RU2742782C1 - High-rise building structure - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to construction, namely to high-rise buildings. Structure of a multi-storey building includes vertical sections equipped with a central shaft made of cylindrical or polygonal walls with overlapping. Vertical sections of the building are installed in three directions around the structure of the stairway-elevator unit. Overlapping plates are assembled with support zones of cylindrical or polyhedral shape and installed between external walls and walls of central shafts.EFFECT: technical result of the invention consists in decrease of material content.3 cl, 3 dwg

Description

The invention relates to the field of construction, in particular, to the field of construction of multi-storey residential and public buildings from precast and monolithic reinforced concrete.

The structure of a multi-storey building, including vertical sections, equipped with a central shaft made of cylindrical or polygonal walls with overlapping, around which volumetric blocks are installed, consisting of an external cylindrical spatial element with a circular or polygonal floor slab and an internal spatial element with longitudinal and transverse vertical walls and flat ceilings, which have a trapezoidal shape in the plan and form a P or L-shaped in cross-section, while the vertical sections of the building are installed in three directions around the structure of the staircase-elevator node, the difference lies in the fact that the floor slabs are made prefabricated with support zones of a cylindrical or polyhedral shape and are installed between the outer walls and the walls of the central shafts, while the floor slabs are made in the form of a round or polyhedral slab with an expanded bottom surface with ribs along the contour, reinforced closed reinforcement, and a trapezoidal slab in plan, resting on a round slab and the walls of the central pillar, in addition, a reinforced concrete frame is installed between the outer curved walls

Known designs of multi-storey buildings from prefabricated and monolithic volumetric blocks, manufactured in the factory or at landfills. Such volumetric blocks of the "recumbent glass" or "cap" type have a prismatic shape and are placed on top of each other during installation. The conjugation of volumetric blocks in the plan forms the structure of a multi-storey building. The walls of the blocks perceive the vertical load, and when exposed to a horizontal wind or seismic load, the joint work of adjacent rows of blocks installed on top of each other ensures that the walls absorb these forces in proportion to the stiffness. Usually, the structures of such buildings / I / in the plan consist of blocks that form premises, for example, residential apartments, a staircase-elevator node. Buildings from such blocks are most widely used in construction practice.

The closest technical solution in relation to the claimed solution is the structure of a multi-storey building described in patent N 2070255, class. E04B 1/348 1994, where the volumetric blocks have a cylindrical and trapezoidal part in plan, since it has a greater number of common essential features with the stated solution.

The specified known solution is taken as a prototype. It is characterized by the fact that the structure of a multi-storey building, including vertical sections, equipped with a central shaft made of cylindrical or polygonal walls with overlapping, around which volumetric blocks are installed, consisting of an external cylindrical spatial element with a round or polygonal floor slab and an internal spatial element with longitudinal and transverse vertical walls and flat ceilings having a trapezoidal shape in the plan and forming a P or L-shaped in cross section, while the vertical sections of the building are installed in three directions around the structure of the staircase-elevator assembly.

The disadvantage of this design is that the outer block and the inner block with flat ceilings having a trapezoidal shape in plan and forming a P or L-shaped in cross-section in the version with a U-shaped wall forms double walls between adjacent blocks, in the L-shaped version are large and not always possible to transport them. Large dimensions require large production areas at house-building factories. In addition, it is difficult to provide a looser layout of the interior because of the radial walls of the trapezoidal element in plan.

The aim of the invention is to create a structure with prefabricated elements with admissible transport dimensions on all roads, with a more compact production of prefabricated elements, the possibility of installing radial walls only if necessary, and the construction of high-rise buildings.

The essence of the invention is that the floor slabs are made prefabricated with support zones of a cylindrical or multifaceted shape and are installed between the outer walls and the walls of the central shafts, while the floor slabs are made in the form of a round or multifaceted slab with a broken bottom surface with ribs along the contour, reinforced with closed reinforcement , and a trapezoidal slab in plan, resting on a round slab and the walls of the central pillar, in addition, a reinforced concrete frame is installed between the external curved walls

The essence of the invention is disclosed in the drawings, where

in fig. 1 - the construction of a multi-storey building from volumetric blocks in plan,

in fig. 2 - a fragment of a vertical section of the section, with a central trunk and external cylindrical walls, with round and trapezoidal plates resting on them.

The construction of a multi-storey building from volumetric blocks / Fig. 1 / consists of three sections 1, grouped around the stair-elevator node 2. Each vertical section 1 is equipped with a central shaft 3 / Fig. thirteen/.

Around this trunk 3, reinforced concrete curved in plan walls 4 are installed on the outer side 4. Trapezoidal slabs 6 rest on the walls, round in plan.

Sections 1 / Fig. 1 / are connected to each other by the structure of the stair-elevator unit 2, forming a structure developed in three directions. The construction of the staircase-elevator unit is formed by cylindrical or multifaceted volumetric elements and floor slabs filling the space between sections 1. Depending on the number of storeys of the building, the structure of the staircase-lift unit changes and may not include volumetric elements.

