RU2109116C1 - Ecological construction complex and its building - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this relates to erection of ecological construction complex with dwelling buildings. Two dwelling buildings of complex are made of blocks of different height arranged over their length. One of bends of longitudinal axis of each building is located on lateral axis of block of dominating height. Lateral axes of these blocks of both buildings are coinciding. Longitudinal axes of blocks of equal height located at both sides of blocks with dominating height in both buildings are parallel. Monolithic lateral walls and longitudinal inner wall of part of blocks of buildings create together rigidity cores. In part of blocks, floor disks are displaced through part of storey height with creation of apartments in two and three levels. Dual-level apartments in first storey are provided with individual entrance. All blocks of buildings are connected by corridors with stairs and elevator units. Buildings are provided with reflectors of sun energy arranged on external sides of outer walls facing each other in two buildings. Sun energy reflectors are made adjustable and relate to diffusing, diffusing-directed or directed type. Sun energy collectors are combined with structures of roof, walls and/or loggia guarding. Used are sun energy collectors of passive or active type. EFFECT: higher efficiency. 59 cl, 17 dwg

Description

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

 The closest technical solution in terms of the complex is the construction and economic complex, which includes foundations, at least two buildings of blocks of different heights, containing external and internal longitudinal and transverse walls, floor disks, roof, staircase elevators, doors, windows and systems engineering equipment [1].

 A significant drawback of this solution is the relatively low environmental quality of the complex due to the limited possibility of using solar energy by the buildings of the complex during daylight hours, including when the exposure to direct reflectors of one building to another is switched off by the direct sunlight, and suboptimal work of buildings in the field of wind energy in cold weather of the year.

 The closest technical solution in the part of the complex building is the 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, basement, attic, roof, balconies, stairs -lift assemblies, doors, windows, ventilation ducts and shafts, sanitary facilities and engineering equipment [2].

 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 stiffness communication and joint spatial work with walls, as well as the lack of technology eskoy possible to ensure the necessary level of collaboration in a unified design concept of the building.

 The problem solved by the invention is to improve the operational and environmental qualities of the complex by improving the use of environmentally friendly types of natural energy, improving the storage conditions of agricultural products for residents of buildings, improving the ergonomics of the environment and increasing the reliability of the buildings of the complex as a whole on dynamic - mechanical and electromagnetic effects .

, при этом по крайней мере часть блоков выполнена с внутренней продольной стеной из монолитного железобетона и со смещением дисков перекрытий между продольными стенами на части высоты этажа с образованием квартир, расположенных по крайней мере в двух уровнях, а другая часть выполнена с одноуровневыми дисками перекрытий на каждом этаже и расположена поочередно с блоками со смещенными дисками перекрытий и с совмещением их дисков перекрытий с частью площади дисков перекрытий смежных блоков, причем другой частью площади перекрытий последних раскреплены поперечные стены между одноуровневыми дисками перекрытий смежных блоков, а поперечные стены выполнены из монолитного железобетона и расположены в части блоков с шагом, равным половине расстояния между осями их продольных наружных стен, при этом часть блоков выполнена с внутриквартирными лестничными узлами, а все блоки - со сквозными коридорами, расположенными по крайней мере через этаж и объединяющими между собой квартиры каждого блока и лестнично-лифтовые узлы, размещенные в блоках с одноуровневыми дисками перекрытий, 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 и/или два этажа, при этом другая часть дисков перекрытий выполнена из монолитного железобетона и жестко соединена с монолитными поперечными стенами.The task in part of the complex is solved by the fact that in the building and ecological complex, uneven blocks of at least one building are placed along the length of the last, and the longitudinal axis of each building is made with at least one kink and with the location of the kink on the transverse axis of the block of the dominant height of each from the buildings of the complex, and the transverse axes of these blocks coincide or are displaced relative to each other by no more than the width of these blocks, and the longitudinal axes of at least two adjacent equal-level blocks cm floor buildings are parallel or located at an angle α within

at the same time, at least part of the blocks is made with an internal longitudinal wall of reinforced concrete and with displacement of floor disks between longitudinal walls at 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 disks of the overlapping adjacent blocks, with another part of the area of the last their transverse walls are fastened between single-level disks of overlapping adjacent blocks, and the transverse walls are made of monolithic 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 intra-apartment staircases, and all the blocks with through corridors located at least across the floor and combining the apartments of each block and the staircase and elevator nodes located in blocks with single-level floor disks, At the same time, the building is equipped with pylons having a height of several floors and located near the longitudinal external 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 external 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.

