DE2621116A1 - Electronic control for windscreen wiper and washer - uses digital input for intermittent wipes and has wipe resistance monitor - Google Patents

Abstract

The windscreen wipers and the washers are linked to a simplified logic control in which the control inputs are digital, for simple settings. The control measures the time interval of each sweep and relates it to the pause between wipes. It is coupled to a wiper drag monitor, in which the slower wiper speed, on drier windscreens, is detected by the timing control, and the pause time increased accordingly. The control enables the driver to set the wiping action without loosing driving concentration. For intermittent wiping the system automatically adjusts the pause time with varying driving conditions.

Description

Electronic control unit for the intermittent and / or

Wipe and / or wipe-wash operation of a windshield wiper.

1) The invention relates to a novel electronic control unit for the intermittent and / or wipe and / or wipe-wash operation of a windshield wiper. The invention relates on the one hand to the calculation of the pause times of such devices from site-specific parameters by using the electronic Timing elements replaced, on the other hand the simplification and clarity of such Systems by replacing the usual wiper switch.

Such devices should enable the user of a vehicle to this optimally even in adverse weather conditions by the vehicle driver the operation of the windshield wiper is partly removed and these functions be taken over by a tanning.

Today there are control units for both intermittent and intermittent fi for the wipe and / or wipe-wash operation known, in which the respective break time can be set using electrical timers via potentiometers (OS 2112939, OS 2341916, OS 2262692, O 2234330, OS 2346354). Furthermore, devices are known at which the pause time of the intermittent operation can be programmed via switches is (OS 2403311).

The operation of previous devices of the type mentioned is for the technical laypersons, as the average most frequent user of such devices, unnecessarily complicated. Because as a rule, the operator is responsible for the operation required by two cements: a double step switch and a potentiometer, or from a switch with multiple functions, regardless of the wiping and / or wipe-wash operation. In addition, a switch definition has been used to date between A distinction is made between fast and slow wiper operation. Under this Requirements require the vehicle driver to operate the window cleaning system too much concentration and time to be able to deal with itotsituationen (overtaking maneuvers with the Wr with malZi; -em @iederschlag) to always be able to create perfect visibility. This leads to a considerable increase in the accident risk.

Orientation aid for setting the pause time for intermittent In previous devices, the wiper is operated by scaling the potentiometer. Reading and adjusting the potentiometer steers the driver away from the vehicle Traffic from. Immediate, exact adjustment is impossible in the dark.

In order to operate the wiper in a manner that is gentle on the material (no dry running To achieve the wiper blades), the driver has to make small changes the working conditions of the windshield wipers by setting the control unit again consider.

With previous control units, the implementation of the pause times takes place by means of an RC element. Setting the minimum pause time is very difficult and awkward. A realization of the lukewarm season Up = O is wheat of the different Stress conditions are not possible, especially in motor vehicles.

The invention is based on the Mifgabe, a novel control device to conceive that, firstly, end the two-pronged systems of this type. Second, the winding tap for slow operation of the wiper should be superfluous.

Furthermore, a light, universal, industrial .Series production be possible with the possibility of individual programming. And in the sense the traffic safety should increase the ease of use of the windshield cleaning system will.

