EP3508030A1

EP3508030A1 - Glass pane having an electrical heating assembly

Info

Publication number: EP3508030A1
Application number: EP17745709.0A
Authority: EP
Inventors: Volkmar Offermann; Stefan Droste
Original assignee: Saint Gobain Glass France SAS; Compagnie de Saint Gobain SA
Current assignee: Saint Gobain Glass France SAS
Priority date: 2016-09-05
Filing date: 2017-07-26
Publication date: 2019-07-10
Anticipated expiration: 2037-07-26
Also published as: MA46082B1; EP3508030B1; HUE052464T2; PL3508030T3; CN108064468A; CN108064468B; WO2018041480A1; US20190198970A1; ES2824520T3; US10938086B2

Abstract

The invention relates to a glass pane (1) having an electrical heating assembly (H) that is suitable for use with an operating voltage of greater than 14 Volt, wherein at least one part of the heating assembly (H) is also suitable for acting as an antenna (ANT), wherein the heating assembly has at least one first number of electrically conductive meandering sections (A₁) and a second number of electrically conductive meandering sections (A₂), wherein the meandering sections within the first number or within the second number are arranged parallel to one another substantially in a first orientation, wherein the respective beginnings and ends of the meandering sections within the first number or within the second number each end at a common electrical conductor (L₁, L₂, L₃), which extends substantially perpendicular to the first orientation, wherein at least one of the electrical conductors (L₂; L₂, L₃) extended substantially perpendicular to the first orientation acts as an antenna (ANT), wherein the at least one of the electrical conductors (L₂; L₂, L₃) extending substantially perpendicular to the first orientation, which acts as an antenna (ANT), has a potential that is different to the operating voltage during use with the operating voltage.

Description

Glass pane with an electrical heating arrangement

The invention relates to a glass pane with an electrical heating arrangement.

Background of the invention

In many areas glass panes are used today, which are electrically heated. The best known application are heated vehicle windows.

Increasingly, however, other functions, in particular antenna functions, are also taken over by the previous heating arrangements. With the integration of antenna functions, wind noise on the vehicle is minimized and damage to the antennas is prevented. By way of example, reference is made to DE 40 345 48 C2.

From US patent application US 2008/083720 A1 it is known that heating wires can be applied to a glass substrate. The heating wires can be arranged sinusoidally. Furthermore, the document lists the use of a textile mat with heating wires as an antenna. However, no statement is made about the areas of the heating wires, which act as an antenna, nor their arrangement.

In this case, the heating wires were generally by means of printing technology, such as. the screen printing, applied to the disc. The design of the heating wires are set narrow limits. These are partly due to the fact that the heating of the glass should be as even as possible to avoid thermally induced damage, on the other hand, the structure sizes are limited, so that the view is not affected too much by the disc. On the other hand, the manufacturing process also limits, so that the printed heating wires have a certain resistivity and structure sizes.

In previous systems, which were designed for the usual voltages in typical on-board networks of 12-14 volts, the integration was readily possible. However, there has been an effort for some years to increase the voltage of the electrical system of vehicles.

However, if the on-board voltage is increased, the heat transfer increases with the same structure size. However, a reduction of the structure sizes and / or an increase in the resistance of the heating wires is not readily possible.

This is due, for example, to the fact that a reduction in the content of conductive particles (increase in the resistance) leads to a deterioration in the pressure, in particular an increasing porosity and thus to increased errors. If one considers the dimensions in mind, a compensation of a 4 times higher operating voltage would require the increase of the resistance by a factor of 4 ² with the same design. This means that either the specific resistance of the conductor would have to increase by a factor of 16 or the dimensions of the conductor (layer width / layer thickness) would have to decrease accordingly. However, there are process engineering minimum structure widths in the range of 0.2 mm.

But even a combination does not lead to the goal, since even with an exploitation of the minimum structure widths of the resistance would have to be so high that the pressure is error-prone.

Alternatively one could consider regulating the current of the operating voltage similar to a pulse width control. However, in the event of a malfunction, the glass would be in acute danger. In addition, the active control of the current requires additional error-prone and cost-driving elements.

It is therefore an object of the invention to provide a glass sheet with an electric heating arrangement which can also be used with an operating voltage of 14 volts and more.

SUMMARY OF THE INVENTION The object is achieved by a glass pane with an electrical heating arrangement, suitable for use with an operating voltage of more than 14 volts, wherein at least a part of the heating arrangement is moreover suitable for acting as an antenna, wherein the heating arrangement has at least a first number electrically conductive meandering sections and a second number of electrically conductive meandering sections, wherein the meandering sections within the first number or within the second number substantially in a first orientation parallel to each other are arranged, wherein the respective beginnings and ends of the meandering portions within the first number or within the second number each end on a common electrical conductor which extends in each case substantially perpendicular to the first orientation, wherein at least one of the substantially perpendicular to first orientation extending electrical conductor acts as an antenna.

