Vertical distance between utilities. clear distance

7.20*. Engineering networks should be placed mainly within the transverse profiles of streets and roads; under sidewalks or dividing strips - engineering networks in collectors, channels or tunnels; in the dividing strips - heating networks, water supply, gas pipelines, utility and rain sewers.

On the strip between the red line and the building line, low-pressure gas and cable networks (power, communications, signaling and dispatching) should be placed.

With a carriageway width of more than 22 m, provision should be made for the placement of water supply networks on both sides of the streets.

7.21. When reconstructing the carriageways of streets and roads with the installation of road capital pavements, under which underground engineering networks are located, it is necessary to provide for the removal of these networks to the dividing strips and under the sidewalks. With appropriate justification, the preservation of existing networks under the carriageways of streets, as well as the laying of new networks in canals and tunnels, is allowed. On existing streets that do not have dividing lanes, it is allowed to place new engineering networks under the carriageway, provided that they are placed in tunnels or channels; if technically necessary, it is allowed to lay a gas pipeline under the carriageways of streets.

7.22*. The laying of underground engineering networks should, as a rule, be provided for: combined in common trenches; in tunnels - if it is necessary to simultaneously place heating networks with a diameter of 500 to 900 mm, a water supply system up to 500 mm, more than ten communication cables and ten power cables with a voltage of up to 10 kV, during the reconstruction of main streets and areas of historical buildings, with a lack of space in the transverse profile of streets for placing networks in trenches, at intersections with main streets and railway tracks. In tunnels, it is also allowed to lay air ducts, pressure sewers and other engineering networks. Joint laying of gas and pipelines transporting flammable and combustible liquids with cable lines is not allowed.

In areas where permafrost soils are distributed, when constructing engineering networks with the preservation of soils in a frozen state, it is necessary to provide for the placement of heat pipelines in channels or tunnels, regardless of their diameter.

Notes*:

1. On building sites in difficult soil conditions (forest subsidence), it is necessary to provide for the laying of water-bearing engineering networks, as a rule, in through tunnels. The type of soil subsidence should be taken in accordance with SNiP 2.01.01-82; SNiP 2.04-02-84; SNiP 2.04.03-85 and SNiP 2.04.07-86.

2. In residential areas in difficult planning conditions, it is allowed to lay ground heating networks with the permission of the local administration.

7.23*. Horizontal distances (in the light) from the nearest underground engineering networks to buildings and structures should be taken according to Table 14. *

Horizontal distances (in the light) between adjacent engineering underground networks with their parallel placement should be taken according to Table 15, and at the inputs of engineering networks in buildings of rural settlements - at least 0.5 m. If the difference in the depth of laying of adjacent pipelines is more than 0, 4 m, the distances indicated in Table 15 should be increased taking into account the steepness of the slopes of the trenches, but not less than the depth of the trench to the bottom of the embankment and the edge of the excavation.

When engineering networks intersect, vertical distances (in the light) should be taken in accordance with the requirements of SNiP II-89-80.

The distances indicated in Tables 14 and 15 may be reduced if appropriate technical measures are taken to ensure safety and reliability requirements.

Table 14*

Table 15

7.24. The intersection of engineering networks of metro structures should be provided at an angle of 90 °, in the conditions of reconstruction it is allowed to reduce the angle of intersection to 60 °. Intersection of engineering networks of metro station structures is not allowed.

At intersections, pipelines must have a slope to one side and be enclosed in protective structures (steel cases, monolithic concrete or reinforced concrete channels, collectors, tunnels). The distance from the outer surface of the lining of the subway structures to the end of the protective structures must be at least 10 m in each direction, and the vertical distance (in the light) between the lining or the sole of the rail (for land lines) and the protective structure must be at least 1 m. Laying gas pipelines tunnels are not allowed.

Engineering network crossings under ground metro lines should be provided taking into account the requirements of GOST 23961-80. At the same time, the networks must be brought out at a distance of at least 3 m beyond the fences of the ground sections of the subway.

Notes:

1. In the locations of underground structures at a depth of 20 m or more (from the top of the structure to the surface of the earth), as well as in the places of occurrence between the top of the lining of underground structures and the bottom of the protective structures of engineering networks of clay, non-fractured rocky or semi-rocky soils with a thickness of at least 6 m the stated requirements for the intersection of engineering networks of metro structures are not presented, and the installation of protective structures is not required.

2. At the intersection of underground structures, pressure pipelines should be provided from steel pipes with a device on both sides of the intersection of wells with water outlets and the installation of shutoff valves in them.

7.25*. When crossing underground engineering networks with pedestrian crossings, it is necessary to provide for the laying of pipelines under the tunnels, and power and communication cables - above the tunnels.

7.26*. Laying of pipelines with flammable and combustible liquids, as well as with liquefied gases to supply industrial enterprises and warehouses in a residential area is not allowed.

Main pipelines should be laid outside the territory of settlements in accordance with SNiP 2.05.06-85. For oil product pipelines laid on the territory of the settlement, one should be guided by SNiP 2.05.13-90.

3.75. The distances between trees and shrubs during row planting should be taken not less than those indicated in Table. eight.

Table 8

Plantation characteristics	Minimum distances between trees and shrubs in axes, m
Light-loving trees
Shade Tolerant Trees
Shrubs up to 1 m high
The same, up to 2 m
The same, more than 2 m

3.76. Distances between the border of tree plantations and cooling ponds and spray pools, counting from the coastal edge, should be at least 40 m.

3.77. The main element of landscaping of sites of industrial enterprises should be a lawn.

3.78. On the territory of the enterprise, well-maintained areas for recreation and gymnastic exercises for employees should be provided.

Sites should be located on the windward side in relation to buildings with industries that emit harmful emissions into the atmosphere.

The dimensions of the sites should be taken at the rate of not more than 1 sq.m per one worker in the most numerous shift.

3.79. For enterprises with industries that emit aerosols, decorative ponds, fountains, rain installations, which increase the concentration of harmful substances at the sites of enterprises, should not be provided.

