RU2572398C1 - Storage for loose materials - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: storage includes octagonal and square in plan reservoirs with walls from three-plane elements and non-standard precast elements, arranged in rows along the height with mutual displacement. The three-plane elements are connected in pairs into assembly units with a cavity square in plan, where a band is installed.

EFFECT: reduced material intensity of manufacturing, increased operational reliability of a storage and reduced time of assembly.

3 dwg

Description

The invention relates to the field of construction and can be used in the construction of storage facilities for bulk materials.

Known storage for bulk materials, including octagonal and square in terms of capacity with walls of three-plane elements, consisting of a Central part and adjacent to it at an angle of the side parts arranged in rows in height with mutual displacement and with the ends of each three-plane element adjoining the side surfaces of two other directly unrelated elements of one series about it. Both side parts of each three-plane element are placed at an angle of 135 ° to its central part. Three-plane elements are element-wise coupled during the tiered installation performed during the installation of the storage at the construction site. Square in terms of capacity are formed by the lateral parts of four elements in each row and do not contain elements coaxial to the lateral parts of adjacent elements / RU 2607 U1; Ε04Η 7/22; 03/06/1995; 08/18/1996 /.

The placement of both side parts of each three-plane element at an angle of 135 ° to its central part, which determines the element-wise assembly with the formation of each square in terms of capacity from the side parts of the four elements in each row, does not allow the use of coaxial unloading elements, which leads to increased material consumption and low operational reliability of the storage, and also increases the installation time.

The objective of the invention is to reduce the material consumption of manufacturing and increase the operational reliability of the storage, as well as reducing the time of its installation.

This problem is solved due to the fact that in the storage for bulk materials, including octagonal and square in terms of capacity with walls of three-plane elements, consisting of a Central part and adjacent to it at an angle of the side parts, arranged in rows in height with mutual displacement and adjacent the ends of each three-plane element to the side surfaces of two other elements not directly connected to each other of the same row, according to the claimed technical solution, one of the side parts of each t ehploskostnogo element arranged perpendicularly to the central part, and three-plane elements pairs are connected to mounting blocks with square plan cavity accommodating cord connecting the three-plane elements and coaxial side portions of two adjacent elements of the block with a number of them.

The invention is characterized by the following significant distinguishing feature: the placement of one of the side parts of each three-plane element perpendicular to its central part and the pairwise connection of the three-plane elements in the mounting blocks with a square cavity in the plan, in which there is a tie connecting the three-plane elements and coaxial to the lateral parts of the two elements adjacent to the block one row with him.

The indicated significant distinguishing feature allows to reduce the material consumption of manufacturing and increase the operational reliability of the storage, as well as to reduce the installation time.

The storage is illustrated by drawings, where in FIG. 1 shows a plan for placing elements in an even row; in FIG. 2 - the same, in an odd row; in FIG. 3 - mounting block of two three-plane elements, plan.

The storage includes walls of three-plane elements 1 and additional elements 2 arranged in rows in height with mutual displacement. Elements 1 are connected in pairs in mounting blocks with a square cavity in plan 3, in which the cord 4 is placed.

When forming mounting blocks with square cavities 3 in plan, along with connecting the ends of the elements 1 to the lateral surfaces of the paired elements 1, the elements 1 included in the mounting block are connected by a tie 4. Otherwise, the manufacture and connection of elements 1 and 2 is carried out using known methods and means.

When the storage walls are erected, the rods 4 located in the cavities 3 occupy a position aligned with the lateral parts of the elements 1 of the row adjacent to the mounting block, and as a result of this, during operation of the storage, tensile forces are perceived from the load created by the bulk material loaded into the storage tank, and contribute to the redistribution of efforts on the structure of the repository.

Thus, the placement of one of the lateral parts of each three-plane element 1 perpendicular to its central part and the pairwise connection of the three-plane elements 1 in mounting blocks with a square cavity 3 in plan, in which a tie 4 is placed, connecting the three-plane elements 1 and coaxial to the lateral parts of two adjacent to the block elements 1 of one row with it, due to the inclusion of strands 4 in the work of perceiving and redistributing tensile forces from the load created by the bulk material loaded into the storage tank, It is possible to reduce the material consumption of manufacturing and increase the operational reliability of the storage, as well as to shorten the period of its installation by accelerating the installation work carried out using enlarged mounting blocks.

Claims (1)

Storage for bulk materials, including octagonal and square tanks with walls of three-plane elements, consisting of a central part and adjacent to it at an angle of the side parts, arranged in rows in height with mutual displacement and with the ends of each three-plane element adjoining the side surfaces of the other two directly on interconnected elements of the same row, characterized in that one of the side parts of each three-plane element is placed perpendicular to its central hydrochloric part and three-plane elements pairs are connected to mounting blocks with square plan cavity accommodating cord connecting the three-plane elements and coaxial side portions of two adjacent elements of the block with a number of them.

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