Cipher……………. –POS

1 Text part General data

The name of the object, its purpose, location;

Provides brief information about the design solutions.

A list of regulatory documents is presented, on the basis of which the PIC was developed.

2 Brief description of the area and construction conditions

The subsection specifies the physical and geographical characteristics of the construction site, climate, geotechnical and hydrological conditions (the level of groundwater must be indicated).

3 Assessment of the development of transport infrastructure

It is necessary to indicate the level of development of the transport network, unloading station, quarries, waste disposal sites.

4 Information on the possibility of using local labor in the implementation of construction

Information is provided on the presence or absence of the possibility of using the local labor force.

5 List of measures to attract qualified specialists for construction, including for work on a rotational basis

The requirements for contractors, for certification of personnel, directions of certification are indicated.

Information about the need for organization (or lack of need) of the rotational method.

6 Characteristics of the land plot provided for construction. Justification of the need to use for construction land plots located outside the land plot provided for construction

This subsection provides a description of the land plot allocated for construction (on which land it is located, leased or owned by the Customer, the area of ​​the land plot).

Further, the need (or lack of need) for the use of an additional site for the placement of temporary buildings and structures, storage areas is indicated. In the presence of additional land plots, the area of ​​these plots, characteristics are indicated, the location is shown on the building master plan or on the overview diagram.

7 Description of the features of work in an operating enterprise, in the locations of underground utilities, power lines and communications

For industrial facilities

A description of the features of work in the conditions of an operating enterprise is given: a list of works on reconstruction (reconstruction of workshops, expansion of buildings, structures) or technical re-equipment of enterprises, requirements for its mode of operation (without stopping production, with partial or complete stop), an assessment of the influence of constraint on the choice methods of basic construction work, substantiation of the means of mechanization used to carry out these works.

In the case of work carried out at the locations of power lines, communications, security zones of oil and gas pipelines, water pipelines, their description and characteristics are given, security and danger zones are determined, the conditions for the work are indicated, the need to develop appropriate projects for the production of construction work.

8 Description of the features of work in a cramped urban environment, in the locations of underground utilities, power lines and communications

For non-production facilities

A description of the features of work in a cramped urban area should consist of a description of the cramped conditions, the definition of hazardous zones formed during the operation of cranes, an indication of objects that fall into hazardous zones, from the justification of measures for the safe conduct of work (limitation of service areas by cranes and reduction of hazardous zones , the device of protective structures (shelters), the use of protective screens, site fencing, etc.).

The section contains:

- conditions for installation and operation of cranes near the slopes of excavations, measures for the safe operation of several cranes;

- Measures to temporarily close streets, to restrict traffic.

In the case of work carried out at the locations of power lines, communications, security zones of oil, gas pipelines, water pipelines, the description is carried out as for industrial facilities.

9 Justification of the adopted organizational and technological scheme, which determines the sequence of the construction of buildings and structures, engineering and transport communications

The subsection presents the accepted technological scheme for the organization of construction (including the preparatory and main period), lists the work performed in the preparatory and main periods, indicates the sequence of the construction of buildings and structures, if the project provides for the construction of several buildings and structures.

10 The list of the main types of construction and installation work, critical structures, sections of engineering and technical support networks, subject to certification with the preparation of appropriate acceptance certificates before the production of subsequent work and the device of subsequent structures

A list of critical structures subject to certification is indicated, measures can be attached to ensure their strength and stability during the construction process, as well as methods and means of performing their control and testing.

11. Technological sequence of work during the construction of facilities

The technological sequence of works or their individual elements is determined in accordance with the selected organizational and technological scheme for the construction of the facility and the organizational and technological schemes for the construction of the main buildings and structures.

The organizational and technological scheme for the construction of a capital construction facility establishes the sequence of construction of the main facilities, auxiliary and service facilities, external networks and structures.

Organizational and technological schemes for the construction of the main buildings and structures establish the sequence of erection of individual buildings (structures) in their parts (nodes, sections, tiers, floors, etc.).

For residential buildings, the sequence of erection of the building itself, external networks of engineering support, improvement is presented. The following is a description of all the listed works.

The technological sequence of work, established by the organizational and technological schemes, is the source material for the development of the schedule.

An example of a description of the work provided for in the project

(this example is not universal. The set of works is adjusted in accordance with the adopted technical solutions):

Excavation

Excavation work must be done in accordance with the rules
SP 45.13330-2010 "Earthworks, foundations and foundations".

During the construction of a residential building, earthwork begins with the removal of the fertile soil layer in a non-frozen state with its transfer to a temporary dump outside the removal zone. Cutting off the fertile soil layer and moving the fertile soil layer is carried out by transverse and longitudinal passes of the bulldozer.

The dump should be located at a distance of no closer than 0.5m from the edge of the trench being developed in order to avoid its crumbling. When removing, moving and storing the fertile soil layer, mixing it with mineral soil by rocks, contamination with liquids or materials, erosion and blowing, as well as its use for backfill is not allowed.

When developing a trench, the excavator must be outside the soil collapse prism (slope) at the distance indicated in Table 1.

Table (table number) - The smallest distance from the base of the slope to the nearest machine supports

Soil (not bulk)	At a depth of excavation, m
	1,00	2,00	3,00	4,00
Table continuation
Sandy and gravel	1,50	3,00	4,00	5,00
Sandy loam	1,25	2,40	3,60	4,40
Loamy	1,00	2,0	3,25	4,00
Clayey	1,00	1,50	1,75	3,00
Loess dry	1,00	2,00	2,50	3,00

When developing a trench with an excavator, the soil must be thrown at a distance of at least 0.50 m from the edge of the trench (pit) in dry and connected soils and at least 1.00 m in sandy and moist soils.

A trench with vertical walls without fastening is developed by a single-bucket excavator in soils of natural moisture with an undisturbed structure in the absence of groundwater to a depth of no more than:

In bulk sandy and gravelly soils 1.00 m;

In sandy loam 1.25 m;

In loams and clays 1.50 m;

In especially dense non-rocky soils 2.00 m.

When digging trenches and pits of greater depth, it is necessary to arrange slopes of various locations depending on the composition of the soil at a groundwater level below the excavation depth according to Table 2.

Table (table number) - Allowable slope steepness of the trench

Soils	Trench depth, m
	Up to 1.50		1,50-3,00		3,00-5,00
	slope angle, degree	slope	slope angle, degree	slope	slope angle, degree	slope
Bulk	56	1:0,67	45	1:1,00	38	1:1,25
Sandy and gravel	63	1:0,50	45	1:1,00	45	1:1,00
Sandy loam	76	1:0,25	56	1:0,67	50	1:0,85
Loam	90	1:0,00	63	1:0,05	53	1:075

The development of the trench with a single-bucket excavator should be carried out with the elimination of scallops at the bottom during the digging process, which is achieved by pulling the bucket along the bottom of the trench after mining the bottom.

In the event of the appearance of groundwater, drainage of the incoming water from the reservoir (sump) should be performed, followed by pumping out with a pump (piston, diaphragm or centrifugal, depending on the pressure of the incoming water) to the surface, where water is drawn from the excavation through drainage grooves or trays.

The soil in the pit is selected before reaching the design mark -10 cm. The soil is reworked immediately before the start of work on the foundation.

The soil for backfilling the sinuses of trenches and foundation pit is moved by a bulldozer 9 or dump trucks from a reserve.

Backfilling of trenches and pit sinuses should be done with mineral soil without construction waste, without inclusions of large fragments (more than 50 mm in diameter) of hard rocks (crushed stone, gravel, frozen clods) with layer-by-layer compaction with pneumatic rammers and platform rammers ..

Monolithic reinforced concrete works

All types of work must be carried out in accordance with the PPR, the main provisions for the production of construction and installation works used in this project, and the requirements of SP 70.13330.2012 "Bearing and enclosing structures".

Concrete and mortar are delivered to the construction site by concrete mixer trucks.

Concrete supply is carried out by a concrete pump. The supply of formwork and fittings is provided by a truck crane.

Concrete mixtures should be placed in the concreted structures in horizontal layers of the same thickness without breaks, with a consistent direction of placement in one direction in all layers.

When compacting the concrete mixture, it is not allowed to rest the vibrators on reinforcement and embedded products, ties and other formwork fastening elements. The depth of immersion of the deep vibrator in the concrete mixture should ensure its deepening into the previously laid layer by 5.00 - 10.00 cm. the vibrator pad is the boundary of the already vibrated area.

The compaction of the concrete mix depends on the duration of the vibration. Compaction is considered sufficient if the mixture stops settling, the release of air bubbles, and cement milk appears on the surface of the concreted structure.

In the event of deformation or displacement of the formwork, concreting must be stopped and the formwork must be repaired before the concrete begins to set.

In the initial period of hardening (up to 7 days), concrete must be protected with a polymer film from atmospheric precipitation or moisture loss, and then to maintain a temperature and humidity regime with the creation of conditions that ensure an increase in its strength.

During rain, the area to be concreted must be protected (with plastic foil, light mobile sheds, tarpaulins, etc.) from the ingress of water into the concrete mixture. Concrete washed out by rain should be removed.

Hardening concrete should be protected from mechanical damage.