These objects are achieved according to the invention, - that in the intermittent function a freely programmable arithmetic unit the possible break times Tp for the (n + 1) -th wiping process (n 0, integer) from the operating time of the n-th Wiping process @@ calculates and represents it as a digital m-bit data word (m 0, integer); - that a wiper time measuring mechanism measures the operating time of the windshield wiper The duration of the active switching signal of the W-Lschermotorendlageschaltung measures and after Return of the wiper motor end position switch to the inactive initial state Operating time of the wiper as a k-bit digital data word ermitteii (k 0, integer); - That a Tjischzeitmeßwerk the operating time of the windshield wiper when exceeded of the measuring range by overloading the largest possible representable k-bit data word as company side accepts; - that a converter from the setting of an operating element, that is freely accessible to the operating personnel, the one desired by the operating personnel Pause time Tp generated as a digital m-bit data word; - that with the intermittent Function a comparator bit by bit the pause time calculated by the arithmetic unit Up compares and initiates a wiping process when the specified logical decision is fulfilled; - That a switch contact the readiness of the intermittent operation establishes and initiates the first wiping process; - that for the realization of the break time Tp = O the edge of the switching signal of the wiper motor limit switch, which is the return of the switching signal into the voltage level before the execution of the wiper movement indicates a restart of the device under the logical control of the device Wiper motor initiated (restart procedure); - that in wiping operation a counter starting from a freely programmable initial threshold, the number of to leading Wisoh movements after the restart procedure while changing the counter reading determined and after reaching the target number of executed Wisoh movements the wiping operation automatically terminated by the fact that the device status was called before the wiping mode was called up restores; - That in the wipe-wash operation a counter the duration of the wipe key by counting the clock frequency during keying and when reaching a adjustable response threshold triggers the wipe-wash operation; - That in the wipe-wash operation releasing the key changes the wipe-operation program counter in the sense of the wiping operation and the termination of the water pumping process by the next return edge of the switching signal of the wiper motor limit switch enables; - That a decoder brings the device function for visual display; - that the Wipe and / or wipe-wash operation has unconditional priority over the intermittent one Operation owns.

The advantages that can be achieved with the invention are as follows: Instead of RC elements to achieve the break times of such devices, The wiper runtime as a basis for calculation "e dr pause times of the new control unit approach zones.

As a result, the control unit does not need to connect to every one, as was previously the case Wiping unit to be adapted, creating an industrial, universal production this control unit is possible.

Due to this device design, it is possible to take the important break time Tp = O to be realized, which means that the control unit has no gaps in the entire possible time range works and with it the previous conception of the two-stage wiper switch one interval circuit connected in parallel and another connected in parallel Wipe-wash system unnecessary The second tap on the wiper motor is also unnecessary.

Since the control unit works in the entire time range and thus the replaces the previous parallel operation of such systems, the need for operating personnel is reduced Control elements to be handled on a potentiometer with integrated limit switch and on a button. This means that the control unit can be operated in two simple ways Handouts are reduced, which increases road safety.

The digitization of the control unit results in a simple one Possibility of displaying the device function on an alpha-numeric Advertisement. This, on the one hand, meets the operator's need for information On the other hand, the exact setting of the Device functionality enables, especially in the dark.

In addition, digitalization gives me the opportunity to Programming of both the intermittent and the wiping function by the Data words "PR" and "PROG". Fig.O shows a programming example of the intermittent Operation to achieve an optimal dependency of the pause time on the iJotentiometer graduation (I explain in the explanations to Fig.O). This courtesy of programming is available to both the user and, under certain circumstances, the user.

Since the calculation of the break times is based on the previously measured Operating time of the wiper occurs, small changes in operating conditions go are included in the pause time calculation and are thus without the assistance of the operating personnel The circuit on which the invention is based is FIG. 1 to FIG. 11 mainly realized from pure semiconductor components. With today's means In manufacturing technology, it can therefore be applied relatively easily to a semiconductor chip integrate and manufacture wired with a few external components.

Further advantages and features of the invention emerge from the Description with reference to the accompanying drawings, FIGS. 0 to 11.

A possible embodiment of the invention is shown in the drawings Fig. 1 to Fig. 11 shown. This version refers to currently available, common, integrated single semiconductor circuits, hereinafter referred to as IC, What is explained on the basis of these drawings applies without restricting the general work.

The drawings show: Fig. 1 power supply unit with stabilized voltage UST Fig. 2 Central clock generator Fig. 3 A / D converter Fig. 4 A / D evaluation, display control, Code converter Fig. 5 Wiper circuit breaker Fig. 6 Comparator Fig. 7 Washer pump circuit breaker Fig. 8 Wipe time measurement and pause time calculation. Fig. 9 Wipe / wash logic with programmable Stert stage Fig. 10 Signal converter of the wiper control signal Fig. 11 Block diagram of the entire system The power pack serves to stabilize the voltage and the operating voltage the I0's used in the device.

