UA127922U - DIAGNOSTIC DEVICES FOR RELIABILITY OF BOLT CURRENT CONNECTIONS AND CUTTING CURRENT CONDUCTORS - Google Patents

Abstract

Device for diagnosing attenuation of bolted current-carrying connections and breakage of current-carrying parts of the power supply system of the electric receiver. The utility model relates to electrical engineering, in particular to relay protection systems for equipment powered by a three-phase network up to 1000 V, operating on alternating and direct currents. It is intended for protection and increase of reliability of work of electrical equipment, due to timely detection of the beginning of weakening of bolt current-conducting connections, breakage of current-carrying lines and non-phase mode in the power supply network of electrical equipment.

Description

The useful model belongs to electrical engineering, in particular to relay protection systems of equipment powered by a three-phase network with a voltage of up to 1000 V, operating on alternating and direct currents. It is designed to protect and increase the reliability of electrical equipment, due to the timely detection of the beginning of the weakening of bolted current-carrying connections, interruption of current-carrying lines and incomplete phase mode in the power supply network of electrical equipment. Can be used to protect medical equipment, in particular, X-ray computed tomography.

The main problem of the contact connection is the weakening of the density of the bolted connection and the increase of the transient resistance of the contact, as a result of which, according to the Joule-Lenz law, overheating of the bolted connection occurs, which leads to the interruption of one of the phases and the occurrence of one-, two- and three-phase short circuits in the nodal connection.

In the event of an incomplete phase mode in the power supply of the equipment, as a result of a break in the current circuits or an incomplete phase mode in the power supply network, according to

Rules for the technical operation of electrical installations of consumers" 4th edition. 2011, is an emergency mode. The causes of the non-full-phase power supply mode of electrical equipment, in addition to the non-full-phase voltage mode of the power supply network, are the non-connection of one of the poles of the switching equipment, the break of one of the current-carrying wires, the weakening of the connections etc.

It is known "Device for monitoring the temperature of contact connections in devices under high voltage" (patent VO Mo 2408120, class НО2Н 5/04, 20091, which contains a digital unit for measuring the temperature of a bolted connection connected to a receiver- a transmitter, a power supply unit for electronic circuits of a digital unit for measuring the temperature of a bolted connection and a receiver-transmitter installed on the current loop bus.

In this device, the temperature of the bolted connection is monitored by contact and the temperature information is transmitted to the control room. The staff on duty judge the state of the contact connection by the temperature values.

The disadvantages of this device include the fact that it is impossible to determine the beginning of the development of the emergency process based only on the temperature of the contact connection. As you know, the temperature of the contact connection depends not only on the transition resistance, but also on the square of the current

From the load flowing through the transient resistance. Depending on the load, the value of the current can change its value from (0.0-1.05) In, respectively, the temperature of a working bolted connection will vary from the ambient temperature C to the normalized permissible bnor of no more than -120 "C, while the temperature of the environment can vary from (- 35- 445) b, while changing the temperature of the bolted connection, which makes it impossible to detect the beginning of an increase in transient resistance, that is, the beginning of the development of an emergency situation.

Based on the value of the temperature of the current-carrying connection, it is impossible to control the integrity of the current-carrying power lines of the electrical equipment and determine whether the equipment is working in partial phase mode in the power network.

The closest to the declared useful model is "Device for monitoring and diagnosing the condition of bolted power supply connections that work with a variable load" (Patent

of Ukraine Mo 106175, cl. НО2Н 5/04, НО2К 15/12 bull. Мо 14, 25.07.1014, which contains a digital block of controlled temperature of a bolt connection, a receiver-transmitter, a power supply unit, the output of which is connected to a digital block of controlled temperature and a receiver-transmitter, it also contains a digital block for measuring the ambient temperature , load current measurement unit with conversion to a digital signal, a microcontroller, while the outputs of all mentioned units are connected to the corresponding inputs of the microcontroller connected to the receiver-transmitter, in addition, the output of the power supply unit is connected to the inputs of the ambient temperature measurement units, current measurement unit and microcontroller.

