KR200173061Y1 - Three-phase over/under voltage relay - Google Patents

Abstract

The present invention relates to a three-phase overvoltage / undervoltage relay, the voltage detector installed in each distribution line in front of the circuit breaker detects a voltage value proportional to the voltage of each phase,

This AC voltage value is transmitted to the microprocessor as a digital value through a filter part, a rectifier part, and an analog / digital conversion part, and stored in a sequential memory.

The microprocessor compares the voltage value and time information with the digital value transmitted while displaying information on the voltage value of the over / under voltage and the time of the over / under voltage input through the dip switches. Determine whether there is over / under voltage and selectively operate the relay to control the supply of power,

By selectively lighting a plurality of light emitting diodes through the output IC and the buffer to inform the outside of the type of accident, the type of phase in which the accident occurred and the state of operation, etc.

The internal functions can be tested through a number of switches connected through a buffer to accurately recognize whether the voltage value of each phase is an overvoltage or undervoltage, and in which case an over / under voltage accident has occurred, It is to prevent the condition that causes the failure due to the induced voltage of.

Description

Three-phase over / under voltage relay

The present invention relates to a three-phase overvoltage / undervoltage relay, and in particular, is the voltage value of each phase supplied with the three-phase power supply voltage reduced and rectified, and is the voltage value of each phase currently supplied with an overvoltage or undervoltage The present invention relates to a three-phase overvoltage / undervoltage relay, which correctly recognizes whether or not a phase has caused an over / under voltage accident and also prevents a condition caused by an induced voltage at the time of an accident.

In general, the power supplied through the distribution line should always be constant, but the current value is changed by the circumstances of the substation or the power consumption of the customer, as well as the abnormal state of the line, and part of the changed current is used as the load. However, it is well known that it will greatly affect industrial equipment.

In the related art, in order to determine whether there is an abnormality in a distribution line, as shown in FIG. 1, a current signal dropped by a certain ratio in one distribution line by a current metering unit 101 such as a current transformer is detected by rectifying and transposing. The DC signal is transmitted to the amplifier 102 to output an analog signal of DC which is amplified or reduced to an appropriate value for measurement while full-wave rectifying the analog signal. The analog signal of the DC signal is passed through the analog / digital converter 103. The digital signal is converted into a digital signal to be transmitted to the single chip microprocessor 104, and the set value such as the date, time, reference value, and sampling detection time is input by the key switch unit 106 connected through the interface 105. In the single-chip microprocessor 104 of the processing method and the sequence stored in the internal program memory 107 Compare the current value converted into the digital signal with the reference value set by the user, and store the absolute comparison value in the memory 108,

If the absolute comparison value stored in the memory 108 is kept below a predetermined level for a predetermined time, the value is stored in a relatively long time unit set in the backup RAM 109. It is determined that the operation state, such as the current operation mode on the LCD 110 through the interbase 105, and stored in the backup RAM 109 at a relatively fast sampling rate, and the single-chip micro The processor 104 outputs the data to the personal computer 112 through the internal serial port 111 according to the user's request so as to analyze the stored data of the RAM 109 for backup.

However, according to the conventional method for detecting abnormality of the distribution line as described above, the current meter 101 such as a current transformer installed to accurately detect current and voltage values according to the abnormality of the distribution line is an electrical device such as a coil type. Therefore, in case of an accident, induced voltage flows into the main body, which is a protective relay, through the distribution line, causing a breakdown. In addition, when an accident current occurs at a very close distance to the current metering unit 101 or when the accident current is large, a current transformer (CT: Current Transformer) ), There was a drawback in that it could not accurately grasp the fault current due to the self saturation phenomenon.

Accordingly, the present invention detects a voltage value at each line to which power is supplied to three phases, and accurately recognizes whether a voltage value of each phase currently supplied as an overvoltage or undervoltage is applied to a voltage drop and rectified voltage, and to determine which phase is over / under. It is an object of the present invention to provide a three-phase overvoltage / undervoltage relay to prevent the occurrence of a failure due to the induced voltage during the accident as well as whether an undervoltage accident has occurred.

The present invention for achieving the above object is to detect a voltage value proportional to the voltage flowing in each phase in the voltage detector installed in each distribution line that is the front end of the circuit breaker,

This AC voltage value is converted into a DC voltage value at the rectifying part after the noise or noise component is removed while passing through the filter part.

