Automotive glazing panel having an electrically heatable...

Electric heating – Heating devices – Combined with diverse-type art device

Reexamination Certificate

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C219S522000

Reexamination Certificate

active

06670581

ABSTRACT:

This application is the U.S. national stage of International Application No. PCT/EP00/04200 filed May 1, 2000 which claims priority from European Patent Application No. 99201567.7 filed May 20, 1999. The entirety of each of those applications is incorporated herein by reference.
BACKGROUND OF THE INVENTION
This invention relates to glazing panels and particularly but not exclusively to a vehicle windscreen having an electrically heatable coating layer provided with a data transmission window.
Although the invention is described herein with particular reference to car windscreens it will be understood that it has applications to other vehicle glazing panels, for example rear window and side windows.
U.S. Pat. No. 4,668,270 (Ford Motor Company) describes a car windscreen having an electrically heatable coating layer used for defrosting, de-icing and/or de-misting. The heatable coating, which is laminated between the two glass sheets of the windscreen, is supplied with electrical power via first and second bus bars which extend respectively along the top and bottom edges of the windscreen, each bus bar being silk screen printed on the glass in a silver ceramic material. The heatable coating is a multilayer coating consisting of layers of zinc oxide and silver formed by magnetron sputtering.
Coating layers are well know not only to provide an electrically heatable element but also to modify the optical properties of the glass, particularly to reduce the proportion of incident solar energy which is transmitted through the glass whilst allowing passage of sufficient visible light to ensure good visibility. This can reduce overheating of the interior of the vehicle in summer and is commonly achieved by reflection of incident solar radiation in the infra-red portion of the spectrum. EP378917A (Nippon Sheet Glass Co.) discloses such coating layers. The term solar control coating layer as used herein refers to a coating layer which increases the selectivity of the glazing panel i.e. the ratio of the proportion of incident visible radiation transmitted through the glazing to the proportion of incident solar energy transmitted through the glazing. Many solar control coating layers have the intrinsic property of being electrically heatable.
Sensors or emitters arranged inside a car may rely on passage of an electromagnetic data transmission signal through the windscreen. For example, passage of an electromagnetic data signal for automatic payment at the toll barriers used on the French motorway system may pass through the windscreen. However, passage of such electromagnetic data transmission signals may be hindered by the presence of a solar control coating and, consequently, a data transmission window in the form of a gap or hole may be provided in a solar control coating layer specifically to allow the passage of electromagnetic waves through that portion of the glazing. This principle is applicable to allowing passage of any electromagnetic data transmission signal through a glazing panel and particularly, but not exclusively, signals using infra-red wavelengths. The term data transmission window as used herein refers to a portion of the surface area of a glazing adapted to permit electromagnetic data transmission therethrough.
SUMMARY OF THE INVENTION
FIG. 1
shows a simulation of a heated car windscreen
10
having an electrically heatable coating layer over its entire surface supplied with electrical power by a first bus bar
11
and second bus bar
12
. The windscreen is a laminated structure comprising two sheets of glass laminated together by means of a sheet of pvb, the electrically heatable coating layer and the bus bars being sandwiched between the two sheets of glass. This windscreen does not have a data transmission window and the heating effect is relatively uniform over the entire windscreen, the colours in the figure indicating the approximate relative temperature in centigrade of each portion of the glazing. It can be seen that a slight “hot spot”
13
is created around each end of the second bus bar
12
.
All of the Figures are intended to give an indication of the relative temperatures at different portions of the glazing panel. The absolute temperatures will depend, inter alia, upon the nature of the heatable coating layer and the electrical voltage difference between the two bus bars (i.e. the power supplied to the windscreen). In addition, the Figures are intended to give an indication of the “stable” or “equilibrium” temperature distribution once the glazing panel has been heated for sufficient time to reach its maximum heated temperature. The scale of relative temperatures varies from one Figure to another.
FIG. 2
show a simulation similar to that of
FIG. 1
save that a data transmission window
20
is incorporated in the arrangement. The data transmission window is a portion of this windscreen that does not have the heatable coating layer. As can be seen from the representation of the temperature at different points of the windscreen the data transmission window causes the following perturbations:
an upper portion of the windscreen
21
at and around the data transmission window is not heated at all;
a central portion
22
is heated but to a lesser extent than if the data transmission window is not present—consequently this portion will take longer to de-mist or de-ice than in the scenario without a data transmission window;
hot spots
23
and
24
are created adjacent to the data transmission window—this is undesirable as such local overheating may damage or even bum the heatable coating layer and/or the adjacent pvb layer. It is also important to ensure that no portion of the windscreen is heated to such an extent that its temperature could cause burns to somebody touching it.
Whilst it would of course be possible to reduce the electrical power supplied to the bus bars so as to reduce the temperature of the “hot spots” this would of course reduce the temperature of the other parts of the windscreen at the same time and increase the time taken to de-mist or de-ice the overall windscreen.
One or both of these aspects may be used to reduce the perturbation to the heating of the glazing caused by the presence of the data transmission window. In particular, it may reduce or preferably eliminate the presence of undesirable hot spots and/or reduce the temperature difference between certain portions of the glazing.
The heatable coating layer may be a sputtered deposited coating, for example having the general structure antireflective dielectric layer/optional barrier layer/silver containing conductive layer/optional barrier layer/antireflective dielectric layer/optional barrier layer/silver containing conductive layer/optional barrier layer/antireflective dielectric layer. Such coatings are used in automotive glazings to increase the selectivity of the glazing (i.e. the ratio of the proportion of visible light transmitted to the proportion of incident solar energy transmitted) to reduce the solar heating or greenhouse effect in the vehicle. Such coating layers typically have a resistance in the order of 2 to 4 ohms per square. Alternatively, the heatable coating layer may have a single silver containing layer of the general structure antireflective dielectric layer/optional barrier layer/silver containing conductive layer/optional barrier layer/antireflective dielectric layer.
A further possibility is for the heatable coating layer to comprise a pyrolytically deposited layer based, for example on doped tin oxide. This might have a resistance in the order of 8-20 ohms per square.
The conductive band may have a resistance of less than, for example, 0.2, 0.1, 0.08, 0.06, 0.04, 0.02, 0.01, 0.008 or 0.005 ohms per square.
The heatable coating layer may be sandwiched between two sheets of glass or it may be an exposed coating layer, for example on a monolithic glazing panel.
The heatable coating layer may be deposited directly on a surface of the glazing or it may be carried on a film, for example a film of PET incorporated in the glazing.
The invention is particularly use

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