Requirement SNIP 3.03 01 87. Bearing and enclosing structures

The following documentation must be submitted during acceptance control:

executive drawings with introduced (if any) deviations, approved by the enterprise - the manufacturer of structures, as well as the installation organization, agreed with the design organizations - developers of the drawings, and documents on their approval;

factory technical passports for steel, reinforced concrete and wooden structures;

documents (certificates, passports) certifying the quality of materials used in the construction and installation works;

certificates of examination of hidden works;

acts of intermediate acceptance of critical structures;

Executive geodetic schemes of the position of structures;

work logs;

documents on quality control of welded joints;

Structural test certificates (if tests are provided for by additional rules of these rules and regulations or working drawings);

other documents specified in additional rules or working drawings.

1.23. It is allowed in projects, with appropriate justification, to assign requirements for the accuracy of parameters, volumes and methods of control that differ from those provided for by these rules. In this case, the accuracy of the geometric parameters of structures should be assigned on the basis of the accuracy calculation in accordance with GOST 21780-83.

5.1. Acceptance of wooden structures must be carried out in accordance with the requirements of Sec. 1 and 5. When accepting glued wooden structures, the requirements of GOST 20850-84 should also be taken into account.

Structures that have or received defects and damage during transportation and storage, the elimination of which is not allowed under the conditions of the construction site (for example, delamination of adhesive joints, through cracks, etc.), must not be mounted until the conclusion of the design organization-developer. In conclusion, a decision is made on the possibility of application, the need to strengthen damaged structures or replace them with new ones.

5.2. Prefabricated load-bearing elements of wooden structures should be supplied by the manufacturer to the construction site in a complete set, together with enclosing structures, roofing materials and all the details necessary for making design connections - linings, fixing bolts, puffs, hangers, turnbuckles, bracing elements, etc.

Cladding slabs and wall panels must be supplied complete with standard fasteners, suspension parts (for suspended ceiling slabs), materials for sealing joints.

Note. Responsibility for a complete set and terms of delivery of designs is born by the enterprise - the manufacturer of wooden elements of designs.

5.3. When performing work on warehousing, transportation, storage and installation of wooden structures, their specific features should be taken into account:

the need for protection from long-term atmospheric influences, in connection with which, in the course of work, it should be envisaged, as a rule, the installation of a building on grips, including the sequential erection of load-bearing structures, enclosing structures and roofs in a short time;

the minimum possible number of operations for tilting and shifting wooden structures during loading, unloading and installation.

Structures or their elements treated with salt-based flame retardants should be stored under conditions that prevent structures from moistening and washing out of salts.

5.4. The load-bearing wooden structures of buildings should be assembled as enlarged as possible: in the form of semi-frames and semi-arches, fully assembled arches, sections or blocks, including roofing and roofing.

The enlarged assembly of wooden structures with tightening must be carried out only in a vertical position, without tightening - in a horizontal position.

Installation of overlays in ridge knots structures should be produced after achieving a tight abutment of the joined surfaces over a given area.

5.5. The installation of structures in prefabricated elements should be started only after tightening all metal connections and elimination of defects arising during transportation and storage.

5.6. When wooden structures come into contact with brickwork, soil, monolithic concrete and so on. prior to installation, it is necessary to carry out the insulation work provided for by the project.

5.7. Tolerances and deviations characterizing the accuracy of construction and installation works are assigned by the project for the production of works depending on the specified accuracy class (determined by functional, design, technological and economic requirements) and are determined in accordance with GOST 21779-82. The remaining deviations should not exceed those indicated in Table. 24.

Table 24

5.8. Installation wooden beams, arches, frames and trusses should be produced in accordance with the PPR developed by a specialized organization.

Installation of arches and frames with connections on working bolts or dowels should be carried out with fixed support nodes.

Installation of wooden structures with a span of 24 m or more should be carried out only by a specialized installation organization.

5.9. The assembly of wooden trusses must be carried out with a construction lift created at the construction site and determined by the project.

5.10. Bezraskosnye three-hinged trusses of straight glued elements with wooden and metal tightening must first be assembled from individual elements on a special stand or platform.

5.11. When installing wooden columns, racks, etc., as well as when joining their elements, it is necessary to achieve a tight fit of the ends of the mating structure. The gap in the joints from one edge should not exceed 1 mm. Through holes are not allowed.

5.12. In wooden columns and racks, prior to installation, marks should be made for setting crossbars, girders, spacers, ties, panels and other structures.

5.13. During installation wall panels the top panel should not sunk relative to the bottom.

5.14. Covering slabs should be laid in the direction from the eaves to the ridge with platforms for their support on the supporting structures of at least 5 cm. Gaps must be maintained between the slabs to ensure tight sealing of the joints.

It is prohibited to carry out general construction and special works on the slabs laid in the coating that do not have a top cladding: the design of the adjunctions of the slabs to the walls, the sealing of the joints between the slabs, roofing and minor repair work. To perform these works on the surface, as well as to store materials and parts, install various devices and mechanisms in certain areas of the coating, in accordance with the project for the production of works, it is necessary to arrange a temporary wooden protective flooring, as well as use portable ladders.

After laying the roofing slabs and sealing the joints, the roof should be laid immediately over them, preventing the insulation from getting wet.

5.15. Block and log walls should be assembled with a margin for settlement caused by the drying of wood and shrinkage of the grouting material. The margin should be 3-5% of the design height of the walls.