 In addition, at least facing the surface of the outer walls of adjacent buildings can be equipped with reflectors of solar energy of a diffuse and / or diffusive directional and / or directional type, at least part of the reflectors can be made unregulated and combined with the outer surface of the walls , pylons and / or loggias fences; displacement of floor disks can be performed halfway; in blocks with displaced floor disks, at least part of the apartments can be made with one-story and two-story parts located on different sides of the internal longitudinal axis of the blocks; at least part of the blocks can be made of different floors; one of the blocks is nine-story or four-story; two blocks - six-story, or seven-story, or eight-story; blocks with offset floor disks can be made with an even number of floors; at least two blocks adjacent to the length of the buildings 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 4-6-6-7-8-9-8-7-6 or 4-6-6-7-8-9-8-7; at least part of the reflectors can be made adjustable; at least part of the outer surface of the part of the facing walls, pylons and / or loggias fences can be made with a fracture like a Fresnel lens; part of the building blocks can be equipped with solar energy collectors, which can be combined with the structures of the roof, and / or walls, and / or loggias fences; at least a portion of the solar energy collectors may be of a passive or active type.

, 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 и/или два этажа, при этом другая часть дисков перекрытий выполнена из монолитного железобетона и жестко соединена с монолитными поперечными стенами.The stated task in the part of the building of the complex is achieved by the fact that the building is made up of blocks of different heights, and the block of dominant height is made with a width exceeding the width of the remaining blocks of the building, has a longitudinal axis with a kink at an angle β in plan and made up of two half sections, connected by a stair an elevator assembly located on opposite sides of the fracture of the longitudinal axis and forming a T-shaped planar core of the building; moreover, part of the blocks adjacent to the block of dominant height is made with an internal longitudinal wall of reinforced concrete and with displacement of the floor disks between the longitudinal walls by a part of the floor height with the formation of apartments located at least in two levels, and the other part of the blocks 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 of adjacent blocks, and the other part The transverse walls between single-level floor disks of adjacent blocks are unfastened over the area of the floor disks of the latter, and the transverse walls are made of monolithic reinforced concrete and are located in part of the blocks with a step equal to half the distance between the axes of their longitudinal external walls, while some of the blocks are made with intra-apartment staircases, and all blocks with through corridors located at least across the floor and combining the apartments of each block and the staircase and elevator nodes located in blocks with dnourovnevymi overlapping discs, with a longitudinal axis of the building has a polyline outline-registration of each of its straight sections, at least a portion of the longitudinal axis of at least one block, and the smaller the angle of each bend 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 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.

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-story or four-story; at least two blocks can be made seven-story, or six-story, or eight-story; blocks with offset floor disks can be made with an even number of floors; at least two 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 or 4-6-6-7- 8-9-8-7-6; 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 are located at an angle γ to each other, determined from the ratio γ = 180 ^° -β, where β is the angle of fracture of the longitudinal axis of the block; at least one wall of the staircase-elevator unit can be made broken in plan; the angle of fracture β of the longitudinal axis in the plan can be 165 ^o , and the angle γ between the walls of the staircase and elevator node is 15 ^o ; a block with a dominant height can be made nine-story, and blocks located on both sides of it have a number of floors decreasing to the ends of the building; a block of dominant height can be made with a flat roof, which can be operated; at least one unit may be provided with a solarium located on the roof; at least one block may be equipped with a conservatory or conservatory; the roof of part of the building blocks can be made with a multi-pitch roof, the main skate can be combined in the plate with the longitudinal axis of the blocks, and the skates of the remaining blocks are located below the main skate, cut into the slopes of the latter and are located at an angle to it; apartments of 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 storages for agricultural products having autonomous input nodes; at least a 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, or provided with a reinforced concrete leveling layer on top; 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 at intervals less than the height of the floor; monolithic floor disks can be made ribbed with heat-insulating elements in the form of rigid or semi-rigid blocks attached to the shelves of plates on the underside 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 and monolithic by the upper plane to the lower surface of the shelf of the plate; the thickness of the plate shelf can leave 1/3 - 1/4 of the height of the part of the ribs; heat-insulating elements can be monolithic with the upper plane to the lower surface of the plate shelf; the thickness of the plate shelf can be 1/3 - 1/4 of the height of the part of the ribs protruding beyond the lower surface of the shelf, and the distance between the axes of the ribs can exceed the thickness of the plate shelf by 9 - 15 times; monolithic disks of ceilings can be equipped with a suspended ceiling, at least a march of apartment staircases can be made integral with braids, the bearing part of which is formed of reinforced concrete slabs, and the bowstrings of a step and riser are made of wooden boards and bars; the fence at least part of the loggias, at least part of their height or part of the height of the building block can be equipped with paired inserts located between the pylons and the outer wall with the formation of cavities between them.