Laying of the next layer of concrete mixture is allowed before the beginning of the setting of the concrete of the previous layer. The duration of the break between the laying of adjacent layers of concrete mixture without the formation of a working seam is established by the construction laboratory. The upper level of the laid concrete mixture should be 50-70 mm below the top of the formwork panels

The quality of the concrete placed in the formwork is controlled by sampling the concrete mix.

Control concrete samples should be selected in accordance with table 4 GOST 10180-90 “Concrete. Methods for Determining Strength Using Control Samples ”. Cube curing should be carried out under conditions corresponding to the conditions of concrete hardening in the formwork.

Control cubes should be tested at 7 and 28 days of age.

In the process of performing work, it is necessary to enter data on concreting and control in special journals.

Measures for the maintenance of concrete, the procedure and timing of their implementation, control over their implementation and the timing of stripping of structures should be established by the PM.

Reinforcing steel (rods, wire) and bars, reinforcing products and embedded elements must comply with the project and the requirements of the relevant standards. The dismemberment of spatial large-sized reinforcing products, as well as the replacement of the reinforcing steel provided for by the project must be agreed with the customer and the design organization.

Transportation and storage of reinforcing steel should be carried out in accordance with GOST 7566-94 *.

The blanking of bars of measured length from bar and wire reinforcement and the manufacture of non-stressed reinforcing products should be carried out in accordance with the requirements of SNiP 3.09.01-85, and the manufacture of load-bearing reinforcing cages from bars with a diameter of more than 32.00 mm, rolled profiles - in accordance with section 8 of SP 70.13330- 2012.

The manufacture of spatial large-sized reinforcement products should be carried out in assembly conductors.

Blanking (cutting, welding, formation of anchor devices) and installation of reinforcement should be carried out according to the project in accordance with SNiP 3.09.01-85.

The installation of reinforcing structures should be carried out mainly from large-sized blocks or unified prefabricated meshes with the provision of fixing the protective layer.

Installation of pedestrian, transport or mounting devices on reinforcement structures should be carried out in accordance with the PPR, in agreement with the design organization.

Non-welded joints of rods should be made:

butt joints - overlapping or crimping sleeves and screw couplings ensuring the uniform strength of the joint;

cruciform - viscous annealed wire. The use of special connecting elements (plastic and wire clips) is allowed.

Butt and cruciform welded joints should be made according to the project in accordance with GOST 14098-91.

When installing monolithic areas in winter, concrete is cured by the method of electric heating. The electric heating zone should be under the round-the-clock supervision of the electricians on duty.

Acceptance of finished concrete and reinforced concrete structures or parts of structures should be formalized in the prescribed manner by an act of survey of hidden works or an act of acceptance of critical structures.

Installation of precast concrete structures

Installation of prefabricated reinforced concrete structures must be carried out in accordance with SP 70-13330-2012 "Bearing and Fencing Structures"

Delivery of prefabricated reinforced concrete blocks is carried out by a sidecar with a lifting capacity of 20 tons.

The on-site warehouse of reinforced concrete structures is located in the area of ​​operation of the assembly crane.

Installation of structures is carried out using a tower crane.

Before lifting and moving prefabricated elements into the installation area, it is necessary:

–Clean elements of dirt, snow, ice, and metal parts - from rust;

–Apply axial risks and check the presence of marks for the support points of the elements;

- check the correctness and reliability of the slinging.

Lifting, moving and lowering elements should be carried out smoothly, without jerking, swinging and rotating. Prefabricated elements must be installed in the design position with appropriate alignment and the device of design fixings in the nodes.

It is possible to release structures from slinging only after they have been secured.

The installation of structures of each overlying floor (tier) of a residential building should be carried out after the design fixing of all mounting elements and the concrete (mortar) reaching the monolithic joints of the supporting structures of the strength specified in the PPR.

In cases where permanent connections do not ensure the stability of structures during their assembly, it is necessary to use temporary assembly connections. The design and number of ties, as well as the order of their installation and removal, should be indicated in the PPR.

Structures should be installed in layers. Work on the next tier should be started only after the design fixation of all structures of the underlying tier.

Limit deviations from alignment of landmarks when installing prefabricated elements, as well as deviations of completed installation structures from the design position, should not exceed the values ​​given in Table 12. SP 70.13330-2012.

Brickwork

The brickwork of the walls is carried out in accordance with the project and the requirements of SP 70.13330-2012.

Delivery of bricks is carried out by flatbed trucks in pallets.

The supply of bricks and mortar to the work site is carried out by a tower crane.

The weakening of brickwork by holes, grooves, niches, mounting openings not provided for by the project is not allowed.

The thickness of horizontal joints of brick and stone masonry of regular shape should be 12 mm, vertical joints - 10 mm.

When breaking the masonry with a vertical line, a mesh (reinforcement) of longitudinal rods with a diameter of no more than 6 mm, from transverse rods - no more than 3 mm with a distance of up to 1.5 m along the height of the masonry, as well as at the level of each overlap, should be laid in the seams of the masonry. ...

The number of longitudinal reinforcement bars is taken at the rate of one bar for every 12 cm of wall thickness, but not less than two for a wall thickness of 12 cm.

The erection of stone structures on the next floor is allowed only after the supporting structures of the floors of the erected floor have been laid, the walls are anchored and the seams between the floor slabs are monolithic.

The maximum height for erection of free-standing stone walls (without laying ceilings or coverings) should not exceed the values ​​indicated in Table 28. SP 70.13330-2012. If it is necessary to erect free-standing walls of greater height, temporary fixings should be used.

The height of unreinforced stone partitions, not secured by ceilings or temporary fastenings, should not exceed 1.5 m for partitions 9 cm thick, made of stones and bricks on an edge, 88 mm thick, and 1.8 m - for partitions 12 cm thick, made of bricks.

All embedded reinforced concrete prefabricated elements (cornices, belts, balconies, etc.) must be provided with temporary fasteners until they are pinched by the overlying masonry. The period for removing temporary fasteners must be observed in accordance with the working drawings.

Considering that the seismicity of this area is 7 points when laying from bricks, it is necessary to comply with the following requirements:

The laying of stone structures should be carried out over the entire thickness of the structure in each row;

Wall masonry should be carried out using a single-row (chain) dressing;

Horizontal, vertical, transverse and longitudinal joints of the masonry should be filled with mortar completely with cutting off the mortar on the outer sides of the masonry;

Temporary (assembly) gaps in the masonry being erected should be terminated only with an inclined line and located outside the places of structural reinforcement of the walls.

The use of bricks with a high content of salts protruding on their surfaces is not allowed.

The surface of the brick must be cleaned of dust and dirt before laying:

For masonry on ordinary mortars - with a stream of water;

For masonry on polymer-cement mortars - using brushes or compressed air.

At negative outside temperatures, kiropic masonry should be made with mortars with antifreeze additives. In this case, the following requirements must be observed:

Before the start of masonry work, the optimal ratio between the amount of preliminary moistening of the wall material and the water content of the mortar should be determined;

Conventional solutions must be used with high water retention capacity (water separation no more than 2%).

The verticality of the edges and corners of brick and stone masonry, the horizontalness of its rows must be checked in the course of the masonry (every 0.5-0.6 m) with the elimination of the detected deviations within the tier.

After the completion of the laying of each floor, an instrumental check of the horizontal position and from the marks of the top of the brickwork should be carried out, regardless of the intermediate checks of the horizontalness of its rows.

Welding works

When performing welding work, it is necessary to comply with the requirements of SNiP 12-04-2002, "Rules for the fire regime in the Russian Federation", GOST 10922-90, GOST 14098-85.

The dimensions of structural elements of welded joints of bar reinforcement (bars between themselves and with elements of embedded products) and the maximum deviations of the dimensions of the welds made must correspond to those specified in GOST 14098-85.

To perform erection joints of reinforcing steel of different classes, the welding methods and welding materials specified in Tables 38 and 39 of SP 70.13330-2012 should be used.

Before assembling the structures, it is necessary to establish compliance with the drawings of the KZh of the classes of bar reinforcement, steel grades of flat embedded products and connecting parts, and before welding - also the dimensions and mating accuracy of the connecting elements. The assembly accuracy of the reinforcing bar outlets must comply with the requirements of GOST 10922-90 and GOST 14098-85.

The length of the outlets of reinforcing bars from the concrete of the structure must be at least 150 mm with the gaps regulated by regulatory documents and at least 100 mm when using an insert.

Elements of prefabricated reinforced concrete structures should be assembled using devices and fixtures that fix their design position. Structures that have embedded support products must be additionally assembled on tacks using the same welding materials as the main seams. Tacks should be placed in the places where welds will be applied.

When assembling structures, it is not allowed to trim the ends of the rods or prepare their edges with an electric arc.

After assembly for welding, misalignment of abutting reinforcing bars, fractures of their axes, displacements and deviations in the dimensions of elements of welded joints must comply with the requirements of GOST 10922-90. The bending of the rods to ensure their alignment is allowed to be carried out by heating to a temperature of 600-800 ° C.

Welding of structural elements should be carried out in a securely fixed design position. It is forbidden to weld outlets of reinforcing bars of structures held by a crane.

After the end of welding, the welded joint must be cleaned of slag and metal spatter.

Completed welding work before concreting should be formalized with acts of acceptance of a batch of reinforcement according to external inspection.

The structures of welded joints of bar reinforcement, their types and methods of execution, depending on the operating conditions, class and grade of steel to be welded, diameter and spatial position during welding, must comply with the requirements of GOST 14098-85.

