RU2114961C1 - Building and method of its erection - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this relates to erection of multistory dwelling buildings. Building is made up of blocks with different number of stories. Some blocks are made with displacement of flooring disks through part of storey height with creation of apartments at several levels and these blocks are located alternately with other blocks in which flooring disks are located at one level and in which located are staircase-elevator units. Building blocks have through-passing corridors located through storey and connecting staircase-elevator units of blocks and apartments of each block. Lateral walls and flooring disks of some blocks are made of cast-in-place reinforced concrete. Longitudinal axis of building is of broken contour in plan. Angle of breakage of axis is within

. Building is provided with pylons and pillars. One of blocks is created of two half-sections located at angle of β to vertical lateral plane passing through point of breakage of longitudinal axis of building. Angle is determined from relation β = 180^°-α.. Strip foundations are provided at top with reinforced concrete levelling band. Cast-in-place flooring slabs are made with ribs, and distance between axes of ribs exceeds thickness of flooring slab by 9-15 times. EFFECT: higher efficiency. 41 cl, 20 dwg

Description

 The invention relates to the field of construction and can be used in the construction of multi-storey residential buildings with improved environmental parameters.

 The closest in technical essence and the achieved result in terms of the device is the known solution, in which the building contains foundations, external brick walls, bearing internal transverse walls, floor disks, at least some of which are formed from prefabricated floor slabs, anchored in the walls, a basement, attic, roof, balcony slabs, staircase elevators, doors, windows, sanitary equipment and engineering communications.

 The closest technical solution in terms of the method is the known method of building a building, including the installation of foundations, wall construction, laying of ceilings, filling window and doorways, installation of staircase elevators, engineering communications and sanitary equipment, installation of coating structures and device roofing.

 The disadvantage of this solution is the relatively low performance, including the ecological level of structural and architectural security of the living environment, as well as insufficient spatial rigidity of the building skeleton with increased consumption of materials for the main supporting and enclosing structures due to the irrationally high use of prefabricated floor structures that do not provide the necessary rigidity of communication and joint spatial work with walls, as well as the lack of technology the possibility of ensuring the necessary level of their joint work in a single structural system of the building.

 The problem solved by the invention is to improve the performance of the building and environmental comfort while increasing the spatial rigidity of the frame without increasing the consumption of materials on structures that form the bearing and stiffness of the spatial system of the building.

, при этом здание снабжено пилонами, имеющими высоту на несколько этажей и расположенными у продольных наружных стен части блоков, и столбами, установленными с двух сторон одного из блоков с одноуровневыми дисками перекрытий, а по крайней мере часть блоков, по крайней мере на части длины их наружных стен, снабжена лоджиями, перекрытия которых расположены по крайней мере через один или два этажа, при этом другая часть дисков перекрытий выполнена из монолитного железобетона и жестко соединена с монолитными поперечными стенами.The problem is solved due to the fact that the building, including foundations, external brick walls, bearing internal transverse walls, floor slabs, at least part of which is formed from prefabricated floor slabs, anchored in the walls, basement, attic, roof, balcony slabs, staircase elevator assemblies, doors, windows, ventilation ducts and shafts, sanitary facilities and engineering equipment, formed from blocks of different heights, one part of which is made with a longitudinal wall of reinforced concrete and offset m of floor disks between the longitudinal walls to a part of the floor height with the formation of apartments located at least in two levels, and the other part is made with single-level floor disks on each floor and is located in turn with blocks with displaced floor disks and overlapping of their floor disks with part of the areas overlapping disks of adjacent blocks, and the other part of the areas of the disks of the latter fastens transverse walls between single-level disks of overlapping adjacent blocks, and the transverse walls are made of monol of reinforced concrete and are located in part of the blocks with a step equal to half the distance between the axes of their longitudinal outer walls, while some of the blocks are made with apartment staircases, and all blocks are with through corridors located at least across the floor and uniting each apartment blocks and staircase-elevator nodes placed in blocks with single-level floor disks, and the longitudinal axis of the building has a broken outline with the combination of each of its straight sections, at least part the longitudinal axis of at least one block, and the smaller angle of each fracture of the longitudinal axis of the building is within

while the building is equipped with pylons having a height of several floors and located near the longitudinal outer walls of the part of the blocks, and poles installed on both sides of one of the blocks with single-level floor disks, and at least part of the blocks, at least part of their length external walls, equipped with loggias, the floors of which are located at least through one or two floors, while the other part of the floor disks is made of monolithic reinforced concrete and is rigidly connected to monolithic transverse walls.

