Architectural project. Working draft, section: AR, KR, KM, KZh, AS Structural reinforcement project, VK, EO, TX, OV, - the sequence of development and approval of the working draft
〉 PP and IRD (set of pre-project documentation):
floor plans and explications
conclusion:
about the archaeological significance of the territory
on the historical boundaries of a cultural heritage site
on engineering and environmental surveys on the territory of the land plot of the facility
fragment of the historical and cultural basic plan of the city of Moscow
historical information about the object of cultural heritage (identified object of cultural heritage or historically valuable city-forming object)
obtaining information from the City Register of immovable monuments of history and culture and their territories
land cadastral certificate
cadastral plan of the land plot
engineering - topographic plan M 1: 500 (geobase)
situational plan M 1: 2000
engineering and geological conclusion on the condition of the soils of the building site
development of a technical opinion based on the results of an engineering survey of the technical condition of the building (structure) structures
documentation on engineering and geodetic survey of a land plot
documentation on the survey of a land plot for compensatory landscaping
obtaining initial information from the State Unitary Enterprise "Mosgorgeotrest" at the location of the facility
technical conditions for connecting the object to engineering networks:
location of the object in the security zone of engineering communications
water supply and sewerage
gutter
heat supply
gas supply
electricity supply
laying of engineering communications
relocation of existing engineering communications
〉 Composition of design documentation (for 87 PP):
No. p / p 87 PP RF Designation Section name Project documentation 1 PZ Section 1 "Explanatory note" 2 ROM Section 2 "Scheme of the planning organization of the land" 3 AR Section 3 "Architectural solutions" 4 KR Section 4 "Constructive and space-planning solutions" 5 Section 5 "Information on engineering equipment, on networks of engineering and technical support, a list of engineering and technical measures, the content of technological solutions", including: 5.1 IOS1 Subsection 5.1 "Power supply system" 5.1.1 EM1 Part 1 "Power supply. Input device (TP, ASU)" 5.1.2 EM2 Part 2 "Power electrical equipment" 5.1.3 EM3 Part 3 "Lightning protection and grounding" 5.1.4 EOM Part 4 "Electric lighting (internal)" 5.1.5 EN Part 5 "Outdoor electric lighting" 5.2 IOS2 Subsection 5.2 "Water supply system" 5.3 IOS3 Subsection 5.3 "Water disposal system" 5.4 IOS4 Subsection 5.4 "Heating, ventilation and air conditioning, heat networks" 5.5 IOS5 Subsection 5.5. "Communication networks" 5.5.1 SCS Part 1. "Structured cabling" 5.5.2 SRF Part 2. "Radio system" 5.5.3 MF Part 3. "Electric clock system" 5.5.4 SKPT Part 4. "The system of collective television reception" 5.5.5 STS Part 5. "Telephone communication system" 5.5.6 LAN Part 6. "Local area network" 5.5.7 mms Part 7. "Multimedia system" 5.5.8 ACS Part 8. "Access control and management system" 5.5.9 OWN Part 9. "Security video surveillance system" 5.5.10 SOTS Part 10. "Intruder alarm system" 5.5.11 SSOI Part 11. "Information collection and processing system" 5.5.12 SPA Part 12. "Automated parking system" 5.5.13 SVDTS Part 13. "System for detecting sabotage and terrorist means" 5.5.14 BMS Part 14. "Automated building management system" 5.5.15 SKU Part 15. "Room control system" 5.5.16 ASDU Part 16. "Data center automation and dispatching system" 5.5.17 ASUE Part 17. "Automated accounting system for electricity consumption, water consumption, heat consumption" 5.5.18 AOB Part 18. "Automation of the ventilation and air conditioning system" 5.5.19 ACS CTP Part 19. "Automation of the control system of the central heating unit" 5.7 IOS7 Subsection 5.7 "Technological solutions" 6 pic Section 6 "Construction organization project" 7 UNDER Section 7 "Project for the organization of demolition and dismantling" 8 OOS Section 8 "List of measures for environmental protection" 9 PB Section 9 "Measures to ensure