3.80. Along main and industrial roads, sidewalks should be provided in all cases, regardless of the intensity of pedestrian traffic, and along driveways and entrances - with a traffic intensity of at least 100 people. in shift.

3.81. Sidewalks on the site of the enterprise or the territory of the industrial hub should be located no closer than 3.75 m from the nearest normal gauge railway track. Reduction of this distance (but not less than the dimensions of the approach of buildings) is allowed when installing railings enclosing the sidewalk.

The distance from the axis of the railway track, along which hot goods are transported, to the sidewalks must be at least 5 m.

Sidewalks along buildings should be placed:

a) with organized drainage of water from the roofs of buildings - close to the building line with an increase in this case, the width of the sidewalk by 0.5 m (against that provided for by the norms of clause 3. 82);

b) in case of unorganized drainage of water from roofs - at least 1.5 m from the building line.

3.82*. The width of the sidewalk should be taken as a multiple of the traffic lane with a width of 0.75 m. The number of traffic lanes along the sidewalk should be set depending on the number of workers employed in the most numerous shift in the building (or group of buildings) to which the sidewalk leads, at the rate of 750 people. per lane change. The minimum width of the sidewalk must be at least 1.5 m.

With a pedestrian traffic intensity of less than 100 man-hours in both directions, sidewalks with a width of 1 m are allowed, and when people with disabilities using wheelchairs move along them, they are 1.2 m wide.

Sidewalk slopes intended for the possible passage of disabled people using wheelchairs should not exceed: longitudinal - 5%, transverse - 1% At the intersection of such sidewalks with the roadway of the enterprise, the height of the side stone should not exceed 4 cm.

3.83. When sidewalks are placed next to or on a common subgrade with a motor road, they must be separated from the road by a dividing strip with a width of at least 0.8 m. The location of sidewalks close to the carriageway of the motor road is allowed only under the conditions of reconstruction of the enterprise. When the sidewalk adjoins the roadway, the sidewalk must be at the level of the top of the side stone, but not less than 15 cm above the roadway.

Note. For the Northern building-climatic zone, sidewalks and

cycle paths along highways should be designed for

common subgrade with it, separating them from the carriageway by a lawn of at least

1 m, without the installation of a side stone, but with a through fence

between lawn and pavement.

3.84. When reconstructing enterprises located in crowded areas, it is allowed, with appropriate justification, to increase the width of highways due to landscaping strips separating them from sidewalks, and in their absence, at the expense of sidewalks with the transfer of the latter.

3.85*. On the sites of enterprises and territories of industrial hubs, the intersection of pedestrian traffic with railway tracks in places of mass passage of workers, as a rule, is not allowed. When justifying the need for the construction of these intersections, crossings at the same level should be equipped with traffic lights and sound alarms, as well as provide visibility no less than that provided for in the SNiP chapter on the design of highways.

Crossings at different levels (mainly in tunnels) should be provided for in the following cases: crossings of station tracks, including exhaust ones; transportation of liquid metals and slag along the routes; the production of shunting work on crossed paths and the impossibility of stopping it for the duration of the mass passage of people; sludge on the tracks of wagons, heavy traffic (more than 50 deliveries per day in both directions).

When moving around the territory of the enterprise, disabled people using wheelchairs, pedestrian tunnels must be equipped with ramps.

Crossings of motor roads with pedestrian paths should be designed in accordance with the chapter of SNiP on the planning and development of cities, towns and rural settlements.

3.86. Fencing of sites of enterprises should be provided in accordance with the "Instructions for the Design of Fencing Sites and Sites of Enterprises, Buildings and Structures".

4. LOCATION OF ENGINEERING NETWORKS

4.1. For enterprises and industrial hubs, a unified system of engineering networks should be designed, located in technical lanes, ensuring the occupation of the smallest sections of the territory and linking with buildings and structures.

4.2*. At the sites of industrial enterprises, it is necessary to provide mainly ground and above-ground methods for locating engineering networks.

In the pre-factory zones of enterprises and public centers of industrial centers, underground placement of engineering networks should be provided.

4.3. For networks for various purposes, it should, as a rule, provide for joint placement in common trenches, tunnels, channels, on low supports, sleepers or overpasses in compliance with the relevant sanitary and fire safety standards and safety rules for the operation of networks.

Joint underground placement of pipelines for circulating water supply, heating networks and gas pipelines with technological pipelines is allowed, regardless of the parameters of the coolant and the parameters of the environment in technological pipelines.

4.4. When designing engineering networks at the sites of enterprises located in special natural and climatic conditions, one should also comply with the requirements provided for by the chapters of SNiP on the design of water supply, sewerage, gas supply and heating networks.

4.5. Placement of external networks with flammable and combustible liquids and gases under buildings and structures is not allowed.

4.6. The choice of the method for placing power cable lines should be provided in accordance with the requirements of the "Electrical Installation Rules" (PUE), approved by the USSR Ministry of Energy.

4.7. When placing heat networks, the intersection of industrial and auxiliary buildings of industrial enterprises is allowed.

UNDERGROUND NETWORKS

4.8. Underground networks, as a rule, should be laid outside the carriageway of highways.

On the territory of enterprises under reconstruction, it is allowed to place underground networks under roads.

Notes: 1. Ventilation shafts, entrances and other devices of channels and

tunnels should be located outside the carriageway and in places free from

buildings.

2. With channelless laying, it is allowed to place networks within

4.9. In the Northern building-climatic zone, engineering networks, as a rule, should be laid together in tunnels and channels, preventing changes in the temperature regime of the soils of the foundations of nearby buildings and structures.

Note. Water, sewer and drainage networks should be placed

in the zone of temperature influence of heating networks.

4.10. In channels and tunnels, it is allowed to place gas pipelines of combustible gases (natural, associated petroleum, artificial mixed and liquefied hydrocarbons) with a gas pressure of up to 0.6 MPa (6 kgf / sq. cm) together with other pipelines and communication cables, provided that ventilation and lighting are provided in channels and tunnels in accordance with sanitary standards.