SNiP 3.03.01-87

BUILDING REGULATIONS

CARRYING AND Fencing

DESIGNS

Introduction date 1988-07-01

DEVELOPED BY TsNIIOMTP Gosstroy of the USSR (Doctor of Technical Sciences V.D. Topchiy; Candidates of Technical Sciences Sh.L. Machabeli, R.A. Kagramanov, B.V. Zhadanovsky, Yu.B. Chirkov, V.V. Shishkin , N.I.Evdokimov, V.P.Kolodiy, L.N.Karnaukhova, I.I.Sharov, Doctor of Technical Sciences K.I.Bashlay, A.G.Prozorovsky); NIIZhB Gosstroy of the USSR (Doctor of Technical Sciences B.A. Krylov; Candidates of Technical Sciences O.S. Ivanova, E.N. Malinsky, R.K. Zhitkevich, B.P. Goryachev, A.V. Lagoida, N.K.Rozental, N.F.Shesterkina, A.M.Friedman, Doctor of Technical Sciences V.V.Zhukov); VNIPIPromstalkonstruktsiya Minmontazhspetsstroy of the USSR (B.Ya. Moyzhes, B.B. Rubanovich), TsNIISK im. Kucherenko of the Gosstroy of the USSR (Doctor of Technical Sciences L.M. Kovalchuk; Candidates of Technical Sciences V.A. Kameiko, I.P. Preobrazhenskaya; L.M. Lomova); Central Research Institute of Projectstalconstruction of the State Construction Committee of the USSR (B.N. Malinin; Candidate of Technical Sciences V.G. Kravchenko); VNIIMontazhspetsstroy of the USSR Minmontazhspetsstroy (G.A. Ritchik); TsNIIEP housing of the State Committee for Architecture (S.B. Vilensky) with the participation of Donetsk Promstroyniiproekt, Krasnoyarsk Promstroyniiproekt of Gosstroy of the USSR; Gorky Engineering and Construction Institute. Chkalov of the USSR State Committee for Public Education; VNIIG them. Vedeneev and Orgenergostroy of the Ministry of Energy of the USSR; TsNIIS of the Ministry of Transport of the USSR; Aeroproject Institute of the USSR Ministry of Civil Aviation; NIIMosstroy of the Moscow City Executive Committee.

INTRODUCED by TsNIIOMTP Gosstroy of the USSR.

PREPARED FOR APPROVAL by the Office of Standardization and Technical Standards in Construction of the USSR State Construction Committee (A. I. Golyshev, V. V. Bakonin, D. I. Prokofiev).

APPROVED by the Decree of the State Construction Committee of the USSR dated December 4, 1987 No. 280

With the entry into force of SNiP 3.03.01-87 "Bearing and enclosing structures" lose their force:

chapter SNiP III-15-76 "Monolithic concrete and reinforced concrete structures";

SN 383-67 "Guidelines for the production and acceptance of work during the construction of reinforced concrete tanks for oil and oil products";

chapter SNiP III-16-80 "Concrete and reinforced concrete prefabricated structures";

SN 420-71 "Guidelines for sealing joints during installation of building structures";

chapter on the installation of structures";

paragraph 11 of the Amendments and additions to the chapter of SNiP III-18-75 " Metal constructions"approved by the Decree of the Gosstroy of the USSR of April 19, 1978 No. 60;

head of SNiP III-17-78 | Stone structures";

chapter SNiP III-19-76 "Wooden structures";

SN 393-78 "Instruction for welding reinforcement joints and embedded parts of reinforced concrete structures".

1. GENERAL PROVISIONS

1.1. These norms and rules apply to the production and acceptance of work performed during the construction and reconstruction of enterprises, buildings and structures in all sectors of the national economy:

in the construction of monolithic concrete and reinforced concrete structures from heavy, extra heavy, on porous aggregates, heat-resistant and alkali-resistant concrete, in the performance of shotcrete and underwater concreting;

in the manufacture of prefabricated concrete and reinforced concrete structures in the conditions of a construction site;

during the installation of prefabricated reinforced concrete, steel, wooden structures and structures made of light effective materials;

when welding assembly joints of building steel and reinforced concrete structures, reinforcement joints and embedded products of monolithic reinforced concrete structures;

in the production of works on the construction of stone and reinforced masonry structures from ceramic and silicate bricks, ceramic, silicate, natural and concrete stones, brick and ceramic panels and blocks, concrete blocks.

The requirements of these rules should be taken into account when designing the structures of buildings and structures.

1.2. The work specified in clause 1.1 must be carried out in accordance with the project, as well as comply with the requirements of the relevant standards, building codes and rules for the organization of construction production and safety in construction, fire safety rules for the production of construction and installation works, as well as the requirements of state supervision bodies .

1.3. When erecting special structures - roads, bridges, pipes, tunnels, subways, airfields, hydraulic engineering, reclamation and other structures, as well as when erecting buildings and structures on permafrost and subsidence soils, undermined territories and in seismic areas, it is necessary to additionally be guided by the requirements of the relevant regulatory - technical documents.

1.4. Work on the construction of buildings and structures should be carried out according to the approved project for the production of works (PPR), in which, along with general requirements SNiP 3.01.01-85 should provide for: the sequence of installation of structures; measures to ensure the required accuracy of the installation; spatial immutability of structures in the process of their pre-assembly and installation in the design position; stability of structures and parts of the building (structure) in the process of construction; the degree of enlargement of structures and safe working conditions.

The combined installation of structures and equipment should be carried out according to the PPR, which contains the procedure for combining work, interconnected schemes of installation tiers and zones, schedules for lifting structures and equipment.

If necessary, as part of the PPR, additional technical requirements should be developed aimed at improving the construction manufacturability of the structures being built, which should be in in due course agreed with the organization - the developer of the project and included in the executive working drawings.

1.5. Data on the production of construction and installation works should be entered daily in the work logs for the installation of building structures (mandatory appendix 1), welding work (mandatory appendix 2), anti-corrosion protection of welded joints (mandatory appendix 3), embedment of assembly joints and assemblies (mandatory appendix 4 ), making mounting connections on bolts with controlled tension (mandatory Appendix 5), as well as fixing their position on geodetic executive diagrams during the installation of structures.

1.6. Structures, products and materials used in the construction of concrete, reinforced concrete, steel, wood and stone structures must meet the requirements of the relevant standards, specifications and working drawings.

1.7. Transportation and temporary storage of structures (products) in the installation area should be carried out in accordance with the requirements of state standards for these structures (products), and for non-standardized structures (products) the following requirements must be observed:

structures should, as a rule, be in a position corresponding to the design (beams, trusses, slabs, wall panels, etc.), and if this condition cannot be met, in a position convenient for transportation and transfer to installation (columns, flights of stairs etc.) provided that their strength is ensured;

structures should be based on inventory linings and gaskets of rectangular section, located in the places indicated in the project; the thickness of the gaskets must be at least 30 mm and at least 20 mm higher than the height of the sling loops and other protruding parts of the structures; for multi-tiered loading and storage of the same type of structures, linings and gaskets should be located on the same vertical along the line of lifting devices (loops, holes) or in other places indicated in the working drawings;

structures must be securely fastened to protect against overturning, longitudinal and transverse displacement, mutual impacts against each other or against the structure of vehicles; fastenings should ensure the possibility of unloading each element from vehicles without violating the stability of the rest;

textured surfaces must be protected from damage and contamination;

reinforcement outlets and protruding parts must be protected from damage; factory marking must be accessible for inspection;

small parts for mounting connections should be attached to the shipping elements or sent simultaneously with the structures in a container equipped with tags indicating the brands of the parts and their number; these parts should be stored under a canopy;

fasteners should be stored indoors, sorted by types and brands, bolts and nuts - by strength classes and diameters, and high strength bolts, nuts and washers - and in batches.

