RU2016968C1 - Building - Google Patents

Abstract

FIELD: construction; multistory building construction of spatial blocks. SUBSTANCE: external, internal and butt spatial blocks are made of floor slabs, walls and arch-formed frame members. The blocks are mounted along transverse axes of the building adjacent to each other, with spaces made between the blocks along the building length. The spaces are covered with additional wall and floor members. The frame member vertical parts of adjacent blocks form sectional columns of the building and are connected by joint tongues of different design. EFFECT: improved design. 13 cl, 24 dwg

Description

 The invention relates to the field of construction and can be used in the construction of buildings, structures for various purposes from building blocks.

 A building is known including volumetric blocks with a floor slab transverse and installed perpendicular to it along the central axis of the block with longitudinal walls and an arched shape with a T-shaped frame in one of the ends of the block.

 The disadvantage of this solution is the impossibility of erecting multi-story buildings and the fact that the layout of the premises narrows the area of use of the building, because it is impossible to place production shops in it.

 The technical solution closest to the invention is a building, a structure comprising volumetric outdoor units connected to each other and made with a floor slab with an external wall and a longitudinal wall located perpendicularly to it and along the central longitudinal axis of the block, extreme end blocks with external walls located mutually perpendicular intermediate end blocks with an external wall and internal blocks with a wall located along their central longitudinal axis, additional elements of walls and floors, located in the gaps between the outer walls along the longitudinal sides of the building, structure and floor slabs of volumetric blocks, and connecting elements.

 The disadvantage of this solution is the increased complexity of installation and consumption of materials due to the presence of monolithic sections of walls and floors, significant energy consumption per unit of usable area and volume of the building and the narrow area of use of the building.

 The objective of the invention is to reduce the material consumption and the complexity of installation and the expansion of architectural and planning solutions.

 The problem is solved in that the plate of each block has a rectangular shape in plan, and all the blocks are installed along the transverse axes of the building, the structures are close to each other and are equipped with frame elements in the form of semi-arches that are placed on the inner ends of the outer and outer end blocks and on both the ends of the inner and intermediate end blocks, and in the outer and inner blocks of the semi-arches installed in pairs with the formation of T-shaped frames, and the span of each half-arch in the light is equal to or less than 0.45 the width of the blocks, while longitudinal a wall at least a portion of the exterior and / or interior block is provided with an opening arched shape, whose light passage is equal to or less than 0.9 units of length, and the vertical portion poluarok adjacent in terms of units are interconnected to form a composite columns.

 In addition, the lower ends of the semi-arches of adjacent blocks forming composite columns can be fastened together by connecting elements in the form of dowels; the dowels are made in the form of a plate, plate or bar with the fixing sides directed upwards; dowels are made in the form of a closed prismatic shell; the dowels are provided with downward prismatic or wedge-shaped protrusions, and the plate blocks are made with recesses to accommodate the protrusions of the keys; dowel retaining edges have a broken configuration in plan; the locking sides of the keys are made in the form of angles attached to the plate by the ends; shells are multifaceted in plan; shells are equipped with stiffening elements in the form of corners attached to the shell by shelves; the shells are made of channels connected to each other by shelves, and are equipped with wedge-shaped elements attached horizontally or obliquely to the sides of adjacent channels on the sides of the shells; dowels are rigidly or resiliently connected to plate blocks; the lower ends of the semi-arches are equipped with paired protrusions located in the recesses of the plates of the downstream blocks; the connecting elements are made in the form of a plate with holes; mounted on a plate of blocks with a pass in its holes of the lower ends of the semi-arches of adjacent blocks.