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

 In FIG. 1 presents a construction and environmental complex of two buildings; in FIG. 2 - building facade; in FIG. 3 is a section A-A in FIG. one; in FIG. 4 - complex plan (scheme of reflection of sunlight); in FIG. 5 is a plan of a typical floor of blocks 16, 17, 18, 19 of buildings; in FIG. 6 - the same plan of the floor adjacent to the height; in FIG. 7 is a plan of a typical floor of blocks 11, 12; in FIG. 8 - the same plan of the floor adjacent to it; in FIG. 9 - a fragment of the facade of blocks 6, 7; in FIG. 10 - a fragment of the facade of block 8; in FIG. 11 fragment of the ground floor plan with storage and autonomous entrance to the last and to the apartment; in FIG. 12 - intra-apartment staircase, section; in FIG. 13 is a fragment of a monolithic disk of overlappings; in FIG. 14 - a fragment of the roof plan; in FIG. 15 is a section BB in FIG. 5; in FIG. 16 is a section BB in FIG. 5; in FIG. 17 is a floor plan of block 8.

 The construction and environmental complex contains two multi-storey buildings 1, 2 of interconnected blocks 3 to 19 of different heights installed on foundations (not shown conventionally in the drawings) along the length of buildings 1, 2.

 Each building 1, 2 has a dominant height block 8, 14, and the transverse axis of this block 8 of one building 1 coincides with the transverse axis of the block 14 of another building 2.

 The transverse axis of the blocks 8, 14 of both buildings 1, 2 can be offset relative to each other no more than the width of these blocks 8, 14.

.The longitudinal axis of each building is made with kinks, one of the intersection points of which is located on the transverse axis of blocks 8, 14 of dominant height. The longitudinal axis of the equal-floor blocks 7, 9, 13, 15 of adjacent buildings 1, 2 adjacent to the blocks 8, 14 of the dominant height are parallel. The longitudinal axis of these blocks 8, 14 of two buildings 1, 2 can be located at an angle within

.

.The longitudinal axis of buildings 1, 2 and the buildings 1, 2 themselves have a broken outline in plan. The rectilinear sections of the longitudinal axis of buildings 1, 2 coincide with the longitudinal axes of blocks 3, 5, 7, 9, 11, 13, 15, 17, 19 and with parts of the longitudinal axes of blocks 4, 6, 8, 10, 12, 14, 16, 18. Parts of the longitudinal axes of blocks 4, 6, 12, 16, 18 are located at an angle of 90 ^o , and blocks 8, 14 are at an angle of 165 ^o , i.e. kink angles β of the longitudinal axis of buildings 1, 2 are within

.

 The outer longitudinal 20 and transverse 21 walls of all blocks 3 - 19 of both buildings 1, 2 are made of brickwork, and the internal longitudinal 22 and transverse 23 walls of blocks 3 - 7, 9 - 13, 15 - 19 are made of monolithic reinforced concrete. The transverse internal walls of 24 blocks 8, 14 are made of masonry. Outside buildings 1, 2, pylons 25 are installed on the outer walls of 20 blocks 3 - 7, 9, 11, 13, 15 - 19, and pillars 26 are installed on the outer walls of 20 blocks 8, 14 on both sides of the latter. Pylons 25 and pillars 26 are made from monolithic reinforced concrete.

 Blocks 3, 5, 7, 9, 11, 13, 15, 17, 19 have monolithic disks of overlapping 27, offset by half the height of the floor, and the apartments of these blocks 3, 5, 7, 9, 11, 13, 15, 17, 19 are arranged in two and three levels.