Tacking by arc welding in cruciform joints of working reinforcement bars in accordance with GOST 14098-85 at negative temperatures is prohibited.

Burns by arc welding are not allowed on the surface of the rods of the working reinforcement.

In the joints of reinforced concrete elements, the installed closed clamps (transverse rods) should be fixed, as a rule, with a knitting wire. Arc welding at the intersection of the bars of the clamps with the longitudinal (working) reinforcement is allowed for some steel grades provided for by GOST 14098-85.

To perform manual or mechanized welding at negative ambient temperatures up to minus 30 ° C, you must:

Increase the welding current by 1% with a decrease in the air temperature for every 3 ° C (from 0 ° C);

Preheat the reinforcement rods with a gas flame up to 200-250 ° С for a length of 90-150 mm from the joint; heating of rods should be carried out after fixing inventory forms, steel brackets or round plates on them without disassembling the conductors used for temporary fastening of the mounted structures;

Reduce the cooling rate of rod joints made by bath welding methods by wrapping them with asbestos; in the presence of inventory forming elements, the latter should be removed after cooling of the completed welded joint to 100 ° C and below.

Manual welding of structures is allowed to be performed without heating at the ambient temperature given in Table. SNiP 3.03.01-87.

Acceptance control of the welded butt joints of the reinforcement should provide for an external examination and a set of tests carried out in accordance with GOST 10922-90 and GOST 23858-79.

The volume of a batch of welded joints of reinforcement outlets is set by the same standards. Concreting of the structure until the results of the assessment of the quality of welded joints are obtained is not allowed.

Welding of defects allowed for correction should be performed with electrodes with a diameter of 4 mm after cleaning the defect site with an abrasive tool and preheating the joint to 200-250 ° C.

Butt welded joints of fittings that do not meet the requirements of GOST 10922-90 or GOST 23858-79 must be cut out. In place of the cut out joint, an intermediate insert with a length of at least 80 mm should be welded, followed by ultrasonic testing of the two welded joints.

Roofing

Roofing works are carried out in accordance with the instructions
SP 17.13330.2011 "Roofs" and SP 71.13330-2012 "Insulation and finishing coatings", with the preparation of a PPR or using standard technological maps tied to local conditions and according to the instructions in the project drawings.

The work is carried out by grappling.

For the production of roofing works along the perimeter of the roof, it is necessary to install a temporary railing. Roof covering works are performed only if there is a permit for work with increased danger.

Insulation and roofing workers are provided with appropriate clothing, footwear and personal protective equipment. Roofers must have safety belts.

It is allowed to place materials on the roof only in the places provided for by the project for the production of work, with measures taken against their fall, including from the effects of wind. During a break in work, technological devices, tools and materials must be fixed or removed from the roof.

The supply of roofing materials is provided with the help of lifting mechanisms provided for the production of works on the above-ground cycle. Roofing works are carried out using small-scale mechanization tools, hand-held power tools and devices.

Roof sections where roofing works are carried out are provided with fire-fighting equipment and first-aid kits.

The device of each next element of the roof is performed only after checking the quality of the previous layer.

The vapor barrier is performed by rolling the roll material dry, then the plates of mineral wool insulation are laid.

PVC roofing membranes are automatically welded using hot air. It is attached to the membrane base using special dowels.

During the production of roofing works, it is envisaged to fulfill the requirements of labor protection in accordance with SNiP 12-04-2002, SP 12-135-2003.

During the production of roofing works, the incoming control of the incoming building materials is carried out; acts for hidden works, protocols of laboratory tests of the materials used are drawn up.

Finishing work

Finishing work is carried out after the completion of construction, installation and special works. Before the start of work, the prepared surfaces are accepted according to the act.

Finishing work is carried out according to working drawings, according to the work production project or flow charts, taking into account the instructions
SP 71.13330-2012 "Insulation and finishing coatings",
MDS 12-30.2006 "Guidelines for the norms, rules and techniques of finishing work" and instructions for use.

Preparation of materials and their delivery to the construction site is carried out centrally, by road.

Warehousing of materials and structures is carried out in accordance with the instructions of standards, specifications for materials and structures. Storage of finishing materials and structures is carried out in closed heated warehouses.

The materials are transported to the place of laying by means of hoists and manually.

Finishing work is carried out according to seizures in a flow-dismembered manner with a rhythmic transition of workers of an integrated brigade from one seizure to another.

Workplaces are equipped, if necessary, with inventory scaffolds, ladders, towers, with their installation on the ceiling of the building.

The brigades are equipped with appropriate machines and mechanisms, sets of tools, inventory and devices.

Before the start of finishing work, the following work must be performed:

Protection of the finished premises from atmospheric precipitation has been carried out;

A thermal circuit has been organized, which provides an indoor temperature of at least 10 ºС and an air humidity of no more than 60%. Air heaters, heat guns or factory-made air heaters are used to heat buildings.

Surface finishing of walls and ceilings

Plastering works are performed mechanically using plastering stations and hand-held plastering machines, painting works - using painting stations.

For plastering, solutions (mixtures) are used, the composition of which is established by the project and the manufacturer. In showers, cement and cement-limestone mortars are used, for concrete walls - cement mortar (mixtures).

A mobile plastering station is used to prepare the supply of mortar to the installation site at the construction site. The solution is prepared and transported through pipelines and applied to the surface with nozzles.

In the production of internal plastering works, the following construction processes are carried out sequentially.

When plastering interior brick walls:

Surface preparation - cleaning, cutting sagging;

Hanging surfaces and installing beacons (with high-quality plaster);

Application of spray layers by a mechanized method;

Leveling basting layers;

Pulling rods and cutting corners.

When plastering concrete surfaces:

Concrete surface priming;

Preparation of a liquid solution;

Application of mortar and grouting it on the surface in a mechanized way;

Surface finishing.

Technical requirements for the quality of work must be observed in accordance with table 10 of SNiP 3.04.01-87.

Quality control of plastering works is carried out by the measuring method and visual inspection with registration in the general work log.

Painting surfaces

In accordance with the project, it is envisaged to use a simple and improved painting of the premises. The color category is set by the project.

The complex of painting works includes:

- preparation of paint compositions;

- preparation and treatment of surfaces for painting;

- coloring.

Painting compositions are prepared mainly centrally and delivered to the facility in a factory container. Work is carried out using painting stations, where the paint compositions are brought to full readiness for use.

Before painting with water-based compounds, the surface of the plaster and concrete is cleaned and dedusted with a hand tool.

Puttying (for improved coloring) is done with a paint sprayer.

The composition applied to the surface is leveled with a spatula with the collection of the residual putty mass into inventory boxes.

Grinding of the putty surface is carried out with sanding paper.

Painting is done with a paint sprayer or roller.

Technical requirements for the quality of work must be observed in accordance with table 11 of SP 71.13330-2012.

Quality control of painting works is carried out by the measuring method and visual inspection with registration in the general work log.

Facing with ceramic tiles

Cladding of internal walls with ceramic tiles is carried out to a height of 2.1 m in "wet" rooms.

The base for the cladding must be plastered without applying a top coat.

Solutions for facing up to 3 m 3 per shift are prepared on site from ready-made dry mixes. If there is a greater need, solutions are delivered to the site from the manufacturer.

Wall cladding works are carried out along the lighthouses aligned along the rail, as well as in the horizontal direction and along the plumb line in the vertical direction.

The thickness of the layer from the solution should be within 0.7-1.5 cm, and the thickness of the joints between the tiles - no more than 0.3 cm. The same width of the joints is ensured by inventory brackets, which are laid between the tiles in the seams.

Before laying, the tiles are immersed in water for 15-20 minutes. for better adhesion to the mortar.

The first row of tiles is supported on a rail positioned at the finished floor mark. For laying the second row, extreme tiles are placed in the corners of the room, they are checked for verticality along the upper beacon and the lower row. The tiles are installed, going from one corner to another along the mooring cord, while strictly observing the verticality of the seams. The tiles of the remaining rows are laid in the same order.

After a day, the joints between the tiles are filled with a special grouting solution (grout mixture).

The finished surface is washed with water or wiped with a wet sponge.

Technical requirements for the quality of work must be observed in accordance with table SP 71.13330-2012.

Quality control of work is carried out by the measuring method and visually with registration in the general work log.

Floor arrangement

Floor installation works are carried out after construction, installation and special works, during which the destruction or damage of the floor is possible.

When developing projects for the production of work and flow charts, the instructions of SP 29.13330.2011 "Floors" and MDS 31-11.2007 "Construction of floors" must be taken into account.

Floors made of concrete and cement-sand mortar on a concrete base are arranged in the following sequence, the base is dedusted and, if necessary, dried, lighthouse strips are installed using a level, the coating is arranged in strips and in length throughout the entire room. Work starts from the corner, the strips are filled through one with the prepared solution. The mixture is leveled, compacted with vibrating screeds and smoothed with metal trowels. After the mortar has set (in a day) and the strips are removed, the skipped strips are also filled with mortar.

