RU2089416C1 - Vehicle backlight washer control device - Google Patents

Abstract

FIELD: transport engineering; glass washing systems for automobiles; control of delivery of washing liquid to automobile backlight glass. SUBSTANCE: device has two supply output terminals, control terminal, output terminal, diode, relay making contacts, switch, positive feedback circuit, threshold element and RC-chain. Novelty is use of bipolar threshold element, switch in form of current amplifier-emitter repeater, threshold element load and current amplifier current setting element in form of common compensating resistor and also electric coupling of RC-chain resistor. EFFECT: improved control of washer. 2 cl, 1 dwg

Description

 The invention relates to vehicle glass cleaning systems and can be used to control the supply of liquid to the rear window of VAZ-2108 and VAZ-2109 Zhiguli, ZAZ-1102 Tavria automobiles.

 A device for controlling a wiper motor is known (see ed. St. N 763166, class B 60 S 1/08, 1980), containing power leads, a threshold element connected to an actuator and connected to a voltage driver and setting RC-time chain.

 Although this device can be used in vehicle glass cleaning devices, it does not meet the requirements for rear window washers of modern car brands.

 A vehicle windshield washer control device is also known (see A. Brukhanov. Automobile electronic devices. M. Transport. 1988, p. 55 58, Fig. 3.25), containing a lead for turning on a windshield washer, a lead for connecting a positive pole of a power source, a lead for connecting the load, a common terminal for connecting the negative pole of the power source and the load, a diode whose cathode is connected to the terminal for turning on the washer, and the anode to the terminal for connecting the load directly, and to the terminal for connecting I have a positive pole of the power source through the make contacts of the relay, a key element whose load is the relay coil, with a control terminal, an output terminal and two power leads, one of which is connected to the diode cathode, and the other to the common terminal, the positive feedback circuit with the input an output connected to an output terminal of a key element, a power output connected to a common output, and an output output, a threshold element with a power output connected to a diode cathode, an output output connected to an output control the key element, the first input terminal connected to the output terminal of the positive feedback circuit, and the second input terminal connected to the middle terminal of the RC circuit, the capacitor of which is connected to the common terminal, and the threshold element is made in the form of a transistor and connected to its base a resistor, the second input of which is the second input terminal of the threshold element, while the emitter of the transistor is connected to the first input terminal of the threshold element, and the collector with its output terminal of the threshold element That, while the specified transistor of the threshold element is made field, the key element is made in the form of a power amplifier connected to its control terminal via an inverting transistor, the resistor of the RC circuit is connected to the diode cathode, and the positive feedback circuit is adjustable.

 The specified device is implemented in a commercially available windshield washer timer, which is equipped with such modern and promising brands of cars as VAZ-2108 and VAZ-2109 Zhiguli, ZAZ-1102 Tavria.

 A characteristic feature of its circuit is the great influence of the parameters of most of its elements on the duration of the output signal, and especially the field-effect transistor of the threshold element. A tight tolerance on the duration of the output signal requires adjustment of the device in serial production, for which the feedback circuit is adjusted, namely, by selecting a resistor connected between its input and output terminals, the value of the reference voltage supplied to the first input terminal of the threshold element is changed, and so thus compensate the tolerance for the cutoff voltage of the selected type of field-effect transistor, the saturation voltage of the collector-emitter transistor junction in the relay coil circuit, and as adjusting elements use resistors with a nominal resistance value of 1.3 to 7.5 kOhm. Thus, regulatory operations increase the cost of mass production and lengthen its cycle.

 It should also be borne in mind that in a road-transport situation, a situation may arise when immediately after the washing of the rear window of the car, it may again become contaminated and, therefore, it becomes necessary to re-enable the washer. In this case, we should talk about the speed of the re-inclusion, which determines the discharge circuit of the time-setting capacitor, which is mainly determined by the field-effect transistor of the threshold element. In the specified device, re-inclusion is possible no earlier than after a few seconds, which suggests a low speed re-inclusion. Therefore, the device does not contribute to improving traffic safety.

 The basis of the invention is the task of creating a vehicle windshield washer control device with such a circuit that would reduce the influence of the spread of parameters of the used transistors on the duration of the output signal and, therefore, would not require its adjustment during manufacture in mass production, as well as increase the speed of repeated switching and, therefore, traffic safety.

 The problem is solved in that in the vehicle wiper control device comprising a terminal for turning on a washer, a terminal for connecting a positive pole of a power source, a terminal for connecting a load common for connecting a negative pole of a power source and a load, a diode whose cathode is connected to a terminal for windshield washer, and the anode to the terminal for connecting the load directly, and to the terminal for connecting the positive pole of the power source through the closing contacts kty relay, a key element, the load of which is a relay coil, with a control terminal, an output terminal and two power leads, one of which is connected to the diode cathode, and the other to the common terminal, a positive feedback circuit with the input terminal connected to the output terminal of the key element, a power output connected to a common output and an output terminal, a threshold element with a power output connected to a diode cathode, an output terminal connected to a key element control terminal, a first input terminal, a connection to the output terminal of the positive feedback circuit, and a second input terminal connected to the middle terminal of the RC circuit, the capacitor of which is connected to the common terminal, the threshold element being a transistor and a resistor connected to its base, the second input of which is the second input terminal a threshold element, wherein the emitter of the transistor is connected to the first input terminal of the threshold element, and the collector with its output terminal, according to the invention, the transistor of the threshold element is made bipolar, key the element is made in the form of an emitter follower, the resistor of the RC circuit is connected to the output terminal of the threshold element, and the load of the threshold element and the current-setting element of the emitter follower are made in the form of a compensating resistor.