 Blocks 4, 6, 8, 10, 12, 14, 16, 18 have disks of overlappings 28 located at one level on each floor. In blocks 4, 6, 10, 12, 16, 18, the floor disks 28 are made monolithic, and in blocks 8, 14 the floor disks 29 are made of prefabricated reinforced concrete floor slabs 30.

 The single-level floor disks of 28 blocks 4, 6, 8, 10, 12, 14, 16, 18 have the same mark as part of the monolithic floor disks 27 displaced along the height of the floor. Overlappings 29 from prefabricated slabs 30 and monolithic disks of ceilings 27, 28 are rigidly connected to brick 20, 21, 24 and monolithic 22, 23 walls. Monolithic walls 22, 23 and monolithic floors 27, 28 form the core of the stiffness of buildings 1, 2.

 Single-level disks of ceilings 28 fasten the walls 21, 23 of adjacent blocks 3 - 19.

 The transverse walls 23 are arranged in increments equal to half the distance between the axes of the longitudinal walls 20 of blocks 3, 5, 7, 9, 11, 13, 15, 17, 19.

 Blocks 3 - 19 in each building 1, 2 are interconnected by longitudinal corridors 31, which are located across the floor and connect the apartments of each block with each other and with staircase and elevator nodes 32, 33. In blocks 3, 5, 7, 9, 11, 13, 15, 17, 19, there are intra-apartment staircase nodes 34, and the staircase-elevator nodes 32, 33 are located in blocks 4, 6, 8, 10, 12, 14, 16. Residents can move around the building 1, 2 from one block into the other along the corridors 31 and use the staircases 34 and the staircase-lift units 32, 33 of any block 3 - 19 for lifting and lowering from one floor to another.

 In the intra-apartment staircase nodes 34, the stairs are made with braids 35 in the form of reinforced concrete slabs, and the bowstrings 36, steps 37 and risers 38 are made of wooden boards or bars.

 The monolithic disks of the ceilings 27, 28 are made in ribs 39, which have protrusions 40 for supporting heat-insulating rigid or semi-rigid plates 41. The thickness of the shelf 42 of the disk of the ceilings 27, 28 is 1/3 - 1/4 of the height of the rib 39, which extends beyond the lower surface of the shelf 42 and the distance between the axes of the ribs 39 exceeds the thickness of the flange 42 in 9 - 15 times.

 Heat-insulating plates 41 are attached to shelves 42 or can be monolithic to them when monolithic floor disks 27, 28 are installed. Prefabricated 29 and monolithic floor disks 27, 28 are connected to walls 20, 21, 22, 23 and monolithic walls 22, 23 with brick walls 20, 21 by means of anchors.

 Monolithic disks of ceilings 27, 28 are equipped with suspended ceilings (not shown conditionally in the drawings).

 Blocks 8, 14 are formed of two half sections 43, interconnected by a staircase and elevator assembly 32 and located symmetrically on different sides from the vertical transverse plane passing through the break point of the longitudinal axis and the transverse axis of blocks 8, 14 with the formation of a T-shaped plan of the stiffness core .

Two transverse walls 24 of the blocks 8, 14 are combined with the walls 44 of the staircase and elevator assembly 32 and are located at an angle of 15 ^o one relative to the other. The inner wall 45 of the staircase and elevator assembly 32 has a broken outline in plan. Blocks 8, 14 have a larger width than the remaining blocks 3 - 7, 9 - 13, 15 - 19 and protrude beyond one of their outer walls 20 with the protruding part resting on the posts 26.

 Blocks 3 - 7, 9 - 13, 15 - 17 have balconies 46 and loggias 47. Floor slabs 48 of the last are supported by pylons 25. Loggias 47 have a height of two floors and are divided by inserts 49, which are installed in pairs between the pylons on part of the floors 25 and the outer walls 20 with the formation of cavities (conventionally not shown in the drawings). Cavities can be used for laying engineering communications.

 The number of storeys of blocks 3 - 19 is different and they are installed according to the scheme 4-6-6-7-8-9-8-7 or 4-6-6-7-8-9-8-7-6, where numbers mean the number of floors in blocks 3 - 10 and 11 - 19, respectively.

 In blocks 3, 5, 7, 9, 11, 13, 15, 17, 19 with offset floor disks, 27 of the apartments are made with one-story and two-story rooms, located on opposite sides of their inner longitudinal wall 22.