Ceramic flooring works are carried out after laying a concrete base layer or installing a monolithic reinforced concrete slab. Before starting work, the base is prepared - it is leveled, depressions are sealed, bulges are cut, dust and debris are removed. To ensure the horizontal level of the floor, beacons and marks are put up, indicating the given level of the finished floor. A layer of bitumen mastic is applied to the prepared concrete surface with sanding with a grain size of 5-15 mm. In places where the floor adjoins walls and other structures protruding above the floor, waterproofing should be continued continuously to a height of at least 300 mm from the level of the floor covering.

Hydroisol rolls are opened with manual rollers-rollers (type SO-108A) and overlapped by at least 100 mm. To avoid local thickening of the rolled carpet when gluing, the waterproofing panels are glued with the obligatory dispersion of the joints in adjacent layers. Cold mastic is applied by a special machine (CO-122A type) or by a spray rod. the second layer of waterproofing is applied after the first layer has completely dried.

The covering of ceramic tiles is laid on a layer of cement-sand mortar or special mixtures using a square with separate strips-grippers along the long side of the room. The tiles are laid "seam in seam", upsetting with light blows of a hammer. With a large area of ​​\ u200b \ u200bthe room, it is possible to use a batch method of laying tiles using templates and conductors.

After the mortar has set and hardened, the floor surface is wiped with a damp cloth and rinsed with water.

Linoleum floor coverings are laid "dry" or with glue, on a cement mortar screed on expanded clay sand. The mortar is prepared on site and laid by hand. Before the screed device, beacon rails are installed on the level, the base is dust-free and, if necessary, dried. The screeds are arranged in strips 2-4 m wide and in length throughout the entire room. The strips are filled through one, their surface is smoothed with a vibrating screed. After the mortar has set and the strips are removed, the skipped strips are also filled with mortar, then the base is sanded and primed (if necessary).

Linoleum panels cut to size are opened and kept in this position for at least a day until they are completely straightened and the room temperature is at least +10 ºС. the rolls are laid along the long side of the room.

With a special spatula or brush, glue is applied to the base under each panel, leaving a 10 cm wide strip along the joint uncovered. Then the roll is rolled out and pressed against the base by rollers. The joints of the panels are connected by welding on the spot with an electric special. device ("Pilat", "Soldering iron", etc.), special glue or welded in advance on the prepared area. After gluing the linoleum around the perimeter of the room, plinths are attached.

Porcelain stoneware tiles are laid after the installation of a connecting layer of cement-sand mortar (mortar thickness according to the project). The solution is laid by hand, along the beacons and vibrated.

Porcelain stoneware is laid immediately after the interlayer by embedding the tiles using vibration or manually. The end of the processes of laying porcelain stoneware must be before the beginning of the setting of the solution. The width of the joints between the tiles must not exceed 3 mm. the seams are filled with this solution 2-3 days after laying the coating.

The quality control of the floors is carried out in accordance with the instructions of SP 71.13330-2012 table. 16-25 and includes measuring and visual control methods with reflection of the results in the general work log and drawing up acts of acceptance of the work performed.

Installation of internal engineering systems

Installation of internal systems of cold water supply and sewerage is carried out in accordance with the instructions of SP 73.13330.2012 "Internal sanitary-technical systems of buildings", standard flow charts approved by the customer, as well as standards, specifications and instructions of equipment manufacturers.

Prior to the commencement of the installation of internal sanitary and electrical systems, basic construction work must be completed, including:

Preparation of holes, grooves, niches and nests in walls, partitions, ceilings and coverings necessary for laying pipelines and air ducts;

Installation in accordance with the working documentation of embedded parts in building structures for fastening equipment, air ducts and pipelines;

Glazing of window openings in external fences, insulation of entrances and openings;

Application of auxiliary marks on the internal and external walls of all rooms;

Providing the ability to turn on power tools.

The installation of internal sanitary-technical systems is carried out by the flow method with preliminary preparation and pre-assembly of units and elements of pipelines in procurement workshops of contractors and at factories.

Installation of risers and connections is carried out in the following sequence:

Packages with blanks for floor risers are delivered to the installation sites;

The riser is assembled and connected to the main pipeline;

The position of the riser is verified and permanent fasteners are installed.

The installation of fittings is carried out simultaneously with the installation of risers and connections, and the water-like fittings are installed after the installation of sanitary devices.

Pipelines are attached to building structures on brackets, hangers, clamps, hooks.

When welding pipes, parts and assemblies, the requirements of GOST 12.3.003-86 should be met, the assemblies of sanitary systems should be tested for tightness at the place of their manufacture in accordance with
GOST 25136-82.

Hydraulic or pneumatic testing of pipelines with hidden laying of pipelines should be carried out before they are closed with the drawing up of an inspection report for hidden works. Heating, heat supply, internal cold and hot water supply systems, upon completion of their installation, must be flushed with water until it comes out without mechanical suspensions. Flushing of drinking water supply systems is considered complete after the release of water that meets the requirements of GOST R51232-98 "Drinking water",
SanPiN 2.1.4.1074-01 "Drinking water".

The organization and production of work on the installation and commissioning of electrical devices is carried out in accordance with
SP 76.13330-2012 "Electrical devices", GOST R.50669-94, standards, specifications, rules for electrical installations (PUE-2003) and departmental regulations approved in the prescribed manner.

Prior to the commencement of work on the installation of electrical devices at the facility, acceptance must be carried out according to the act of the construction part of the facility for the installation of electrical devices.

When carrying out work, the electrical installation organization follows the instructions of SP 112.13330-2012 "Fire safety of buildings and structures" and "Rules of fire regime in the Russian Federation".

Commissioning works include a set of works, including checking, adjusting and testing electrical equipment in order to ensure the electrical parameters and modes specified by the project.

Installation of devices and signaling networks is carried out in accordance with the technical description of the manufacturers and RD 78.145-93.

Arrangement of on-site driveways and sites

The work is carried out by the flow method with the division of the work front into sections and seizures.

The set of machines required for road works is formed on the basis of the scope of work under the project from among those available in the contractor. The contractor must have a production base to provide road works with the necessary materials, semi-finished products and finished products. Arrangement of intermediate storage areas is not provided.

The scope of road works includes:

Restoration and consolidation of road routes;

Arrangement of excavation for road troughs;

Grading of the subgrade;

Geotextile laying;

Laying a 2-layer base of sand and crushed stone;

Construction of road pavement from 2 or 3 layers of asphalt concrete or monolithic reinforced concrete over a bitumen-sand layer (covering container sites);

The device of the side stone;

Equipment of the road with technical means of traffic management;

Improvement.

Before the start of the main work, a geodetic breakdown of structures, work on the installation of project drainages, culverts is carried out. The construction of roads is carried out from low relief areas, with the provision of open drainage from the work area.

The development of excavations up to 0.8 m deep is carried out with the help of a bulldozer moving into an embankment up to 100 m.

Compaction of the subgrade base is carried out by self-propelled pneumatic rollers in 4-6 passes along one track, covering it by 0.3-0.5 m.

The final leveling of the subgrade is done by a motor grader.

Geotextile rolls are rolled parallel to the road axis with an overlap. Work on the unwinding of the rolls begins from the downstream side in relation to the water drain.

Delivery of sand and crushed stone is made by dump trucks. Sand distribution and leveling is done layer by layer by bulldozers, leveling - by motor graders and compaction - by pneumatic rollers. Watering is done if necessary.

The crushed stone base is laid in 2 layers using a similar technology.

Prefabricated asphalt concrete is used.

Laying of layers of asphalt concrete pavement is carried out immediately over the entire width of the carriageway by one or two asphalt pavers, following one after the other in order to ensure a high-quality conjugation of adjacent lanes.

To ensure the required evenness of the pavement, asphalt pavers must be equipped with an automatic tracking system.

Asphalt pavement works are carried out only at positive air temperatures. No work is carried out in rainy weather.

Concreting of the coating of container sites is carried out in strips.

Rail-forms (formwork) are installed on a planned base, run in, then reinforcement is installed with a viscous fastening to each other, spacers and pins of expansion joints are laid.

Delivery of concrete mix from the manufacturer is made taking into account the duration of its transportation to the place of concreting.

The concrete mix is ​​placed using a spreader, taking into account the compaction allowance. Compaction and finishing of concrete into a coating is carried out continuously by a concrete finishing machine complete with vibrators.

At the time of the work on the roads under construction, temporary road signs are installed, which are then replaced with permanent ones.

At all stages of road works, acts for hidden work are drawn up, laboratory testing of the quality of the material and soil compaction is carried out, with the specification of the number of passes along one track.

Household stones are installed on a concrete base and with concrete laying on the outside with a width of at least 100 mm. Grouting between stones is done with cement mortar. The bead must follow the design profile of the pavement.

When developing PPR and checking the quality of work performed when arranging highways and driveways, it is necessary to comply with the recommendations of SP 78.13330-2012 "Highways".

When performing construction and installation work, the contractor should be guided by the following regulatory documents:

SP 70.13330-2012 "Bearing and enclosing structures";

SNiP 3.04.01-87 "Insulation and finishing coatings";

PPB 10-382-00 "Rules for the construction and safe operation of cranes";

SP 82.13330-2012 Land improvement;

SNiP 3.05.04-85 * "External networks and structures of water supply and sewerage";

Normative documents for the manufacture of materials and their use in construction;

SP 48.13330.2011 "Organization of construction";

SP 45.13330.2010 "Earthworks, foundations and foundations";

SP 60.13330.2010 "Heating, ventilation and air conditioning";

SP 14.13330.2011 "Construction in seismic regions";

SP 7.13130.2009 “Heating, ventilation and air conditioning. Fire safety requirements ";

SP 29.13330.2011 "Floors";

SP 112.13330-2012 "Fire safety of buildings and structures"

12 The need for construction in personnel, basic construction machines, mechanisms, vehicles, fuel and lubricants, as well as electricity, steam, water, temporary buildings and structures

The calculation of the need for resources is carried out in accordance with MDS 12-46.2008 clause 4.14.