SSt is an IC that converts the stabilized voltage 118T from the operating voltage generated by the vehicle. C1 and C2 correspond to the standard wiring of SSt. T1 is the current switching power transistor. The central clock provides the Clock generator frequencies FQ1, FQ2, FQ3 used in the executed circuit. Of the The clock consists of the timer IC ZG with external 4 elements for setting the output frequency FQ1. The JK-FF1) 101 is a 2: 1 divider, 102 and 1C3 are 10: 1 Divider. The frequencies generated in this way are FQ2 = 1/20 FQ1 and FQ3 = 1/10 FQ2.

The A / D converter is designed as a voltage-frequency converter; At the Output AD of the JK-FF 1.06 is used to set the potentiometer for P pronortionale Frequency released. T04 is an integrator, 105 is a differential amplifier wired operational amplifier. Nit R6, R7 and the Zener diode Z2 takes place Convergence of the output voltage level of IC5 to the permissible Input voltage from IC6.

The A / i) signal is activated during the jeas time TH, which is indicated by logic "1" 2) is generated at the negating output of the <JK-FF 109 from F <2, to the input of the decimal counter 107 given.

The counter reading is saved as BCD information in the memory at the end of the measuring time 108 stored until the next measurement result is available. The counter is each deleted at the beginning of TM. The BCD information is available to the display control (IC10, IC11) and the code converter (IC13, IC14) are available.

The display unit consists of a 2: 1 channel switch 1010 and a decoder 1011 for controlling the 7-segment display IC12 based on the BCD information. The channel switch is toggled with the signal SEL to set the Display device status while the wipe-wash function is running.

The limitation to ten times that can be selected using a potentiometer is given by converting the potentiometer setting into a 4-bit BCD number, is not of a principle nature, but in the application in this embodiment of the invention One-digit 7-segment display justified.

The decimal setting is, however, physiologically beneficial because the decimal system is the most common number system.

In order to optimize the dependency of the break time on the Potentiometer settings, as explained for Fig. O, are those generated by the A / D converter BCD numbers converted into hexadecimal numbers (B-Bus). The transcoder is through 4: 1 Channel switches IC13, IC14 with suitable control through logical links realized in such a way that from BCD "7" -HEXA "9", from B0D "8" -HEXA 0 ", from BCD" 9 "-HEXA "F" is generated. The output of the transcoder is the B-bus.

In the comparator, the B-bus forms the source of information about the desired Pause time up. The B-bus is therefore bit-wise via an exclusive-or link on the one hand with binary "O" 3) through the gates 13 to 16, on the other hand with the one from the Wiping duration calculated 4-bit information (V-Bus) by 1) FF # flip-flop; 2) logical "1" #UST; 3) logical "O" #OV compared gates 17 to 20. free positive comparison, logical I at the output of the exclusive-or gate, is indicated by a Control signal (logical "1" from IST, IV, or NV) via the OR gate 11, the power level controlled by the wiper motor.

The motor switch of the limit switch of the wiper motor delivers the information about the running properties and conditions of the current wiping process by the length of the switching signal. It is assumed here that the engine switch after the start of the rotor to Nasse (= logical "O") switches and after returning to the starting position switches back to UB.

(= logical 1 "). In principle, the switching signal can be reversed. In in this case the signal is inverted by the input parameter of the circuit adapt.

The switching signal of the wiper motor switch WM is set to T4 and 1025 processed bounce-free and is available at the outputs of 1025 as signal WS and 75, The pulse length of WS is measured in up-down counter 1018 by 1018 is counted up with FQ3 via the NAND gate 32, while WS is a logic "1".

With the leading edge of i and gates 39 and 40, the signal becomes SP won, with which the counter reading reached by IC18, i.e. the pulse length, in 1017 is saved.

At the beginning of each measuring time, all counters (IC18, IC20, IC21) are also activated the signal obtained from the leading edge 5 and the gates 41 and 42 are reset. If the counter range of 1018 is exceeded due to a pulse length that is too long from WS, is with the occurring overflow at 1018 at the time of WS with the AND gate 34 the channel switch 1019 is set to the highest value in the counter range. And the Pause calculation is based.