Joint placement in the channel and tunnel is not allowed: gas pipelines of combustible gases with power and lighting cables, with the exception of cables for lighting the channel or tunnel itself; pipelines of heating networks with liquefied gas pipelines, oxygen pipelines, nitrogen pipelines, cold pipelines, pipelines with flammable, volatile, chemically caustic and toxic substances and household sewerage; pipelines of flammable and combustible liquids with power cables and communication cables, with fire-fighting water supply and gravity sewerage networks; oxygen pipelines with gas pipelines of combustible gases, flammable and combustible liquids with pipelines of toxic liquids and with power cables.

Notes: 1. Joint placement in common channels and

tunnels of pipelines of flammable and combustible liquids with pressure

water supply systems (except for fire fighting) and pressure sewerage.

2. Channels and tunnels designed to accommodate pipelines with fire,

explosive and toxic materials (liquids), must have exits to

less often than after 60 m and at its ends.

4.11*. Underground engineering networks should be placed in parallel in a common trench; at the same time, the distances between engineering networks, as well as from these networks to the foundations of buildings and structures, should be taken as the minimum allowable based on the size and placement of chambers, wells and other devices on these networks, the conditions for installing and repairing networks.

Horizontal distances (in the light) from the nearest underground engineering networks, with the exception of gas pipelines of combustible gases, to buildings and structures should be taken no more than those indicated in Table. 9. The distances indicated in this table from gas pipelines of combustible gases to buildings and structures are minimum.

Horizontal distances (in the light) between adjacent underground engineering networks with their parallel placement should be taken no more than those indicated in Table. ten.

4.12. When laying a cable line parallel to a high-voltage line (VL) with a voltage of 110 kV and higher, the horizontal distance (in the light) from the cable to the outermost wire must be at least 10 m.

Under the conditions of reconstruction of enterprises, the distance from cable lines to underground parts and ground electrodes of individual supports of overhead lines with a voltage above 1000 V can be taken at least 2 m, while the horizontal distance (in the light) to the outermost wire of the overhead line is not standardized.

4.13*. When crossing engineering networks, vertical distances (in the light) must be at least:

a) between pipelines or electric cables, communication cables and railway and tram tracks, counting from the bottom of the rail, or highways, counting from the top of the coating to the top of the pipe (or its case) or electric cable, - according to the calculation for the strength of the network, but not less than 0 .6 m;

b) between pipelines and electric cables placed in canals or tunnels, and railways, the vertical distance, counting from the top of the canal or tunnel overlap to the bottom of the railway rails, is 1 m, to the bottom of the ditch or other drainage structures or the base of the railway earthen embankment canvases - 0.5 m;

c) between pipelines and power cables with voltage up to 35 kV and communication cables - 0.5 m;

d) between power cables with a voltage of 110 - 220 kV and pipelines - 1 m;

e) in the conditions of reconstruction of enterprises, subject to the requirements of the EMP, the distance between cables of all voltages and pipelines can be reduced to 0.25 m;

f) between pipelines for various purposes (with the exception of sewer pipes crossing water pipes and pipelines for toxic and foul-smelling liquids) - 0.2 m;

g) pipelines transporting drinking water should be placed 0.4 m above sewer or pipelines transporting toxic and foul-smelling liquids;

h) it is allowed to place steel, enclosed in cases, pipelines transporting drinking-quality water below sewer pipes, while the distance from the walls of the sewer pipes to the edge of the case must be at least 5 m in each direction in clay soils and 10 m in coarse and sandy soils , and sewer pipelines should be provided from cast iron pipes;

i) inlets of domestic and drinking water supply with a pipe diameter of up to 150 mm may be provided below the sewer without a case, if the distance between the walls of the intersecting pipes is 0.5 m;

j) in case of channelless laying of pipelines of water heating networks of an open heat supply system or hot water supply networks, the distances from these pipelines to sewer pipelines located below and above should be taken as 0.4 m.

4.14. When placing engineering networks vertically on the sites of industrial enterprises and territories of industrial hubs, the norms of the chapters of SNiP on the design of water supply, sewerage, gas supply, heating networks, facilities of industrial enterprises, PUE should be observed.

4.15. When crossing channels or tunnels for various purposes, gas pipelines should be placed above or below these structures in cases protruding 2 m on both sides of the outer walls of the channels or tunnels. It is allowed to lay underground gas pipelines in a case with pressure up to 0.6 MPa (6 kgf / sq. cm) through tunnels for various purposes.

Table 9

Horizontal distance (clear), m, from underground networks to

building foundations

foundations fencing supports,

axes of railway track

tram axles

highways

foundations of overhead power transmission line supports

Network engineering

and facilities

galleries, flyovers pipelines, contact network and communications

gauge 1520 mm, but not less than the depth of the trench to the bottom of the embankment and excavation

side stone, the edge of the carriageway, reinforced roadside lane

outer edge of the ditch or the bottom of the embankment

up to 1 kV and outdoor lighting

St. 1 to 35 kV

1. Water supply and pressure sewerage

2. Gravity sewers and drains

3. Drains

4. Combustible gas pipelines a) low pressure up to 0.005 MPa (0.05 kgf / sq. cm)

b) average pressure of St. 0.005 (0.05) to 0.3 MPa (3 kgf / sq. cm)

c) high pressure over 0.3 (3) up to 0.6 MPa (6 kgf / sq. cm)

d) high pressure over 0.6 (6) up to 1.2 MPa (12 kgf / sq. cm)

5. Heating networks (from the outer wall of the channel, tunnel or shell of the channelless laying)

2 (see note 4)

6. Power cables of all voltages and communication cables

7. Channels, tunnels

* Refers only to distances from power cables. The distance from communication cables must be taken according to special standards approved by the USSR Ministry of Communications.