fire safety" 9.3 AGPT Part 3. "Automatic gas and powder fire extinguishing system" 9.4 SAPS Part 4. "Automatic fire alarm system" 9.5 SOUE Part 5. "Warning and evacuation control system in case of fire" 9.6 SPPA Part 5. "Fire automatics system" 10 ODI Section 10 "Measures to ensure access for persons with disabilities" 10.1 EE Section 10 (1) "Measures to ensure compliance with energy efficiency requirements and the requirements for equipping buildings, structures and structures with metering devices for the energy resources used" 12 Section 12 "Other documentation in cases provided for by federal laws" 12.1 Technological regulations for the process of handling construction and demolition waste 12.3 12.4 Requirements for ensuring the safe operation of a capital construction facility 12.5 ITM GO and Emergencies 12.6 Measures to ensure anti-terrorist security 12.7 Traffic management project 12.10 SMIS (SMIK, SUKS, SSP) 12.11 Dendrology working documentation 1 General plan 2 Architectural solutions 3 Constructive decisions 4 Internal engineering systems, including: 4.1 Power supply system 4.2 Water supply system 4.2.1 Household pumping station 4.2.2 Fire pump + automatic fire extinguishing system 4.3 Drainage system 4.4 Heating, ventilation and air conditioning, heating networks 4.4.1 Thermal mechanical solutions (central heating substation) 4.5 Communication networks. Automation and dispatching systems 5 Technological solutions 6 Security and protection deratization system 7 Measures to ensure anti-terrorist security 8 SMIS, SMIK, SUKS 9 PPR for dismantling works 10 PPR for the preparatory period 11 Stroygenplan Radiation drainage and KLD External networks for heat supply, water supply, household and storm sewerage, low-current sewerage, power supply Measurement works Inspection of load-bearing and enclosing structures 3D scanning Inspection of connection points of external engineering systems Color passport of existing buildings Album of architectural and urban planning solutions (formation of a regulatory album in accordance with the requirements of the Moscow Committee for Architecture) Special technical conditions for design and construction in terms of ensuring fire safety Construction supervision Engineering supervision Building instruction manual Technical regulation on building safety Instructions for the operation of engineering systems (TP, ASU, central heating station, pumping, ventilation chambers, server rooms, etc.) 〉 Coordination and approval of project documentation:
OPS GBU "Mosgorgeotrest"
AO:
Mosvodokanal
Mosgaz
State Unitary Enterprise of Moscow:
Mosgortrans
NIiPI General Plan
Mosvodostok
"Moscow subway"
"Mossvet"
PAO:
Moscow Cable Network (ISS)
County prefectures
GBU "Zhilischnik" district
District councils
Office of Urban Planning Regulation of the administrative district (UGR)
Moscow Department of Cultural Heritage
UPSP Moskomarhitktury
Rostechnadzor (Mosenergonadzor)
Department of the city of Moscow:
Transport
health care
Education
Social Security
GKU TsODD
〉 Work steps:
Free consultation
Signing an agreement
Handing over the initial data for design
Coordination of the project with the customer
Coordination or support of the project in competent organizations
Delivery of project documentation to the Customer.
〉 Matching:
Name of service Dates / months / from. Cost, rub. / from. Approval: 1. Construction 2 150 000 2. Project documentation 4 150 000 3. Constructions with the airport and Rosaviatsia 4 300 000 Alteration: 1. PZZ 8 negotiable 2. Master plan 8 negotiable 3. GPZU with the necessary TEC 4 150 000 Receipt: 1.Specifications 2 100 000 2. Permits for commissioning 4 150 000 3. Initial - permissive documentation 4 150 000 Services for developers 4 150 000 Passing the state examination 2 30 000 Legalization of unauthorized construction 4 150 000 Technical customer services - negotiable Issuance of a building permit 2 60 000 Statement of real estate objects on cadastral registration 2 60 000 〉 Coefficients of MU No. 620 dated December 29, 2009:
Reduction of terms:
10% - 1.2 times, clause 3.11.
30% - 1.4 times, clause 3.11.
40% - 2 times or more, clause 3.11.