In the case of the desired pause time Tp = O, the calculation is omitted the pause times, as in the case of the wipe-wash function (SEL = "1"). With positive Zero comparison, in the sense of the above definition, the AND gate 25 is enabled and each leading edge of the control signal Wr leads to a new start of the wiper motor via the power stage with the output signal of the gate 25 NV. This RESTART procedure is also used for the wipe-wash function.

When SEL becomes "1", the output of AND gate 43 assures each Leading edge of T for a repeated modulation of the wiper power level. The restart procedure ensures a continuous wiper run for each Pause time TP = from the delay through the sampling frequency FQ1 to the sampling of WM, which is assumed to be sufficiently high, and gate running times in the manosecond range apart.

The pause time calculation is carried out with the memory IC17 in which the Information about the last wiping process is stored, and the counters IC18, IC20, IC21. The counter IC18 is taken from the flow value with FQ3 and WS = "1" by the output signal of the MAND gate 32 counted down. The frequency with which the meter reading is reached "Zero" is counted with IC20 and IC21 and this information is constantly updated via the V-Bus compared with the desired pause time Tp in the comparator.

Until a new wiper run and thus a new measurement result, will 1018 after reaching the count "zero" by the takeover signal of the gate 36 and 37 loaded with the measurement result stored in 1017.

1020 is connected to a] s down counter. It can with the 4-bit data word PR are programmed in the sense of the explanations to Fi-g.O. This data word PH is at the beginning of each calculation period with SP via NOR gate 38 and then at reloaded each time "zero" counts.

Changes to the desired pause time specified on the comparator cannot be allowed during the pause time calculation, as this leads to instabilities would lead. For this reason, the Infor mation of the B-l3us stored in IC15 with SP and 1016.

When the switch S is released, the intermittent operation of the Device started. From this switching signal with the gates 27 and 28 the start signal IST won for the wiper power level. So the circuit wins in one first learning process the first measured value of the wiper runtime.

When you return from the wipe-wash function and the switch is open S, the signal IST is generated with the trailing edge of SEL old function.

The wipe-wash function - is essentially provided by the IC22, IC23 and IC24 realized. A distinction is made between two cases: short and long (TTA 1sec.) Press the TA button. When TA is pressed, this becomes the NAND gates 44 and 45 existing RS-EF set; reset when releasing PA.

The leading edge of the signal generated at gate 45 sets unconditionally by means of the pulse generated by the gates 49 and 50, the D-FF 1022 (SEL = "1"). At the same time, the IG 23 connected as a down counter is output via gate 51 Loaded value adjustable with PROG. The wiping function is carried out that often (Restart procedure), until IC25 by WS over (atter 52 counted down to "zero" is. When the count is "zero", IC 22 is reset via gates 61, 60, 59 and 55.

The frequency of the wiping process is specified in the 4-bit data word PROG and the counter 1023 programmable. The meter reading comes from the W-Bus and / or Channel switch 1010 under the condition SEL = "1" for display.

The long actuation of TA is indicated by the counter IC24 and the gate 54 evaluated. For TTA isec. the power level of the washing pump is via gate 58 controlled with the P signal. TTA can be freely selected by FQ3 and the decision level (here: binary "7") of gate 54.

After releasing TA, the washing process starts with the next leading edge by WS with the pulse RP generated by the gates 47 and 48, the washing process is ended and at the same time reset IC24.

The counting down of IC 23 is only possible after TA has been solved by means of a gate 52 possible. This ensures that the programmed Wiping operations are carried out.

With R29 and C7 as well as gates 62 and 63 there is a pulse when switching on of the operating voltage, which resets the IC22, IC23 and IC24.

The power levels of the wiper motor as well as the washing are numne realized in the same way. Both units are switched by thyristors (THR1, THR2). The thyristors are controlled by the transistors T2 and T3. The den Wiper motor switching thyristor THR1 is switched on by the wiper motor switch after switching turned off. The motor @ switch automatically takes care of the through the limit switch Maintaining the wiper run. The thyristor TKR @ of the wash pump is em Signal P starts via transistor T3 and is deleted with pulse RP via T4 and C7.