When calculating water for fire extinguishing of an object, it is necessary to indicate the place of water intake for fire extinguishing or the location of the fire fighting tank. In addition, there should be recommendations on the development of a fire extinguishing plan at the PPR stage. This diagram should be placed at the entrance to the construction site next to the object's passport.

13 Proposals to ensure quality control of construction and installation works, as well as supplied to the site and installed equipment, structures and materials

Provides information on the construction quality management system, general requirements for quality control programs, quality control programs for construction contractors, construction quality assurance service.

14 Proposals for the organization of a geodetic and laboratory control service

Geodetic support of construction and organization of laboratory control are being developed.

15 The list of requirements that must be taken into account in the working documentation developed on the basis of design documentation in connection with the adopted methods of erection of building structures and installation of equipment

This subsection is developed if the PIC section provides for especially complex or unique installation methods that require the development of additional mortgages or other design solutions in the working documentation.

For traditional installation methods, it is enough to indicate that this project provides for traditional methods of installation of building structures and equipment and there are no additional requirements for the development of working documentation.

16 Justification of the need for housing and social services for personnel involved in construction

This section substantiates the need for housing and social welfare of personnel, provided that construction is carried out using a rotational method or secondment of workers.

If the construction is carried out by local contractors, it is indicated that the workers will live in the city (village) and social services will be provided by the existing infrastructure.

17 The list of measures and design solutions to determine the technical means and methods of work that ensure the fulfillment of the regulatory requirements of labor protection

A list of normative documents on labor protection is presented, the goals and objectives for labor protection, hygienic requirements for the organization of construction and installation work, the organization of the workplace are indicated, and then labor protection when performing the main types of work is described.

18 Measures for environmental protection during the construction period

It includes an assessment of the possible negative impact of construction work on the environment (soil cover, flora and fauna, water, air (and appropriate measures to monitor the state of the environment and prevent this impact.

19 Description of design solutions and measures for the protection of the facility during the construction period

Specific decisions on the protection of objects adopted in this project are indicated, as well as a list of actions in case of detection of suspicious objects.

20 Justification of the accepted duration of the construction of the facility

The rationale for calculating the duration of construction is indicated, as well as the directive construction period and measures to ensure the implementation of construction within the directive time (if there is a directive construction deadline in the design assignment).

21 List of measures for organizing monitoring of the condition of buildings and structures located in the immediate vicinity of the facility under construction

It includes the arrangement of a geodetic system for observing the draft and heel, periodic inspection of foundations and load-bearing structures, buildings and structures, and other measures depending on local conditions.

When building on an undeveloped site or when buildings are located at a standard distance from existing buildings, it is indicated that the project provides for the construction of buildings and structures at a standard distance from existing buildings and structures; monitoring arrangements are not required.

22 Building master plan

On the general construction plan, the following are applied:

–Places of all permanent and temporary buildings and structures;

–Location of sites and warehouses for temporary storage of structures, products, materials and equipment;

–Place of installation of stationary cranes and ways of moving heavy-duty cranes;

–Engineering networks;

–Sources of supplying the construction site with water, electricity, communications;

–The routes of temporary networks with indication of their connection points;

- the locations of the fixing signs for the alignment axes.

23 Construction schedule

The construction schedule is drawn up in the following form:

Table (table number) –– (table name)

Name of individual buildings, structures or types of work	Total estimated cost, thousand rubles	Cost of construction and installation work, thousand rubles	Distribution of capital investments and volumes of construction and installation works by construction periods (quarters, years), thousand rubles
X	X	X	X

In the absence of an estimated cost, the schedule can be represented by a line chart.

The POS construction organization project is a documentation where the issues of effective methods of organizing construction work in a specific situation at a specific facility are discussed in detail. POS is the main organizational document for the construction of facilities with a production or non-production purpose. The project contains measures for the use of modern technological and informational means, which make it possible to improve the quality of work, reduce the time for the implementation of the entire project or its parts, and reduce the cost of implementation.

The project is also being developed for the demolition of objects. When performing such operations, the POS must ensure the safety of all operations, correct waste disposal and no harm to the environment. are engaged in design organizations that have SRO membership with admission to certain types of work.

Composition of the construction organization project

The composition of the organization's project and the content of its individual parts are influenced by the complexity and specificity of objects, therefore the composition changes in accordance with a specific situation. The factors of influence include design solutions, the amount of planning work, the degree of uniqueness or the use of standard solutions (how unique the object is), the need for the construction of auxiliary structures, the use of special devices, installations and devices, the specifics of performing individual works. The composition of the PIC is influenced by exactly how materials, equipment and various structures will be supplied to the construction site.

The construction organization project includes the following components:

• explanatory note;
• a schedule for performing individual operations and the entire volume;
• master plans for the preparatory and main stages of construction;
• organizational and technological drawings, diagrams and other graphic data;
• information on the volume of construction, installation operations, additional work;
• information about the necessary materials, pre-prepared structures, as well as the equipment used to solve the assigned tasks;
• plan of the need for devices, machines, construction equipment and transport with specific information on dates;
• information about the required personnel to perform the work.

The content of the project for the organization of construction of the POS

The most important parts of the project are the work schedule and master plan. If the rest of the components can be present in a truncated form or absent altogether, then these are included in any POS, becoming its basis. All other statements and documents refer to the timetable and master plan as the rationale for their creation.

The timetable becomes the rationale behind the chosen sequence. From the work schedule it becomes clear why such a sequence is the most effective, and in the organization of construction it is of primary importance. The timing of each stage of work is clearly indicated.

The master plan describes the optimal placement on the entire construction site or its individual parts of mechanisms for lifting loads, places for storing materials (some need special conditions), temporary roads for moving materials, mechanisms and various equipment, as well as other objects needed for construction ... The master plan for the POS differs from the similar document for the project of the production of works in a more detailed answer to questions regarding the ways of implementing the tasks.

The explanatory note contains the details of the document on the basis of which the creation of the project begins. This can be a developer's decision, the implementation of a federal target program, a comprehensive program for the development of a municipal formation and other documents. It also contains the initial data for the preparation of documentation, information about the functional purpose of the facility, information about the need for utilities (gas, water, electricity, sewage). The correct implementation of the project allows you not to waste extra time in the future to connect communications that were not taken into account in the original plan. The explanatory note may contain other additional information, the amount of which depends on the complexity of the object planned for construction.

Initial data for project development

The organization's project is carried out taking into account the data and documents, the composition of which is present in the methodological recommendations. When creating a POS, the requirements of building codes, the Town Planning Code, and the relevant Federal laws are applied. The provisions of the Decree of the Government of the Russian Federation of 16.02.2008 N 87 are observed.

In the development of the organizational project, the following initial data are used:

• scheme of planning and organization of a plot of land;
• solutions for architecture and urban planning;
• Constructive decisions;
• design documentation for the projected external networks for the supply of electricity, communications and other communications;
• information about engineering and communication networks located in the execution area, and sources of water supply for the site, electrical energy and the necessary types of communication;
• statement of the number of basic construction, installation and additional types of work;
• a project for the execution of operations for the dismantling of objects (if it is planned to build an existing object on the site or simply demolish and dismantle a production or non-production building).

The initial data is needed to fill in the corresponding sections. Design solutions form the basis of the requirement sheet for specific assembly designs. To describe technological and organizational schemes, a significant amount of information is required; to make the most effective decisions in the process, initial data of several types are used at once. Demolition work is not required for new construction, so the dataset also does not imply the presence of all described items without exception.

The basis for the development of a construction organization project is the customer's assignment with the technical conditions for implementation, which also refers to the number of initial data.

The main goals of drawing up a PIC

The project of the organization is considered a part of the construction of the facility, in which the solution of all possible organizational issues arising during the execution of work is considered in maximum detail. PIC concerns the entire scope of construction from the very beginning to commissioning.

The purpose of creating a project is the delivery of the object on time. Effective organizational solutions allow you to properly spend the allotted time, eliminate the likelihood of downtime due to problems with the supply of materials, supplying equipment, the inability to install certain mechanisms and structures when necessary. The PIC takes into account the use of modern technologies that allow to reduce the construction time and achieve the quality required by standards and regulations.

The project allows you to solve the following tasks:

• the use of optimal organization methods to complete construction in the shortest possible time;
  development of the design capacity by the date set by the contract;
• the use of modern technologies to meet the requirements of building codes and regulations, to ensure high quality;
• timely delivery of structures, materials, products to the facility or its individual components (floors of a high-rise building, for example);
• the use of vehicles for fast assembly of structures;
• installation of technological equipment in large blocks, if there is such an opportunity to reduce the duration of operations;
• compliance with safety and environmental protection requirements in order not to exceed the standards from the Technical Regulations.