1.8. Structures during storage should be sorted by brands and stacked taking into account the sequence of installation.

1.10. To ensure the safety of wooden structures during transportation and storage, inventory devices (lodges, clamps, containers, soft slings) should be used with installation of soft pads and linings in places of support and contact of structures with metal parts, and also protect them from impact. solar radiation, alternating moistening and drying.

1.11. Prefabricated structures should be installed, as a rule, from vehicles or enlargement stands.

1.12. Before lifting each mounting element, check:

compliance with its design brand;

the condition of embedded products and installation marks, the absence of dirt, snow, ice, damage to the finish, priming and painting;

availability of the necessary connecting parts and auxiliary materials at the workplace;

correctness and reliability of fastening of load-handling devices;

as well as to equip, in accordance with the PPR, with scaffolding, ladders and fences.

1.13. Slinging of mounted elements should be carried out in the places indicated in the working drawings, and ensure their lifting and supply to the installation site in a position close to the design one. If it is necessary to change the places of slinging, they must be agreed with the organization - the developer of the working drawings.

It is forbidden to sling structures in arbitrary places, as well as for the release of reinforcement.

Slinging schemes for enlarged flat and spatial blocks should ensure their strength, stability and invariability of geometric dimensions and shapes when lifting.

1.14. Mounted elements should be lifted smoothly, without jerks, swinging and rotation, as a rule, using braces. When lifting vertically located structures, one guy is used, horizontal elements and blocks - at least two.

The structures should be lifted in two stages: first, to a height of 20-30 cm, then, after checking the reliability of the slinging, further lifting should be carried out.

1.15. When installing mounting elements, the following must be ensured:

stability and immutability of their position at all stages of installation;

work safety;

the accuracy of their position with the help of constant geodetic control;

strength of mounting connections.

1.16. Structures should be installed in the design position according to the accepted guidelines (risks, pins, stops, edges, etc.).

Structures with special embedded or other fixing devices should be installed on these devices.

1.17. Mounting elements to be installed must be securely fastened before bridging.

1.18. Until the end of the reconciliation and reliable (temporary or project) fixing of the installed element, it is not allowed to rest on it the overlying structures, if such support is not provided for by the PPR.

1.19. If there are no special requirements in the working drawings, the maximum deviations of the alignment of landmarks (edges or marks) during the installation of prefabricated elements, as well as deviations from the design position of structures completed by installation (erection) should not exceed the values ​​given in the relevant sections of these rules and regulations.

Deviations for the installation of mounting elements, the position of which may change in the process of their permanent fixing and loading with subsequent structures, should be assigned in the PPR so that they do not exceed the limit values ​​after the completion of all installation work. In the absence of special instructions in the PPR, the deviation of the elements during installation should not exceed 0.4 of the maximum deviation for acceptance.

1.20. The use of installed structures for attaching cargo pulley blocks, diverting blocks and other lifting devices to them is allowed only in cases provided for by the PPR and agreed, if necessary, with the organization that completed the working drawings of the structures.

1.21. The installation of building structures (structures) should, as a rule, begin with a spatially stable part: a bond cell, a stiffening core, etc.

Installation of structures of buildings and structures of great length or height should be carried out in spatially stable sections (spans, tiers, floors, temperature blocks, etc.).

1.22. Production quality control of construction and installation works should be carried out in accordance with SNiP 3.01.01-85.

The following documentation must be submitted during acceptance control:

executive drawings with introduced (if any) deviations, approved by the enterprise - the manufacturer of structures, as well as the installation organization, agreed with the design organizations - developers of the drawings, and documents on their approval;

factory technical passports for steel, reinforced concrete and wooden structures;

documents (certificates, passports) certifying the quality of materials used in the construction and installation works;

certificates of examination of hidden works;

acts of intermediate acceptance of critical structures;

Executive geodetic schemes of the position of structures;

work logs;

documents on quality control of welded joints;

acts of testing structures (if tests are provided for by additional rules of these rules and regulations or working drawings);

other documents specified in additional rules or working drawings.

1.23. It is allowed in projects, with appropriate justification, to assign requirements for the accuracy of parameters, volumes and methods of control that differ from those provided for by these rules. In this case, the accuracy of the geometric parameters of structures should be assigned on the basis of the accuracy calculation in accordance with GOST 21780-83.

2. CONCRETE WORKS

MATERIALS FOR CONCRETE

2.1. The choice of cements for the preparation of concrete mixtures should be made in accordance with these rules (recommended Appendix 6) and GOST 23464-79. Acceptance of cements should be carried out in accordance with GOST 22236-85, transportation and storage of cements - in accordance with GOST 22237-85 and SNiP 3.09.01-85.

2.2. Aggregates for concrete are used fractionated and washed. It is forbidden to use a natural mixture of sand and gravel without sieving into fractions (mandatory Appendix 7). When choosing aggregates for concrete, mainly materials from local raw materials should be used. To obtain the required technological properties of concrete mixtures and the performance properties of concrete, chemical additives or their complexes should be used in accordance with the mandatory Appendix 7 and the recommended Appendix 8.

CONCRETE MIXTURES

2.3. Dosing of the components of concrete mixes should be done by weight. Dosing by volume of water of additives introduced into the concrete mixture in the form of aqueous solutions is allowed. The ratio of components is determined for each batch of cement and aggregates in the preparation of concrete of the required strength and mobility. The dosage of the components should be adjusted during the preparation of the concrete mixture, taking into account the data of monitoring the indicators of cement properties, moisture content, granulometry of aggregates and strength control.

2.4. The order of loading the components, the duration of mixing the concrete mixture should be established for specific materials and conditions of the concrete mixing equipment used by evaluating the mobility, uniformity and strength of concrete in a particular batch. When introducing segments of fibrous materials (fibers), such a method of their introduction should be provided so that they do not form lumps and inhomogeneities.

When preparing a concrete mix using a separate technology, the following procedure must be observed:

water, part of the sand, finely ground mineral filler (if used) and cement are dosed into a working high-speed mixer, where everything is mixed;

the resulting mixture is fed into a concrete mixer, pre-loaded with the rest of the aggregates and water, and once again everything is mixed.

2.5. Transportation and supply of concrete mixtures should be carried out by specialized means that ensure the preservation of the specified properties of the concrete mixture. It is forbidden to add water at the place of laying the concrete mixture to increase its mobility.

2.6. The composition of the concrete mixture, preparation, acceptance rules, control methods and transportation must comply with GOST 7473-85.