Overhaul:
50% - development of design (working) documentation for overhaul, clause 3.5.
Linking standard or reusable project documentation without making changes:
65% - above-ground part, clause 3.2.
80% - above-ground and underground parts, clause 3.2.
50% - unique objects, item 3.3.
50% - reconstruction and technical re-equipment, clause 3.4.
Other:
2% - performance of the function of the general designer, clause 3.9.
30% - design with the installation of imported main technological equipment used by the design organization for the first time, clause 3.8.
The project in construction is
CONCLUSION Verification of the bearing capacity of a hollow-core slab according to series 1.041.1-3 (pdf 340 Kb) technical report
The essence of the third method is the regulation of stresses, due to which there is a redistribution or reduction of forces on the entire structure. This method is simpler and more alternative than the second method, requires less accurate mathematical calculation and allows redistribution without stopping the process. The attachment of the necessary parts is carried out by welding, bolts or polymer solutions.
Thus, taking into account the technical condition of the structure and the selected tasks, one or another event is selected. Depending on the design that needs to be reinforced, one or another method of designing the reinforcement is chosen. For example, when designing the reinforcement of reinforced concrete structures, the following should be taken into account.
Strengthening as a result of which individual parts of the structure are replaced by more durable elements - these are reinforced concrete or metal clips, reinforced concrete shirts, or the use of additional schemes - consoles, racks, metal beams, combined puffs to the original structure.
Reinforcement entails lower costs than replacement with new products. In addition, in the second case, a production stop is not required. Attention should also be paid to the fact that in some areas amplification is possible, while others are not, they are simply replaced by others.
In other words, to be strengthened:
- concrete foundations,
- columns, beams,
- floor slabs,
- reinforced concrete crane beams.
In cases where a reinforced concrete truss is found to be in an emergency condition, it is replaced with a new one, strengthening is strictly prohibited. Before strengthening reinforced concrete structures, it is necessary to perform a number of points - this is the preparation of the surface, which will be strengthened, to install the reinforcement and connections correctly, the formwork. Surface preparation is essential for good adhesion to the concrete to be applied for reinforcement. This is achieved by cleaning the surface from dirt by blowing air, cleaning the reinforcement from corrosion by sandblasting machines. When laying concrete mortar, it is more expedient to use pneumatic installations.
The design of reinforcement with metal structures is different and is done differently. The addition of additional, both flexible and rigid elements, the strengthening of the joints of the structural joints, as well as the complete exclusion of individual elements, is used. To increase the bearing capacity of individual elements, the structure is supplemented with details, fastening them with bolted joints or welding.
Designing reinforcement with wooden structures makes it possible to reduce the cost of construction work. The light weight of the tree does not require the construction of additional foundations, which leads to a decrease in material consumption. Measures are applicable both in warm and cold rooms with external water drainage. It is necessary to take into account the temperature and humidity of the environment, in order to avoid fire and decay of wood. Coniferous species are used as hardening of wooden structures. However, for dowels, liners, which is a critical connection, it is better to use hardwood. These are oak, ash, birch, which have high strength and bending resistance.
It is recommended to keep the oak in water for some time to increase its strength. In addition to the above, there are various polymers that strengthen the joints. These are various epoxy resins, the so-called dianic, polymeric concretes based on polyester and furan resins, bitumen-epoxy mastics as a waterproofing coating.
Recently, with the growth of technical progress in the design of reinforcements, carbon fiber has begun to be used. Carbon fiber has a number of advantages - tensile strength characteristics are 10 times higher than steel, a negligible thickness of the material, which does not affect the cross-sectional dimensions of the reinforced structure. In addition, carbon fiber is lightweight, the original structure is not overloaded, and there is no need to carry out measures to strengthen the foundation.
In addition to the main advantages, the share of installation and labor work is removed. There is no need to use welding equipment, lifting mechanisms, there is no need to completely or partially stop production. The main disadvantage is the high cost of the material itself, however, the material is durable, resistant to corrosion, deformation, and, as noted above, more reliable, stronger and more convenient to use, compared with the listed technologies.