Notes*: Notes 1 and 2 have been deleted. 3. In the Northern building-climatic zone, the distance from the networks according to pos. 1, 2, 3 and 5 during construction with the preservation of the permafrost state of the base soils should be taken according to the heat engineering calculation, during construction, when the base soils are used in a thawed state, according to Table. nine. 4. The distance from heat networks with channelless laying to buildings and structures should be taken as for a water supply system. 5. It is allowed to provide for the laying of underground engineering networks, with the exception of fire water supply networks and gas pipelines of combustible and toxic gases, within the foundations of supports and overpasses of pipelines, galleries, contact networks, provided that measures are taken to exclude the possibility of damage to networks in the event of settlement of foundations, as well as damage foundations in the event of an accident on these networks.

Table 10

Horizontal distance (clear), m, between

combustible gas pipelines

heating networks

Network engineering

sewerage

drains or drains

low pressure up to 0.005 MPa (0.05 kgf / sq. cm)

medium pressure St. 0.005 (0.05) to (3 kgf/sq.cm)

high pressure St. 0.3 (3) to 0.6 MPa (6 kgf/ sq.cm)

high pressure sv 0.6 (6) up to 1.2 MPa 12kgf/sq.cm)

power cables of all voltages

communication cables

outer wall of a channel, tunnel

shell bezka- wearable pad

llamas, tunnels

1. Plumbing

(See note 2)

2. Sewerage

(See note 2)

3. Drainage and gutter

4. Gas pipelines of combustible gases: a) low pressure up to 0.005 MPa (0.05 kgf / sq. cm)

(see note 3)

b) average pressure over 0.005 (0.05) up to 0.3 MPa (3 kgf/sq.cm)

(see note 3)

c) high blood pressure 0.3 (3) to 0.6 MPa (6 kgf/sq.cm)

(see note 3)

d) high pressure over 0.6 (6.0) up to 1.2 MPa (12 kgf / sq. cm)

(see note 3)

5. Power cables of all voltages

6. Communication cables

7. Heating networks: a) the outer wall of the channel, tunnel

b) channelless laying shell

8. Channels, tunnels

* In accordance with the requirements of the PUE. Notes: * Note 1 is excluded. 2. The distances from the sewer to the drinking water supply should be taken: to the water supply from reinforced concrete and asbestos-cement pipes laid in clay soils - 5 m, in coarse and sandy soils - 10 m; to the water supply from cast-iron pipes with a diameter of up to 200 mm - 1.5 m, with a diameter of more than 200 mm - 3 m; to the water supply from plastic pipes - 1.5 m. The distance between the sewerage networks and the industrial water supply, regardless of the material and diameter of the pipes, as well as the nomenclature and characteristics of the soil, must be at least 1.5 m. 3. When two or more gas pipelines of combustible gases are jointly placed in one trench, the distances between them in the light should be for pipes with a diameter of: up to 300 mm - 0.4 m, more than 300 mm - 0.5 m. 4. The table shows the distances to steel gas pipelines. The placement of underground gas pipelines from non-metallic pipes should be provided in accordance with the SNiP chapter on the design of internal and external gas supply devices. Notes 5 to 9 have been deleted.

4.16. Crossings of pipelines with railway and tram tracks, as well as with roads, should be provided, as a rule, at an angle of 90 degrees. In some cases, with appropriate justification, it is allowed to reduce the angle of intersection to 45 °.

The distance from gas pipelines and heating networks to the beginning of the wisecracks, the tail of the crosses and the points of attachment to the rails, suction cables should be taken at least 3 m for tram tracks and 10 m for railways.

4.17. The intersection of cable lines laid directly in the ground with the tracks of electrified rail transport should be provided at an angle of 75 - 90 ° to the axis of the track. The crossing point must be at least 10 m for railways and at least 3 m for tram tracks from the beginning of the wits, the tail of the crosses and the places where suction cables are attached to the rails.

In the event of a cable line transitioning into an overhead cable, it must come to the surface at a distance of at least 3.5 m from the bottom of the embankment or from the edge of the railway or highway bed.

GROUND NETWORKS

4.18. When placing networks on the ground, it is necessary to provide for their protection from mechanical damage and adverse atmospheric effects.

Ground networks should be placed on sleepers laid in open trays, at elevations below the planning elevations of the sites (territory). Other types of ground-based placement of networks are allowed (in channels and tunnels laid on the surface of the territory or on continuous bedding, in channels and tunnels of a semi-buried type, in open trenches, etc.)

4.19. Pipelines for combustible gases, toxic products, pipelines through which acids and alkalis are transported, as well as domestic sewage pipelines are not allowed to be placed in open trenches and trays.

4.20. Ground networks are not allowed to be placed within the strip allocated for laying underground networks in trenches and channels that require periodic access to them during operation.

OVERGROUND NETWORKS

4.21. Above-ground engineering networks should be placed on supports, overpasses, in galleries or on the walls of buildings and structures.

4.22. The intersection of cable racks and galleries with overhead power lines, internal railways and roads, cable cars, overhead communication and radio lines and pipelines should be carried out at an angle of at least 30 °.

4.23*. It is not allowed to place overground networks:

a) transit on-site pipelines with flammable and combustible liquids and gases along overpasses, free-standing columns and supports made of combustible materials, as well as along the walls and roofs of buildings, with the exception of buildings of I, II, IIIa fire resistance degrees with production of categories C, D and D;

b) pipelines with flammable liquid and gaseous products in the galleries, if the mixing of products can cause an explosion or fire;

c) pipelines with flammable and combustible liquids and gases, along combustible coatings and walls;

on the coatings and walls of buildings in which explosive materials are placed;

d) gas pipelines of combustible gases;

on the territory of warehouses of flammable and combustible liquids and materials.

Note. The onsite pipeline is transit in relation to

those buildings whose technological installations do not produce or consume

liquids and gases transported through the specified pipelines.

4.24. Aboveground pipelines for flammable and combustible liquids, laid on separate supports, overpasses, etc., should be placed at a distance of at least 3 m from the walls of buildings with openings, from walls without openings this distance can be reduced to 0.5 m.

