SU692008A1 - Diagnostic arrangement for testing alternators for automobiles and tractors - Google Patents

Description

one

The invention relates to electric machines, namely, to autotractor alternators and is intended to diagnose them.

A stand for diagnosing alternators is known, which contains a controlled drive, a load, test instruments, a control and signaling unit, a rotation speed meter 1. The drive shafts of test products are driven from an asynchronous motor through a V-belt transmission and a two-stage V-belt drive. Switching the motor on and off is done with the help of buttons. Handle speeds change the speed of the drive. The load resistors change the value of the current in the circuit of the tested generator.

This stand does not allow the full range of tests for alternators to be made and is difficult to operate.

PT also knows a stand for diagnosing autotractor alternators with an excitation winding and a stator winding containing a controlled drive with speed control and operating mode control units, a load designed to be connected to the stator circuit of the tested generator, with a load control unit, a signaling unit, rotation speed meter, instrumentation, check type switch, control relay block and mount generator to be checked {2.

Labor productivity at this stand is insufficient due to the complexity of its maintenance, the lack of automation of verification operations, and its operation requires the use of a highly skilled operator.

The purpose of the invention is to increase labor productivity when working at the stand. To accomplish this goal, the stand is equipped with an excitation winding testing unit, a comparison unit, a software time relay and a speed controller, the excitation winding testing unit is designed as two series-connected undercurrent relays and a power source, equipped with two terminals for connecting the tested winding, connected to the control relay unit and the programmable time relay, and its output is connected to the alarm unit, the speed master is made in the form of an alternating current executive motor, a shaft It is connected via an electromagnetic clutch mechanism to a drive speed control unit, and connected to a software time relay and a control relay unit, the comparison unit is made on two thyristors with control circuits and connected to a rotation speed meter, to a control unit, a software time relay, and provided with terminals for connections to the stator winding of the generator being tested, the output of the comparator unit is connected to the alarm unit, and the software time relay is connected to the check type switch. The stand consists of an electric drive 1 with magnetic amplifiers, which is mechanically connected to an alternator 2 and a tachogenerator 3. The output terminals of the generator 2 are connected to a tachogenerator 3, designed to control the turns of the output shafts and generate a voltage for opening the thyristors 4, 5 connected through intermediate relays 6, 7 with a single-phase bridge 8. Comparative unit 9, containing thyristors 4 and 5, is connected to generator 2. Electric drive 1 is connected to a potentiometer 10, which is connected via an electric Agnit speed limiter 11 to speed-12 actuator actuator, powered by transformer 13. Alternator 2 is connected to an excitation winding unit and a minimum current relay 14, 15 connected to power supply 16, which is connected to transformer 17. Through contacts the magnetic starter 18 to the actuator 1 is connected to the automatic switch 19. It has an output to pulse meters through the transformer 23 and single-phase bridge 8. The transformer 23 through the contacts of the intermediate relays of the relay block control is connected to the alarm unit on the lamps. A switch 40 is installed to switch the stand to a complex or separate test, and a switch 41 is provided to select the desired type of test. The stand also includes a microswitch 42 in the generator fixture, intermediate relay 43 microswitch 44, Start button 45, intermediate relay 46, software time relay 47, intermediate relay 48, voltmeter 49, intermediate relay 50, potentiometer 51 in thyristor circuit 4, potentiometer 52 in thyristor circuit 5, intermediate relay 53, voltmeter 54 for controlling the frequency of generation ora 2, starter 55 for connecting the load 56, potentiometer 57 in the power supply circuit of the tachogenerator 3. The stand's operation during complex testing of the alternator is carried out in automatic mode. After the circuit breaker 19 is turned on, the transformers 13, 17, 23 and the control circuit are supplied with power, and the signal light 32 is on, indicating the presence of voltage in the stand circuit. Switch 40 is set to position I, the alternator is installed in the hallway device, and microswitch 42 is pressed and intermediate relay 43 is turned on. When electromagnet 11 and speed setting motor 12 are in the initial position, microswitch 44 is turned off, intermediate relay 25 is off and is lit signal light 33 “Ready. This means that the circuit is ready for automatic diagnosis of the alternator. Further work of the stand is carried out in automatic mode and is performed as follows. Button 45 is pressed. The start-up function is activated, intermediate relay 46 is activated and time relay 47 is energized, and button 45 becomes self-powered. A normal-open contact 46 of the relay 46 closes the test circuit of the excitation winding of the alternator 2. The voltage of 12.5 V from the power source 16 is applied to the excitation winding of the alternator 2, the current of which is monitored by an ammeter and a minimum current relay 14.15. carried out on a minimum current, e.g. 3.0 A and a maximum current, e.g. 3.8 A. Under the condition that the current in the field winding is less than 3.0 A or more than 3.8 A, intermediate relay 27 is activated and the signal light 37 "lights up Marriage, When this relay 27 becomes on the latch. If, on the other hand, the current in the winding is higher than 3.0 A and below 3.8 A, the switching relay 26 triggers and the warning light 34 lights up, and the relay 26 becomes self-powered. After checking the magnitude of the current in the excitation winding, the first time relay program 47, the intermediate relay 48, is turned on, and thus, the mode of determining the rotor speed of the alternator 2 with the rated voltage without load is performed. Relay 48 turns off the excitation winding current test and turns on the magnetic starter 18, the speed setting electromagnet I and the control electrode of the thyristor 5 in the tachogenerator circuit 3. The shutdown signal is simultaneously applied to the speed setting motor 12 and the electromagnet 11 which turns off and under spring force is disengaged from the pinion connecting the shaft of the engine 12 with the potentiometer 10, and the shaft of the engine 12 at that time rotates at a certain angle. The magnetic starter 18 includes an electric drive 1 and a motor 12, which rotates, drives the contact of the notciometer 10, a change in the resistance value of which allows the rotation speed of the electric drive 1 to change. The alternator rotor 2 receives the same rotational speed as the electric drive 1 , and when the rotation frequency of the rotor of the generator 2 is changed, the voltage outputted by it, the value of which is monitored by the voltmeter 49 and the comparison unit 9. The voltage from the alternator 2 is supplied through potentiometer 51 on the control electrode of the thyristor 4, which opens at a voltage of 12.5 V and the rotor speed of the alternator 2, for example, 900 rpm and switches on relay 28 through intermediate relays 6 and 50, which becomes self-powered and includes a light bulb 36 "Valid. If, at a rotor speed of 900 rpm, generator 2 does not produce a voltage of 12.5 V, the speed of the electric device 1 and the alternator 2 increases to 950 rpm, the control current is set using potentiometer 52 and tachogenerator voltage 3 The thyristor electrode 5 is such that it opens, while intermediate relays 7 and 53 are turned on, the latter turning on relay 29, which becomes self-powered and turns on signal light 37 "Reject. The rotor frequency of the generator 2 is monitored by a voltmeter 54, which is calibrated in revolutions.