2.7. Requirements for the composition, preparation and transportation of concrete mixes are given in Table. 1.

Table 1

LAYING CONCRETE MIXTURES

2.8. Before concreting rock foundations, horizontal and inclined concrete surfaces work joints must be cleaned of debris, dirt, oils, snow and ice, cement film, etc. Immediately before laying the concrete mixture, the cleaned surfaces must be washed with water and dried with a jet of air.

2.9. All structures and their elements closed in the course of subsequent work (prepared structural bases, reinforcement, embedded products, etc.), as well as the correct installation and fixing of the formwork and its supporting elements, must be accepted in accordance with SNiP 3.01.01-85.

2.10. Concrete mixtures should be laid in concreted structures in horizontal layers of the same thickness without gaps, with consistent direction of laying in one direction in all layers.

2.11. When compacting the concrete mixture, it is not allowed to rest the vibrators on the reinforcement and embedded products, strands and other elements of the formwork fastening. The depth of immersion of the deep vibrator in the concrete mixture should ensure its deepening into the previously laid layer by 5 - 10 cm.

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

2.13. The surface of the working joints, arranged when laying the concrete mixture intermittently, should be perpendicular to the axis of the columns and beams to be concreted, the surface of the slabs and walls. The resumption of concreting is allowed to be carried out when the concrete reaches a strength of at least 1.5 MPa. Working seams, in agreement with the design organization, can be arranged during concreting:

columns - at the level of the top of the foundation, the bottom of the runs, beams and crane consoles, the top of the crane beams, the bottom of the capitals of the columns;

beams large sizes, monolithically connected to the plates - 20 - 30 mm below the mark of the lower surface of the plate, and if there are haunches in the plate - at the mark of the bottom of the haunch of the plate;

flat slabs - anywhere parallel to the smaller side of the slab;

ribbed floors - in the direction parallel to the secondary beams;

individual beams - within the middle third of the span of beams, in the direction parallel to the main beams (girders) within two middle quarters of the span of girders and slabs;

massifs, arches, vaults, reservoirs, bunkers, hydraulic structures, bridges and other complex engineering structures and structures - in the places specified in the projects.

2.14. Requirements for laying and compaction of concrete mixes are given in Table. 2.

table 2

CURATING AND CARE OF CONCRETE

2.15. In the initial period of hardening, concrete must be protected from precipitation or loss of moisture, subsequently maintain the temperature and humidity conditions with the creation of conditions that ensure the growth of its strength.

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

2.17. The movement of people on concreted structures and the installation of formwork of overlying structures are allowed after the concrete reaches a strength of at least 1.5 MPa.

CONCRETE TESTING DURING ACCEPTANCE OF STRUCTURES

2.18. Strength, frost resistance, density, water resistance, deformability, as well as other indicators established by the project, should be determined in accordance with the requirements of current state standards.

CONCRETE ON POROUS AGGREGATES

2.19. Concrete must meet the requirements of GOST 25820-83.

2.20. Materials for concrete should be selected in accordance with the mandatory Appendix 7, and chemical additives - with the recommended Appendix 8.

2.21. The selection of concrete composition should be made in accordance with GOST 27006-86.

2.22. Concrete mixtures, their preparation, delivery, laying and care of concrete must meet the requirements of GOST 7473-85.

2.23. The main indicators of the quality of the concrete mixture and concrete should be controlled in accordance with Table. 3.

Table 3

ACID AND ALKALI RESISTANT CONCRETE

2.24. Acid-resistant and alkali-resistant concretes must comply with the requirements of GOST 25192-82. The compositions of acid-resistant concretes and the requirements for materials are given in Table. 4

Table 4

2.25. The preparation of concrete mixtures on liquid glass should be carried out in the following order. The hardening initiator, filler and other powdered components sifted through a No. 03 sieve are mixed dry in a closed mixer beforehand. Liquid glass is mixed with modifying additives. First, crushed stone of all fractions and sand are loaded into the mixer, then a mixture of powdered materials and mixed for 1 minute, then liquid glass is added and mixed for 1-2 minutes. In gravity mixers, the mixing time of dry materials is increased to 2 minutes, and after loading all the components - up to 3 minutes. Adding liquid glass or water to the finished mixture is not allowed. The viability of the concrete mixture is no more than 50 minutes at 20 degrees C, it decreases with increasing temperature. Requirements for the mobility of concrete mixtures are given in table. 5.

2.26. Transportation, laying and compaction of the concrete mixture should be carried out at an air temperature of at least 10 degrees C within a period not exceeding its viability. Laying must be carried out continuously. When arranging a working joint, the surface of the hardened acid-resistant concrete is notched, dedusted and primed with liquid glass.

2.27. The moisture content of the surface of concrete or bricks protected by acid-resistant concrete should be no more than 5% by weight, at a depth of up to 10 mm.

2.28. The surface of reinforced concrete structures made of concrete on Portland cement before laying acid-resistant concrete on them must be prepared in accordance with the instructions of the project or treated with a hot solution of magnesium silicofluoride (3-5% solution at a temperature of 60 degrees C) or oxalic acid (5-10% solution) or primed with polyisocyanate or 50% polyisocyanate solution in acetone.

Table 5

2.29. The concrete mixture on liquid glass should be compacted by vibrating each layer with a thickness of not more than 200 mm for 1-2 minutes.

2.30. Hardening of concrete within 28 days should occur at a temperature not lower than 15 degrees C. Drying is allowed with the help of air heaters at a temperature of 60-80 degrees C during the day. Temperature rise rate - no more than 20-30 °С/h.

2.31. The acid resistance of acid-resistant concrete is ensured by the introduction of polymeric additives of 3-5% by weight of liquid glass into the concrete: furyl alcohol, furfural, furitol, acetone-formaldehyde resin ACF-3M, tetrafurfuryl ether of orthosilicic acid TFS, a compound of furyl alcohol with phenol-formaldehyde resin FRV-1 or FRV- 4.

2.32. The water resistance of acid-resistant concrete is ensured by introducing into the composition of concrete finely ground additives containing active silica (diatomite, tripoli, aerosil, flint, chalcedony, etc.), 5-10% of the mass of liquid glass or polymer additives up to 10-12% of the mass of liquid glass: polyisocyanate, carbamide resin KFZh or KFMT, organosilicon hydrophobizing liquid GKZH-10 or GKZH-11, paraffin emulsion.

2.33. The protective properties of acid-resistant concrete in relation to steel reinforcement are provided by the introduction of corrosion inhibitors into the concrete composition of 0.1-0.3% of the mass of liquid glass: lead oxide, a complex additive of catapine and sulfonic acid, sodium phenylanthranilate.

