RU2078887C1 - Building - Google Patents

Abstract

FIELD: civil engineering, ground buildings sphere, building is used during erection of low buildings in areas, in which there is potential danger of blasts, hurricanes, storms, tornados, action. SUBSTANCE: aim is to increase buildings protective properties from action of outside blasts. The aim is realized due to the fact that additional inclined poles are mounted over inclined poles and ring-type soft members are mounted in clearance with required step, each of which is turned around own vertical axis of symmetry by 90 dwg in respect to neighboring members. In the case additional inclined poles are bound by curvelinear elastic band in finial lock and supports are made in the form of stop-support anchor members. EFFECT: significantly increased buildings protective properties from action of outside blasts. 1 dwg

Description

 The invention relates to the construction of ground buildings and can be used in the construction of low-rise buildings in areas where there is a potential risk of explosions, hurricanes, storms and tornadoes.

Known structural solutions of brick, large-block, large-panel and volume-block buildings [1,2]
Along with these buildings, there are frame buildings with a full and incomplete frame. Buildings with a full frame are made of columns, crossbars, self-supporting walls and floor slabs laid on crossbars. Buildings with an incomplete frame are made of an inner row of columns and crossbars, bearing external walls and floor slabs, laid on crossbars and load-bearing walls [1,2]
The disadvantage of these buildings is their destruction with a low intensity of explosive impact and the formation of fragments and fragments of structures, as a result of which people are affected.

 At the same time, the technical solution of the building is known, which has the most stable form of position during explosive actions.

Closest to the invention is a low-rise building, including supports, inclined racks mounted on them, fastened together by their upper ends by means of connecting elements and in the level of ceilings by means of horizontal load-bearing elements, and self-supporting walls [3]
This building is taken as a prototype, the prototype is the base object.

 The disadvantages of such buildings are low protective properties during explosive impact, the destruction and formation of debris and fragments of structures due to the rigid fixing of reflective surfaces.

 The aim of the invention is to increase the protective properties of buildings from the effects of external explosions.

The goal is achieved by the fact that over inclined racks additional inclined racks are installed with a gap, and in the gap with a necessary step, ring malleable elements are installed, each of which is rotated around its own vertical axis of symmetry by 90 ^o with respect to neighboring ones, and in the ridge castle additional inclined racks are connected by a curvilinear elastic strip, and the supports are made in the form of supporting anchor elements.

 The proposed building is presented in the drawing and consists of inclined racks 1, horizontal load-bearing elements 2 and 3, additional inclined racks 4, annular flexible elements 5, curved elastic strips 6, continuous battens 7, roof 8, floor 9, and supporting anchor elements 10 , connecting elements 11 and bolts 12.

 The building is installed on the base 13.

 The building operates as follows. Initially, an air shock wave acts on the roof 8 from the front side, a continuous lattice 7, and curvilinear elastic strips 6. These elements, deforming and bending, transmit the effect of dynamic load on additional inclined racks 4, which, acting on the ring flexible elements 5, cause their deformation (compression). When compressing the ring malleable elements 5, the dynamic effect is transmitted to the inclined racks 1.

 The rigid load-bearing structure of the building in the form of a triangular frame formed by inclined racks 1, horizontal load-bearing elements 2 and 3, relying on the support and anchor elements 10, provides immobility of the inner skeleton of the building.

 As a result of this, due to the inclined surfaces of the roof 8 and the flexibility of the annular flexible elements 5 and curved elastic bands 8 (during deformation of which a significant fraction of the energy of the air shock wave is absorbed), the amplitude of the effective excess reflection pressure decreases due to the violation of the diffraction and flow regimes, which allows you to form an intense dynamic load of reflection on the inclined surface of the roof 8 and on the building as a whole.

 The greatest excess reflection pressure is observed during diffraction by fixed rigid obstacles installed vertically.

 This ensures a significant increase in the protective properties of the building from the effects of external explosions.

Claims (1)

The building includes supports, inclined racks installed on them, fastened together by the upper ends by means of connecting elements and in the level of ceilings by means of horizontal load-bearing elements, and self-supporting walls, characterized in that additional inclined racks are installed above the inclined racks with a gap, and in the gap with necessary step mounted annular flexible elements, each of which is rotated around its own vertical symmetry axis by 90 ^o with respect to adjacent, wherein a ridge seals to olnitelnye inclined strut connected curved elastic band and supports are made in the form of thrust bearing anchoring elements.