The direct current voltage value is converted to a digital value via an analog / digital conversion unit,

The microprocessor receiving the digital value stores it in the progressive memory,

The microprocessor controlling the internal operation by the method input to the ROM includes the voltage value of the overvoltage input through the first dip switch, the time of the overvoltage input through the second dip switch, and the shortage input through the third dip switch. While receiving information about the voltage value of the voltage and the time of the undervoltage input through the fourth dip switch through the buffer, the digital display is displayed on the digital display through the buffer to determine whether there is an overvoltage or undervoltage. Control the power supply by selectively operating the relay through the tri-state buffer and output IC,

By selectively lighting a plurality of light emitting diodes through the output IC and the buffer to inform the outside of the type of accident, the type of phase in which the accident occurred and the state of operation, etc.

The internal functions can be tested through a number of switches connected through a buffer to accurately recognize whether the voltage value of each phase is an overvoltage or undervoltage, and in which case an over / under voltage accident has occurred, It is to prevent the condition that causes the failure due to the induced voltage of.

1 is a block diagram schematically showing a configuration of a conventional overvoltage / undervoltage relay.

Figure 2 is a block diagram showing the overall configuration of the present invention.

3 is a circuit diagram showing a more detailed configuration of the present invention.

* Explanation of Signs of Major Parts of Drawings *

1: distribution line 2, 3, 4: voltage detector

12 microprocessor 13: serial memory

17, 17a, 17b: digital display

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a diagram showing the overall configuration of the present invention, which is installed at each of the distribution lines of each phase R, S, and T, which is the front end of the circuit breaker 1, to detect a voltage value proportional to the voltage flowing in each phase. A voltage detector 2-4, a filter unit 5-7 for removing noise and noise components from an output signal of the voltage detector 2-4, and a signal through the filter unit 5-7 A rectifier 8-10 for converting the voltage value, an analog / digital converter 11 for converting the DC voltage value of the rectifier 8-10 to a digital value, and a micro for receiving and controlling the digital value. A processor 12, a sequential memory 13 for storing data under control of the microprocessor 12, a ROM 14 for storing specific software and outputting the same to the microprocessor 12, and an internal function. Test switch SW1-SW10 and the first to fourth dip switches DS1-DS4 The buffer 15 buffering the output signal under the control of the microprocessor 12 and the state of the first to fourth dip switches DS1-DS4 received through the buffer 15 through the buffer 16. The digital display unit 17 (17a) 17b for displaying, the three-state buffer 18 buffering the output signal of the microprocessor 12, and the output signal of the three-state buffer 18, overvoltage or shortage An output IC 19 for selectively operating the relay driving circuits 20 and 21 by judging whether there is a voltage, and a kind of accident and an image in which the accident occurs while being selectively turned on by the control of the output IC 19. And LED1-LED15 for notifying the state of the operation to the outside. However, the first dip switch DS1 is an overvoltage voltage value, and the second dip switch DS2 is an overvoltage time and a third dip switch DS3. ) Is the voltage value of undervoltage, and the fourth dip switch DS4 outputs information on the time of undervoltage. (C) when describing the circuit diagram of a detailed configuration of an operation process of the subject innovation 3 configured as described above with reference to as follows.

A voltage value proportional to the voltage flowing through the power distribution line of each phase R (S) (T), which is the front end of the circuit breaker 1, is passed through the first to third voltage detectors 2, 3, and 4, and is detected. do.

The AC voltages of the respective phases R, S, and T detected by the first to third voltage detectors 2, 3, and 4 are first to third filter units 5, 6, ( 7) respectively down to an AC power supply having a predetermined value while passing through the transformers T1, T2, and T3, and then connected in series with the capacitors C1, C2, C3, C4, C5, C6. Noise or noise components are removed by this.

The AC voltage value from which the noise or noise component is removed is amplified by the non-inverting amplifying operational amplifiers OP1, OP2, and OP3 of the rectifier 8-10, and then the resistors R1, R2, R3, R4) R5, R6, and capacitors C7, C8 (C9, C10) (C11, C12) and operational amplifiers OP4 (OP5) (OP6) allow only a certain range of frequency bands to be output.

The frequencies of the first to third filter units 5, 6 and 7 are input to the non-inverting input terminal (+) through the diodes D1 (D2) and D3 to which a positive power supply (+) is supplied and the output terminal. High-level rectifiers of op amps OP7, OP8, and OP9 that are negatively fed back to the inverting input terminal (-) through resistors R7, R8, R9, and variable resistors VR1, VR2, VR3. (8a) (9a) and (10a) are input to the non-inverting input terminal (+) via diodes (D4), (D5) and (D6) supplied with a negative power supply (-) while detecting a high level of frequency. The low level of the operational amplifiers OP10, OP11, OP12 that are fed back to the inverting input terminal (-) through the resistors R10, R11, R12 and variable resistors VR4, VR5, VR6 at the output stage. The rectifiers 8b, 9b, and 10b detect low frequencies, respectively, and according to the state of the power flowing in each phase R, S, and T, even if the capacity of the microprocessor 12 is not expanded. Make it possible to recognize a lot of data.