 The problem is solved for the inclusion of a washer with a short pulse of constant voltage, the duration of which does not exceed the pulse duration of the output signal.

 According to the invention, it is recommended to introduce an additional resistor into the threshold element and connect it between the transistor collector and the output terminal, which excludes the repeated automatic inclusion of the washer for the option to turn on the wiper of pulses of constant voltage, the duration of which exceeds the duration of the output signal.

 The implementation of the transistor of the threshold element bipolar allows you to reduce the influence of its parameters on the duration of the output signal, as well as to increase the speed of the re-enable.

 The implementation of the key element in the form of a current amplifier of the emitter follower, the connection of the resistor of the RC circuit to its output terminal, the load of the threshold element and the current-setting element of the amplifier of the current-emitter follower in the form of a common compensating resistor allows you to compensate for the influence of the spread of the parameters of the used transistors on the duration of the output signal without implementation its adjustment, as well as increase the speed of re-inclusion.

 The introduction of an additional resistor into the threshold element and its inclusion between the collector of the transistor and its output terminal eliminates the automatic re-inclusion of the washer when it is turned on by a constant voltage pulse, the duration of which exceeds the duration of the output signal.

 The drawing shows a circuit diagram of a device for controlling a windshield washer of a vehicle according to the invention.

 The vehicle’s windshield washer control device 1 contains terminal 2 for turning on the windshield washer, terminal 3 for connecting the positive pole of power supply 4, terminal 5 for connecting load 6 — the washer pump electric heater, general terminal 7 for connecting the negative pole of power supply 4 and load 6. Terminal 2 to turn on the washer, it is connected to the positive pole of the power supply 4 through the make contacts 8.

 The device 1 also contains a diode 9, the cathode of which is connected to terminal 2, and the anode to terminal 5, directly, and to terminal 3 through the make contacts 10 of the relay, the key element 11, made in the form of an emitter follower, contains a composite transistor consisting of two transistors 12 and 13, the collectors of which are connected to the cathode of the diode 9, the emitter of the transistor 13 is connected to the relay coil 14, which, in turn, is connected to the common terminal 7, the emitter of the transistor 12 is connected to the base of the transistor 13; positive feedback 15 made of two series-connected resistors 16 and 17, the resistor 16 is connected to the emitter of the transistor 13, the resistor 17 is connected to the common terminal 7, the key element 18 contains a bipolar transistor 19, the collector of which is connected to the cathode of the diode 9 through the resistor 20, and to the base of the transistor 12 directly, its emitter is connected to the common point of the resistors 16 and 17, and its base to the cathode of the diode 21, the anode of which is connected through a resistor 22 to the common point of the timing RC circuit 23, the capacitor 24 of which is connected to a common output 7, and its resistor 25 is connected to the connection point of the resistor 20, the collector of the transistor 19 and the base of the transistor 12. In some cases, a resistor 26 can be connected to the collector circuit of the transistor 19.

 The vehicle windshield washer control device 1 operates as follows.

 In the initial state, when the making contacts 8 are open, the device 1 is galvanically isolated from the power supply 4 and is de-energized, there is no voltage at the output terminal 5.

 To turn on device 1, close contacts 8 and to terminal 2, a positive voltage pulse is supplied from the power source 4, which leads to the passage of current through the circuit: terminal 2, resistor 20, base-emitter junctions of transistors 12, 13, relay coil 14, common terminal 7 The composite transistor 12, 13 opens, the relay operates and closes its make contacts 10, which through the diode 9 supply voltage to the device 1, as well as to the load 6. The washer pump electric motor is turned on and the valve is opened, through which the liquid flows to the back glass. Simultaneously with the inclusion of the device 1, the voltage is applied to the rear screen wiper motor, which drives the brushes.

 At the moment of switching on the composite transistor 12, 13, the transistor 19 is locked, because the capacitor 24 is discharged, and therefore does not affect its inclusion. Simultaneously with the relay on, the emitter of the transistor 19 forms a reference voltage, the value of which is determined by the resistors 16, 17, and the capacitor 24 starts charging through the resistors 20, 25. When the voltage on the capacitor 24 provides an excess of the voltage at the base of the transistor 19 relative to the voltage on its emitter, the transistor 19 starts to open, and the composite transistor 12, 13 closes, as a result of which the voltage drop at its collector-emitter junction increases, and the reference voltage at the emitter of the transistor 19 reduces i. The transistor 19, connected by positive feedback to the composite transistor 12, 13, opens like an avalanche, and the composite transistor 12, 13 closes. The relay coil 14 is de-energized, its contacts 10 are opened and the load 6 is de-energized.

