RU9605U1 - WIPER ENGINE CONTROL DEVICE - Google Patents

Abstract

A wiper motor control device comprising a time interval forming unit connected by a first terminal through a power filter to a positive terminal of a device’s power supply, a second terminal to a negative terminal of a device’s power supply, a third terminal through a first resistor to a first control terminal of a device, and a fourth terminal to a single terminal the second resistor, an electromagnetic relay with a switching contact group and a winding, one output connected to the fifth output of the unit for forming time intervals, the other output - to the positive output of the device’s power supply, the movable contact of the switching contact group of the electromagnetic relay is connected to the output terminal of the device, the first fixed contact of the switching contact group of the electromagnetic relay is connected to the positive output of the device’s power, the second stationary contact of the switching contact group of the electromagnetic relay is connected to the auxiliary output of the device, the second control terminal of the device, characterized in that it additionally introduced node differentiated the input connected to the output terminal of the device, the output to the other terminal of the second resistor, and the matching node connected to the input to the second control terminal of the device, the outputs to the other terminal of the second resistor.

Description

DEVICE FOR CONTROL OF A HOSE-SHUTTER DRIVER

The utility model relates to transport equipment, namely to electrical equipment of transport funds, and can be used in motor wiper motor control circuits.

Oversized devices for controlling the wiper motor, containing a unit for forming time intervals, power engaging key 1, 2.

The closest technical solution to choose as a prototype is a wiper motor control device 2, which contains a time interval forming unit, connected by a pfv output through a power filter to the mnocoBoiviy output of the PITCH device., The second output to the minus output of the device’s power supply, the third output through the resist - to the first control terminal of the device., the fourth terminal through the second resistor - to the second terminal of the device, an electromagnetic relay with a contact group oh and winding, ONESH output connected to the fifth view node of the formation of intfval

at the time, the output is to the positive input power of the device, the movable contact of the switching contact group of the electronic relay is connected to the output terminal of the device, the contact is not fixed, the contact is electrically connected to the voltage contact of the second terminal auxiliary} device output

A known wiper motor control device has a drawback consisting in the following.

D |) and turning on the “intermittent mode of operation of the scrubber after the first cycle has been completed, the brushes moving by cTeKjty are set to their initial position and have been in it for a rather long time, for example, 3 ... 5 s. After the specified time, the brush brush movement is automatically completed. Thus, if before switching on the “clean” mode, the windshield was so dirty that so many brushes are not enough to clean one cycle, during the indicated 3 ... 5-sec pause the review of the road situation is sharply clear. This forces the driver to urgently take additional measures, for example, briefly switch the wiper operation mode from “intermittent to“ continuous. This circumstance significantly worsens consumer properties of the device, and also increases the likelihood of an emergency road traffic situation.

The inventive utility model is aimed at expanding the functionality and zotushchivanie consumer properties of the device etching engine steeEsguyochispptela.

The technical result is achieved by the fact that in the wiper motor control device containing green time intervals, the power filter is connected to the positive input of the power supply device by the first output, the second output to the minus power supply view of the device., And the third output through the first resistor to the first control output device, fourth output - to one output of the second resistor, electrical relay with resetting contact group and winding, one output connected to the fifth pin to the node for the formation of time intervals, the other conclusion is to the positive output of the power supply of the device., the movable contact of the switching contact group of the electrical relay is connected to the output terminal of the device, the first fixed contact is switched by a switch of the contact electromagnetic relay, and the second fixed contact is the switching contact of the device groups of electromagnetic relays are sub-connected to the auxiliary output of the device, differentiations are additionally introduced, connected by an input to . Syudnomu vvodu device output - to the other terminal of the second resistor, matching node a connected to a second input of / tfavlyayuschemu terminal device yield -k another terminal of the second resistor.

In FIG. 1 is a diagram of a wiper engine firing device. The device consists of the waiting elements. The unit for forming time intervals 1, connected by the first output through the power supply filter 2 to the positive output terminal 3 of the device power supply, the second output - to the minseed output 4 of the device power supply, the third view through the first 1xistor 5 - to the first directing terminal 6 of the device , fourth output - to one output of the second resistor 7, electromyite relay 8 s

a switching CONNESTING group and a winding connected one time to the fifth output of the timing unit 1, the other output to the positive terminal 3 of the device power supply, the movable contact pf of the contact terminal of the electromagnetic peie 8 is connected to the terminal pin 9 of the device, the first fixed contact switch the voltage of the electromagnetic relay 8 is connected to the positive terminal 3 of the device power supply, the second fixed contact of the contact contact of the electromagnetic relay 8 is connected to the auxiliary the positive terminal 10 of the device Differentiation node 11, connected by an input to the output terminal 9 of the device., by the output - to the other terminal of the second resistor 7. The matching node 12, connected by the input terminal to the second control terminal 13 of the device, by the output terminal - to the other terminal of the second resistor 7.

The device operates as follows.

In the initial state, when the first control terminal 6 and the second control terminal 13 are disconnected from the “plus of the flight network, a high voltage level is generated at the fifth output of the node for the formation of time intervals 1. Since the coil of the electromagnetic relay 8 is in a de-energized state, there is no voltage at the output terminal 9 of the device, and the wiper motor is in the off state.

