RU76150U1 - ELECTRIC CONTACT FAULT DIAGNOSTIC SYSTEM AND FIRE PREDICTION - Google Patents

Abstract

The utility model relates to the field of electrical fire safety and the electric power industry, and in particular to devices for diagnosing electrical contact failures and preventing fires. A system for diagnosing electrical contact failures and predicting fires, comprising an electrical power line, electrical installations connected to it, and a control device including a measurement unit, a frequency spectrum generating unit, the output of which is connected to the storage unit through series-connected amplification and rectification units, the output of the storage unit being connected to the input of the comparison unit, the first output of which is connected with the executive body disconnect email. network through the command generation unit, and the input of the accumulation unit through the delay unit is connected to the second output of the comparison unit, data transmission and reception units for the electric network, a digital-to-analog converter, analog-to-digital converters, the inputs of which are connected to current transformers connected to power circuits of each electrical installation, and the outputs are with data transmission units over the electric network, the output of the digital-to-analog converter is connected to the input of the multiplexer, and the input is with the output of the reception unit yes data on the electric network, the input of which is connected to the electric power line. The system allows to increase the reliability in the event of simultaneous electrical failures in two or more electrical installations, as well as to quickly determine such failures in a particular electrical installation.

Description

The utility model relates to the field of electrical fire safety and the electric power industry, and in particular to devices for diagnosing electrical contact failures and preventing fires.

Known devices for diagnosing electrical faults and predicting fires (RF Patent 64410, class G08B 17/06, 25/10) containing an electric power line, electrical installations connected to it and a control device including a measurement unit, a frequency spectrum generating unit, the output of which connected to the accumulation unit through series-connected amplification and rectification units, and the output of the accumulation unit is connected to the input of the comparison unit, the first output of which is connected to the actuator disconnecting email. network through the unit forming the team, and the input of the accumulation unit through the delay unit is connected to the second output of the comparison unit.

Significant disadvantages of such devices are low noise immunity and reliability of information transmission over the air, as well as the complexity of the hardware implementation.

The technical result of the proposed solution is to increase the reliability of the transmission of information on the diagnosis and forecast of fires.

This technical result is achieved in that a system for diagnosing electrical contact failures and forecasting fires, comprising an electrical power line, electrical installations and monitoring devices connected thereto, including a signal amplifier, a bandpass filter, the output of which is connected to the storage unit through series-connected amplification and rectification units, moreover the output of the accumulation unit is connected to the input of the comparison unit, the first output of which is connected to the executive body disconnecting the electric network through b lok

the formation of the team, and the input of the accumulation unit through the delay unit is connected to the second output of the comparison unit, while additionally input and receive data transmission units via the electric network, a digital-to-analog converter, analog-to-digital converters, the inputs of which are connected to current transformers connected to power circuits of each electrical installation, and the outputs are with data transmission units over the electric network, the output of the digital-to-analog converter is connected to the input of the multiplexer, and the input is connected to the output of the data reception unit via electric network, the input of which is connected to the electric power line.

Figure 1 presents a structural diagram of a system for diagnosing electrical contact failures and forecasting fires.

It contains:

electric power line 1; block 2 measuring the total current; electrical installations EU ₁ , EU _i , EU _j 3; analog-to-digital converters 4; blocks 5 receiving and transmitting data over the electric network; control unit 6; multiplexer 7; digital-to-analog converter 8; block for the formation of 9 high-frequency (HF) spectrum; amplification unit 10; rectification unit 11; block 12 accumulation; block 13 delay; block 14 comparison; block 15 forming a team; an executive organ for disconnecting an electric network 16, current transformers 17 and a control unit 18.

The system operates as follows. When the electrical power line 1 is in good condition, an electric current flows in the power circuit of each electrical installation of the electric device _i , the value of which is equal to the load current of the corresponding electric installation of the electric device _i . In this case, the EMF induced in the windings of the current transformers 17 are fed to the input of the corresponding analog-to-digital converters 4, after which they are sent to the data transmission unit 5 via the electric network, where they are encoded and transmitted to the communication channel via the electric network. According to the commands of the control unit 6,

the multiplexer 7 alternately connects the signals of the data reception unit 5 via an electric network through a digital-to-analog converter 8 to the input of the RF spectrum signal generation unit 9. Thus, a signal whose frequency is equal to the frequency of the supply network is almost completely filtered out and at the input of the amplification unit 10 (regardless of the magnitude of the load current in the absence of electrical failures), the level of the electric signal will be close to zero. Accordingly, at the output of the comparison unit 14, there will be no control signal for the command generation unit 15.

In the event of a malfunction associated with the formation of electric sparking and a corresponding increase in the transition resistance in the spark zone, a high-frequency component of the electric current appears in the power line 1, superimposed on the load current of the corresponding electrical installation. On the secondary windings of the current transformer 17 and the measurement unit 2, the emf of the high-frequency spectrum is fed to the input of the amplification unit 10. The amplified signal is rectified in block 11 and then fed to accumulation block 12, in block 12, the accumulation of pulses is carried out by commands from the delay block 13, which is switched on by the first incoming pulse that reaches the value of the first level of operation of the comparator of the comparison block 14, and forms the accumulation duration (integration) of subsequent pulses. The level of the accumulated signal is determined by the intensity and magnitude of the pulses entering the block 11.

Block 14 comparison may include several comparators, which using block 15 generate signals warning of the occurrence of an appropriate degree of fire hazard situation. The corresponding signal is supplied to the circuit of the executive body 16 to turn on the corresponding, for example, light and (or) sound signal,

signaling the number of a specific EU. The comparator of the upper level generates a command to disconnect from the electrical network of the electrical installation of the EU and issues it to the executive body 15.

The system allows to increase the reliability in the event of simultaneous electrical failures in two or more electrical installations, as well as to quickly determine such failures in a particular electrical installation.

Claims (1)

A system for diagnosing electrical contact failures and predicting fires, comprising an electrical power line, electrical installations connected to it, and a control device including a measurement unit, a frequency spectrum generating unit, the output of which is connected to the storage unit through series-connected amplification and rectification units, the output of the storage unit being connected to the input of the comparison unit, the first output of which is connected with the executive body disconnecting the electric network through the unit forming the team, and the input the accumulation unit through the delay unit is connected to the second output of the comparison unit, characterized in that it additionally includes data reception and transmission units over the electric network, a digital-to-analog converter, analog-to-digital converters, the inputs of which are connected to current transformers connected to the power circuits of each electrical installation, and the outputs are with data transmission units over the electric network, the output of the digital-to-analog converter is connected to the input of the multiplexer, and the input is with the output of the data reception unit over the electric A network whose input is connected to an electric power line.