RU2256993C2 - Diagnostics and protection controller - Google Patents

Abstract

FIELD: electrical engineering; relay protection of electrical installations.

SUBSTANCE: novelty is that proposed controller designed for relay protection of electrical installations in emergency situations caused by open circuit in supply mains, continuous overloads and short circuits, turn-to-turn faults, phase distortions, no-load current increase of motor or mechanism as a whole above desired value, voltage drop or overvoltage, worn-out bearings, and the like is provided with newly introduced nonvolatile memory unit that enables recording and next read-out of emergency parameters in electrical installation, acquisition of accident statistics, and analysis of their cause. In addition, it is provided with solid-state watch enabling measurement of correct time and date of accident onset, as well as electrical isolation and pre-scaling unit designed to maintain linear characteristics throughout entire measurement range and analog-to-digital converter intended for simultaneous processing of minimum six input signals.

EFFECT: enhanced operating current and voltage measurement accuracy and speed of response, enlarged functional capabilities.

4 cl, 1 dwg

Description

The invention relates to the field of electrical engineering, in particular to relay protection of electrical installations.

The device is designed to protect electrical installations with a voltage of about 0.4. kV from emergency conditions caused by phase failure of the supply network; long overload; short circuit in the electrical installation; interturn circuit; phase imbalance; current Kh.Kh .; excess current X.X. an engine and / or mechanism as a whole of a predetermined value; voltage drop or overvoltage; bearing wear, etc.

A device for relay protection of an induction motor containing current sensors, a switch, a band-pass filter, a current to voltage conversion unit, a microcontroller, an electric motor control unit, an indication unit, a voltage transformer, a sinusoidal signal to a rectangular signal conversion unit, a counter and a switch (RF Patent No. 2179360 )

The disadvantage of this technical solution is the use of a switch for periodically switching the inputs of the microcontroller to measure the controlled parameters from the galvanic isolation unit, which leads to the accumulation of errors in determining the controlled values and the lack of information in all three phase voltages of the electrical installation, and this significantly reduces the efficiency of detection and diagnosis of emergency situations .

The closest technical solution for the totality of features and the achieved result is a microprocessor-based protection system containing blocks of intermediate transformers (blocks of galvanic isolation and preliminary scaling of input signals in the form of current and voltage), a block of frequency filters, an analog-to-digital converter, and a microprocessor system (microprocessor control system relay and alarm in accordance with protection algorithms), moreover, groups of outputs of galvanic isolation blocks and pre The input signal scaling in the form of current and voltage is connected to the groups of inputs of the frequency filter blocks, the group of outputs of which is connected to the group of inputs of an analog-to-digital converter, the group of inputs and outputs of which is connected to the first group of inputs and outputs of the microprocessor control system for output relays and signaling in accordance with a protection algorithm, the second group of inputs and outputs of which is a group of inputs and outputs of a signal device, the third group of inputs and outputs of a microprocessor system s control of output relays and alarm in accordance with protection algorithms is a group of inputs and outputs of a personal computer (N.N. Chernobrovov, V.A.Semenov. “Relay protection of energy systems”, 1998, p. 776, fig. 22.1).

The disadvantage of this technical solution is the lack of non-volatile memory and non-volatile real-time clocks, which does not allow you to accurately determine the time of the accident and to collect accident statistics for offline use without the use of a personal computer.

The technical problem to which the invention is directed is to increase the accuracy of measuring the operating values of current and voltage, increase the speed of protection, expand the functionality.

