DE102005062968B3 - Motor vehicle windscreen condensation sensor has a leakage field capacitance arranged at a distance form a condensation surface of a windscreen, with the leakage field permitting immediate detection of the condensation - Google Patents

Abstract

Condensation sensor (3) has a leakage field capacitance (6) arranged at a distance form a condensation surface (9) of a windscreen (1). Between capacitance and surface is a gas space (11) with the support body (2) of the capacitance being arranged at a distance to the the condensation surface. The leakage field permites detection of condensation on the condensation surface without close thermal coupling between the capacitance and the condensation surface.

Description

The The invention relates to a sensor element for a condensate sensor a stray field capacity, the extends along a condensation surface and from a Carrier body held is.

The The invention further relates to a condensate sensor, an air conditioner and a holder for a Sensor element.

From the DE 102 19 690 A1 a sensor element is known in which electrodes of a stray field capacitor are embedded in a carrier element made of a flexible polymer material. By a condensation process, deposited by the liquid molecules on the support member, the dielectric constant changes in the stray field of the stray field capacitor. About the associated change in the capacitance value, the condensate is detectable on the carrier element. Such a sensor element can be used in particular for the construction of a condensation sensor, which acts on an air conditioning system of a motor vehicle.

The DE 101 04 942 A1 discloses a sensor assembly which is particularly suitable for detecting the fitting of a car windshield. The sensor arrangement comprises a heat-conducting layer with a high heat conductivity arranged on a carrier layer. On the Wärmeleitschicht a carrier board is arranged, which comprises at least one recess and a plurality of electrical conductor tracks. In the area of the recess of the carrier board, a moisture-sensitive sensor element is arranged, which is electrically conductively connected to the conductor tracks on the carrier board.

From the DE 10 2004 026 716 B3 a sensor element and an arrangement for detecting condensation on a first stray field capacitor surrounded by a first carrier layer is known. Here, in the sensor element, parallel to the plane of the first carrier layer, there is a second carrier layer which surrounds a second stray field capacitor and an electrically conductive intermediate layer is arranged between the first and the second carrier layer. With this sensor element, the condensation can be detected simultaneously in an interior and an exterior space. For this purpose, the region of the second carrier layer, in which the second stray field capacitor is embedded, is applied in a form-fitting manner to the inner sides of a wall which acts as a dielectric and separates the inner space from the outer space.

With an air conditioner provided air conditioners after activation the amount of air supplied, the performance of the refrigeration compressor and the evaporator temperature so that on the one hand a sufficient ventilation is ensured and on the other hand given by the user Temperature is reached. It should not be more energy than necessary for the chiller consumed. Furthermore, the humidity in a pleasant area lie, the windows of the motor vehicle but not fogged.

There Humidification of the indoor air for reasons of hygiene so far is not performed the evaporator is within the allowable temperature range of about + 2 ° C up to +10 ° C on as possible high temperature level driven so that the required cooling capacity is just produced, but the indoor air as possible little moisture is removed.

In usually enough for the Control of climate control temperature sensors. If, however, the relative humidity in the indoor air becomes so high that the windshield falls below the dew point, the Windshield mist. The associated obstruction of the Driver must if possible be avoided. This can be done by either the evaporator temperature is lowered more than necessary or by Betauungssensoren be provided, which is the condensation of the disc detect. If necessary, then the detected condensation can be eliminated Become stronger by adding supply air dehumidifies or more is heated.

Of the Known condensation sensor can be used to monitor the condensation be used on windscreens. For this purpose, the known Betauungssensor thermally connected to the windshield. For the thermal coupling and the seal to the windshield can Adhesive or a Klebeformteil be used. Because adhesives under those prevailing in a motor vehicle ambient conditions quickly aging and increase the effort during assembly, are from the motor vehicle manufacturers adhesive-free mounting options prefers.

There the surface the carrier body under circumstances a different temperature than the windshield has and since the glass the windshield and the for the carrier body of Betauungssensors used polymer material different surface properties If necessary, the known condensation sensor optionally shows the precipitate a condensate on the windshield slightly delayed. Accordingly, the countermeasures by which the condensate can be removed on the inside of the windshield, delayed.

Based on this prior art, the invention is therefore the object of a To provide sensor element for a condensate sensor with which the condensate can be detected without delay on a condensation surface and can be attached to the condensation surface as possible without glue. The invention is further based on the objects to provide a condensate sensor and an air conditioner, which can effectively suppress the formation of a condensate on a condensing surface. The invention is finally still the object of specifying a holder for the adhesive-free assembly of a sensor element.

