DE102021202407A1 - Process for the manufacture of a glass pane - Google Patents

Abstract

The invention relates to a method for producing a glass pane (1), in particular a windscreen, for a motor vehicle with a viewing area (3) for a camera that can be arranged on the glass pane (1), a glass pane blank being heated and bent into a predetermined shape. It is provided that a coating (2) for optically influencing the viewing area (3) is applied to the glass pane blank before heating.

Description

The invention relates to a method for producing a glass pane, in particular a windshield, for a motor vehicle with a viewing area for a camera that can be arranged on the glass pane, a glass pane blank being heated and bent into a predetermined shape.

The invention also relates to a glass pane produced using such a method.

Methods and glass panes of the type mentioned at the outset are known from the prior art. In modern motor vehicles, cameras are increasingly arranged on the glass panes, the sensor data from which are used for safety functions of the motor vehicle, for example as a light and rain sensor, for traffic sign recognition or generally for detecting the vehicle environment, in particular for autonomous driving.

The higher the demands on the detection quality or detection accuracy and sensor resolution of the cameras, the greater the demands on the glass pane in terms of the least possible optical impairment of the camera image through the glass pane. It is then advantageous that the glass pane in particular does not distort the camera image or distorts it as little as possible, which is made more difficult, for example, by heating wires embedded in the glass pane or a metal layer for heating the glass pane. These can lead to locally different heating of the glass pane blank during production of the glass pane and thus impair the optical properties of the glass pane, in particular the freedom from distortion.

For example, the disclosure document discloses WO 2020 / 115 170 A1 a laminated glass for a motor vehicle with a first and a second glass substrate and a laminated intermediate layer and with heating wires for heating, a correction structure being arranged at least in regions on one of the glass substrates in order to correct an optical property for the passage of light, in particular for a camera arranged on the laminated glass , through the first and second glass substrate and the intermediate layer, or to compensate for inhomogeneities in the laminated glass and thus distortions in the field of view of the camera, which result from the manufacturing process as described above.

The invention is based on the object of creating an improved glass pane in which such inhomogeneities are already advantageously prevented during the production of the glass pane and do not have to be compensated for or corrected or compensated for afterwards.

The object on which the invention is based is achieved by a method having the features of claim 1 . According to the invention, it is provided that a coating for optically influencing the viewing area is applied to the glass pane blank before heating. By applying the coating to the glass pane blank before heating, it is advantageously ensured that the visual range of the camera is not impaired, or only to a very small extent, in terms of its optical properties during heating. Material is preferably used for the coating which has a different, in particular higher, thermal conductivity than the glass pane blank. Due to the differences in thermal conductivity, the temperature of the glass pane blank will differ from the rest of the glass pane blank during heating in the area where the coating was applied, so that the optical properties of the glass pane blank will be influenced in this area. This basic principle also works when the coating is not applied directly in the visible area, but rather close to the visible area, in particular surrounding the visible area in a ring shape.

According to a preferred development of the invention, it is provided that a metal coating is applied as the coating. The application of a metal coating as a coating advantageously ensures that the optical properties of the glass pane blank are optimally influenced, in particular due to the much higher thermal conductivity of the metal coating compared to the rest of the glass pane blank.

Provision is particularly preferably made for silver or a silver alloy to be applied as the metal coating. A coating with silver or a silver alloy is in any case already used for glass panes of motor vehicles, in particular for realizing a pane heating in the form of heating wires or a metal layer. The application of silver or the silver alloy as a metal coating has the advantage that the application of the coating can advantageously be integrated into the production process of the glass pane, in particular in the same production step as the rest of the coating of the glass pane with silver or the silver alloy can be carried out.

According to a preferred development of the invention, it is provided that the coating is removed again after the heating and bending of the glass pane blank. The removal of the coating after the heating and bending of the glass pane blank advantageously ensures that the optical properties of the glass pane, for example due to a changed reflection behavior, are not additionally influenced by the coating during use. In particular, if the glass pane is not heated in the form of metallic heating wires, removing the coating is advantageous because the glass pane would otherwise have inhomogeneous optical properties.

Provision is particularly preferably made for the coating to be removed by means of laser decoating. The removal of the coating by means of laser decoating results in the advantage that the process step of removal can be optimally integrated into the manufacturing process of the glass pane because the laser decoating can be carried out after the heating and bending of the glass pane blank.

