The dimensions of the transformer compartment ktp in terms of pue. Dimensions of the transformer compartment of the ktp from the point of view of the pue Intra-workshop switchgear and transformer substations

4.2.123

The connection of the transformer to the higher voltage network must be carried out using fuses and a disconnector (load switch) or a combined fuse-disconnector with a visible open circuit.

The switching device must be controlled from the ground. The drive of the switching device must be padlockable. The switching device must have earthing switches on the side of the transformer.

4.2.124

The switching device MTP and STP, as a rule, should be installed on the terminal (or branch) support of the overhead line.

The switching device of KTP and SSP can be installed both on the terminal (branch) support of the overhead line, and inside the KTP and SSP.

4.2.125

At substations and SSPs without fencing, the vertical distance from the ground surface to non-insulated current-carrying parts in the absence of traffic under the terminals should be at least 3.5 m for voltages up to 1 kV, and for voltages of 10 (6) and 35 kV - according to Table. 4.2.7 size .

At substations and SSPs with a fence at least 1.8 m high, the indicated distances to uninsulated current-carrying parts with a voltage of 10 (6) and 35 kV can be reduced to the size specified in Table 4.2.5. At the same time, in the plane of the fence, the distance from the busbar to the edge of the external fence must be at least the size specified in the same table.

For air inlets crossing passages or places where traffic is possible, the distance from the lower wire to the ground should be taken in accordance with 2.5.111 and 2.5.112.

4.2.126

To service the MTP at a height of at least 3 m, a platform with railings should be arranged. For climbing to the site, it is recommended to use ladders with a device that prohibits climbing on it when the switching device is turned on.

For STP, the device of platforms and stairs is not necessary.

4.2.127

Parts of the MTP that remain energized when the switching device is turned off must be out of reach (1.7.70) from the site level. The disabled position of the apparatus must be visible from the site.

4.2.128

On the low voltage side of the transformer, it is recommended to install a device that provides a visible break.

4.2.129

The wiring in the MTP and STP between the transformer and the low-voltage shield, as well as between the shield and the low voltage overhead line, must be protected from mechanical damage and be carried out in accordance with the requirements given in Chapter 2.1.

4.2.130

For substations with a capacity of 0.25 MVA and less, lighting of the low-voltage shield is not allowed. Lighting and sockets for turning on portable devices, tools at substations with a capacity of more than 0.25 MVA must be powered by a voltage not exceeding 25 V.

4.2.131

By condition fire safety substations should be located at a distance of at least 3 m from buildings of I, II, III degrees of fire resistance and 5 m from buildings of IV and V degrees of fire resistance.

It is also necessary to be guided by the requirements given in 4.2.68.

The distance from residential buildings to transformer substations should be taken at least 10 m, provided that acceptable normal levels of sound pressure (noise) are ensured.

4.2.132

In places of possible collision with vehicles, substations should be protected by bollards.

The dimensions of the transformer compartment are often determined dimensions the most complete transformer substation and have a significant impact on the cost of production.

How to correctly determine the dimensions of the transformer compartment? It turns out that the Electrical Installation Rules (PUE) are not entirely consistent on this issue and require expert comments.

It would seem that paragraph 4.2.217 unambiguously defines the required distances:

"4.2.217. For transformers installed indoors, clear distances from the most protruding parts of transformers located at a height of 1.9 m or less from the floor should be:

to the rear and side walls at least 0.3 m - for transformers with a capacity of up to 0.63 MB·A and 0.6 m - for transformers of higher power;
from the entrance side to the door leaf or protruding parts of the wall, at least: 0.6 m - for transformers with a capacity of up to 0.63 MVA; 0.8 m - for transformers up to 1.6 MVA and 1 m - for transformers with a power of more than 1.6 MVA.

However, it turns out that everything is not so simple, because the attentive reader will find at the beginning of the chapter paragraph 4.2.203, which actually cancels these requirements:

"4.2.203. The requirements given in 4.2.204-4.2.236 apply to fixed indoor installation and to outdoors power transformers (autotransformers), control transformers and oil-filled reactors with a higher voltage of 3 kV and higher and do not apply to special-purpose electrical installations.

The transformers, autotransformers and reactors referred to in this paragraph are referred to in 4.2.204-4.2.236 by the term "transformers".

Installation of auxiliary equipment of transformers (electric motors of the cooling system, instrumentation, control devices) must comply with the requirements of the relevant chapters of these Rules.

Requirements 4.2.212, 4.2.217, 4.2.218 do not apply to the installation of transformers included in the PTS with a higher voltage up to 35 kV. "

That is, it turns out that paragraph 4.2.217, which determines the dimensions of the transformer compartment, does not apply to complete transformer substations?

We turned to Rostekhnadzor specialists for clarification and received the following response.

Formally, clause 4.2.217 can be ignored when designing a PTS, however, in the event of conflict situations, Rostekhnadzor may take the side of the letter of the law and demand that the conditions of clause 4.2.217 be met.

At the same time, it is necessary to take into account one more paragraph of the PUE, which gives the controlling organizations greater freedom of action, namely clause 4.2.205:

"4.2.205. Installation of transformers should provide convenient and safe conditions his examination without relieving stress."

Thus, the requirements of clause 4.2.217 regarding the dimensions of the transformer compartment of the KTP should not be violated unless absolutely necessary. If such a need exists, then it is advisable to inform the customer about the pitfalls in this matter in the Electrical Installation Rules.

Introduction date 2003-10-01

Foreword

PREPARED BY JSC "ROSEP", co-executor - JSC "Firma ORGRES"

AGREED in the prescribed manner with the Gosstroy of Russia, Gosgortekhnadzor of Russia, RAO "UES of Russia" (JSC "VNIIE") and submitted for approval by the Gosenergonadzor of the Ministry of Energy of Russia

From October 1, 2003, Chapter 2.4 of the "Electrical Installation Rules" of the sixth edition becomes invalid

The requirements of the Electrical Installation Rules are mandatory for all organizations, regardless of ownership and organizational and legal forms, as well as for individuals employed entrepreneurial activity without forming a legal entity.

Application area. Definitions

2.4.1. This chapter of the Rules applies to air lines power transmission alternating current voltage up to 1 kV, performed using insulated or bare wires.

Additional requirements for overhead lines up to 1 kV are given in chapters 2.5, 6.3 and 7.7.

Cable inserts into the line and cable branches from the line must be made in accordance with the requirements of Chapter 2.3.

2.4.2. Overhead line (VL) of power transmission with voltage up to 1 kV - a device for the transmission and distribution of electricity through insulated or non-insulated wires located in the open air and attached by linear fittings to supports, insulators or brackets, to building walls and to engineering structures.

An overhead power line with a voltage of up to 1 kV using self-supporting insulated wires (SIP) is designated VLI.

Self-supporting insulated wire - insulated conductors twisted into a bundle, and the carrier conductor can be either insulated or uninsulated. The mechanical load can be taken either by the carrier conductor or by all conductors of the bundle.

2.4.3. Highway VL - a section of the line from the supply transformer substation to the end support.

Linear branches or branches to the input can be connected to the overhead line.

Linear branch from the overhead line - a section of the line connected to the main overhead line, having more than two spans.