 Blocks 8, 14 are made in a flat exploited roof 50, on which a greenhouse or conservatory can be located or a solarium can be arranged on the roof (not shown conditionally in the drawings).

 blocks 3 - 7, 9 - 13, 15 - 17 have multi-pitch roofs 51. The main ridge 52 of them is aligned in plan with the longitudinal axis of blocks 3 - 7, 9 - 13, 15 - 19, and the skates 53 of the remaining slopes of the roof 51 are located below the main ridge 52, cut into the slopes of the latter and are located at an angle to it.

 Covering 50 blocks 8, 14 is made with an internal drain, and the remaining blocks 3 - 7, 8 - 13, 15 - 19 have an external drain.

 The foundations of buildings 1, 2 are made of tape from precast concrete elements. Strip foundations are placed on a layer of rubble, compacted into the ground and impregnated with bitumen. A reinforced concrete leveling belt is arranged on top of the strip foundations (not shown conditionally in the drawings).

 The task can be performed with a basement 54 and an attic 55, which can be used for various purposes. The upper floors with greater height can be used as workshops, for example, for artists.

 In blocks 3, 5, 7, 9, 11, 13, 15, 17, 19 with displacement of floor disks 27 on the first floor of the formation of storage 56 for agricultural products that can be used by residents of apartments on all floors of these blocks 3, 5, 7, 9, 11, 13, 15, 17, 19. The apartments of the latter, having part of the premises on the ground floor, and storage 56 are made with autonomous entrance nodes 57.

 The outer surfaces of the outer walls 20 of buildings 1, 2, facing each other, are equipped with reflectors of solar energy diffuse, and / or dmffuzno-directed, and / or directional type. Part of the reflectors is made unregulated and combined with the outer surface of the walls 20 of the pylons 25 and / or fences of the loggias 47 and / or balconies 46.

 Some reflectors are made adjustable.

 Part or all of the outer surfaces of the walls 20 facing each other, pylons 25 and / or fences of the loggias 47 and / or balconies 46 of buildings 1, 2 are made with kinks according to the Fresnel lens type.

 Part of blocks 3 - 19 of buildings 1, 2 is equipped with passive or active type solar energy collectors, which are combined with roof structures 51, and / or walls 20, 21, and / or fences of loggias 47 and / or balconies 46.

 Construction and environmental complex operates as follows.

 When the walls 20 of one of the buildings 1, 2 of the complex are irradiated with direct sunlight, its opaque fences reflect diffuse and diffusely directed flows of solar energy to the walls 20 of the adjacent building 1, 2 facing them. At the same time, the insolation, lighting, bactericidal and heat engineering conditions of both buildings 1, 2. When changing the exposure of buildings 1, 2 by direct sunlight to the opposite - in the other half of the daylight, partial re-reflection of solar energy to an adjacent building 1, 2 occurs back order. This is due to the presence of reflectors in the form of light colors or adjustable screens on the building envelopes of both buildings 1, 2 of the complex.

 In the presence of intense wind effects in directions close to the normal longitudinal walls of buildings 1, 2, in the cold season there is a thermotechnically favorable shielding of at least one of the buildings 1, 2 of the complex, and when the wind direction is reversed, another building 12.

 In addition, with wind directions close to the axis of the alignment between buildings 1, 2, by appropriate orientation of the complex in the area relative to the wind rose, increased protection of the space between buildings 1, 2 in unfavorable times of the year and / or improved aeration during warm weather can be provided of the year.

Claims (59)

1. Building and environmental complex, including foundations, at least two buildings of blocks of different heights, containing external and internal longitudinal and transverse walls, floor disks, roof, staircase elevators, windows, doors and engineering equipment, characterized in that uneven blocks of at least one building are placed along the length of the building, and the longitudinal axis of each building is made with at least one kink and with the placement of the kink point on the transverse axis of the block of the dominant height of each building set CSA, wherein the transverse axis of the block coincide or are offset from each other by not more than the width of the blocks, and the longitudinal axes of at least two of the adjacent blocks adjacent buildings raznoetazhnyh parallel or angled to each other individuals within

