WO2010063434A1 - Device for heating windows, heatable window - Google Patents

Abstract

The invention relates to a heatable window (2) of a motor vehicle, particularly a windshield, comprising at least one infrared radiator (4) arranged in or on the window (2) for heating the window (2), wherein the at least one infrared radiator (4) is arranged in the window (2) or is coupled to the window (2) such that the predominant part of the infrared radiation (6) emitted by the at least one infrared radiator (4) is fully reflected on interfaces (2.1 - 2.5) of the window (2).

Description

 Device for window heating, heated pane

description

Technical area

The invention relates to a heatable pane of a motor vehicle, in particular a windscreen, with at least one arranged in or on the disc infrared radiator, which is provided for heating the disc.

State of the art

Heatable disks are well known in the art.

Especially in winter, there is a problem with vehicles that are parked outdoors, that water on the windows freeze or start them. To ensure a safe ride, it is necessary to remove the icing and / or fogging from the windscreen. Conventional heaters used in automobiles draw their heat energy from the engine waste heat and work only when the engine has produced enough heat. This can take a few minutes at low temperatures, so even home-made fog returns quickly during this time. Driving in the first few minutes is often a safety hazard under these conditions. To bring the window of the motor vehicle faster to a temperature at which the disc no longer ices or fogged, are various types of Disk heaters known in the art.

In particular, in the field of rear windows, but in modifications in the field of windscreens, electric disk heaters are known to work with extending through the discs resistance wires, which convert electrical current into heat and thus heat the disc. Despite some efforts to make the wires as thin as possible, it has not yet been possible to specify a disk so heated in this way, which does not restrict the free view through the resistance wires, especially in difficult visibility conditions. Therefore, these systems are only suitable with losses for windscreens.

Furthermore, systems based on infrared radiators are known. Such a system is known for example from DE 101 10 142 B4, in which a plastic disc, in particular a plastic rear window is irradiated with infrared radiators and thus heated.

From DE 41 22 462 C2 discloses a motor vehicle with a directed to the windshield infrared radiator, which is mounted on a dashboard and the disc irradiated frontally.

Also, IT 1 257 897 and FR 2 590 789 disclose corresponding systems in which infrared radiators are arranged in front of a pane and irradiate them substantially vertically.

A disadvantage of the aforementioned infrared radiators is that they deposit relatively little energy in the disk and therefore must be relatively powerful. In addition, must The infrared radiators are positioned so that the disc is irradiated as evenly as possible. This results in difficulties in the arrangement of the infrared radiator. In addition, the infrared radiator must be designed for surface radiation.

task

The object of the invention is therefore to provide a heated disc of a motor vehicle and a device for heating a disc, which do not limit the review, have a better efficiency and in which the heating elements can be arranged easier.

Presentation of the invention

The object is achieved by a heatable pane according to claim 1, a device for heating the pane according to the independent claim 12 and by a motor vehicle according to the independent claim 15. Advantageous developments of the invention are the subject of the dependent claims.

A heatable pane according to the invention has at least one infrared radiator arranged in or on the pane for heating the pane. The invention is particularly suitable for windscreens, as can be specified with the system according to the invention, a heated disk, which is completely free from visual impairments by the heating system.

The infrared radiation emitted by the infrared radiator is partially absorbed by the disk during the passage, whereby the energy transmitted with the infrared radiation is converted into heat energy, which heats the heatable disk from the inside. Icing or fogging on the disc is thus quickly removed.

According to the invention, it is provided that the at least one infrared radiator is arranged in the disk or coupled to the disk such that the predominant part of the infrared radiation emitted by the at least one infrared radiator is totally reflected at boundary surfaces of the disk. With the aid of the invention, a large part of the infrared radiation energy is thus deposited in the disk and held in the disk, since the radiation is held in the disk due to the total reflection of the radiation at the interfaces of the disk. The efficiency of the infrared heater is thus particularly large in the heated disk according to the invention. A corresponding heating can therefore be built very compact.