A branch from the overhead line to the input is the section from the support of the main line or linear branch to the clamp (input insulator).

A branch from the VLI is allowed to be performed in the span.

2.4.4. The state of the overhead line in the calculations of the mechanical part:

normal mode - mode with unbroken wires;

emergency mode - mode with broken wires;

installation mode - mode in the conditions of installation of supports and wires.

Mechanical calculation of overhead lines up to 1 kV in emergency mode is not performed.

General requirements

2.4.5. The mechanical calculation of the elements of the overhead line should be carried out according to the methods described in Chapter 2.5.

2.4.6. Overhead power lines should be placed so that the supports do not block the entrances to buildings and entrances to courtyards and do not impede the movement of vehicles and pedestrians. In places where there is a danger of collision with vehicles (at the entrances to yards, near exits from roads, at the intersection of roads), the supports must be protected from collision (for example, by bollards).

2.4.7. On the overhead line supports at a height of at least 2 m from the ground after 250 m on the overhead line, the following should be installed (applied): the serial number of the support; posters showing the distances from the overhead line pole to the cable communication line (on poles installed at a distance of less than 4 m from the communication cables), width security zone and phone owner VL.

2.4.8. When passing VLI through forests and green spaces, clearing is not required. At the same time, the distance from the wires to trees and bushes with the largest SIP sag and their largest deviation should be at least 0.3 m.

When passing overhead lines with uninsulated wires through forests and green spaces, cutting down the clearing is not necessary. At the same time, the distance from the wires with the largest sag or the largest deviation to trees and bushes should be at least 1 m.

The distance from insulated wires to green spaces should be at least 0.5 m.

2.4.9. The structures of the overhead line supports must be protected from corrosion, taking into account the requirements of 2.5.25, 2.5.26 and building codes and regulations.

2.4.10. Protection of overhead lines from electrical overloads should be carried out in accordance with the requirements of Chapter 3.1.

Climatic conditions

2.4.11. Climatic conditions for the calculation of overhead lines up to 1 kV in normal mode should be taken as for overhead lines up to 20 kV in accordance with 2.5.38-2.5.74. In this case, for overhead lines up to 1 kV, the following should be taken:

when calculating according to 2.5.52: = 1.1 - for SIP, free or covered with ice;

when calculating according to 2.5.54 and 2.5.55:

0.8 - for single-circuit overhead lines;

0.9 - for single-circuit overhead lines with suspension on PV supports;

1.0 and 1.2 - for double-circuit and multi-circuit overhead lines, as well as for suspension on overhead line supports of a self-supporting non-metallic optical cable (OKSN);

1.0 and 1.0 - in all cases.

2.4.12. The calculation of the span length of the branch from the overhead line to the input according to 2.4.20 must be carried out in icy conditions for two cases:

1) wind direction at an angle of 90 ° to the axis of the overhead line, the wires of the overhead line are covered with ice, the thickness of the ice wall on the branch wires;

2) wind direction along the overhead line (angle 0°), ice wall thickness on branch wires .

In this case, in both cases, one should take into account the reduction in the tension of the branch wires when the top of the support is deflected.

Wires. Linear reinforcement

2.4.13. On overhead lines, as a rule, self-supporting insulated wires (SIPs) should be used.

SIP should be classified as protected, have insulation made of slow-burning, light-stabilized synthetic material that is resistant to ultraviolet radiation and ozone.

2.4.14. According to the conditions of mechanical strength on the mains of the overhead line, on the linear branch from the overhead line and on the branches to the inputs, wires with the minimum sections indicated in tables 2.4.1 and 2.4.2 should be used.

Table 2.4.1

Minimum allowable sections of insulated wires

________________
* In parentheses is the cross section of the core of self-supporting insulated wires twisted into a bundle, without a carrier wire.

Table 2.4.2

Minimum allowable sections of bare and insulated wires

Normative ice wall thickness, mm	Wire material	Wire cross-section on the main and linear branch, mm
	Aluminum (A), non-heat-treated aluminum alloy (AN)
	Steel-aluminum (AS), heat treated aluminum alloy (AJ)


15 or more	A, AN AS, AZ M

2.4.15. When constructing overhead lines in places where operating experience has established the destruction of wires from corrosion (the coasts of the seas, salt lakes, industrial areas and areas of saline sands), as well as in places where, based on survey data, it is possible, self-supporting insulated wires with an insulated core should be used. .

2.4.16. The overhead line, as a rule, should be carried out with wires of a constant cross section.

2.4.17. The mechanical calculation of wires shall be carried out according to the allowable stress method for the conditions specified in 2.5.38-2.5.74. In this case, the voltages in the wires should not exceed the allowable voltages given in Table 2.4.3, and the distances from the wires to the ground surface, intersected structures and grounded support elements must meet the requirements of this chapter.

Table 2.4.3

Permissible mechanical stress in the wires of overhead lines up to 1 kV

	Permissible stress, % tensile strength
	at highest load and lowest temperature	at an average annual temperature
SIP with a section of 25-120 mm
Aluminum section, mm:


From heat-treated and non-heat-treated aluminum alloy with a cross section, mm:


Steel-aluminum section, mm:

When calculating, the wire parameters given in Table 2.5.8 are used.

2.4.18. All types of mechanical loads and impacts on SIP with a carrier core should be taken by this core, and on SIP without a carrier wire, all cores of a twisted bundle should be perceived.

2.4.19. The length of the span of the branch from the overhead line to the input should be determined by calculation depending on the strength of the support on which the branch is performed, the height of the suspension of the branch wires on the support and at the input, the number and cross section of the wires of the branch wires.

At distances from the overhead line to the building exceeding the calculated span of the branch, the required number of additional supports is installed.

2.4.20. The choice of the section of current-carrying conductors for a long time admissible current should be carried out taking into account the requirements of Chapter 1.3.

The cross section of current-carrying conductors must be checked according to the condition of heating during short circuits (SC) and for thermal stability.

2.4.21. Fastening, connection of the SIP and connection to the SIP should be done as follows:

1) fastening the wire of the VLI highway on intermediate and angular intermediate supports - using supporting clamps;

2) fastening the wire of the VLI main on anchor-type supports, as well as the end fastening of the branch wires on the VLI support and at the input - using tension clamps;

3) connection of the VLI wire in the span - using special connecting clamps; in the loops of anchor-type supports, it is allowed to connect an uninsulated carrier wire using a ram clamp. Connecting clamps designed to connect the carrier wire in the span must have a mechanical strength of at least 90% of the breaking force of the wire;

4) connection of the phase wires of the VLI line - using connecting clamps having an insulating coating or a protective insulating sheath;

5) connection of wires in the span of a branch to the input is not allowed;

6) connection of grounding conductors - using flat clamps;

7) branch clamps should be used in the following cases:

branches from phase conductors, with the exception of SIP with all carrier conductors of the bundle;

branches from the carrier core.

2.4.22. Fastening of supporting and tension clamps to VLI supports, walls of buildings and structures should be carried out using hooks and brackets.

2.4.23. The design forces in the support and tension clamps, attachment points and brackets in normal mode should not exceed 40% of their mechanical breaking load.

2.4.24. Wire connections in spans of overhead lines should be made using connecting clamps that provide mechanical strength of at least 90% of the breaking force of the wire.

