SU1180848A1 - Device for checking contact-transistor current control relays - Google Patents

Abstract

1. DEVICE FOR VERIFICATION OF CONTACT-TRANSISTOR RELAY-REGULATORS, containing an adjustable DC source, to the output terminals of which a voltage indicator is connected and a voltage regulator relay under test, an excitation winding of the generator connected to the first terminal through an ammeter with a controlling driver. the tested voltage regulator, and the second output, with a minus bus of an adjustable DC source, characterized in that, in order to simplify the device by eliminating rotating mechanical x generator drive parts, steering DC source is designed as a controlled rectifier stabilizirovannogo- introduced and feedback circuit connected between the first terminal of the generator field winding and the control input of the controlled constant current source. 2. The device according to claim 1, characterized in that the feedback circuit contains a series-connected switch, an adjustable resistor and a diode connected by the anode to the adjustable resistor, and the cathode to the control input of the adjustable direct current source. (L 3.The device according to Clause 1, that is, with the fact that the voltage indicator is made in the form of a peak voltmeter containing a parallel-connected capacitor and a magnetoelectric voltmeter: the system, which positably is connected to a positive terminal 4 of the direct current source, and a negative one with the diode anode, the capacitor of which is connected to the negative terminal of the regulated direct current source.

Description

The invention relates to the field of automation of various processes. The purpose of the invention is to simplify the device by eliminating the rotating mechanical parts of the generator drive. Figure 1 is a schematic diagram of a device for testing contact-transistor relay regulators; figure 2 - timing diagram of the device. The device for testing contact-transistor relay-regulators consists of adjustable source 1 Direct current, winding 2 of generator excitation, ammeter 3, voltmeter 4 of the magnetoelectric system t, feedback circuit from switch 5, trimmer resistor 6, limiting resistor 7, a diode 8 connected by an anode to a resistor 6, and a cathode to a control input of a rectifier regulator. The voltage of the network through the transformer 9 is supplied to the rectifying bridge 1 The rectified voltage is filtered by the capacitor 11. The transistors 12 and serve to adjust the output voltage to the voltage as the input voltage and load change. Resistors 14 and 15 serve to equalize the resistances of both taps. The permanent feedback amplifier consists of a transistor 16, a stabilizer 17, a resistor 18 providing a reference voltage, and a divider 19-21. The capacitors 22 and 23 filter the voltage of the splitter transistor 16, which prevents the device from self-excitation. The output oscillations of the output voltage are amplified by a constant current amplifier that determines the mode of the transistors 24 and 25. The mode of the transistors 12 and 13 is determined by the mode of the transistors 24 and 25. Potentiometer 20 can adjust the output voltage from 6 to 25 V. The diagram above has electronic protection against short; circuit output circuit. The protection is performed on a transistor 26, which is normally closed by a voltage on the potentiometer 27. When the output circuit is overloaded, the transistor 26 is turned off and the transistors 12.13 24 and 25 are closed. The required commutator voltage of the transistor 16 is provided by a separate winding of the mains transformer 9 and diode 482 28. A diode 29 and a large capacitor 30 filter the impulse current of the rectifier in the voltmeter circuit 4. The rheostat 31 and the switch 32 are used to change the current in the excitation circuit relay regulators and dl. check overload protection relay. The device also contains a test relay-regulator 33 and a switch 34. The relay-voltage regulator has a winding 35 of vibration relays with contacts 36, a transistor 37, diodes 3840, resistors 41-45, contact 46 and windings 47 and 48. The device contains resistors 49-53, capacitors 54 and 55, and a voltage indicator 56 consisting of capacitor 30 and a voltmeter 4. The device operates as follows. When the device is turned on, the test relay-regulator 33 receives power from the stabilized rectifier through the switch 34. When the voltage in the circuit is lower than the operation of the vibration relay 35, the contacts 36 are open; The transistor 37 is open and a current flows through the excitation winding 2 and ammeter 3. If the supply voltage is increased by resistor 20 to the operating level of the electromechanical relay 35, the control contacts 36 are closed and the transistor 37 is closed. The excitation current stops. I Change the rectifier voltage with potentiometer 20 manually, fix the trigger threshold of the relay controller as indicated by voltmeter 4 and ammeter 3. The feedback circuit is turned on by switch 5. The voltage on the base of the constant-current amplifier 16 relative to the negative pole is much less than in the excitation winding circuit, i.e. The feedback circuit gives a stepwise increase in voltage on the divider 20. When the supply voltage reaches the relay, the excitation winding is de-energized and, accordingly, the input voltage of the constant-current amplifier decreases by a certain amount controlled by a potentiometer 6. The output of the stabilizer is sharp the voltage decreases, which causes the switching-on of the relay-regulator and a current to flow through the excitation winding, which leads to an increase in the voltage at the input to the circuits of the controller and cc is repeated. The device starts to operate in a pulsed mode, automatically maintaining the output voltage, the rectifier, in accordance with the operating characteristics of the relay controller.