In addition, in the case of the heatable pane according to the invention, the advantage arises that the arrangement of the at least one infrared radiator in the immediate vicinity of the pane or, according to a variant of the invention, is directly possible even in the pane. This eliminates difficulties in the arrangement of the infrared radiator.

With the help of the system according to the invention can continue to avoid influencing the window heating on a possibly arranged in the interior of the motor vehicle solar sensor. In the case of infrared beams which are known from the prior art and radiate frontally on the pane, a position sensor for the sun is inevitably influenced by reflection on the pane.

A first development of the invention provides that the disc has at least two flat sides and at least two Has narrow sides, wherein the at least one infrared radiator is coupled to a narrow side of the disc. In this way, the at least one infrared radiator can be arranged next to the pane, that is to say, for example, in the region of a pane surround, a pane frame or the like. Thus, the at least one infrared radiator can be arranged largely invisible.

The flat sides of the disc can also be curved, as is often common in windscreens. The number of

Narrow sides depends on the disc shape. Usual quadrilateral slices have four narrow sides, triangular slices three. Due to the total reflection of the infrared radiation, a relatively homogeneous infrared field builds up inside the pane, so that even when the infrared heaters are arranged, the pane is evenly heated in the side area of the pane.

A development of the invention provides that between the at least one infrared radiator and the disc a Einkoppelprisma is provided. This solution is particularly advantageous if there is too little space on the narrow sides of the disc to accommodate the at least one infrared radiator and this must be coupled either at an angle to a narrow side or on a flat side in the region of an edge between the flat side and narrow side.

A further development of the invention provides that several, preferably arranged in series or in a matrix infrared radiators are provided. With the help of several arranged in series or matrix infrared radiator can achieve a more homogeneous field and the individual infrared radiators can be made smaller, since they each require a lower radiant power. According to one embodiment of the invention, the at least one infrared radiator is designed as an infrared LED. Infrared LEDs have a high efficiency and can be built very compact. In particular, a matrix or a series of LEDs can be realized in a particularly compact manner.

If, according to a further development of the invention, it is provided that the pane is made more strongly absorbing infrared radiation than conventionally used simple panes, the efficiency of the pane heating can be further increased.

According to a further development of the invention it is provided that the narrow sides of the disc, where no

Infrared radiation is coupled, are formed so that they reflect infrared rays. This can be achieved by appropriate coatings or by corresponding infrared rays reflecting elements. In this way, coupling losses can be reduced on the narrow sides of the disc and increase the heat output of the heated disc at a constant beam power.

If the infrared radiation is coupled via a narrow side of the disc, this narrow side is semipermeable for infrared radiation according to an embodiment of the invention, so originating from outside the disc infrared radiation can be coupled into the disc, but infrared radiation located in the disc is reflected at the corresponding narrow side. This further increases the efficiency of the heated disc.

According to one embodiment of the invention, the disc is a Laminated glass pane comprising at least two glass layers. Such laminated glass panes are often used as windshields, as they offer greater security due to the laminated pane. The outer layer of glass usually ices up, while the inner layer of glass tends to fog up. According to the development, it is therefore provided that at least one infrared radiator is provided per glass layer. In this way, even a laminated glass pane can be completely heated despite an intermediate layer with usually deviating refractive index.

According to a development of the embodiment described above, it can be provided that the at least one infrared radiator per glass layer can be activated separately. Thus, when the outer glass layer is free of ice, the inner

Keep the glass layer free from fogging, avoiding unnecessary heating of the entire pane.

A further embodiment of the invention provides that the at least one infrared radiator on its side facing away from the disc has a reflector. This makes it possible to further improve the coupling of infrared radiation. The reflector may be formed according to an embodiment of the invention so that the infrared radiation of the infrared radiator is bundled, preferably to an opening angle less than 20 degrees.

