SU767667A1 - Device for controlling quality of electrical insulation - Google Patents

Description

(54) DEVICE FOR MONITORING THE QUALITY OF ELECTRIC

INSULATION

:. -. The invention relates to the field of electrical measurements and can be used to control the quality of electrical insulation by the values of leakage current, absorption coefficient and regenerative voltage. A device for controlling the quality of electrical insulation is known, which contains a stabilized test voltage source connected to the output terminals of the device through a reference resistor, in parallel with which the p-meter is connected. The disadvantage of such a device is low accuracy in measuring the absorption characteristics, since These values are not fixed at the given time points, and their change in time is quite large, especially when measured in terms of time. The closest technical solution to the invention is. A transducer of small changes in resistance, containing a source of direct voltage, a reference resistor, a discharge resistor, a charging and discharge keys, a switch, a trigger control unit, an indicator 121. A shortcoming of a known technical solution is possibilities of carrying out integrated quality control of insulation. The purpose of the invention is to improve the accuracy and quality of control. The goal is achieved by the fact that a device for controlling the quality of electrical insulation, containing a source of stabilized voltage, a reference resistor, a discharge resistor, a control unit, a trigger, an indicator, a discharge and charge switches, and a switch, wherein the Start control output is connected with the setting of the input of the first RS-flip-flop, a memory register, a pulse generator, a limiter are entered: the input pulse width, the delay element, the second RS-trigger, a digital voltmeter, two elements OR, an imp counter pulses, the first output of the stabilized voltage source is connected via a charging switch to the first output terminal of the device, and the second output through a reference resistor with a second pcJM output terminal of the device, parallel to the output terminals of the device, a chain is connected that is connected in series with the discharge key and the discharge resistor, one Clem measuring | Digital input of the digital voltmeter is connected to the second output terminal of the device, and the second terminal is connected to the common point of the switch, one of the fixed contacts It is costly connected to the common point of the voltage source and reference resistor, the other to the first output terminal of the device. The control input of the digital voltmeter is connected to the output of the pulse generator, the output of the voltmeter is connected to the information input of the memory register, to the output of which the indicator is connected. In addition, the output of the first RS-flip-flop is connected to the input of the pulse generator, the output of which is connected to the input of the delay element, the output of the delay element via the second RS-flip-flop and the input pulse duration limiter are connected to the clock input of the memory register, the output of the delay element is also connected to the counting the input of the pulse counter, the output of which is connected with the input of the Measurement End of the control unit and one of the inputs of the first OR element, the second input of which is connected to the output of the Control Unit, the third - with the output control unit channel zero, 4 output of the first: element OR is connected with the restoring input of the first RS flip-flop, one of the inputs of the second element OR is connected to the output. connected to the restoring inputs of the pulse counter, the second RS flip-flop and the memory register.

The diagram shows a device for controlling the quality of electrical insulation.

It includes a stabilized voltage source 1, a reference resistor 2, a discharge resistor 3, a control object 4, a charging switch 5, a discharge switch 6, a switch 7, a digital voltmeter 8, a memory register 9, an indicator 10, a control block 11, Outputs Start 12, Setting zero 13 and Stop 14 of the control unit, first R-Stigger 15, pulse generator 16, delay element 17, second RS flip-flop 18, limiter 19 for input pulse duration, pulse counter 20, first element OR 21, second element OR 22, the first 23 and the second. 24 output device terminals, input 25 End of measurement of the control unit.

The device works as follows.

When applying to the voltage supply device on the output 13 Setting the zero of the control unit 11, a setting pulse is generated,

returns to its initial state through 31 elements OR 22 RS flip-flop 18, pulse counter 20 and memory register 9, and through element OR 21 RS flip-flop 15. Then in case of measuring, for example, conduction current, control unit 11 opens key 6, closes switch 5 and the pre-discharged object are energized from the power source. Through the switch 7, the control unit 11 connects the measuring input of the voltmeter 8 to the reference resistor 2 and at the same time generates a start pulse at the output of Start 12. The RS flip-flop 15 is set to the working state and starts the pulse generator 16, which starts generating clock pulses the frequency of following (for example, every 15 s).

The absorption coefficient of the insulation is determined by the values of the conduction current 15 seconds and 60 seconds after the application of the test voltage

5 object control. The first pulse from the pulse generator 1b is fed to a digital voltmeter 8, which captures the value of the conduction current, the same pulse with a time delay equal to

The time of setting the value of the recorded current. Conductivity and output of a digital voltmeter in a certain digital code transforms R-S-Trp Prog 18, the output signal of which is converted by limiter 19 of the input signal duration into a single pulse, to start the memory register 9. Memory register 9 reads and records on indicator 10 the first value of the conduction current.

