DE19804165A1 - Coupling of sensor to wall e.g. rainwater sensor to windscreen - Google Patents

Abstract

A radiation transmitter and/or receiver is coupled to a body through which the radiation passes by means of silicone gel.

Description

From WO 96/21568 it is known to use a through visible adhesive tape to attach a sensor to a pane peln. Here, for example, as a coupling element called acrylic foam (acrylic foam) can be used. This Material sticks firmly to the glass and is difficult to remove to solve. The assembly process of a sensor on the disc he requires a vacuum for a bubble-free coupling and the windshield may need to be warmed up beforehand become. Does the sensor emit or emit infrared radiation if this catches, it is often desired, an infrared permeable daylight filter (black appearance) too to have. A corresponding black coloring of the acrylic Foam is not possible. Long-term temperature at 100 degrees have yellowing and hardening of the Acrylic foam results. These signs of aging work adversely affect the function and mechanical stability of the Sensor. The invention is therefore based on an ankop pelmittel deriving from the preamble of the main claim resulting genus.

The object of the invention is to describe a non-curing coupling agent which can be colored by visible and permeable to infrared radiation and which permanently ensures good coupling of a sensor to the body. The invention is achieved by the combination of features resulting from the characterizing part of claim 1. The principle of the invention is to use a soft gel. Such a gel is available, for example, under the name SilGel 612 from the Wacker company. A colorless silicone gel is preferably selected, which has a viscosity at 23 degrees of approximately 800-1200 mm 2 / s and a density of approximately 0.96 g / cm 3. The refractive index n ₀ 25 can have the size 1.4026 at 25 degrees C. The silicone gel mentioned is also often referred to as RTV-2 silicone rubber and is available under the trade name Semicosil 912 from Wacker Chemical GmbH.

The main advantage of the gel is that it cannot harden and also after a long time and also after prolonged heating and sun exposure a soft gal erert-like vulcanizate remains. Furthermore, for the gel it is important that this air particle is not permanent but closes the gel due to its own movement leave after some time. Also with the gel Span between the sensor housing and the disc avoid to which the sensor is coupled.

There is also a particular advantage of the gel used in that it passes through for infrared measurement radiation casual dye that can be dyed for other (light) Radiation acts largely as a filter, causing the Measuring accuracy in a working with infrared radiation Measuring device (e.g. rain sensor).

It appears to be possible to transmit and / or Emp catcher (sensor) through admixtures in the silicone gel di to stick directly to the pane using the gel. The present The present invention also provides an inventive fastener supply of the sensor to a body, in particular a force vehicle window on that of the one described above Makes use of coupling means. The goal is to simplify Way using a bias sensor  of the coupling gel on the disc. This is has been proposed by means of a look at the disc supporting spring element, for example in the foot egg rear view mirror can be attached to the window Coupling the sensor elastically to the pane via the gel. It is therefore assumed to be a fastening, as in The preamble of claim 4 is listed. For this Be According to the invention, a sensor as shown in FIG the characteristic part is listed according to claim 4. The Invention therefore essentially consists in the loading consolidation of a gel explained in more detail above as an ancope to use pelmittel, where sender and / or receiver in a transceiver are united, which ar as a rain sensor works. The emitted by the rain sensor and again emp trapped radiation should preferably be infrared light, the coupling means also with an infrared light permitting fabric, especially a black dye, is colored. In this way, he usually receives a dark housing provided rain sensor a continuous black appearance, so that it can be seen through the window bare coupling means optically not from the rest of the sensor stands out.