A meander Mi, M ₂ represents a loop, see FIG. 4. In the example of FIG. 4, the meander Mi is aligned horizontally in a first orientation, ie the opening of the loop points in a horizontal direction. The meanders Mi, M ₂ are arranged parallel to one another. While the meander Mi is open to the left in the horizontal direction, meander M ₂ is open to the right in the horizontal direction.

This makes it possible both to increase the operating voltage and to be able to receive the previous functions.

In one development of the invention, at least parts of the heating arrangement are applied or introduced as wires onto or into a combination foil F of a laminated glass pane.

This makes it possible to provide the heating arrangement protected against mechanical effects.

According to a further embodiment of the invention, the antenna has its own antenna connection for connection to one or more high-frequency devices. This allows the antenna to be connected at a suitable location.

In a further embodiment of the invention, the antenna has a filter for separating high-frequency signals and DC voltage, so that DC voltage does not disturb the reception of high-frequency signals.

According to a further embodiment of the invention, the heating arrangement is suitable for use with an operating voltage of about 48 volts.

As a result, even high operating voltages, such as those found in vehicles with electric (assisted) drive can be used directly without further conversion and thus without loss of conversion. In a further embodiment of the invention, the electrical conductor and / or the electrically conductive meandering meandering sections have a minimum structure width equal to or greater than 0.1 mm and a maximum structure width of less than 2 mm.

Thus, with conventional pattern widths and manufacturing methods, a glass sheet can readily be provided which can be operated with operating voltages higher than 14 volts.

According to a further embodiment of the invention, the antenna is suitable for receiving high-frequency signals, in particular keyless entry systems, analog / digital broadcasting and / or mobile communication signals.

Thus, the heater assembly can provide a wide range of functions related to the reception and emission of electro-magnetic radiation.

According to one embodiment of the invention, the heating arrangement comprises silver.

Thus, with conventional manufacturing techniques, a glass sheet can be readily provided that can operate at higher operating voltages than 14 volts.

In a further embodiment of the invention, the glass pane further comprises at least one electrical filter in order to decouple the operating voltage and the antenna.

By providing filtering, the operational safety of the high-frequency devices connected to the antenna is increased.

The object is also achieved by using a previously described glass pane according to the invention in vehicles, in particular as a rear window.

Brief description of the drawings:

Embodiments of the present invention will be described by way of example with reference to the accompanying drawings, in which: 1 shows a first schematic representation of a glass pane with an electrical heating arrangement according to embodiments of the invention,

2 shows a second schematic illustration of a glass pane with an electrical heating arrangement according to embodiments of the invention,

Fig. 3 further aspects according to embodiments of the invention, and

Fig. 4 is a schematic representation of meanders.

Detailed description of the invention with reference to the drawings:

Hereinafter, the invention will be illustrated in more detail with reference to the figure. It should be noted that various aspects are described, which can be used individually or in combination. That Any aspect may be used with different embodiments of the invention unless explicitly illustrated as a mere alternative.

Furthermore, in the following, for the sake of simplicity, usually only one entity will be referred to. Unless explicitly stated, however, the invention may also have several of the entities concerned. As such, the use of the words "a," "an" and "an" is to be understood merely as an indication that at least one entity is used in a simple embodiment.

In Figures 1 and 2, embodiments of a glass sheet 1 are shown schematically, the glass sheet 1 is equipped with a heating arrangement H, which is suitable for use with an operating voltage of more than 14 volts.

In this case, at least a part of the heating arrangement H is moreover suitable for acting as the antenna ANT. Antenna is understood to mean that electromagnetic radiation can be received and / or emitted. In this context, any modulated or unmodulated electromagnetic radiation which serves to transmit information is regarded as electromagnetic radiation.

The heating arrangement H has at least a first number of electrically conductive meander-shaped sections A-1 and a second number of electrically conductive meander-shaped sections A ₂ . In FIG. 1, the heating arrangement H has a first number of electrically conductive meander-shaped sections A-1 and one ₂ , the heating arrangement H has a first number of electrically conductive meandering meandering sections A-1 and a second number of electrically conductive meandering meandering sections A ₂ and a third number of electrically conductive meandering meandering sections A ₃ on. However, the heating arrangement could also have more numbers of meander-shaped sections.

