DE19535053A1 - Glass pane, esp. windscreen, has shaped bonded layer with a shape which causes redn. of double image angle - Google Patents

Abstract

A transparent laminated pane has at least one glass layer, with a shape forming a double image angle when viewed over a certain viewing direction range, and at least one layer surface bonded to the glass layer. The novelty is that the bonded layer has, in the viewing direction range, a shape dimensioned such that the value of the double image angle of the laminated pane is smaller than that of the glass layer. Also claimed are: (i) a method of reducing the double image angle, which occurs on viewing through a laminated pane and which is caused by a glass layer part of the pane, by bonding the surface of the glass layer part to a layer having a thickness variation dimensioned such that the value of the resulting double image angle of the layers is smaller than that of the glass layer part alone; and (ii) use of a variable thickness bonded layer in a laminated glass pane to reduce the double image angle.

Description

The invention relates to a curved composite disc according to the preamble of Claim 1, a method for reducing a view through a composite pane occurring double image angle and the use of a special composite layer.

For a long time now, windshields have been desired by automotive design are also bent more in the longitudinal direction of the vehicle. Such discs, in particular Laminated safety glass, could not be used until now because of the usual glass thicknesses of Approx. 5 mm from a bending radius of 5 m a double image angle of 5 ′ occurs. This causes optical effects that affect the quality of the view for the vehicle occupant pregnant. This multiple reflection within the pane creates Night driving a disturbing double image against bright light sources such as headlights coming vehicles, traffic lights or street lights. The double image angle mentioned, under which the light source and the double image are separated essentially depends on the parallelism or wedge of the disc and the bending radius and the inclination of the curved disc.

In the past, double images occurred due to the wedge-like nature of the windows. since The use of float glass for motor vehicle windows has largely reduced the wedge insignificant value decreased, so that the bending radius and the inclination of the gebo gene disc (shape defects) are essentially determining. Because the current force vehicle windows, however, have bending radii of 5 m, in particular 10 m (such discs are also easier to manufacture), the shape error also played no significant role.

The object of the present invention is to design a transparent composite pane in such a way that that despite a significant curvature of the disc, no significant double image angle occurs. The task is also a corresponding method and the use of a spe primary composite layer.  

This problem is solved with regard to the composite pane with the features of Claim 1 with regard to the method with the measures of claim 16 and back visibly the use by the composite layer reproduced in claim 19.

In the case of a plane-parallel windshield which is inclined at an angle ϕ (angles of up to 70 °, usually 45 ° to 65 ° and in particular 50 ° to 60 °) and which are additionally bent in the direction of inclination, double images occur at a double image angle Δε _F , which can be determined as follows:

d = thickness of the glass pane (mm)
r = radius of curvature of the disc at the location of the light beam (m)
n = refractive index of the glass of the pane (glass n = 1.52)
ϕ = angle of incidence of the light beam.

The inclination or the angle of incidence of the light beam is practically always given, since the Observation through the disc is not from the center of the curvature of the Disc is done.

According to the invention, the double image angle is now connected to the glass pane by one dene layer (composite layer) reduced or largely compensated. The float glass itself, which is usually used as a glass layer, cannot be used with a suitable one Produce thickness variation (wedge) so that the composite layer for the thickness variation is used. The composite layer is usually a composite film, for example can also be made wedge-shaped by extrusion. The composite layer is advantageous also a refractive index that approximates that of the glass layer or layers or is equal to. A polyvinyl butyral composite is particularly suitable as the composite film foil. However, other composite layers can also be used according to the invention, For example, liquid adhesive that is fixed between each other at an angle Discs is introduced. The invention finds particular application in the composite glass panes with two layers of glass, between which a composite layer is arranged. If desired, the number of layers can also be increased. When dimensioning the composite layer is usually a wedge that lies in the curvature. The wedge is dimensioned according to the invention for an intended one  Viewing direction area, which is based on the location and purpose of the transparent ver bund disc aligns. The wedge is inserted so that its thicker area is at the top, if the upper area is curved and inclined against the direction of view. Here will in particular from the observation of objects that are at a distance at least 5 m, in particular at least 10 m behind the composite pane (the Opposite viewer). With the invention usually Dop angle of view of such double images (secondary images) is reduced, which is an intensity of at most 5%, usually at most 1% and in particular at most 0.3% with regard to the have associated primary images. According to the invention, this is usually done by real Objects or objects that are actually behind the composite pane went.