In one span of overhead lines, no more than one connection is allowed for each wire.

In the spans of the intersection of overhead lines with engineering structures, the connection of overhead lines is not allowed.

The connection of wires in the loops of the anchor supports should be made using clamps or welding.

Wires of different brands or sections should be connected only in the anchor support loops.

2.4.25. Fastening bare wires to insulators and insulating traverses on overhead lines, with the exception of supports for crossings, is recommended to be single.

Fastening of bare wires to pin insulators on intermediate supports should be carried out, as a rule, on the neck of the insulator on its inner side with respect to the support post.

2.4.26. Hooks and pins should be calculated in the normal mode of operation of the overhead line according to the method of breaking loads.

In this case, the forces shall not exceed the values given in 2.5.101.

Arrangement of wires on poles

2.4.27. On supports, any arrangement of insulated and uninsulated wires of overhead lines is allowed, regardless of the area of \u200b\u200bclimatic conditions. The neutral wire of overhead lines with bare wires, as a rule, should be located below the phase wires. Insulated outdoor lighting wires laid on VLI supports can be placed above or below the SIP, and also be twisted into a SIP bundle. Uninsulated and insulated outdoor lighting wires laid on overhead line supports should, as a rule, be located above PEN (PE) conductor VL.

2.4.28. Devices mounted on supports for connecting electrical receivers must be placed at a height of at least 1.6 m from the ground.

Protective and sectioning devices installed on supports should be placed below the wires of the overhead line.

2.4.29. The distances between uninsulated wires on the support and in the span, according to the conditions of their convergence in the span with the largest sag up to 1.2 m, must be at least:

at vertical arrangement wires and the location of wires with a horizontal displacement of not more than 20 cm: 40 cm in I, II and III regions on ice, 60 cm in IV and special regions on ice;

at other locations of wires in all areas on ice at wind speed on ice: up to 18 m / s - 40 cm, more than 18 m / s - 60 cm.

With the largest sag of more than 1.2 m, the indicated distances must be increased in proportion to the ratio of the largest sag to the sag of 1.2 m.

2.4.30. The vertical distance between insulated and non-insulated wires of overhead lines of different phases on a support at a branch from an overhead line and at the intersection of different overhead lines on a common support must be at least 10 cm.

The distance from the wires of the overhead line to any support elements must be at least 5 cm.

2.4.31. When jointly suspended on common supports of VLI and VL up to 1 kV, the vertical distance between them on the support and in the span at an ambient temperature of plus 15 ° C without wind should be at least 0.4 m.

2.4.32. When two or more VLIs are jointly suspended on common supports, the distance between the SIP bundles must be at least 0.3 m.

2.4.33. When jointly suspended on common supports of wires of overhead lines up to 1 kV and wires of overhead lines up to 20 kV, the vertical distance between the nearest wires of overhead lines of different voltages on a common support, as well as in the middle of the span at an ambient temperature of plus 15 ° C without wind, should be at least:

1.0 m - when hanging SIP with an insulated carrier and with all carrier wires;

1.75 m - when hanging SIP with an uninsulated carrier wire;

2.0 m - when hanging uninsulated and insulated wires of overhead lines up to 1 kV.

2.4.34. When hanging on common supports wires of overhead lines up to 1 kV and protected wires of overhead lines 6-20 kV (see 2.5.1), the vertical distance between the nearest wires of overhead lines up to 1 kV and overhead lines 6-20 kV on the support and in the span at a temperature of plus 15 ° С without wind should be at least 0.3 m for SIP and 1.5 m for uninsulated and insulated wires of overhead lines up to 1 kV.

Insulation

2.4.35. Self-supporting insulated wire is attached to the supports without the use of insulators.

2.4.36. On overhead lines with uninsulated and insulated wires, regardless of the material of the supports, the degree of atmospheric pollution and the intensity of lightning activity, insulators or traverses made of insulating materials.

Selection and calculation of insulators and fittings are carried out in accordance with 2.5.100.

2.4.37. On the supports of branches from overhead lines with uninsulated and insulated wires, as a rule, multi-neck or additional insulators should be used.

Grounding. Surge protection

2.4.38. Grounding devices designed for re-grounding, protection against lightning surges, grounding of electrical equipment installed on overhead line supports must be made on the overhead line supports. The resistance of the grounding device must be no more than 30 ohms.

2.4.39. metal supports, metal constructions and reinforcement of reinforced concrete elements of supports must be attached to REN- conductor.

2.4.40. On reinforced concrete supports REN- the conductor should be connected to the reinforcement of reinforced concrete racks and support struts.

2.4.41. Hooks and pins of wooden poles of overhead lines, as well as metal and reinforced concrete poles when suspended on them with an insulated carrier conductor or with all carrier conductors of the bundle, are not subject to grounding, with the exception of hooks and pins on the poles, where repeated grounding and grounding are performed to protect against atmospheric overvoltages.

2.4.42. Hooks, pins and fittings of overhead lines with a voltage of up to 1 kV, limiting the crossing span, as well as supports on which joint suspension is carried out, must be grounded.

2.4.43. On wooden poles of overhead lines, when moving to a cable line, the grounding conductor must be connected to REN- the conductor of the overhead line and to the metal sheath of the cable.

2.4.44. Protective devices installed on overhead lines for protection against lightning surges must be connected to the grounding conductor with a separate descent.

2.4.45. The connection of the grounding conductors to each other, their connection to the upper grounding outlets of the racks of reinforced concrete supports, to hooks and brackets, as well as to grounded metal structures and to grounded electrical equipment installed on overhead line supports, must be carried out by welding or bolted connections.

The connection of grounding conductors (descents) to the grounding conductor in the ground must also be carried out by welding or have bolted connections.

2.4.46. In a populated area with one- and two-story buildings, overhead lines must have grounding devices designed to protect against atmospheric surges. The resistance of these grounding devices should be no more than 30 ohms, and the distances between them should be no more than 200 m for areas with up to 40 thunderstorm hours per year, 100 m for areas with more than 40 thunderstorm hours per year.

In addition, grounding devices must be made:

1) on supports with branches to the entrances to buildings, in which a large number of people (schools, nurseries, hospitals) or who are of great material value (livestock and poultry premises, warehouses);

2) on the end supports of lines having branches to the inputs, while the greatest distance from the adjacent grounding of these same lines should be no more than 100 m for areas with a number of thunderstorm hours per year up to 40 and 50 m - for areas with a number of thunderstorm hours per year over 40.

2.4.47. At the beginning and end of each VLI line, it is recommended to install clamps on the wires for connecting voltage control devices and portable grounding.

Grounding lightning surge protection devices are recommended to be combined with re-grounding REN-conductor.

2.4.48. Requirements for grounding devices for re-grounding and protective conductors are given in 1.7.102, 1.7.103, 1.7.126. As grounding conductors on overhead line supports, it is allowed to use round steel with an anti-corrosion coating with a diameter of at least 6 mm.

