DE102005027087A1 - Fog sensor, for motor vehicle, has light receiver detecting light that is reflected from inner side of windscreen, where light receiver is arranged behind of black impression of windscreen - Google Patents

Abstract

The sensor has a LED (4) for emitting infrared light on an inner side of a windscreen (1). A light receiver detects the light that is reflected from the inner side of the windscreen. The light receiver is arranged behind of a black impression (2) of the windscreen, and is designed by a photodiode (6). A band-elimination filter is arranged for visible light, where the light emitter and the light receiver are arranged on a common circuit board (7).

Description

The The present invention relates to a hardware sensor for a motor vehicle, with a light emitter radiating on the inside of the windshield and one that reflected off the inside of the windshield Light-detecting light receiver.

By Fog on the windscreen worsens the driver's vision, there small water droplets lead to diffuse light scattering and so the recognizability of the outside space for the driver safety relevant restricted can be. Diffuse light scattering means less Light intensity from the original ones Transmission and reflection directions of the disc, but more light intensity from others Directions for the driver's eyes.

In Modern motor vehicles are often moisture sensors with capacitive or resistive principles of action, the emerging fitting to recognize the windshield. This allows devices (fans, heating, Air conditioning, windshield heating o. Ä.) Activated and so the fitting be removed automatically.

• – Feuchte ist nur ein indirekter Indikator von Beschlag,
• – Feuchtesensoren messen an einer speziell präparierten Sensoroberfläche, nicht an der Windschutzscheibe, so daß von einer unterschiedlichen Benetzung mit Feuchtigkeit auszugehen ist,
• – Feuchtesensoren reagieren üblicherweise recht träge.
• – Feuchtesensoren sind recht kostenaufwendig.

The use of humidity sensors to detect fog has disadvantages:

• - humidity is just an indirect indicator of fogging,
• - Humidity sensors measure on a specially prepared sensor surface, not on the windshield, so that a different wetting with moisture is assumed,
• - Humidity sensors usually react quite slowly.
• - Humidity sensors are quite expensive.

To detect the fitting, the reduction of the direct light reflection or the increase of the diffuse light reflection on the inside of the pane can be measured. From the DE 698 01 033 T2 For this purpose, a combined rain / fogging sensor is known, wherein the fogging sensor evaluates the reflectivity on the disk inside.

The The object of the invention was a fitting sensor for a motor vehicle to create, through a simple and inexpensive Structure as well as a high measuring and low susceptibility to interference distinguished.

These Task is inventively characterized solved, that the Sensor located behind the black print of the windshield is.

Of the proposed fitting sensor measures, for example, the intensity of the windshield inside reflected light. If for man recognizable and thus disturbing fitting occurs, this intensity decreases because light is increasingly scattered in other directions. It is the measuring sensitivity so high that measures against the fitting can be activated, even before the visual impairment consciously perceived by the driver becomes.

According to the invention, extraneous light influences can be minimized by measuring in the area of black printing. there will also affect the measurement by rain, pollution etc. on the outside of the window excluded by the black printing.

Advantageous is that the Fog sensor from only a few optoelectronic and electronic components exists, so that he economical can be produced.

advantageous Refinements and developments of the invention are described in the dependent claims.

in the The following will be an embodiment of Invention illustrated with reference to the drawing and explained in more detail. The only figure shows in a schematic representation of the structure of a fitting sensor.

On a flat circuit board ( 7 ), which are approximately parallel to the surface of a windshield ( 1 ) is arranged in a motor vehicle, is a perpendicular to the surface of the circuit board ( 7 ) radiating light transmitter ( 4 ). The term "light" here comprises any type of electromagnetic radiation that is reflected to a significant degree on a vehicle window. 4 ) formed as an infrared light emitting LED, wherein the sensor arrangement can be advantageously provided with filters, not shown here, daylight blocking.

Next to the LED ( 4 ) are two optical sensors ( 3 . 6 ) on the printed circuit board ( 7 ) applied. If the fogging sensor is not to perform spatially resolving measurements, the sensors ( 3 . 6 ) may be advantageously designed as a simple photodiodes, since these are characterized by a high sensitivity and also are available at low cost.

A first on the circuit board ( 7 ) te photodiode ( 6 ) is in direct irradiation by the LED ( 4 ) by an optical shield ( 5 ) protected. On this first photodiode ( 6 ) therefore falls only from the windshield scattered or reflected light, and optionally light, which, as a disturbing extraneous light, incident from the outside through the windshield.

A second photodiode ( 3 ) is the LED ( 4 ) are arranged adjacent so that a portion of the of the LED ( 4 ) radiated light on the photodiode ( 3 ) falls without being reflected off the windshield. The sensory area of the second photodiode ( 3 ) is arranged so that only a very small portion of the windscreen ( 1 ) reflected or transmitted light on this photodiode ( 3 ) meets. This can be realized, for example, in that the photodiode ( 3 ) approximately perpendicular to the circuit board plane and thus also to the surface of the windshield ( 1 ) or between the photodiode ( 3 ) and the windscreen ( 1 ) an opaque shield is attached. This photodiode ( 3 ) serves as a reference sensor for the radiation intensity of the LED ( 4 ), and, together with a suitable evaluation circuit, during the measuring process possible temperature-dependent, pollution or aging-related intensity changes of the LED ( 4 ) compensate.

For this purpose, for example, either the measuring signal of the first photodiode ( 6 ) with the reference signal of the second photodiode ( 3 ) or the LED current can be regulated so that the reference signal from the second photodiode ( 3 ) is constant.

The measuring principle of the fitting sensor is that the LED ( 4 ) Light on the inner surface of the windshield ( 1 ), from where a portion of the light is directed towards the first photodiode ( 6 ) and is registered by it.