The meander-shaped sections within the first number or within the second number are arranged in FIG. 1 essentially in a first orientation parallel to one another. Likewise, the meandering meandering portions are disposed within the first number and within the second number and within the third number in FIG. 3, respectively, in a first orientation parallel to each other.

In this case, the respective beginnings and ends of the meander-shaped sections within the first number or within the second number each end on a common electrical conductor which extends in each case substantially perpendicular to the first alignment.

That is, in FIG. 1, the beginnings of the meander-shaped sections A-1 end within the first number on a common electrical conductor L-1, which extends in each case substantially perpendicular to the first orientation, while the ends of the meander-shaped sections A ₂ within the second number a common electrical conductor L ₃ ends, each extending substantially perpendicular to the first orientation. The ends of the meandering sections A-ι within the first number and the beginnings of the meandering sections A ₂ within the second number end on a common electrical conductor L ₂ , each extending substantially perpendicular to the first orientation. In Figure 2, the beginnings of the meandering sections A-ι within the first number on a common electrical conductor L-ι, each extending substantially perpendicular to the first orientation, while the ends of the meandering sections A ₃ within the third number on a common electrical conductor L ₃ ends, each extending substantially perpendicular to the first orientation. The ends of the meandering sections A-ι within the first number and the beginnings of the meandering sections A ₂ within the second number end on a common electrical conductor L ₂ , each extending substantially perpendicular to the first orientation. Likewise, the ends of the meandering sections A ₂ within the second number and the beginnings of the meandering sections A _{3 end} within the third number on a common electrical conductor L ₃ , each extending substantially perpendicular to the first orientation.

At least one of the electrical conductors which are perpendicular to the first orientation acts as an antenna. In this case, the at least one of the electrical conductors (L ₂ , L ₂ , L ₃ ), which is perpendicular to the first alignment and acts as an antenna (ANT), has a potential different from the operating voltage when used with the operating voltage.

The arrangement of the presented invention allows, in particular, the common conductors Li, L ₂ , L ₃ , L ₄ ,... To be understood as equipotential planes, so that no appreciable current flow perpendicular to the first orientation can be detected within the respective conductor. That is to say, since the current flow takes place essentially "in the first orientation", the current flowing through the operating voltage does not occur at the electrical conductors, so that unwanted hotspots on the pane 1 can not occur, ie a homogeneous distribution of the heat is made possible. At the same time, however, the function is still guaranteed as an antenna ANT.

The number of meandering sections and the length of the meandering sections can be suitably adjusted so that a desired heat output can be achieved at a certain glass thickness and operating voltage.

The antenna ANT may be provided at a suitable location with one or more contact elements. As a result, e.g. various frequency ranges are served and / or the transmitter and receiver are decoupled from each other and / or a diversity system is operated or spatial multiplexing (MIMO) is enabled. Diversity systems include switch diversity and phase diversity on the receiver side of the system to make profitable use of the different reception characteristics of multiple antennas, and thus, e.g. to improve the omnidirectional effect.

According to one embodiment of the invention, at least parts of the heating arrangement H are applied or introduced as wires on or in the combination foil F of a laminated glass pane. That is, the invention is not limited to the range of specific glass panes. The term "wire" should not be misunderstood, but rather wire is a rather elongated arrangement in terms of the thickness / width of the conductor, and more particularly, the term includes (screen) printed conductors. In one embodiment of the invention, the antenna ANT has its own antenna connection for connection to one or more high-frequency devices. A high-frequency device may be, for example, a diplexer or the like, but also an amplifier and / or a transmitter. According to a further embodiment of the invention, the antenna ANT has at least one filter for separating high-frequency signals and DC voltage, so that DC voltage does not disturb the reception of high-frequency signals. For example, an arrangement with 3 filters is shown in Figure 3, which arrangement does not necessarily have to be this way. The term filter is to be understood broadly and may also include a frequency lock.

The filters may also be printed on the glass sheet 1, e.g. be provided as a stripline, or be provided as outlined in Figure 3 as an independent elements.

For example, a low-pass filter or a plurality of low-pass filters TP-i, TP ₂ may be provided to prevent high-frequency signals from entering the electrical system (indicated by exemplary 48 volts and an earth symbol). The low pass can be passed from the respective operating voltage - typically a DC voltage - while the high frequency of a transmitter, such as a mobile transmitter, is not distributed via the electrical system and thus disturbances eg to the vehicle electronics or unwanted emissions can be avoided. It is not necessary to provide two low-passes. Often it is sufficient to provide a low-pass filter TP-i on the supply voltage side of the operating voltage. On the other hand, the provision of an inductance, for example to the supply voltage side (48 volts) may be sufficient as a filter. Primarily filter and coil are used to protect the antenna from interference from the electrical system or to prevent a high-frequency short circuit of the antenna with the vehicle ground and the supply voltage side.

