SU1030879A1 - Device to measuring protection member with redundancy - Google Patents

Abstract

A DEVICE FOR THE MEASURING ORGANIZATION OF W / SHEETS WITH RESERVATION, containing the main and backup bodies with the first and second closing contacts, the first closing contacts of the main and backup measuring bodies are connected in series with each other and form the first contact group, the second closing contacts of the main and backup backup measuring units are connected in parallel and form a second contact group, and one side of the first and second contact groups is combined and connected to the source of operational t In order to improve the reliability of the redundancy provided by simultaneous redundancy of failures and false triggering of measuring bodies, an additional unit for detecting false triggering with a disconnecting contact, one pole of which is connected to the other side of the second contact group, the second pole, is additionally introduced into it. - to the other side of the first contact group, which is the output circuit of the device, and the measuring circuits of the false response detection unit are connected to the executive circuits ovnogo and reserve measuring elements.

Description

This invention relates to electrical engineering, in particular, to relay protection for automation of power systems. A known scheme is a complete backup of the measuring body of the relay protection using three additional reserve bodies connected to that one; The same measured value, all reserve measuring units having the same setting as the main one, and their contacts are connected in series-parallel form. Also known is the scheme of complete reserving by majorization using two additional (backup) organs, the contacts of which are connected in pairs in series into three groups that are interconnected in parallel. A disadvantage of the known devices is the large number of backup measuring organs, which complicates and increases the cost of the device as a whole. . The closest technical solution to the proposed one is a partial backup scheme with one main and one additional (backup) measuring bodies, the contacts of which are connected sequentially, if it is more important to reserve false alarms, or in parallel, if the backup of one of the measuring bodies is more important C2 i. A disadvantage of the known device is only partial redundancy, since it reserves with only one of the types of damages of the measuring organ — failure or false triggering. The purpose of the invention is to increase the reliability of the backup by providing simultaneous backup of failures and false triggering of the main and backup measuring units. The goal is achieved by the fact that, in a device for a measuring body of protection with a redundancy, containing ground and reserve measuring bodies with first and second closing contacts each, the first closing contacts of the main and backup measuring bodies are connected in series with one another and form the first contact group, the second the closing contacts of the main and reserve 79 measuring bodies are connected in parallel and form the second contact group, and one side of the first and second contact bars The UCP is combined and connected to the operating current source, an additional unit for detecting a false positive with an open contact is added, one pole of which is connected to the other side of the second contact group, the second pole to the Other side of the first contact group that is the output circuit of the device, and measuring circuits The false response detection unit is connected to the actuator circuits of the main and component measurement bodies. FIG. 1 shows the on-line diagram of the device; Fig. 2 shows an example of the implementation of the proposed full reservation scheme for a measuring body with one summed value, performed on the impulse principle; in fig. 3 stress graphs. The device contains the main 1 and reserve 2 measuring bodies, as well as the block 3 of detecting false triggering of the main or backup measuring bodies. Both measuring units are connected to the same measured value, have the same settings and two make contacts each. Block 3 has a break contact. The contacts of the main 1 and backup 2 measuring bodies are connected in two groups - the first, where the contacts are connected in series, and the second, where they are connected in parallel. The opening contact of the unit for detecting false positives is connected in series with the second group of contacts, and both received groups of contacts are connected in parallel. The device works as follows. In the event of failure of one of the measuring bodies, block 3 does not work, its break contact remains closed and the device operates through a circuit of parallel-connected contacts, due to the action of another, healthy, measuring body. In case of false operation of any of the measuring bodies, block 3 of the detection of false positives is triggered and opens its contact, the circuit of parallel-connected contacts prevents the device from operating falsely, and its correct action is preserved due to the action of the measuring body included.contacts. Complete, the circuit contains two identical measuring units connected to the individual secondary windings of the transreactor 4. Each measuring unit contains threshold elements 5 and 6, which react to positive and negative half-waves, respectively, as well as delayed trigger elements 7, 8 and triggers 9 and 10 with one steady state. The outputs of the flip-flops 9 and 10 through the diodes 11 12 and the amplifier 13 on the transistor include an output relay k with a separating diode 15 and a smoothing circuit resistor, 16t capacitor 17. i Block 3 for detecting a false positive of the main or backup measuring unit two winding electromagnetic relay 1 with counter-connected windings, jumbled diodes 19. The device operates as follows. When the amplitude of the input sinusoidal voltage exceeds the reference voltage of the threshold elements 2 and 3, the signals of the standard amplitude with a duration equal to the time exceeding the instantaneous value of the input sinusoidal voltage of the threshold voltage appear at their output. When the duration of these output pulses exceeds the setpoint of delay elements 7 and 8, pulses appear at their output, 3any j triggers 9 and 10. The leading edges of the input and output trigger pulses coincide, and the duration of the output pulses does not depend on the duration of the input pulses and In this case, it is taken equal to 3-3.2 ms. Thus, under the conditions of operation at the output of the flip-flops 9 and 10, there are output pulses with a duration of 3-3.2 ms with a follow-up period of 20 ms, which through diodes 11 and 12 open the transistor 13. In addition, for the time The existence of these pulses, the capacitor 17 has time to charge through the limiting resistors 16, maintaining the current in the winding of the output relay 1 in the pauses between pulses. Both measuring units have the same setpoint. And if both of them are in good condition and are in the triggering state, coincident pulses flow in the SLT windings of the relay 18 and taking into account the counter-on (Zmmotokok the resulting magnetizing force (HC) is zero and the relay 18 is not works, if one measuring body fails and the second magnetizing force (NS) is triggered, the relay 18 corresponds to the average value of the pulse current with a duration of 3-3.2 ms. From this value, the relay 18 is tuned to the response level. any of the measuring bodies, the current in the circuit of one output relay becomes continuous and, if the other measuring body is in the triggering state at that time, the average magnetising force of the relay 18 exceeds the response NA. If a false matching of the measuring body has occurred. the other is in a state of failure, the NS relay 18 also exceeds the NA of its operation. Thus, if one of the measuring bodies fails, the relay 18 does not work, the circuit of parallel-connected contacts is injected The operation and correct operation of the device is ensured by the measuring organ, which remains operative. If one of the measuring bodies triggers falsely, the relay 18 reliably works, removes the circuit of the parallel-connected contacts from operation, and the correct operation is ensured through the circuit of the series-connected contacts at the expense of the organ left intact. Thanks to this, redundancy reliability is enhanced.

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Claims (1)

(57 DEVICE FOR MEASURING PROTECTION AUTHORITY WITH RESERVATION, containing * the main and reserve organs with the first and second making contacts each, the first making contacts of the main and backup measuring bodies connected in series with one another and form the first contact group, the second making contacts of the main and backup measuring bodies are connected in parallel and form a second contact group, and one side of the first and second contact groups is combined and connected to an operating current source, characterized in that, in order to increase the reliability of redundancy provided by simultaneously redundant failures and false alarms of the measuring organs, it additionally introduces a false alarm detection unit _β with an opening contact, one pole of which is connected to the other side of the second contact group, the second pole - to the other side of the first contact group, which is the output circuit of the device, and the measuring circuit of the false detection unit is connected to the executive circuits of the main about and reserve measuring bodies.