When fogging on the inside of the windscreen ( 1 ), a part of the originally reflected light radiation is now scattered diffusely, whereby the intensity distribution of the incident light in the circuit board level changes; in particular, the total intensity distributes more evenly over a larger area.

As a result, on the sensory surface of the first photodiode ( 6 ) incident light intensity, resulting in the photodiode ( 6 ) generated electrical signal changes. This can be achieved by a suitably configured, not shown here evaluation circuit, in particular, the reference signal of the second photodiode ( 3 ) are easily recognized.

alternative can also be provided, the light receiver at a greater distance to the light emitter or the light emitter through an optical shield to be arranged separately so that no or only very little directly reflected light falls on him. In these statements is not the decrease of a reflected from the windshield on the light receiver Light intensity, but instead the increase of the windshield diffused towards the light receiver scattered light intensity used for detection of fittings.

Another possibility for realizing a fitting sensor is to provide two light receivers, wherein a first light receiver ( 6 ) from the windshield ( 1 ) detected directly reflected light and a second light receiver of the windshield ( 1 ) detected diffusely scattered light. A fogging is detected by the fact that a decrease of the first light receiver ( 6 ) detected light intensity coincides with an increase in the detected light intensity from the second light receiver.

Since opposite detection signals occur at the light receivers for fitting detection, this embodiment is advantageously insensitive to intensity fluctuations of the light emitter ( 4 ) and therefore does not require an additional light receiver as a reference sensor for detecting the radiation intensity of the LED ( 4 ).

In order to increase the measuring sensitivity of the illustrated sensor and this particular against disturbing external light influence and against direct and diffuse reflections from the outside of the windshields ( 1 ), the sensor arrangement is immediately behind the so-called "black printing" ( 2 ) of the windscreen ( 1 ) arranged.

For safety reasons, windshields of motor vehicles are known to consist of a plurality of interconnected part discs ( 1a . 1b ), which are interconnected for example by adhesive films. It is customary, the windscreens ( 1 ) should be provided in their peripheral areas with an opaque coating known as "black printing" ( 2 ) referred to as. Advantageously, black printing in the area of the adhesive films is used for the fitting sensor.

Immediately behind this blackprint ( 2 ) is the proportion of the windshield ( 1 ) in the vehicle interior low ambient light, so that an attached in this area optical sensor is subject to particularly low interference. Of course, the Shape and position of the black printing ( 2 ) a windshield ( 1 ) be specially adapted to the intended location of the fitting sensor.

By Exploitation of the blackprint of the windshield can be such optical fitting sensor with a high measuring sensitivity and a low susceptibility to interference will be realized.

1

Windshield

1a, 1b

Dividing plates

2

Schwarzbedruckung

3

photodiode

4

light source (LED)

5

optical shielding

6

photodiode

7

Circuit carrier (printed circuit board)

Claims (16)

Fitting sensor for a motor vehicle, with one on the inside of the windscreen ( 1 ) radiating light transmitter ( 4 ) and one from the inside of the windshield ( 1 ) reflected light-detecting light receiver ( 6 ), characterized in that the light receiver ( 6 ) behind the black print ( 2 ) of the windscreen ( 1 ) is arranged. Fitting sensor according to Claim 1, characterized in that the light transmitter ( 4 ) is an LED. Fitting sensor according to Claim 1 or 2, characterized in that the light transmitter ( 4 ) emits infrared light. Fitting sensor according to Claim 1, characterized in that the light transmitter ( 4 ) has the emission angle range reducing optical elements. Fitting sensor according to claim 3, characterized that the Fog sensor has at least one barrier filter for visible light. Fitting sensor according to claim 1, characterized in that the light receiver by a photodiode ( 6 ) is trained. Fitting sensor according to claim 1, characterized in that the light receiver ( 6 ) has the receiving angle range reducing optical elements. Fitting sensor according to claim 1, characterized the existence second light receiver is provided. Fitting sensor according to claim 8, characterized in that the second light receiver ( 3 ) as a reference sensor for detecting the radiation intensity of the light emitter ( 4 ) is provided. Fog sensor according to one or more of the preceding claims, characterized in that the light transmitter ( 4 ) and the light receiver (s) ( 3 . 6 ) on a common circuit carrier ( 7 ) are arranged. Fitting sensor according to one or more of the preceding claims, characterized in that at least two of the optoelectronic components light emitter ( 4 ), Light receiver ( 3 . 6 ) are arranged in a common housing. Fitting sensor according to Claim 1, characterized in that the circuit carrier ( 7 ) is designed as a flat circuit board. Fitting sensor according to claim 1, characterized in that one with the light receiver ( 6 ) associated evaluation circuit fitting based on a change of the light receiver ( 6 ) detects incident light intensity. Fitting sensor according to claim 13, characterized in that the evaluation circuit fitting based on a decrease of the light emitter ( 4 ) over the windshield ( 1 ) directly to the light receiver ( 6 ) detects reflected light intensity. Fitting sensor according to claim 13, characterized in that the evaluation circuit fitting based on an increase of the light emitter ( 4 ) over the windshield ( 1 ) to the light receiver ( 6 ) detects diffusely scattered light intensity. Fitting sensor according to Claims 1 and 8, characterized in that a first light receiver ( 6 ) from the windshield ( 1 ) detected directly reflected light and a second light receiver of the windshield ( 1 ) detected diffuse scattered light and that the evaluation circuit fitting based on a decrease of the light emitter ( 4 ) over the windshield ( 1 ) directly to the first light receiver ( 6 ) reflected light intensity with simultaneous increase of the light emitter ( 4 ) over the windshield ( 1 ) to the second light receiver detects diffusely scattered light intensity.