 In FIG. 1 shows a fragment of the facade of the building; figure 2 is a section aa in figure 1; figure 3 is a section bB in figure 2; figure 4 - section bb in figure 3; in FIG. 5 - outdoor volume unit; figure 6 - extreme end volumetric block; in FIG. 7 - internal volume unit; in Fig.8 is a section GG in Fig.7; in FIG. 9 - intermediate end volumetric block; figure 10 is an outdoor unit with an arched opening in the inner longitudinal wall; figure 11 is a fragment of an external or internal volumetric block with protrusions in the end of the half-arch; in FIG. 12 - node I in figure 11; in Fig.13 is a view along arrow D in Fig.12; in Fig.14 is a view along arrow E in Fig.11; in Fig.15 is a section FJ in Fig.14; in Fig.16 - the node connecting the blocks in height with a key; on Fig - node connection of a composite column with a dowel in the form of a bar with the fixing sides assembled; in FIG. 18 - dowel, version with a plate and fixing sides of a broken shape, in plan; in Fig.19 - the attachment site of the semi-arches with a key in the form of a plate with locking sides in the form of paired channels; Fig. 20 is a key, an embodiment with a plate and fixing sides in the form of angles; in Fig.21 is the same, a variant with a shell and lower protrusions; Fig.22 is the same, a variant with a multifaceted shell and wedge-shaped elements; in Fig.23 - the same option with a multifaceted shell and corner stiffeners; on Fig - node connection of the composite columns with the lower blocks through the plate with holes in the Assembly.

 The building contains external 1, internal 2 and end 3, 4 volumetric blocks installed close to each other along the transverse axes of the building and at a distance along the length of the latter from each other. The volume of the building between blocks 1-4 is limited by additional elements of the external walls, for example, in the form of glass blocks 5 and ceilings in the form, for example, of prefabricated plates 6.

 All blocks 1-4 are made with rectangular in plan floor slabs 7, 8. The outdoor blocks 1 have a transverse outer wall 9 located along the longitudinal axis of the building, an inner wall 10 installed perpendicular to the outer wall along the central longitudinal axis of block 1, and two frame an element in the form of a semi-arch 11 at the inner end of the block 1, installed with the formation of a T-shaped frame 12. The inner blocks 2 have an internal longitudinal wall 13 located along the central axis of the block 2 and T-shaped frames 12 at both ends.

 The extreme end blocks 3 are made with two mutually perpendicular outer walls 14, 15 and a semi-arch 11 at the inner end.

 The intermediate end blocks 4 have an outer end wall 16 and two half arches 11 at the ends.

 The span of each half-arch 11 in the light is equal to or less than 0.45 block width. At least in part of the volumetric blocks 1.2, the inner walls 10, 13 are made with an arch-shaped opening 17, the span of which in the light is equal to or less than 0.9 length of the block.

 The joined vertical parts of the semi-arches 11 of adjacent blocks 1-4 form composite columns 18, 19 and can be interconnected by connecting elements in the form of dowels 20. The dowels 20 can be made in the form of a plate 21, a plate 22 or a bar 23 with the fixing sides 24 pointing upwards , 25, 26, 27 or in the form of closed prismatic shells 28, 29, 30. The dowels 20 are installed on the plates 7, 8 of adjacent blocks with placement between the fixing sides 24-27 of the lower ends of the composite columns 18, 19 or half arches 11.

 The locking edges 24 of the keys 20 may have a broken configuration in plan.

 The fixing edges 26, 27 can be made in the form of corners or channels, attached by the ends to the plate 22.

 The shells 28, 29 can be multifaceted and provided with stiffeners 31 in the form of angles attached by shelves 32 to the shells 28, 29.

 Shell 28 can be made of channels 33, connected to each other by shelves 34, and provided with wedge-shaped elements 35 that are attached horizontally or inclined to the shelves 34 of channels 33.

 The dowels 20 are connected to the plates 7, 8 of the blocks 1-4 rigidly or resiliently.

 Blocks 1-4 can be interconnected in height without keys 20. In this case, the lower ends of the semi-arches 11 are made with protrusions 36, the slabs of blocks 1-4 with recesses 37, into which the protrusions 36 of the upper blocks lead. When this connecting elements are made in the form of a plate 38 with holes 39 for passing protrusions 36 of the semi-arches 11 of adjacent blocks 1-4. The dowels 20 can also be made with protrusions 40 directed downward and led into the recess 37 of the plates 7, 8 of blocks 1-4.

 Blocks 1-4 also have embedded parts of reinforcement 41 for connecting them with additional elements.

 Installation of the building is carried out to the full height with a ledge "on itself".