4.25. On low supports, pressure pipelines with liquids and gases, as well as power and communication cables, located:

a) in the technical lanes of the sites of enterprises specially designated for these purposes;

b) on the territory of warehouses for liquid products and liquefied gases.

4.26. The height from ground level to the bottom of pipes (or the surface of their insulation) laid on low supports in a free area outside the passage of vehicles and the passage of people should be taken at least:

with a pipe group width of at least 1.5 m - 0.35 m;

with a pipe group width of 1.5 m or more - 0.5 m.

The placement of pipelines with a diameter of 300 mm or less on low supports should be provided in two rows or more vertically, minimizing the width of the network route.

4.27*. The height from ground level to the bottom of pipes or the surface of insulation laid on high supports should be taken:

a) in the impassable part of the site (territory), in places where people pass - 2.2 m;

b) at the intersection with roads (from the top of the carriageway) - 5 m;

c) at the intersection with internal railway access roads and common network tracks - in accordance with GOST 9238-83;

d) excluded;

e) at the intersection with tram tracks - 7.1 m from the rail head;

f) at the intersection with the contact network of the trolleybus (from the top of the pavement of the carriageway) - 7.3 m;

g) at the intersection of pipelines with flammable and combustible liquids and gases with internal railway sidings for the transportation of molten iron or hot slag (up to the rail head) - 10 m; when installing thermal protection of pipelines - 6 m.

Norms, standards and rules for horizontal distances (in the light) from the nearest underground engineering networks to buildings and structures, between adjacent engineering underground networks when they are parallel, when engineering communications intersect vertical distances (in the light). Distance between pipes and cables. Distances between pipelines, cables, garbage chutes, pipes and other utilities and other objects - tables. Distance from pipe to... Distance from cable to....table.

Horizontal distances (in the light) from the nearest underground engineering networks to buildings and structures should be taken according to the corresponding table "SP 42.13330 Urban planning. Planning and development of urban and rural settlements"

Horizontal distances (in the light) from the nearest underground engineering networks to buildings and structures should be taken from the table below. The minimum distances from underground (ground with embankment) gas pipelines to buildings and structures should be taken in accordance with SP 62.13330 "Gas distribution systems. Updated version of SNiP 42-01-2002 (this issue is not considered in this review). "

Table (SP 42.13330) Distance, m, horizontally (in the light) from underground networks to buildings and structures

Network engineering	Distance, m, horizontally (in the light) from underground networks to
	foundations of buildings and structures	foundations for fencing enterprises, overpasses, contact network and communication supports, railways	end path axes		side stone of the street, road (edge ​​of the carriageway, reinforced roadside)	the outer edge of a ditch or the sole of an embankment	foundations of supports of overhead power lines with voltage
			1520 mm gauge railways, but not less than the depth of the trench to the bottom of the embankment and the edge of the excavation	750 mm gauge railways and trams			up to 1 kV outdoor lighting, contact network of trams and trolleybuses	over 1 to 35 kV	over 35 to 110 kV and above
Plumbing and pressure sewerage
Gravity sewerage (domestic and rainwater)
Drainage
Associated drainage
Heating network:
	2 (see note 3)
Power cables of all voltages and communication cables
Channels, communication tunnels
External pneumatic garbage ducts

* Only applies to distances from power cables.

• Notes
  1. For climatic subregions IA, IB, IG and ID, the distance from underground networks (water supply, domestic and rain sewerage, drainage, heating networks) during construction with the preservation of the permafrost state of the foundation soils should be taken according to the technical calculation.
  2. It is allowed to provide for the laying of underground engineering networks within the foundations of supports and overpasses of pipelines, a contact network, provided that measures are taken to exclude the possibility of damage to networks in the event of settlement of foundations, as well as damage to foundations in the event of an accident on these networks. When placing engineering networks to be laid with the use of building dewatering, their distance to buildings and structures should be established taking into account the zone of possible violation of the strength of the foundation soils.
  3. Distances from heat networks with channelless laying to buildings and structures should be taken as for a water supply system.
  4. Distances from power cables with a voltage of 110-220 kV to the foundations of enterprise fences, overpasses, contact network supports and communication lines should be taken as 1.5 m.
  5. Horizontal distances from the lining of underground structures of the subway from cast-iron tubing, as well as from reinforced concrete or concrete with adhesive waterproofing, located at a depth of less than 20 m (from the top of the lining to the ground surface), should be taken
  • to sewerage networks, water supply, heating networks - 5 m;
  • from linings without pasting waterproofing to sewerage networks - 6 m,
  • for other water-bearing networks - 8 m;
  • the distance from the lining to the cables should be taken: with voltage up to 10 kV - 1 m, up to 35 kV - 3 m.
• In irrigated areas with non-subsiding soils, the distance from underground engineering networks to irrigation canals should be taken (up to the edge of the canals), m:
  • 1 - from a gas pipeline of low and medium pressure, as well as from water pipes, sewers, drains and pipelines of flammable liquids;
  • 2 - from high pressure gas pipelines up to 0.6 MPa, heat pipelines, domestic and rain sewerage;
  • 1.5 - from power cables and communication cables;
  • distance from the irrigation canals of the street network to the foundations of buildings and structures - 5.

Horizontal distances (in the light) between adjacent engineering underground networks with their parallel placement should be taken from the table below "SP 42.13330 Urban planning. Planning and development of urban and rural settlements"

12.36 Horizontal distances (in the light) between adjacent engineering underground networks, when they are placed in parallel, should be taken according to table 16, and at the inputs of engineering networks in buildings of rural settlements - at least 0.5 m. If the difference in the depth of laying of adjacent pipelines is more than 0, The 4 m distances indicated in Table 16 should be increased taking into account the steepness of the slopes of the trenches, but not less than the depth of the trench to the bottom of the embankment and the edge of the excavation. The minimum distances from underground (ground with bunding) gas pipelines to engineering networks should be taken in accordance with SP 62.13330. and at the inputs of engineering networks in buildings of rural settlements - at least 0.5 m. If the difference in the depth of laying of adjacent pipelines is more than 0.4 m, the distances indicated in Table 16 should be increased taking into account the steepness of the slopes of the trenches, but not less than the depth of the trench up to soles of the embankment and edges of the excavation. The minimum distances from underground (ground with bunding) gas pipelines to engineering networks should be taken in accordance with SP 62.13330. "Gas distribution systems. Updated edition of SNiP 42-01-2002" (this issue is not considered in this review).