The creation of the project is carried out taking into account the peculiarities of the natural and climatic conditions in the area of ​​construction. Performing many tasks at certain times of the year is simplified or complicated, the right approach allows you to choose the optimal time for solving the tasks. Sometimes the seasonality affects the delivery of equipment and materials, and territorial features also play a role. For the Northern climatic zone, there are special safety requirements associated with increased risks. Also, work in mountainous areas is characterized by special conditions.

Requirements for the design and content of the POS

The project includes text and graphic components. The explanatory note contains only text, in the remaining sections, graphics can be applied as needed. The graphic part contains diagrams, drawings, plans and other documents in the form of graphics. The text component contains explanations, descriptions, information about the object, reasons for making specific decisions, calculations, links to technical documents and standards used during the design process. Diagrams, figures, graphs and data in tabular form can also be located here.

Carrying out work in a cramped urban environment requires a description of the reasons for the crampedness and methods for performing construction in a designated situation. Safe execution of construction work in a hazardous area requires correct organizational solutions in the form of limiting the movement area of ​​cranes, arranging shelters and other structures to protect personnel and other people, and the use of screens.

The section on construction in cramped buildings includes the following data:

• installation conditions and the specifics of working on a crane at a short distance from the pits;
• the need to close streets at a certain time, restrictions on the movement of cars, changes in public transport routes;
• organization of construction work near power lines to protect against damage to communication networks.

An important component of the organization of construction work is to meet the need for personnel and resources. For this, the number of required specialists and the period of their employment, a list of required materials and structures with optimal delivery data are clearly described. The construction organization plan is a guarantee of the completion of construction operations on time with proper quality.

Construction work implies the presence of regulatory documents at absolutely any stage of the process. Having a correctly drawn up action plan makes it possible to avoid negative moments after the commissioning of an object under construction.

For these purposes, there is a special document - the construction organization project (PIC). The POS is usually developed by the general contractor design organization. If necessary, for this purpose, the general designer can involve, as subcontractors, organizations specialized in the development of POS or individual complex installation work. PIC must be provided to companies that directly finance construction work, provide the entire base of materials; for organizations that carry out contracts, as well as for customer enterprises. The presence of a PIC regulates the subsequent development of a work production project (PPR).

PIC development process

To develop a project, certain basic data are required:

1. Engineering survey data. They are necessary in a situation when restoration work is carried out at the facility, or work on the reconstruction of the facility (technical inspection indicators are required).
2. Assignment for the design process. This documentation contains the initial data that are directly related to the construction process. The presence of these indicators makes it possible to create a queue for the launch of a particular queue.

• estimate documentation;
• permissive documentation, which provides visualization of the distribution of the input of an object by queues;
• documentation that describes the briefing and engineering explanation of the number of storeys, layout, scope of work;
• the master plan-paper characterizes the features of engineering communications, with mandatory approval;
• the vertical plan of the construction site, which includes a cartogram of the masses of the earth layer;
• a step-by-step plan for the protection of the construction site from the effects of weather conditions according to the geographical characteristics of the region;
• the customer company provides a document that describes the features of the supply of water and electricity to the construction site;
• regulatory documents, acts that establish the final deadlines for the work;
• acts on the supply of material and technical support to the territory of the object by the contractor company;
• documents on the work plan for garbage removal from the site, its storage or processing. It also provides for an agreement on the transportation of soil, the place of its dump;
• in a situation when it comes to the installation of complex structures, their approval is required;
• contracts are required when working with companies of foreign origin;
• documentation when working on construction sites;
• careful selection and study of information about the general contractor, if the information is not classified as classified.

The company "PPR EXPERT" develops a full set of all the necessary volumes of POS documentation. If the construction work is divided into turns, then in this case the POS has an individual character for each. The construction organization project developed by the company contains:

1. Construction schedule. It makes it possible to set the dates for the initial stages and completion of work.
2. A construction master plan is one of the main documents for organizing construction.
3. Organizational and technological schemes of work on the site.
4. Acts and statements that describe the need and the number of vehicles involved.
5. Schedule of the need for basic construction machines; schedule of the need for personnel of builders by main categories.
6. Explanatory note.

When it comes to the reconstruction of functioning enterprises, buildings of facilities, in addition to the above list, the company carries out clarifying work, which consists in the following:

• the state of an active or inactive building is precisely established;
• actions are delimited according to the stopping of the corresponding processes that interfere with the work;
• a queue of works regarding installation and installation is established;
• Designations are applied to the stand-up plan, which carry information regarding the state of objects near the immediate area of ​​work. As well as designations for operating, dismantling, assembly, reconstruction and construction work;
• in the explanatory notes, the specialists of the company "PPR EXPERT" bring in information and clarity, according to the interaction of all involved persons according to the construction or installation plan. The data in the note have a rather detailed and extensive information composition. It contains data on conditions, transport capabilities, material base of the enterprise. In the case of installation or dismantling works, the note contains data on the guaranteed safety and fire safety of objects in the immediate vicinity.

The company has highly qualified specialists with the highest certificates. Able to design a POS of any degree of complexity with minimal time and financial costs. Positive feedback from customers only confirms the high level of reliability.

Construction management project (POS): initial data, composition and development procedure.

The first stage in the organization of construction work is the development of design documentation for the facility, which should take into account modern methods and tools used in construction.

The development of a POS begins with the preparation of a feasibility study (FS). At this stage, the need for resources and the amount of capital investments are determined.

The design of large construction projects is carried out in two stages. At the stage of the technical design, a special section of the PIC is being developed. For simpler, one-step projects, the PIC is performed in an abbreviated format. The basic requirements for the construction organization project and its composition are regulated by the building codes of the Russian Federation.

The development of the POS must be carried out on the basis of the following requirements:

• reduction in the cost and construction time;
• improving the quality of work;
• maximizing labor productivity.

The construction organization project is aimed at solving the following tasks:

• determination of the optimal construction duration;
• drawing up a calendar plan or network schedule for the production of works;
• financing schedule, depending on the total period of work (by years, quarters, months);
• drawing up a list of the required resources, namely materials, equipment, labor, construction machines, and a schedule for their use;
• determination of sources for obtaining building materials;
• development of transport schemes;
• development of a construction plan with justification of the needs for existing production resources;
• development of technological schemes and maps by type of work;
• occupational health and safety for all types of construction work.

The procedure for developing a construction organization project

Before the development of the POS, an analysis of data is carried out that characterizes the natural conditions in the construction area, as well as such parameters as the size of the construction object, its purpose, the amount of work, the materials used.

Before developing a construction organization project, the following additional surveys are carried out:

• availability of local building resources: materials and products, structures, factories and workshops;
• transport infrastructure: road network, logistics organizations, etc.
• local labor resources and the possibility of their involvement in construction work;
• the possibility of obtaining electricity and fuel in the construction area;
• possible sources of water supply.

Based on the above conditions, a construction organization project is being developed. POS justifies the distribution of material and human resources, and is also the source for the development of PPR for certain types of work.

One of the most important tasks that the POS solves is the optimization of the construction duration (time / cost). In the case of the implementation of large construction projects, several PIC options can be developed for comparison and selection of the optimal one.

The development of a construction organization project is carried out for a full construction cycle. When developing by stages of construction, the project for each stage must take into account the full scope of the planned work.

Depending on the complexity and detail of the POS, there are three categories of construction projects:

This category includes the following types of objects:

• atypical construction projects with complex, individual design solutions;
• objects with difficult terms of delivery of basic equipment for individual technical solutions and individual orders;
• involving a large number of subcontractors.

Objects of medium complexity, which are built according to individual projects. A limited number of subcontractors are involved in the work.

Small objects, for the construction of which one-stage projects are used, and up to 3 subcontractors are involved in the work.

Composition of the construction organization project

1. Construction schedule

Determines the timing and sequence of the construction of buildings and structures, technological units and stages of work. Sets the distribution of caps. investments and scope of work for buildings, structures and construction periods.

2. Construction plans for the preparatory and main periods of construction

The construction plan as part of the construction organization project includes a schematic plan with the location of the following objects:

• permanent and temporary buildings and structures;
• permanent and temporary roads and railways, as well as transport routes for moving equipment, structural elements and building materials;
• ways for moving heavy-duty cranes;
• engineering networks and schemes for connecting temporary networks to existing (permanent) ones;
• warehouse sites;
• construction machines and mechanisms, incl. assembly cranes;
• location of geodetic marks.

If during the organization of construction the territory outside the construction site is covered, then, in addition to the construction plan, a situational plan is also included in the construction organization project, which may contain:

• material and technical base enterprises;
• settlements;
• external railway tracks and highways;
• railway abutment stations;
• communication lines and power transmission lines;
• transport schemes for the supply of building materials, structures and equipment;
• deforestation;
• plots temporarily allotted for construction needs.

3. Organizational and technological schemes

They set the optimal technological sequence for the construction of buildings and structures.

4. List of volumes of construction, installation and special works

This list is determined by the design and estimate documentation. Each type of work is distinguished by buildings (structures) and by periods of construction.

5. Statement of requirements for materials, structures, products and equipment

It has a distribution by calendar periods of construction. The statement is compiled for the facility as a whole, as well as for the main structures. The initial data used are the amount of work and the consumption rates of building materials.

6. Schedule of the demand for construction machines and vehicles

The schedule is drawn up as a whole for construction based on the actual volume of work, the volume of cargo transportation, as well as the production rates of transport and construction equipment (machines).