In this device, the ambient temperature, the temperature of the bolted connection and the current flowing in this connection are measured. The current value is converted into an equivalent thermal signal. Control of all parameters allows you to detect the initial moment of weakening of one of the bolted connections of the node, for example, the connection of current-carrying lines to the switching equipment.

The disadvantage of this device is that the device allows you to detect the initial moment of loosening of the bolt connection in the node. For a three-phase power supply system, the initial moment of weakening of the bolted connection is determined by the maximum value of the temperature of one of the three bolted connections of the node. This device cannot be used to protect 60 electrical equipment from incomplete phase voltage mode and current-carrying wire breakage, since in this device the measured values of phase currents are not analyzed, they are only converted into equivalent thermal signals.

The useful model is based on the task of improving the device for diagnosing the weakening of bolted current-carrying connections and the interruption of current-carrying parts of the power supply system of the power receiver, in which, due to the introduction of new blocks and their interconnections, it is possible to detect the initial moment of weakening of one of the bolted connections in nodes of the current-carrying parts of the power supply system of the power receiver, control the appearance of an incomplete phase power supply mode of electrical equipment, in case of interruption of current-carrying lines or an incomplete phase mode of voltage in the power supply network, by measuring the values of phase currents, their analysis and protecting electrical equipment from operation in an incomplete phase mode.

The task is solved by the fact that the device for diagnosing the weakening of bolted current-carrying connections and the interruption of current-carrying parts of the power supply system of the power receiver, which contains a unit for measuring the temperature of the bolted connection, a power supply unit, a unit for measuring the ambient temperature, a unit for measuring the load current with its conversion to a temperature digital signal, a microcontroller, the corresponding inputs of which are connected to the outputs of the bolt connection temperature control unit, the load current measurement unit with its conversion into a temperature digital signal, with the output of the ambient temperature measurement unit, in addition, the output of the power supply unit with connected to the inputs of the unit for measuring the ambient temperature, the unit for measuring the load current with its conversion to a digital temperature signal and a microcontroller, according to the useful model it additionally contains a switching device, nodes of bolted connections with temperature sensors of bolted connections by the number of phases and nodes that contain bolted connections, units for measuring the temperature of bolted connections by the number of nodes, a unit for measuring the strength of phase currents, a control and signaling unit and a unit for digital-to-analog signal conversions, while the switching device is connected to the power network through a nodal connection with temperature sensors of bolted connections, its output is connected to the input of the unit for measuring the temperature of the bolted connection, the output of which is connected to the corresponding input of the block of digital

From analog signal conversions, the output of the switching device is connected to the cable network through a nodal bolted connection with a bolted connection temperature sensor, and its output is connected to the input of the bolted connection temperature measurement unit, and its output is connected with the corresponding input of the digital-to-analog signal conversion unit, while the phase current strength measuring unit is installed in series with the cable network, the first output of which is connected to the corresponding input of the digital-to-analog signal conversion unit, and the second - to the input of the current signal conversion unit to the calculated temperature the signal of a working bolted connection and the correction of this signal depending on the change in the ambient temperature, to the input of which the output of the ambient temperature measurement unit is connected, the output of the cable network is connected to the electrical receiver through a nodal connection with the temperature sensor of the bolted connections output which is connected to the input of the temperature measurement unit, and its output is connected to the corresponding input of the digital-to-analog signal conversion unit, the outputs of the digital-to-analog signal conversion unit are connected to the corresponding inputs of the microcontroller, the output of which is connected to the input of the control and signaling unit, the output of which is connected to the switching device

Drawings explain the essence of a useful model.

In fig. 1, a block diagram of the device for diagnosing the weakening of the bolted current-carrying connections and the interruption of the current-carrying parts of the power supply system of the receiver is presented.

In fig. 2, the basic electrical scheme of the power supply of the electroreceiver is presented.

In fig. 3, block diagram of the software algorithm of the device's microcontroller, where the following are defined: Ів, Ій, ІІ - phase currents;. Tbza, Ybzv, Ybzs - temperatures of the corresponding phase bolt connections; yin - ambient temperature, ydop - permissible temperature of the bolted connection, iBstakh - the highest temperature of the bolted connection, irot - calculated temperature of a working bolted connection when the load current flows through it, ykr - critical temperature of the bolted connection, Kr - calculated coefficient of conversion of the value of the current load into the equivalent temperature of the bolted connection, Dt - the discretization step of polling the temperature and current sensors.

