DE2919968C3 - Electrically heatable mirror glass for motor vehicle exterior mirrors - Google Patents

Description

The invention relates to an electrically heatable mirror glass for motor vehicle exterior mirrors with a temperature-dependent adjustable heating device, which consists of a on the rear surface of the mirror glass adjacent heating layer and a temperature-dependent, adjacent to the heating layer, with the heating layer temperature control device connected in series.

For safety reasons, it is increasingly required that exterior mirrors for motor vehicles can be heated are to prevent moisture or ice build-up from the surface of the vehicle in cold weather To be able to eliminate mirror glass. In order to defrost the mirror glass as quickly as possible when ice forms achieve, so that the mirror is functional again in the shortest possible time, the heating device must with relatively high electrical heating power are designed. On the other hand, there is at temperatures above 70 ° C there is a risk that the mirror glass will be destroyed, which is why it must be prevented that it except for such Temperatures is heated. Since this requirement contradicts the desire for a high heating output

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a corresponding control device must be provided in order to take account of both requirements will.

From DE-OS 26 45 231 a temperature-dependent adjustable heating device of the aforementioned Kind of known in which the heating surface is a surface heating foil and the temperature control device is a bimetal thermostat with permanently set switching points, between which a temperature interval (discontinuous Regulation) exists. This bimetal thermostat is an additional component that is used for heating or Heating does nothing. As long as it is switched on, the heating power of the surface heating foil itself is constant regardless of temperature.

The invention is based on the object of an electrical heating device for a heatable mirror glass to create for motor vehicle exterior mirrors with continuous control, the temperature control device should contribute to heating.

This object is achieved according to the invention in that the heating lining is divided into two parts and one of these Coverings the other covering with a surface part overlaps that in the overlapped surface part between the coverings in surface contact with these at least one PTC resistor is arranged as a plate and that each of the two coverings has a power connection. By using the PTC resistor As the sole active source of heat, the usual heating windings or foils are not required. The heating pads serve exclusively to distribute the heat generated in the PTC resistor to the surface of the mirror glass and thus ensure that the PTC resistor is heated in thermal equilibrium with the Mirror glass. The current consumption of a PTC resistor is a reciprocal function of its temperature. Like any resistance element, the PTC resistor heats up more and more quickly the larger it is is the current flowing through it. These properties are known and are used e.g. B. for cooking appliances Temperature control used (DE-AS 17 65 508) where a PTC resistor is connected in series with a heating resistor.

In contrast, the PTC resistor itself generates heat - as is generally known. The mirror glass has during operation of the heating device through its contact with the heating pad essentially the The temperature of the heating surface is assumed, while the PTC resistor is the temperature of the mirror glass continuously regulates which PTC resistor is due to its indirect connection (via the Deposits) is at a corresponding temperature level with the mirror glass. It will be a safe one and precise control of the heating power is achieved without the need for separate temperature measuring and control devices are needed that do not contribute to the heating.

Expediently, you can see two sheet aluminum disks, which are separated from one another in terms of area existing heating coverings, which together cover the entire rear surface of the mirror glass and are in a common edge area, which is advantageously along the major axis of the mirror glass runs, overlap with a certain distance. In this area of coverage where the two Sheet metal plates, however, are not allowed to come into direct contact with electrically conductive means at certain intervals as Platelet formed PTC resistor elements, for example by means of an electrically conductive adhesive glued between the heating coverings and thus the

the only electrical connection between the two heating coverings. The arrangement of several PTC resistor elements along the large main axis of the mirror glass ensures that it is as uniform as possible Current flow through the stringed area of the two heating pads.

According to an advantageous embodiment of the subject of the application, one of the two Heizbcl.ige is with each provided one of the electrical connection devices, which are expediently designed as flax delicacies are punched out of the sheet metal disks and bent accordingly.

This embodiment of the electrically heatable mirror glass according to the invention is described below will be described in more detail with reference to the drawing. In this shows

F'g. 1 a rear view of the mirror glass and F i g. 2 is a side view of the mirror glass.

On the back of a mirror glass 1 are by means of an adhesive layer 2, which consists of a double-sided adhesive tape may consist of two sheet metal disks 3 and 4 made of aluminum glued on, which are in one overlap the common edge area 5 along the major axis 6 of the mirror glass 1. the Overlapping is achieved in that one of the sheet metal disks, in the example shown the sheet metal disk 4, is provided in the common edge area 5 with an outwardly bent strip 7, which in a certain distance above the sheet metal disc 3. In the space between the sheet metal disks 3 and 4 i « the edge region 5 thereof are a number of PTC resistor elements in the form of leaflets 8, so-called. PTC resistors, arranged, for example by means of an electrically conductive adhesive are glued between the sheet metal disks 3 and 4 in their edge area 5.

On each of the sheet metal disks 3, 4, an electrical connection in the form of a flat plug 9 is provided, the is punched out of the associated sheet metal disc and bent accordingly. These tabs are expediently designed as a so-called Paston flat plug, as they are used as standard for electrical connections in vehicle electrics.

The current flow through the heater of the Mirror glass 1 takes place, for example, from the plug 9 of the sheet metal disk 3 through the sheet metal disk 3, then through the cold liter resistor plates arranged in parallel 8, further through the sheet metal disk 4 to the connector 9 arranged in it. The distribution of several PTC resistor elements 8 over the large main axis 6 of the mirror glass prevents the current flow directly between the two plugs 9 or via only a single one between them arranged PTC resistor element takes place.

The PTC resistor elements act in such a way that that their resistance increases with increasing temperature. Accordingly, leave them at low Temperatures a large current flow, such as this to remove an ice layer at low outside temperatures also ei is required, but block the Stroinfluü increasing with increasing mirror temperature no. the in turn is also dependent on the outside temperature, so that overheating of the mirror glass will certainly be avoided.

With the embodiment shown, an electrical one heated mirror glass is a control of the electrical power consumption approximately in the range between 6 and 70 watts possible.

The PTC resistors 8 do not necessarily have to have a rectangular shape, as shown in the drawings be trained. For example, they can also have a round or square shape.

1 sheet of drawings

Claims (6)

Patent claims: 1. Electrically heated mirror glass for motor vehicle exterior mirrors with a heating device that can be regulated as a function of temperature, consisting of a heating device resting on the rear surface of the mirror glass Heating layer and a temperature-dependent layer resting on the heating layer, in series with the heating layer switched temperature control device, characterized in that the heating layer (3 and 4) is divided into two parts and one of these surfaces is the other surface with a surface part (7) overlaps that in the overlapped surface part between the coverings in surface contact with them at least one PTC resistor (8) is arranged as a plate and that each of the two coverings has a power connection (9). 2. Mirror glass according to claim 1, characterized in that the coverings on the rear Sheet metal disks (3, 4) glued to the surface of the mirror glass (1), preferably made of aluminum, exist. 3. Mirror glass according to claim 1 or 2, characterized in that one of the coverings (4) den other covering (3) in a common edge region (5) overlaps with a certain distance and that the potassium conductor resistor or resistors (8) formed as a plate and in the overlapped joint Kanienbereich (5) are arranged between the coverings (3, 4). 4. mirror glass according to claim 3, characterized in that the overlapped common edge region (5) of the two coverings (3, 4) along the large one The main axis (6) of the mirror glass (1) runs. 5. mirror glass according to claim 4, characterized in that three PTC resistor plates (8) are distributed approximately evenly over the large main axis (6) of the mirror glass (1). 6. mirror glass according to claim I, characterized in that the power connections as from the Blechscheibcn (3, 4) punched and bent flat connectors (9) are formed.