RU166006U1 - HIGH VOLTAGE MEASURING VOLTAGE CONVERTER - Google Patents

Abstract

A high voltage voltage transducer comprising a resistive voltage divider, consisting of a high voltage arm and a low voltage arm, placed in an insulator and filled with a solid-state dielectric, the low voltage arm is made in the form of a resistor, and the high voltage arm is made in the form of a chain of several series-connected resistors, the first the output of the high voltage arm is connected to a high potential, the second output of the high voltage arm is connected to the first output of the low voltage pl cha, and the second terminal of the low-voltage arm is connected to zero potential, characterized in that it additionally contains two screen rings mounted coaxially to the axis of the insulator in its upper part, located under the potential of the high-voltage conductor, while the voltage divider resistors are located on the inner surface of the insulator in a spiral equipotentials of the electromagnetic field.

Description

The utility model relates to measuring equipment, in particular to measuring devices of constant and alternating voltage.

Known high-voltage voltage divider (Patent for the invention of the Russian Federation No. 2026555, IPC G01P 15/00, 1991), adopted as a prototype containing a low voltage arm, made in the form of a parallel connected resistor and capacitor, a coaxial screen and a high voltage arm, made in the form of a chain of n series-connected resistors, the first terminal of which is connected to a high potential, the second terminal of the chain is connected to the first terminal of a low-voltage arm, the second terminal of which is connected to a zero potential, the coaxial screen is connected to the junction point of the high-voltage and low-voltage arms, the capacitance of a cylindrical capacitor formed by the resistive circuit of the high-voltage arm and a coaxial screen is the input capacitance of the high-voltage arm.

The disadvantage of this device is the lack of accuracy of voltage measurement due to the significant influence of external electromagnetic fields on the measurement results.

The technical result is to increase the accuracy of voltage measurement.

The technical result is achieved by the fact that a high-voltage voltage transducer comprising a resistive voltage divider, consisting of a high-voltage arm and a low-voltage arm, placed in an insulator and filled with a solid-state dielectric, wherein the low-voltage arm is made in the form of a resistor, and the high-voltage arm is made in the form of a chain of several series-connected resistors, with the first terminal of the high voltage arm connected to a high potential, the second terminal of the high voltage arm n It is connected to the first output of the low-voltage arm, and the second output of the low-voltage arm is connected to the zero potential, additionally contains two screen rings mounted coaxially to the axis of the insulator in its upper part, located under the potential of the high-voltage conductor, while the voltage divider resistors are located on the inner surface of the insulator in a spiral equipotentials of the electromagnetic field.

In FIG. 1 shows the design of a high voltage voltage transducer.

In FIG. 1, the following notation is used: upper flange 1, insulating cover 2, fiberglass pipe 3, resistive voltage divider 4, lower flange 5, first shield ring 6, second shield ring 7, solid dielectric 8.

The high voltage voltage transmitter shown in FIG. 1, contains a resistive voltage divider 4, placed in an insulator consisting of an upper flange 1, an insulating cover 2, fiberglass pipe 3 and a lower flange 5, and filled with a solid-state dielectric 8. Resistors of the voltage divider 4 are located on the inner surface of the insulator (fiberglass pipe 3) in a spiral at equipotentials of the electromagnetic field. This arrangement allows you to reduce the value of self-heating of the resistors when an electric current flows through them (due to a decrease in thermal resistance), which in turn allows the use of resistors of lower resistance. When using resistors with lower resistance, the magnitude of the electric current flowing through the resistors increases, and accordingly, the influence of capacitive currents on it decreases (the ratio of the current through the resistors to capacitive currents increases), and the effect of the external electromagnetic field on the measurement results also decreases. The location of the resistors on the inner surface of the insulator in a spiral at equipotentials of the electromagnetic field can reduce the value of capacitive currents, and accordingly, increase the accuracy of voltage measurement. In the upper part of the insulator are the first screen ring 6 and the second screen ring 7, mounted coaxially to its axis and under the potential of the high-voltage conductor. Screen rings 6 and 7 are designed to equalize the potential distribution inside the high-voltage voltage measuring transducer, which reduces the value of capacitive currents that affect the accuracy of voltage measurements by the resistive divider and the influence of external electromagnetic fields. The radii of the screen rings 6 and 7 are selected according to the condition of maximum equalization of the potential distribution. Studies performed on three-dimensional mathematical models with distributed parameters show that when installing screen rings, the uneven distribution of resistors on the outer surface of the insulator, the phase error in measuring AC voltage decreases by more than three times.

High voltage measuring voltage Converter operates as follows. When high potential is applied to the first input of the high voltage arm of the resistive voltage divider 4, the first shield ring 6 and the second shield ring 7, a voltage drop is observed on the low voltage arm. This voltage drop is fed to information consumers devices (relay protection and automation, automated information and measurement systems for commercial electricity metering).

Thus, the application of the claimed technical solution provides improved accuracy of voltage measurement.

Claims (1)

A high voltage voltage transducer comprising a resistive voltage divider, consisting of a high voltage arm and a low voltage arm, placed in an insulator and filled with a solid-state dielectric, the low voltage arm is made in the form of a resistor, and the high voltage arm is made in the form of a chain of several series-connected resistors, the first the output of the high voltage arm is connected to a high potential, the second output of the high voltage arm is connected to the first output of the low voltage pl cha, and the second terminal of the low-voltage arm is connected to zero potential, characterized in that it additionally contains two screen rings mounted coaxially to the axis of the insulator in its upper part, located under the potential of the high-voltage conductor, while the voltage divider resistors are located on the inner surface of the insulator in a spiral equipotentials of the electromagnetic field.

Images