These Problems are solved by the features of the independent claims. In it dependent claims Advantageous embodiments and developments are given.

at the sensor element is between the stray field capacitance and the condensing surface a gas space formed. Furthermore, the carrier body holds the stray field capacitance in one Distance to the condensation surface, in which the precipitate of a condensate on the condensation surface of the Stray field of the stray field capacity is detectable. The sensor element is therefore not on the Carrier body trained Condensate is detected, but the condensate, which may be on the condensation surface formed. In this respect, the formation of a condensate on the capacitor area free of delays detected. Furthermore For example, the sensor element can be attached to the condensation surface free of adhesive be as there is a thermal coupling between the condensation surface and the sensor element does not arrive. Rather, the sensor element even without direct contact with the humidifying surface in the Near the dampening to be ordered.

at a preferred embodiment is the carrier body of Sensor element can be applied to the condensation surface and with openings for one Gas exchange of the gas space equipped with the environment. At this embodiment take the vehicle body and thus the stray field capacity a defined distance to the condensation surface. This will be the function the sensor element reproducible, which in particular during assembly in huge numbers is beneficial.

Preferably the sensor element forms part of a condensation sensor, in which the sensor element is followed by an evaluation unit. The evaluation unit is preferably set such that the evaluation unit has a Fog on the condensation surface already detected by the eye before perception. Such a Condensate sensor can be an air conditioner already with one for the presence a condensate on the condensation surface characteristic measurement signal apply it if the condensate is still visible to the human eye is not visible. Accordingly early can be initiated by the air conditioning countermeasures so that it does not become visible to the human eye Fitting the condensation surface comes.

Around attach the sensor element glue-free to the condensation surface to be able to a holder may be provided which the sensor element positively or force fit stops and against the condensation surface suppressed.

Further Details and advantages of the invention will become apparent from the following Description forth, in the embodiments the invention with reference to the attached Drawings explained in detail become. Show it:

1 a cross section through a windshield of a motor vehicle and by a mounted on the windshield dew sensor;

2 a plan view of a circuit board of the Betauungssensors 1 ;

3 a plan view of a dashboard of a motor vehicle, in which a mount for the condensation sensor 1 is trained.

1 shows a section through a windshield 1 of a motor vehicle. On the windshield 1 of the motor vehicle is a housing 2 a condensation sensor 3 at. From recesses 4 of the housing 2 is a circuit board 5 held on a stray field capacitor 6 is trained. Further, located on the circuit board 5 a sensor circuit with a plurality of components 7 ,

The stray field capacitor 6 creates a stray field that is in 1 through field lines 8th are indicated. The distance between an inside 9 the windshield 1 and the stray field capacitor 6 is chosen so that when there is a rainfall on the inside 9 the capacity of the stray field capacitor 6 measurably changes. If therefore on the inside 9 the windshield 1 Precipitation takes place, this can be done with the help of the condensation sensor 3 be recorded. In 1 is a rainfall on the inside of the windshield 1 through dew droplets 10 indicated by the field lines 8th run through the stray field.

It should be noted that 1 represents a non-scale drawing. In practice, an already much lower precipitation can lead to a measurable change in the capacitance of the stray field capacitor 6 to lead.

Between the stray field capacitor 6 and the inside 9 the windshield 1 is a gap 11 educated.

To ensure adequate air exchange between the environment and the gap 11 the condensation sensor 3 to ensure are in the case 2 the condensation sensor 3 openings 12 intended. Through the openings 12 Ensures that the relative humidity and the temperature of the air in the space 11 in about the humidity and the temperature of the air in the vicinity of the condensation sensor 3 correspond. Furthermore, the temperature on the inside 9 the windshield 1 in the area of the condensation sensor 3 the temperature of the inside 9 the windshield 1 outside the condensation sensor 3 corresponds, takes place at a dew on the inside 9 the windshield 1 outside the condensation sensor 3 also a condensation inside the condensation sensor 3 instead of. With the condensation sensor 3 It is therefore possible, a condensation outside of the condensation sensor 3 capture promptly and at an exit 13 one on the condensation of the inside 9 the windshield 1 output indicative measurement signal. This measurement signal can already be output if the condensation on the inside 9 the windshield 1 not yet perceptible to the human eye.

By the at the exit 13 the condensation sensor 3 issued Betauungssignal air conditioning can be made to counteract the condensation of the inside 9 the windshield 1 initiate. These countermeasures may be, for example, a reduction in the humidity achieved by lowering the evaporator temperature or increasing the temperature of the indoor air by heating the supply air.

2 shows a plan view of the circuit board 5 , Based 2 is the comb-like structure of electrodes 14 and 15 of the stray field capacitor 6 to recognize. Furthermore, in 2 the outlines of components 7 located.