2.34. Demoulding of structures and subsequent processing of concrete is allowed when the concrete reaches 70% of the design strength.

2.35. An increase in the chemical resistance of structures made of acid-resistant concrete is provided by double surface treatment with a solution of sulfuric acid of 25-40% concentration.

2.36. Materials for alkali-resistant concretes in contact with alkali solutions at temperatures up to 50 degrees C must meet the requirements of GOST 10178-85. The use of cements with active mineral additives is not allowed. The content of granulated or electrothermophosphoric slags must be at least 10 and not more than 20%. The content of the mineral C(3)A in Portland cement and Portland slag cement should not exceed 8%. The use of aluminous binder is prohibited.

2.37. Fine aggregate (sand) for alkali-resistant concrete, operated at temperatures up to 30 degrees C, should be used in accordance with the requirements of GOST 10268-80, above 30 degrees C - crushed from alkali-resistant rocks - limestone, dolomite, magnesite, etc. n. Coarse aggregate (crushed stone) for alkali-resistant concrete, operated at temperatures up to 30 degrees C, should be used from dense igneous rocks - granite, diabase, basalt, etc.

2.38. Crushed stone for alkali-resistant concrete, operated at temperatures above 30 degrees C, should be used from dense carbonate sedimentary or metamorphic rocks - limestone, dolomite, magnesite, etc. The water saturation of crushed stone should be no more than 5%.

HEAT-RESISTANT CONCRETE

2.39. Materials for the preparation of ordinary concrete, operated at temperatures up to 200 degrees C, and heat-resistant concrete should be used in accordance with the recommended Appendix 6 and the mandatory Appendix 7.

2.40. Dosing of materials, preparation and transportation of concrete mixtures must meet the requirements of GOST 7473-85 and GOST 20910-82.

2.41. An increase in the mobility of concrete mixes for ordinary concretes operated at temperatures up to 200 degrees C is allowed through the use of plasticizers and superplasticizers.

2.42. The use of chemical hardening accelerators in concretes operated at temperatures above 150 degrees C is not allowed.

2.43. Concrete mixtures should be laid at a temperature not lower than 15 degrees C, and this process should be continuous. Breaks are allowed in the places where workers or expansion joints provided by the project.

2.44. Hardening of concretes on a cement binder should occur under conditions that ensure the wet state of the concrete surface.

Hardening of concrete on liquid glass should occur in an air-dry environment. During the hardening of these concretes, good air ventilation must be provided to remove water vapor.

2.45. Drying and heating of heat-resistant concrete should be carried out in accordance with the PPR.

EXTREMELY HEAVY CONCRETE AND FOR RADIATION PROTECTION

2.46. The performance of work using extra heavy concrete and concrete for radiation protection should be carried out according to conventional technology. In cases where conventional concreting methods are not applicable due to mixture stratification, complex configuration of the structure, saturation with reinforcement, embedded parts and communication penetrations, the method of separate concreting should be used (rising mortar method or method of coarse aggregate embedding into the mortar). The choice of concreting method should be determined by the WEP.

2.47. The materials used for radiation protection concretes must comply with the requirements of the project.

2.48. The requirements for the granulometric composition, physical and mechanical characteristics of mineral, ore and metal aggregates must comply with the requirements for aggregates for heavy concrete. Metal fillers must be degreased before use. Non-peeling rust is allowed on metal aggregates.

2.49. Passports for materials used for the manufacture of radiation protection concretes must contain data on a complete chemical analysis of these materials.

2.50. Works with the use of concrete on metal aggregates are allowed only at positive ambient temperatures.

2.51. When laying concrete mixes, it is prohibited to use belt and vibration conveyors, vibrobunkers, vibroshoes, dropping of a particularly heavy concrete mix is ​​allowed from a height of no more than 1 m.

2.52. Concrete testing should be carried out in accordance with clause 2.18.

PRODUCTION OF CONCRETE WORKS

AT NEGATIVE AIR TEMPERATURES

2.53. These rules are implemented during the period of concrete work with the expected average daily outdoor temperature below 5 degrees C and the minimum daily temperature below 0 degrees C.

2.54. The preparation of the concrete mixture should be carried out in heated concrete mixing plants, using heated water, thawed or heated aggregates, which ensure that the concrete mixture is obtained with a temperature not lower than that required by the calculation. It is allowed to use unheated dry aggregates that do not contain frost on grains and frozen clods. At the same time, the duration of mixing the concrete mixture should be increased by at least 25% compared to summer conditions.

2.55. Methods and means of transportation should ensure that the temperature of the concrete mixture does not drop below the required one by calculation.

2.56. The condition of the base on which the concrete mixture is laid, as well as the temperature of the base and the method of laying, must exclude the possibility of freezing of the mixture in the zone of contact with the base. When curing concrete in a structure by the thermos method, when preheating the concrete mixture, as well as when using concrete with antifreeze additives, it is allowed to lay the mixture on an unheated, non-porous base or old concrete, if, according to the calculation, in the contact zone during the estimated period of curing the concrete does not freeze. At air temperatures below minus 10 degrees C, concreting of densely reinforced structures with reinforcement with a diameter of more than 24 mm, reinforcement from rigid rolled profiles or with large metal embedded parts should be carried out with preliminary heating of the metal to a positive temperature or local vibration of the mixture in the reinforcement and formwork zones, after with the exception of cases of laying preheated concrete mixtures (at a mixture temperature above 45 degrees C). The duration of vibrating the concrete mixture should be increased by at least 25% compared to summer conditions.

2.57. When concreting elements of frame and frame structures in structures with rigid coupling of nodes (supports), the need for gaps in the spans, depending on the heat treatment temperature, taking into account the resulting thermal stresses, should be agreed with the design organization. Unformed surfaces of structures should be covered with vapor and heat insulating materials immediately after concreting.

Reinforcement outlets of concreted structures must be covered or insulated to a height (length) of at least 0.5 m.

2.58. Before laying the concrete (mortar) mixture, the surfaces of the cavities of the joints of prefabricated reinforced concrete elements must be cleared of snow and ice.

2.59. Concreting of structures on permafrost soils should be carried out in accordance with SNiP II-18-76.

Acceleration of concrete hardening when concreting monolithic bored piles and embedding bored piles should be achieved by introducing complex antifreeze additives into the concrete mixture that do not reduce the freezing strength of concrete with permafrost soil.

2.60. The choice of concrete curing method for winter concreting of monolithic structures should be made in accordance with the recommended Appendix 9.