After checking the frequency of rotation of the rotor of the generator 2 at the rated voltage without load, the second time relay program 47 is triggered and the test mode starts at the rated voltage and nominal load. The starter 55 connects the load 56 to the terminals of the generator 2, and the intermediate relays 30, 31 - to the network. A potentiometer 57 is connected to the circuit of the tachogenerator 3, and the potentiometer 52 is switched off, and the speed in this mode increases, for example, to 2100 rpm. If the generator 2 produces a voltage of 12.5 V at the indicated speed, the thyristor 4 opens in the comparison unit 9 and the intermediate relay 6 switches on, the normally open contact of which turns on the relay 50. The relay 50 turns on the relay 30, which becomes self-powered and the signal light comes on 38 “Good. If, at the rotor speed of the generator 2 2100 rpm, it does not produce a voltage of 12.5 V, then the rotor speed of the generator 2 rises to 2200 rpm. This opens the thyristor 5, and the intermediate relays 7 and 53 are turned on, the latter turning on the relay 31, which becomes self-powered, and the signal light 39 "Reject.

After working out the entire cycle of checks

alternator 2 triggers the third time relay program 47 and interrupts the power supply circuit of intermediate relay 46 and time relay 47. Speed master engine 12 reverses, and the moving contact of potentiometer 10 returns to its initial position and microswitch 44 is pressed, causing the power supply of intermediate relay 25 to turn off and the signal light 33 is turned on. Ready - the stand's electrical circuit is ready to check the next alternator.

Automating the testing process allows increasing labor productivity at this stand, lowering the qualifications of service personnel and improving the quality of diagnostics of generators.

Claims (1)

Invention Formula A stand for diagnosing autotractor alternators with a winding of excitation and a stator winding containing a controlled drive with speed control and operating mode control units, a load designed to be connected to the stator circuit of a test generator, with a load size control unit, a signaling unit, a speed meter rotation, instrumentation, test type switch, control relay unit and generator mounting unit, characterized in that to increase labor productivity when working on the stand, the stand is equipped with an excitation winding testing unit, a comparison unit, a software time relay and a speed master, the excitation winding testing unit is made in the form of two series-connected undercurrent relays and a power source, and is equipped with two terminals for connecting the tested winding , is connected to the control relay unit and a software time relay, and its output is connected to the alarm unit, the speed limiter is designed as an executive electric motor AC, the shaft of which is connected via an electromagnetic clutch mechanism to a drive speed control unit, and connected to a software time relay and a control relay unit, the comparison unit is made on two thyristors with control circuits and connected to a rotation speed meter, a control relay unit, a program relay time and is equipped with terminals for connection to the stator winding of the generator being tested, the output of the comparator unit is connected to the alarm unit, and the software time relay is connected to a switch loan type of verification. Information sources, taken into account in the examination