The dimensions between the electrodes 14 and 15 and the distance between the stray field capacitor 6 and the inside 9 the windshield 1 are chosen so that the dew drops 10 normally on the inside 9 or on the circuit board 5 sit, but not the gap 11 between the stray field capacitor 6 and the windshield 1 bridged. In this way, the air circulation between windshield 1 and stray field capacitor 6 not obstructed by condensed water. Experiments have shown that in stray field capacitors 6 with a fine distance between the electrodes 14 and 15 a distance to the windshield 1 from about 0.3 to 1 mm a good correlation between that at the output 13 issued reading and the visual impression of the fitting of the windshield 1 results.

3 shows a view of a dashboard 16 of a motor vehicle. At the in 3 illustrated dashboard 16 is in the range of a steering wheel 17 a recess 18 provided, in which the condensation sensor 3 can be introduced. Due to the arrangement in the area of the steering wheel 17 it is ensured that in particular a fitting of the windscreen 1 detected in the driver's area.

Furthermore, the arrangement of the condensation sensor allows 3 in the recess 18 of the dashboard 16 an adhesive-free installation of the condensation sensor 3 in the dashboard 16 , Because the condensation sensor 3 is in the recess 18 either held positively or non-positively. The positive connection can for example by a suitable cover of the recess 18 be accomplished. Furthermore, the dew sensor can 3 by means of a spring element frictionally in the recess 18 being held.

The condensation sensor 3 offers a number of advantages. Because the condensation directly on the windshield 1 is measured, there is no thermal coupling between the windshield 1 and the circuit board 5 required. This allows the circuit board 5 in the distance to the windshield 1 be arranged without the use of an adhesive or a sealant. This is the installation of the condensation sensor 3 much easier. In addition, no firm connection between the windshield 1 and the dew point sensor 3 getting produced. If the windshield 1 For example, is damaged by falling rocks and must be replaced, the condensation sensor 3 easily separated from the damaged windshield and re-mounted to the new windshield.

The evaluation of the dew point sensor 3 delivered measuring signal allows the advantageous operation of a downstream air conditioning, as in the consideration of the dew point sensor 3 supplied measuring signal, the temperature of the evaporator of the air conditioner can be easily increased. This results in a generally desirable, slightly higher, relative humidity of the indoor air and saves energy.

In addition, there are advantages from the viewpoint of safety and comfort, since a fogged windshield 1 can be avoided without manual intervention.

It should be noted that instead of the comb-like electrodes 14 and 15 also annular or helical electrodes can be used.

It should also be noted that the condensation sensor 3 can also be used in the field of building automation. For example, with the dew point sensor 3 monitoring the precipitation on a wall or window surface and, if necessary, initiating suitable ventilation or heating measures.

It is also possible with the dew point sensor 3 to detect not only condensates of water, but also of other liquids.

1

Windshield

2

casing

3

dew sensor

4

recess

5

circuit board

6

Stray field capacitor

7

module

8th

field line

9

inside

10

Tautröpfchen

11

gap

12

openings

13

output

14

electrode

15

electrode

16

dashboard

17

steering wheel

18

recess

Claims (8)

Sensor element for a condensate sensor ( 3 ) with a stray field capacity ( 6 ) extending along a condensation surface ( 9 ) and that of a carrier body ( 2 ), characterized in that between stray field capacity ( 6 ) and condensation surface ( 9 ) a gas space ( 11 ) is formed and that the carrier body ( 2 ) the stray field capacity ( 6 ) at a distance to the condensation surface ( 9 ), in which the precipitate of a condensate on the condensation surface ( 9 ) from the stray field of stray field capacity ( 6 ) is detectable. Sensor element according to claim 1, characterized in that the carrier body ( 2 ) to the condensation surface ( 9 ) can be applied. Sensor element according to claim 1 or 2, characterized in that the carrier body ( 2 ) Openings ( 12 ) for the gas exchange between gas space ( 11 ) and the environment. Condensate sensor for detecting the precipitation of a condensate on a condensation surface ( 9 ), characterized in that a sensor element according to one of claims 1 to 3, an evaluation circuit ( 7 ) is connected downstream. Condensate sensor according to claim 4, characterized in that the evaluation circuit a condensation of the condensation surface ( 9 ) is detected from perception by the human eye. Air conditioning system for setting the climate in an interior space, characterized in that a control circuit of the air conditioning system with a supplied by a condensate sensor according to claim 4 or 5 and for the presence of a condensate on the condensing surface ( 9 ) characteristic measurement signal is applied. Air conditioning system according to claim 6, characterized in that the control circuit of the air conditioning countermeasures against the formation of a condensate on the condensing surface ( 9 ) before the precipitate of a condensate on the condensation surface ( 9 ) is visible to the human eye. Air conditioning system according to claim 6 or 7, characterized that the air conditioning for the use is provided in a motor vehicle.