SU883874A1 - Electric magnet operation checking device - Google Patents

Description

(54) DEVICE. FOR MONITORING THE OPERATION OF THE ELECTROMAGNET

Claims (2)

The invention relates to instrumentation engineering and is intended for monitoring the parameters of direct current electromagnets that do not have their own contact groups in terms of the production and operation of electromagnets. A device for measuring the pickup current of an electromagnet is known, comprising a pulse stripper, a pulse shaper, a trigger, a code-voltage converter, a reversible counter, and a controlled current source 1. However, the known device provides control of the operation current of electromagnets that do not have their own contact groups, but has a complicated circuit. In addition, in the known device, the operation current of the electromagnet is determined only for the case of a linear increase in the current when the current to the electromagnet winding is set from a special controllable current source included in the known device. Closest to the proposed technical solution is a device for controlling the operation of an electromagnet, comprising a power supply unit, a pulse removal unit, a differentiating amplifier, a limiter, a military counter, triggers, and an indicator. The known device provides control of the operation of the electromagnet during its operation, where power is supplied to the electromagnet winding in jumps 2. However, the known device, despite the complicated circuit, does not control the operation current of the electromagnet, while in the presence of a delay in moving the moving system of the electromagnet Any defect leads to an increase in the current, which indicates the fuzziness of the electromagnet and is a sign of its lowered reliability. The purpose of the invention is to increase the accuracy of the CONTROL. The goal is achieved by the fact that a device for controlling the operation of an electromagnet, containing a power supply unit, to the output of which, through the switch, is connected an electromagnet winding and a control resistor connected in series, and a differentiating amplifier, whose input is connected to the control resistor, and Wellcome to the input the amplifier limiter, as well as the trigger, entered an analog key and amplitude detector, the input of which is connected via an analog key to the | Control .. resistor, with one trigger input connected the output of the limiter suppressor, the second input of the transducer is to the device installation bus in its initial state, which is also connected to the control input of the key of the amplitude detector, and the trigger output is connected to the control input of the analog switch. The drawing shows a circuit diagram of the device. The device contains a power supply unit 1, the output of which through the switch 2 is connected to the winding 3 of the electromagnet and the control resistor 4 which is supplied to the input of the differentiating amplifier 5. The output of the amplifier 5 is connected to one trigger input 7, the other input of which connected to the bus 3 to set the initial state. The amplitude detector 9, which has a single transmission coefficient, is formed by a diode 10, a capacitor 11, a voltage regulator 12 with a large input resistance, a comparator 13 and a key 14. The detector input 9 is connected via an analog switch 15 to a control resistor. The device works as follows. Before starting the test, a short pulse is applied to the tire 8 to set the device to its initial state. Next, with the falling edge of this pulse, trigger 7 is set to one, and the signal from the trigger output closes the analog switch 15, connecting the input of detector 9 to the control resistor 4. In addition to the time of the initial state pulse, switch 14 closes, discharging the capacitor 11 To start testing, turn on switch 2 and the current in the winding 3 of the electromagnet increases according to the law. The voltage drop across the resistor 4, proportional to the current, is differentiated in time by the differentiating amplifier 5. The amplifier-limiter 6 selects and amplifies a negative polarity pulse, with the falling edge of which trigger 7 is set to the zero state, opening, thereby, the key 15. The capacitor 11 is charged to the amplitude value of the voltage corresponding to the operation current of the electromagnet. With a further increase in current, after the operation of the electromagnet, the voltage on the capacitor 11 does not change, since the analog switch 15 opens, disconnecting the input of the detector 9. The constant voltage at the output of the repeater 12 is proportional to the operation current of the electromagnet. By measuring the value of the tripping current during the production of electromagnets, the voltage at the output of the repeater 12 is measured by a voltmeter, the scale of which in this case is advisable to calibrate in units of current. During the operation of electromagnets, as a rule, only the fact that the operation current is in a given tolerance is monitored, for which a voltage tolerance control device is connected to the output of the amplitude detector. The invention is a device for controlling the operation of an electromagnet, containing a power supply unit, to the output of which a winding of an electromagnet and a control resistor connected in series and a differentiating amplifier, the input of which is connected to the control resistor, and the output to the input of the amplifier-limiter and also a trigger, .o tl ich and q e so that, in order to increase the control accuracy, an analog key and an amplitude detector are entered into it, the input of which is connected to the control key via an analog key a resistor, with one trigger input connected to the output of the limiter amplifier, a second trigger input to the device setup bus in the initial state, which is also connected to the control input of the amplitude detector, and the trigger output is connected to the control input of the back-switch key. . Sources of information taken into account in the examination 1. The author's certificate of the USSR 605200, cl. G 05 B 23/02, 1974. 2. USSR author's certificate number 546856, ll. G 05 B 23/02, 1975.