sheet glass is closed against the cutting tool 46 on one side and the die 44 closed on the other side.

If holes are to be present in the articles to be manufactured »then the surface of the die has openings, see above that bubbles form that protrude from the surfaces of the molded product (see Figure 5).

The die 51 has an opening 52 with a sharp one Edge 53, so that the bladder 54 has relatively thin walls compared to the main part of the product. Furthermore, the edge 53 becomes a weaker zone formed. With the appropriate design of the openings, holes can be of a certain shape and size are formed in the product by breaking the bubbles.

In this way, a sheet of glass with certain ornaments "lettering ο" the like. simply into one or more Hollow glass bodies are reshaped. The die is significant

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lighter than a (Jesenk for pressing molten GrIaBy and the die can have a flat surface, well the patterned surface of the plate glass does not differ the bladder process is influenced · The mouth and the Surrender tools are simple and cheap.

The invention has the further advantage that the production can be mechanized and also with changes in the decorations, the size and the shape of the glass body is applicable to companies with re-entrant angles Loans can be obtained using split dies or loose dies. Local changes in thickness can be generated by pulling or pushing. Reinforcements of the plate glass can be used during heating in the oven or during pressing, or during the Biases.

Patent claims:

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Claims (10)

Process for the production of hollow bodies from sheet glass » in which the sheet glass is heated to a plastic or viscous state, a terminating link against the plate glass is placed, and by applying a Gas pressure against the closed part of the sheet glass causes the sheet glass to be formed into a hollow body takes place, characterized in that the heating of the sheet glass on a support with Ring shape or the like takes place, and the sheet glass is separated in a heated, soft state along a line that defines the supported surface area includes, whereupon the part of the sheet glass lying outside the dividing line is removed. 2) Method according to claim 1, characterized in that the shaping into a hollow body in a die he follows. 3) Method according to claim 1 or 2, characterized in that that such a sharp-edged tool is pressed into the surface of the sheet glass and so one Schwäohung the heated glass is caused along a dividing line. 4) Method according to claim 3 »characterized in that that the tool is a piece of the terminal member. 5) Method according to Claim 3 or 4> characterized byan arrangement that prevents the falling of the outside of the Parting line of the lying part of the sheet glass duroh allows differential contraction. 909822/0497 -10- 6) Method naoh one of claims 3-5, characterized in that that the tool, the final link and the air supply is carried by a movable plate. 7) Method naoh one of claims 2-6, characterized in that that the die has one or more holes or cuts into which through the grass pressure bubbles are blown. 8) Method according to claim 7 »characterized in that that the holes or incisions are sharp-edged. 9) Device for carrying out the method according to a of claims 1-8, characterized in that the closing element has the shape of a flat plate. 10) Device naoh claim 9 »characterized in that the part adjacent to the opening of the terminating member is bent downwards in such a way that the glass sags when heated without changing the face can. 909822/0497