Glazing panels

Details Glazing panels Glazing panels

2001-07-02

2002-12-17

Lam, Cathy (Department: 1775)

Stock material or miscellaneous articles

Composite

Of quartz or glass

C296S084100, C296S190100

Reexamination Certificate

active

06495261

ABSTRACT:

DESCRIPTION
This invention relates to novel glazing panels.
Glazing panels, particularly vehicle glazings and particularly windshields, are commonly secured in position using adhesive. These panels may be flat or curved. The panels may be provided with an opaque band extending around their entire periphery, the purpose of which is to improve the appearance of the windshield by masking the interface between the panel and the vehicle and to shield the adhesive from ultra-violet radiation which might damage its integrity over time. This opaque band, which is termed an obscuration band, generally comprises a solid coloured band extending around the periphery of the panel. Commonly the panels further comprise a fade out band extending inwardly from the inner edge of the obscuration band in which the obscuration is applied in a decorative pattern with anything from 1 to 99% of the surface area of the glass being obscured. The fade out band improves the visual appearance of the panel by avoiding a sharp transition between the solid obscuration band and the clear glass.
Another common feature of the modern vehicle glazing panel is the provision of a multilayer transparent infra-red reflective and/or absorbing coating on the glass in which one or more layers reflect IR and/or solar radiation and thereby reduce the heat energy transmitted through the glazing. These coatings do not normally extend to the outer edge of the panel since they have a tendency to corrode if they do so. U.S. Pat. No. 5,492,750 describes a method of applying such a coating to the surface of a glass which uses a mask to prevent deposition of the coating around the periphery of the glass. The thickness of the mask is such that it leaves a ghosting effect at the peripheral edge of the coating which is stated to be undesirable because it highlights the edge of the coating. Where the extremity of the coating does not overlap the obscuration band the changes in reflectance and transmittance between the coated and the uncoated area of glass is noticeable and can distract the driver's attention. Attempts to remove this distraction by ensuring overlap between the solid portion of the obscuration band and the edge of the coating have been discovered to be less than satisfactory particularly because when viewed from a position where the coating is in the foreground and the obscuration band is in the background the transition between the coated and non-coated areas of the glass is very noticeable, and aesthetically displeasing. This is particularly true when a ghosting effect is present at the peripheral edge of the coating. EPA 0702 423 A1 discloses coated windscreens having a small area of uncoated glass which transmits infra-red radiation. It is suggested that this uncoated area be covered with a layer for absorbing light in order to give a more homogeneous appearance to the windshield.
We have now discovered that the appearance and the optical properties of a glazing panel may be improved by providing that the edge of the coating overlaps the fade out band but does not overlap with the solid portion of the obscuration band.
Thus from one aspect this invention provides a glazing panel having an obscuration band applied to at least one surface thereof any extending around the periphery of the panel, a fade out band extending inwardly therefrom and at least one coating applied to at least one surface thereof wherein the outer extremity of the coating lies within the fade out band. Preferably the entire length of the edge of the coating will lie within the fade out band. However this may not always be possible for example due to the presence of rain sensors which are masked by a solid printed area. In such instances we prefer to position as much of the edge of the coating as is possible within the fade out band and generally to ensure that at least 90% of the edge of the coating lies within the fade out band.
The glazing panel may be a laminated panel or a bilayer panel. Laminated panels comprise two or more sheets of glass bonded together with a suitable resin which is typically polyvinylbutyral (PVB). Bilayer panels comprise a single sheet of glass having a layer of transparent resin bonded to the interior surface. The invention finds particular application where the coating film is in the foreground (viewed from the interior of the vehicle) and the obscuration band is in the background although it is useful where the relative positioning of these two layers is reversed. In a laminated panel the obscuration band will not normally be on the outer surface of the glass and is most commonly applied to the innermost glass surface. The coating is most commonly applied to the underside of the outermost panel of the laminate (often termed surface
2
by application of the convention whereby the outermost surface is termed surface
1
and the subsequent surfaces numbered consecutively thereafter). In a bilayer panel the obscuration band and the coating are normally applied to either the interior surface of the glass panel or the interior face of the resin. The coating, the obscuration band and the fade out band may be applied to a flat glazing panel, to a curved glazing panel or to a flat glazing panel which is then curved.
In both laminates and bilayer panels the coating may be positioned in the resin layer i.e. surrounded by resin and not being in contact with the glass. These panels may be constructed by utilising a resin in which the coating is already positioned either to bond two glass sheets together or to bond to the underside of a single glass sheet. When the coating is surrounded by the resin layer the coating may be deposited onto a transparent polymeric material (e.g. PET ) prior to their incorporation in the laminate or bilayer. In this embodiment the polymeric material incorporating the coating is preferably cut to the shape and size so that its extremities lie within the fade out band. In a laminated panel the fade out band will normally be applied to a surface other than surface
1
of the laminate in this embodiment of the invention.
The total width of the solid coloured section of the obscuration band and the fade out band may vary through a wide range say from 5 mm to 300 mm but is typically in the range 10 to 150 mm. The width of the solid obscuration band will be that which is sufficient to provide the desired appearance The fade out band may be designed so as to have a decorative effect and the width and the shape of the band may be varied to provide a particular appearance. The density of the shading within the fade out band may vary within wide limits with anything from 1 to 99% of the surface area of the glass being covered with a solid cover. The density of the colouration within the fade out band may vary across the width of the band e.g. by having a high percentage of the surface coloured in the area adjacent to the solid coloured section of the obscuration band and a decreasing percentage of the surface coloured across the width of the fade out band or the density may remain constant across the fade out band.
The colouration in the fade out band may conveniently take the form of a multiplicity of dots of colour spread across the band. These dots may be of varying sizes (say from 0.001 to 10.00 mm) and varying shapes (for example circular, rectangular, polygonal). The fade out band can also take the form of patterns other than dots for example lines of colour of varying widths running parallel to the obscuration band.
The outer edge of the coating typically a multilayer transparent infra-red reflective coating will preferably overlap the edge of the fade out band by at least 0.1 mm and preferably at least 0.5 mm. The edge will normally stop at least 0.1 mm and preferably at least 0.5 mm short of the inner edge of the solid coloured obscuration band. The coating will preferably overlap the band along the entire periphery of that band.
A wide variety of reflective and/or absorbing coatings are used or have been proposed for use in the art. Any of these may be utilised in the panels of this invention

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