In fig. 1st fig. 2: assembly of bolted connections with temperature sensors of bolted connections - 1, measuring unit of temperature of bolted connection - 2, switching device - 3, node of 60 of bolted connections with sensors of temperature of bolted connections - 4, measuring unit temperature of the bolted connection - 5, the unit for measuring the strength of phase currents - 6, the unit for converting the current signal into the calculated temperature signal of a working bolted connection and correcting this signal depending on the change in ambient temperature - 7, the node of bolted connections with sensors temperature of bolted connections - 8, unit for measuring the temperature of a bolted connection - 9, unit for measuring ambient temperature - 10, unit for digital-to-analog signal conversion - 11, microcontroller - 12, control and signaling unit - 13, power supply unit - 14 , electric receiver - 15. 1.4.8 - nodes of bolted connections with temperature sensors of bolted connections - these are three bolted connections in the node of each phase. The nodes of the bolted connections are the points of attachment of three phases of the switching device - Z with the power supply and cable networks, as well as three phases of the cable network with the electrical receiver - 15. As a temperature sensor, a ST 10-1 disk type thermistor rigidly attached to each bolted connection is used. D, the range of temperature changes from (-60 - - 185 7С) 3. 2.5.9 - blocks for measuring the temperature of a bolted connection, made in the form of a bridge circuit of resistances, one branch is a thermistor located on each bolted node of bolted connections connections with temperature sensors of bolted connections 1, 4, 8, other branches are made of ordinary high-resistance resistors of the C2-29M type, 300 kΩ. Power is supplied to one diagonal of the bridge circuit from the power supply unit 14, from the second diagonal a signal is received in the form of voltage, which is equivalent to the temperature of each bolted connection in the nodes of bolted connections with temperature sensors of bolted connections 1, 4, 8.

Switching device - For which an electromagnetic starter is used with operational control circuits to which the output of the control and signaling unit is connected - 13.

The unit for measuring the strength of phase currents - 6, used current transformers, the core of the current transformer is made of high-speed steel, the secondary winding is wound on it with an enameled wire, which allows you to control the change in the load current from (0.1 to 1.053 In. In the secondary circuit of the current transformers of each phases, shunt dividers are installed, which are made as a voltage divider using low-resistance resistors, the resistance ratio is 1/5. The voltage on one of the arms of the divider changes from 0 to 2.5 V when the current changes

From the load from 0 to 1.05 In. This voltage is the input signal of the block of digital-to-analog signal conversion - 11, and measures the strength of the phase currents.

Block - 7, conversion of the current signal into a calculated temperature signal and correction of this signal depending on the change in ambient temperature. For this purpose, the voltage of the second arm of the shunt divider of the unit for measuring the strength of phase currents is used - 6. The value of this voltage, with a constant load current, can vary depending on the change in the ambient temperature due to the fact that the ambient temperature sensor of the unit for measuring the ambient temperature - 10 , for which a ST6-1 bead-type thermistor is used, connected in parallel to the second arm of the shunt divider. The received corrected signal is the input signal for the block of digital-to-analog conversion of signals - 11.

Unit 10 is a unit for measuring the ambient temperature, made on the basis of a ST6-1 bead-type thermistor, which is connected in parallel to the second arm of the shunt divider, a unit for measuring the strength of phase currents - 6.

Digital-to-analog signal conversion block - 11, for which a microcircuit is used, for example, AD7091 V ADC type. Microcontroller - 12 is made on the basis of a microcontroller

ATteda88 of the firm Aitei!. Microcontroller inputs - 12 are output signals from blocks 2, 5, 6, 7, 9.

The outputs of the microcontroller are used to turn on the executive relays of the control and signaling unit - 13.

The control and signaling unit - 13 is made in the form of "Start" and "Stop" buttons, control of the switching device 3, operating circuits including intermediate relays and their contacts, for controlling the switching device - C and signaling devices.

