SU875346A1 - Relay testing device - Google Patents

Description

(54) DEVICE FOR THE CONTROL OF RELAY PARAMETERS

Claims (2)

The invention relates to the control of electrical apparatus of control systems and automation of power systems. A device for monitoring the parameters of electromagnetic relays and electromagnets, comprising a continuous voltage generator, threshold elements, a control circuit and a display unit, is known. The device allows automatic limiting control of the response and return parameters of the electric DC relay. The device does not have the ability to measure the actual values of the response and return parameters of the relay. The closest in technical essence to the present invention is a device for measuring the sensitivity of a relay. The device contains a controllable input source, a control unit, an analog digital conversion device and storing the input signal in the form of a digital code, a voltage divider. In the process of monitoring, a continuously varying voltage is applied to the relay input, the value of which is converted into a digital code. At the time of the relay return operation, the digital code is fixed, which corresponds to the relay operation (return) parameter 2. A disadvantage of the relay response parameter monitoring device is a relatively high sign. time The control determines the change in time of the input signal from the initial value to a level equal to the response or return parameter of the relay. The rate of change of the signal must be selected taking into account the response time of the relay and the allowable value of the dynamic measurement error. In practical cases, the average time of monitoring the parameters of the operation of relays in known monitoring devices, depending on the permissible measurement error, may be a value that exceeds the time of operation or return of the monitored relay by tens to hundreds of times. Thus, the known device is not sufficiently effective to control the parameters of the relays / having a significant amount of their own response time or return time. The purpose of the invention is to reduce the monitoring time of the relay parameters, which have the trigger or return parameter independent of the magnitude of the input signal. The goal is achieved by the fact that a device containing a linear-varying voltage generator, a control unit and a voltage divider, has two memory blocks, two ion amplifiers and two keys connected by information inputs to the voltage generator output and with the first output of the device, the control inputs — with the first outputs of the control unit, and the outputs — with the inputs of the corresponding memory blocks, the output. The first memory block is connected via the first operational amplifier to the second output of the device, and through the second operational amplifier to the third output of the device, the output of the second memory block is connected to the second input of the second operational amplifier and to the divider input, the output of which is connected to the VTOD5OMY input of the first operational amplifier, the second output of the control unit connected to the input of the generator, and the input - to the input of the device. FIG. 1 shows a block diagram of the proposed device j in FIG. 2 a time diagram. The device comprises a linearly varying voltage generator 1, keys 2 and 3, a second memory block 4, a first memory block 5, a voltage divider, first and second operational amplifiers 7 and 8, a control block 9, a relay 10. The device works as follows. The operation of the device is based on the following analytical relations + C, -utcp. To CP P-thCr Solutions of the system of equations are the expressions and. :./eleven. G1 G K-G .j -At Ы cp-irr In the initial state, the voltage at the output of the generator 1 is zero, the keys 2 and 3 are closed. At time tg, on command from block 9, the generator starts and a linearly increasing voltage appears at its output, UK, -t, which is fed to the input of the tested relay 10. Through the keys 2 and 3, the voltage U also passes inputs of blocks 4 and 5 pa mti. At the time t, the voltage at the generator output is equal to the relay actuation voltage, however, the relay is triggered after the relay holding time equal to. In oment time t2, the signal from the output of the operating relay enters the course of block 9, which at the same time issues a command to open the key 2. The memory unit stores the value of the voltage Up, equal to the value of U at time t. Then, at time tj, the command is given to decrease the voltage and to zero and switch the slope of the change in the generator output voltage for the next measurement cycle. At time t. , when relay 10 returns to its initial state, block 9 initiates a command to start the generator, the output voltage of which varies according to a linearly increasing law and, where it is assumed that K K. At time ty, voltage U reaches the value and . , and at time tj, the relay is triggered and key 3 is opened. In the first memory block 5, the voltage U c is stored, equal to the value of voltage U at time t. The implementation of the calculation of the value Uj.p in accordance with the above analytical expression is carried out using the divider 6, which reduces the value of Y by 17 times, and the first operational amplifier 7, which amplifies the voltage difference UK, k, and to the differentially incoming times. The signal at its inputs, in the output of amplifier 7 is proportional to the monitored value Ujp. The second operational amplifier 8 amplifies the voltage difference between the UK and the UK, at ayyyyyy. I K. - Kj The signal at the output of the amplifier 8 is proportional to the value of uti-p. When controlling the return parameters of a relay having an independent return time value, a linearly decreasing voltage in the form of a difference between the reference and linearly increasing voltages should be applied to the relay input. Otherwise, the operation of the device is carried out similarly to the process of determining the response parameters. The proposed device allows for a higher productivity of the process of monitoring the parameters of the relay compared to the known devices, which creates a certain economic effect at the manufacturer of the relay. Formula for monitoring the parameters of the relay containing a generator