By the slope of the voltage drop, by adjusting the feedback resistor 6, the self-oscillation mode can be adjusted to a specific type of generator. The rectifier divider 20 changes the ratio of the duration of the interval of arising pulses in exact accordance with the operating characteristics of the tested, relay-regulators. Figure 2 shows a timing diagram of the operation of the device for a pulse frequency of 50 Hz.

By using the proposed device during the repair process, it is possible to adjust the contact-transistor relay-regulators and test all types of voltage regulators in the load mode. The rectifier has protection against short circuits that

necessary for frequent testing of relays The proposed device, together with the use of an ohmmeter, a measuring transistor gain factor, special plug connectors, a device for soldering parts, makes it possible to create a simple universal stand for testing, adjusting, testing relay regulators. The use of an adjustable power source for instrumentation allows you to expand the capabilities of the stand for repairing transistor-based ignition systems, electronic speedometers, car direction indicators, etc. For this purpose, it is possible to supplement the stand with an ignition coil with a spark discharge, an electronic multivibrator to simulate the work of the contacts of the device. The use of modern semiconductor devices, integrated circuits makes it possible to manufacture such a stand in industrial form, as a desktop instrument for the repair of radio engineering devices for agricultural purposes.

Claims (3)

1. DEVICE FOR CHECKING CONTACT TRANSISTOR RELAY REGULATORS, containing an adjustable constant current source, to the output terminals of which are connected a voltage indicator and a tested voltage relay-regulator, the excitation winding of the generator, connected by the first output through an ammeter to the control output of the tested voltage relay-regulator and the second conclusion - with a negative bus of an adjustable direct current source, characterized in that, in order to simplify the device by eliminating rotating mechanical parts the generator’s drive, an adjustable constant current source is made in the form of a regulated stabilized ’rectifier, and a feedback circuit is introduced, connected between the first output of the generator excitation winding and the control input of the regulated constant current source. 2. The device according to claim 1, with the fact that the feedback circuit contains a series-connected switch, an adjustable resistor and a diode connected by an anode to an adjustable resistor, and a cathode to a control input of an adjustable source <d DC . 3. The device according to claim 1, wherein the voltage indicator is made in the form of a peak voltmeter containing a capacitor and a magnetoelectric voltmeter connected in parallel: a system whose positive terminal is connected to the positive terminal of an adjustable constant current source and the negative terminal to the anode of the diode, the cathode of which is connected to the negative terminal of an adjustable constant current source. SU „„ 1180848 • 1180848 2 28. A diode 29 and a large capacitor 30 filter the pulse current at the output of the rectifier in the circuit of the voltmeter 4. Rheostat 31 and switch 32 5 serve to change the current in the excitation circuit of the relay controllers, as well as. overload protection relay checks. The device also contains the tested relay-regulator 33 and a switch 34. The voltage-regulating relay has a winding 35 of vibrational relays with contacts 36, a transistor 37, diodes 3840, resistors 4Ί-45, contact 46 and windings 47 and 48. In addition, the device contains resistors 49-53, capacitors 54 and 55, and a voltage indicator 56, consisting of a capacitor 30 and a voltmeter 4. The device operates as follows. When the device is turned on, the tested relay-controller 33 receives power from a stabilized rectifier through a switch 34. When the voltage in the circuit is lower than the vibration relay 35, the contacts 36 are open; The transistor 37 is open and a current flows through the field winding 2 and the ammeter 3. If the supply voltage is increased by the resistor 20 to the response level of the electromechanical relay 35, then the control contacts 36 are closed and the transistor 37 is closed. The excitation current stops; By manually changing the voltage of the rectifier with a potentiometer 20, the response threshold of the regulator according to the readings of voltmeter 4 and ammeter 3 is fixed. The feedback circuit is turned on by switch 5. The voltage on the basis of the direct current amplifier 16 relative to the negative pole is much less than in the field circuit, i.e. the feedback circuit gives a stepwise increase in voltage at the divider 20. When the supply voltage reaches the relay trip value, the field winding is de-energized and, accordingly, the voltage at the input of the constant current amplifier decreases by a certain amount, regulated by potentiometer 6. The voltage sharply decreases at the output of the stabilizer, which causes the relay controller is turned on and current flows through the field winding, which leads to