According to a preferred development of the invention, it is provided that the glass pane is designed as a composite pane with at least two panes, the coating being applied to the inner side of the other pane facing one pane. The design of the glass pane as a composite pane and the application of the coating to one of the inner sides of the panes advantageously ensures that the process step of applying the coating can be flexibly integrated into the manufacturing process of the glass pane because it can be carried out at any point in time before the two panes are joined together can be carried out and the other of the two panes can be subjected to a further treatment or a further process step, for example black printing, at the same time.

According to a preferred development of the invention, it is provided that black printing is applied to the glass pane blank at least in certain areas, that the black printing has at least one recess, and that the visible area lies completely within the recess. Such a black print is often applied using the screen printing process and is therefore also referred to as screen printing. The black print is in particular in the form of an at least partially opaque coating, for example to protect a bonded glass pane from harmful UV radiation. By providing the viewing area within the gap in the black print, it is advantageously ensured that a mount for the camera can be covered or concealed and the camera can be protected by the black print.

Provision is particularly preferably made for the coating to be applied at least or only inside the recess. The application of the coating at least or only within the recess results in the advantage that the field of vision of the camera can be optically influenced in a particularly targeted manner. In particular, it is thus advantageously possible to achieve maximum influencing of the optical properties in the visible area of the glass pane.

As an alternative or in addition, it is particularly preferred that the coating is applied outside of the recess, in particular circumferentially or annularly to the recess. The application of the coating outside of the recess in addition to the application within the recess results in the advantage that an optical influence is ensured up to an outer edge of the viewing area, or an insufficient optical influence resulting from a possibly inhomogeneous temperature distribution in the edge area of the coating is avoided becomes. The application of the coating outside of the recess as an alternative to application within the recess results in the advantage that subsequent removal of the coating is not necessary, particularly in the case of a glass pane that does not have an additional metallic coating. The coating is preferably applied symmetrically outside the recess. On the other hand, if only a certain part of the field of view of the camera is to be influenced, the coating is preferably applied asymmetrically.

According to a preferred development of the invention, it is provided that the coating is applied over the entire surface. Applying the coating over the entire surface advantageously ensures that an optimal or homogeneous optical influence can be achieved. In this way, in particular, it is possible to maximize the freedom from distortion of the glass pane in the visible area.

According to a preferred development of the invention, it is alternatively provided that the coating is applied as a pattern, in particular in the form of dots or strips. By applying the coating as a pattern, it is advantageously ensured that the effect of optically influencing the glass pane can be achieved with a smaller amount of coating and can therefore be produced more cost-effectively. In particular, the lower amount of coating then used means that there is no need to subsequently remove the Coating is also possible on a pane of glass that does not have an additional metallic coating. Provision is preferably made for the coating to be applied at least in regions over the entire surface and additionally as a pattern and/or with a different coating thickness. As a result, a particularly advantageous optical influence on the glass pane can be achieved. In particular, the coating has a higher, for example doubled, coating thickness at least in the visible area.

The glass pane according to the invention with the features of claim 12 is characterized by the production using the method according to the invention. This results in the advantages already mentioned.

• 1 bis 5 unterschiedliche Ausführungsbeispiele einer Beschichtung auf einer Glasscheibe und
• 6 ein Verfahren zur Herstellung der Glasscheibe.

Further advantages and preferred features and feature combinations result in particular from what has been described above and from the claims. In the following, the invention will be explained in more detail with reference to the drawings. to show

• 1 until 5 different embodiments of a coating on a glass pane and
• 6 a method of manufacturing the glass pane.

the 1 until 5 each show a section of an upper central area of a glass pane 1, in particular a windshield or a rear window, for a motor vehicle, not shown, in the upper central area when installed as intended, various exemplary embodiments of a coating 2, in particular a metal coating, on the glass pane 1. The coating 2 is intended for optical Influencing a viewing area 3 bordered by a dashed line of a camera (not shown) arranged on the glass pane 1 .

The glass pane 1 optionally also has a black print 4 in certain areas, which has a recess 5 . The viewing area 3 lies entirely within the cutout 5. In the present case, the black print 4 is applied to the glass pane 1 over the full area, at least around the cutout 5, so that an opaque coating is created to shield the camera from unwanted reflections and/or UV radiation. In adjoining areas of the glass pane 1, in which such complete shielding is not required, the black print 4 is only applied as a pattern, in the present case in dots. The areas in which the black print 4 and the coating 2 are applied over the entire surface are in the 1 until 5 for the sake of clarity, each is only shown with narrow hatching.

