RU2634762C1 - Method of erecting high-rise building on natural base - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method of erecting a high-rise building on a natural base includes calculating the stress-strain state of the "base-foundation-structure", arranging a slab foundation and erecting a high-rise building with redistributing the stiffening elements in accordance with the condition of uniformity of the foundation settings. First, the slab foundation for the high-rise part of the building is arranged, and the building is erected at a calculated height calculated based on the condition of preventing the building from tipping over under the seismic and/or wind impact. Then the slab foundation for the stylobate part of the building is arranged, and the remaining part of the high-rise building and that of the stytlobate are erected simultaneously, while ensuring the uniform foundation setting.

EFFECT: reducing the unevenness of the base deformations and reducing the efforts in the structures of the building due to the temporary separation of the settings of the high-rise part and the stylobate part, the possibility of erecting a high-rise building in areas with the seismicity of up to 9 points on a natural base.

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Description

The invention relates to the field of construction and can be used in the construction of high-rise buildings on a natural basis, including in seismic areas, the uneven rainfall of which is close to or exceeds the maximum allowable.

A known method of building buildings on soft soils, which consists in introducing additional reinforcing elements into the walls in order to increase their rigidity to reduce uneven precipitation. The disadvantage of the described method is its limited use only for brick walls of a small number of storeys / B.I. Dalmatov "Mechanics of soils, foundations and foundations", M., SI, 1988, p. 208-211 /.

There is a method of reducing the level of uneven precipitation during the construction of buildings, which consists in simultaneous or separate exposure to the soil, foundation and structure of the building. The impact on the soil for its hardening is carried out by injection of a reinforcing solution or the introduction of reinforcing elements into the soil within the central part of the building, and its softening is carried out by injecting a softening solution or making a narrow slot, or performing rows of wells in the soil within the peripheral part of the building. Hardening processes in the central zone and softening in the peripheral are performed simultaneously. The impact on the foundation is carried out by increasing its bending stiffness with a maximum in the central and minimum in the peripheral zone of the base plate. The increase in bending stiffness is carried out by introducing ribs of variable stiffness in the direction from the periphery to the center or laying reinforcement within the central part of the base plate / RF Patent No. 2265107, cl. E02D 35/00, publ. 2004 /.

The disadvantage of this method is that when exposed to the soil by injection of a reinforcing or softening solution, an inhomogeneous change in the stress-strain state occurs, which is difficult to take into account in the calculations of the foundation and leads to a significant increase in the material consumption of the foundation. In addition, increasing the rigidity of the foundation in its central part is laborious and requires a long time.

Also known is a method of building an earthquake-resistant high-rise frameless building from volumetric blocks for construction in areas with seismicity of up to 9 points. The method of erecting a multi-story earthquake-resistant frameless building consists in the construction of a modular building of increased strength and rigidity. The increase in strength and rigidity is carried out by building a building from three-dimensional blocks, the joints of which are filled with concrete, the strength of which is 1 / 2-1 / 6 less than the strength of the concrete block. At the joints of blocks in three mutually perpendicular directions, reinforcing bars are overlapped with the reinforcement of the blocks. The seismic resistance of the building is ensured by fittings installed in a previously weakened section at the joints of the blocks / RF Patent No. 2121049, class. E04H 9/02, publ. 1998 /.

The disadvantage of this method is that the construction of such a building does not provide its rigidity in terms of, thus, this method of building a building can lead to the formation of excessive uneven deformations and the inability to continue operation of the structure.

The closest technical solution to the proposed one is a method for regulating uneven precipitation of a multi-story building with a slab or pile-slab foundation, which consists in moving the center of mass and rigidity of the entire building, in order to more evenly distribute the load on the foundation slab and, as a result, reduce the relative difference of the foundation sediments . The implementation of this method is carried out by the device of additional stiffening elements both after and during the construction of the building frame / RF Patent No. 2520751, class. E02D 35/00, publ. 2014 /.

The disadvantage of this method is that when building a high-rise building using this method, it is impossible to ensure its operation under strong seismic effects. Thus, the scope of this method of construction is limited to a territory with a score of up to 6 points.

The technical task of the invention is to reduce the cost of construction by ensuring the possibility of reducing uneven precipitation and effort in the construction of a multi-storey building with an economical solution on the foundations and foundations, reducing the time and complexity of construction. In addition, the technical task is the possibility of building a high-rise building on a natural basis in areas with seismicity of up to 9 points.

The problem is solved in such a way that in the method of erecting a high-rise building on a natural foundation, including calculating the stress-strain state “base-foundation-structure”, arranging a slab foundation and erecting a high-rise building with redistribution of stiffeners in accordance with the condition for uniformity of foundation sediments, according to of the invention, first they arrange a slab foundation for the high-rise part of the building and erect the building to the calculated height, calculated from the condition of preventing slip building under seismic and / or wind exposure, then arrange a slab foundation under the stylobate part of the building and erect the remaining part of the high-rise building and stylobate at the same time, while ensuring uniform settlement of the foundation.