In addition, the displacement of the floor disks can be performed halfway; in blocks with displaced floor disks, at least part of the apartments is made with one-story and two-story parts located on opposite sides of the inner longitudinal wall of the blocks; at least part of the blocks can be made of different floors, at least one block can be made of nine floors; at least one block can be made four-story; at least two blocks can be made six-story; at least two blocks can be made seven-story; at least two blocks can be made eight-story; blocks with offset floor disks can be made with an even number of floors; at least two adjacent blocks can be made with the same height and number of floors, respectively; blocks can be installed with the location of their number of storeys according to the scheme 4-6-6-7-8-9-8-7; one of the blocks can have a width exceeding the width of the remaining blocks, and a longitudinal axis with one kink at an angle α in plan and made of two half-sections connected by a staircase-elevator assembly and located on different sides from the kink of the longitudinal axis; at least the supporting structures of the half-sections of the block and the staircase-elevator node can be located symmetrically with respect to the vertical transverse plane passing through the break point of the longitudinal axis of the block; two opposite walls of the staircase-elevator node can be combined with the transverse walls of the half-sections and located at an angle β to each other, determined from the ratio β = 180 ^° -α, where α is the angle of fracture of the longitudinal axis of the block; at least one wall of the staircase and elevator unit is broken in plan;
the angle of fracture of the longitudinal axis in the plan can be 165 ^o , and the angle between the walls of the staircase and elevator node - 15 ^o , the block with the fracture of the longitudinal axis can be made nine-story, and the blocks located on both sides of it have a number of floors decreasing towards the ends building; a block with a kink in the longitudinal axis at an angle α may have fewer floors than adjacent blocks; a block with a fracture of the longitudinal axis at an angle α can be made with a flat roof; a flat roof can be made exploitable; at least one unit may be provided with a solarium located on the roof; at least one block may be equipped with a greenhouse and / or conservatory; the roof of part of the building blocks can be made with a multi-pitch roof, with the main ridge aligned with the longitudinal axis of the blocks, and the skates of the other roof slopes located below the main ridge, cut into the slopes of the latter and located at an angle to it, at least part of the blocks having at least part of the premises located on the ground floor can be equipped with autonomous entrance nodes; at least part of the blocks can be made with agricultural storage facilities having autonomous input nodes, at least one block with a flat roof can be made with an internal drain; at least part of the foundations can be made of tape from precast concrete elements; strip foundations can be installed on a layer of rubble, rammed into the soil and impregnated with bitumen; strip foundations can be equipped with a reinforced concrete leveling layer; at least part of the foundations can be made pile or columnar.

 Monolithic longitudinal walls of blocks with offset floor disks can be unfastened in height with an interval less than the height of the floor; monolithic floor disks can be made ribbed with heat-insulating elements; heat-insulating elements can be made in the form of rigid or semi-rigid blocks and attached to the shelves of plates from the bottom of the latter; the edges of the plates can be made with extended or intermittent protrusions in their lower part; heat-insulating elements can be supported on two sides on the ledges of the ribs; heat-insulating elements can be monolithic with the upper plane to the lower surface of the plate shelf; the width of the plate shelf can be 1/3 - 1/4 of the height of the part of the ribs protruding beyond the bottom surface of the shelf, and the distance between the axes of the ribs is 9-15 times greater than the thickness of the plate shelf; monolithic floor disks can be equipped with a suspended ceiling; at least marches of apartment staircases can be made compound with braces, the bearing part of which is formed of reinforced concrete slabs, and bowstrings, steps and risers - of wooden boards or bars; at least part of the loggias, at least at part of their height or at part of the height of the blockage, can be equipped with paired inserts placed between the pylons and the outer wall with the formation of cavities between them.

