DE1131369B - Process for the production of hollow glass bodies from glass plates - Google Patents

Description

Method of making hollow glass bodies from glass sheets The invention refers to a process for the production of hollow glass bodies from glass plates, especially for the production of hollow glass bodies with patterned or raised Surfaces.

One known way of making hollow glass bodies is that Blow molten glass in a die. This is usually done with a relatively high temperature of about 1G50 ° C. This includes the attachment of ornaments in the form of melts difficult and expensive and based on relatively simple patterns limited.

Another known method is that one of a hollow die-supported glass plate avoiding large temperature differences is pressed into the desired shape between the glass and the die. This too Process requires relatively high temperatures and heavy dies, and this method has the same disadvantages as regards the application of patterns like the above-mentioned blowing of hollow bodies.

Another known method is that one glass plates sags under its own weight, the glass plate during heating is supported in an oven by a corresponding mold. This procedure is but limited to shapes of the vitreous that are continuously curved and none have a sudden change in shape.

The invention aims at a method for the production of hollow glass bodies, that does not have the economic and technical disadvantages of the known processes has and is also feasible for glass plates with patterns made of ceramic or metallic Melting or with bumps without damaging these patterns.

The invention uses the above-mentioned pressing method for hollow glass bodies, and the novelty is that the glass plate in a preformed intermediate die made of steel is heated, whereupon the glass plate with the intermediate die made of steel is deformed in a corresponding, heated to approximately the same temperature mold.

The intermediate die is shaped in such a way that there are significant temperature differences does not occur between the edges of the glass plate and the mass of the glass plate can. For this purpose, for example, the die can be the edges of the glass plate include.

The surfaces of the matrices are expediently covered with a separating coating provided, for example with soot or chalk.

The glass plate can, if necessary, at its edges during the pressing be held. Flat or raised glass plates can be used. Either both dies correspond to the final shape of the product, or the intermediate die or the raised die corresponds to the final shape.

If only the raised die determines the final shape, the other has Die a ring through which the glass is pulled during pressing. If the hollow die determines the final shape, the other die has a punch, which pulls the glass into the cutout of the hollow die.

One or both of the glass surfaces can, for example, by using silk stencils or the like, each prior to heating with a ceramic or metallic melt desired shape can be occupied.

In the case of raised glass surfaces, either the inner or the outer Surface of the end product can be raised.

The matrices can be made of stainless steel, and the metal thickness can be chosen so that the metal acts as a heat store and all parts of the Keeps the glass plate at the appropriate temperature.

The drawings show exemplary embodiments of the invention.

Fig. 1 is a perspective view of a hollow die; Fig.2 shows a device for pressing a glass body in a die according to FIG. 1; Fig. 3 shows diagrammatically a hollow glass body produced in the die according to FIG. 1; Fig. 4 shows in Section through a device for another type of procedure; Fig.5 shows a diagrammatic view of a product produced in the device according to FIG. 4; Fig.6 shows pulled apart an apparatus for a further different type of procedure as well Product made with this device.

According to Figure 1 to 3, the dies 1 are made of stainless steel and have an internal cutout 2 with the desired end shape of the product. The die has a flange 3 that forms the outer edges of a rectangular sheet of glass and the glass plate is supported at the top during pressing. The ones to be deformed Glass plates are raised and provided with corresponding patterns on a surface, and on the other surface a ceramic melt is applied with a pattern, that affects the light transmission.

The matrices 1 with the glass plates placed on them are passed through an oven and rotated about a vertical axis in order to achieve uniform heating until the glass and the matrices have a temperature of about 900 ° C. Each die is then placed under a heated raised die 4 which is then pressed into the cutout 2 of the hollow die so that the glass plate 5 deforms according to the internal shape of the hollow die. The hollow die 1 is supported by a base 6 which is kept at a suitable temperature, and the raised die is pressed into the incision 2 by a hand lever 7. The temperature of the die and the enclosed glass is then reduced by the Bring die 1 into a furnace part with a lower temperature. If the temperature of the glass 5 is reduced so far that the glass retains its shape unsupported, then the die can be removed for further use, and the glass body is then passed through a furnace part in which the glass is gradually cooled further.

