SU1019374A2 - Relay protection checking device - Google Patents

Abstract

DEVICE FOR CONTROL | RELAY PROTECTED by aut. St. Me 317997, characterized in that, with a speed-control circuit, a tfogram block, a 1 work pendant counter, a relay protection state analysis block, the output of which is connected to the input of the program block, the output of which is connected to the inputs of the signal conditioner, work cycle counter, are entered. parallel de registers & The outputs whose outputs are connected to the corresponding inputs of the relay state analysis block are protected.

Description

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The invention relates to test devices of discrete-action dp systems, in particular, to devices for the diagnostic control of burdock protection systems of electric systems. According to the main author. St. hfe 317997 a device dp kontopnaya protepey protection various devices of the electrically controlled system is known. It contains a form of signals connected to a reaction encoder and a result decoder counter, the output of which is connected to the regpep action registers, the outputs of which are connected to the indication side. However, the dp of supplying each control action (test) from such a device to the burdock protection, as well as dp erasing the counter-count results recorded in the form of a digital code, determining the state of protection, on the display unit requires manual action on it from the operational person, performing the check. Therefore, if it is necessary to repeat the monitoring procedure many times, the total time of the test is significantly increased. The device also cannot use dp training new or repaired after repair relay protections, produced by repeated submission to the defense of control actions (tests) corresponding to the emergency operating modes of the protected equipment, in order to reject the weakest ephements in its scheme and during the running-in period a short period of time due to multiple triggered zapdity. The circuit of the invention is to increase the speed of control by automating the procedure for testing relay protection. The circuit is achieved by the fact that the device for counter-guard relay protection contains a signal conditioner, a control result deshrater, registers and a display unit, a response encoder connected to relay connection terminals dp, and controlled by a signal conditioner, the output of which is connected to the result decoder the output of the signal conditioner is connected to the input of the results decoder of the control, a program block, an operation cycle counter, a relay protection state analysis block, the output of which is connected to Odom program block, whose output is connected to the input of signapov, work cycle counter, registers acting in parallel whose outputs are connected to inputs of the analysis unit sootvetstvuyushaya state relay .zaschity. The drawing shows a block diagram of the device. Device DP counter (anti-burr protection 1 contains shaper 2 signals, encoder 3 reactions, decoder 4 control results, parallel action registers 5, display unit 6, software block 7, relay protection analysis unit 8 and tandem 9 operation cycles. Device works as follows. The device is started up by operating personnel on software block 7, which sets the number of device operation cycles. The work cycle provides for feeding to the inputs of the burdock protection of 1 series of control actions. The program block 7 in each work cycle starts the shaper 2 of the signals and acts on the counter 9 work cycles, as well as the control inputs of the registers of the parapet action to clear the previously recorded information. The form of signaling 2 serves to form a series of control actions representing a diagnostic test, the sequence, the duration and duty cycle of which are determined by the type of protection and the type of counter, and their supply to the inputs of the relay ynoy protection 1. Simultaneously poda.chey each control effect on protection signal generator 2 starts the encoder 3 and the reaction takes control vskhzdeystvi code control decoder 4 results. The reaction encoder 3 is intended to record the protection reactions, which are time intervals: from the moment the test actions are submitted until the protection exit is measured, encoded, and the protection reaction code is sent to the 4 decoder test results. Launching on a control signal from a 2 sigap generator, the 3 reaction coder starts the time report, stopping the change of state of the protection outputs. Depending on the time interval, each security response is assigned a specific code. If there are malfunctions that cause the protection to fail when the individual control actions are applied, the encoder of the 3 reactions sends to the decoder 4 results the code of the weak reaction is sewn up / after the expiration of the time longer than its last stage. The decoder of 4 results, kontrop, represents combinations of reaction codes of protection, supplied from the encoder of 3 reactions, and codes of control actions, supplied from the generator of 2 signals, p, the total result codes, kontrop. Depending on the control action code, it selects a specific one. a gistr, and depending on the reaction code, a certain bit of it, where the protection reaction code is written to this test action. The reaction codes are sewn onto all control actions caused by the diagnostic test and form the protection status code defining the results of the monitoring. The parallel action registers 5 serve for storing reaction codes of protection and control of the display unit 6. Reaction codes from the decoder 4 control results are sent to the parallel action registers 5, memorized by them, and each control action corresponds to a specific register, and each reaction is protected by a certain bit. The display unit 6 gives the control results in the form of a decimal number The next state code is sewn up for a given set of control actions, due to the diagnostic test. Each control action of the diagnostic test on the display unit 6 corresponds to a certain digital pump, and to each response code, zakhity - a certain category of it. The removal of the control action restores the relay protection to the initial state. 1, the encoder of 3 reactions and the decoder of the 4. results of the control. The reaction code is sewn onto this check-in and is stored on the registers of 5 different actions and is displayed on a certain digital pamph. After that, a cooldown is applied, a new reaction code is memorized by registers 5 1 garallepuyugo and displayed on another pampa, etc. After giving the burdock protection of all the control actions of the diagnostic test (and the parallel action registers 5 have a number written down code that is protected, which is induced by digital 1x lamps of the indication block 6. Bpock 8 analysis of the burdock protection level 1 compares the code The states are entered after all control actions of the diagnostic test have been submitted with the code of its healthy state. For this purpose, the inputs of the state analysis block 8 are connected to the outputs of those parallel action registers 5, where The correct reaction codes are protected for all control actions. The appearance of signals at all inputs of the protection analysis state block 8 corresponds to its correct state, the absence of a signal at one of the inputs indicates the occurrence of a fault in the protection circuit. analysis of the protection state is given a control action on the program block 7, which mixes the new cycle of the device operation, the program block 7 starts the shaper 2 signals, affects the counter 9 cycles of operation and the control input The registers of 5 parallel actions, erasing the code of the serviceable state of protection written in them. At the same time, the digital lamps of the display unit 6 go out. The operation of the entire device is repeated. In the second case, the normal effect from the output of the analysis unit 8 is not applied to the software unit 7, as a result of which the new cycle of operation of the device does not occur. Since the program block 7 doesn’t affect the control inputs of the parallel action registers 5, then they are recorded with an unprotected state protection code, which is displayed on the display unit 6. This code determines the location and type of malfunction in the protection scheme. In order to continue the operation of the device in this case, it is necessary to influence it by the operating personnel. After a predetermined number of cycles of operation has elapsed, software block 7 stops the operation of the device, regardless of the state code, is sewn up with the last series of control actions. In this case, the protection status code remains recorded on the parallel action registers 5, a is displayed on the display unit 6. In order to repeat the operation of the device, a new impact on it from the operating personnel is required. The number of operation cycles of the device is pre-set on software block 7 and depends on the type of relay aashita, the type of its test, or the time tr &

Claims (1)

DEVICE FOR CONTROL OF RELAY ^ SECURED by ed. St. No. 317997, 'characterized in that, in order to increase the speed of control, a program block, a counter of work cycles, an analysis unit for burdock protection, the output of which is connected to the input of the program block, the output of which is connected to the inputs of the signal conditioner, and the counter , registers of parallel operation, the outputs of which are connected to the corresponding inputs of the relay protection state analysis unit.