To solve this problem in a well-known microprocessor-based protection system containing an electronic unit, including galvanic isolation and preliminary scaling of input signals in the form of current and voltage, an analog-to-digital converter, a microprocessor, a clock generator, a frequency divider, an interface, an executive relay, a “ Release ”, indicator, electronic unit is additionally equipped with a non-volatile memory unit and non-volatile clock, while the outputs of the galvanic isolation unit and preliminary scaling are connected to the inputs of the analog-to-digital converter, configured to simultaneously process at least six input signals, the output of the analog-to-digital converter is connected to the programmable input of the microprocessor, which performs the necessary calculations to compare with the specified limit values for current, voltage temperature and decides on the normal or emergency situation of the monitored installation, and to the inputs / outputs of which the power unit is connected Independent memory that provides storage and recording of operating settings, alarm statistics, input / output of non-volatile hours, input / output of an interface, output of a clock generator, the second output of which is connected to an analog-to-digital converter via a frequency divider, in addition, the microprocessor output is connected to inputs an executive relay and indicator, and one of its inputs is connected to the “Release” button, while the control and programming panel is connected via an interface to the microprocessor of the electronic unit, and contains an icroprocessor through which data on the modes and limit values of monitored values are entered and information on current values of current and voltage, a clock generator, an indicator and a keypad are displayed, and the outputs of the keypad and a clock generator are connected to the inputs of the microprocessor, the output of which is connected to the input indicator.

The galvanic isolation and preliminary scaling unit is configured to maintain a linear characteristic over the entire range of measured values.

The indicator of the control panel can be performed on liquid crystals.

The galvanic isolation and preliminary scaling unit is made without the use of magnetically containing materials.

The controller is equipped with a power supply.

Supplying the device with a non-volatile memory unit allows you to record and then read the emergency parameters of the electrical installation, collect accident statistics and analyze the causes that caused them.

Providing the device with a non-volatile clock allows you to accurately measure the time and date of the accident.

Providing the device with an independent control and programming panel allows expanding its operational capabilities, as allows you to flexibly reconfigure it to work with different settings.

The implementation of the galvanic isolation unit and preliminary scaling without the use of magnetically containing materials allows you to save a linear characteristic in the entire range of measured values.

The analysis of the prior art by the applicant made it possible to establish that there are no analogues that are characterized by sets of features identical to all the features of the claimed diagnostic and protection controller. Therefore, the claimed invention meets the patentability criterion of “novelty”.

The search results for known solutions in this and related fields of technology in order to identify features that match the distinctive features of the prototype features showed that they do not follow explicitly from the prior art. Not also revealed the fame of the proposed significant features on the achievement of the specified technical result. Therefore, the present invention meets the condition of patentability “inventive step”. The proposed device is shown in the drawing. The device consists of an electronic unit 1, a control panel 2. The electronic unit 1 contains an analog-to-digital converter 3, the inputs of which receive signals from the galvanic isolation and preliminary scaling unit, containing current sensors 4 and resistive dividers 5, the output of the analog-to-digital converter 3 is connected with one of the programmable inputs of microprocessor 6, the inputs / outputs of which are connected to the inputs / outputs of the non-volatile memory unit 7, interface 8, non-volatile clock 9, one of its inputs is connected to the output of the clock frequency generator 10, the second output of which is connected through the frequency divider 11 to the analog-to-digital converter 3, the other to the output of the power supply 12 (this connection is not shown in the drawing), the third to the output of the “Release” button 13, with one from the outputs of the microprocessor 6 is connected to the input of the Executive relay 14, the other to the input of the indicator 15 (red). The control and programming panel 2 contains a microprocessor 16, the inputs of which are connected to the buttons of the keypad 17, the output of the clock generator 18, and the output of the microprocessor 16 is connected to the input of the indicator 19. The input / output of the control panel 2 is connected via an interface (communication not shown) to the input / microprocessor output of the electronic unit 1.

The proposed device operates as follows. The functionality of the electronic unit and the control panel is determined by the program loaded into them.

The current and voltage of the power circuits are measured using current transformers 4 and resistive voltage dividers 5. Voltages proportional to the measured values from the outputs of current transformers 4 and resistive voltage dividers 5 are fed to the inputs of an analog-to-digital converter 3, which simultaneously converts all input signals in a sixteen-digit digital code, taking into account the sign. All channels are sampled at a frequency of 1000 Hz. Information about the magnitude of the current and voltage is supplied to the microprocessor 6, which performs the necessary calculations for comparison with the specified limit values for current, voltage, temperature. At this time, from the non-volatile clock 9, the microprocessor 6 receives information about the current time: min, sec, hour, month, year. Through the microprocessor 16 of the control panel 2, data on the modes and limit values of the monitored values are entered into the microprocessor 6. Through the processor 16 of the control panel 2, information about the current values of current and voltage from the microprocessor 6, the current settings from the non-volatile memory, the status of the diagnosed equipment, statistics on the operation of the controlled equipment for the previous period of time are displayed.