Each phase R is formed by the high level rectifiers 8a, 9a, 10a and the low level rectifiers 8b, 9b, 10b of the first to third rectifiers 8, 9, 10. In the analog / digital converter 11 which receives the frequency according to the input voltage of (S) (T) at a high level frequency and a low level frequency, the data of these frequencies are sequentially converted from the analog value to the digital value. do.

The microprocessor 12 receiving the digital value from the analog / digital converter 11 stores the data in the ordered memory 13 in order and reads them in the order of input when necessary.

The microprocessor 12 which controls the internal operation according to the method and order of the program stored in the ROM 14 includes a voltage value corresponding to an overvoltage input by the user through the first dip switch DS1 and a second dips. The duration of the overvoltage input through the position DS2, the voltage value corresponding to the low voltage input through the third dip switch DS3, and the fourth dip switch DS4. The information on the over / under voltage value and time set by the user on the digital display units 17, 17a and 17b is received through the buffer 16 while receiving information about the time of the undervoltage inputted through the buffer 15. Mark it as a number so you can check it externally

The microprocessor 12 is a current distribution line that is sequentially read in a state in which information of voltage values and time input by the user through the first to fourth dip switches DS1 to DS4 is stored in an internal memory. It is determined whether overvoltage or undervoltage is compared with the digital value corresponding to the voltage value flowing through, and when it is maintained for some time in the state of overvoltage or undervoltage, the overvoltage through the three-state buffer 18 and the output IC 19 The power supply state is controlled while selectively operating the relay driving circuit 20 for shutting off the power supply or the relay driving circuit 21 for shutting off the power in the undervoltage.

At the same time, the microprocessor 12 includes a plurality of light emitting diodes LED1 to LED5 connected to the output IC 19 or a plurality of light emitting diodes LED6 to LED15 connected through the buffer 16. By selectively turning on, it notifies the outside of the types of accidents such as overvoltage trips and under-precision trips, as well as the type and operation status of the accident, and the plurality of switches SW1 to SW10 connected through the buffer 15 are turned on. When it is recognized, the internal functions such as set check, line check, and memory check can be tested to determine whether they operate normally.

Therefore, the present invention detects a voltage value proportional to the voltage of each phase in a voltage detector installed at each distribution line in front of the circuit breaker, and transmits the digital value as a digital value through the filter unit, the rectifier unit, and the analog / digital conversion unit. In order to control the supply of power by selectively operating the relay by receiving information about the voltage value of the over / under voltage and the time of the over / under voltage input through the dip switch, By selectively lighting a plurality of light emitting diodes through the output IC and the buffer to inform the outside of the type of the accident, the type of the phase in which the accident occurred and the state of the operation, the internal functions through a plurality of switches connected through the buffer To check whether the voltage value of each phase is overvoltage or undervoltage To recognize whether or not precisely whether the entity of the accident and / undervoltage occurs on either of course, it is due to the induced voltage of the accident in order to prevent a state in which the cause for failure.

Claims (1)

A voltage detector (2-4) installed at each of the distribution lines of each phase (R) (S) (T) that is the front end of the circuit breaker 1 and detecting a voltage value proportional to the voltage flowing to each phase; A filter unit 5-7 for removing noise and noise components from an output signal of 2-4), a rectifier unit 8-10 for converting a signal through the filter unit 5-7 to a DC voltage value, and An analog / digital converter 11 for converting the DC voltage value of the rectifier 8-10 to a digital value, a microprocessor 12 for receiving and controlling the digital value, and the microprocessor 12 A sequential memory 13 for storing data under control, a ROM 14 for storing specific software and outputting the same to the microprocessor 12, a switch SW1-SW10 for testing internal functions, and a first To buffer the output signals of the fourth to fourth dip switches DS1 to DS4 under the control of the microprocessor 12. The digital display unit 17 (17a) and 17b which display the buffer 15 to ring and the states of the first to fourth dip switches DS1-DS4 received through the buffer 15 through the buffer 16. ), The tri-state buffer 18 buffering the output signal of the microprocessor 12, and whether the overvoltage or undervoltage is determined according to the output signal of the tri-state buffer 18 to determine the relay driving circuit 20. An output IC 19 for selectively operating the 21 and an LED 1-LED 15 for selectively illuminating by the control of the output IC 19 to inform the outside of the type of accident, the type of phase in which the accident occurred, the state of operation, and the like. Three-phase overvoltage / undervoltage relay, characterized in that consisting of.