RU2020211C1 - Building, structure - Google Patents

Abstract

FIELD: civil engineering, erection of arched structures. SUBSTANCE: arched structure is made up of prefabricated flat or three-dimensional members of identical size, and rests on foundations. The linear dimension of each prefabricated member and their number in the cross-section of arched structure obey the relations given in the description of the invention. If the arched structure is symmetrical relative to its central vertical longitudinal plane, the lower members are inclined to horizontal. The angle and height of building or structure are defined in the submitted relations. The sections extending along the building or structure length are of a different height in spans of identical height, are asymmetrical relative to central longitudinal vertical plane of arched structure and are disposed alternatively and arbitrarily along at least a part of length of building or structure. EFFECT: improved design. 3 cl, 2 dwg

Description

 The invention relates to the construction and can be used in the construction of buildings, structures vaulted structures for various purposes.

 It is known the construction of a vaulted structure containing slabs of external fences, mounted obliquely on the foundations and interconnected [1].

 The closest in technical essence is a building containing foundations and a vaulted structure of prefabricated flat elements of the same size [2].

 The disadvantage of these solutions is the lack of the possibility of varying the shapes of the structure or the increased complexity and material consumption of manufacturing prefabricated elements for their installation.

 The purpose of the invention is the reduction of material consumption and the complexity of manufacturing and installation.

, где К - целое нечетное число, равное или превышающее число 9, а l - величина пролета сводчатой конструкции, при этом количество сборных элементов в поперечном сечении сводчатой конструкции определено из соотношения ζ≥ К + 1.The goal is achieved in that the linear size of each prefabricated element in the span plane of the vaulted structure is determined from the relation a =

where K is an odd integer equal to or greater than 9, and l is the span of the vaulted structure, while the number of prefabricated elements in the cross section of the vaulted structure is determined from the relation ζ≥ K + 1.

α≅

, а высота здания, сооружения - из соотношения

(

-K-1)<h≅

; сводчатая конструкция может быть выполнена по крайней мере на части ее длины из асимметричных относительно ее центральной вертикальной продольной плоскости секций с правой и/или левой асимметричной, расположенных с чередованием или произвольно.In addition, each precast element may have a spatial structure; the vaulted structure can be made symmetrical with respect to its central vertical longitudinal plane, while the prefabricated elements are inclined to the horizontal at an angle determined from the ratio arccos

α≅

, and the height of the building, structure - from the ratio

(

-K-1) <h≅

; the vaulted structure can be made at least on a part of its length from sections asymmetric with respect to its central vertical longitudinal plane with right and / or left asymmetric sections, alternating or random.

 In FIG. 1 shows a vaulted building (dotted lines show the possible shape of the arch with the same span); in FIG. 2 - the same option with asymmetric sections and spatially distinguished elements.

 The building contains foundations 1 and a vaulted structure (arch) 2 supported on them, which is formed on prefabricated flat, for example in the form of plates, elements 3 of the same size.

=

, где K - целое нечетное число, равное или превышающее число 9, например 9, 11, 13 ... .The linear size of the precast elements 3 in the plane of passage of the vault 2 is determined from the relation a

=

where K is an odd integer equal to or greater than 9, for example 9, 11, 13 ....

 The number of prefabricated elements 3 in the plane of passage of the vault 2 is determined from the ratio ζ≥ K + 1.

 The vaulted structure can be made in the form of spatially distinguished elements, for example, in the form of a monolithic folded shell 4.

α≅

,

(

-K-1)<h≅

. Сводчатая конструкция 2 может быть выполнена из разновысоких секций 5, 6. Часть из них имеет асимметричную форму относительно центральной вертикальной продольной плоскости здания с левой 6 и/или правой 7 асимметрией. Секции 6, 7 расположены с чередованием между собой или произвольно.The building may be symmetrical about its vertical central longitudinal plane. In this case, the angle of inclination to the horizontal of the supporting prefabricated elements 3 and the height of the building are determined respectively from the relations
arccos

α≅

,

(

-K-1) <h≅

. The vaulted structure 2 can be made of sections of different heights 5, 6. Some of them have an asymmetric shape relative to the central vertical longitudinal plane of the building with left 6 and / or right 7 asymmetry. Sections 6, 7 are arranged alternating between themselves or randomly.

 When the building is being constructed with a large-span vault 2, it can be reinforced with a support system consisting of pylons 8 and external cables 9. Pylons 8 are supported on a foundation 10.

 Prefabricated elements 3 are interconnected by welding from embedded parts, followed by monopolizing them with high-strength concrete.

 Installation of the building is carried out, starting with the installation of foundations, after which the arch is mounted using any known mounting means.

 The implementation of the proposed technical solution provides a positive effect in the form of a simplification of the structures of the building, construction, improving the manufacturability and economy of manufacturing and installation in relation to the conditions of mass construction, including in newly developed areas.

 At the same time, it is possible to expand the architectural forms of the building, structure, and the accepted ratios of the height and angle of inclination of the lower prefabricated elements allow to obtain the optimal shape of the building, structure, which leads to a decrease in the consumption of materials and the complexity of manufacturing and installation.

Claims (3)

 1. BUILDING, CONSTRUCTION, including a foundation and a vaulted structure of prefabricated flat elements of the same size, characterized in that the linear size of each prefabricated element a in the plane of passage of the vault is l / K, where K is an odd integer equal to or greater than 9, l is the span of the arch, while the number of prefabricated elements in the cross section of the arch is greater than or equal to K + 1. 2. The building, structure according to claim 1, characterized in that the prefabricated elements supported on the foundations are located in the range of angular values determined by the inequalities
arccos

α≅

,
and the height of the vaulted structure is limited by

(

-K-1) ≅h≅

.  3. The building, structure according to claims 1 and 2, characterized in that the vaulted structure is made at least on a part of its length from asymmetrical sections of the left and / or right asymmetry relative to its central vertical, longitudinal plane, arranged alternately or randomly.

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