Power supply unit - 14, formed by three single-phase voltage transformers, which are connected to the linear voltages of the supply network, bridge rectifiers with parallel-series voltage filtering are included in the secondary coils. Three positive outputs of rectified voltage with series-connected diodes in each line are connected, which allows you to receive power for blocks 2, 5, 9, 11, 12, 13 regardless of the incomplete phase voltage in the power supply network, the negative potentials are combined into a common point and grounded.

Electrical receiver - electrical equipment, for example, an X-ray computed tomography scanner.

The device works as follows.

When pressing the "Start" button, the control and signaling unit - 13, the switching device -

C connects the electric receiver - 15 to the power supply. The flow of phase currents Ia, IB, and Ic in current-carrying bolted connections leads to their heating. The value of the heating temperatures of bolted joints иизза, Йбзв, Йбзс ВІЗnХ is determined by the magnitude of the phase current strength flowing in the bolted connection and the temperature of the surrounding air yin, which can vary in unheated rooms within the range from -20 "С to -- 40 иi from i- 14 "C to 30 "C in heated rooms and the value of the transient resistance of the bolted connection. The asymmetry of the currents Ia, vk, Is, caused by the asymmetry of the voltages of the power supply network, will lead to different values of the temperatures of the bolted connections in one of the nodes of the bolted connections with bolted connection temperature sensors - 1, 4 and 8. Bolted connection temperature measuring units - 2, 5, 9 determine the temperature values of each bolted connection. The values of these signals are input to the digital-to-analog conversion unit signals - 11, and after transformations are received at the inputs of the microcontroller - 12. The block for measuring the strength of phase currents - 6 measures the values of the forces of the phase currents Iz, IB, Iz, these values are received at the inputs of the digital-analog unit of signal conversion - 11, where the analog signal will be converted into digital values and enter the input of the microcontroller - 12. The absence of one of the current signals determines an incomplete phase emergency mode, the cause of which is the interruption of one of the phases of the current circuits or the appearance of an incomplete phase mode in the power network. The signal from the microcontroller - 12 enters the input of the control and signaling unit - 13, which turns on the alarm about the incomplete phase mode and sends a signal to the operating circuits of the switching device - 3. The electrical receiver - 15 is disconnected from the power supply.

Control of the presence of three values of phase currents Из, Ию, ис is carried out continuously during the entire operation of the electrical receiver - 15. If there is no emergency mode in the current circuits and the power supply network, the unit converts the current signal into a calculated temperature signal and corrects this signal depending on the change in ambient temperature - 7, converts the current signal into a calculated temperature signal irrt, which corresponds to the temperature of the corrected bolted connection, at the same time, the unit for measuring the ambient temperature - 10 measures the temperature of the environment surrounding the bolted connections, this signal enters the input

From the unit for converting the current signal into a calculated temperature signal and correcting this signal depending on the change in ambient temperature - 7 and corrects the calculated temperature signal depending on the change in ambient temperature. The corrected signal from the output of the current signal conversion unit into a calculated temperature signal and correction of this signal depending on the change in ambient temperature - 7, enters the input of the digital-to-analog signal conversion unit - 11, is converted into a digital signal and enters the input and microcontroller 12. The current flowing in the bolted connection will lead to an increase in its temperature, the blocks for measuring the temperature of the bolted connection - 2, 5, 9 measure the temperature of each bolted connection of each node, detect the maximum value and this signal is sent to the input of the digital block - analog signal conversion - 11, is converted into a digital signal and enters the input and microcontroller 12. Microcontroller - 12 processes this information.

The normal mode of operation of the electroreceiver is 15 with a one-piece bolted connection.

In the device, the measured values of the signals are converted into voltage signals, so the values of the current signals Ia, I, Iz - correspond to the voltage signal Ot.n, the temperature values of the bolted connections Ysza, Ybzv, Yzzs correspond to the voltage signal Ot.Bz. The magnitude of the temperature signal of the environment ins - corresponds to the voltage signal of the average.