2.4.49. Guys of overhead lines must be connected to the ground conductor.

supports

2.4.50. Supports made of various materials can be used on overhead lines.

For overhead lines, the following types of supports should be used:

1) intermediate, installed on straight sections of the overhead line route. These supports in normal operating modes should not perceive the forces directed along the overhead line;

2) anchor, installed to limit the anchor span, as well as in places where the number, grades and cross sections of overhead lines change. These supports should perceive, in normal operating modes, the forces from the difference in the tension of the wires directed along the overhead line;

3) angular, installed in places where the direction of the overhead line changes direction. These supports, under normal operating conditions, must perceive the resulting load from the tension of the wires of adjacent spans. Corner supports can be intermediate and anchor type;

4) terminal, installed at the beginning and end of the overhead line, as well as in places limiting cable inserts. They are anchor-type supports and must perceive, in normal operating modes of overhead lines, the one-sided tension of all wires.

Supports on which branches from overhead lines are carried out are called branch; supports on which the crossing of overhead lines is carried out different directions or the intersection of overhead lines with engineering structures, - cross. These supports can be of all the above types.

2.4.51. Support structures should provide the ability to install:

street lighting fixtures of all types;

end cable couplings;

protective devices;

sectioning and switching devices;

cabinets and shields for connecting electrical receivers.

2.4.52. Supports, regardless of their type, can be free-standing, with braces or braces.

Support guys can be attached to anchors installed in the ground, or to stone, brick, reinforced concrete and metal elements of buildings and structures. The cross section of the guys is determined by calculation. They can be stranded or round steel. The cross section of single-wire steel braces must be at least 25 mm.

2.4.53. The overhead line supports must be calculated according to the first and second limit state in the normal operation of the overhead line for climatic conditions according to 2.4.11 and 2.4.12.

Intermediate supports must be designed for the following combinations of loads:

simultaneous action of transverse wind load on wires, free or covered with ice, and on the structure of the support, as well as the load from the tension of branch wires to inputs, free from ice or partially covered with ice (according to 2.4.12);

on the load from the tension of the wires of the branches to the inputs covered with ice, while it is allowed to take into account the deviation of the support under the action of the load;

on a conditional design load equal to 1.5 kN, applied to the top of the support and directed along the axis of the overhead line.

Corner supports (intermediate and anchor) must be designed for the resulting load from the tension of the wires and wind load on wires and support structure.

Anchor supports must be designed for the difference in tension of the wires of adjacent spans and the transverse load from wind pressure with and without ice on the wires and the support structure. For the smallest value of the tension difference, 50% of the largest value of the unilateral tension of all wires should be taken.

End supports must be designed for one-sided tension of all wires.

Branch supports are calculated for the resulting load from the tension of all wires.

2.4.54. When installing supports on flooded sections of the route, where soil erosion or ice drift is possible, the supports must be strengthened (earth filling, paving, banquettes, installation of ice cutters).

Dimensions, intersections and convergence

2.4.55. The vertical distance from the VLI wires to the ground surface in populated and uninhabited areas to the ground and the carriageway of the streets must be at least 5 m. It can be reduced in hard-to-reach areas up to 2.5 m and inaccessible (mountain slopes, rocks, cliffs) - up to 1 m.

When crossing the impassable part of the streets with branches from the VLI to the inputs to the buildings, the distance from the SIP to the sidewalks of the footpaths can be reduced to 3.5 m.

The distance from the SIP and insulated wires to the ground on the branches to the input must be at least 2.5 m.

The distance from bare wires to the ground surface on the branches to the inputs must be at least 2.75 m.

2.4.56. The distance from the wires of the overhead line in populated and uninhabited areas with the largest sag of the wires to the ground and the carriageway of the streets must be at least 6 m. The distance from the wires to the ground can be reduced in hard-to-reach areas to 3.5 m and in inaccessible areas (mountain slopes , rocks, cliffs) - up to 1 m.

2.4.57. The horizontal distance from the SIP at their greatest deviation to the elements of buildings and structures should be at least:

1.0 m - to balconies, terraces and windows;

0.2 m - to the blank walls of buildings, structures.

It is allowed to pass VLI and VL with insulated wires over the roofs of buildings and structures (except for those specified in Chapters 7.3 and 7.4), while the vertical distance from them to the wires must be at least 2.5 m.

2.4.58. The horizontal distance from the wires of the overhead line with their greatest deviation to buildings and structures should be at least:

1.5 m - to balconies, terraces and windows;

1.0 m - to blank walls.

The passage of overhead lines with bare wires over buildings and structures is not allowed.

2.4.59. The smallest distance from the SIP and wires of overhead lines to the surface of the earth or water, as well as to various structures when passing overhead lines over them, is determined when highest temperature air without taking into account the heating of overhead lines by electric current.

2.4.60. When laying along the walls of buildings and structures, the minimum distance from the SIP should be:

with horizontal laying

above the window, front door - 0.3 m;

under the balcony, window, cornice - 0.5 m;

to the ground - 2.5 m;

with vertical laying

to the window - 0.5 m;

to the balcony front door- 1.0 m.

The clear distance between the SIP and the wall of the building or structure must be at least 0.06 m.

2.4.61. Horizontal distances from the underground parts of supports or earthing of supports to underground cables, pipelines and ground columns for various purposes must be at least those given in Table 2.4.4.

Table 2.4.4

The smallest allowable horizontal distance from the underground parts of towers or grounding devices of towers to underground cables, pipelines and ground columns

2.4.62. When crossing overhead lines with various structures, as well as with streets and squares of settlements, the intersection angle is not standardized.

2.4.63. Crossing overhead lines with navigable rivers and canals is not recommended. If it is necessary to perform such an intersection, overhead lines must be constructed in accordance with the requirements of 2.5.268-2.5.272. When crossing non-navigable rivers and canals, the shortest distances from the overhead line wires to the highest water level should be at least 2 m, and to the ice level - at least 6 m.

2.4.64. The intersection and convergence of overhead lines with voltage up to 1 kV with overhead lines with voltage above 1 kV, as well as the joint suspension of their wires on common supports, must be carried out in compliance with the requirements given in 2.5.220-2.5.230.

2.4.65. It is recommended to cross overhead lines (VLI) up to 1 kV on cross supports; their intersection in the span is also allowed. The vertical distance between the wires of intersecting overhead lines (VLI) must be at least: 0.1 m on the support, 1 m in the span.

2.4.66. At the intersection of overhead lines up to 1 kV, intermediate supports and anchor-type supports can be used with each other.

When crossing overhead lines up to 1 kV between themselves in the span, the intersection should be chosen as close as possible to the support of the upper crossing overhead line, while the horizontal distance from the supports of the crossing overhead line to the wires of the crossed overhead line with their greatest deviation should be at least 2 m.

2.4.67. With parallel passage and approach of overhead lines up to 1 kV and overhead lines above 1 kV, the horizontal distance between them must be at least those specified in 2.5.230.

2.4.68. Joint suspension of wires of overhead lines up to 1 kV and uninsulated wires of overhead lines up to 20 kV on common supports is allowed subject to the following conditions:

2) wires of overhead lines up to 20 kV should be located above the wires of overhead lines up to 1 kV;

3) wires of overhead lines up to 20 kV, fixed on pin insulators, must have a double fastening.

2.4.69. When hanging on common supports wires of overhead lines up to 1 kV and protected wires of 6-20 kV overhead lines, the following requirements must be observed:

1) VL up to 1 kV must be carried out according to the design climatic conditions VL up to 20 kV;

2) wires of VLZ 6-20 kV should be located, as a rule, above the wires of overhead lines up to 1 kV;

3) fastening of wires of VLZ 6-20 kV on pin insulators must be reinforced.

