RU2093650C1 - Shelter - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this relates to shelters for personnel of enterprises of various purpose. Walls of shelter are made of blocks with vertical passages placed with overlapping of their vertical joints. Blocks are connected by means of reinforced concrete inserts installed in passages at clearance which is filled with pliable material such as foamed polyurethane. Overhead covering is made up in height of two rows of blocks with vertical passages which are laid on walls and connected with walls by protrusions of inserts. Placed over upper row of blocks is sheet material, and provided between rows is pliable layer laid on screen. EFFECT: high efficiency. 1 dwg

Description

 The invention relates to the field of construction of special structures and can be used in the construction of shelters in enterprises of various directions.

Known civil defense shelters with enclosing structures made of unified special elements of the standard series U-01-01 / 80 and U-011-02 [1]
The disadvantage of these 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 technological lines are required at the precast concrete plants.

 At the same time, the largest working shift at most facilities does not exceed 100 150 people, and the facilities themselves are located throughout the country, which makes it difficult to deliver special building structures to the construction site.

A shelter is known that includes walls made of foundation blocks sealed with dressing and a wall covering [2]
The disadvantage of this solution is the increased material consumption and the need to install reinforced coating plates.

 The problem solved in the invention is the increase in bearing capacity.

 This problem is solved due to the fact that the blocks are made of reinforced concrete with channels and connected by reinforced concrete inserts installed in the channels with a gap filled with pliable material, and the coating is formed in height from two rows of blocks with vertical channels connected to the walls through the outlets of the inserts, layer from malleable material laid on a grid between the layers of blocks, and sheet material placed on the upper row of blocks.

 The drawing shows a section of the shelter.

 The shelter includes blocks 1 with channels, reinforced concrete inserts 2, ductile material 3, sheet material 4, ductile layer 5, mesh 6.

 The shelter is buried in the ground, and a soil coating 7 is provided on top of the cover.

The shelter operates as follows:
the dynamic load from the compression wave in the soil and soil sprinkling 7 is transmitted to the wall blocks 1 and sheet material 4. Under the influence of the dynamic load, the wall blocks 1 are moved in the direction of the dynamic load action, thereby deforming the compliant material 3. At the same time, the sheet material 4 is deformed due to the presence of vertical channels in the blocks. In this case, the energy of the dynamic load is absorbed as a result of deformation of the sheet material 4, thereby reducing the dynamic load on the upper row of coating units. Under the influence of an over-calculated dynamic load, a break of the sheet material 4 may occur, blocking the channels of the blocks. In this case, sprinkling soil may fall through the holes, which will be delayed by the compliant layer 5 and the net 6. Thanks to the compliant layer 5 and the net 6, the impact of the failed soil is mitigated. In addition, the presence of a compliant layer 5 provides vertical movement of the upper row of blocks 1, which further reduces the dynamic load acting on the shelter cover.

 In view of the foregoing, an increase in the bearing capacity of blocks 1 is provided, which generally increases the protective properties of the shelters. Similar effects were obtained when conducting separate experimental studies of fragments of shelters.

Approximate calculations show that the bearing capacity of the proposed shelter can be brought up to 0.5.0.8 kgf / cm ² .

 The indicated bearing capacity of the shelter allows to protect the largest working shift of the facility.

Claims (1)

 A shelter, including walls made of foundation blocks laid with dressing and a wall-supported coating, characterized in that the blocks are made of reinforced concrete with channels and connected by reinforced concrete inserts installed in channels with a gap filled with pliable material, and the coating is formed in height from two rows of blocks with vertical channels connected to the walls through the outlets of the liners, a layer of compliant material laid on a grid between the layers of blocks, and sheet material placed on the top a number of blocks.