DE102007012146B4 - Apparatus and method for forming components of heat-deformable materials, in particular of glass - Google Patents

Abstract

Device for forming components from materials that are deformable under the influence of heat, in particular glass, with heating means for heating the component to a first temperature, characterized in that temperature changing means are provided which convert the temperature of the component (4) in a forming zone (24) into a change second temperature so that the temperature changing means have at least one laser (14) for introducing laser energy into the component (4) in the forming zone (24) that a storage device for the component (4) is provided which is designed such that the component (4) is deformed at or after the second temperature is reached in the forming zone under the action of gravity, and that temperature measuring means for measuring the temperature of the component are provided at least in the forming zone (24), the laser (14) depending on output signals from Temperature measuring means can be controlled and / or regulated.

Description

The invention relates to a device referred to in the preamble of claim 1 and a method referred to in the preamble of claim 10 for the conversion of components from deformable under heat influence materials, in particular of glass.

Particularly in the automotive industry and in the field of architecture, glass panes are used which have a spatially curved surface, for example as front or rear windows on motor vehicles or on facades of buildings.

Such glass panes are produced by forming flat glass panes. For this purpose, devices of the type in question for forming glass panes, for example US Pat. No. 6,408,649 B1 . US 4 682 003 A . US Pat. No. 5,611,834 . US Pat. No. 6,576,863 B1 . DE 4 444 547 A1 known to have the heating means for heating the glass sheet to a first temperature. In the known devices, the heating means are formed for example by a heating furnace in which the glass sheet is heated so that the glass softens and when softening applied to a bending mold arranged in the heating furnace, so that the glass pane after cooling has the desired shape ,

A disadvantage of the known devices is that they are relatively expensive and therefore expensive to manufacture.

The invention has for its object to provide a device referred to in the preamble of claim 1, which offers greater flexibility over the known devices in the forming of components.

This object is achieved by teaching specified in claim 1.

The teaching according to the invention is based on the idea of carrying out a transformation of components, in particular of glass, by means of a bending mold. Rather, it is based on the idea of choosing the temperature distribution in the component during heating of the component and to store the component in such a way that the component deforms under the action of gravity, that is, under its own weight in a shaping zone. For this purpose, the teaching of the invention provides temperature change means which change the temperature of the component in the forming zone to a second temperature, wherein a storage device for the component is provided, which is designed such that the component during or after reaching the second temperature in the Forming zone deformed under gravity. The teaching according to the invention provides that the temperature-changing means have at least one laser for introducing laser energy into the component in the shaping zone. In addition, the teaching of the invention provides temperature measuring means for measuring the temperature of the component at least in the forming zone, wherein the laser is controllable and / or controllable in dependence on output signals of the temperature measuring means.

If, for example, and in particular according to the invention, a plane glass sheet is deformed so that it has two mutually inclined disk parts after deformation, the glass sheet is first heated by the heating means to a temperature in the transformation range of the glass used, in particular a temperature close to the softening temperature, for example to approx. 520-660 °, heated. In order to change the temperature of the component in the forming zone to the second temperature, which may be, for example and in particular higher than the first temperature, in particular a laser can be used, by means of which the component is heated in the forming zone to the second temperature. At the same time the glass sheet is mounted on the storage device so that it deforms under the influence of its own weight during or after reaching the second temperature in the forming zone in the desired manner.

According to the invention, the transformation region of the glass is understood to be that temperature region in which the mechanical behavior of a specific glass changes substantially. In the transformation region, in particular, the softening point of the glass on which the glass starts to flow appreciably and thereby deform under the influence of its own weight.

According to the invention, a bending mold for forming components is thus no longer required. In this way, the device according to the invention is simple and inexpensive. A particular advantage of the teaching according to the invention is that different forming processes can be carried out with one and the same device. The device according to the invention is therefore particularly flexible in use.

Another advantage of the device according to the invention is that the forming process is basically contactless. Damage to the reshaped component, as can occur, for example, in a bending mold is thus avoided.