at least one part of the blocks is made with an internal longitudinal wall of reinforced concrete and with the displacement of the floor disks between the longitudinal walls at 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 disks of the overlapping adjacent blocks, with the other part of the area of the disks The transverse wall between single-level floor disks of adjacent blocks is unfastened, and the transverse walls are made of monolithic reinforced concrete and are located in part of the blocks with a step equal to half the distance between the axes of their longitudinal external walls, while some of the blocks are made with intra-apartment staircases, and all the blocks are with through corridors located at least across the floor and combining the apartments of each block and the staircase and elevator nodes located in blocks with single-level floor disks while the building is equipped with pylons having a height of several floors and located near the longitudinal external 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 the length of their outer the walls are 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 walls.  2. The complex according to p. 1, characterized in that at least facing each other the surface of the outer walls of adjacent buildings are equipped with reflectors of solar energy of diffuse and / or diffuse directional and / or directional type.  3. The complex according to claim 2, characterized in that at least part of the reflectors is made unregulated and combined with the outer surface of the walls of the pylons and / or loggias fences.  4. The complex according to paragraphs. 1 to 3, characterized in that the displacement of the floor disks is made half the floor.  5. The complex according to claims 1 to 4, 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.  6. The complex according to paragraphs. 1 to 5, characterized in that at least part of the blocks are made of different floors.  7. The complex according to claims 1 to 6, characterized in that at least one block is made nine-story.  8. The complex according to claims 1 to 7, characterized in that at least one block is made four-story.  9. The complex according to claims 1 to 8, characterized in that at least two blocks are made six-story.  10. The complex according to claims 1 to 9, characterized in that at least two blocks are made seven-story.  11. The complex according to paragraphs. 1 to 10, characterized in that at least two blocks are eight-story.  12. The complex according to claims 1 to 11, characterized in that the block with displaced floor disks is made with an even number of floors.  13. The complex according to paragraphs. 1 to 12, characterized in that at least two adjacent blocks along the length of the building are made with the same height and number of floors, respectively.  14. The complex according to claims 1 to 13, characterized in that the blocks of at least one building are installed with the location of their number of storeys according to the scheme 6-6-7-8-9-8-7-6 or 4-6-6-7 -8-9-8-7-6.  15. The complex according to claims 2 to 14, characterized in that at least part of the reflectors is made adjustable.  16. The complex according to claims 2 to 15, characterized in that at least part of the outer surface of the part of the walls, pylons and / or fences of the loggias of adjacent buildings facing each other is made with kinks like a Fresnel lens.  17. The complex according to paragraphs 1 to 16, characterized in that part of the building blocks are equipped with solar energy collectors.  18. The complex according to claim 17, characterized in that the solar energy collectors are combined with the structures of the roof and / or walls and / or loggias fences.  19. The complex according to claims 2 to 18, characterized in that at least part of the solar energy collectors is made of a passive type.  20. The complex according to claims 2 to 19, characterized in that at least part of the solar energy collectors is made of the active type. 21. The building of the complex, including foundations, external brick walls, bearing internal transverse walls, floor disks, at least part of which is made of prefabricated floor slabs anchored in the walls, basement, attic, roof, balconies, staircase elevators, doors, windows, ventilation ducts and shafts, sanitary units and engineering equipment, characterized in that the building is made up of blocks of different heights, and the dominant block height is made with a width exceeding the width of the remaining blocks of the building, has a longitudinal an axis with a kink at an angle β in plan and formed of two half-sections, united by a staircase-elevator unit, located on different sides of the kink of the axis and forming a T-shaped planar core of the building stiffness, and some of the blocks adjacent to the block of dominant height are made with internal longitudinal wall of reinforced concrete and with displacement of floor disks between longitudinal walls by part of the floor height with the formation of apartments located at least at two levels, and the other part of the blocks is made with single-level disk and floors on each floor and is located alternately with blocks with displaced floor disks and combining their floor disks with part of the area of the floor disks of adjacent blocks, with the other part of the area of the floor disks of the latter being fixed transverse walls between single-level disks of overlapping adjacent blocks, and the transverse walls are made of monolithic reinforced concrete and are located in part of the blocks with a step equal to half the distance between the axes of their longitudinal external walls, while some of the blocks are made from inside apartments staircases, and all the blocks with through corridors located at least across the floor and combining apartments of each block and staircase elevators located 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 axis of at least one block, and a smaller angle β 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 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.  