RU2658100C2 - Method for determining presence or absence of voltage - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: invention can be used to improve electrical safety during remote monitoring when working on electrical installations with a voltage higher than 1000 V of industrial frequency, especially in the field environment. In the method for determining the presence or absence of voltage in electrical products, in places of insulation absence a complex chemical compound of octahedral structure with a high magnetization degree is applied on them, when the current passes over 1000 V the chemical composition causes glowing and stops it when the current disappears. Ferric ferrocyanide with the modified formula (Ni_0.22, Mn_0.60Fe_0.18)_1.5[Cr(CN)₆]×7.6H₂O or nickel salt of formic acid Ni(HCOO)₂×2H₂O is used as a complex chemical compound of the octahedral structure with a high magnetization degree.

EFFECT: method for determining the presence or absence of voltage allows to quickly and accurately determine the voltage, reduces monitoring time and improves performance.

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Description

The invention relates to electrical engineering and can be used to improve electrical safety during remote monitoring when performing work on electrical installations with voltages above 1000 V of industrial frequency, especially in the field.

There is a method of determining the presence or absence of voltage in electrical installations, in which the presence or absence of an alternating voltage in current-carrying parts is monitored, when it is converted, it is converted into a direct current signal, the value of which is compared with a predetermined threshold signal and the presence or absence of voltage is judged by the result of the comparison in live parts, in this case, if after comparing the received and given threshold signals, the resulting signal is greater than zero, it is transmitted to the indication elements splendens voltage if a signal equal in magnitude or smaller than the predetermined threshold signal, then transmitting the indicating elements are not performed, and judging the absence of a voltage [USSR №1624340, IPC G01R 19/155, publ. 01/30/91, BI No. 4, author Szeged A.P. "Voltage Index"].

The disadvantage of this method of determining the presence or absence of voltage in electrical installations is carried out once during a certain working period, necessary for carrying out, for example, repair work, which does not ensure the safety of personnel in case of accidental supply of voltage to electrical installations.

There is also a method for determining the presence or absence of voltage, which consists in controlling the presence or absence of alternating voltage in the live parts of the controlled electrical installation, during which the value of the alternating voltage in the live parts of the controlled electrical installation is converted into a direct current signal, based on which the presence or absence of voltage in current-carrying parts of a controlled electrical installation, monitoring the presence or absence of alternating voltage in current-carrying parts controlled electrical installations are carried out continuously, while the resulting DC signal is converted into a signal for wireless transmission, bearing a fixed code sequence, which is transmitted to N receiving devices, which compare the received code sequence with an additionally fixed fixed reference code sequence, with matching code sequences in each the receiving device generates a control signal, which is fed to the display elements and confirm on the presence of voltage when the code sequences do not match, the control signal is not generated and the indication is not produced [RF No. 2294542, G01R 19/155, publ. 02/27/2007, BI No. 6, author of the Red A.A. and others. "A method for determining the presence or absence of voltage in existing electrical installations"].

The disadvantage of this method is the difficulty of determining the presence or absence of voltage, low reliability of the readings.

This technical solution is selected by the authors as a prototype.

The technical result is continuous monitoring of the presence of voltage or its absence during operation of electrically conductive units and electrical installations with voltages above 1000 V, without special actions.

The technical result is achieved by spraying the surface of electrical products without insulation. A complex chemical composition with a high degree of magnetization is applied to an electrical conductor, which in the presence of a current with a voltage above 1000 V in the electromagnetic field begins to glow. It is also possible to add a powdered complex chemical compound to the metal structure, which will allow you to visualize the electromagnetic field that can appear around the conductor in the presence of the passage of current, due to the many microparticles of the chemical compound with this ability.

As a complex chemical composition for coloring the electromagnetic field, Berlin blue with the modified formula (Ni _0.22 , Mn _0.60 Fe _0.18 ) _1.5 [Cr (CN) ₆ ] × 7.6H ₂ O or the nickel salt of formic acid Ni (HCOO) ₂ × 2Н _{2 is used} O.

The proposed method for determining the presence or absence of voltage allows you to quickly and reliably signal the presence of voltage or its absence, reduces the time of its determination, does not require large installation work.

Claims (3)

1. A method for determining the presence or absence of voltage in electrical products, which consists in monitoring the presence of voltage or absence, characterized in that a complex chemical compound of an octahedral structure with a high degree of magnetization is applied to electrical products, when the current passes over 1000 V, the complex chemical compound has a glow which stops when current disappears. 2. The method according to p. 1, characterized in that as a complex chemical compound of the octoendric structure with a high degree of magnetization use Berlin blue with a modified formula (Ni _0.22 Mn _0.60 Fe _0.18 ) _1.5 [Cr (CN) ₆ ] × 7.6H ₂ O or nickel salt of formic acid Ni (HCOO) ₂ × 2H ₂ O