Another advantage of the device according to the invention is that forming operations can be carried out particularly quickly and thus cost-effectively.

A particular advantage is that by means of the laser with high precision, a spatially limited heating of the component can be brought about.

The wavelength of the laser beam used as a function of the material of the component to be formed is chosen so that a sufficient absorption of the laser radiation occurs.

The device according to the invention is particularly well suited for forming components made of glass or other brittle materials, for example glass-ceramic. In principle, however, the device according to the invention can also be used for forming components from other materials which can be deformed under the influence of heat, for example plastic or metal. In addition, the forming process can be influenced within wide limits and controlled or regulated with high accuracy. The temperature measuring means may for example comprise at least one pyrometer or at least one thermal camera.

A method according to the invention is specified in claim 8. Advantageous and expedient developments of the method according to the invention are specified in claims 9 to 14.

According to the invention, it is basically possible that the second temperature is lower than the first temperature, that is, the component is cooled in the molding zone. In such an embodiment, the deformation of the component takes place outside the forming zone. However, a particularly advantageous development of the teaching according to the invention provides that the second temperature is higher than the first temperature. In this embodiment, the first temperature may be, for example, in the range of the transformation temperature of the material of the component, while the second temperature is in the range of the softening temperature, so that the material of the component in the molding zone softens.

In this case, the component is heated to the second temperature by means of the laser in the forming zone.

If components made of glass are to be formed, it is expedient that the laser generates laser radiation in the infrared or near-infrared region, as provided by a further development.

Another advantageous development of the teaching according to the invention provides that the laser is assigned at least one positioning device for positioning the laser beam relative to the component.

According to another advantageous development of the laser is designed as a laser scanner. Such laser scanners allow, for example, with high precision, a planar or linear heating of the component.

In principle, the shaping zone can be designed in any suitable manner. If a component is to be bent about a bending axis, it is expedient that the shaping zone is formed linear or flat, as provided by an advantageous development of the teaching of the invention.

Another advantageous development of the teaching according to the invention provides that the heating means heat the component homogeneously to the first temperature.

The invention will be explained in more detail with reference to the accompanying drawing, in which an embodiment of a device according to the invention for carrying out a method according to the invention is shown. All claimed, described and illustrated in the drawing features taken alone or in any combination with each other the subject of the invention, regardless of their summary in the claims and regardless of their description or representation in the drawing.

It shows:

1 a highly schematic perspective view of an embodiment of a device according to the invention and

2 a section through a means of the device according to 1 formed glass pane.

In 1 is an embodiment of a device according to the invention 2 for forming components from heat-deformable materials. The component to be reshaped in the illustrated embodiment is a glass pane designed as a plane glass pane 4 , The device 2 has heating means for heating the component to a first temperature, in this embodiment by a heating furnace 6 are formed, in the interior of which the glass pane 4 by means of hot air is substantially homogeneously heated to the first temperature, which is in the transformation region of the glass and in this embodiment 20 K lower than the softening temperature of the material of the glass sheet 4 is. For storage of the glass pane 4 in the heating furnace, a storage device is provided, which in 1 only schematically by rod-shaped bearing elements 8th . 10 . 12 is indicated. Shape, size and arrangement of the storage device depend on the particular forming process to be performed.

According to the invention, the device 2 Temperature change means on the temperature of the glass sheet 4 in a forming zone to a second temperature, as described below with reference to 2 is explained in more detail. The temperature change means comprise a laser in this embodiment 14 on, its laser beam 16 via a positioning device 18 with a mirror 20 on the glass 4 can be aligned and positioned relative to this.

In the 1 The apparatus shown further comprises temperature measuring means for measuring the temperature of the glass sheet 4 at least in the forming zone, which in this embodiment is a thermal camera 22 exhibit. The laser 14 is dependent on output signals of the thermal camera 22 in terms of its performance and the irradiation time during irradiation in the glass pane 4 controllable or controllable.