 The problem is also solved due to the fact that with the method of erecting a building, including the installation of foundations, erecting walls, laying ceilings, filling window and door openings, installing staircase elevators, engineering communications and sanitary equipment, installing cover structures and device roofs, the building is erected in the form of blocks of various heights and floors, one part of which is performed with monolithic reinforced concrete longitudinal and transverse walls and sections of ceilings, and the deck for the latter in the part of blocks located through one, is installed on both sides of the longitudinal inner wall with its displacement to part of the floor height and with the formation of apartments in two or three levels, and other sections of the floors are prefabricated and mounted at the same level for each floor, while the formwork of part of the monolithic sections is set at a mark that ensures the combination of the upper marks of prefabricated and monolithic sections of floors in adjacent blocks on a part of their area, and the formwork of monolithic transverse walls is set t with a step equal to half the distance between the axes of the longitudinal external walls of the respective building blocks, and the monolithic walls and adjacent sections of the floors in height are made with openings in which slabs are slanted — the slanting of the stairwells, while laying the ceilings at least through the floor the sections forming the overlapping of the loggias protruding beyond the outer edge of the outer wall, and at the same time or after erecting at least floor grabs of the outer walls, pylons and / or columns of monolithic reinforced concrete or brickwork and leaning on them protruding sections of the loggias.

 The developed technical solution meets the criteria of the invention of "novelty", "inventive step" and "industrial applicability", since no identical or equivalent technical solutions according to research of patent sources and industry scientific and technical literature were found, and the proposed combination of significant distinguishing features allows us to provide a new level economic comfort while achieving increased spatial rigidity of the structural system of the building without lichenie consumption of materials to the main bearing and protecting structures, achieved constructive and technological means.

 The drawings schematically depict: in FIG. 1 - configuration of the building in plan; in FIG. 2 - building facade; in FIG. 3 - a plan of a typical floor of blocks 1, 2, 3, 4, 5 of a building; in FIG. 4 - the same plan of the floor adjacent to the height, in FIG. 5 is a plan of a typical floor of block 6; in FIG. 6 is a plan of a typical floor of blocks 7, 8; in FIG. 7 - the same plan of the floor adjacent to it; in FIG. 8 is a cross section AA in FIG. 3; in FIG. 9 is a transverse section bB in FIG. 3; in FIG. 10 - a fragment of the facade of blocks 4, 5; in FIG. 11 is a fragment of the facade of block 6; in FIG. 12 - a fragment of the plan of the first floor with storage and autonomous entrance to the last and to the apartment; in FIG. 13 - a fragment of the foundation; in FIG. 14 - intra-apartment staircase, section; in FIG. 15 is a fragment of a monolithic disk overlap; in FIG. 16 - a fragment of a prefabricated disk overlap; in FIG. 17 - a fragment of the roof plan; in FIG. 18 is a section BB in FIG. 3; in FIG. 19 is a section GG in FIG. 3; in FIG. 20 is a detail of the fastening of brick walls to the ends, monolithic reinforced concrete walls.

 The building is made up of several blocks 1 - 8, installed close to each other. The outer longitudinal 9 and transverse 10 walls of all blocks 1 are made of masonry, and the internal longitudinal 11 and transverse 12 walls of blocks 1 - 5, 7 and 8 are made of reinforced concrete. Transverse internal walls 13 of block 6 are made of brickwork. Pylons 14 are installed on the outer side of the outer walls 9, 10 of blocks 1 - 5 and 7, and poles 15 are installed on the outer walls of block 9 6. Pylons 14 and pillars 15 are made of reinforced concrete.