Table (SP 42.13330) Distance, m, horizontally (clearly) to neighboring engineering networks when they are placed in parallel

Network engineering	Distance, m, horizontally (in the light) up to
	water supply	domestic sewerage	drainage and rainwater	power cables of all voltages	communication cables	heating networks		canals, tunnels	external pneumo-garbage ducts
						outer wall of a channel, tunnel	shell of ductless laying
Water pipes	See note. one	See note 2
Sewerage household	See note. 2
Rain sewer
Power cables of all voltages
Communication cables
Heating network:
from the outer wall of the channel, tunnel
from the shell of the channelless laying
Channels, tunnels
External pneumatic garbage ducts

* In accordance with the requirements of section 2 of the EMP rules.

• Notes
  1. When laying several water lines in parallel, the distance between them should be taken depending on the technical and engineering-geological conditions in accordance with SP 31.13330.
  2. Distances from household sewerage to domestic drinking water supply should be taken, m:
     • to the water supply from reinforced concrete and asbestos-cement pipes - 5;
     • to the water supply from cast-iron pipes with a diameter of up to 200 mm - 1.5,
     • with a diameter over 200 mm - 3;
     • to the water supply from plastic pipes - 1.5.
  3. The distance between the sewerage networks and the industrial water supply, depending on the material and diameter of the pipes, as well as on the nomenclature and characteristics of the soil, should be 1.5 m.

When engineering networks intersect, vertical distances (in the light) should be taken in accordance with the requirements of SP 18.13330. "CODE OF RULES MASTER PLANS OF INDUSTRIAL ENTERPRISES Master plans for industrial enterprises" Updated version of SNiP II-89-80

• When crossing engineering communications, vertical distances (in the light) must be at least:
  • a) between pipelines or electric cables, communication cables and railway and tram tracks, counting from the bottom of the rail, or highways, counting from the top of the coating to the top of the pipe (or its case) or electric cable, - according to the calculation for the strength of the network, but not less than 0 .6 m;
  • b) between pipelines and electric cables placed in canals or tunnels, and railways, the vertical distance, counting from the top of the canal or tunnel overlap to the bottom of the railway rails, is 1 m, to the bottom of the ditch or other drainage structures or the base of the railway earthen embankment canvases - 0.5 m;
  • c) between pipelines and power cables with voltage up to 35 kV and communication cables - 0.5 m;
  • d) between power cables with a voltage of 110-220 kV and pipelines - 1 m;
  • e) in the conditions of reconstruction of enterprises, subject to the requirements of the EMP, the distance between cables of all voltages and pipelines can be reduced to 0.25 m;
  • f) between pipelines for various purposes (with the exception of sewer pipes crossing water pipes and pipelines for toxic and foul-smelling liquids) - 0.2 m;
  • g) pipelines transporting drinking water should be placed 0.4 m above sewer or pipelines transporting toxic and foul-smelling liquids;
  • h) it is allowed to place steel, enclosed in cases, pipelines transporting drinking-quality water below sewer pipes, while the distance from the walls of the sewer pipes to the edge of the case must be at least 5 m in each direction in clay soils and 10 m in coarse and sandy soils , and sewer pipelines should be provided from cast iron pipes;
  • i) inlets of domestic and drinking water supply with a pipe diameter of up to 150 mm may be provided below the sewer without a case, if the distance between the walls of the intersecting pipes is 0.5 m;
  • j) in case of channelless laying of pipelines of water heating networks of an open heat supply system or hot water supply networks, the distances from these pipelines to sewer pipelines located below and above should be taken as 0.4 m.

SNiP 41-02-2003

APPENDIX B (mandatory)

Table B.1 - Vertical distances

Structures and engineering networks	The smallest clear distances vertically, m
To the water supply, drain, gas pipeline, sewerage	0,2
Up to armored communication cables	0,5
Up to power and control cables up to 35 kV	0.5 (0.25 in cramped conditions) - subject to the requirements of note 5
To oil-filled cables with a voltage of St. 110 kV	1.0 (0.5 in cramped conditions) - subject to the requirements of note 5
Up to the telephone sewer block or up to the armored communication cable in pipes	0,15
To the sole of the railroad tracks of industrial enterprises	1,0
The same, railways of the general network	2,0
» tram tracks	1,0
To the top of the road surface of public roads of categories I, II and III	1,0
To the bottom of a ditch or other drainage structures or to the base of an embankment of a railway subgrade (if heating networks are located under these structures)	0,5
To metro facilities (if heating networks are located above these facilities)	1,0
To the head of railroads	Dimensions "C", "Sp", "Su" according to GOST 9238 and GOST 9720
To the top of the carriageway	5,0
To the top of the footpaths	2,2
To parts of the contact network of the tram	0,3
Same, trolleybus	0,2
To overhead power lines with the largest sag of wires at voltage, kV:
up to 1	1,0