Thus, in general, the building structure is a structure developed in three directions, formed by three sections 1, grouped around the stair-elevator node 2. This increases the moment of inertia of the section of the building, increases the rigidity and resistance to horizontal wind and seismic loads. This structure makes it possible to increase the workload of the staircase and elevator assembly and the efficiency of the structure as a whole.

Installed on the outside, reinforced concrete curved walls 4 can be made in the form of external three-layer walls with a load-bearing inner layer, in the form of a ventilated facade, or in the form of an insulated wall with an external facade coating ("wet" wall).

Between the walls 4 and the shaft 3 (Fig. 1), which also consists of two curved walls in the plan, floor slabs are installed, which can consist of a round plate 5 with ribs 12 and trapezoidal plates 6 resting on the ribs 11 of the round plate 5 and the walls of the central trunk 3. In this case, the supports can be consoles protruding from curved walls in plan, or directly the ends of curved walls. In the first case, a "contact" joint is formed between the floors in a multi-storey building; in the second case, a "platform joint"

A slab 5 round in plan with ribs along the contour 11 is made with a curved "expanded" surface 8 and along the contour in the ribs it is reinforced with annular prestressed or conventional reinforcement 12. This ensures that the slab works with expansion and has a minimum consumption of concrete and reinforcement.

At the junctions of all adjacent curvilinear walls 4 (Fig. 3) during the construction of high-rise buildings, a reinforced concrete frame 13 with load-bearing reinforcement 14 can be installed.

The connection between walls 4 and slabs 5 / Fig. 1 / in the plane of the floors in each section 1 is carried out by welding embedded parts and sealing joints.

Vertically, the volume blocks are installed on top of each other through a cement-sand mortar or other gaskets.

Section 1 of building structures / fig. 1 / have a curved perimeter of external walls formed by curved external walls 4. If it is necessary to increase the thermophysical characteristics of a building, each section can have additional external walls connecting adjacent volumetric elements 4 to each other, i.e. external walls connecting them. Additional walls 15 can be flat or curved depending on the architectural requirements of the building. The space between the additional walls 15, if it is not filled with the frame 13, and the curved walls 4, allows you to create the effect of a "thermos" or can be used for air heating or cabinets and allows you to easily change the thickness of the additional walls 15.

When assembling the trunks 1 of the building from the curvilinear external walls 4 of the walls of the central pillar 3, there is no need for special mounting devices, since the walls are stable. Prefabricated floor slabs between them can be solid or consist of 5 round and 6 trapezoidal slabs.

The stair-lift unit 2 can also be assembled from their curved walls 7 and flat slabs of various geometries using standard lift shafts. Depending on the number of storeys, the design of the staircase and elevator assembly changes.

All prefabricated elements are dimensioned within the permissible transport dimensions to avoid meeting the requirements for oversized cargo. Floor slabs are transported on inclined panel trucks, wall panels are curved in plan due to their stability on any onboard transport.

The molding of reinforced concrete curved walls 4 can be carried out in the factory on special cassette installations, which are simpler and less metal-consuming in design than for flat panels. Floor slabs are formed on conventional modified cassette installations.

The structure of the building, in comparison with the known solutions of panel and volume-block buildings of rectangular shape, due to the developed in three directions of the section of the structure, due to the use of curved in terms of external walls 4 in combination with curvilinear in terms of internal elements of the shafts 3, allows to increase its rigidity for the perception of horizontal loads.

In addition, the design allows you to reduce the consumption of materials, increase the building density and number of storeys of buildings, including, thanks to the frame 13 with reinforcement 15, high-rise buildings. The ability to detach from the supporting structure and change the shape of the external wall panels with the formation of cavities, allows you to reduce heat loss and change the architectural appearance of the building of the same structural system.

Concrete consumption for such structures is approximately 20% less than for large-panel buildings. At the same time, the dimensions of the products allow them to be transported on any city roads. Technological equipment, which is more compact than in bulk-block housing construction, reduces factory production areas. In seismic areas and in the construction of high-rise prefabricated reinforced concrete buildings, the efficiency of the proposed structure increases.

LITERATURE

1. Patent RU N 2070255, cl. E04B 1/348, 1994.

2. Monfred Yu.V. etc. Buildings from volumetric blocks. - M .: Stroyizdat, 1974, p. 22.

Claims (3)

1. The structure of a multi-storey building, including vertical sections, equipped with a central shaft made of cylindrical or polygonal walls with a ceiling, around which volumetric blocks are installed, consisting of an external cylindrical spatial element with a circular or polygonal floor slab and an internal spatial element with longitudinal and transverse vertical walls and flat ceilings, having a trapezoidal shape in plan and forming a P or L-shaped in cross-section, while the vertical sections of the building are installed in three directions around the structure of the staircase-elevator unit, characterized in that the floor slabs are made prefabricated with support zones of cylindrical or multifaceted shape and installed between the outer walls and the walls of the central trunks. 2. The structure according to claim 1, characterized in that the floor slabs are made in the form of a round or polyhedral slab with an expanded bottom surface with ribs along the contour, reinforced with closed reinforcement, and a trapezoidal slab resting on the circular slab and the walls of the central pillar. 3. The structure according to claim 1, characterized in that a reinforced concrete frame is installed between the outer curved walls

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