DE4339574A1 - Measuring or identification system for measuring change - Google Patents

Abstract

A sensor-active region is provided with at least two measuring paths, a radiation source and receiver (16). A circuit (23, 30) activates each path in a determined switching sequence. An adjusting unit sets the radiation output of each source, such that with a dry sensor-region, each source generates a part of the detection signal. The average amplitude of the part is equal to those of the parts assigned to the other radiation sources of groups of the detection signal. The detection signal (SD) is supplied to an evaluation circuit (41) to produce a control and/or measurement signal (S41) to establish the different parts assigned to individual sources.

Description

The invention relates to an evaluation device according to the preamble of claim 1.

In the post-published DE-GM 93 09 837 a measuring arrangement described, which allows the wetting of a surface by Measurement of changes in reflection. To this end this arrangement has several measuring sections, which are intermittently queried be a difference between the individual Measured distances determined values is formed. These difference values are sent as input signals to an evaluation device passed, on the other hand, at the same time the appearance of the Signals started a regulation, depending on a predetermined and if necessary switchable control time constant that received signal adjusted to zero again, so that a Sensitivity to further changes in reflection is given. The Regulation affects z. B. the setting of a current actuator for the radiant power of radiation sources which the emit reflective radiation. The control time constant is like this dimensioned that it is much larger than that slowest changes yet to be recorded Wetting process.

Such a device can be used for a wide variety of purposes be, e.g. B. to control a wiper motor on motor vehicles testify or basically for any purpose where wetting in particular as a result of splashing water.

The subject of this utility model is hereby also expressed Lich made the subject of the present application.

The aim of the present invention is the sensitivity of a such measuring arrangement with regard to those occurring in practice Optimize problems.

This object is solved by the features of claim 1.  

Basically, the signals supplied by the measuring arrangement are in one Processing device that processes a control and / or measured value signal to control downstream consumers. One strives for that of the control signals, controlled device quickly and flexibly Changes in reflection responded and that it quickly became one The device responds. Especially with the example of the Windscreen wipers require the fastest possible return to reach the zero state when z. B. the vehicle at a traffic light stops or suddenly enters a tunnel. To do this, the signals also recorded in that their strength or their energy content measured and compared to a threshold. Depending on the result the device is then controlled. A decrease in energy content is but with a windshield wiper equate to a dry wipe, so that such a change is quickly recognized. Annoying squeak along with damage to the wiper are avoided.

In practice it has now been shown that when the device in Dependence of the control signal determined by the measuring arrangement is actuated a time constant switchover must be provided. Basically the controlled device will sweep the area of the sensor. Simply by sweeping it changes the on output signal, which must be taken into account accordingly. According to claim 2 the time constant is therefore in a timely range during the Swept over the measurement set to a shorter value, whereby the measuring arrangement becomes less sensitive. Signals appear shorter in time. In the example of the windshield wiper, the Clarify problems that occur. The windshield wiper usually pushes a gush of water in front of him would of course also lead to a signal from the measuring arrangement. This signal would report heavy wetting, which is in reality Doesn't exist at all. For this reason, in the area of Do not sweep this signal for the control of the wiper used. Instead, the signals are exploited that before Overcoating or, if necessary, also after overcoating, that is are due solely to the external wetting.  

According to claims 3-6 for the control of the device necessary or initially hidden signals and integrated if this integration results in a value below one a certain limit value, a storage unit can be discharged is decisive for the output signals to the device. Out For safety reasons, wiping is recommended here if necessary, which is indicated by a Counting down as part of the interval switching z. B. one Wipers are possible.

In addition, according to claims 7 and 8 which during the Values determined overlap completely or at least largely are hidden so that they are not controlling the device can influence.

In the following, the invention is explained in more detail using an exemplary embodiment explained. Show it:

Fig. 1 is a block diagram of an evaluation device,

Fig. 2 is a schematic representation of a windshield,

Fig. 3 diagrams a) to d) over the time course of the signals from the motor limit switch and motor; the measuring arrangement with little wetting; the measuring arrangement with star ker wetting; the changing time constant.

An evaluation device 10 is used to evaluate signals which are determined by a measuring arrangement 11 for measuring or detecting a wetting of a surface. The signals can be measured, for example, in a sensor-active area by at least one sensor on one or more measurement sections due to the internal reflection of a plate or wall which can be irradiated by radiation, the wetting leading to a change in the internal reflection. The changes can be intermittently queried for different sensors S or by exposure to different radiation sources, the different arrangements resulting in different values that enable a difference value to be formed. Based on these difference values, an input signal for the evaluation device 10 is determined in a control arrangement 12 . The detected signals are at the same time corrected in the control arrangement 12 in such a way that there is always sensitivity to further changes in the reflection path.