 Blocks 1, 3, 5, 7 have monolithic disks of overlappings 16, mixed at half the height of the floor. Moreover, the apartments of these blocks 1, 3, 5, 7 are located in two and three levels.

 Blocks 2, 4, 6, 8 have floor disks 17 located at the same level at each stage. In blocks 2, 4, 8, floors 17 are made monolithic, and in block 6 - from prefabricated reinforced concrete floor slabs 18 - 21.

 Single-level disk overlap 17 blocks 2, 4, 6, 8 have the same mark as part of the monolithic disk overlap 16, offset by the height of the floor. Overlapping 17 of prefabricated slabs 18 - 21 and monolithic floors 16 are rigidly connected to brick 9, 10 and monolithic 11, 12 walls. Monolithic walls 11, 12 and monolithic floors 16, 17 form the core of the building.

 In blocks 1, 3, 5, 7 with offset disks of floor slabs 16 on the ground floor, storages 22 are formed for agricultural products that can be used by residents of apartments on all floors of these blocks 1, 3, 5, 7. Apartments of blocks 1, 3, 5, 7, having part of the premises on the ground floor, and storage 22 are made with autonomous input nodes 24, 25.

 Blocks 1–8 have through corridors 26–33, which are located across the floor and connect all blocks 1–8 to each other and all apartments of each block to each other. In blocks 1, 3, 5, 7, intra-apartment staircases 34 are made, and in blocks 2, 4, 6, 8 - stair-elevator nodes 25, 36. Residents can move throughout the building from one block to another along corridors 26 - 33 , use ladders and elevators of units 34, 35, 36 of any block 1 - 8 for lifting and lowering from one floor to another.

 In the intra-apartment staircase nodes 34, the stairs are made with slanting 37 in the form of reinforced concrete slabs, and the bowstrings 38, steps 39 and risers 40 are made of wooden boards and bars.

 Monolithic floor disks 16, 17 are made with ribs 41, which have protrusions 42 for supporting heat-insulating rigid or semi-rigid plates 43. The thickness of the shelf 44 of the floor disk 16, 17 is 1/3 - 1/4 of the height of the part of the rib 41, which extends beyond the lower surface of the shelf 44, and the distance between the axes of the ribs 41 exceeds the thickness of the flange 44 in 9 - 15 times.

 Heat-insulating plates 43 are attached to the shelves 44 or can be monolithic for them when monolithic floors 16, 17 are installed. Prefabricated and monolithic 16, 17 floor disks are connected to walls 9 - 12, and monolithic walls 11, 12 with brick 9, 10 by means of anchors 45 .

 Monolithic disks of overlapping 16 blocks 1, 3, 5, 7, located along the height of the building between the disks of overlapping 17 blocks 2, 4, 6, 8, unpin them, thereby increasing the rigidity of the building.

 Monolithic ceilings 16, 17 are equipped with suspended ceilings (conditionally not shown in the drawings).

 The step of the transverse walls 12 of the blocks 1 - 5.7 and 8 is equal to half the distance between their outer walls 9.

.The longitudinal axis of the building and it has a broken outline in plan. The rectilinear sections of the longitudinal axis coincide with the longitudinal axes of the sides 1, 3, 5, 7, 8 and with the parts of the longitudinal axes of blocks 2, 4, 6. The parts of the longitudinal axes of blocks 2, 4 are located at an angle of 90 ^o , and block 6 at an angle of 165 ^o , i.e. kink angles α of the longitudinal axis of the building are within

.

Block 6 is formed of two half sections 46, interconnected by a staircase and elevator assembly 36 and located symmetrically on different sides from a vertical transverse plane passing through a point of break 47 of its longitudinal axis. Two transverse walls 13 of block 6 are combined with walls 48 of the staircase and elevator assembly 36 and are located at an angle of 15 ^o relative to one another. The inner wall 49 of the staircase and elevator assembly 36 has a broken outline in plan.