2.4.70. When crossing an overhead line (VLI) with an overhead line with a voltage above 1 kV, the distance from the wires of the crossing overhead line to the crossed overhead line (VLI) must comply with the requirements given in 2.5.221 and 2.5.227.

The cross section of the wires of the crossed overhead line should be taken in accordance with 2.5.223.

Intersections, convergence, joint suspension of overhead lines with communication lines, wire broadcasting and RK

2.4.71. The angle of intersection of the overhead line with the LAN * and LPV should be as close as possible to 90 °. For cramped conditions, the intersection angle is not standardized.
_______________
* LAN should be understood as communication lines of the Ministry of Communications of the Russian Federation and other departments, as well as signaling lines of the Ministry of Railways.

LPV should be understood as wire broadcasting lines.

According to their purpose, overhead communication lines are divided into long-distance telephone lines (MTS), rural telephone lines (STS), city telephone lines (GTS), wire broadcasting lines (LPV).

In terms of importance, overhead communication lines and wire broadcasting are divided into classes:

MTS and STS lines: MTS trunk lines connecting Moscow with republican, regional and regional centers and the latter between themselves, and lines of the Ministry of Railways, passing along railways and on the territory of railway stations (class I); intrazonal MTS lines connecting republican, krai and regional centers with regional centers and the latter among themselves, and STS connecting lines (class II); STS subscriber lines (class III);

GTS lines are not divided into classes;

wire broadcasting lines: feeder lines with a rated voltage above 360 V (class I); feeder lines with rated voltage up to 360 V and subscriber lines with voltage 15 and 30 V (class II).

2.4.72. The vertical distance from the wires of the overhead line to the wires or overhead cables of the LAN and LPV in the crossing span with the largest sag of the wire of the overhead line should be:

from SIP and insulated wires - at least 1 m;

from bare wires - at least 1.25 m.

2.4.73. The vertical distance from the wires of the overhead line up to 1 kV to the wires or overhead cables of the LS or LPV when crossing on a common support should be:

between SIP and drugs or LPV - not less than 0.5 m;

between the uninsulated wire of the overhead line and the LPV - at least 1.5 m.

2.4.74. The intersection of the wires of the overhead line with wires or overhead cables of the LS and LPV in the span should be as close as possible to the overhead line support, but not less than 2 m from it.

2.4.75. The intersection of overhead lines with LS and LPV can be performed according to one of the following options:

1) wires of overhead lines and insulated wires of LS and LPV;

2) wires of overhead lines and underground or overhead cable LS and LPV;

3) wires of overhead lines and uninsulated wires of LS and LPV;

4) underground cable insert in overhead lines with insulated and uninsulated wires LS and LPV.

2.4.76. When crossing overhead lines with insulated wires LS and LPV, the following requirements must be observed:

2) the intersection of uninsulated overhead lines with LAN wires, as well as with LPV wires with voltages above 360 V, should be carried out only in the span. The intersection of uninsulated wires of overhead lines with wires of LPV with a voltage of up to 360 V can be performed both in the span and on a common support;

3) overhead line supports that limit the span of intersection with LS of trunk and intrazonal communication networks and connecting lines of STS, as well as LPV with voltage above 360 V, must be of the anchor type. At the intersection of all other LS and LPV, intermediate-type overhead lines are allowed, reinforced with an additional prefix or strut;

4) VL wires should be located above the LS and LPV wires. On the supports that limit the crossing span, uninsulated and insulated wires of overhead lines must be double fastened, the SIP is fixed with anchor clamps. The wires LS and LPV on the supports that limit the crossing span must have a double fastening. In cities and urban-type settlements, newly built HP and LPV are allowed to be placed above the wires of overhead lines with a voltage of up to 1 kV.

2.4.77. When crossing overhead lines with an underground or overhead cable LS and LPV, the following requirements must be met:

1) distance from the underground part of the metal or reinforced concrete support and grounding wooden support to the underground cable LS and LPV in a populated area should, as a rule, be at least 3 m. In cramped conditions, these distances can be reduced to 1 m (subject to the admissibility of interfering effects on LS and LPV); the cable must be laid in steel pipe or covered with a channel or angle steel along the length on both sides of the support at least 3 m;

2) in an uninhabited area, the distance from the underground part or ground electrode of the overhead line support to the underground cable of the LS and LPV must be at least the values \u200b\u200bgiven in Table 2.4.5;

Table 2.4.5

The smallest distance from the underground part and the ground electrode of the overhead line support to the underground cable of the LS and LPV
in an uninhabited area

Equivalent earth resistivity, Ohm m	The smallest distance, m, from the underground cable LS and LPV
	to the ground electrode or the underground part of the reinforced concrete and metal support	to the underground part of a wooden support that does not have a grounding device

More than 100 to 500
More than 500 to 1000

3) the wires of the overhead line should, as a rule, be located above the overhead cable of the LS and LPV (see also 2.4.76, clause 4);

4) the connection of the wires of the overhead line in the span of the intersection with the overhead cable LS and LPV is not allowed. The cross section of the SIP carrier core must be at least 35 mm. VL wires must be multi-wire with a cross section of at least: aluminum - 35 mm, steel-aluminum - 25 mm; cross section of the SIP core with all the carrier conductors of the bundle - at least 25 mm;

5) the metal sheath of the overhead cable and the rope on which the cable is suspended must be grounded on supports that limit the crossing span;

6) the horizontal distance from the base of the cable support of the LS and LPV to the projection of the nearest wire of the overhead line on the horizontal plane must be at least the maximum height of the support of the crossing span.

2.4.78. When crossing VLI with uninsulated wires LS and LPV, the following requirements must be observed:

1) the intersection of the VLI with the LS and LPV can be performed in the span and on the support;

2) VLI supports, limiting the span of intersection with the LS of the main and intrazonal communication networks and with the connecting lines of the STS, must be of the anchor type. When crossing all other LS and LPV on VLI, it is allowed to use intermediate supports reinforced with an additional prefix or strut;

3) the carrier core of the self-supporting insulated wire or bundle with all carrier conductors at the intersection must have a tensile strength factor at the highest design loads of at least 2.5;

4) VLI wires should be located above the LS and LPV wires. On the supports that limit the crossing span, the supporting wires of the self-supporting insulated wire must be fixed with tension clamps. VLI wires are allowed to be placed under the LPV wires. At the same time, the LPV wires on the supports that limit the crossing span must have a double fastening;

5) the connection of the carrier core and the carrier conductors of the SIP bundle, as well as the LS and LPV wires in the crossing spans is not allowed.

2.4.79. When crossing insulated and uninsulated wires of overhead lines with uninsulated wires of LS and LPV, the following requirements must be observed:

1) the intersection of the wires of the overhead line with the wires of the LAN, as well as the wires of the LPV with a voltage above 360 V, should be carried out only in the span.