A first independent subject matter of the invention relates to a device for heating a window of a motor vehicle which has at least one infrared radiator. The device is characterized in that it is designed to be coupled to the disk to be heated in such a way that the predominant part of the emitted by the infrared radiator Infrared radiation at interfaces of the disc is totally reflected. On the one hand, such a device can be easily retrofitted to existing motor vehicles and, on the other hand, it can be planned for the construction of new motor vehicles.

According to a development of the device, means are provided for coupling the infrared radiator to a pane in such a way that the predominant part of the infrared radiation emitted by the infrared radiator is totally reflected at boundary surfaces of the pane. According to a development of the invention, such means may be connecting means or also a coupling prism, which is designed to couple the infrared radiation of the at least one infrared radiator into the pane.

According to a further development of the device according to the invention, the at least one infrared radiator has a main emission direction, that is to say a directional emission characteristic. The device is designed to be coupled to the disk such that the main radiation direction of the at least one infrared radiator at an angle between 0 ° and the total reflection angle, preferably 0 ° half the total reflection angle relative to a plane of the flat side of the disk in the coupling the infrared radiation is arranged. In the case of curved disks, the angle is measured relative to the point of intersection of the center of gravity beam, that is to say along the main emission direction, of the infrared radiator with a tangent plane of the disk at the point of intersection.

A development of the invention provides that the device has a prism for coupling the infrared radiation. This increases the freedom in the arrangement of the device relative to the disk to be heated and in particular allows a angular arrangement or an arrangement in the region of a flat side of the disk to be heated.

According to one embodiment of the invention, the device has a plurality of infrared radiators, which are preferably arranged in a row. This makes it possible to distribute the required infrared radiation power to a plurality of infrared radiators, each of which, viewed individually, can be made more compact, so that the device according to the invention can be installed more easily.

According to one embodiment of the invention, it is provided that the infrared radiators are arranged in a matrix, whereby the coupling of infrared radiation in the disc can be further improved.

According to one embodiment of the invention is further provided that a plurality of infrared radiators are provided, which are switchable alone or in groups. In this way, certain areas of the disc can be selectively heated, for example, in a composite disc only an inner disc for removing a disc covering on the disc inside.

A last independent subject of the invention relates to a motor vehicle with at least one heatable disk according to the invention described above.

Other goals, features as well as advantageous

Applications of the invention will become apparent from the following description of an embodiment with reference to the drawings. All described and / or illustrated features in their meaningful combination form the subject matter of the present invention, also independent of the claims and their Ruckbezugen.

Brief description of the figures

The invention will be explained with reference to an exemplary embodiment. Here are shown schematically:

Fig. 1 shows an inventive heated disk in a view from a flat side and

Fig. 2 viewed the disc of Fig. 1 from a narrow side.

exemplary

Fig. 1 shows exne inventive heated disc 2 viewed in a view from a flat side 2.1 of the disc 2 from. With 2.2, the flat side 2.1 opposite flat side 2.2 is designated. With 2.3 to 2.6, the narrow sides of the disc 2 are designated.

On the narrow side 2.6 several infrared radiators are arranged, which are provided for simplicity with the reference numeral 4. The infrared radiators 4 are formed as infrared radiation emitting LEDs and are arranged distributed in a row over the entire narrow side 2.6 towards.

The infrared radiators 4 emit infrared radiation 6, of which some rays are exemplified. The infrared rays 6 are coupled into the disk 2 at different angles. The obliquely to the flat sides 2.3, 2.5 extending rays of infrared radiation 6 are totally reflected on the flat sides 2.1 and 2.2, so that these Reach flat side 2.4. The flat side 2.4 has an infrared ray reflecting reflection layer 8, on which the infrared rays 6 are reflected back. The other flat sides 2.3, 2.5, 2.6 may have completely or semi-transparent reflection layers.

On the narrow side 2.6, on which the LEDs 4 are arranged, a semitransparent reflection layer 10 is provided, which is designed to be reflective from the side of the pane 2 and transparent to infrared radiation 6 from the opposite side.