Likewise, a high pass HP or bandpass BP may be provided to protect the high frequency devices from DC ingress. Again, the provision of a capacity as a (high-pass) filter HP may be sufficient. As a result, the often sensitive transmitter / receiver or amplifier electronics of the radio-frequency device can be protected against the ingress of DC voltage. Penetrating operating voltage can lead to destruction or impairment of the high-frequency device. In a further embodiment of the invention, the heating arrangement H is suitable for use with an operating voltage of about 48 volts. This allows a wide range of operating voltages.

In one embodiment of the invention, the electrical conductor and / or the electrically conductive meander-shaped sections have a minimum structure width equal to or greater than 0.1 mm and a maximum structure width of less than 2 mm.

According to a further embodiment of the invention, the antenna is for receiving high-frequency signals, in particular keyless entry systems, analog broadcasting such as e.g. Longwave, medium wave, shortwave and ultra shortwave broadcasting, digital broadcasting, e.g. DAB, DAB +, DRM, DVB-T, DVB-T2 as well as for mobile communication signals, e.g. according to one of the standards GSM, UMTS, LTE or the like. Broadcasting includes both radio and television signals.

In this case, for example, in particular the conductors L ₂ or L _2, which are perpendicular to the first alignment, and also L _{3 can act} as the antenna ANT. These can have suitable dimensioning for the function as an antenna and are suitable for receiving signals polarized in this direction perpendicular to the first orientation (but also for circularly polarized signals). Nevertheless, however, the sections of the meander-meandering sections Ai, A ₂ , A ₃ ... which extend in the first alignment can also act as antenna ANT. These can have suitable dimensioning for the function as an antenna and are suitable by the first orientation particularly for receiving polarized in this direction signals (but also for circularly polarized signals).

In particular, in embodiments of the invention, the heating arrangement H silver. For example, silver paste can be applied to the glass pane 1 by means of screen printing technology.

According to one embodiment of the invention, the use of a glass pane 1 according to the invention in vehicles, in particular land vehicles, and in particular as a rear window is provided.

Claims

claims

Glass pane (1) with an electrical heating arrangement (H) suitable for use with an operating voltage of more than 14 volts,

Wherein at least a part of the heating arrangement (H) is also suitable as an antenna (ANT),

Wherein the heating arrangement has at least a first number of electrically conductive meandering sections (Ai) and a second number of electrically conductive meandering sections (A ₂ ),

Wherein the meander-shaped sections are arranged within the first number or within the second number substantially in a first orientation parallel to one another,

Wherein the respective starts as well as ends of the meander-shaped sections within the first number or within the second number each end on a common electrical conductor (U, L ₂ , L ₃ ) which extends in each case substantially perpendicular to the first alignment,

Wherein at least one of the electrical conductors (L ₂ , L ₂ , L ₃ ) extending substantially perpendicular to the first orientation acts as an antenna (ANT),

Wherein the at least one of the electrical conductors (L ₂ , L ₂ , L ₃ ) extending substantially perpendicularly to the first orientation and acting as antenna (ANT), when used with the operating voltage, has a potential different from the operating voltage.

Glass pane (1) according to claim 1, wherein at least parts of the heating arrangement (H) are applied or incorporated as wires on or in the combination foil (F).

Glass pane (1) according to one of claims 1 or 2, wherein the antenna (ANT) has its own antenna connection for connection to one or more high-frequency devices.

Glass sheet (1) according to any one of claims 1 to 3, wherein the antenna (ANT) has a filter for separating high-frequency signals and DC voltage, so that DC voltage does not interfere with the reception of high-frequency signals.

A glass sheet (1) according to any one of claims 1 to 4, wherein the heating assembly (H) is suitable for use with an operating voltage of about 48 volts. A glass sheet (1) according to any one of claims 1 to 5, wherein the electrical conductor and / or the electrically conductive meandering portions have a minimum feature width equal to or greater than 0.1 mm and a maximum feature width of less than 2 mm.

Glass pane (1) according to one of claims 1 to 6, wherein the antenna is suitable for receiving high-frequency signals, in particular keyless entry systems, analog / digital broadcasting including TV and mobile communication signals.

A glass sheet (1) according to any one of claims 1 to 7, wherein the heating assembly (H) comprises silver.

Glass pane (1) according to one of claims 1 to 8, wherein the glass pane further comprises at least one electrical filter (HP, TP, BP) to decouple the operating voltage and the antenna (ANT).

10. Use of a glass pane (1) according to one of claims 1 to 9 in vehicles, in particular as a rear window.