DE10104653B4 - Optoelectronic sensor device - Google Patents

Abstract

Optoelectronic Sensor device for detecting the wetting of a transparent Motor vehicle windshield (1) with precipitation, with a radiation transmitter (2), a radiation receiver (3), as well as one of the inner surface (1 ') of the disc (1) associated, on the one hand one of the beam transmitter (2) outgoing transmitter beams associated radiation exit surface (4) and on the other hand, according to at least one on the outer surface (1 '') the disc (1) occurring reflection the radiation receiver (3) aspiring receiving beam assigned radiation entrance surface (5) having radiation guide body (6), taking on the inner surface (1 ') of the disc (1) profilings (7') are present, each perpendicular to Strahlenaus- or entry direction of the transmitter or Receive beams have aligned radiation input and output areas, characterized in that that on the beam guide (6) itself and / or at one to its holder on the disc (1) provided base (8) means are present, which consist of a at least two, each of a different slice thickness (d, d ') associated alternatives selectable setting of the distance the radiation inlet and outlet surfaces (5, 4) of the inner surface (1 ') enable the disc.

Description

The The invention relates to an optoelectronic sensor device for Detecting the wetting of a transparent vehicle window pane with precipitation, with a radiation transmitter, a radiation receiver, as well one of the inner surface assigned to the disc, on the one hand one of the radiation transmitter outgoing transmitter beams associated radiation exit surface and on the other hand, at least one on the outer surface of the Disc occurring reflection the radiation receiver striving Receive beams assigned radiation entrance surface having radiation guide body, being on the inner surface the disc profilings are present, each vertical aligned to Strahlaus- or entry direction of the transmitter or receiving beam Have radiation input and output areas.

An optoelectronic sensor device of the type in question is characterized by DE 197 20 874 A1 known. In this sensor device profilings are present on the inner surface of the disk, on the one hand parallel to the beam exit surface of the beam guide aligned Strahleinkoppelbereiche and on the other hand parallel to the beam entrance surface of the beam guide aligned Strahlauskoppelbereiche, and thus make a direct optical coupling of the beam guide to the disk inside dispensable.

By the DE 40 17 063 C2 is an optoelectronic sensor device for detecting the wetting of a transparent automotive disc with precipitation known, which also includes a radiation transmitter, a radiation receiver and a Strahlleitkörper. The beam guide is optically coupled by means of pieces of film to the disc. This coupling takes place in the course of an evacuation process of the space between the disc and the beam guide, in which a circumferential film strip of elastic material is compressed to a greater or lesser extent.

A further optoelectronic sensor device for detecting the wetting of a transparent vehicle disk with precipitation is known from US Pat US 5,898,183 known. This also includes a radiation transmitter, a radiation receiver and a radiation guide, the latter being coupled by means of an adhesive layer directly to the disk. At the Strahlleitkörper a housing is fixed, which also includes a printed circuit board on which the radiation emitter and the radiation receiver and other electronic components of the sensor device are positioned.

Around at a Strahlleitkörper the type described above optimum utilization of the entire Cross section of the parallel beam is always an adaptation of the same to the respective slice thickness required.

Of the The present invention is therefore based on the object, a Development of a generic optoelectronic Sensor device available to make that without constructive change of the beam guide at several different thicknesses of an optimal use of the Ray beam cross-section allows.

According to the invention this Task solved by that on the beam guide itself and / or at one provided to its holder on the disc Socket means are present, one of at least two, respectively a different pane thickness associated alternatives selectable Adjustment of the distance between the radiation inlet and outlet surfaces of the inner surface enable the disc.

Further Embodiments and expedient developments the device according to the invention and of the associated Procedure are in the additional dependent claims given and also go from the following description of shown in the drawing embodiment.

there demonstrate:

1 : A schematic sectional view of an optoelectronic sensor device to illustrate the geometric relationships

2 : a section of the presentation 1 , wherein a holding base for adjusting the distance of the Strahlleitkörpers of the disk inner surface is present

3 : as 2 with an alternative embodiment of the support base with different insertion heights

4 : A schematic sectional view of an optoelectronic sensor device with an integrally formed with a groove plate holding base

5 FIG. 2: a schematic sectional view of an optoelectronic sensor device with a alternative embodiment of the beam guide

How out 1 can be seen, the optoelectronic sensor device comprises a beam guide 6 the inside 1' a motor vehicle disc 1 is assigned at a distance a. With the beam guide 6 at his from the disc 1 connected away side is an electrical circuit board 9 on which a radiation transmitter 2 as well as a radiation receiver 3 are arranged, which are designed as SMD components. One from the radiation transmitter 2 Outgoing divergent bundle of electromagnetic radiation is entering the beam guide 6 parallelized by a lenticular contour and then leaves the beam guide 6 again through the beam exit surface 4 , On the inner surface 1' the disc 1 is by means of an optically transparent adhesive layer 10 a perpendicular to the plane of profiling 7 ' having transparent plate 7 optically conductive coupled. By parallel to the beam exit surface 4 extending Strahleinkoppelbereiche this profiling 7 ' the beam enters the disk 1 and enters the outer surface 1'' the same where it is totally reflected. The beam then passes through beam extraction areas of the profiling 7 ' back out of the disc 1 from and through the beam entrance surface running parallel to it 5 back into the beam guide 6 one where it passes through a lenticular contour on the radiation receiver 3 is focused. As can be seen from the illustration, an optimal utilization of the cross section of the beam is given only if the mid-perpendicular of the beam entrance and exit surfaces 5 and 4 exactly on the outside 1'' the disc 1 to cut. This is the case if and only if the distance between the centers of the beam entry and exit surfaces 5 and 4 from the outside of the pane 1'' half of their mutual distance corresponds. Since the mutual distance of the radiation entrance and exit surfaces 5 and 4 of the beam guide body 6 However, this condition is fixed at different thicknesses only by an adapted adjustment of the distance of the beam guide 6 to the inner surface 1' the disc 1 to realize. For this purpose, the beam guide 6 at the disc 1 by a - in 1 not shown - base 8th held.