 If the duration of the enable signal generated at pin 2 by the making contacts 8 is less than the duration of the output signal, then with the opening of contacts 10, the relay of the device 1 returns to its original mode.

 If the duration of the enable signal is longer than the duration of the output signal, then with the opening of relay contacts 10, the load 6 is first disconnected from the power source 4, and then automatically reconnected to it immediately, since after the transistor 19 opens and shunts the RC circuit and the capacitor 24 is discharged through the resistor 22, the forward biased diode 21, the base-emitter junction of the transistor 19, the resistor 17, the transistor 19 is closed, and the composite transistor 12, 13 opens and turns on the relay.

 If the duration of the enable signal is longer than the duration of the output signal and it is necessary to exclude the possibility of automatic restarting of the relay, it is recommended to include a resistor 26 in the collector circuit of transistor 19, which with a resistor 20, a collector-emitter junction of transistor 19 and resistor 17 forms a voltage divider that provides the holding current of the transistor 19 in the open state and, therefore, the closed state of the composite transistor 12, 13.

 The duration of the output signal of device 1, i.e., the closed state of the relay contacts 10, depends on the value of the reference voltage on the emitter of transistor 19, its cut-off voltage, and also on the value of the charge current of the capacitor 24. Moreover, with a fixed value of the cut-off voltage and charge current, an increase (decrease) the value of the reference voltage increases (decreases) the duration of the output signal, and for a fixed value of the cut-off voltage and the reference voltage, an increase (decrease) in the charge current decreases (increases) itelnost output signal.

 In the serial production of device 1, the parameters of the used transistors can differ significantly from each other, however, the cutoff voltages of bipolar transistors practically do not differ from each other, but the voltage at the collector-emitter junction of composite transistors operating in the emitter follower mode substantially depends on their gain current, which are significantly different from each other.

 A characteristic feature of the device 1 is the following interconnection of its parameters, namely, the greater the current gain of the composite transistor 12, 13, the lower the voltage at its collector-emitter junction and, therefore, the higher the reference voltage at the emitter of transistor 19. In turn the greater the specified current gain of the composite transistor 12, 13, the lower the value of the current flowing through its base-emitter junction and resistor 20 and, therefore, the smaller the voltage drop across resistor 20 and more approx capacitor 24 charges.

 Thus, an increase in the reference voltage increases the duration of the output signal, and an increase in the charge current decreases it, as a result of which the indicated duration of the output signal remains practically unchanged, which makes it possible to reduce the deviation of the duration of the output signal from the calculated nominal value without adjusting it in mass production conditions.

 The non-conductive closed state of the transistor 19 determines its very large value of the input resistance, which allows the use of a capacitor 24 with a capacitance of 2.0 4.7 μF to ensure the duration of the output signal T = 5 s.

 Using a resistor 22 and a diode 21 eliminates additional uncontrolled charge circuit of the capacitor 24 by reverse currents of the collector-base and emitter-base transitions of the transistor 19, and also protects the base-emitter junction of the transistor 19 from reverse bias.

 The invention can be used in devices for controlling the supply of liquid to the rear window of VAZ-2108, VAZ-2109 Zhiguli, ZAZ-1102 Tavria automobiles, in rear window cleaning systems, and can be manufactured under serial production without any adjustment operations.

Claims (2)

 1. A vehicle windshield washer control device, comprising a terminal for turning on a windshield washer, a terminal for connecting a positive pole of a power source, a terminal for connecting a load, a common terminal for connecting a negative pole of a power source and a load, a diode whose cathode is connected to a terminal for turning on the washer, and the anode to the terminal for connecting the load directly, and to the terminal for connecting the positive pole of the power source through the relay contacts, a key element, which is a relay coil with a control terminal, an output terminal, and two power leads, one of which is connected to the diode's cathode and the other to the common terminal, a positive feedback circuit with an input terminal connected to the output terminal of the key element, a power terminal connected to the common terminal, and the output terminal, the threshold element with the power output connected to the diode cathode, the output terminal connected to the control terminal of the key element, the first input terminal connected to the output terminal of the circuit negative feedback, and a second input terminal connected to the middle terminal of the RC circuit, the capacitor of which is connected to the common terminal, moreover, the threshold element is made in the form of a transistor and a resistor connected to its base, the second input of which is the second input terminal of the threshold element, the emitter of the transistor is connected to the first output terminal of the threshold element, and the collector with its output terminal, characterized in that the transistor of the threshold element is made bipolar, the key element is made in the form of an emitter ernogo repeater resistor RC-chain connected to the output terminal of the threshold element, and the load element and the threshold voltage driving the emitter follower element formed as a common compensating resistor.  2. The device according to claim 1, characterized in that an additional resistor is connected to the threshold element, connected between the collector of the transistor and the output terminal of the threshold element.