To ensure that the inside of the transmitter or Detectors or radiation bodies arranged in the receiver exactly the prescribed distance to the surface of the pane have, is recommended in further development of the invention in Claim 5 listed combination of features. By the front jumps will be the exact distance from the transmitter and / or receiver adhered to the pane. On the other hand the resulting drainage channels ensure that over the gel can escape. This will make the between Gel and disc are not only in one sensor surface and disc get the given strength, but it also owns the target density largely independent of that during the Assembly filled quantity. As a result, you can make provisions  a slightly larger amount of gel than needed on the Apply the surface of the sensor facing the pane. Becomes then the sensor or the sensor housing with its front circumferential edge pressed onto the pane, so it can Excess gel can escape laterally through the protrusions, so that the gel always with the same tension and the same Density is arranged between the sensor and the disc. The density and tension in the coupling material (gel) in continuing education is recommended in continuing education of the Er finding the combination of features according to claim 6. The before Voltage is then, as already explained above, after previous proposals put up by additional springs brings, which are supported on the disc. To get a ver Achieving simplification is recommended in continuing education at Invention the combination of features according to claim 7. This is characterized in that a holder on the disc is attached, which acts largely rigidly on the sensor. The elastic, resilient effect is not achieved here additional spring, but through the spring action of the Ankop pelmittel (gel) itself achieved. This results in the holder is a largely uncomplicated construction that particularly easy by using the features Claim 6 works. Here, the wall of the First connected to the disc, then the sen sor with its housing and the coupling means applied inserted into the holder wall and then the lid un ter force in the direction of the disc with the holder wall locked. But other constructions are also conceivable, by, for example, the sensor housing directly in the holder wall is locked or by the holder with inserted Sensor (and coupling means) under contact pressure on the pane is attached (glued).

The shape of the holder wall will match the outer contour of the Sen adjust sors. The wall becomes particularly simple when the Sensor is essentially circular, so that the wall is a  ring-shaped appearance.

The function of the holder must not only be one To provide support for the sensor opposite the disc. The holder can also according to the feature combination according to claim 11 electrical connections, for example in the form of a contact strip through which the sensor during assembly to the downstream elec electrical modules can be connected. At the same time, too according to the combination of features according to claim 11, the current supply via the electrical connections of the holder consequences.

As such, the holder can be made easier using adhesives Way to be glued to the pane. It is also conceivable, the holder over the cast in the disc latch medium to lock with the disc. A particularly simple one The arrangement for the holder results from the combination of features nation according to claim 12. Then the holder is made of mate rial of the disc molded or poured into this. So can be made of metal or plastic, for example the holder during the manufacturing process of the disc with the be shed. But it can di be shaped like a holder out of the disc.

Correspondingly, connecting lines leading to the holder not glued to the pane, but directly into the Be poured into the washer.

With an exact dosage of the amount of coupling agent, which is between the sensor and the pane can be with tight tolerances of holder and sensor Sensor itself at a prescribed distance and with the Place the desired density between the sensor and the disc. Around but to allow a further tolerance is recommended in Development of the invention according to the combination of features  Claim 14. The projections do not necessarily have to sit exactly on the disc. It is sufficient if channels are formed through them, through which che the excess coupling agent on the basis of a given benen force can be pushed sideways so that the gel takes a given strength. The width of the channels has thus an influence on the tension under which the gel in the coupled state.

The snap connection between the holder and Sen sor can still be used to connect this a force that exceeds a permissible lateral force to solve. In this case the sensor is then opposite Disk largely free to move, so that in an accident avoid the risk of injury from the above sensor that will.

The invention describes the combination of features tion according to claim 17 still another method for er inventive achievement of the desired sensor attachment.

An embodiment of the invention is described below hand of the drawing explained. It shows:

Fig. 1 in an exploded view of the holder with a sensor

Fig. 2 shows the sensor in the installed position on the disc (without a holding ring)

Fig. 3 shows the sensor of FIG. 2 in plan view

Fig. 4 shows the sensor of FIG. 2 in front view

Fig. 5 is a section through the sensor holder with lid according to the section line AA in FIG. 2

Fig. 6 is a section through the sensor in a side view corresponding to FIG. 2

Fig. 7 shows an enlarged detail from FIG. 6

Fig. 8 is a plan view of the sensor with the holder cover and holder ring according to the view of FIG. 3 with a modified cover attachment

Fig. 9 schematically shows a Verrastungsprinzip between the holder cap and the retaining ring of FIG. 8

Fig. 10 shows the latching of Fig. 9 in a side view

Fig. 11, 12 views a sensor with FIG. 3 geänder tem lid.