Although previously only from a measuring arrangement after the beginning mentioned utility model, it goes without saying that other measuring arrangements are also suitable for these purposes, provided that on the one hand based on the results of at least one measuring section Differential values are formed and, on the other hand, compensation by means of a time constant occurs. The regulation is done in such a way that the difference value of the signal goes to zero, with a long Time constant the difference value approaches zero more slowly than with one short time constant. So the time constant is the link that the Sensitivity of the sensor significantly influenced. To change the Time constants are provided, which means during the occurrence change the time constant of a wetting and preferably shorter set as at a time during which there is no wetting is.  

This entire evaluation device and measuring arrangement can be shifted the most used purposes, such as B. to control Water removal or irrigation devices. Preferably fin it can be used wherever changes due to splash water occur. In the following, however, for the sake of simplicity, the ge Entire device based on a control or regulation of a Wiper motor explained.

In a removal device such as a windshield wiper motor M, the time constant is set shorter during the occurrence of wetting and thus during the wiping process than in the idle state of the windshield wiper motor. This alone makes it possible to hide changes that occur due to self-drying streaks from the measurement signals. Rather, the measuring system registers the other states that change over time. The time constant is thus controlled by the evaluation device 10 , in which the control arrangement 12 may also be integrated, as a function of the input signal Es and the position of the drive device of the device, which is controlled as a function of the output or measured value signal Ms. Position detection means thus preferably detect the position of the windshield wiper or the signal from motor limit switch E is recognized as a signal for changing the time constant. After adjustment, if necessary with a very short time constant, at the beginning of the evaluation, adjusting means 14 set the time constant Tv to a longer value in time in order to detect even the slightest changes in the reflection signal. However, as soon as wetting occurs and in particular as soon as the wiping process of a windshield wiper 25 begins, the system is switched to another value, that is to say to a windshield wiper to a value which is shorter in time in order to also detect changes which occur more quickly.

Relevant signals for the change are, according to FIG. 3a, the on-off signal of the motor limit switch indicated in the upper part and the signal of the windshield wiper motor. The actuating signal of the limit switch gives a signal to the actuating means 13 , which change the time constant Tv in the control arrangement. As soon as the limit switch emits a signal when it starts to rain, the signal for changing the time constant Tv is given, possibly limited by a timer T1 or extended beyond a single wiping process.

If the measuring arrangement is not arranged outside the wiping area or the area covered by the device, which is controlled depending on the wetting, it is not sufficient to change the time constant alone during the wiping process, since even during the wiping process itself, especially with wipers, but also when the measuring arrangement is swept over, for example by a sprinkling device, changes take place which may need to be hidden or evaluated differently. When sweeping over a windshield as shown in FIG. 2, the windshield wiper 25 usually sweeps the measuring arrangement 11 at least once, provided that the measuring arrangement is located in the edge region of the wiping zone. Normally, however, it is swept twice, and since exactly the change in the wiping behavior is to be registered, it is necessary that the measuring arrangement actually lies in the wiping area. In Fig. 3a below the time course of a wiping process is shown, the wiper motor is still switched off and then on, and at each of the two positions x sweeps the measuring arrangement. Usually the windshield wiper pushes a surge of water in front of it, so that strong impulses and signals occur at this point. B. is shown in Fig. 3b for a quantity of water Q₁. Even with a small amount of water, as shown in Fig. 3b, there is a pronounced input signal Es (Q₁). This signal now falsifies the measured values, so that it must be hidden. This can either be done by making the measuring arrangement so insensitive that these changes are no longer registered or only leading to short pulses which are masked out. With a short time constant, there is no input signal Es due to the amount of water.

This switchover can now either take place in the evaluation device in that a switchover via switching means 21 to preset high and low values takes place or that a time constant element is switched to the control arrangement via the adjusting means 14 in a manner not shown in the drawing. The switching means 21 can during a long time constant, for. B. at the preset time constant Tv, which is predetermined by the control arrangement, the signals are passed to a memory unit 15 . The signals, on the other hand, which are emitted in the time in which the time constant is switched to the value Tv₂, can be passed on via another line for other purposes. Here it is possible to either completely or at least partially hide the last-mentioned input signals Es. To control the windshield wiper motor, particular attention is paid to the signals collected during the time constant Tv. To simplify, there is the possibility, depending on a timer T2 to make a certain time T 1 after motor end signal 30 a switch to Tv 2 and maintain this time constant until the next motor end signal of the motor limit switch E occurs. Of course, other switching times depending on position detection means are also possible here. The memory unit 15 itself initially comprises a first memory 16 , which outputs its signals to a further memory 18 via a threshold-dependent attenuator 17 . By means of a bypass circuit 22 , however, this attenuator can be bypassed, so that the further memory 18 is loaded more quickly in the case of extremely strong signals. Depending on the memory content, the measured value signal Ms is passed to the wiper motor via an oscillator 23, which in turn gives signals for the actuating means 13 and 14 via its limit switch. Possibly. the memory content can also be used directly as control parameters for the actuating means. Depending on the signals determined, the wiper motor can also be set to a higher speed in heavy rain. Here, the timer T2 of the actuating means 14 can also react accordingly, if necessary.