In 2 and 3 are different embodiments of such a socket 8th shown, wherein in both cases a taking place in a direction perpendicular to the plane of representation lateral insertion of the beam guide 6 is provided. In the embodiment according to 2 are for different disc thicknesses d and d 'special base, each with adapted insertion height a and a' for the beam guide 6 provided while in 3 a pedestal 8th is shown with two different insertion heights a and a 'for use with two different thicknesses d and d', respectively.

4 shows an alternative for the support base 8th , this one-piece with the the profiling 7 ' having transparent plate 7 is executed. By this measure, a forced parallel alignment of the radiation entrance and exit surfaces 5 and 4 of the beam guide body 6 to the radiation input and output areas of the profiling 7 ' causes, so that a misalignment of these surfaces is avoided to each other.

In 5 is another embodiment with a different orientation of the one hand parallelizing and on the other hand focusing lenticular contours of the beam guide 6 as well as the respectively assigned radiation entry and exit surfaces 5 and 4 shown. The bundles of rays do not pass vertically through the beam entry and exit surfaces as in the previously described embodiments 5 and 4 but are broken as they pass through these interfaces. Although this causes a slightly higher loss of intensity by reducing the transmitted portion of the radiation, but with the possibility of a portion of the radiation lobe of the radiation transmitter 2 using more intensity is more than compensated. In addition, this configuration offers the smaller necessary distance between beam transmitters 2 and radiation receiver 3 the opportunity to build smaller.

Claims (8)

Optoelectronic sensor device for detecting the wetting of a transparent motor vehicle pane ( 1 ) with precipitation, with a radiation transmitter ( 2 ), a radiation receiver ( 3 ), and one of the inner surface ( 1' ) of the disc ( 1 ), on the one hand one of the radiation transmitter ( 2 ) outgoing transmitter beam bundle associated radiation exit surface ( 4 ) and on the other hand, one according to at least one on the outer surface ( 1'' ) of the disc ( 1 ) reflection the radiation receiver ( 3 ) aspirated receiving beam bundle associated radiation entrance surface ( 5 ) having radiation guide body ( 6 ), wherein on the inner surface ( 1' ) of the disc ( 1 ) Profiles ( 7 ' ) are present, each of which perpendicular to Strahlenaus- or entry direction of the transmitter or receiving beam bundles aligned Strahlein- or -auskoppelbereiche, characterized in that on the Strahlleitkörper ( 6 ) itself and / or at one to its holder on the disc ( 1 ) ( 8th ) Means are available, which can be selected from at least two, each with a different slice thickness (d, d ') alternatives selectable setting of the distance of the radiation input and exit surfaces ( 5 . 4 ) from the inner surface ( 1' ) allow the disc. Optoelectronic sensor device according to claim 1, characterized in that the radiation exit surface ( 4 ) parallel to the radiation injection regions of the profilings ( 7 ' ) and the radiation entrance surface ( 5 ) parallel to the radiation outcoupling areas of the profilings ( 7 ' ) is aligned. Optoelectronic sensor device according to claim 1 or 2, characterized in that the radiation guide body ( 6 ) the radiation transmitter ( 2 ) and the radiation receiver ( 3 ) facing lenses ( 4 ' . 5 ' ), which on the one hand from the radiation transmitter ( 2 ) parallel outgoing, diverging transmitter beams and on the other hand the radiation receiver ( 3 ) aspiring parallel receive beams on the radiation receiver ( 3 ) focus. Optoelectronic sensor device according to one of Claims 1 to 3, characterized in that the radiation transmitter ( 2 ) and the radiation receiver ( 3 ) as SMD components and on a with the Strahenleitkörper ( 6 ) connected circuit board ( 11 ) are arranged. Optoelectronic sensor device according to one of Claims 1 to 4, characterized in that the radiation guide body ( 6 ) in which to its holder on the disc ( 1 ) ( 8th ) in one to the thickness of the disc ( 1 ) adapted distance can be inserted. Optoelectronic sensor device according to one of claims 1 to 5, characterized in that on the inner surface ( 1' ) of the disc ( 1 ) existing profiles ( 7 ' ) on a transparent plate ( 7 ) are formed. Optoelectronic sensor device according to claim 6, characterized in that the transparent plate ( 7 ) is attached to the disc by means of an optically transparent adhesive layer. Optoelectronic sensor device according to claim 6 or 7, characterized in that the transparent plate ( 7 ) perpendicular to the direction of profiling ( 7 ' ) incisions ( 7 '' ) having.