 First, end blocks 3, 4 are installed, including corner blocks forming the wall of the building, then the outer 1 and inner 2 blocks are mounted with a gap.

 Installation is carried out using inventory temporary racks - supports supporting blocks 1-4 until the volumetric frame of the building is formed.

 Blocks 1-4 in each transverse row are interconnected by welding releases of reinforcement 41 and embedded parts associated with the reinforcement.

 After that, prefabricated plates 6 are mounted based on the overlapping plates of blocks 1-4 and the outlets of the reinforcement 41 are welded.

 After welding releases of reinforcement 41 and embedded parts, the joints are monolithic with concrete and glass blocks 5 are installed.

 The following rows of blocks 1-4 and additional elements are mounted in the same way, with a ledge on all floors at the same time, forming a three-dimensional building frame with columns 18, 19, interfloor ceilings and external walls.

The use of the invention allows to provide a single floor space of a building, reduce the total number of building blocks and thereby reduce the cost of precast concrete per 1 m ^{2 of} production area, provided that the load-bearing capacity and stability are ensured, as well as reduce labor costs in the manufacture of blocks and their installation.

Claims (13)

 1. BUILDING, STRUCTURE, including volumetric outdoor units connected to each other and made with a slab, with an external transverse wall and a longitudinal wall located perpendicular to it and along the central longitudinal axis of the block, extreme end blocks with external walls located mutually perpendicular, intermediate end blocks with external wall and internal blocks with a wall located along its central longitudinal axis, additional elements of walls and ceilings installed in the gaps between the external walls along the partial sides of the building, structure and floor slabs of volumetric blocks, and connecting elements, characterized in that the slab of each block has a rectangular shape in plan, and all the blocks are installed along the transverse axes of the building, the structures are adjacent to each other and are equipped with frame elements in the form of semi-arches, which are placed on the inner ends of the outer and outer end blocks and on both ends of the inner and intermediate end blocks, and in the outer and inner blocks of the semi-arches installed in pairs with the formation of T-shaped frames, the span of each semi-arch in the light is equal to or less than 0.45 of the width of the blocks, while the longitudinal wall of at least part of the external and / or internal blocks is made with an arch-shaped opening, the span of which in the light is equal to or less than 0.9 of the length of the blocks, and the vertical parts a semi-arch of adjacent in terms of blocks are interconnected with the formation of composite columns.  2. The building, structure according to claim 1, characterized in that the lower ends of the semi-arches of adjacent blocks forming composite columns are fastened together by connecting elements in the form of dowels.  3. Building, construction according to claims 1 and 2, characterized in that the dowels are made in the form of a plate, plate or bar with the fixing sides directed upwards.  4. Building, construction according to claims 1 and 2, characterized in that the keys are made in the form of a closed prismatic shell.  5. The building, construction according to claims 1 to 4, characterized in that the dowels are provided with downward prismatic or wedge-shaped protrusions, and the slabs of blocks are made with recesses to accommodate the protrusions of the keys.  6. The building, construction according to claims 1 to 3, 5, characterized in that the retaining edges of the keys have a broken configuration in plan.  7. The building, the construction according to claims 1 to 3, characterized in that the locking edges of the keys are made in the form of angles attached to the plate by the ends.  8. A building, a construction according to claims 1 to 4, 7, characterized in that the shells are multifaceted in plan.  9. The building, structure according to claim 8, characterized in that the shells are equipped with stiffeners in the form of corners attached to the shell shelves.  10. The building, construction according to claims 1, 2, 4, 8, characterized in that the shells are made of channels, connected to each other by shelves, and are equipped with wedge-shaped elements attached horizontally or obliquely to the sides of adjacent channels of the shells.  11. Building, construction according to claims 1 to 4, characterized in that the dowels are rigidly or resiliently connected to the blocks of blocks.  12. The building, construction according to claims 1 to 3, 5, characterized in that the lower ends of the semi-arches are provided with protrusions located in the recesses of the plates of the downstream blocks.  13. The building, construction according to item 12, characterized in that the connecting elements are made in the form of a plate with holes mounted on a plate of blocks with a pass in its holes of the lower ends of the semi-arches of adjacent blocks.

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