As you can see, there are many methods and methods for designing reinforcement of building structures. The choice of solution depends on the result and on the tasks that you want to implement.
In the construction of non-residential facilities, metal structures are often used. Their application is based on the data in the section of design documentation called "Metal structures".
In general, the working documentation on structures can be divided into two groups. The first is directly the documentation on metal structures.
It is compiled on the basis of the technical project materials for the subsequent creation of detailed drawings. The second part is the detailing of metal structures. In this case, all structural elements are worked out separately. These drawings can serve as the basis for the manufacture of metal structures at enterprises (if necessary).
The structure of the project of metal structures includes plans and sections of the structure of the object, design solutions for elements, options for their interface, metal specifications. At this stage, the structures are linked with other parts of the project. The calculation of structures is drawn up in the format of a settlement and explanatory note.
Detailed designs of metal structures consist of drawings of individual elements of all metal structures, wiring diagrams.
When designing a section of metal structures, a number of basic requirements are taken into account. First of all, operating conditions - they determine the structural form of structures and the most suitable type of material.
The second requirement is metal saving. This is easily explained, since metal is an expensive building material. Therefore, it is most often used in cases where the use of other materials (for example, reinforced concrete) is not rational.
The next factor is manufacturability. Projects are drawn up taking into account the technological requirements for the installation of metal structures, with an emphasis on modern installation methods. This has the effect of reducing the complexity of the process.
In addition, when developing a project, the aesthetics of finished metal structures and the harmony of their forms are taken into account. This is especially important when building is carried out within the city, taking into account the requirements of the city authorities for the architectural forms of objects.
The project of the section "Metal structures" is carried out by specialized design organizations. When designing, three indicators are achieved, on which the cost of metal structures and their assembly depends. This is saving steel, increasing labor productivity, reducing labor intensity and installation time.
Section architectural and construction solutions "AS"
The "AS" section of architectural and construction solutions does not contain a design part, is not produced according to GOST - it combines the main building parts of the sections AR, KR and partially KZh, KM, KD with elements of KMD, etc. It is developed at the request of the customer and includes a sufficient amount of information for the production of construction and installation work as a simplified guide for construction, overhaul for a novice construction manager, foreman. The AC section can be completed with production technology, conditions and installation schemes. For a separate cost, you can order an assembly drawing
I have been working in the design industry for over 10 years.
In fact, there is nothing difficult in coordinating a working draft. All you need is time and desire. Once a design decision has been made, it is necessary to obtain a decision from the local authorities on the reconstruction or design of a building (supermarket, shop, pharmacy, etc.). After receiving this document, you must contact a licensed design organization to develop a working draft. The next stage is the order of technical conditions in city services (Vodokanal, Energy supply organization, City heating networks).
To order technical specifications, engineering loads (electricity, water, heat, etc.) are provided in the design organization. And with these loads, BTI passport (if there is an existing building and reconstruction is taking place), you must contact the appropriate authorities. After the specifications are received, they must be transferred to the work of design engineers.
They also develop an exterior finish passport and a master plan. As soon as one of the sections is ready, you need to take 2 copies of the relevant section, technical specifications, the original master plan and go to the authority to agree on the section, i.e. if the VK section (water supply and sewerage) then to Vodokanal, etc.
When all sections are agreed upon, namely: VK, HV (heating and ventilation), EMO (power supply and electric lighting), and the seals of these authorities are affixed to the original master plan, you can complete the working draft (GP, AS, TX, VK, OV, EMO) and an explanatory note to the Rospotrebnadzor and the same project to the City Department for Emergency Situations (to the city service - to the firemen). In these instances, it is necessary to obtain conclusions on the working draft. In parallel with the coordination of sections, it is possible to coordinate the passport of the exterior finish. The next stage after receiving the conclusions is the completion of the working draft for approval by the city engineer, in order to obtain a square stamp on the general plan.
We complete the full working draft (GP, AS, TX, VK, OV, EMO and PZ), as well as the conclusion of Rospotrebnadzor and GUMCHS. After receiving a square stamp on the master plan, we prepare a working draft in the State Architectural and Construction Supervision (State Architectural and Construction Supervision) to obtain a protocol for the approval of working documentation.