The exemplary embodiments 1 until 5 differ from each other in how and in which area of the glass pane 1 the coating 2 is applied. So is in the 1 the coating 2 is applied over the entire surface both inside and outside the recess 5, in the present case surrounding the recess 5, ie also below the black print 4.

In the 2 the coating 2 is only applied over the entire surface within the recess 5. In the present case, it extends only slightly beyond the viewing area 3, but it is also conceivable that it extends to the edge of the recess 5, but only to the extent that it is not also applied below the black print 4. In the 3 the coating 2 is only applied over the entire surface outside of the recess 5, in the present case surrounding the recess 5, ie below the black print 4.

In the 4 and 5 is the coating 2 in contrast to the 1 until 3 not over the entire surface, but as a pattern in which 4 punctiform and in the 5 striped, applied. However, other geometric patterns are also conceivable. Likewise, the coating 2 in the 4 and 5 again as in the 1 applied both inside and outside the recess 5. However, as in the 2 shown only within the recess 5, or, as in FIG 3 shown, be applied only outside the recess 5.

The following is with reference to 6 an advantageous method for producing the glass pane 1 with the coating 2 is described. This shows the 6 the procedure using a flowchart. In particular, the method ensures that the optical properties of the glass pane 1 are influenced in a targeted manner by the application of the coating 2 .

The method begins with the manufacturing process of the glass pane 1 with the provision of a glass pane blank. In a step S1, the above-mentioned coating 2 for optically influencing the viewing area 3 of the glass pane for the camera is then applied to the glass pane blank. In a step S2, the glass pane blank provided with the coating 2 is then heated and bent into a predetermined shape. Due to the different temperatures in the area of the coating 2 in comparison to the rest of the glass pane blank, the optical properties of the glass pane 1 in the visible area 3 are influenced in a targeted manner, for example in order to optimize to avoid cal distortions in the field of view for the camera.

In a subsequent step S3, a decision is made as to whether the coating 2 should be removed again after the heating and bending of the glass pane blank. This is particularly advantageous if no additional metallic coating, in particular in the form of heating wires, was let into the glass pane blank during the production of the glass pane 1 . If it is decided that the coating 2 should be removed again, this is done in a step S4, in particular by laser decoating.

The method then ends in a step S5. If the laser decoating is dispensed with, then the method ends directly after step S3 with step S5.

Reference List

1

glass pane

2

coating

3

field of view

4

black print

5

recess

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent Literature Cited

• WO 2020/115170 A1 [0005]

Claims (12)

Method for producing a glass pane (1), in particular a windscreen, for a motor vehicle with a viewing area (3) for a camera that can be arranged on the glass pane (1), a glass pane blank being heated and bent into a predetermined shape, characterized in that before Heating a coating (2) for optically influencing the viewing area (3) is applied to the glass pane blank. procedure after claim 1 , characterized in that a metal coating is applied as the coating (2). procedure after claim 2 , characterized in that silver or a silver alloy is applied as the metal coating. Method according to one of the preceding claims, characterized in that the coating (2) is removed again after the heating and bending of the glass pane blank. procedure after claim 4 , characterized in that the coating (2) is removed by means of laser decoating. Method according to one of the preceding claims, characterized in that the glass pane (1) is designed as a composite pane with at least two panes, the coating (2) being applied to the inner side of the other pane facing one pane. Method according to one of the preceding claims, characterized in that a black print (4) is applied to the glass pane blank at least in certain areas, that the black print (4) has at least one recess (5), and that the visible area (3) is completely within the recess ( 5) lies. procedure after claim 7 , characterized in that the coating (2) is applied at least or only within the recess (5). Procedure according to one of Claims 7 and 8th , characterized in that the coating (2) outside of the recess (5), in particular peripheral to the recess (5), is applied. Method according to one of the preceding claims, characterized in that the coating (2) is applied over the entire surface. Procedure according to one of Claims 1 until 9 , characterized in that the coating (2) is applied as a pattern, in particular in the form of dots or strips. Glass pane for a motor vehicle, characterized by the production with a method according to one of Claims 1 until 11 .

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