Fig. 1 shows a sensor 3 , which can be inserted into a sensor housing 2 . The sensor housing 2 has a plug, and when the sensor 3 is inserted into the housing 2 plug openings 5 are contacted with a plug row 6 . A holder, which consists of a retaining ring 1 (often referred to above as the wall holder) and a cover 4 , takes the Sen care housing 2 with the sensor 3 inserted. The lid 4 be seated locking tab 7 , which snap into associated locking recesses 8 when attaching the sensor 2 , 3 in the holder 1 , 4 . The holder is connected to an unillustrated disc by an adhesive connection.

Fig. 2 shows an enlarged view of the sensor housing 2 , on which the holder cover 4 with its locking tab 7 is on GE. The holder wall 1 has been omitted in order to be able to show the layer of the coupling means 10 which is fastened on a window 11 of a motor vehicle.

Fig. 3 shows the sensor 2 with the holder cover 4 in the top view, of the sensor housing 2 but only the connector 9 can still be seen.

Fig. 4 shows the sensor with cover from a view towards the connector 9 .

FIG. 5 shows a section along the line AA in FIG. 2, the sensor 3 located within its housing 2 also being recognizable in cut form. Outside of the circumference of the housing 2 , the retaining ring cannot be seen in a position that has not yet been built. In the installed state, it is finally glued to the pane by an adhesive layer, not shown. In Fig. 2 projections 12 are indicated, which ensure a prescribed thickness of the layer of the coupling means 10 .

The retaining ring 1 is shown in FIG. 5 and FIG. 10 with an inclined adhesive surface 13 opposite the disc surface. Between the adhesive surface 13 and the disc 11 there is a substantially annular adhesive layer 14 , which decreases radially inward wedge-shaped in thickness. The retaining ring 1 has a radially inner sealing strip 15, which is intended to prevent a transgression of the adhesive 14 to the sensor housing 2, so that the housing can be dismantled easily from the retaining ring. 1 The adhesive surface 13 does not necessarily have to be inclined with respect to the pane. In many cases, it is also advisable to keep this substantially parallel to the disk 11 , so that the adhesive layer 14 then has the shape of an annular disk and here adhesive is saved and, if necessary, the adhesive strength is increased.

From FIGS. 1 through 4, a first fastening of the Sen sors 3 in the holder 1, 4 can be seen at the radially outwardly projecting latching protrusions 17 on the latching tabs 7 in the corresponding recesses 8 (see Fig. 1) in the retaining ring 1 Intervene holder.

Figs. 8 to 10 show a second type of fastening, in which as locking means tangentially extending detent projections 18 in corresponding recesses 19 in the locking ring 1 of the holder engage. In the present case two counter-deflectable locking projections 18 are provided on the tabs 7 respectively. A further modified latching option, which somewhat resembles the latching according to FIGS. 1 to 4, is shown in FIGS. 11 and 12. Here too, locking projections 17 pointing radially outward are provided. What is new here is that the cover-side ends 20 of the locking tabs 7 engage positively on the outer edge of the sensor 3 . In this case, for example, a circumferential projection 22 can engage in a circumferential recess 23 in the housing 3 in order to center the cover 4 and to fix it in the direction perpendicular to the disk, whereby the latching force of the latching projections can be defined more precisely.

From Figs. 3 and 8 it can be seen that the peripheral recess can be circulated from 23 or the peripheral projection 22 is substantially circular, while the lid to the housing is supported only at three positions in the variant of Fig. 12.