The amount of the double image angle of the entire composite pane is advantageous by min least 20%, advantageously reduced by at least 40% and in particular by at least 60% nert based on the amount of the double image angle of the glass pane or glass panes. If a further layer of substantial thickness is also connected to the glass panes, then this must be taken into account in accordance with the glass panes. The is accordingly Usually used composite layer with its thickness advantageous when calculating with to consider. Above as below, the thickness of the glass layer (s) may also include the thickness of a composite layer. There can be a certain tol ranz are accepted. The present invention comes especially in sol Chen composite panes are used, the glass layer or layers of curvature requires a double image angle of at least 5 ', mostly at least 7' and in particular have at least 10 ′. In addition, the invention comes in particular at Krümmungsra serve 5 m, advantageously 4 m and in particular 3 m with 5 mm thickness and n = 1.52 for Commitment. With larger radii of curvature, the double image angle is already so small that the correction according to the invention is usually not necessary.

In the case of the laminated pane, the double image angle of the glass portion becomes predominantly, mostly at least 70% and in particular at least 85% due to the curvature of the glass partly determined in connection with its thickness. A smaller percentage of the dop The angle of view is usually also determined by a certain taper of the glass, the manufacturing process is caused. The curvature, in particular, is corrected accordingly by a wedge of the composite layer, this wedge in particular also counteracts double image angle caused by the thickness of the composite layer. Erfin According to the invention, in particular with increasing curvature of the composite pane Composite layer with greater thickness variation (greater wedge) used.  

The method according to the invention advantageously takes advantage of the characteristics of the composite pane back individually or in combination. The use of these features is also used.

A head-up display is known from EP 0 420 228 A, which has a wedge-shaped wind protective screen used. Here too, a curved windshield can Wedge can be used, but the wedge is not based on a review by the Pane, but solely due to a double reflection on the two pane sides relates. The only thing that is essential for the double reflection image is the pane thickness, one possible che curvature of the disc already has a compensating effect here, so that with increasing Curvature of the disc with otherwise constant parameters, a smaller wedge angle (smaller wedge) is used. In the prior art is also Projection distance essential, so that with a small projection distance an enormously large Wedge angle is necessary. In order not to pose any problems during the review, used The prior art usually has projection distances that lead to very small wedge angles (usually less than 0.5 ′) lead. Such low wedge angles are not suitable for the to compensate for smaller double radii of curvature occurring. For this are for example wedges with about 2 to 3 'required. The present invention will follow the described in more detail using an exemplary embodiment and drawings.

It shows

Figure 1 is a double image on an inclined and curved disc.

Fig. 2 is a double image due to the shape of a disc; and

Fig. 3 is a double image due to the wedge of a disc.

An observer 1 who is at a distance of approximately 0.5 to 1.5 m in front of a glass pane 2 sees a primary image 3 at a distance of 100 m. Due to the inclination and curvature and a wedge of the disc 2 , the inclination to the vertical being determined, a secondary image 4 is generated, the intensity j _{s of which is} approximately 625 times smaller than the intensity j _p. the primary image 3 . The primary image 3 and secondary image 4 form a double image angle Δε of 10 ′ from one another, correspondingly the images appear separated by 29 cm at a distance of 100 m.

The primary and secondary images, which come from a single light source 5 ( Fig. 2), are a function of the radius of curvature r and the thickness d and the angle of incidence of the light beam on the disc (inclination of the disc).

Also a wedge of the disc 2 '( Fig. 3) causes the formation of primary image and secondary image, but here the primary image 3 ' lies between the light source 5 'and the secondary image 4 ', unlike the curvature-related displacement in which the light source 5 lies between the two images. By using a wedge ( FIG. 4), it is possible to reduce the double image angle Δε by combining the curvature with the wedge. For this purpose, a wedge-shaped PVB film 18 is glued between two curved float disks 16 and 17 , the thick end of which is at the top. As a result, an opposite beam path according to FIG. 3 (wedge rotated through 180 °) is superimposed on the beam path according to FIG. 2, so that the secondary images are approximately deleted. In the example, the shape-related double image angle has an amount of 12 ', the lens inclination is 60 ° and the lens thickness 5 mm. Computationally, this results in compensation with a foil wedge of 2.4 'according to the equation

In the case of a PVB film that is inserted between the glass panes above a pane height of 0.8 m, this means a steady increase in thickness by 0.56 mm. Since a double image angle below 4 ′ is generally perceived as no longer disturbing, a correction of 8 ′ is also sufficient, corresponding to an increase in thickness of 0.4 mm. The wedge can be either through foils made in a wedge shape or by laying them on top of each other several foils in stages and corresponding pressing as well as with corresponding ver Pressable films can also be achieved by pressing two panes alone.