The main rule when agreeing is to follow the movement of the original sections, the master plan. At the approval stage, documents with blue seals are the most important documents. In general, this is the most common scheme, but each working project has its own nuances and additional approvals are possible. Good luck!!! Denis Korablev
Architectural design is one of our main directions. Architectural design is carried out in accordance with the requirements of the Initial Permit Documentation, GOSTs and construction SNIPs.
Design work is carried out in stages:
- Preparation of terms of reference (TOR)
- Architectural project (AR stage)
- Structural Solutions (KR stage)
- Design project
- Engineering projects
List of works included in the architectural design (AR stage):
- General explanatory note (GMO) to the project.
- General data on the project and the design object.
- Scheme of organization of a land plot with technical and economic indicators of development.
- Color scheme of facades (3D-visualization).
- Architectural facades of the object with elevation marks, axial dimensions and description of exterior finishing materials.
- Architectural floor plans of the object with the explication (composition) of the premises, their areas, and the internal dimensions of the premises.
- A list of filling window and door openings for the object.
- Sections of the object (longitudinal and transverse) with geometric dimensions, height marks, and a description of the external and internal structures of the object.
- Architectural plan of foundations with geometric dimensions and references to axes.
- The architectural plan of the roof indicating the directions of the slopes, elevations, angles of inclination and their geometric dimensions.
The composition of the design documentation at the stage of constructive solution (stage of CD):
- Mounting facades with height marks and geometric dimensions.
- Installation plan of the foundations. Mounting nodes. Reinforcement schemes (or layout of foundation blocks, if the foundation is prefabricated). Specification of basic materials for the installation of foundations.
- Mounting floor plans. Sheets of window and door openings. Installation instructions.
- Detailed sections of the object (longitudinal and transverse) with geometric dimensions, height marks, and a description of the external and internal structures of the object. Typical mounting points.
- Assembly diagrams of monolithic belts. Belt reinforcement schemes. Mounting nodes. Specification of basic materials for the installation of monolithic belts.
- Assembly diagrams of floors on foundations and on floors. Mounting nodes. Details. Installation instructions. Specification of basic materials for the installation of floors.
- List of jumpers. Specification of jumper elements. Installation instructions.
- Mounting diagram of the rafter frame. Mounting nodes. Details. Installation instructions. Specification of the basic materials for the installation of the sub-rafter frame. Installation instructions.
- Assembly diagram of the truss system. Installation instructions.
- Mounting cuts on the truss system. Mounting nodes. Specification of the basic materials for the installation of the truss system.
- Roof plan. Roof pitches. Technical and economic indicators.
- Mounting sections along the outer and inner walls of the object. Specification of basic materials for the installation of walls and partitions. Installation instructions.
- Assembly diagrams of ventilation risers and chimneys. Specification of basic materials for the installation of ventilation risers. Installation instructions.
- Explication of the floors. Specification of basic materials for floors.
- Development of designs of internal stairs and external porches. Mounting cuts, knots. Specification of basic materials for the installation of stairs and porches.
- Wall set (Lumber, blocking - for a wooden house. It is carried out in agreement with the Customer). Specification of basic materials for the installation of a log house.
- Mounting reamers of walls (for a frame house). Specification of basic materials for wall installation.
- List of finishing of premises (as agreed with the Customer).
- Sheet of openings filling (as agreed with the Customer).
Design cost
Competent planning is required not only for the premises in the house, but also for the adjacent area. Landscaping project of the site allows you to create a certain style, to achieve maximum functionality for the territory.
The term "constructive solutions" is commonly referred to as a section of design documentation containing a detailed study of load-bearing structures and those elements of the architectural concept that affect their load-bearing capacity. KR defines the purpose and specifics of structures, the type of materials used for construction, which are necessary to ensure the reliability, stability and durability of the building.