Claims (16)

1. coupling means for coupling a transmitter and / or Emp catcher of radiation to a body which is penetrated by this radiation, characterized in that the coupling means is a silicone gel. 2. coupling means according to claim 1, characterized in that the gel is a thin, solvent-free, Room temperature vulcanizing addition-curing Two-component silicone rubber is. 3. coupling means according to one of the preceding claims, characterized in that the body is a disc, in particular the windshield of a motor vehicle. 4. With a coupling means according to one of the preceding claims provided attachment of a transmitter and / or receiver to a body, in particular motor vehicle disc, characterized in that a transceiver is provided which works as a rain sensor, the radiation being preferably infrared light and the coupling means ( 10 ) is preferably colored with an infrared light transmitting material, in particular black dye. 5. Fastening according to claim 4, characterized in that the transmitter and / or receiver or transceiver is firmly embedded in a sensor housing ( 2 ) and that the housing edge sitting on the body ( 11 ) is provided with local projections ( 12 ), which can be placed on the body ( 11 ) in such a way that the gaps between the projections of the excess amount of gel offer a drainage option. 6. Fastening according to one of the preceding claims, characterized in that the sensor housing ( 2 ) is pressed under prestress on the body ( 11 ). 7. Fastening according to one of the preceding claims, characterized in that a holder ( 1 , 4 ) is attached to the disc ( 11 ) which directly or via an essentially inelastic intermediate member ( 4 ) on the sen sensor ( 2 , 3 ) attacks and the sensor over the Ankoppelmit tel ( 10 ) and possibly projections ( 12 ) indirectly presses against the body ( 11 ). 8. Fastening according to one of the preceding claims, characterized in that the coupling means ( 10 ) is a dimensionally stable networked structure, in particular gel, which is elastically biased between the sensor ( 2 , 3 ) and the adjacent surface of the disc ( 11 ). 9. fastening according to one of the preceding claims, characterized in that the holder (1, 4) projecting from the body (11) and mounted with its bottom surface on the body wall (1) which the sensor (2, 3) at least partially records
that the holder ( 1 , 4 ) has a lid ( 4 ) which is connected to the wall ( 1 ), preferably by latching, and
that the dimensions of the holder ( 1 , 4 ), the sensor and the coupling means ( 10 ) are selected such that when the sensor ( 2 , 3 ) is fastened, it is pressed against the elastically acting coupling means ( 10 ). 10. Fastening according to one of the preceding claims, characterized in that the holder wall ( 1 ) has electrical connections via which the sensor ( 2 , 3 ) can be signal signal and / or power supply to be closed. 11. Fastening according to one of the preceding claims, characterized in that the holder ( 1 , 4 ) is integrally formed with the body ( 11 ), in particular by casting. 12. Fastening according to one of the preceding claims, characterized in that the feed lines to the holder ( 1 , 4 ) are guided within the body ( 11 ). 13. Fastening according to one of the preceding claims, characterized in that the holder ( 1 , 4 ) and / or the sensor housing ( 2 ) in the region of the coupling means ( 10 ) has lateral openings which allow excess coupling means ( 10 ) to escape into the openings or allow to the surrounding space. 14. Fastening according to claim 13, characterized in that the openings are formed by substantially perpendicular to the body surface ( 11 ), which are supported on these projections ( 12 ). 15. Attachment according to one of the preceding claims, characterized in that the locking with mind at least one predetermined breaking point is provided at a defined opening force releases the catch. 16. A method for achieving a fastening according to one of the preceding claims, characterized in that the holder ( 1 , 4 ) on the body ( 11 ) is firmly applied that under the sensor ( 2 , 3 ) and / or the interior of the holder ( 1 , 4 ) coupling means ( 10 ) is added in excess that the sensor, if necessary using a holder, lockable holder cover with respect to the holder and thus the mounting surface of the body ( 11 ) is brought into a predetermined position.