Explanations for Fig. O: Fig. O shows the dependency of the pause time TP from the potentiometer setting z using two program examples of the data word PR.

Such programming is desirable as it is practical Dealing with such control devices teaches that the graduation of the shorter break times should be tight. While with long break times it is desirable that these numerically fewer, but should be more widely spread.

Firo. O is based on the data word PR in the following programming: Curve FO: PR # = 1-lt2 = PRi = PRO = "O", for O # z # 9 Curve F1: Pj IR2 PR1 PRO z AB 0 0 0 0 0 -6 0 0 0 0 0 1 7 0 1 # PR1 = A O 0 1 0 8 1 0 @ # PRO = B O 0 1 1 9 1 1 O = logical "O", 1 = logical "1" The control signals A and B are already used in the circuit and can also be used for these purposes.

Claims (7)

P a t e n t a n s p r ü c h e: 1. Electronic control unit for the intermittent and / or wipe and / or wipe-wash operation of a windshield wiper characterized by the functions detailed below - that at the intermittent Function a freely programmable arithmetic unit the possible pause times Tp for the (n + 1) -th wiping process is calculated from the operating time of the n-th wiping process and represents as a digital m-bit data location (n, m> O, integer); - the existence Wiper time measuring mechanism the operating time of the windshield wiper by measuring: the duration of the active switching signal of the wiper motor limit switch and after return the wiper motor limit switch in the inactive initial state the operating time of the wiper as a k-bit digital data word (k> O, integer); - that the wiper time measuring mechanism, the operating time of the windshield wiper, if exceeded of the measuring range by overflow the largest possible, representable k-bit data word as assumes measured operating time; - that a converter from the setting of an operating element, that is freely accessible to the operating personnel, which is desired by the operating personnel Pause time Ep generated as a disrital m-bit data word; - that with the intermittent Function a comparator bit by bit the pause time calculated by the arithmetic unit Tp compares with the pause time Ep desired by the operator and initiates a wiping process when the predetermined logical decision is made; - that a switch contact the operational readiness of the intermittent operation establishes and initiates the first wiping process; - that for the realization of the break time TP = O the edge of the switching signal of the wiper motor limit switch, which is the return of the switching signal in the voltage level before the execution of the wiper movement, restarting the wiper motor under the logical control of the control unit initiated (restart procedure); - That in wiping operation a program counter of one Freely programmable starting threshold based on the number of table evaluations to be carried out determined according to the restart procedure while changing the program counter reading and after the target number of wiper movements has been reached, the wiper operation is ended by that it restores the device status before calling up the wiping mode; that in wipe-wash mode, a counter measures the duration of the wipe keying and when it is reached an adjustable response threshold triggers the wipe / wash mode; that in wipe-wash operation the release of the keying the change of the wiping operation program counter in the sense the wiping operation and the termination of the water pumping process by the next one Allows return edge of the switching signal of the wiper motor limit switch; that a decoder displays the device function visually; e - that the wiping and / or wipe-wash operation with unconditional priority over intermittent operation has such that the wiping keying the execution of the intermittent operation suspends. 2. Optical display according to claim 1, characterized in that a Alpha-numeric display for both the intermittent function the desired pause time TP and, in wiping mode, the number of times to be carried out Represents wiper movements. 3. Encoder according to claim 1, characterized in that the decoder the digital information both of the desired pause time l'p and of the wiping-drive chronogram counter transformed for display by the display according to claim 2. 4. wiper time measuring mechanism according to claim 1, d a d u r c h g e k e n n z e i c h -net that a counter counts a given clock frequency while the active switching signal of the wiper motor limit switch is present. 5. Converter according to claim 1, characterized in that an analog-to-digital converter an m-bit data word is generated from the voltage drop on the control element. 6. Control element according to claim 1 and 5, characterized in that that the Mittenabrrriff on a potentiometer is one of the potentiometer position dependent voltage supplies. 7. Comparator according to claim 1, characterized in that exclusive-OR gate with an open collector the comparison of the desired and the calculated pause time Execute bit by bit and if they are equal, marked by the logically same Signal all off; initiate a wiping process.