RU2692119C1 - Cable power line parameters input device - Google Patents

Abstract

FIELD: electrical engineering.SUBSTANCE: invention relates to electrical engineering and can be used for determination of faults in cable lines. Device for inputting parameters of a cable power transmission line comprises a housing in which there is a precision potentiometer for setting the origin of the distance to the point of damage to the power transmission cable line, precision potentiometer for setting the distance reading to the fault point of the cable line with a reading indicator of the distance to the fault point of the cable line, which brushes are made with possibility of connecting to the line irregularities meter line scanning unit, precision electromagnetic wave shortening value input potentiometer with electromagnetic wave shortening coefficient indicator, precision coefficient potentiometer for inputting a coefficient value wincing, electronic-digital indicator of coefficient value wincing, adder with first and second inputs. Indicator of the electromagnetic wave shortening factor and the indicator of the distance to the point of damage of the cable power transmission line are electronically digital. Brush of precision potentiometer of input of shortening factor of electromagnetic wave is connected to first input of adder and to input of electronic-digital indicator of shortening factor. Precision potentiometer brush for coefficient value input wincing is connected to second input of adder and to input of electronic-digital indicator of coefficient values wincing. Adder output is configured to be connected to the line non-homogeneity meter measuring unit.EFFECT: high accuracy of determining distance to a fault point of a cable power transmission line.1 cl, 1 dwg

Description

The invention relates to electrical engineering and can be used to determine the locations of damage in cable lines.

A device for inputting parameters of a cable transmission line is known, comprising a housing in which a potentiometer is inserted for inputting a shortening factor of an electromagnetic wave with an analog indicator, a potentiometer for setting the origin of the distance to the damage of a cable line installed in the delay pulse generator of the probe pulse of an inhomogeneity meter for the P5-10 lines, potentiometer setting the reference distance to the point of damage to the cable line with an analog indicator installed in the delay circuit Wires of the P5-10 line inhomogeneity meter, with the possibility of connecting them to the scanner of the P5-10 line inhomogeneity meter (Measuring the P5-10 line inhomogeneity. Technical description and operating instructions. M: Mashpriborgorg, 1982).

However, the P5-10 line inhomogeneity meter, which uses such a device for inputting parameters of a cable transmission line, does not provide high accuracy for determining the distance to the damage point of the cable line, since the potentiometer for inputting the electromagnetic wave shortening factor, the potentiometers for setting the origin of the reference and the distance for the location Damage to the cable power line is not performed precision, and the input indicators of the shortening of the electromagnetic wave distance reference line fault locations cable made analog, rather than digital electronically. This increases the error in measuring the distance to the point of damage to the cable power line, and accordingly leads to an increase in the time of searching for the place of damage and, accordingly, to an increase in the time to eliminate these damages.

In addition, the high accuracy of determining the location of damage to the cable transmission line when using the known device is also not ensured due to the fact that the known device for inputting the parameters of the cable transmission line of an inhomogeneity meter does not take into account the cable core twist, which is characterized by the twisting factor K _Y [US Pat. Of the Russian Federation №2653583. The method of determining the location of damage to the cable line, the authors Kashin Y.M., Kirillov GA]. This leads to large errors, for example, with the same twist factor m _T ⋅ = 20, the error in measuring the distance to the point of damage by the pulse method for a cable with a cross section of 25 mm ² with a cable line length of 7600 m is 91.2 m, and for a cable with a section of 240 mm ^2, with the same value of m _T = 20, the error with a cable line length of 12,800 m is 153 m.

In addition, the basic error of the meter is ≥ ± 1%, and the error of setting the shortening factor is an additional ≥ ± 1%, which is an error of 20 m for a cable length of 1000 m and 200 m for a cable length of 10,000 m. Thus, the total error determining the distance to the damage of the cable power line increases significantly.

The closest to the claimed invention to the technical nature and adopted by the authors for the prototype is a device for inputting parameters of a cable power line, comprising a case in which an electromagnetic wave-shortening factor potentiometer with an analog indicator is installed, a reference setpoint potentiometer for a cable transmission line is damaged, precision Potentiometer for setting the reference distance to the point of damage to the cable line with an analog indicator, brushes cat They are made with the ability to connect to the scanner gauge heterogeneity of lines [Measuring heterogeneity of lines P5-13. Technical description and instruction manual. M: “Mashpribortorg”, 1988].

However, the P5-13 line discontinuity meter, which uses such a device for inputting parameters of a cable transmission line, also does not provide high accuracy in determining the distance to the point of damage to the cable line. This is due to the fact that the potentiometers used for inputting the electromagnetic wave shortening factor, setting the origin of the distance and setting the reference distance to the point of damage to the power transmission line are also not precision, but the indicators for the input of the electromagnetic wave shortening factor and the distance to the damage point of the cable line made analog, not electronic-digital.