In “intermittent operation mode, the first control terminal 6 of the device is connected to the positive terminal 3 of the device’s power supply. At the same time, the voltage supplied through the first resistor 5 to the third terminal of the formation of time intervals 1 causes the ringing to form periodic pulses on its fifth terminal with a low level of operation voltage, for example, 1 s. Zei forming

at the first impulse of the voltage, the electromagnetic relay 8 is operated and, if the movable and the fixed contacts are closed, with the contact switch, it turns on the wiper motor and, at the same time, supplies the supply voltage to the input of the differentiation unit 11. From that moment, the wiper motor drives the brushes of the wiper, and at the output of the differentiation unit 11 a short voltage pulse is generated, which, applying to the fourth output of the evil of the formation of time intervals 1, bf of the second resistor 7 starts generating unit 1 at time intfvalov vrabotts at its fifth output low voltage during Zfovnya, naprimf, 5 ... 6. As a result, the engine rotates non-erythrically, and the brushes, without stopping in the initial position, make double sweeps on the glass for the duration of the specified time.

After a specified time has elapsed during the operation of the lower voltage level, the intfvash formation unit in time 1 automatically switches to the stationary mode of generation of pfiodic pulses.

This is due to the fact that the differentiation unit is designed in such a way that its transmission coefficient has a value close to unity only when the output voltage is pfpfed. All the input voltage pfepades subsequent to pfv are differentiated with a transmission coefficient much less than unity.As a result, only the pfv output pulse of differentiation unit 11 is able to put the time interval 1 formation unit 1 into vfabot mode on the fifth output of the low level of tension for a predetermined time.

Due to the maturity of the amshzitutsa, all the output pulses of the differentiation unit 11 that follow the first one have no effect on the unit for forming time intervals 1.

Thus, when switching to the pre-prime mode of operation, the wiper blades first perform three or four double sweeps, without stopping in the initial position (pre-cleaning mode), and then automatically switch to the normal operating mode with a periodic stop in the initial position, for example, by 3 ... 5 sec

In the operation mode of the scrubber washer, the second output pin 13 is connected to the positive input 3 of the power supply. The supply voltage is supplied to the washer motor and, after coordination 11 and after, the second resistor 7 is applied to the fourth input of the unit for forming time intervals 1. At the same time, the low voltage level is forgotten at the fifth output of the unit forming the 1 time intervals. Electromagnetic turnip 8 also works with closed moving and fixed motion. Its contacts in the contactless contact group include the wiper motor in non-continuous operation. As a result, the washer motor and the steamer motor are switched on almost simultaneously. After disconnecting the second control terminal 13 from the sposovy input 3 of the power supply, the unit for the formation of the time interval 1 turns off the electromagnetic relay 8 with a temporary delay, for example, in 5 ... b s. As a result, the washer engine stops immediately after the indicated shutdown, and the wiper engine still continues to operate for a predetermined time, after which it also stops.

washing liquid with a washer fluid. Then, when the spraying of the washer fluid is stopped due to the engine shutting off, the brush wiper will perform 3-4 more non-floating double sweeps (aftertreatment mode), then stop in the initial position.

If the second control terminal 13 is added to the positive terminal 3 when the first control terminal 6 is connected to the last one, then the wiper automatically switches from “intermittent operation to continuous”. If the second control terminal 13 is disconnected from the positive power terminal 3, the wiper blades continue with 3-4 continuous double sweeps and then automatically enter the intermittent cleaning mode.

Pia FIG. 2 is a schematic diagram of the alphabetic device of the wiper motor, which is similar in principle to cxeavie shown in FIG. 1 and differs from the last decision of the coordination node 12.

This solution has the advantage of being as follows. at the same time, when turning on the stewer and the wiper to clean the windshield from dust in dry weather, the wiper motor is subjected to quite a large current overload due to the friction coefficient that arises at the initial stage of brush movement on dry glass. If we separate in time the moments when the windshield washer and wiper are turned on so that the windshield washer washer before the windshield washer at a predetermined time interval, the wiper motor is not subject to the indicated current loads, since by the time the brushes move, the windshield washer will have time to almost completely dampen the windshield friction.

In addition, a decrease in the coefficient of friction significantly reduces the wear of the brushes themselves.

In the circuit of FIG. 2, the separation in time of the turning on times of the washer and the wiper is carried out, thanks to the execution of the matching unit 12 in the vice integrating link, the input of which is connected to the second control terminal 13 of the device, and the output through the second resistor 7 is connected to the fourth output of the node 1 in the formation of time intervals 1.

Thus, the introduction of an additional differentiation unit, connected by an input to the output terminal of the device., Output - to another terminal of the second resistor., And additional matching, connected by the input to the second control terminal of the device., Output - to another input of the second resistor, distinguishes the claimed device from the prototype, as it allows to improve its consumer properties and expand the scope of application.

Laboratory and operational tests carried out at JSC Avtoelektronshsa and OAO GAZ have shown that the device is highly competitive when it is used both on trucks and cars. Sources of information: 1. USSR copyright certificate No. .№34, 1980. MS 33197. Motorola analog 1C device data, 763166, CL B 60 S 1/08, BI 1996, p. Z, fig. 1

Claims (1)

A wiper motor control device comprising a time interval forming unit connected by a first terminal through a power filter to a positive terminal of a device’s power supply, a second terminal to a negative terminal of a device’s power supply, a third terminal through a first resistor to a first control terminal of a device, and a fourth terminal to a single terminal the second resistor, an electromagnetic relay with a switching contact group and a winding, one output connected to the fifth output of the unit for forming time intervals, the other output - to the positive output of the device’s power supply, the movable contact of the switching contact group of the electromagnetic relay is connected to the output terminal of the device, the first fixed contact of the switching contact group of the electromagnetic relay is connected to the positive output of the device’s power, the second stationary contact of the switching contact group of the electromagnetic relay is connected to the auxiliary output of the device, the second control terminal of the device, characterized in that it additionally introduced node differentiated the input connected to the output terminal of the device, the output to the other terminal of the second resistor, and the matching node connected to the input to the second control terminal of the device, the outputs to the other terminal of the second resistor.