In the produced pressed hollow glass body, the elevations its surface is little influenced by the contact with the die during pressing, and a melt-applied pattern is also used in this method unaffected. All common ceramic or metallic melts can be used for this be used. Before heating and pressing, the outer edges can be any Glass plate are trimmed so that the final shape is obtained without further deburring. The product can also be made with a flange in the plane of the original glass plate and this flange can then be cut off with a glass cutter will.

In a second type of method according to FIG. 4, the glass plate 8 is heated in a hollow die 9 made of stainless steel. The edges of the plate 8 are protected by a flange 10 . The die 9 is supported on a heated block 11 and the glass is pressed into the cutout 13 through a raised die 12. The glass plate 8 is held in place by a pressure plate 14 in order to avoid folding during the drawing process of the glass. The pressure plate 14 is heated beforehand and is made so heavy that its own weight holds the glass plate 8 in place.

In the third embodiment according to FIG. 6, the formation of the takes place hollow glass body by deep drawing. A sheet of glass (not shown) is placed on the surface of a circular die 16 made of stainless steel and heated with the die in an oven. The upper part of the die 16 has a cup-shaped Cutout 17 into which the glass penetrates during heating.

After a corresponding temperature has been reached, the die 16 and the enclosed glass are inserted into an incision 18 of a heated hollow die 19. On the top surface of the glass is a metal pressure plate 20 which holds the edges of the glass sheet in place as it is drawn. A heated raised die 21 is then moved down towards the glass sheet and draws the glass into a cutout 22 in the lower part of the hollow die. Between the cutout 17 and the incision 22 there is a drawing bed 23 which controls the flow of material during the drawing, as is also the case with metalworking. An end plate 24 is inserted into the base of the cutout 22, the depth of which can be varied to control the depth at which the raised die 21 moves downward. This compensates for a change in the thickness of the glass. With 25 the shaped hollow glass body is referred to.

According to the method according to the invention, hollow glass bodies can with exact dimensions and patterns are made, and these patterns are with all products manufactured in a certain period of time. This is especially true then required when glass bodies are used in mass-produced metal or plastic products should be. The process is particularly suitable for making deep shapes for light fittings, because deep shapes with sharp edges are often only necessary Light distribution result. Because the pattern is applied to a flat sheet of glass a much larger range of decorative effects can be created than if the decoration is only applied to the finished product.

The process can be carried out in a single oven, there but special ovens can also be provided for heating, molding and for cooling down. The glass becomes when it is transferred from one furnace to another protected by the matrices, so that excessive local cooling and a Thermal shock can be avoided. If desired, compressed superheated can also be used Air or other heated gases are introduced through holes in the raised die thereby facilitating the deformation of the glass during pressing. Cool air or cool gases can also be applied to the molded articles, to cool them before removing them from the dies.

Claims (1)

PATENT CLAIMS: 1. Process for the production of hollow glass bodies from Glass plates in which the glass plate supported by a hollow die is avoided significant temperature differences between the die and the glass in the desired shape is pressed, characterized in that the glass plate in a preformed intermediate die made of steel is heated, whereupon the glass plate with the intermediate die made of steel is deformed in a corresponding, heated to approximately the same temperature mold. 2. The method according to claim 1, characterized in that the glass plate during the Pressing is held at their edges. 3. The method according to claim 2, characterized marked. that the glass plate is held at its edges by a retaining ring which exerts a frictional force on the glass plate. 4. Procedure after a of claims 1 to 3, characterized in that at least one surface of the glass plate is coated with a ceramic or metallic melt prior to heating. 5. Method according to one of Claims 1 to 4, characterized in that a glass plate is used with a patterned or raised surface. 6. Procedure after a of claims 1 to 5, characterized in that the heating of the through the intermediate die supported glass plate takes place in an oven, and that the glass plate after pressing in another part of the oven, or in another oven with a lower temperature is brought. 7. The method according to any one of claims 1 to 6, characterized in that that heated to facilitate deformation of the glass during pressing Gases are fed through holes in the die. B. intermediate die for implementation of the method according to claim 1 to 7, characterized in that it has a shape has the substantial temperature differences between its edges and the mass of the Avoids glass plate. Publications considered: German patent specification No. 807,000; French patent specification No. 1018 415.