Claims (21)

1. Transparent composite pane containing at least one glass layer, which has a double image angle when viewed with respect to an intended viewing direction area, and at least one surface connected with the glass layer ver layer, characterized in that the connected layer in the viewing direction area has a layer shape has, which is dimensioned such that the amount of a double image angle of the composite pane is smaller than the amount of the double image angle of the glass layer. 2. Composite pane according to claim 1, characterized in that at least two Glass layers that have the shape forming the double image angle. 3. Composite pane according to claim 1 or 2, characterized in that the amount of Double image angle of the composite pane at least 20%, preferably at least 40% and in particular at least 60% is less than the amount of the double image win the glass layer or layers. 4. Composite pane according to one of the preceding claims, characterized in that that the double image angle of the glass layer or layers 5 ', preferably 7' and in particular 10 '. 5. Composite pane according to one of the preceding claims, characterized in that the shape contains a curvature. 6. Composite pane according to claim 5, characterized in that the curvature Radius of 5 m preferably 4 m and in particular 3 m, based on a ver flange thickness of 5 mm with a refractive index of 1.52.   7. Composite pane according to one of the preceding claims, characterized in that that they have an inclination of up to 70 °, in particular between 45 °, in the viewing direction area and has 65 °, with an upper area of the composite pane opposite to the viewing direction is bent and inclined. 8. Composite pane according to one of the preceding claims, characterized in that that a double image angle component caused by the thickness of the bonded layer Composite pane is also reduced in amount by the layer shape. 9. Composite pane according to one of the preceding claims, characterized in that that the double angle of view on objects that are at a distance from the compound pane of 5 m. 10. Composite pane according to one of the preceding claims, characterized in that that the double image angle on a double image with at most 5%, preferably maximum at least 1% and in particular at most 0.3% intensity with respect to the object belonging primary image is related. 11. Composite pane according to one of the preceding claims, characterized in that that the double image angle is related to double images of real objects. 12. Composite pane according to one of the preceding claims, characterized in that that the composite window is a motor vehicle window. 13. Composite pane according to one of the preceding claims, characterized in that that the layer shape is a wedge shape. 14. Composite pane according to one of the preceding claims, characterized in that that the bonded layer is an extruded film. 15. Composite pane according to one of the preceding claims, characterized in that that the bonded layer is an organic layer. 16. A method of lessening a look through in a viewing direction area a composite pane occurring double image angle, which is essentially through a glass Layer portion of the composite pane is conditioned, characterized in that the glass layer portion is brought together in connection with a composite layer, which is one of the  The dimensioned thickness variation has that the amount of a resulting double image win glass layer and composite layer is smaller than the amount of the double angle of view of the glass layer portion. 17. The method according to claim 16, characterized in that the double image angle of Glass layer portion predominantly, preferably to at least 70% and in particular to at least 85% due to a curvature of the glass layer in connection with the sen thickness is due to transparency and by a double image angle correction, as before due to a wedge of the composite layer in view of the resulting double image angle is reduced. 18. The method according to claim 17, characterized in that the resulting double angle of view with increasing curvature is reduced with increasing wedge. 19. Use of a thickness-varied composite layer in a laminated glass pane to egg NEN when viewing through double image angle, which is essentially through a glass layer proportion is necessary to reduce the amount of the laminated glass pane. 20. Use according to claim 19, characterized in that the double image angle of the glass layer portion predominantly, advantageously at least 70% and in particular at least 85% due to a curvature of the glass layer in connection with whose thickness is due to transparency and by a double image angle correction mainly due to the wedge nature of the composite layer in view of the resulting double image angle is reduced. 21. Use according to claim 20, characterized in that the resulting dop pel picture angle is reduced with increasing curvature with increasing wedge.