 Block 6 has a greater width than the remaining blocks 1 - 5, 7 and 8 and stands for one of the outer walls 9 of the latter. The protruding part 50 of block 6 is supported on posts 15.

 Blocks 1 - 5 and 7 have balconies 51 and loggias 52, last floor slabs 53 of which are supported by pylons 14. Loggias 52 are two floors high and are divided by inserts 54, which are partly installed between the pylons 14 and the outer walls 9 with the formation of cavities (conventionally not shown). The latter can be used for laying engineering communications.

 The number of storeys of blocks 1 - 8 is different and they are installed with the location of their number of storeys according to the scheme, respectively 4-6-6-7-8-9-8-7, where numbers mean the number of floors in the blocks.

 Block 6 is made with a flat exploited roof 55, on which a greenhouse or winter lard can be located or it can be used as a solarium (not shown conditionally in the drawings).

 Blocks 1 - 5, 7 and 8 have multi-pitch roofs 56, 57. The main ridge 58, 59 of them is aligned in plan with the longitudinal axis of blocks 1 - 5, 7 and 8, and the skates 60, 61 of the remaining slopes of the roof 56, 57 are located below the main ridge, embedded in the slopes of the latter and are located at an angle to it. The coating 55 of block 6 is made with an internal drain, and the remaining blocks 1 - 5, 7 and 8 have an external drain.

 Foundations 62 of the building are made of prefabricated reinforced concrete elements. Strip foundations 62 are placed on a layer of rubble, rammed into the soil 63 and impregnated with bitumen. A reinforced concrete leveling belt 64 is arranged on top of the strip foundations.

 The construction of the building begins with the installation of foundations, then brick 9, 10 and monolithic walls 11, 12 of blocks 1 - 8 and monolithic floors are erected 16. The formwork for the latter in blocks 1, 3, 5, 7 is installed on both sides of the inner longitudinal wall 11 with displacement by half the height of the floor and with the formation of apartments in two and three levels. Prefabricated floors 17 are mounted in one level on each floor. The formwork of the part of the monolithic floors 16 is installed at the marks ensuring the combination of the upper marks of the prefabricated floors 17 and the monolithic sections of the floors 16 in adjacent blocks, on part of their area.

 The formwork of the monolithic walls 11, 12 is installed with a step equal to half the distance between the outer walls 9 of the blocks 1 - 5, 7 and 8. The monolithic walls 11, 12 and floors 16 are made with openings 65, in which slabs - slanting 37 of the intra-apartment staircases are placed obliquely 34.

 When installing the ceilings 16, 17, protruding sections across the floor beyond the outer edge of the outer walls 9 are made in blocks 1 - 5 and 7, forming the floors 53 of the loggias 52. At the same time or after the construction of the floor grabs of the outer walls 9, the pylons 14 and columns 15 are made of reinforced concrete and leaning on them protruding sections of the floors of 53 loggias 52.

 The building is made with a basement 66 and an attic room 67, which can be used for various purposes. The upper floors of the blocks have a greater height than the rest, and therefore the premises located in them can be used as workshops, for example, for artists.

Claims (42)

1. A building, including foundations, external brick walls, bearing internal transverse walls, floor disks, at least some of which are formed from prefabricated floor slabs anchored in the walls, a basement, an attic, a roof, balcony slabs, staircase elevators, doors, windows, ventilation ducts and shafts, sanitary facilities and engineering equipment, characterized in that the building is made up of blocks of different heights, one part of which is made with a longitudinal wall of reinforced concrete and with displacement of the overlapping disks between the longitudinal walls to a part of the floor height with the formation of apartments located at least at two levels, and the other part is made with single-level floor disks on each floor and is located alternately with blocks with displaced floor disks and with the combination of their floor disks with part of the area of the floor disks adjacent blocks, with the other part of the floor area of the latter fixing the transverse walls between single-level disks of the ceilings of adjacent blocks, and the transverse walls are made of monolithic iron eton and are located in part of the blocks with a step equal to half the distance between the axes of their longitudinal outer walls, while some of the blocks are made with apartment staircases, and all blocks are with through corridors located at least across the floor and uniting the apartments of each block and staircase-elevator nodes placed in blocks with single-level floor disks, and the longitudinal axis of the building has a broken outline with the combination of each of its straight sections with at least part of the longitudinal B at least one block, and the smaller bend angle of each longitudinal axis of the building is within

