RU2747778C1 - Method of protective earthing of air power line (options) - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: invention relates to methods of laying, wiring, operating, repairing or dismantling power cables and power lines, namely, to protective grounding of overhead wire lines (options). The method of protective grounding of an overhead power transmission line according to option No. 1 includes the grounding of an overhead power transmission line electrically connected by portable grounding with its own grounding contour of the support or an artificial ground electrode mechanically submerged into the ground to a depth of at least one meter, while the overhead power line is additionally grounded, electrically connecting with the help of grounding wires with existing natural grounding using clamps. According to the method of protective grounding of the overhead power transmission line according to option No. 2, they are additionally grounded, electrically connected by means of grounding wires to stationary grounding loops using clamps.

EFFECT: increasing the level of electrical safety of personnel, excluding cases of electrical injury to employees.

12 cl, 2 dwg

Description

The invention relates to methods of laying, wiring, operating, repairing or dismantling power cables and power lines, and in particular to protective grounding of overhead wire lines.

The grounding of the overhead power line at the work site is the main measure to ensure the safety of workers from electric shock in the event of an erroneous or accidental voltage supply to the work site or induced voltage.

With a properly installed grounding, portable grounding loops reliably protect workers. If a voltage is applied to the line, a short circuit occurs, causing the corresponding switching devices to switch off.

Known "Rules for labor protection during the operation of electrical installations" dated July 24, 2013 No. 328n (http://www.consultant.ru/document/cons doc_LAW_156148 /) and "Safety rules for the operation of electrical installations of traction substations and power supply areas of the railways of JSC Russian Railways "dated June 13, 2017 No. 1105r (http://moskovchenko.com/project/ 1105r_ot_13_06_2017_vzamen_4054.pdf). according to clause 5.23 of which, at present, the maintenance of overhead lines with a voltage of 6 kV, 10 kV, 35 kV (with an isolated neutral of the transformer) is performed after they are disconnected and grounded on both sides of the work site, with one-way power supply - on the power side. The grounding of overhead line wires located on free-standing supports should be carried out on their own grounding contours of the supports or on a special ground electrode made of a steel pipe with a diameter of at least 50 mm or angle steel with a size of at least 50 × 50 mm, immersed vertically mechanically into the ground at least one meter.

A significant disadvantage of the known method of grounding an overhead power transmission line with a voltage of 6 kV, 10 kV, 35 kV (with an isolated neutral of the transformer) is that the resistance to current spreading of the support circuit and a special artificial ground electrode is not measured and, as a rule, exceeds the normalized safe value by more than 10 times. In this case, the contours of the supports and artificial grounding devices do not provide the necessary potential reduction in the event of an erroneous or accidental voltage supply to the place of work, which leads to electrical injury to workers. The location of overhead lines in marshy and rocky soils, as well as during their maintenance in winter, significantly complicates the grounding of the overhead power line.

The highest permissible values of the resistances of grounding devices, depending on the value of soil resistivity, are standardized by the "Rules for the Installation of Electrical Installations" (https://minstroy.gov-murman.ru/files/4.14-_-pue_tekst.pdf) Table. 1.8.38. For overhead lines with voltage over 1 kV with soil resistivity up to 100 Ohm⋅m, the permissible value of the resistance of grounding devices is 10 Ohm; more than 100 Ohm⋅m up to 500 Ohm⋅m - 15 Ohm; more than 500 Ohm⋅m up to 1000 Ohm⋅m - 25 Ohm; more than 1000 Ohm⋅m up to 5000 Ohm⋅m - 30 Ohm; more than 5000 Ohm - p-610 ^-3 Ohm. If these values are exceeded, measures should be taken to bring the resistances of the grounding devices to the specified value.

In 2010, an electrician of the power supply region received a severe electrical injury on the Sverdlovsk railway. According to the measurements of the resistance of the grounding of the contours of the supports at the place of work of the brigade, to which the portable groundings were connected, were: on the support No. 15 - 400 Ohm, on the support No. 16 - 80 Ohm, with the standard value - 30 Ohm.

This violation led to the fact that the victim, having installed portable grounding on the grounding slopes of supports No. 15, 16, which did not have certificates and measurement protocols, and taking into account the high resistances of the grounding circuits of these supports, fell into a gap between two different-potential ground loops.

The technical task is to create a method of protective grounding of overhead power lines, which will reliably protect workers from electric shock.

The technical result is an increase in the level of electrical safety of personnel, the exclusion of cases of electrical injury to workers.

To solve the technical problem and achieve the specified technical result, 2 variants of the method of protective grounding of overhead power transmission lines have been developed.

Option number 1:

In the method of protective grounding of an overhead power transmission line, including grounding of an overhead power transmission line, electrically connected by portable grounding with its own grounding contour of the support or an artificial ground electrode, mechanically submerged into the ground to a depth of at least one meter, according to the invention, the overhead power transmission line is additionally grounded by electrically connecting using grounding wires with existing natural grounding conductors.

For electrical communication, grounding wires with a copper equivalent cross section of at least 50 mm ^{2 are used} .

When connecting the ends of the grounding wire, clamps are used.

Artificial structures, water towers, electrically conductive parts of building and industrial structures and communications can be used as existing natural ground electrodes.

Option number 2:

In the method of protective grounding of an overhead power transmission line, including grounding of an overhead power transmission line, electrically connected by portable grounding with its own grounding contour of the support or an artificial ground electrode, mechanically submerged into the ground to a depth of at least one meter, according to the invention, the overhead power transmission line is additionally grounded by electrically connecting using grounding wires with stationary grounding loops.

For electrical communication, grounding wires with a copper equivalent cross section of at least 50 mm ^{2 are used} .