However, the values transmitted during the sweep of the measuring arrangement can also be used. When controlling a windshield wiper, it makes sense to record these values as dry running control. Such dry running can e.g. B. occur when a vehicle has to brake at a traffic light or suddenly a tunnel is entered. Basically pushes a certain amount of water in front of you when sweeping over the measuring arrangement of the wipers. During the existence of the time constant Tv₂, the occurring signals can now be determined in terms of their intensity, for example, by integration using integrator 19 . As soon as a certain preset limit value G _{ref is} undershot and continued operation of the windshield wiper is reported via the flip-flop switch 24 , the switching means 20 discharges the memory 18 on the white line of a control arrangement 29 , so that no new measured value signals Ms are formed by the oscillator can be. If the comparison in the integrator 19 reveals that the limit value has still been exceeded, the flip-flop element is reset each time and set again by the actuation of the limit switch. This makes it possible to ensure that the wipers are set to zero in the event of a sudden tunnel travel. For safety reasons it may be necessary that this downshift does not take place immediately. Here, the time constant is first set to a longer value via the adjusting means 14 and there is also the possibility of gradually switching the interval control, for example of the windshield wiper, back to zero. This can be done by simply counting down the other wiping processes.

Depending on the time constant Tv and Tv₂, which are switched according to FIG. 3d, there is then an input signal Es (Q₂) for the amount of water Q₂, which in the short time constant shown in dashed lines only leads to two short signals when the sensor is swept, otherwise with a long time constant leads only to a signal if the threshold value As (Tv) is exceeded in the hatched area. The time constant Tv₂ is assigned the threshold As (Tv₂) ( Fig. 3c).

Claims (9)

1. Evaluation device ( 10 ) for signals which are determined by a measuring arrangement ( 11 ) for measuring or detecting a wetting of a surface, for generating a control and / or measured value signal (Ms) for a device which can be controlled as a function of the wetting and preferably touches or sweeps the sensor-active area of the device at least once per actuation interval, characterized in that the evaluation device at least partially detects the strength of the signals occurring during at least one actuation interval and influences the device when the value falls below a certain limit. 2. Evaluation device according to claim 1, characterized in that the signals are determined by intermittently querying at least one measuring section with at least one sensor (S) and forming the difference value of the determined values and that the signals determined by the measuring arrangement can be regulated with the aid of a control arrangement ( 12 ) , which adjusts signals detected with a variable time constant (Tv, Tv₂) so that the difference value of the signal goes to zero, and that adjusting means ( 14 ) adjust the time constant (Tv₂) at least during the sweep so that the signal is largely suppressed, that is generated by the device and, if applicable, by wetting displaced by the device. 3. Evaluation device according to claim 1 or 2, characterized in that the short time constant (Tv₂) z. B. during the sweep of the measuring arrangement, the signals determined are evaluated with regard to their strength and, when the value falls below an adjustable limit, a storage unit ( 15 ) is discharged, on the basis of the content of which the control and / or measured value signals are generated. 4. Evaluation device according to claim 3, characterized in that the signals with respect to their energy content by means of integrator ( 19 ) are inte grated and that the storage unit ( 15 ) is discharged when the value falls below a certain integral value. 5. Evaluation device according to claim 3 or 4, characterized in that when falling below the limit switching means ( 20 ) switch back a device for eliminating wetting and adjusting means ( 14 ) set the time constant to a long time value. 6. Evaluation device according to claim 5, characterized in that the switching means ( 20 ) gradually switch back the interval control of the windshield wiper ( 25 ) designed as a device to zero. 7. Evaluation device according to one of claims 2-6, characterized in that the evaluation device ( 10 ) has a memory unit ( 15 ) which essentially stores the signals that occur as long as the time constant is set long, and at least partially hides the signals that occur during the sweep with a short time constant. 8. Evaluation device according to one of the preceding claims, characterized in that the device, which is controlled as a function of the wetting, is a windshield wiper ( 25 ), the motor end switch (E), the signal for switching over possibly delayed by a timer the time constant gives. 9. Evaluation device according to claim 7, characterized in that the memory unit ( 15 ) comprises a first memory ( 16 ) which is connected via a damping element ( 17 ) to a further memory ( 18 ), wherein the damping element can be bridged for strong pulses and that the time constant (Tv) is changed depending on the memory content.