The intersection of wires of overhead lines with subscriber and feeder lines of LPV with a voltage of up to 360 V is allowed to be carried out on overhead line supports;

2) VL supports limiting the crossing span must be of the anchor type;

3) LS wires, both steel and non-ferrous, must have a tensile strength factor at the highest design loads of at least 2.2;

4) VL wires should be located above the LS and LPV wires. On the supports that limit the crossing span, the wires of the overhead line must have a double fastening. Wires of overhead lines with a voltage of 380/220 V and below are allowed to be placed under the wires of the LPV and GTS lines. At the same time, the wires of the LPV and the GTS lines on the supports that limit the crossing span must have a double fastening;

5) connection of wires of overhead lines, as well as wires of LS and LPV in crossing spans is not allowed. VL wires must be multi-wire with sections not less than: aluminum - 35 mm, steel-aluminum - 25 mm.

2.4.80. When crossing an underground cable insert in an overhead line with uninsulated and insulated wires LS and LPV, the following requirements must be observed:

1) the distance from the underground cable insert in the overhead line to the LS and LPV support and its ground electrode must be at least 1 m, and when laying the cable in an insulating pipe - at least 0.5 m;

2) the horizontal distance from the base of the cable support of the overhead line to the projection of the nearest wire of the LS and LPV on the horizontal plane must be at least the maximum height of the support of the crossing span.

2.4.81. The horizontal distance between the VLI wires and the LS and LPV wires during parallel passage or approach must be at least 1 m.

When approaching overhead lines with air LS and LPV, the horizontal distance between the insulated and uninsulated wires of the overhead line and the wires of the LS and LPV must be at least 2 m. In cramped conditions, this distance can be reduced to 1.5 m. In all other cases, the distance between the lines should be not less than the height of the highest support of the overhead line, LS and LPV.

When approaching overhead lines with underground or overhead cables LS and LPV, the distances between them should be taken in accordance with 2.4.77, paragraphs 1 and 5.

2.4.82. The proximity of overhead lines with antenna structures of transmitting radio centers, receiving radio centers, dedicated receiving points for wire broadcasting and local radio nodes is not standardized.

2.4.83. The wires from the overhead line support to the entrance to the building should not intersect with the branch wires from the LS and LPV, and they should be located at the same level or above the LS and LPV. The horizontal distance between the wires of the overhead line and the wires of the LS and LPV, television cables and descents from radio antennas at the inputs must be at least 0.5 m for SIP and 1.5 m for uninsulated wires of overhead lines.

2.4.84. Joint suspension of the overhead cable of rural telephone communication and VLI is allowed if the following requirements are met:

1) the zero core of the SIP must be insulated;

2) the distance from the SIP to the STS overhead cable in the span and on the VLI support must be at least 0.5 m;

3) each VLI support must have a grounding device, while the grounding resistance should be no more than 10 ohms;

4) re-grounding must be performed on each VLI support PEN- conductor;

5) the carrying rope of the telephone cable, together with the metal mesh outer cover of the cable, must be connected to the grounding conductor of each support by a separate independent conductor (descent).

2.4.85. Joint suspension on common supports of uninsulated wires of overhead lines, LS and LPV is not allowed.

Joint suspension of uninsulated wires of overhead lines and insulated wires of LPV is allowed on common supports. In this case, the following conditions must be met:

1) the rated voltage of the overhead line should be no more than 380 V;

3) the distance from the lower LPV wires to the ground, between the LPV circuits and their wires must comply with the requirements of the current rules of the Ministry of Communications of Russia;

4) uninsulated wires of overhead lines should be located above the wires of the LPV; at the same time, the vertical distance from the lower wire of the overhead line to the upper wire of the LPV should be at least 1.5 m on the support, and at least 1.25 m in the span; when the LPV wires are located on the brackets, this distance is taken from the lower wire of the overhead line, located on the same side as the LPV wires.

2.4.86. Joint suspension of SIP VLI with uninsulated or insulated wires LS and LPV is allowed on common supports. In this case, the following conditions must be met:

1) the rated voltage of the VLI should be no more than 380 V;

2) the rated voltage of the LPV should be no more than 360 V;

3) the rated voltage of the LAN, the calculated mechanical stress in the wires of the LAN, the distance from the lower wires of the LAN and LPV to the ground, between the circuits and their wires must comply with the requirements of the current rules of the Ministry of Communications of Russia;

4) VLI wires up to 1 kV should be located above the LS and LPV wires; at the same time, the vertical distance from the SIP to the upper wire of the LS and LPV, regardless of their relative position, must be at least 0.5 m on the support and in the span. Wires VLI and LS and LPV are recommended to be placed on different sides of the support.

2.4.87. Joint suspension on common supports of uninsulated wires of overhead lines and LAN cables is not allowed. Joint suspension on common supports of wires of overhead lines with a voltage of not more than 380 V and cables of LPV is allowed subject to the conditions specified in 2.4.85.

The optical fibers of the JCLN shall comply with the requirements of 2.5.192 and 2.5.193.

2.4.88. Joint suspension on common supports of wires of overhead lines with a voltage of not more than 380 V and telemechanics wires is allowed subject to the requirements given in 2.4.85 and 2.4.86, and also if telemechanics circuits are not used as wired telephone communication channels.

2.4.89. On the supports of VL (VLI) it is allowed to suspend fiber-optic communication cables (OK):

non-metallic self-supporting (OKSN);

non-metallic, wound on a phase wire or a bundle of self-supporting insulated wire (OKNN).

Mechanical calculations of VL (VLI) supports with OKSN and OKNN should be made for the initial conditions specified in 2.4.11 and 2.4.12.

The overhead line supports on which the OK is suspended, and their fixing in the ground, must be calculated taking into account the additional loads that arise in this case.

The distance from OKSN to the ground surface in populated and uninhabited areas should be at least 5 m.

The distances between the wires of overhead lines up to 1 kV and OKSN on the support and in the span must be at least 0.4 m.

Intersections and convergence of overhead lines with engineering structures

2.4.90. When crossing and parallel following overhead lines with iron and highways the requirements set out in Chapter 2.5 must be met.

Crossings can also be carried out using a cable insert in the overhead line.

2.4.91. When approaching overhead lines with highways, the distance from the wires of the overhead line to road signs and their supporting cables must be at least 1 m. The supporting cables must be grounded with a grounding device resistance of not more than 10 ohms.

2.4.92. When crossing and approaching overhead lines with contact wires and carrying cables of tram and trolleybus lines, the following requirements must be met:

1) Overhead lines should, as a rule, be located outside the area occupied by contact network structures, including supports.

In this zone, the overhead line supports should be of the anchor type, and the uninsulated wires should be double fastened;

2) the wires of the overhead line should be located above the supporting cables of the contact wires. The wires of the overhead line must be multi-wire with a cross section of at least: aluminum - 35 mm, steel-aluminum - 25 mm, the SIP carrier core - 35 mm, the cross section of the CIP core with all the carrier conductors of the bundle - at least 25 mm. Connection of wires of overhead lines in crossing spans is not allowed;

3) the distance from the wires of the overhead line with the largest sag must be at least 8 m to the head of the rail of the tram line and 10.5 m to the carriageway of the street in the area of the trolleybus line.