while the building is equipped with pylons having a height of several floors and located near the longitudinal outer walls of part of the blocks, and poles installed on both sides of one of the blocks with single-level floor disks, and at least part of the blocks at least part of the length of their outer walls equipped with loggias, the ceilings of which are located at least through one and / or two floors, while the other part of the floor disks is made of monolithic reinforced concrete and is rigidly connected to monolithic transverse walls.  2. The building according to claim 1, characterized in that the displacement of the floor disks is made half the floor.  3. The building according to claims 1 and 2, characterized in that in blocks with offset floor disks, at least part of the apartments is made with one-story and two-story parts located on opposite sides of the inner longitudinal wall of the blocks.  4. The building in paragraphs. 1 to 3, characterized in that at least part of the blocks are made of different floors.  5. The building according to claims 1 to 4, characterized in that at least one block is made nine-story.  6. The building according to claims 1 to 5, characterized in that at least one block is made four-story.  7. The building according to claims 1 to 6, characterized in that at least two blocks are made six-story.  8. The building according to claims 1 to 7, characterized in that at least two blocks are made seven-story.  9. The building according to claims 1 to 8, characterized in that at least two blocks are made of eight-story.  10. The building according to claims 1 to 9, characterized in that the blocks with offset floor disks are made with an even number of floors.  11. The building according to claims 1 to 10, characterized in that at least two adjacent blocks are made with the same height and number of floors, respectively.  12. The building according to claims 1 to 11, characterized in that the blocks are installed with the location of their number of storeys according to the scheme 4-6-6-7-8-9-8-7.  13. The building according to claims 1 to 12, characterized in that one of the blocks has a width exceeding the width of the remaining blocks, and a longitudinal axis with one kink at an angle α in plan and made of two half-sections united by a staircase-elevator unit and located along different sides of the fracture of the longitudinal axis.  14. The building according to claim 13, characterized in that at least the supporting structures of the half-sections of the block and the staircase and elevator node are located symmetrically relative to the vertical transverse plane passing through the break point of the longitudinal axis of the block. 15. The building according to claims 13 and 14, characterized in that the two opposite walls of the staircase-elevator node are aligned with the transverse walls of the half-sections and are located at an angle β to each other, determined from the ratio β = 180 ^° -α, where α is the angle of fracture of the longitudinal block axis.  16. The building according to paragraphs 13 - 15, characterized in that at least one wall of the staircase and elevator node is made broken in plan. 17. The building according to item 13 - 16, characterized in that the angle of fracture α of the longitudinal axis in the plan is 165 ^o , and the angle β between the walls of the staircase and elevator node is 15 ^o .  18. The building according to paragraphs 13 - 17, characterized in that the block with a fracture of the longitudinal axis at an angle α is made nine-story, and the blocks located on both sides of it have a number of floors decreasing towards the ends of the building.  19. The building according to paragraphs 13 - 17, characterized in that the block with a fracture of the longitudinal axis at an angle α has a smaller number of floors than adjacent blocks.  20. The building according to PP.13 - 19, characterized in that the block with a fracture of the axis at an angle α is made with a flat roof.  21. The building according to p. 20, characterized in that the flat roof is made exploitable.  22. The building according to claims 1 to 21, characterized in that at least one block is equipped with a solarium located on the roof.  23. The building according to claims 1 to 22, characterized in that at least one block is equipped with a greenhouse and / or conservatory.  24. The building according to claims 1 to 23, characterized in that the roof of a part of the building blocks is made with a multi-pitch roof, the main ridge being aligned in plan with the longitudinal axis of the blocks, and the skates of the other roof slopes are located below the main ridge, cut into the slopes of the latter and located at an angle to him.  25. The building according to claims 1 to 24, characterized in that the apartments at least part of the blocks having at least part of the premises located on the ground floor are equipped with autonomous entrance nodes.  