At an ambient temperature of ins-24 "C. Phase currents flowing along the current lines and in the nodes of bolted connections with temperature sensors - 1, 4, 8, will lead to heating of the bolted connections. At the outputs of the temperature measurement units of the bolted at connections 2, 5, 9, signals appear that are equal to the temperature of the bolted connection - Ot.b3.

At the output of the unit for converting the current signal into a calculated temperature signal and correcting this signal depending on the change in ambient temperature - 7, a signal will also appear - Ot.n. The signals enter the digital-to-analog signal conversion unit - 11 and the microcontroller - 12, which processes the signals.

The signal from the unit for measuring the ambient temperature - 10-Оо ср enters the input of the unit for converting the current signal into a calculated temperature signal and correcting this signal depending on the change in ambient temperature and correcting the calculated temperature signal - 7. At the same time, Со ср-0, corresponds to 24 "p.

Microcontroller - 12 checks the fulfillment of the inequality От.н » ШИ.бз, which corresponds to a working bolted connection. At the same time, the signal from the output of the microcontroller - 12 is sent to the input of the control and signaling unit - 13, which reflects the true values of the load current, the ambient temperature and the temperature of the bolt connection.

Subsequent changes in the load current will lead to a corresponding change in the Ot.n and Ot.bz signals by an amount proportional to the change in the load current. Signal values are defined as: Ot.onoh

AOyt.n (In) and Ot.bz and DOt.bz (In) conditions Ot.n and DOt.on (In) » Ot.bz and DOt.bz (In) are preserved, regardless of the time of the thermal transition regime.

If during a constant load there was a change in the ambient temperature by its Ln.s C value, the signal from the output of the current signal conversion unit into a calculated temperature signal and the correction of this signal depending on the change in the ambient temperature - 7 will proportionally change its value by 0 5 AGRO , and the values of the signals from the temperature measuring units of the bolted connection 2,5.9, respectively, will change and be determined as:

So. (De nos) and, accordingly, Ot.bz - DOt.bz (DRO.sS).

Condition O.Sc. (DRo.ss) » Ot.bz and DOt.bz (DRgOo.ss) will be executed again.

The mode of changing the load current and the ambient temperature will lead to corresponding changes in the signals. The value of the signals will be determined as follows: for the signal from the output of the current signal conversion unit into a calculated temperature signal and correction of this signal depending on the change in ambient temperature - 7 (current signal)

Doctor of Science (Ag noss) and DOt.n (In), for signals from the outputs of bolted connection temperature measurement units - 2, 5, 9 (bolted connection temperature signal) SHI.bz and DIL.bz (DRS) and DIL. bz (In), and the condition Ot.n is the same as DOt.n. (DEnosS) same AOt.n (In) » Ot.bz same DOt.bz (De nosS) same DI. bz (In) will be executed again.

Modes of starting to weaken the bolted connection in bolted connection nodes with bolted connection temperature sensors 1, 4, 8.

Provided that the current strength and ambient temperature have not changed, loosening one of the bolt connections in nodes 1, 4, 8 will lead to an increase in its transient resistance. The amount of heat released in this bolted joint, according to the Joule-Lenz law,

Zo is proportional to the square of the load current, the transient resistance of the bolted connection and the hour of current flow, since the load current and ambient temperature have not changed, the signal from the ambient temperature measurement unit is 10 and the output signal of the current signal conversion unit into a calculated temperature signal and correction of this signal depending on the change in ambient temperature - 7 remain constant. An increase in the temperature of the emergency bolted connection occurs due to an increase in the transient resistance. The signal level at the output of the unit for measuring the temperature of the bolted connection 2, or at the output of the unit for measuring the temperature of the bolted connection 5, or at the output of the unit for measuring the temperature of the bolted connection 9 increases, the microcontroller - 12 determines the maximum value of the temperature of the emergency bolted connection and based on this value compares the signals received from blocks 2 or 5 or 9 and block 7. There comes a moment when;

Ot.n same DOt.n (De no ss) same DOt.n (In) « Ot.bz i DOt.bz (De no ss) same DOt.bz (In) 4 DOt.bz (In per).

