RU2078888C1 - Shelter - Google Patents

Abstract

FIELD: building of shelters as special structures at different objects. SUBSTANCE: aim is to increase carrying capability of shelters made of typical reinforced concrete members of silos structures from 1.0 to 3.0 kg/sq cm. Aim is achieved due to the fact, that shelter is made of volumetric blocks of silos bodies, from outer side of which in angular grooves there are ring-type soft members and on volumetric blocks sides inclined to ground side panels of silo bodies with supporting pivots turned to volumetric block are mounted. On top above volumetric blocks there are angular blocks of silo bodies, walls of which are resting at ring-type soft members and supporting pivots - at supporting pivots of silos bodies panels. In the case silo bodies panels lower supporting pivots are resting at ring-type soft members. Above silo bodies volumetric blocks there is cushioning layer and shelter is fully deepened in ground. Shelter as a version is built at objects of national economy simultaneously with erection of the objects and using similar typical structural members. In building of shelter it is possible to use defective members (with cracks, broken corners, etc). EFFECT: increased carrying capability of shelters. 1 dwg

Description

 The invention relates to the construction of special structures and can be used in the construction of shelters at various facilities.

 Civil defense shelters are known, the enclosing structures of which are made of unified special elements of the Y-01-01 / 80 and Y-01-02 / 80 series (Guidance on the design of building structures of civil defense shelters. M. Stroyizdat, 1982, p. 48) .

 The disadvantage of such shelters is that their use is effective with a building capacity of more than 150 people. In addition, for the production of elements of the indicated series, special lines are required at the precast concrete plants.

 At the same time, the number of the largest working shift at many facilities does not exceed 30-100 people, and the facilities themselves are scattered throughout Russia, which makes it difficult to deliver special building structures and materials.

 To this end, shelters are constructed from planar elements and bulk blocks of pedestrian and technological tunnels, collectors, etc. (V. Kotlyarovsky et al. "Shelters of civil defense. Designs and calculation. M. Stroyizdat, 1989, pp. 172-180).

 The disadvantages of these shelters are low bearing capacity and increased material consumption.

 The increase in bearing capacity can be achieved by increasing the class of concrete, increasing the cross-sectional area of the working longitudinal and transverse reinforcement, as well as by using steel with increased strength characteristics, which will entail a change in the production technology of these building structures.

 Closest to the invention is a shelter erected from volumetric blocks and ribbed slabs laid on the slopes (V. Kotlyarovsky et al. "Civil Defense Shelters. Designs and Calculation. M. Stroyizdat, 1989, p. 187, p. 5.13).

 This shelter is taken as a prototype, the prototype is the base object.

 The disadvantage of such shelters is a slight increase in bearing capacity, which narrows the scope of these protective structures.

 At the same time, elevators were widely used, the silos of which are made by teams of unified reinforced concrete elements: silo wall blocks, silo wall panels, etc. (Manual on the design of enterprises, buildings and structures for the storage and processing of grain ". M. TSITP Gosstroy USSR, 1986, pp. 15-26).

These elements make it easy to mount spatial structures of various configurations. However, the bearing capacity of such elements is 0.2-0.5 kgf / cm ² (based on the calculation of the equivalent static load and experimental studies) depending on their thickness, which does not allow their direct use as enclosing structures of civil defense shelters.

The aim of the invention is to increase the bearing capacity of shelters silt typical reinforced concrete structural elements of silos from 1.0 to 3.0 kgf / cm ² .

 The goal is achieved by the fact that the shelter is made of volumetric blocks of silo bodies, on the outside of which ring compliant elements are installed in the corner grooves, and panels of silo bodies inclined to the ground with support heights turned to the volumetric unit and turned above to the volumetric block are installed on the sides of the volumetric blocks, and above the volumetric ones the blocks are installed angular blocks of the silo bodies with the support of their walls on the ring compliant elements and supporting heels on the supporting heels of the panels of the silo buildings, the panel of the silo buildings with the lower supporting heels ami annular simply supported on the flexible elements, on top of bulk blocks of silage towers arranged dusting and shelter completely recessed in the ground.

 The proposed shelter is presented in the drawing and consists of three-dimensional blocks of silo blocks 1, corner blocks of silo blocks 2, panels of silo blocks 3 and ring flexible elements 4.

 On top of the volumetric blocks 1, dusting 5 is provided, and the shelter is in the ground 6.

 The shelter operates as follows: the dynamic load from the compression wave in the soil and soil sprinkling is first perceived by the corner blocks of the silo blocks 2 and the panels of the silo blocks 3. As a result of their movement and deformation, the partially weakened load is transmitted through the ring flexible elements 4 to the volume blocks of the silo blocks 1. In this case, the malleable ring elements 4 are deformed, providing absorption of a part of the energy of the compression wave, which allows limiting the maximum value of the dynamic load to the main unit 1. In addition, the corner silo bodies 2, resting on the supporting heels of the supporting heels of the panels of the silo bodies 3, cause the latter to deform with bending towards the ground, which additionally absorbs the energy of the compression wave acting on the volume blocks of the silo bodies. As a result, this technical solution improves the load-bearing capacity of the shelter structures.

Theoretical and experimental research results show that the bearing capacity of the proposed shelter can be brought up to 1.0-3.0 kgf / cm ² .

 The effect of applying the proposed asylum is that it can be erected at the objects of the economy simultaneously with the construction of the objects themselves and from the same typical structural elements. Moreover, when building a shelter, defective elements (with cracks, cracked corners, etc.) can be widely used.

Claims (1)

 A shelter made of volumetric blocks and panels, characterized in that it contains panels, volumetric and corner blocks of silos and ring flexible elements, the latter being installed on the outside of the volumetric blocks in the corner grooves, and corner blocks are placed above the volumetric blocks, the walls of the corner blocks and the lower supporting heels of the panel are supported on the ring compliant elements, and the supporting heels of the corner blocks on the upper supporting heels of the panels.