Structural solutions are an integral part of the project. According to the current regulations, this section is necessarily included in the documentation for a newly erected building and contains graphic and text parts:
- plan, sections and specification of materials for the foundation;
- floor drawings;
- rafter system plan;
- roof plan;
- schemes of frames and structural units;
- building cuts;
- facades with a description of finishing materials;
- constructive solutions for hydro, steam and thermal insulation;
- specifications for window and door openings, etc.
Types of design solutions
The design of the CD is carried out in separate parts, among which the development of such main components as:
- KM - metal structures;
- KZh - reinforced concrete structures;
- KD - wooden structures;
- KMD - detail drawings of metal structures, which are developed on the basis of KM.
Separately, it should be said about the design of RC elements made of reinforced concrete and metal, since they are included in any project.
Thus, the development of QOL is carried out for the construction of such important elements of the building as the foundation, floor slabs, flights of stairs, etc. Traditionally, this section consists of an explanatory note, general data, drawings and plans of the above structures. Since reinforced concrete elements are the most complex and expensive to implement, their design must be approached with special responsibility.
The structural design of the CM is of no less importance. This part of the project describes in detail the main metal elements, options for their pairing and specification. Links are also being made with other CRs. At the same time, it is very important to comply with the requirements for economy and manufacturability and to choose the best material option taking into account the expected operating conditions.
The role and importance of the project's CI
The quality of construction largely depends on what types of design solutions will be chosen and how competently they will be calculated, so it is simply impossible to overestimate the importance of this section.
The main task of constructive design is to fully determine the forthcoming scope of work, select the most optimal materials and solutions. Thus, the KR project serves as a kind of answer to the question of how to build in order for the building to be durable, safe and comfortable to use. In this case, the detailed study of each node and element is of decisive importance.
At the same time, the development of a constructive solution is carried out not only in the process of preparation for construction, but also at the stage of reconstruction of the building; carrying out redevelopments that affect load-bearing walls and columns; arrangement of openings and openings in the walls and ceilings of buildings; construction of additional floors, mezzanines, balconies, outbuildings, etc.
Criterias of choice
When determining certain design solutions, a number of separate and interrelated factors must be taken into account. First of all it is:
- engineering and hydrogeological conditions of the site;
- purpose of the construction object;
- technical and operational characteristics of the materials necessary to ensure the proper strength and spatial rigidity of the building under construction;
- climatic features of the construction region;
- construction budget;
- individual wishes of the customer, etc.
The basis for the selection and design of the RC are engineering calculations that are performed using special programs.
Legal Framework
The design of the CD is carried out in accordance with the requirements of federal legislation, state standards and a number of building codes and regulations (SNiPs). The main document in this series is Decree of the Government of the Russian Federation dated February 16, 2008 No. 87 "On the composition of sections of project documentation and requirements for their content." It contains a detailed description of the items that should include a constructive calculation, and separately for the text and graphic parts.
Our services and benefits
Int-Ext has rich experience in designing structural solutions. We can create for you a CD of any complexity in accordance with all your wishes and in a fairly short time.
Our work is based on:
- use of the most modern software;
- high qualification of design engineers;
- the ability to find the most optimal solutions in terms of price-quality ratio;
- design based not only on the basic requirements for the reliability and stability of the building, but also the desire to embody high ergonomics, versatility and comfort.
Contact us! We are always ready to implement new and interesting projects.
Our company offers you a service for the development of design documentation for the KR stage (Constructive and space-planning solutions). Our highly qualified designers at a highly professional level will develop for you project CD for examination (stage Project documentation). In the future, on the basis of the design documentation of the KR, we can develop for you the working documentation of the brands: AS (Architectural and construction solutions), QOL(Reinforced concrete structures), KM(Metal structures) and KMD(Metal detailing structures) on which the construction of the facility will take place.
Project documentation of the Kyrgyz Republic is developed and designed on the basis of Decree 87 of the Government of the Russian Federation dated February 16, 2008 "On the composition of sections of project documentation and requirements for their content" with amendments and additions for the current year. The composition of the design documentation of the KR can be seen below in the section "Composition of the documentation of the KR".