26. The building on PP. 1 to 25, characterized in that at least part of the blocks is made with storages for agricultural products having autonomous input nodes.  27. The building according to claims 1 to 26, characterized in that at least one block with a flat roof is made with an internal drain.  28. The building according to paragraphs 1 - 27, characterized in that at least part of the foundations made of tape from precast reinforced concrete elements.  29. The building according to p. 28, characterized in that the strip foundations are installed on a layer of rubble, rammed into the ground and impregnated with bitumen.  30. The building on PP. 27 and 28, characterized in that the strip foundations are provided with a reinforced concrete leveling belt on top.  31. The building according to claims 1 to 27, characterized in that at least part of the foundations is made pile or columnar.  32. The building according to paragraphs. 1 - 31, characterized in that the monolithic longitudinal walls of the blocks with offset disks of the floors are unfastened in height at intervals less than the height of the floor.  33. The building according to claims 1 to 32, characterized in that the monolithic disks of the floors are ribbed with heat-insulating elements.  34. The building according to p. 33, characterized in that the insulating elements are made in the form of rigid or semi-rigid blocks and are attached to the shelves of plates from the bottom of the latter.  35. The building according to paragraphs 33 and 34, characterized in that the ribs of the plates are made with extended or intermittent protrusions in their lower part.  36. The building according to paragraphs 33 to 35, characterized in that the insulating elements are supported on two sides on the ledges of the ribs.  37. The building according to paragraphs 33 to 36, characterized in that the insulating elements are monolithic in the upper plane to the lower surface of the shelf of the plate.  38. The building on PP. 33 - 37, characterized in that the thickness of the shelf of the plate is 1/3 - 1/4 of the height of the part of the ribs protruding beyond the bottom surface of the shelf, and the distance between the axes of the ribs exceeds the thickness of the shelf of the plate by 9 - 15 times.  39. The building according to paragraphs. 33 - 38, characterized in that the monolithic disks of the floors are equipped with a false ceiling.  40. The building according to paragraphs 1 - 39, characterized in that at least the marches of the apartment stairwells are made integral with braces, the bearing part of which is formed of reinforced concrete slabs, and the bowstrings, steps and risers are made of wooden boards or bars.  41. The building according to paragraphs 1 to 40, characterized in that the fence at least part of the loggias at least part of their height or part of the height of the building block is equipped with paired inserts placed between the pylons and the outer wall with the formation of cavities between them.  42. The method of building construction, including the installation of foundations, wall construction, laying of ceilings, filling window and doorways, installation of staircase elevators, engineering communications and sanitary equipment, installation of coating structures and roofing, characterized in that the building erected in the form of blocks of various heights and storeys, one part of which is performed with monolithic reinforced concrete longitudinal and transverse walls and sections of ceilings, and the formwork for the latter in part of the block located through one, they are installed on both sides of the inner longitudinal wall with its displacement to a part of the floor height and with the formation of apartments in two or three levels, and the other sections of the floors are prefabricated and mounted at the same level for each floor, while the formwork of some of the monolithic sections set at marks that ensure the combination of the upper marks of prefabricated and monolithic sections of floors in adjacent blocks on part of their area, and the formwork of monolithic transverse walls is set in increments equal to half the distance between the axes of the longitudinal outer walls of the respective building blocks, the monolithic walls and adjacent sections of the floors in height are made with openings in which slanting slabs of the apartment staircases are installed obliquely, while when laying the ceilings at least across the floor, protruding beyond the outer face of the outer the walls are the sections forming the floors of the loggias, and at the same time or after the construction of at least floor grabs of the outer walls, pylons and / or pillars are made of reinforced concrete or rpichnoy masonry and build on the protruding portions overlapping loggias.

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