In this case, in all cases, the distance from the wires of the overhead line to the carrier cable or contact wire must be at least 1.5 m;

4) crossing overhead lines with contact wires at the locations of the crossbars is prohibited;

5) joint suspension on supports of trolleybus lines of contact wires and wires of overhead lines with a voltage of not more than 380 V is allowed subject to the following conditions: the supports of trolleybus lines must have mechanical strength sufficient for hanging wires of overhead lines, the distance between the wires of overhead lines and the bracket or device for attaching the supporting cable of contact wires must be at least 1.5 m.

2.4.93. When crossing and approaching overhead lines with cable cars and elevated metal pipelines, the following requirements must be met:

1) The overhead line must pass under the cable car; the passage of overhead lines over the cable car is not allowed;

2) cable cars should have walkways or nets below to protect overhead lines;

3) when passing overhead lines under the cable car or under the pipeline, the wires of the overhead lines must be at a distance from them: at least 1 m - with the smallest sag of the wires to the walkways or fencing nets of the cable car or to the pipeline; not less than 1 m - with the largest sag and the largest deviation of the wires to the elements of the cable car or to the pipeline;

4) when crossing the overhead line with the pipeline, the distance from the wires of the overhead line with their largest sag to the pipeline elements must be at least 1 m. The overhead line supports that limit the span of the intersection with the pipeline must be of the anchor type. The pipeline in the crossing span must be grounded, the resistance of the grounding conductor is not more than 10 Ohm;

5) when parallel following the overhead line with a cable car or pipeline, the horizontal distance from the wires of the overhead line to the cable car or pipeline must be at least the height of the support, and in cramped sections of the route with the greatest deviation of the wires - at least 1 m.

2.4.94. When approaching overhead lines with fire and explosion hazardous installations and airfields, the requirements given in 2.5.278, 2.5.291 and 2.5.292 should be followed.

2.4.95. The passage of overhead lines up to 1 kV with insulated and non-insulated wires is not allowed on the territories of sports facilities, schools (general education and boarding schools), technical schools, preschool institutions (nurseries, kindergartens, orphanages), orphanages, children's playgrounds, as well as on the territories of children's health camps.

In the above territories (except for sports and playgrounds), the passage of VLI is allowed, provided that the neutral conductor of the SIP must be isolated, and its total conductivity must be at least that of the phase conductor of the SIP.

ELECTRICAL INSTALLATION REGULATIONS

Seventh Edition

Section 4

SWITCHGEAR AND SUBSTATIONS

Chapter 4.1

SWITCHGEAR UP TO 1 KV AC AND UP TO 1.5 KV DC

Introduction date 2003-11-01

Foreword

DEVELOPED taking into account the requirements of state standards, building codes and regulations, recommendations of scientific and technical councils for reviewing draft chapters. The draft chapters were reviewed by the working groups of the Coordinating Council for the revision of the EMP
PREPARED BY JSC "Institute Teploelektroproekt"
AGREED in accordance with the established procedure with the Gosstroy of Russia, Gosgortekhnadzor of Russia, RAO "UES of Russia" (JSC "VNIIE")
APPROVED by the Ministry of Energy of Russia, order of June 20, 2003 N 242

The requirements of the Electrical Installation Rules are mandatory for all organizations, regardless of ownership and organizational and legal forms, as well as for individuals engaged in entrepreneurial activities without forming a legal entity

Application area

4.1.1. This chapter of the Rules applies to switchgear (RU) and low-voltage complete devices (NKU) up to 1 kV AC and up to 1.5 kV direct current, installed indoors and outdoors and made in the form of switchboards, control, relay, consoles, cabinets, bus outlets, assemblies.

Additional requirements for special-purpose switchgear are given in the relevant chapters of Section 7.

The terms and definitions contained in paragraphs 4.2.3, 4.2.4, 4.2.5, 4.2.6, 4.2.8, 4.2.11, 4.2.12 are also valid for this chapter.

General requirements

4.1.2. The choice of wires, tires, devices, devices and structures should be made both according to normal operating conditions (compliance with operating voltage and current, accuracy class, etc.), and according to operating conditions in case of a short circuit (thermal and dynamic effects, switching capacity) .

4.1.3. Switchgears and NKU must have clear inscriptions indicating the purpose of individual circuits, panels, devices. The inscriptions must be made on front side device, and when operated from both sides also on the back of the device (see also chapter 3.4). Distribution devices, as a rule, must have a mnemonic diagram.

4.1.4. Relating to circuits of various types of current and various voltages, parts of the switchgear must be made and placed so that they can be clearly recognized.

4.1.5. The mutual arrangement of phases and poles within the entire device must be the same. Tires must have the coloring provided for in Chapter 1.1. The switchgear must be provided with the possibility of installing portable protective earthing.

4.1.6. All metal parts of the switchgear and NKU must have an anti-corrosion coating.

4.1.7. Grounding and protective measures must be carried out in accordance with chapter 1.7.

Installation of devices and devices

4.1.8. Apparatus and instruments should be located so that sparks arising in them during operation or electric arcs could not cause harm to service personnel, ignite or damage surrounding objects, cause a short circuit or ground fault.

4.1.9. Chopping devices must be installed so that they cannot close the circuit spontaneously, under the influence of gravity. Their moving current-carrying parts in the disconnected position, as a rule, should not be energized.

4.1.10. Knife switches with direct manual control(without a drive), designed to turn on and off the load current and having contacts facing the operator, must be protected by fireproof shells without holes and slots. These circuit breakers, intended only for stress relief, may be installed openly, provided that they are inaccessible to unqualified personnel.

4.1.11. On the drives of switching devices, the "on" and "off" positions must be clearly indicated.

4.1.12. It must be possible to relieve voltage from each circuit breaker during its repair or dismantling. For this purpose, circuit breakers or other disconnecting devices must be installed in the necessary places. A disconnecting device in front of the circuit breaker of each line departing from the switchgear is not required to be provided in electrical installations:

4.1.13. Threaded (plug) fuses must be installed so that the supply wires are connected to the contact screw, and those leading to the electrical receivers - to the screw sleeve (see Chap. 3.1).

4.1.14. The installation of devices and devices on the switchgear and low-voltage switchgear should be carried out in the area from 400 to 2000 mm from the floor level. Devices for manual operational control (switches, buttons) are recommended to be located at a height of not more than 1900 mm and not less than 700 mm from the floor level. Measuring devices are recommended to be installed in such a way that the scale of each of the devices is at a height of 1000-1800 mm from the floor.

Tires, wires, cables

4.1.15. Exposed current-carrying parts, as a rule, must have an insulating coating. Between fixedly fixed current-carrying parts of different polarity, as well as between them and open conductive parts, distances of at least 20 mm along the insulation surface and at least 12 mm in air must be provided. From non-insulated current-carrying parts to fences, distances of at least 100 mm for mesh and 40 mm for solid removable fences must be provided.

4.1.16. Within panels, shields and cabinets installed in dry rooms, insulated wires with insulation rated for a voltage of at least 660 V can be laid on metal surfaces protected from corrosion close to one another. In these cases, for power circuits, the reduction factors for current loads given in Chapter 2.1 should be applied.

4.1.17. Protective (PE) conductors and busbars can be laid without insulation. Zero working (N) conductors, busbars and combined (PEN) conductors are laid with insulation.

4.1.18. Electrical wiring of control circuits, measurements and others must comply with the requirements of Chapter 3.4. Cable laying must comply with Chapter 2.3. Cable passages both from below and from above, inside panels, cabinets, etc. must be carried out through sealing devices that prevent the ingress of dust, moisture, foreign objects, etc.