7. Schedule of demand for labor resources (by job category)

It is compiled on the basis of the standard labor intensity for the facility as a whole, as well as on the basis of the volume of construction work for individual organizations (subcontractors), taking into account the planned production rates per worker.

8. Explanatory note

The explanatory note as part of the PIC contains:

• description of construction conditions;
• substantiation of work methods;
• technical solutions for the construction of complex buildings and structures;
• arrangements for performing work on a rotational basis;
• instructions on methods of control over the quality of structures;
• labor protection and safety measures;
• conditions for preserving the environment;
• justification of the need for construction machines, mechanisms, vehicles.v
• justification of the need for electricity, water, compressed air, etc.
• justification of the need for temporary buildings and structures;
• a list of construction organizations (subcontractors) and their production capacity.

Example of a construction management project (PIC):

The construction site is located on a land plot owned by LLC "MaryinoStroy". To ensure the technological sequence of repairs, the project provides for the following sequence of works:

• preparatory work;
• excavation for the base;
• installation of a monolithic base for the BKU and pipes;
• installation of chimneys;
• installation of support slaves;
• installation of enlarged elements of the boiler room frame with the installation of boilers;
• anti-corrosion protection of metal structures;
• installation of engineering equipment, pipelines and piping;
• improvement of the territory.

High-quality POS projects with approval
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Depending on the complexity of the object, conditions of construction work and socio-economic significance, items can be added, expanded, and have a more detailed structure.

In the PIC, such aspects of the construction and installation work as logistics must be noted;

• safety and labor protection;
• natural and climatic conditions;
• technical equipment;
• observance of the norms of nature protection;
• providing the facility with communications and much more.

Only a deep knowledge of the specifics of construction, repair and installation work, accompanying documents and standards, can ensure the preparation of a competent detailed Project for the organization of construction. And already on this basis other documents, permits and approvals will be formed. So, in particular, the Project for the production of works (PPR), is built on the basis of the POS and contains, in fact, a step-by-step plan for carrying out work at each site of the facility.
Thus, the Construction Organization Project is a mandatory document, both for the contractor and for the customer, and for organizations providing the material and technical support of the construction site, requiring the agreement of the parties and final approval by the state expertise.

We carry out the development of POS for construction work and the laying of engineering communications:

• explanatory note
• construction plan for the preparatory period

• explanatory note
• work schedule
• construction plan for the main period of work

14 years of successful work

More than 140 POS projects in 9 cities throughout Russia

Development of POS for industrial facilities of any complexity

Coordination of PIC projects

POS support in examination and Glavgosexpertiza

Any construction of reliable, harmonious buildings and structures requires careful engineering calculation and professional planning of material, technical and labor costs. In accordance with the requirements of the legislation, the project documentation package includes a construction organization project. The significance of the PIC is emphasized by the fact that this document is subject to state examination, on the basis of the decision of which a building permit is issued within the time frame fixed in the PIC.

Unlike the project for the production of work, developed for individual construction projects, the project for the organization of work covers the entire complex of buildings and structures at the construction site. On the basis of the general plan, several PPRs are drawn up, in which the technological process, the rational organization of construction and the expenditure of material, technical and labor resources for the construction of a specific object are considered in detail. Projects for the organization of construction are developed both for whole residential neighborhoods with a diverse infrastructure, large industrial complexes, and for individual buildings and structures. POS is also necessary if enlargement or reconstruction of objects is planned. The construction organization project is a mandatory document for the customer, construction contractors, and organizations responsible for financing and material and technical support of construction.

Examples of completed POS projects

Reconstruction of OJSC "NK" Rosneft "

Moscow, Entuziastov highway, 40

Construction Arrangement Project (POS) as part of the project for Reconstruction of OJSC NK Rosneft - MZ Nefteprodukt with the construction of a Complex for the production of lubricants and special fluids with a total capacity of 31,000 tons / year (second stage).

Housing and hotel complex with built-in kindergarten and underground parking

Moscow, Kozhevnichesky proezd, possession 4, p. 1, 2, 3, 4, 5, 6, 6a, 6b, 7, 8, 9, 10

Construction organization project (POS) of a residential and hotel complex with a built-in kindergarten and underground parking on a land plot with cadastral number 77: 01: 0006018: 93, with an area of ​​16037 sq.m.

Complex reconstruction of objects of the Federal State Budgetary Institution "United Sanatorium" Sochi "

Krasnodar region, Sochi, Vinogradnaya st., 27

Construction management project for the facility "Comprehensive reconstruction of facilities of the Federal State Budgetary Institution" United Sanatorium "Sochi" of the Administrative Department of the President of the Russian Federation. The third stage - auxiliary facilities (reconstruction) ”. Adjustment-2

POS of the first stage of residential development

Moscow region, north-western part of Novogorsk microdistrict (Khimki, settlement "Ivanovskoe")

Construction organization project (POS) of the 1st stage of multi-apartment residential development in the territory of the Khimki district.

Reconstruction of the stadium for 3000 people

Moscow region, Aprelevka

Construction organization project for the reconstruction of the stadium with a tribune for up to 3000 spectators of the municipal autonomous sports institution of the sports and recreation complex "Melodia"

Construction plan for the main construction period

Moscow, Central Administrative District, B. Kozikhinsky per., 25

Construction plan for the main period of construction of a residential building with built-in non-residential premises and underground parking

Features of POS development

• residential buildings;

• in winter;
• in mountainous areas;

Our design certificates

What do you get by contacting us to develop a construction organization project:

Skilled,
correctly executed project or construction plan

Deadlines
doing work

Attention to detail
and interest

Consultations
on the development of POS and other documents

Need a quality PIC?

Get a project estimate and expert advice

An example of a project that has passed the examination

Positive opinions of Mosgorexpertiza at the POS of residential development of the Volynskaya TD, as part of the 2nd and 3rd stages of construction (Moscow, CJSC, Minskaya str.)

Positive conclusions of Mosgorexpertiza on the POS of residential buildings with underground parking (buildings 3,4,6, Moscow, SZAO, Volokolamskoe shosse, vl67)

Positive conclusion of the examination of the POS of a high-rise complex with an underground garage (Moscow, North-East Administrative District, Serebryakova pr-d, vl. 11-13)

Positive conclusion of the examination of the POS of a multifunctional residential complex (Moscow, Golyanovo, Amurskaya st., Property 3)

POS (Moscow, Proizvodstvennaya st., Property 6)

Positive conclusion of the POS examination (Moscow, Central Administrative District, Kursovoy lane, vl. 10/1)

Initial materials for the development of POS projects

The PIC is developed on the basis of the following source materials:

• Section Architectural solutions (AR);
• Section Constructive solutions (CD);
• SPOSU;
• Geotechnical survey results;
• Technical and economic indicators (TEP) of construction;
• Decisions on the use of materials, technology and resources;
• Information about the supply of building materials and equipment;

Features of POS development

The construction organization project provides organizational and technical preparation for construction and justifies the timing and sequence of commissioning of objects.

Based on engineering calculations (during the reconstruction of facilities - based on the materials of the technical survey) and the necessary design documentation, the POS calculates the total volume of capital investments and construction and installation works, indicating the time of execution, the need for the necessary workforce, taking into account their qualifications and the need for material technical resources. The POS should contain information about:

• solving problems of organizing transport, water supply, sewerage, power supply, communications;
• places of removal (or delivery) of excess (or missing) soil, removal of construction waste;
• quality control and safety of construction and installation works, organization of labor and environmental protection;
• construction in difficult natural and climatic conditions - at low (high temperatures), in mountainous areas, on soils with special properties;
• measures for performing work on a rotational basis, including work schedules, work and rest hours, the composition and technical equipment of the brigades;
• used machines, mechanisms, technological inventory and assembly equipment;
• schemes of storage and slinging of goods, etc .;

The composition, as well as the content of the POS, may vary depending on the characteristics of a particular object, the specifics of the conditions for carrying out work or delivery of materials, as well as other aspects of construction. When erecting simple objects, an abbreviated version of the PPR can be used.

Objects requiring a special approach to the implementation of construction work are listed below:

• residential buildings;
• buildings that will be used to provide household services to the population;
• main roads or railways, gas and oil pipelines, power transmission and communication lines;
• water management or hydraulic engineering facilities;
• enterprises specializing in the extraction of minerals, other facilities.

The peculiarity of the conditions under which construction is carried out also plays a significant role during the development of the POS. Features in the preparation of documentation are determined for objects that are being built:

• in winter;
• on soils with special properties;
• in mountainous areas;
• in special natural conditions.

The area of ​​construction, its features, the complexity of the work performed are parameters that have a major impact on the content of PPR and POS.
The complexity of the process of developing the design of the organization of construction depends on the specific object, its scale and specifics. POSSTROY specialists offer their services for creating projects of any complexity from a small cottage to a large irrigation and drainage or industrial complex. High qualifications, rich experience and prompt solution of problems are the key to successful cooperation with POSSTROY.