When connecting the ends of the grounding wire, clamps are used.

The essence of the invention is illustrated by the figures.

FIG. 1 shows a diagram of a method for protective grounding of an overhead power transmission line according to option No. 1 of the invention; in fig. 2 is a diagram of a method of protective grounding of an overhead power transmission line to option No. 2 of the invention.

The scheme according to option No. 1 of the invention (Fig. 1) includes an overhead power line 1, portable grounding (PZ) 2, limiting the place of work, existing natural ground electrodes 3, electrically connected by grounding wires 4 with wires of the overhead power line 1 by clamps 5.

An example of the implementation of the method of protective grounding of an overhead power transmission line according to option No. 1.

Before carrying out work, determine the presence of natural ground electrodes 3 (Fig. 1), measure and analyze the actual values of the spreading resistance. After the organizational and technical measures taken, the voltage is removed from the overhead power line 1 by means of switching equipment, taking measures to prevent erroneous voltage supply to the work site. Issue an order to the manufacturer of works to carry out work and install portable grounding 2 and additional grounding of an overhead power transmission line 1 on the contours of existing natural ground electrodes at the work site 3. The ends of a grounding wire 4 with a copper equivalent of at least 50 mm ^{2 are} connected to an overhead power line 1 and to the existing natural ground electrode with 3 clamps 5. The existing (random) natural ground electrodes are used, for example: artificial structures, water towers and electrically conductive parts of building and industrial structures and communications.

The application of the method of protective grounding of the overhead power transmission line according to option No. 2 of the invention (Fig. 2) is relevant in the absence or considerable distance from the overhead power transmission line of natural ground electrodes 3 (Fig. 1).

The scheme according to option No. 2 of the invention (Fig. 2) includes an overhead power line 1, portable grounding 2 (PZ), limiting the place of work, a stationary ground loop (SZK) 6, electrically connected by a ground wire 4 with wires of an overhead power line 1. Ends of the grounding wires 4 are connected to the overhead power line 1 and to the stationary grounding loop 6 with clamps 5.

An example of the implementation of the method of protective grounding of an overhead power transmission line according to option No. 2.

Stationary grounding loops are installed in advance before the work on the overhead power transmission line. The stationary ground loop consists of three artificial ground electrodes, mechanically submerged vertically into the ground for at least 1 meter. Artificial ground electrodes are electrically connected to each other. The number of stationary grounding loops is determined by calculation for each overhead power line individually, and the place of their installation is determined depending on local conditions and approved by the person responsible for the electrical system. The resistance of the stationary grounding loop is measured once every 6 months and the data is entered into the passport of the stationary grounding loop.

First, determine the location of the installation of stationary grounding loops 6. Then they install the stationary grounding loops 6, measure and analyze the actual values of the spreading resistance of the stationary grounding loops 6. After the organizational and technical measures taken, the voltage is removed from the overhead power line 1 by means of switching equipment, taking measures to prevent erroneous supply of voltage to the place of work. Issue an order to the manufacturer of work to carry out work with the installation of portable grounding 2 and additional grounding of the overhead power transmission line 1 to stationary grounding loops at the work site 6. The ends of the grounding wire 4 with a cross-section in a copper equivalent of at least 50 mm ^{2 are} connected to the overhead power line 1 and to stationary grounding loops 6 clamps 5.

Thus, the use in the method of protective grounding of the overhead power transmission line of additional grounding of the overhead power transmission line according to option No. 1 - to the existing contours of natural grounding conductors, and in the absence of the latter or their significant distance from the overhead power transmission line, the use of additional grounding of the overhead power transmission line to stationary grounding loops (according to option No. 2) will provide an increase in the level of electrical safety and guaranteed protection of workers from injury by electric shock.

Claims (12)

1. A method of protective grounding of an overhead power transmission line, including grounding of an overhead power transmission line, electrically connected by portable grounding with its own grounding contour of the support or an artificial ground electrode, mechanically submerged into the ground to a depth of at least one meter, characterized in that the overhead power line is additionally grounded, electrically connecting by means of grounding wires to existing natural grounding conductors. 2. The method of protective grounding according to claim 1, characterized in that grounding wires with a copper equivalent cross-section of at least 50 mm ² are used for electrical communication. 3. The method of protective grounding according to claim 1, characterized in that clamps are used when connecting the ends of the grounding wire. 4. The method of protective grounding according to claim 1, characterized in that artificial structures are used as existing natural ground electrodes. 5. The method of protective grounding according to claim 1, characterized in that water towers are used as existing natural ground electrodes. 6. The method of protective grounding according to claim 1, characterized in that electrically conductive parts of building structures are used as existing natural ground electrodes. 7. The method of protective grounding according to claim 1, characterized in that electrically conductive parts of industrial structures are used as existing natural grounding conductors. 8. The method of protective grounding according to claim 1, characterized in that electrically conductive parts of construction communications are used as existing natural grounding conductors. 9. The method of protective grounding according to claim 1, characterized in that electrically conductive parts of industrial communications are used as existing natural grounding conductors. 10. A method of protective grounding of an overhead power transmission line, including grounding of an overhead power transmission line, electrically connected by portable grounding with its own grounding contour of the support or an artificial ground electrode, mechanically submerged into the ground to a depth of at least one meter, characterized in that the overhead power transmission line is additionally grounded, electrically connecting by means of grounding wires to stationary grounding loops. 11. The method of protective grounding of an overhead power transmission line according to claim 10, characterized in that grounding wires with a copper equivalent of at least 50 mm ² are used for electrical communication. 12. The method of protective grounding of an overhead power transmission line according to claim 10, characterized in that when connecting the ends of the grounding wire, clamps are used.

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