There is a method of determining the location of damage to the cable line (US Pat. RF №2653583 from 11.05.18, the authors Kashin Ya.M and Kirillov GA), which consists in probing the measured cable line by voltage pulses, receive the pulses reflected from wave impedance inhomogeneities, pulses reflected from irregularities in the wave impedance are selected on the indicator with a time scan of the beam, corresponding to the place of cable damage, calculate the distance to the cable damage site from the time delay of the reflected pulse tionary probing by the formula:

where L _x - distance to the place of cable damage, determined by the time delay of the reflected pulse relative to the probing, m; ν — velocity of propagation of an electromagnetic wave in a cable line, m / µs; t ₃ - the delay time of the reflected signal relative to the probe, µs; c is the speed of propagation of an electromagnetic wave in a vacuum (c = 299.79 m / μs); γ = c / ν is the coefficient of shortening of the electromagnetic wave in the cable line, while additionally calculating the twisting factor, taking into account which the specified distance to the place of cable damage is calculated by the formula:

where L _xm is the specified distance to the place of cable damage; K _Y - twisting factor, L _x - distance to the place of cable damage, determined by the time delay of the reflected pulse relative to the probe one.

The twist factor according to this method is calculated by the formula:

where K _Y - the coefficient of ukrutki; L ₁ is the twist pitch length, H is the twist pitch, m is the twist factor.

However, there is no device implementing this method. The operator of the electrical laboratory, which is known for the method of US Pat. RF No.2653583, with the aim of improving the accuracy of determining the location of damage to a cable power line to perform calculations using the above formulas manually, however, this increases the time and accuracy of determining the location of damage to a cable power line due to the high probability of operator error when performing calculations.

The task of the invention is the improvement of the input device parameters of the cable power line (CIP), reducing the time to determine the location of damage to the cable power line.

The technical result of the claimed invention is to improve the accuracy of determining the distance to the place of damage to the cable power line by reducing the error in determining this distance.

The technical result is achieved by the fact that in the input device of the parameters of a cable power line, comprising a housing in which a potentiometer is installed for setting the origin of the reference distance to the point of damage to the cable power line, a precision potentiometer for setting the distance to the damage point of the cable line with an indicator of the distance to the damage cable the lines, the brushes of which are made with the possibility of connecting to the scanner of the meter of inhomogeneity of lines, and the potentiometer Yes, the magnitude of the electromagnetic wave shortening with the indicator of the magnitude of the electromagnetic wave shortening in the case is additionally installed a precision potentiometer for entering the value of the twisting factor, an electronic digital indicator of the value of the twisting factor, an adder with the first and second inputs, with the potentiometer setting the origin to the point of damage to the cable line power transmission and potentiometer input values of the shortening of the electromagnetic wave is made precision, but and The indicator of the magnitude of the shortening of the electromagnetic wave and the indicator of the distance to the damage of the cable transmission line are digitally electronic, the precision potentiometer input bar of the magnitude of the electromagnetic wave shortening is connected to the first input of the adder and the digital input of the shortening coefficient, the precision potentiometer input brush the values of the twist factor is connected to the second input of the adder and to the input of the electronic-digital th indicator ukrutki coefficient values, and the output of the adder being connected to the meter block scan line nonuniformities.

Improving the accuracy of determining the distance to the damage of the cable power line is achieved by reducing the error in determining the distance to the place of its damage by additionally installing a precision potentiometer for entering the value of the twisting factor, electronic digital indicator of the coefficient of twisting, in the case of the cable transmission line (ULP KLE); the adder with the first and second inputs, the execution of the potentiometer setting the origin of the distance to the place is damaged The cable line and the potentiometer for inputting the shortening factor of an electromagnetic wave are precision, and the indicator for the values of the shortening factor for the electromagnetic wave and the indicator for reading the distance to the point of damage to the cable line are electronic to digital. Which ultimately will reduce the time to determine the location of damage to the cable power line.

Installing an adder in the UVE CLE housing, connecting a precision potentiometer to the first input of a brush to input the magnitude of the electromagnetic wave shortening factor, and to a second input - brushing a precision potentiometer to enter the wrapping factor value, and performing the output of the adder to connect to the scanner of the line heterogeneity meter to sum up signals from precision potentiometers input value of the shortening of the electromagnetic wave and input values of the coefficient and ukrutki, which allows to take into account when determining the damage of the cable transmission line as the value of the coefficient of shortening of the electromagnetic wave, and the coefficient of twisting, which increases the accuracy of determining the distance to the damage of the cable transmission line and, accordingly, reduces the time to determine the location of this damage.