Notes
1 Deepening of heat networks from the ground surface or road surface (except for motor roads of categories I, II and III) should be taken at least:
a) to the top of the ceilings of channels and tunnels - 0.5 m;
b) to the top of the ceilings of the chambers - 0.3 m;
c) up to the top of the channelless laying shell 0.7 m. In the impassable part, ceilings of chambers and ventilation shafts for tunnels and channels protruding above the ground are allowed to a height of at least 0.4 m;
d) at the input of heat networks to the building, it is allowed to take penetrations from the ground surface to the top of the overlap of channels or tunnels - 0.3 m and to the top of the shell of a channelless laying - 0.5 m;
e) at a high level of groundwater, it is allowed to provide for a decrease in the depth of channels and tunnels and the location of ceilings above the ground to a height of at least 0.4 m, if the conditions for the movement of vehicles are not violated.
2 When laying above-ground heating networks on low supports, the clear distance from the earth's surface to the bottom of the thermal insulation of pipelines must be, m, not less than:
with a group of pipes up to 1.5 m wide - 0.35;
with a group of pipes more than 1.5 m wide - 0.5.
3 When laying underground, heat networks at the intersection with power, control and communication cables can be located above or below them.
4 In case of channelless laying, the clear distance from water heat networks of an open heat supply system or hot water supply networks to sewer pipes located below or above the heat networks is assumed to be at least 0.4 m.
5 The temperature of the soil at the intersection of heat networks with electric cables at a depth of laying power and control cables with a voltage of up to 35 kV should not rise by more than 10 ° C in relation to the highest average monthly summer ground temperature and by 15 ° C - to the lowest average monthly winter ground temperature at a distance of up to 2 m from the outermost cables, and the temperature of the soil at the depth of the oil-filled cable should not rise by more than 5 ° C in relation to the average monthly temperature at any time of the year at a distance of up to 3 m from the outermost cables.
6 Deepening of heat networks in places of underground crossing of railways of the general network in heaving soils is determined by calculation from the conditions under which the influence of heat releases on the uniformity of frost heaving of the soil is excluded. If it is impossible to ensure the specified temperature regime due to the deepening of heat networks, ventilation of tunnels (channels, cases), replacement of heaving soil at the intersection or above-ground laying of heat networks is provided.
7 Distances to a telephone duct or to an armored communication cable in pipes should be specified according to special standards.
8 In places of underground intersections of heat networks with communication cables, telephone sewerage units, power and control cables with voltage up to 35 kV, it is allowed, with appropriate justification, to reduce the vertical distance in the light when installing reinforced thermal insulation and observing the requirements of paragraphs 5, 6, 7 of these notes.

Table B.2 - Horizontal distances from underground water heating networks of open heat supply systems and hot water supply networks to sources of possible pollution

Source of pollution	The smallest clear distances horizontally, m
1. Structures and pipelines of household and industrial sewerage: when laying heat networks in channels and tunnels when laying heat networks without channels D y ≤ 200 mm The same, D y > 200 mm 2. Cemeteries, landfills, animal burial grounds, irrigation fields: in the absence of groundwater in the presence of groundwater and in filtering soils with the movement of groundwater towards heating networks 3. Cesspools and garbage pits: in the absence of groundwater in the presence of groundwater and in filtering soils with the movement of groundwater towards heating networks	1,0 1,5 3,0
Note - When sewerage networks are located below heat networks with parallel laying, horizontal distances should be taken at least as differences in the marks of the networks, above heat networks - the distances indicated in the table should increase by the difference in laying depth.

Table B.3 - Horizontal distances from the building structures of heat networks or pipeline insulation shells for channelless laying to buildings, structures and engineering networks

		The smallest clear distances, m
	Underground laying of heating networks
To the foundations of buildings and structures: when laying in channels and tunnels and non-subsidence soils (from the outer wall of the tunnel channel) with a diameter
	D< 500	2,0
	D y \u003d 500-800	5,0
	D y \u003d 900 or more	8,0
	D< 500	5,0
	D y ≥ 500	8,0
b) for channelless laying in non-subsidence soils (from channelless laying shells) with pipe diameter, mm:
	D< 500	5,0
	D y ≥ 500	7,0
The same, in subsiding soils of type I with:
	D y ≤ 100	5,0
	D y > 100 doD y<500	7,0
	D y ≥ 500	8,0
To the axis of the nearest track of the 1520 mm gauge railway		4.0 (but not less than the depth of the heating network trench up to

Buildings, structures and engineering networks
	mound soles)
The same, 750 mm track	2,8
To the nearest railway subgrade structure	3.0 (but not less than depth
roads	trenches of the heating network up to
	grounds for extreme
	structures)
To the axis of the nearest path of the electrified railway	10,75
roads
To the axis of the nearest tram track	2,8
To the side stone of the street of the road (edge ​​of the carriageway,	1,5
reinforced roadside)
To the outer edge of the ditch or the bottom of the road embankment	1,0
To the foundations of fences and pipeline supports	1,5
Up to outdoor lighting masts and poles and communication networks	1,0
To the foundations of the supports of the overpass bridges	2,0
To the foundations of the poles of the contact network of railways	3,0
The same trams and trolleybuses	1,0
Up to power and control cables up to 35 kV and	2.0 (see note 1)
oil-filled cables (up to 220 kV)
To the foundations of overhead power transmission lines at
voltage, kV (when approaching and crossing):
up to 1	1,0
St. 1 to 35	2,0
St. 35	3,0
To the telephone sewer block, armored cable	1,0
connections in pipes and up to radio transmission cables
Before the water pipes	1,5
The same, in subsiding soils of type I	2,5
Before drains and rainwater	1,0
To industrial and household sewerage (with closed	1,0
heating system)
To gas pipelines with pressure up to 0.6 MPa during laying	2,0
heating networks in channels, tunnels, as well as with channelless
laying with accompanying drainage
The same, more than 0.6 to 1.2 MPa	4,0
To gas pipelines with pressure up to 0.3 MPa with channelless	1,0
laying heating networks without associated drainage
The same, more than 0.3 to 0.6 MPa	1,5
The same, more than 0.6 to 1.2 MPa	2,0
Up to the tree trunk	2.01 (see note 10)
Down to the bushes	1.0 (see note 10)
To channels and tunnels for various purposes (including up to	2,0
edges of canals of irrigation networks - ditches)
To subway structures when lining from the outside	5.0 (but not less than depth
adhesive insulation	trenches of the heating network up to
	building foundations)
The same, without pasting waterproofing	8.0 (but not less than depth
	trenches of the heating network up to
	building foundations)
To the fencing of surface subway lines	5