In the course of the infrared rays 6 through the glass 2, the infrared radiation is partially absorbed, so that the power of the infrared radiation decreases, which is represented by thinning rays. The energy is thus deposited relatively evenly in the disc 2 and the disc 2 thus heated relatively uniformly.

Fig. 2 shows the heated disc 2 according to the invention viewed from a narrow side. The disc 2 is a windscreen and therefore bent. 2, the beam path of a single beam 6 is shown, which is reflected not only to the narrow sides 2.3, 2.5 shown in Fig. 1, but also on the flat sides 2.1, 2.2. LIST OF REFERENCE NUMBERS

2 Heatable pane 2.1, 2.2 Flat sides 2.3 - 2.5 narrow sides

4 infrared LEDs

6 infrared radiation 8 reflection layer

10 Semi-permeable reflection layer

Claims

claims

1. Heated disc (2) of a motor vehicle, in particular windshield, with at least one in or on the disc (2) arranged infrared radiator (4) for heating the disc (2), characterized in that the at least one infrared radiator (4) in such the disc (2) is arranged or coupled to the disc (2) that the majority of the infrared radiation (6) emitted by the at least one infrared radiator (4) is totally reflected at interfaces (2.1-2.5) of the disc (2).

2. Heated disc (2) according to claim 1, characterized in that the disc (2) has at least two flat sides (2.1, 2.2.) And at least two narrow sides (2.3 - 2.5), wherein the at least one infrared radiator (4) on a Narrow side (2.3) of the disc (2) is coupled.

3. Heatable disc (2) according to claim 1 or 2, characterized in that between the at least one infrared radiator (4) and the disc (2) a Einkoppelprisma is provided.

4. heatable disc (2) according to one of the preceding claims, characterized in that a plurality, preferably arranged in series infrared radiators (4) are provided.

5. Heatable disc (2) according to one of the preceding claims, characterized in that the at least one infrared radiator () is designed as an infrared LED (4).

6. heatable disc (2) according to any one of the preceding claims, characterized in that the disc (2) is formed strong infrared ray absorbing as a simple laminated glass.

7. Heated disc (2) according to one of claims 2 to 6, characterized in that the narrow sides (2.3 - 2.5) of the disc (2) at which no infrared radiation is coupled, infrared rays are formed reflecting.

8. Heatable disc (2) according to one of claims 2 to 7, characterized in that the narrow side (2.5) of the disc (2), at which the infrared radiation (6) is coupled, is semi-permeable to infrared radiation.

9. Heatable pane (2) according to one of the preceding claims, characterized in that the pane (2) is a laminated glass pane with at least two glass layers and that per glass layer at least one infrared radiator (4) is provided.

10. Heated disc (2) according to claim 9, characterized in that the at least one

Infrared emitters (4) per glass layer are separately controllable.

11. Device for heating a disc (2) of a

Motor vehicle, with at least one infrared radiator (4), characterized in that the device is adapted to be coupled to the heated disc (2), that the vast majority of the infrared radiator (4) emitted infrared radiation (6) Interfaces of the disc (2) is totally reflected.

12. The device according to claim 11, characterized in that the at least one infrared radiator (4) has a main emission direction and the device is designed to be coupled to the disc such that the main emission direction of the at least one infrared radiator (4) at an angle between 0 ° and the total reflection angle, preferably between 0 ° and half the total reflection angle, relative to a plane of the flat side (2.1, 2.2.) Of the disc (2) or relative to a plane of the flat side (2.1, 2.2.) Of the disc (2 ) in the region of the reflection of the infrared radiation (6) on the flat side (2.1, 2.2) of the disc (2).

13. The apparatus of claim 11 or 12, comprising a prism for coupling the infrared radiation (6).

14. Device according to one of claims 11 to 13, comprising a plurality of infrared radiators (4), which are preferably arranged in a row.

15. Motor vehicle with at least one heatable disc (2) according to one of claims 1 to 10.