Connecting a precision potentiometer brush to input the magnitude of the electromagnetic wave shortening to the input of the electronic digital indicator of the electromagnetic wave shortening coefficient allows you to accurately set the electromagnetic wave shortening coefficient Kγ taken from reference tables, which improves the accuracy of determining the distance to the cable line damage and, accordingly, reduces the time to determine the location of this damage.

Connecting the brush of a precision potentiometer for entering the twist factor value to the input of an electronic digital indicator of the twisting factor value allows you to accurately set the twist factor K _Y taken from the calculation tables or passports for the power cable, using an electronic-digital indicator of a precision potentiometer for entering the twisting factor value that improves the accuracy of determining the distance to the location of damage to the cable line and, accordingly, reduces the time to determine the location of this damage .

The implementation of the indicator of reference distance to the place of damage of the cable power line by electronic-digital allows you to determine the distance to the place of damage to the cable line with higher accuracy.

The execution of the potentiometer for setting the origin to the point of damage to the cable power line with precision makes it possible to more accurately align the leading edge of the probe pulse with the risk of the horizontal scale of the cathode ray CRT tube (CRT does not apply to the essence of the present invention), which increases the accuracy of the reference point to the point of damage and therefore, the accuracy of determining the distance to the point of damage to the cable power line.

Reducing the time of determining the location of damage to the cable power line is achieved by improving the accuracy of determining the distance to the place of damage to the cable power line damage to the cable. It also reduces the amount of excavation to eliminate this damage.

FIG. 1 shows a block diagram of a device for inputting parameters of a cable power line UVP.

The input device of the cable power line includes a housing 1, in which a precision potentiometer is installed 2 inputting the value of the electromagnetic wave shortening factor with the electronic digital indicator I1 3 values of the electromagnetic wave shortening factor, a precision potentiometer 5 for setting the origin of the distance to the damage point of the cable power line, precision Potentiometer 10 for setting the reference distance to the point of damage to the cable line, the brushes of which are made with possible connection to the scanner 6 meter line inhomogeneities, precision potentiometer 12 input value of the twisting factor, digital digital indicator I3 7 counting the distance to the damaged cable power line, digital digital indicator 11 twisting factor, the adder S 4 with the first and second inputs .

Brush precision potentiometer 2 input the value of the coefficient of shortening of the electromagnetic wave is connected to the first input of the adder 4 and to the input of the electronic digital display I1 3 values of the coefficient of shortening of the electromagnetic wave. Brush precision potentiometer 12 input value of the twisting factor is connected to the second input of the adder 4 and to the input of the electronic digital indicator I2 11 values of the twisting factor. The output of the adder S 4 made with the possibility of connection to the scanner BR 6 meter inhomogeneity lines.

The output of the scanner BR 6 (the essence of the present invention is not related) is connected to the input of the generator block BG 8 (the essence of the present invention does not apply), the output of which is connected to a cathode ray tube of a CRT 9 (the essence of the present invention does not apply).

Potentiometers 2, 5, 10, 12 are connected to the power supply unit for measuring the heterogeneity of lines (to the essence of the present invention does not apply, it is not shown in Fig. 1).

The input device of the parameters of the cable power line UVP KLE works as follows.

When measuring the distance to the point of cable damage by measuring the inhomogeneity of the lines, in which the declared electrically operated camera has been installed, the operator of the electrolaboratory uses the precision potentiometer 2 to enter the value of the shortening factor of the electromagnetic wave “CUTTING” on the scale of the I1 digital indicator of the shortening of the electromagnetic wave (EMV) Kγ, corresponding to the measured type and brand of cable, taken from the memory of the meter or from the directory. When this signal is removed from the brush precision potentiometer 2 input value of the shortening factor of the electromagnetic wave "shortening" is fed to the first input of the adder S 4 and the input of the electronic digital indicator I1 3 the shortening factor. In the absence in the memory of the meter and the reference book, the shortening coefficient of the EME Kγ, the electrolaboratory operator, using the well-known method, determines the shortening coefficient of the EMB of Kγ (does not apply to the essence of the invention) and enters its value in the CLE CWL as described above.

Then, the operator of the electrolaboratory, using the knob of the precision potentiometer 12 for entering the value of the UKRUCT twisting factor, sets the value of the twisting coefficient K _{U of} the core of the damaged cable corresponding to the measured type and brand of the damaged cable, taken from the directory. The signal taken from the brush precision potentiometer 12 input value of the twisting factor "Ukrutka", is fed to the second input of the adder S 4 and the input of the electronic digital indicator I2 11 of the twisting factor. In the absence of the Kγ twist factor in the reference book, the electrolaboratory operator, using the patent from Russian Federation Pat. No. 2653583, determines the twist factor Kγ and enters its value in the CLE ULP, as described above.