2.61. The control of the strength of concrete should be carried out, as a rule, by testing samples made at the place of laying the concrete mixture. Samples stored in frost should be kept for 2-4 hours at a temperature of 15-20 degrees C before testing.

It is allowed to control the strength by the temperature of the concrete during its curing.

2.62. Requirements for the performance of work at negative air temperatures are set in Table. 6

1 area of ​​use

1.1 This set of rules applies to the production and acceptance of work performed during the construction and reconstruction of enterprises, buildings and structures in all sectors of the national economy: when erecting monolithic concrete and reinforced concrete structures from heavy, extra heavy, on porous aggregates, heat-resistant and alkali-resistant concrete, when production of works on shotcrete and underwater concreting; in the manufacture of prefabricated concrete and reinforced concrete structures in the conditions of a construction site; during the installation of prefabricated reinforced concrete, steel, wooden structures and structures made of light effective materials; when welding assembly joints of building steel and reinforced concrete structures, reinforcement joints and embedded products of monolithic reinforced concrete structures; in the production of works on the construction of stone and reinforced masonry structures from ceramic and silicate bricks, ceramic, silicate, natural and concrete stones, brick and ceramic panels and blocks, concrete blocks. The requirements of this set of rules should be taken into account when designing the structures of buildings and structures.

1.2 When erecting special structures - roads, bridges, pipes, steel tanks and gas tanks, tunnels, subways, airfields, hydraulic engineering reclamation and other structures, as well as when erecting buildings and structures on permafrost and subsidence soils, undermined territories and in seismic areas, be additionally guided by the requirements of the relevant regulatory documents.

2.1 This set of rules uses references to the following regulatory documents: GOST 379-95 Brick and silicate stones. Specifications GOST 450-77 Technical calcium chloride. Specifications GOST 530-07 Ceramic brick and stone. General specifications GOST 828-77 Technical sodium nitrate. Specifications GOST 965-89 White Portland cements. Specifications GOST 969-91 Aluminous and high aluminous cements. Specifications GOST 1581-96 Oil-well portland cements. Specifications GOST 2081-2010 Carbamide. Specifications GOST 2246-70 Welding steel wire. Specifications GOST 3242-79 Welded joints. Quality control methods GOST 5264-80 Manual arc welding. Connections are welded. Main types, structural elements and dimensions GOST 5578-94 Crushed stone and sand from slags of ferrous and non-ferrous metallurgy for concrete. Specifications GOST 5686-94 Soils. Field test methods for piles GOST 5802-86 Building mortars. Test methods GOST 6402-70 Spring washers. Specifications GOST 6996-66 Welded joints. Methods for determining mechanical properties GOST 7076-99 Building materials and products. Method for determining thermal conductivity and thermal resistance under stationary thermal conditions GOST 7473-2010 Concrete mixes. Specifications GOST 7512-82 Non-destructive testing. Connections are welded. Radiographic method GOST 7566-94 Steel products. Acceptance, marking, packaging, transportation and storage GOST 8267-93 Crushed stone and gravel from dense rocks for construction works. Specifications GOST 8269.0-97 Crushed stone and gravel from dense rocks and waste industrial production for construction work. Methods of physical mechanical testing GOST 8713-79 Submerged arc welding. Connections are welded. Main types, structural elements and dimensions GOST 8735-88 Sand for construction work. Test methods GOST 8736-93 Sand for construction work. Specifications GOST 9087-81 Fused welding fluxes. Specifications GOST 9206-80 Diamond powders. Specifications GOST 9467-75 Coated metal electrodes for manual arc welding of structural and heat-resistant steels. Types GOST 9757-90 Gravel, crushed stone and sand, artificial porous. Specifications GOST 9758-2012 Porous inorganic aggregates for construction work. Test methods GOST 10060-2012 Concrete. Methods for determining frost resistance GOST 10178-85 Portland cement and Portland slag cement. Specifications GOST 10180-90 Concrete. Methods for determining strength according to control samples GOST 10181-2000 Concrete mixes. Test methods GOST 10243-75 Steel. Methods for testing and evaluating the macrostructure GOST 10541-78 Universal motor oils and for automobile carburetor engines. Specifications GOST 10690-73 Commercial potassium carbonate (potash). Specifications GOST 10832-2009 Expanded perlite sand and crushed stone. Specifications GOST 10906-78 Oblique washers. SpecificationsGOST 10922-90 Reinforcing and embedded products, their welded, knitted and mechanical connections for reinforced concrete structures. General specifications GOST 11052-74 Expanding gypsum alumina cement GOST 11371-78 Washers. Specifications GOST 11533-75 Automatic and semi-automatic submerged arc welding. Connections are welded at acute and obtuse angles. Main types, structural elements and dimensions GOST 11534-75 Manual arc welding. Connections are welded at acute and obtuse angles. Main types, structural elements and dimensions GOST 12730.5-84 Concrete. Methods for determining water resistance GOST 12865-67 Expanded vermiculite GOST 13015-2003 Concrete and reinforced concrete products for construction. General technical requirements. Rules for acceptance, marking, transportation and storage GOST 13087-81 Concrete. Methods for determining abrasion resistance GOST 14098-91 Welded fittings and embedded products of reinforced concrete structures. Types, designs and dimensions GOST 14771-76 Arc welding in shielding gas. Connections are welded. Basic types, structural elements and dimensions GOST 14782-86 Non-destructive testing. Connections are welded. Ultrasonic methods GOST 15150-69 Machines, instruments and other technical products. Versions for different climatic regions. Categories, conditions of operation, storage and transportation in terms of the impact of climatic factors of the environment GOST 15164-78 Electroslag welding. Connections are welded. Main types, structural elements and dimensions GOST 15825-80 Colored Portland cement. Specifications GOST 16037-80 Welded steel pipeline joints. Basic types, structural elements and dimensions GOST ISO/IEC 17025-2009 General requirements for the competence of testing and calibration laboratories GOST 17624-87 Concrete. Ultrasonic method for determining the strength of GOST 18105-2010 Concrete. Rules for control and evaluation of strength GOST 18442-80 Non-destructive testing. capillary methods. General requirements GOST 19906-74 Technical sodium nitrite. Specifications GOST 20276-99 Soils. Methods for field determination of strength and deformability characteristics GOST 20799-88 Industrial oils. Specifications GOST 20850-84 Glued wooden structures. General specifications GOST 20910-90 Heat-resistant concrete. Specifications GOST 21104-75 Non-destructive testing. Ferroprobe method GOST 21105-87 Non-destructive testing. Magnetic particle method GOST 21779-82 System for ensuring the accuracy of geometric parameters in construction. Technological tolerances GOST 21780-2006 System for ensuring the accuracy of geometric parameters in construction. Accuracy calculationGOST 22263-76 Crushed stone and sand from porous rocks. Specifications GOST 22266-94 Sulphate-resistant cements. Specifications GOST 22690-88 Concrete. Determination of strength by mechanical methods of non-destructive testing GOST 22845-85 Electric passenger and freight elevators. Rules for the organization, production and acceptance of installation work GOST 23118-99 Steel building structures. General specifications GOST 23407-78 Inventory fencing of construction sites and sites for the production of construction and installation works. Specifications GOST 23518-79 Shielded arc welding. Connections are welded at acute and obtuse angles. Main types, structural elements and dimensions GOST 23683-89 Petroleum solid paraffins. Specifications GOST 23732-2011 Water for concrete and mortar. Specifications GOST 23858-79 Welded butt and tee fittings for reinforced concrete structures. Ultrasonic quality control methods. Acceptance rules GOST 24045-2010 Bent steel sheet profiles with trapezoidal corrugations for construction. Specifications GOST 24211-2008 Additives for concrete and mortar. General specifications GOST 24379.0-80 Foundation bolts. General specifications GOST 24846-81 Soils. Methods for measuring deformations of the foundations of buildings and structures GOST 25192-82 Concrete. Classification and general technical requirements GOST 25225-82 Non-destructive testing. Seams of welded joints of pipelines. Magnetographic method GOST 25246-82 Chemically resistant concretes. Specifications GOST 25328-82 Cement for mortars. Specifications GOST 25485-89 Cellular concrete. Specifications GOST 25592-91 Ash and slag mixtures from thermal power plants for concrete. Specifications GOST 25818-91 Fly ash from thermal power plants for concrete. Specifications GOST 25820-2000 Lightweight concrete. Specifications GOST 26271-84 Flux-cored wire for arc welding of carbon and low-alloy steels. General specifications GOST 26633-91 Heavy and fine-grained concrete. Specifications GOST 26644-85 Crushed stone and sand from slags of thermal power plants for concrete. Specifications GOST 26887-86 Platforms and ladders for construction and installation works. General specifications GOST 27005-86 Lightweight and cellular concrete. Rules for the control of average density GOST 27006-86 Concrete. Rules for selecting the composition of GOST 28013-98 Building mortars. General specifications GOST 28570-90 Concrete. Methods for determining the strength of samples taken from structuresGOST 30515-97 Cements. General specifications GOST 30971-2002 Mounting seams for adjoining window blocks to wall openings. General specifications GOST 31108-2003 General construction cements. Specifications GOST 31384-2008 Protection of concrete and reinforced concrete structures against corrosion. General technical requirements GOST 12.1.046-85 SSBT. Construction. Lighting standards for construction sites GOST R 12.4.026-2001 SSBT. Signal colors, safety signs and signal markings. Purpose and rules of application. General technical requirements and characteristics. Test methods GOST R 51254-99 Mounting tool for normalized tightening of threaded connections. Keys are momentary. General specifications GOST R 51263-99 Polystyrene concrete. Specifications GOST R 51634-2000 Autotractor motor oils. General technical requirements GOST R 52085-2003 Formwork. General specifications GOST R 52752-2007 Formwork. Test methods SP 15.13330.2012 "SNiP II-22-81 * Stone and reinforced masonry structures" SP 16. 13330.2011 "SNiP II-23-81* Steel structures" SP 20.13330.2011 "SNiP 2.01.07-85* Loads and impacts" SP 25.13330.2012 "SNiP 2.02.04-88 Foundations and foundations on permafrost soils" SP 28.13330.2 012 "SNiP 2.03.11-85 Protection of building structures against corrosion" SP 45.13330.2012 "SNiP 3.02.01-87 Earthworks, foundations and foundations" SP 46.13330.2012 "SNiP 3.06.04-91 Bridges and pipes" SP 48.13330.2011 "SNiP 12-01-2004 Organization of construction" SP 50.13330.2012 "SNiP 23-02-2003 Thermal protection buildings” SP 130.13330.2011 “SNiP 3.09.01-85 Production of prefabricated reinforced concrete structures and products”