22. The building according to p. 21, characterized in that the displacement of the floor disks is made half the height of the floor.  23. The building according to paragraphs 21 and 22, characterized in that in blocks with offset floor disks, at least part of the apartments is made with one-story or two-story parts located on opposite sides of the inner longitudinal wall of the blocks.  24. The building according to PP.21 - 23, characterized in that at least part of the blocks are made of different floors.  25. The building according to paragraphs. 21 - 24, characterized in that at least one block is made nine-story.  26. The building on PP. 21 - 25, characterized in that at least one block is made four-story.  27. The building according to PP.21-26, characterized in that at least two blocks are made six-story.  28. The building according to PP.21 - 27, characterized in that at least two blocks are made seven-story.  29. The building according to PP.21-28, characterized in that at least two blocks are made eight-story.  30. The building according to PP.21 - 29, characterized in that the blocks with offset disks of the floors are made with an honest number of floors.  31. The building according to claims 21-30, characterized in that at least two adjacent blocks are made with the same height and number of floors, respectively.  32. The building according to PP.21 - 31, characterized in that the blocks are installed with the location of their number of storeys according to the scheme 6-6-7-8-9-8-7-6 or 4-6-6-7-8-9- 8-7.  33. The building according to claim 1, 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. 34. The building according to p. 33, characterized in that the two opposite walls of the staircase and elevator node are combined with the transverse walls of the half-sections and are located at an angle γ to each other, determined from the ratio γ = 180 ^° -β, where β is the angle of fracture of the longitudinal axis block.  35. The building on PP. 33 and 34, characterized in that at least one wall of the staircase and elevator assembly is broken in plan. 36. The building according to paragraphs 33 to 35, characterized in that the angle of fracture β in the longitudinal axis in the plan is 165 ^o , and the angle γ between the walls of the staircase and elevator node is 15 ^o .  37. The building according to paragraphs 33 - 36, characterized in that the block with the dominant height is nine-story, and the blocks located on both sides of it have a number of floors decreasing towards the ends of the building.  38. The building according to paragraphs 33 - 37, characterized in that the block with a dominant height is made with a flat roof.  39. The building according to p. 38, characterized in that the flat roof is made operational.  40. The building according to paragraphs 21 - 39, characterized in that at least one unit is equipped with a solarium located on the roof.  41. The building according to paragraphs 21 to 40, characterized in that at least one unit is equipped with a greenhouse and / or conservatory.  42. The building according to paragraphs 21 - 41, characterized in that the roof of part of the building blocks is made with a multi-pitch roof, with the main ridge aligned in plan with the longitudinal axis of the blocks, and the skates of the other slopes of the roof located below the main ridge, cut into the slopes of the latter and located at an angle to it.  43. The building according to paragraphs 21 to 42, 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.  44. The building according to paragraphs 21 to 43, characterized in that at least part of the blocks is made with storage for agricultural products having autonomous input nodes.  45. The building according to paragraphs. 21 to 44, characterized in that at least one block with a flat roof is made with an internal drain.  46. The building according to claims 21 to 45, characterized in that at least part of the foundations is made of precast reinforced concrete elements.  47. The building according to item 46, wherein the strip foundations are installed on a layer of rubble, rammed into the ground and impregnated with bitumen.  48. The building according to paragraphs. 46 and 47, characterized in that the strip foundations are provided with a reinforced concrete leveling belt on top.  49. The building according to claims 21 to 45, characterized in that at least part of the foundations is made pile or columnar.  50. The building according to PP.21 - 49, characterized in that the monolithic longitudinal walls of the blocks with offset disks of the floors are unfastened in height with an interval less than the height of the floor.  51. The building on PP. 21 - 50, characterized in that the monolithic disks of the floors are made ribbed with heat-insulating elements.  52. The building according to paragraph 51, wherein 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.  53. The building according to paragraphs 51 and 52, characterized in that the ribs of the plates are made with extended or intermittent protrusions in their lower part.  54. The building according to paragraphs 42-53, characterized in that the heat-insulating elements are supported on two sides on the protrusions of the ribs of the plates.  55. The building according to paragraphs 51-53, characterized in that the heat-insulating elements are monolithic in the upper plane to the lower surface of the shelf of the plate.  56. The building according to paragraphs 51 - 55, 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.  57. The building according to paragraphs 51 - 56, characterized in that the monolithic disks of the floors are equipped with a false ceiling.  58. The building according to paragraphs 21 - 57, characterized in that at least the marches of the apartment stairwells are made with braces, the bearing part of which is made of reinforced concrete slabs, and the bowstrings, steps and risers are made of wooden boards or bars.  59. The building according to PP.21 - 58, 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.

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