Initial data for RC design
Before starting the design and development of documentation for the KR, the Customer must provide the initial data:
- Related section of project documentation AR(Architectural solutions);
Related section of project documentation TX (Technological solutions);
Related section of project documentation ROM(Scheme of the planning organization of the land plot);
Engineering-geological surveys of the construction area.
In the absence of the required adjacent sections, we can also offer you services for their development.
Cost of project development
The cost of developing a CD project depends on a number of important criteria:
Architectural complexity of the future object;
area and number of storeys;
The presence of underground structures;
Structural materials from which construction is planned;
conditions of the construction area.
In any case, the cost estimate is made only after the Customer provides the initial data.
Deadlines for the development of the draft CD
The design time is entirely dependent on the same criteria as the cost. The terms are agreed before the start of the design, after receiving the initial data specified above from the Customer.
CR project development technologies
All projects are carried out in 2D using the Autocad program, calculations are performed manually and using software systems such as LIRA and SCAD.
Our advantages in the development of CD
The original and one of the main directions of our organization;
Extensive experience in the development of structural and space-planning solutions for various objects;
Positive experience of passing the state and non-state expertise of CI projects;
Availability of highly qualified design engineers;
Solving tasks in a timely manner.
Format for issuing the developed draft CI
PDF (whole project in one file or one drawing in one file);
DWG - Autocad (optional);
In the press.
The composition of the project of constructive and space-planning solutions "KR"
The composition of the project documentation for the project section of the KR is determined by Decree 87 of the Government of the Russian Federation.
In the text part, the draft CD consists of:
a) information about the topographic, engineering-geological, hydrogeological, meteorological and climatic conditions of the land plot provided for the location of the capital construction object;
b) information about the special natural climatic conditions of the territory on which the land plot provided for the placement of the capital construction object is located;
c) information about the strength and deformation characteristics of the soil at the base of the capital construction object;
d) the level of groundwater, their chemical composition, the aggressiveness of groundwater and soil in relation to the materials used in the construction of the underground part of the capital construction object;
e) description and justification of constructive solutions for buildings and structures, including their spatial schemes adopted in the course of calculations of building structures;
f) description and justification of technical solutions that provide the necessary strength, stability, spatial immutability of buildings and structures of the capital construction object as a whole, as well as their individual structural elements, assemblies, parts in the process of manufacturing, transportation, construction and operation of the capital construction object;
g) description of constructive and technical solutions of the underground part of the capital construction object;
h) description and justification of the adopted space-planning decisions for buildings and structures of the capital construction object;
i) substantiation of the nomenclature, layout and areas of the main production, experimental, assembly, repair and other shops, as well as laboratories, storage and administrative premises, other auxiliary and service premises - for production facilities;
j) substantiation of the nomenclature, layout and areas of premises for the main, auxiliary, service and technical purposes - for non-industrial facilities;
k) substantiation of design decisions and measures to ensure:
Compliance with the required heat-shielding characteristics of enclosing structures;
Noise and vibration reduction;
Waterproofing and vapor barrier of premises;
Reduction of gas contamination of premises;
Removal of excess heat;
Compliance with a safe level of electromagnetic and other radiation, compliance with sanitary and hygienic conditions;
fire safety;
l) characterization and justification of floor structures, roofing, suspended ceilings, partitions, as well as interior decoration;
m) a list of measures to protect building structures and foundations from destruction;
n) description of engineering solutions and structures that ensure the protection of the territory of the capital construction object, individual buildings and structures of the capital construction object, as well as personnel (residents) from hazardous natural and man-made processes.
In the graphical part, the CD project consists of:
o) floor plans of buildings and structures indicating the dimensions and explication of the premises;
p) drawings of characteristic sections of buildings and structures with the image of load-bearing and enclosing structures, indicating the relative elevations of the levels of structures, floors, the bottom of beams, trusses, coatings with a description of roof structures and other structural elements;
c) drawings of fragments of plans and sections requiring a detailed image;
r) diagrams of frames and units of building structures;
s) floor plans, coatings, roofing;
t) layout of enclosing structures and partitions;
x) plan and sections of foundations.
What needs to be done to order the development of the project of Structural and space-planning solutions "KR"
An example of a developed project « KR » :