Buildings, structures and engineering networks	The smallest clear distances, m
To the tanks of automobile filling stations (gas stations): a) with channelless laying b) with channel laying (provided that ventilation shafts are installed on the heating network channel)	10,0 15,0
Above-ground laying of heating networks
To the nearest railway subgrade structure To the axis of the railway track from intermediate supports (when crossing railways) To the axis of the nearest tram track To the side stone or to the outer edge of the highway ditch To the overhead power line with the largest deviation of wires at voltage, kV: St. 1 to 20 35-110 150 220 330 500 Up to tree trunk Up to residential and public buildings< 0,63 МПа, конденсатных тепловых сетей при диаметрах труб, мм: Д у от 500 до 1400 Д у от 200 до 500 Д у < 200 До сетей горячего водоснабжения То же, до паровых тепловых сетей: Р у от 1,0 до 2,5 МПа св. 2,5 до 6,3 МПа	3 Dimensions "C", "Sp", "Su" according to GOST 9238 and GOST 9720 2.8 0.5 (See note 8) 1 3 4 4,5 5 6 6,5 2,0 25 (see note 9) 20 (see note 9) 10 (see note 9)
Notes 1 It is allowed to reduce the distance given in Table EL3, subject to the condition that in the entire area where the heating networks approach the cables, the temperature of the soil (accepted according to climatic data) at the place where the cables pass at any time of the year will not increase by more than 10 ° compared to the average monthly temperature С for power and control cables with voltage up to 10 kV and for 5 °С - for power control cables with voltage 20 - 35 kV and oil-filled cables up to 220 kV. 2 When laying heat and other engineering networks in common trenches (with their simultaneous construction), it is allowed to reduce the distance from heat networks to water supply and sewerage systems to 0.8 m when all networks are located at the same level or with a difference in laying marks of not more than 0.4 m. 3 For heat networks laid below the base of the foundations of supports, buildings, structures, the difference in elevation marks should be additionally taken into account, taking into account the natural slope of the soil, or measures should be taken to strengthen the foundations. 4 With parallel laying of underground heating and other engineering networks at different depths, the ones given in Table B.3. distances should increase and be taken not less than the difference in the laying of networks. In cramped laying conditions and the impossibility of increasing the distance, measures should be taken to protect engineering networks from collapse during the repair and construction of heating networks. 5 When parallel laying heat and other engineering networks, it is allowed to reduce the distances given in table R3_ to structures on networks (wells, chambers, niches, etc.) to a value of at least 0.5 m, providing for measures to ensure the safety of structures during the construction - installation works. 6 Distances to special communication cables must be specified in accordance with the relevant standards. 7 The distance from the ground pavilions of heating networks for the placement of shut-off and control valves (in the absence of pumps in them) to residential buildings is taken at least 15 m. In particularly cramped conditions, it can be reduced to 10 m. 8 When parallel laying of above-ground heat networks with an overhead power line with a voltage of more than 1 to 500 kV outside settlements, the horizontal distance from the outermost wire should be taken not less than the height of the support. 9 When laying temporary (up to 1 year of operation) water heating networks (bypasses) above ground, the distance to residential and public buildings can be reduced while ensuring the safety of residents (100% control of welds, testing of pipelines by 1.5 of the maximum working pressure, but not less than 1.0 MPa, the use of fully covered steel valves, etc.). 10 In exceptional cases, if it is necessary to lay heating networks underground closer than 2 m from trees, 1 m from shrubs and other green spaces, the thickness of the heat-insulating layer of pipelines should be taken twice.

* Taking into account the use of one lane for parking of cars.

Notes

1 The width of streets and roads is determined by calculation depending on the intensity of traffic and pedestrians, the composition of the elements placed within the transverse profile (carriageways, technical lanes for laying underground utilities, sidewalks, green spaces, etc.), taking into account sanitary and hygienic requirements and civil defense requirements. As a rule, the width of streets and roads in the red lines is taken m: main roads - 50-75; main streets - 40-80; streets and roads of local importance - 15-25.

2 In conditions of complex terrain or reconstruction, as well as in areas with high urban development value of the territory, it is allowed to reduce the design speed for high-speed roads and streets of continuous traffic by 10 km/h with a decrease in the radii of curves in the plan and an increase in longitudinal slopes.

3 For the movement of buses and trolleybuses on the main streets and roads in large, large and largest cities, an extreme lane 4 m wide should be provided; for the passage of buses during peak hours at a rate of more than 40 units / h, and in conditions of reconstruction - more than 20 units / h, a separate carriageway with a width of 8-12 m is allowed.

On main roads with predominant traffic of trucks, it is allowed to increase the width of the lane up to 4 m.

4 In climatic subregions IA, IB and IG, the largest longitudinal slopes of the carriageway of main streets and roads should be reduced by 10%. In areas with a winter snowfall of more than 600 m / m, within the carriageway of streets and roads, lanes up to 3 m wide should be provided for snow storage.

5 The width of the pedestrian part of sidewalks and paths does not include the area required for kiosks, benches, etc.

6 In climatic subregions IA, IB and IG, in areas with a snow load of more than 200 m / m, the width of sidewalks on main streets should be taken at least 3 m.

7 In the conditions of reconstruction on the streets of local importance, as well as with an estimated pedestrian traffic of less than 50 people per hour in both directions, it is allowed to install sidewalks and paths with a width of 1 m.

8 When sidewalks are directly adjacent to the walls of buildings, retaining walls or fences, their width should be increased by at least 0.5 m.

9 It is allowed to provide for the phased achievement of the design parameters of the main streets and roads, transport intersections, taking into account the specific size of traffic and pedestrians, with the obligatory reservation of the territory and underground space for prospective construction.

10 In small, medium and large cities, as well as in the conditions of reconstruction and in the organization of one-way traffic, it is allowed to use the parameters of the main streets of district significance for the design of main streets of citywide significance.