The proposed method of erecting a high-rise building is characterized in that they first arrange the slab foundation for the high-rise part of the building and erect the building to the calculated height, calculated from the condition of preventing the building from tipping over under seismic and / or wind exposure, then arrange the slab foundation under the stylobate part of the building and erect the remaining part of a high-rise building and stylobate at the same time, while ensuring uniform settlement of the foundation.

The redistribution of stiffeners of the "foundation-building" system is carried out by dividing the time of the device of the high-rise and stylobate parts of the structure. The seismic stability of the building from tipping over is ensured by the sufficiency of the supporting part of the structure.

Before the start of construction, the stress-strain state of the "base-foundation-structure" system is calculated, including the seismic effects, with the determination of the minimum building height and the area of the supporting part, at which the structure does not overturn as a result of wind and seismic effects. After that, the stiffness of the supporting part of the high-rise building is determined, so that the precipitation during the first stage of construction - the construction of the high-rise part - is uniform. Next, construction is carried out with the control of the stress-strain state of structures using monitoring.

The implementation of the technical task is carried out by dividing the construction of a high-rise structure into several stages. At the first stage, a high-rise part is being erected with a rigid base selected in such a way that the building does not overturn, as well as the precipitation of the structure is uniform. At the next stage, the stylobate and high-altitude parts are simultaneously erected to the design elevation. The weight of the remaining high-rise and stylobate parts should be close so that the draft of the structure remains uniform.

The technical result consists in reducing the unevenness of the base deformations and reducing the efforts in the construction structures due to the temporary separation of sediments of the high-rise and stylobate parts, as well as the possibility of building a high-rise building in areas with seismicity up to 9 points on a natural basis.

The invention allows to prevent the occurrence of extreme uneven precipitation of the foundation both during the construction of the building and during its operation. The height of the building and the area of the supporting part, sufficient for the perception of the overturning moment during seismic impact, is determined by calculation.

The technical essence of the method of foundation construction on a natural basis is illustrated by the drawing, where in FIG. 1 shows a section of a building indicating the technological stages of building construction; FIG. 2 is a graph of the precipitation of the foundation slab (S,%) during construction by the known (1) and proposed (2) method.

The method is carried out in the following sequence. Before the start of construction, the stress-strain state of the foundation and structures of the building is calculated with the determination of the optimal height, area and stiffness of the supporting part of the structure. On a natural basis, the foundation slab 1 is concreted within the structure being constructed. After hardening, the frame of the building of a given height 2 is erected. Next, they proceed to the simultaneous further construction of the high-rise 3 and the supporting parts of the building 4 with equal weight.

Example:

A high-rise building of a frame-and-link structural design with a height of 300 m is being constructed. Around the high-rise part of the building, it is planned to construct a stylobate part, consisting of two underground floors. The stylobate and high-altitude parts in the plan have the shape of a square with the length of each side 130 and 70 m, respectively. The average pressure under the base of the foundation is 50 t / m ² . The foundations are based on gravel sands with a deformation modulus of 100 MPa. Depth of foundation is 10 m.

When constructing such a structure on a natural foundation in the traditional way, a box-shaped foundation will be required for the entire stylobate part, consisting of a lower plate 4 m thick, an upper plate 2 m thick, a central stiffness core 30 × 30 m in size and more than 50 vertical stiffness diaphragms. As a result of calculations for this type of foundation, an average draft of 170 mm was obtained, with a maximum draft of 215 mm and a minimum of 110 mm. The roll of the building as a result of the homogeneity of the structural scheme and the soil base in the plan is zero. The maximum unevenness of the sediment was 1.5 * 10 ³ . Moreover, for the normal operation of this structure to be possible, a rather powerful stiffness diaphragm will be required, which complicates the operation of the structure and increases the cost of construction.

When implementing the proposed method, the construction of the building is carried out in two stages. At the first stage, a foundation is built for the high-rise part and the building is erected to a mark of 200 m, at which there is no danger of the building tipping over as a result of seismic or wind influences. At the second stage, after the foundation is installed, under the stylobate part, the remaining high-rise and stylobate parts are simultaneously erected. The load from the parts of the building under construction is selected the same. At the same time, a decrease in the value of uneven settlement relative to the case of simultaneous construction of the frame structure construction to 80% (Fig. 2), and efforts in structures to 40%, is achieved. In addition, due to the separate construction of high-rise and stylobate, there is a replacement of the rigid box, adopted by the usual method of design, on the frame structural scheme, which provides a significant reduction in material consumption, reduction of construction time, freeing up additional space, as well as reducing the complexity of the work.

The given example illustrates how, by separating the precipitation of the high-rise and stylobate parts, it is possible to equalize the foundation sediments, reduce the efforts in the structures and reduce the material consumption of the entire building frame.

Claims (1)

A method of erecting a high-rise building on a natural base, including calculating the stress-strain state “base-foundation-structure”, arranging a slab foundation and erecting a high-rise building with redistributing stiffeners in accordance with the condition of uniformity of the foundation sediment, characterized in that the slab foundation is first arranged under the high-rise part of the building and erect the building to the calculated height calculated from the condition of preventing the building from tipping over during seismic and / or wind air After that, they arrange a slab foundation under the stylobate part of the building and erect the remaining part of the high-rise building and stylobate at the same time, while ensuring uniform settlement of the foundation.

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