Switchgear designs

4.1.19. The design of the switchgear, low-voltage switchgear and the equipment installed in them must comply with the requirements of the current standards.

4.1.20. Switchgear and low-voltage switchgear must be designed so that vibrations arising from the operation of devices, as well as from shocks caused by external influences, do not violate contact connections and do not cause misalignment of devices and devices.

4.1.21. The surfaces of hygroscopic insulating boards, on which bare current-carrying parts are directly mounted, must be protected from moisture penetration into them (by impregnation, painting, etc.)

In devices installed in damp and especially damp rooms and open installations, the use of hygroscopic insulating materials (for example, marble, asbestos cement) is not allowed.

4.1.22. The design of the switchgear and the switchgear should provide for cable entry without violating the degree of protection of the sheath, places for laying the termination of external connections, as well as the shortest length of the cable termination in this design. Access to all serviced devices, devices, devices and their clamps must be provided. The switchgear must have devices for connecting zero working (N), grounding (PE) and combined (PEN) conductors of external cables and wires. In the case when external cables cannot be connected directly to the terminals of the devices in terms of cross-section or number, the design of the switchgear must provide for additional terminals or intermediate busbars with devices for connecting external cables. Switchgear and switchgear should provide for cable entry both from below and from above, or only from below or only from above.

Installation of switchgears in electrical rooms

4.1.23. In electrical rooms (see 1.1.5.), service passages located on the front or rear side of the switchboard must comply with the following requirements:

building structures

inside

4.1.24. Grids with mesh sizes of not more than 25x25 mm, as well as solid or mixed fences, can serve as a fence for non-insulated current-carrying parts. The height of the fences must be at least 1.7 m.

Installation of switchgears in industrial premises

4.1.25. Switchgears installed in rooms accessible to unqualified personnel must have live parts closed with solid fences, or must be made with a degree of protection of at least IP2X. In the case of using a switchgear with open current-carrying parts, it must be fenced and equipped with local lighting. At the same time, the fence must be mesh, solid or mixed with a height of at least 1.7 m. The doors for entering the fence must be locked with a key. The distance from the mesh fence to non-insulated current-carrying parts of the device must be at least 0.7 m, and from solid ones - in accordance with 4.1.15. The width of the aisles is taken in accordance with 4.1.23.

4.1.26. The termination of wires and cables must be made so that it is inside the device.

4.1.27. Removable guards must be made in such a way that their removal is impossible without special tools. Doors must be locked with a key.

Outdoor switchgear installation

4.1.28. When installing switchgears outdoors, the following requirements must be observed:

environment

The text of the document is verified according to: the official publication of the Electrical Installation Rules. Section 4. Switchgear and substations. Chapters 4.1, 4.2. - 7th ed. - M.: Publishing house of NTs ENAS, 2003

Judge Martynova AND.A. Case No. 7-231/2016

SOLUTION

Judge of the Altai Regional Court Novikova N.V., having considered in open court the complaint of the State Inspector of the Altai Department for Supervision of Energy Networks and Power Installations of Consumers and Energy Supply of the Siberian Department of Rostekhnadzor Galeev A.Z. against the decision of the judge of the Novoaltay City Court Altai Territory from DD.MM.YY, which terminated the proceedings on an administrative offense, under the Article. Section II. Special part > Chapter 9. Administrative offenses in industry, construction and energy > Article 9.11. Violation of the rules for the use of fuel and energy, the rules for the construction, operation of fuel and energy-consuming installations, heating networks, storage facilities, maintenance, sale and transportation of energy carriers, fuel and products of its processing" target="_blank"> 9.11 of the Code Russian Federation on administrative offenses (hereinafter referred to as the Code of Administrative Offenses of the Russian Federation), in relation to the joint-stock company Grid Company Altaikraienergo due to the absence of an administrative offense in its actions,

SET UP:

according to the protocol on an administrative offense dated DD.MM.YY, drawn up by the state inspector of the Altai Department for Supervision of Energy Grids and Power Installations of Consumers and Energy Supply of the Siberian Department of Rostekhnadzor A.Z. power supply of KTP-228 (notice of readiness for commissioning dated DD.MM.YY), located at: , owned (in operation) by Joint-Stock Company Grid Company Altaikraienergo (hereinafter - JSC Grid Company Altaikraienergo) , admitted legal entity violation of mandatory norms and rules, expressed in the fact that the fire distance from the newly installed complete transformer substation (outdoor package transformer substation, control room, with an oil-filled transformer 100 kVA 10 / 0.4 kV, with an oil mass of more than 60 kg) to the store in violation of .P. 4.2.131, 4.2.68 of the Electrical Installation Rules, 7th edition, approved by the Order of the Ministry of Energy of Russia dated June 20, 2003 No. 242 (hereinafter referred to as PUE), is less than 16 meters.

The above judgment was issued in the case.

In a complaint filed with the Altai Regional Court, the State Inspector of the Altai Department for Supervision of Energy Networks and Energy Installations of Consumers and Energy Supply of the Siberian Department of Rostekhnadzor Galeev A.Z. asks to cancel the decision and return the case for a new consideration to the judge, referring to the erroneous conclusion of the judge that clause 4.2.68 of the PUE is to be applied only if a complete transformer substation (hereinafter also - KTP) is installed, the transformer of which does not have fire-blocking structures (placed outside the QFT shell). The explanations of the referent of Rostekhnadzor, published in the journal "News of Electrotechnics" No. 6 (48), cannot be taken into account, since the article in the journal is not a regulatory document. Moreover, the named journal is not an official publication of the Federal Service for Ecological, Technological and Nuclear Supervision.

After examining the arguments of the complaint, checking the case file in full in accordance with Part. 3 Article. RF, after listening to the defenders of JSC Grid Company Altaikraienergo Makarov N.N. and Matvienko D.V., who objected to the satisfaction of the complaint, I find no grounds for canceling the decision of the judge.

Moreover, the placement of oil-filled equipment with a mass of oil in a piece of equipment of 60 kg or more at a fire distance of at least 16 m from the store building, as insisted by the state inspector in the complaint, is permissible in accordance with the requirements of clause 4.2.68 of the PUE with a degree of fire resistance such building I or II. Meanwhile, there is no information and documents on the degree of fire resistance of the public building (shop) located at: , in the case file, which does not allow determining the need to comply with a specific fire-prevention distance from the public building to the KTP, including at least 16 m.

Under such circumstances, the conclusion of the judge of the city court that the actions of JSC “Grid Company “Altaikrayenergo” did not contain the elements of an alleged administrative offense is correct, in connection with which the proceedings were lawfully terminated on the basis of paragraph 2 of part 1 of Art. RF, while there are no grounds for satisfying the complaint.

Guided by Article.Article. RF, judge

DECIDED:

the decision of the judge of the Novoaltaysky City Court of the Altai Territory dated May 13, 2016 to be left unchanged, the complaint of the state inspector of the Altai Department for Supervision of Energy Grids and Power Installations of Consumers and Energy Supply of the Siberian Department of Rostekhnadzor Galeev A. Z. - without satisfaction.

Judge H.The. Novikov