0 Subsequent pulses from the output of the generator 16 pulses do not change the state of the 9 p 1 mt register, since the pulses from the output of the delay element 17 do not pass through the R-S flip-flop 18,

5 set to a working condition However, these pulses are sent to the control input of qi (1f 6vbg of voltmeter 8, each pulse triggers a digital voltmeter and ori fixes the current of the conductor and. In addition, the pulses from the generator 16 are received the cut element 17 is clamped to the input of the counter 20 pulses and after a predetermined number of pulses, for example, four, which corresponds to a time equal to 60 s from the moment the test voltage is applied to the test object, the output of the counter 20 through element OR 21

puts the IS R-S trigger into an idle state, and the pulse generator 16 stops generating clock pulses. The same signal affects the control unit 20, which expands,

Claims (2)

switches key 5 and closes key 6. At the end of the measurement cycle, Hbw shows the value of the conduction current after 15 s and the value of the conduction current (after 60 s) on the voltmeter 8, which determine the resistance from the control and the absorption coefficient of the monitored object. Moreover, the accuracy of the control is increased by fixing the measured parameter. When measuring the restoring voltage, the control unit 11 opens the key 6 and locks the key 5 for the time required to fully charge the object of control, then opens the key 5, connects the measuring input of the volt meter 8 through the switch 7 to the output terminal 23 of the device, briefly blinks the key 6 and at the same time produces a trigger pulse at output 12 Start. Further, the operation of all units of the device is similar to their operation in measuring the conduction current, but after the measurement is completed, the indicator 10 and the digital voltmeter-8 generate the values of the restoring voltage at specified time intervals, for example, 15 and 60 To measure the self-discharge voltage of the test object at first, it is also connected via key 5 to the stabilized voltage source 1, and the machine is disconnected from it, n the key 6 is not closed and the object 4 begins to self-discharge. The voltmeter 8 is connected via a switch 7 to the terminal 23 and records two values of the self-discharge voltage, for example, 15 and 60 seconds after switching off. After that, the key 6 closes and discharges the object 4 controls. If it is necessary to stop the device, the control unit 11 generates an output 14 stop pulse, which through the OR 21 element puts the RS flip-flop 15 into an inoperative state, opens the key 5 and closes the key 6. Using this device allows improving the measurement accuracy, conducting a comprehensive control isol automation and quality control process of electrical insulation. The invention The device for monitoring the quality of electrical insulation, containing a source of stabilized voltage, a reference resistor, a discharge resistor, a control unit, a trigger, an indicator, a discharge and charging switches, a switch, the control unit's Start output connected to the first RS setting input Trigger, characterized in that, in order to increase the accuracy of the control quality, a memory register, a pulse generator, an input pulse duration limiter, a delay element, a second RS-trigger are entered into it A digital voltmeter, two OR elements, a pulse counter, the first output of the stabilized voltage source is connected via a charging switch to the first output terminal of the device, and the second output is connected through the external resistor of the device, parallel to the output terminals of the device consisting of a series-connected discharge switch and a discharge resistor, one terminal of the measurement input of the digital-voltmeter is connected to the output terminal of the device, and the second The terminal is connected to the common point of the switch, one of the fixed contacts of which is connected to the common point of the voltage source and reference resistor, the other with the first output terminal of the device, the control input of the digital voltmeter is connected to the output of the pulse generator, the output of the voltmeter is connected to the information input of the register, to the output of which the indicator is connected, in addition, the output of the first RS-flip-flop is connected to the input of the pulse generator, the output of which is connected to the input of the delay element, the output of the input element through the second RS trigger and the input pulse duration limiter is connected to the clock input of the memory register, the output of the delay element is also connected to the counting input of the pulse counter, the output of which is connected to the input to the end of measurement of the control unit and to one of the inputs of the first element OR , the second input of which is connected to the output of the Stop of the control unit, the third output of the Zero sets the control unit, and the output of the first element. OR is connected to the recovery input of the first RS-trigger, one of the inputs of the second element OR is connected to the output. The control unit starts, the other input is connected to the output. The control unit sets zero, the output of the second element OR is connected to the recovery inputs of the school counter, the second RS-trigger. and the memory registrar. Sources of information are considered in the examination 1.Ilukovich A.M. Measurement of large resistances, m., Energie, 1971,. 61-65. 2. Authors certificate of the USSR 601632, cl. GOIR 27/00, 19.04..76.