Note- When using this set of rules, it is advisable to check the effect of reference standards in the public information system - on the official website of the national bodies of the Russian Federation for standardization on the Internet or according to the annually published information index "National Standards", which was published as of January 1 of the current year, and according to the corresponding monthly published information signs published in the current year. If the referenced document is replaced (modified), then when using this set of rules, one should be guided by the replaced (modified) document. If the referenced document is canceled without replacement, the provision in which the link to it is given applies to the extent that this link is not affected.

3 General requirements

3.1 Organization and production of works on the construction of buildings and structures, arrangement of the construction site and workplaces must meet the requirements and.

3.2 The organization and performance of work at the construction site must be carried out in compliance with the legislation of the Russian Federation and the requirements,.

3.3 The work should be carried out in accordance with the project for the production of works (PPR), which, along with the general requirements, should provide for: the sequence of installation of structures; measures to ensure the required accuracy of the installation; spatial immutability of structures in the process of their pre-assembly and installation in the design position; stability of structures and parts of the building (structure) in the process of construction; the degree of enlargement of structures and safe working conditions. The combined installation of structures and equipment should be carried out according to the PPR, which contains the procedure for combining work, interconnected schemes of installation tiers and zones, schedules for lifting structures and equipment. If necessary, as part of the PPR, additional technical requirements should be developed aimed at improving the construction manufacturability of the structures being built, which should be agreed in the prescribed manner with the organization - the project developer and included in the executive working drawings.

3.4 The construction site must be fenced in accordance with the requirements of GOST 23407 and marked with safety signs and inscriptions of the established form in accordance with the requirements of GOST R 12.4.026. The construction site, work sites, workplaces, driveways and approaches to them at night must be illuminated in accordance with the requirements of GOST 12.1.046.

3.5 Data on the production of construction and installation works should be entered daily in the logs of work on the installation of building structures (Appendix A), welding works (Appendix B), anti-corrosion protection of welded joints (Appendix C), embedment of field joints and assemblies (Appendix D), performance assembly connections on bolts with controlled tension (Appendix D), a concrete work log (Appendix F), and also to fix their position on geodetic executive diagrams during the installation of structures. The quality of construction and installation works must be ensured by the current control of the technological processes of preparatory and main works, as well as during the acceptance of works. According to the results of the current control of technological processes, certificates of examination of hidden works are drawn up.