The text part of the PIC should contain:

• characteristics of the area at the location of the capital construction facility and construction conditions;
• assessment of the development of transport infrastructure;
• information on the possibility of using local labor in the implementation of construction;
• a list of measures to attract qualified specialists for construction, including for work on a rotational basis;
• characteristics of the land plot provided for construction, justification of the need to use land plots for construction outside the land plot provided for the construction of a capital construction object;
• a description of the features of work in an operating enterprise, in the locations of underground utilities, power transmission lines and communications - for industrial facilities;
• a description of the features of work in a cramped urban environment, in the locations of underground utilities, power transmission lines and communications - for non-production facilities;
• substantiation of the adopted organizational and technological scheme, which determines the sequence of erection of buildings and structures, engineering and transport communications, ensuring compliance with the deadlines for completion of construction (its stages) established in the construction schedule;
• a list of types of construction and installation work, critical structures, sections of engineering and technical support networks that are subject to certification with the preparation of appropriate acceptance certificates before the production of subsequent work and the installation of subsequent structures;
• the technological sequence of work during the construction of capital construction objects or their individual elements;
• justification of the need for construction in personnel, basic construction machines, mechanisms, vehicles, in fuel and fuels and lubricants, as well as in electricity, steam, water, temporary buildings and structures;
• substantiation of the size and equipment of sites for the storage of materials, structures, equipment, enlarged modules and stands for their assembly. Solutions for the movement of heavy oversized equipment, large modules and building structures;
• proposals for ensuring quality control of construction and installation works, as well as equipment, structures and materials supplied to the site and installed;
• proposals for the organization of a geodetic and laboratory control service;
• a list of requirements that must be taken into account in the working documentation developed on the basis of design documentation in connection with the accepted methods of erection of building structures and installation of equipment;
• justification of the need for housing and social services for personnel involved in construction;
• a list of measures and design solutions to determine the technical means and methods of work that ensure the fulfillment of regulatory requirements for labor protection;
• description of design solutions and measures for environmental protection during the construction period;
• substantiation of the accepted duration of construction of a capital construction facility and its individual stages;
• a list of measures for organizing monitoring of the condition of buildings and structures located in the immediate vicinity of the facility under construction, earth, construction, installation and other work on which may affect the technical condition and reliability of such buildings and structures;

The graphic part of the POS should contain:

Thus, a large number of subject SPDs of the most varied kinds are based on information taken from the PIC. It is prohibited by law to start construction and installation work without a PIC that has passed the examination in the prescribed manner. Design documentation will be needed not only for the investor, the construction customer, but also for the contractor construction organizations.

Depending on the complexity of the construction, the development of the POS is carried out in one or two stages - the "Design" stage (P) and the "Working documentation" stage (P).

Stroygenplan
Stroygenplan is an essential part of the PIC project. In it you can see how functionally and rationally the storage areas for materials and raw materials are organized, household, administrative, sanitary facilities, and temporary roads are located. Also, the construction plan shows all hazardous areas and methods for their elimination, shows the location and operation of the main mechanisms, their interaction and joint work.

Calendar plan
A calendar plan or schedule is a document that clearly defines the duration, sequence and combination of work performance, indicating the financial costs of construction by stages, for a PIC in general, for a PPR it is concretized. This document, undoubtedly, is one of the defining ones in the organization of competent and timely financing of objects. Also in the calendar schedule, the dependence of construction on local natural and climatic conditions, when the object is in difficult conditions, is presented.

Explanatory note
An explanatory note is an equally important element of construction management projects. From the explanatory note, you can get a detailed idea of ​​all the features of the conditions of the upcoming construction, as well as its sequence, methods and technology for the production of construction and installation works, quality control and other processes necessary for construction. Also, in the explanatory note, all calculations are made necessary to determine the needs of construction in the provision of labor resources, engineering support, etc.

Regulatory framework for the development of POS

Construction belongs to the field of activity in which the requirements for documentation are especially strict, they are based on numerous norms, joint ventures, SNiPs and rules. One of the main documents, the mandatory presence of which is approved in SP 48.13330.2011, is the PPR - a project for the production of work.

Federal legislation of the Urban Planning Code of the Russian Federation regulates the need to develop a PIC. According to him, the beginning of work in the field of capital construction is unacceptable without the availability of design documentation, which includes the construction organization project. The development of the POS section is carried out in accordance with SP48.13330.2011 and with the Decree of the Government of the Russian Federation No. 87 of February 16, 2008.

APPROVAL OF PIC PROJECTS

The PIC approval process is regulated by the SNiP 1.02.01-85 "Instruction on the composition, procedure for the development, approval and approval of design and estimate documentation for the construction of enterprises, buildings and structures," as well as by departmental building codes. In accordance with these documents, the customer negotiates the POS with the general contractor for the construction and installation organization.

In addition, a number of examinations and approvals of the PIC with other supervisory authorities are carried out, the full list of which depends on the specifics of the object: architecture management; prefectures of administrative units; Directorate of Glavgosexpertiza; sanitary inspection bodies; Department of Fuel and Energy Facilities; Department of Economic Policy; city ​​transport department and other organizations.

We develop projects:

Design application

Construction management projects refer to design documentation (stage "P"). The need to develop a POS is dictated by the Decree of the Government of the Russian Federation No. 87 of February 16, 2008. On the composition of the sections of the project documentation and the requirements for their content.

What is POS

A construction organization project (PIC) is a design documentation, stitched in A4 format, consisting of text and graphic parts. The composition of the construction organization project is determined by clause 23 of the Decree of the Government of the Russian Federation No. 87 of February 16, 2008.

The main task of the PIC is to establish the main parameters of future construction, such as:

• determination of the required capacities power supply construction;
• identifying the necessary water needs for the construction period;
• calculation and placement of temporary household buildings;
• location temporary roads and storage areas;
• defining prescriptive construction time;
• placement of the main construction machinery;
• definition stages and queues construction.

Construction plan for demolition of structures - sample

POS composition

In most cases, the POS is developed in accordance with the requirements of the Decree of the Government of the Russian Federation No. 87 dated February 16, 2008. For especially complex and critical facilities, the POS composition can be expanded according to the Terms of Reference (TOR) agreed with the Customer. Thus, the composition of the PIC is subdivided into normative, supplemented and expanded.

Normative composition of POS

The PIC in its standard form consists of the following main elements:

The supplemented composition of the POS

POS in augmented form consists of the following main elements:

• an explanatory note indicating the main sections and calculations;
• construction plan for the main construction period;
• section of the building and cranes;
• construction schedule;
• annexes to the project - permits (SRO, attestations).

Extended composition of POS

An expanded POS consists of the following main elements:

• an explanatory note indicating the main sections and calculations;
• construction plan of the zero construction cycle;
• construction plan for the main construction period;
• section of the building and cranes;
• technological schemes for the main work processes;
• drawings of temporary structures (if necessary);
• construction schedule;
• annexes to the project - permits (SRO, attestations).

Crane section (extended POS composition) - sample

POS development

POS development is quite a responsible job even for a small object. Despite the mandatory examination of the Design Documentation (including PIC), some Companies do not pay due attention to this section. Competent development of POS is built in the following order:

1. Stroygenplan (construction master plan) - the most important part of the PIC, deciding the organization of the construction site and global safety issues.
2. Calculation of construction duration - (section of the textual part of the project) the task of the section is to correctly calculate the construction time of the facility, and on this basis, such parameters as the need for workers, temporary household structures, construction machines and engineering support.
3. Other sections of the project - the full text part and the Construction Schedule (Construction Schedule).

Stroygenplan POS

The construction master plan as part of the PIC should solve global issues of organizing the construction process, such as:

• construction site fencing and design boundaries;
• location and layout of residential townships;
• location on the plan of buildings under construction and neighboring structures;
• temporary roads, storage areas, wheel washes, checkpoints, fire shields and electrical cabinets, lighting masts, etc.;
• binding of the main lifting mechanisms (cranes) and optimization of their parameters;
• display of restrictions on work by cranes and display of the main danger zones.

Stroygenplan POS - sample

Despite the mandatory development Crane production project (PPRk) in the future - the main issues of safe work must be resolved at the POS stage - the joint work of several tower cranes (the ratio of heights and outreaches of the booms), the correct binding and selection of the parameters of the cranes (height, reach, lifting capacity). As part of the PIC, it is not allowed to bypass these issues by referring to the PPRk.

Later, at the stage of Working Documentation or before the start of construction work at the facility - based on PIC solutions, a Stroygen plan of stage "P" .

Construction timetable(or Construction Schedule) includes a graphical display of the total duration of work, the duration of individual work ( preparatory work, underground part, aboveground part, finishing, etc.), as well as combined schedules of the need for labor resources - workers. Correctly designed Calendar plan gives an informative visual representation - at what points in time and for the production of which work a certain number of workers, engineers and other personnel are needed.

Construction timetable - sample

The schedule is obliged to consider all the key points of construction. In case of resumption of the construction of the object after the conservation, the stages of work of the previous years (before the conservation) should also be displayed on the Calendar Schedule.

Expertise and approval of PIC

All construction organization projects (PIC) undergo an examination of design documentation as part of the general design documentation. The choice of an organization for passing the examination of design documentation is made by the Customer, or the general designer of the facility:

• for objects of national importance (architectural monuments, cultural heritage, etc.) - state examination project documentation;
• for other objects - non-state expertise project documentation.

Who can develop a PIC

Development of POS is possible only by organizations that have an SRO permit for the development of design documentation for capital construction projects.

Although design institutes often do not have their own PIC engineers for high-quality project development, therefore they turn to third-party designers (freelancers). You can read about the benefits and dangers of such a development at