The operation of the device according to the invention 2 is described below by means of 2 explained in more detail.

For forming the glass pane 4 such that the disc 4 after the forming process has two mutually angular disc parts, the glass is 4 initially inclined to the vertical on the storage elements 10 . 12 stored. After that, the glass pane 4 in the heating oven 6 heated substantially homogeneously to a first temperature which is in the range of the transformation temperature of the glass. This heating serves to create stresses that damage the glass 4 could lead to avoid.

After the glass pane 4 has been heated to the first temperature, the laser beam 16 on a forming zone 24 the glass pane 4 directed and in this way laser energy in the forming zone 24 entered. In the illustrated embodiment, the forming zone is substantially linear and straight and extends into 2 into or out of the drawing plane. In order to uniformly heat the forming zone by means of the laser radiation, the laser beam is scanned 16 the forming zone at high speed.

The entry of the laser energy causes the glass pane 4 in the area of the forming zone 24 heated to a second temperature which is in the range of the softening temperature of the glass. When reaching the softening point, a in 2 to the right of the storage element 12 lying part 26 the glass pane 4 , as in 2 through an arrow 28 hinted until he got an in 2 Position shown with dashed lines 26 ' occupies and the forming process is completed. After that, the glass pane 4 cooled.

During the forming process, the temperature distribution in the glass pane 4 continuously through the thermal camera 22 measured and the laser 14 controlled or regulated depending on the measurement results.

By appropriate scanning of the glass pane 4 by means of the laser beam 16 can in the glass 4 Any temperature distribution can be generated.

Claims (14)

Device for forming components of heat-deformable materials, in particular of glass, with heating means for heating the component to a first temperature, characterized in that temperature-changing means are provided which determine the temperature of the component ( 4 ) in a forming zone ( 24 ) change to a second temperature that the temperature change means at least one laser ( 14 ) for introducing laser energy into the component ( 4 ) in the forming zone ( 24 ) that a storage device for the component ( 4 ) is provided, which is designed such that the component ( 4 ) deformed under or after reaching the second temperature in the forming zone under the action of gravity, and that temperature measuring means for measuring the temperature of the component at least in the forming zone ( 24 ) are provided, wherein the laser ( 14 ) is controllable and / or controllable in dependence on output signals of the temperature measuring means. Apparatus according to claim 1, characterized in that the second temperature is higher than the first temperature. Device according to claim 1, characterized in that the laser ( 14 ) Generates laser radiation in the infrared or near-infrared region. Device according to one of the preceding claims, characterized in that the laser ( 14 ) at least one positioning device for positioning the laser beam ( 16 ) is assigned relative to the component. Device according to one of the preceding claims, characterized in that the laser ( 14 ) is designed as a laser scanner. Device according to one of the preceding claims, characterized in that the shaping zone ( 24 ) is formed linear or flat. Device according to one of the preceding claims, characterized in that the heating means are the component ( 4 ) homogeneously to the first temperature. Method of forming components from heat-deformable materials, in particular glass, in which the component is heated to a first temperature, characterized, the temperature of the component in a forming zone is changed to a second temperature by introducing laser energy into the component in the forming zone by means of at least one laser, that the component is mounted on a bearing device which is formed such that the component deforms upon or after reaching the second temperature in the forming zone under the action of gravity, and that the temperature of the component is measured at least in the forming zone, wherein the temperature of the component is controlled and / or regulated as a function of the measured temperature by controlling and / or regulating the laser. A method according to claim 8, characterized in that the second temperature is higher than the first temperature. A method according to claim 8, characterized in that a laser is used which generates laser radiation in the infrared or near-infrared region. A method according to claim 8, 9 or 10, characterized in that the laser is positioned relative to the component. Method according to one of Claims 8 to 11, characterized in that a laser scanner is used as the laser. Method according to one of claims 8 to 12, characterized in that the shaping zone is formed linear or flat. Method according to one of claims 8 to 13, characterized in that the component is heated homogeneously to the first temperature.

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