3.6 Structures, products and materials used in the construction of concrete, reinforced concrete, steel, wood and stone structures must meet the requirements of the relevant standards, codes of practice and working drawings.

3.7 Transportation and temporary storage of structures (products) in the installation area should be carried out in accordance with the requirements of state standards for these structures (products), and for non-standardized structures (products), the following requirements must be observed: structures should, as a rule, be in a position corresponding to the design (beams, trusses, slabs, wall panels, etc.), and if this condition cannot be met, in a position convenient for transportation and transfer to installation (columns, flights of stairs, etc.), provided that their strength is ensured; structures should be based on inventory linings and gaskets of rectangular section, located in the places indicated in the project; the thickness of the gaskets must be at least 30 mm and at least 20 mm higher than the height of the sling loops and other protruding parts of the structures; in case of multi-tiered loading and storage of the same type of structures, linings and gaskets should be located on the same vertical line along the line of lifting devices (loops, holes) or in other places indicated in the working drawings; structures must be securely fastened to protect against overturning, longitudinal and transverse displacement, mutual impacts against each other or against the structure of vehicles; fastenings should ensure the possibility of unloading each element from vehicles without violating the stability of the rest; textured surfaces of load-bearing structures must be protected from damage and contamination; reinforcement outlets and protruding parts must be protected from damage; factory marking must be accessible for inspection; small parts for mounting connections should be attached to the shipping elements or sent simultaneously with the structures in a container equipped with tags indicating the brands of the parts and their number; these parts should be stored under a canopy; fasteners should be stored indoors, sorted by type and brand, bolts and nuts - by strength classes and diameters, and high-strength bolts, nuts and washers - and by lot.

3.8 Facade cladding and roof structures with textured and other finishes, thin-walled galvanized elements of load-bearing structures, fasteners and parts of load-bearing and enclosing structures, shaped elements of facade and roof finishing, insulation and vapor barrier materials should be stored in an unheated warehouse with hard flooring. Storage of structures, facing panels and parts in a warehouse is carried out in a packaged form on wooden beams up to 10 cm thick, with a step of 0.5 m. The warehouse must be closed, dry, with hard flooring. It is not allowed to store the structures, panels and parts specified in this paragraph in open areas and together with aggressive chemical products.

3.9 During storage, structures should be sorted by brands and stacked taking into account the sequence of installation.

3.11 To ensure the safety of wooden structures during transportation and storage, inventory devices (lodgements, clamps, containers, soft slings) should be used with installation of soft gaskets and linings in places of support and contact of structures with metal parts. Structures should be stored under a canopy to protect them from exposure to solar radiation, alternating moistening and drying.

3.12 Prefabricated structures should be installed, as a rule, from vehicles or enlargement stands.

3.13 Before lifting each mounting element, it is necessary to check: compliance with its design mark; the condition of embedded products and installation marks, the absence of dirt, snow, ice, damage to the finish, priming and painting; availability of the necessary connecting parts and auxiliary materials at the workplace; correctness and reliability of fastening of load-handling devices. Each mounting element must be equipped in accordance with the PPR with scaffolding, ladders and railings.

3.14 Slinging of mounted elements should be carried out in the places indicated in the working drawings, and ensure their lifting and supply to the installation site in a position close to the design one. If it is necessary to change the places of slinging, they must be agreed with the organization - the developer of the working drawings. Lifting operations with thin-walled galvanized structures, facing panels and plates should be carried out using textile tape slings, vacuum grips or other devices that exclude damage to structures and panels. It is forbidden to sling structures in arbitrary places, as well as for the release of reinforcement. Slinging schemes for enlarged flat and spatial blocks should ensure their strength, stability and invariability of geometric dimensions and shapes when lifting.

3.15 Mounted elements should be lifted smoothly, without jerks, swinging and rotation, as a rule, using braces. When lifting vertically located structures, one guy is used, horizontal elements and blocks - at least two. The structures should be lifted in two stages: first, to a height of 20–30 cm, then, after checking the reliability of the slinging, further lifting should be carried out.

3.16 When installing mounting elements, the following must be ensured: stability and immutability of their position at all stages of installation; work safety; the accuracy of their position with the help of constant geodetic control; strength of mounting connections.

3.17 Structures should be installed in the design position according to the accepted guidelines (risks, pins, stops, edges, etc.). Structures with special embedded or other fixing devices should be installed on these devices.

3.18 Installed mounting elements must be securely fastened before bridging.

3.19 Until the end of the reconciliation and reliable (temporary or design) fixing of the installed element, it is not allowed to rest on it the overlying structures, if such support is not provided for by the PPR.

3.20 In the absence of special requirements in the working drawings, the maximum deviations in the alignment of landmarks (edges or marks) during the installation of prefabricated elements, as well as deviations from the design position of structures completed by installation (erection) should not exceed the values ​​given in the relevant sections of this set of rules. Deviations for the installation of mounting elements, the position of which may change in the process of their permanent fixing and loading with subsequent structures, should be assigned in the PPR so that they do not exceed the limit values ​​after the completion of all installation work. In the absence of special instructions in the PPR, the deviation of the elements during installation should not exceed 0.4 of the maximum deviation for acceptance.

3.21 The use of installed structures for attaching cargo pulley blocks, diverting blocks and other lifting devices to them is allowed only in cases provided for by the PPR and agreed, if necessary, with the organization that completed the working drawings of the structures.

3.22 The installation of building structures (structures) should, as a rule, begin with a spatially stable part: a tie cell, stiffening cores, etc. Installation of structures of buildings and structures of great length or height should be carried out in spatially stable sections (spans, tiers, floors , temperature blocks, etc.).

3.23 Production quality control of construction and installation works should be carried out in accordance with SP 48.13330. During the acceptance control, the following documentation must be submitted: as-built drawings with the introduced (if any) deviations allowed by the manufacturer of the structures, as well as the installation organization, agreed with the design organizations - developers of the drawings, and documents on their approval; factory technical passports for steel, reinforced concrete and wooden structures; documents (certificates, passports) certifying the quality of materials used in the construction and installation works; certificates of examination of hidden works; acts of intermediate acceptance of critical structures; Executive geodetic schemes of the position of structures; work logs; documents on quality control of welded joints; acts of testing structures (if tests are provided for by additional rules of this set of rules or working drawings); other documents specified in additional rules or working drawings.

3.24 It is allowed in projects, with appropriate justification, to assign requirements for the accuracy of parameters, volumes and methods of control that differ from those provided for by these rules. In this case, the accuracy of the geometric parameters of structures should be assigned on the basis of the accuracy calculation in accordance with GOST 21780.