Interface 8 provides networking and data transfer to a remote computer. A clock generator 10 provides a microprocessor 6 with a clock frequency and, through a frequency divider 11, an analog-to-digital converter 3. A power supply unit 12 provides power to the electronic unit 1 and the control panel 2, the functionality of which is determined by the program loaded into them. The electronic unit 1 processes the signals supplied to the inputs of the analog-to-digital converter 3, in accordance with the program recorded in the memory of the microprocessor 6. Depending on the levels and combinations of signals and in accordance with the set limit values entered by the user using the control panel 2, the microprocessor 6 decides on the normal or emergency situation of the controlled electrical installation. The installation continues if the microprocessor 6 gives a signal about normal operation. If the microprocessor 6 gives a shutdown signal, while the red indicator 15 lights up on the front panel of the electronic unit 1, the executive relay 14 turns off the electrical installation. In the non-volatile memory unit 7, the microprocessor 6 records the time of the accident, the current and voltage values that preceded the moment of shutdown, while increasing by one the counter of the number of emergency shutdowns for this diagnosed reason, and in case of operation of the device as part of the network, the cause of the accident is issued to the network. The electrical installation can be switched back on after eliminating the causes that caused the shutdown and after pressing button 13 “Release”. At the request of the user, for some monitored parameters, the alarm mode can be set from the control panel without opening the contacts of the executive relay 14. In this case, when the controlled parameter reaches the set value, the red indicator 15 will blink.

Thus, the above information shows that when implementing the invention, the following conditions are met:

- means embodying the invention in its implementation, are intended for use in industry, namely in the manufacture of monitoring and diagnostic devices;

- for the claimed invention in the form as described in the independent claim, the possibility of its implementation using the described means is confirmed;

- a tool embodying the invention, when implemented, is capable of providing the specified technical result.

Therefore, the claimed invention meets the condition of patentability “industrial applicability”.

Claims (4)

1. Controller for diagnostics and protection of electrical installations, containing an electronic unit, including galvanic isolation and preliminary scaling of input signals in the form of current and voltage, an analog-to-digital converter, microprocessor, clock generator, frequency divider, interface, executive relay, “Release” button , indicator, characterized in that the electronic unit is additionally equipped with a non-volatile memory unit and non-volatile clock, while the outputs of the galvanic isolation unit, etc. double scaling are connected to the inputs of the analog-to-digital converter, configured to simultaneously process at least six input signals, the output of the analog-to-digital converter is connected to the programmable input of the microprocessor, which performs the necessary calculations to compare with the specified limit values for current, voltage, temperature and decides on the normal or emergency situation of the monitored installation and to the inputs / outputs of which the non-volatile unit is connected SIM card memory, which provides storage and recording of operating settings, alarm statistics, input / output of a non-volatile clock, input / output of an interface, output of a clock generator, the second output of which is connected to an analog-to-digital converter via a frequency divider, in addition, the microprocessor output is connected to an input an executive relay and indicator, and one of its inputs is connected to the “Release” button, while the control and programming panel, connected via an interface to the microprocessor of the electronic unit, contains an indi ator, the microprocessor, through which data are input modes and limit values of controlled variables and output information on the current values of current and voltage, clock frequency generator and the keypad, the latter outputs are connected to inputs of the microprocessor, the output of which is connected to input indicator. 2. The device according to claim 1, characterized in that the galvanic isolation and preliminary scaling unit is configured to maintain linear characteristics in the entire range of measured values. 3. The device according to claim 1, characterized in that the indicator of the control panel can be performed on liquid crystals. 4. The device according to claim 1, characterized in that it is equipped with a power supply.