The control and signaling unit - 13 signals the beginning of loosening of the bolt connection and the beginning of the development of an emergency situation. When the temperature of the weakened emergency bolted connection reaches the value ydop - the permissible temperature equal to 100 C, a signal will appear at the output of the microcontroller 12, which is sent to the input of the control and signaling unit - 13, a signal of the beginning of the development of the emergency situation is given. When the temperature of the weakened emergency bolted connection reaches the critical temperature equal to 120 s, the electric receiver - 15 is disconnected from the power supply and the corresponding alarm is activated.

The operation of the device was tested in laboratory conditions, using a PSM AT 50 alternating current generator as a source of electricity, which allows obtaining a three-phase voltage of 0.4 kV, changing the current from 10 to 100 A, using a moving rheostat load. TT 100/5 current transformers with a voltage of 0.4 kV were used to measure the load current. Other blocks are made on the element base described above. The temperature of the environment was changed with the help of a heat dryer, the heat flow simultaneously affected the thermosensors of blocks 2, 5, 9 and 10. The temperature change of the bolted connection at a constant load was carried out by weakening the bolted connection at different values of the relative value of the transient resistances of the weakened of the bolted connection to the value of the value of the resistance of the serviceable bolted resistance. The operation of the device was checked in the order described above.

1. Turning off one of the phase currents led to the disconnection of the receiver 15 from the power supply network and the activation of the alarm about this mode. 2. When a temperature of 100 C was reached, the faulty bolted connection led to the activation of the control and signaling unit - 13, the activation of the alarm about the detection of the beginning of the loosening of the bolted connection, which confirmed the correctness of the device development actions.

The use of this useful model allows you to accurately detect the initial moment of change in the transient resistance of the bolted connection due to the control of the true temperature of the contact connection, the accounting of the ambient temperature and the change in the value of the load current. Constant monitoring of phase currents allows timely detection of incomplete phase mode of power supply and protection of the receiver from operation in this emergency mode.

Claims (1)

USEFUL MODEL FORMULA The device for diagnosing the weakening of bolted current-carrying connections and the interruption of current-carrying parts of the power supply system of the power receiver, which contains a unit for measuring the temperature of the bolted connection, a power supply unit, a unit for measuring the ambient temperature, a unit for measuring the strength of the load current with its conversion into a temperature digital signal, a microcontroller, the corresponding inputs of which are connected to the outputs of the bolt connection temperature control unit, the load current measurement unit with its conversion into a temperature digital signal, to the output of the ambient temperature measurement unit, in addition, the output of the power supply unit is connected to the inputs of the temperature measurement unit environment, load current measurement unit with its conversion into a digital temperature signal and a microcontroller, which is distinguished by the fact that it additionally contains a switching device, bolted connection nodes with bolted connection temperature sensors in numbers in phases and nodes that contain bolted connections, units for measuring the temperature of bolted connections by the number of nodes, a unit for measuring the strength of phase currents, a control and signaling unit, and a digital-analog unit From signal conversions, while the switching device is connected to the power network through a nodal connection with bolted connection temperature sensors, its output is connected to the input of the bolted connection temperature measuring unit, the output of which is connected to the corresponding input block of digital-to-analog signal conversions, the output of the switching device is connected to the cable network through a nodal bolted connection with a bolted connection temperature sensor, and its output is connected to the input of the bolted connection temperature measurement unit, and its output is connected to the corresponding input of the digital-to-analog signal conversion unit, while the phase current strength measuring unit is installed in series with the cable network, the first output of which is connected to the corresponding input of the digital-to-analog signal conversion unit, and the second - to the input of the current signal conversion unit in calculated temperature signal of a working bolted connection and correction of this signal depending on the change in ambient temperature environment, the input of which is connected to the output of the unit for measuring the ambient temperature, the output of the cable network is connected to the electrical receiver through a nodal connection with the temperature sensor of bolted connections, the output of which is connected to the input of the unit for measuring temperature, and its output to connected to the corresponding input of the digital-to-analog signal conversion unit, the outputs of the digital-to-analog signal conversion unit are connected to the corresponding inputs of the microcontroller, the output of which is connected to the input of the control and signaling unit, the output of which is connected to the switching device.