In the adder S 4, the signals received from the brushes of the precision potentiometer 2 input the values of the shortening coefficient of the electromagnetic wave "LESSING" and the precision potentiometer 12 input the values of the twisting factor "LIE".

The resulting signal from the output of the adder S 4 is fed to the input of the BR 6 scanner of the line inhomogeneity meter, processed in accordance with the operating logic of the BR 6 scanner (does not apply to the essence of the present invention) and from its output goes to the BG 12 generator block, and then screen cathode ray tube CRT 9.

In addition, the input of the scanner BR 6 meter line inhomogeneities signals are taken from the brushes precision potentiometers 5 set the reference point distance to the point of damage to the cable transmission line and 10 set the distance to the point of damage to the cable line.

The distance to the point of damage to the cable transmission line is calculated on the scale of the electronic indicator I3 7 of reference to the place of damage to the cable transmission line, to the input of which a signal is taken from the brush of the precision potentiometer 10 for setting the reference distance to the point of damage to the cable line and directly by horizontal cathode ray tube CRT 9.

In this case, the brush of the precision potentiometer 5 for setting the origin of the distance to the point of damage to the cable transmission line must be moved using the “SET. CALCULATION "to align the front edge of the probe pulse with one of the scratches on the horizontal scale of the CRT 9, and the precision potentiometer brush 10 to set the distance to the cable line damage should be moved with the handle" DISTANCE "to align the beginning of the front of the reflected pulse with the reference horizontal scale of the electron beam tube CRT 9, which made the combination of the front of the probe pulse handle "SET. REFERENCE "precision potentiometer 5 installation of the reference distance to the place of damage to the cable power line.

Then, on the scale of the electronic digital indicator I3 7 of the reference of the distance to the point of damage to the cable power line, the distance to the place of damage of the cable power line is counted.

Thus, the measured distance to the point of damage to the cable power line will have a much smaller error due to the fact that when determining this distance, the value of the twisting factor K _{U of the} cable wires was taken into account by additionally installing a precision potentiometer 12 to enter the value of the twisting factor “HANDLING”, as well as the expense of the implementation of the potentiometer 5 installation of the origin of the countdown to the point of damage to the cable transmission line "INSTANT.COAT" and potentiometer 2 inputting the value of the coefficient shorter tions of the electromagnetic wave "abbreviated" precision. In addition, the instrumental measurement error is reduced due to the additional installation of the electronic digital indicator 11, the value of the twisting factor, and the execution of the indicator 3 values of the shortening coefficient of the electromagnetic wave and the indicator 7 for counting the distance to the damage point of the power transmission line by electronic digital.

Due to the fact that the distance to the place of damage to the cable transmission line, measured due to the installation of an inhomogeneity of the lines of the claimed device in the meter, will exactly match the actual distance to the place of damage to the cable transmission line on the ground, the time to determine the location of damage to the cable power line on the ground will be significantly reduced.

This will also reduce the volume and complexity of the work on the restoration of the cable power line, and the reliability of electricity supply to electricity consumers will increase.

Claims (1)

A device for inputting parameters of a cable power line, comprising a housing in which a potentiometer is installed for setting the origin of the distance to the damage of the cable power line, a precision potentiometer for setting the distance for the damage to the cable line with an indicator for the distance to the damage of the cable connection to the scanner of the meter heterogeneity lines, and the potentiometer input values of the shortening of the electric magnetic wave with an indicator of the magnitude of the shortening of the electromagnetic wave, characterized in that the housing additionally installed a precision potentiometer for entering the value of the twisting factor, an electronic digital indicator of the value of the twisting factor, an adder with the first and second inputs, with the potentiometer setting the origin to the point of damage to the cable power lines and a potentiometer for inputting the magnitude of the shortening of an electromagnetic wave are precision, and the indicator of the Electromagnetic wave shortening patient and distance indicator to the point of damage to the power transmission cable line are digitally electronic, the precision potentiometer input brush of the electromagnetic wave shortening factor is connected to the first input of the adder and the digital shortening coefficient input input, the precision potentiometer input brush of the value of the ukrut fitting factor, the value of the coefficient for the rotation of the shortening coefficient to the second input of the adder and to the input of the electronic digital display of the values of the coefficient of the IC duck, and the adder output being connected to the power scanning lines meter inhomogeneities.

Images