RU2607U1 - STORAGE FOR BULK MATERIALS - Google Patents

Abstract

Storage for bulk materials, including containers with walls of three-plane elements, consisting of a central part and adjacent to it at an angle of mutually parallel side parts arranged in rows in height with mutual displacement and with the ends of each three-plane element adjoining to the side surfaces of two other directly not connected interconnected elements of the same row, characterized in that the lateral parts of adjacent three-plane elements are placed perpendicular to each other with the formation of octa ial and square containers in the plan.

Description

STORAGE FOR TOP DRIVERS

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

A repository for bulk materials is known, formed from three-plane elements, including a central flat part and mutually parallel flat side parts adjacent to it at an angle, the elements being arranged in a row at a height with mutual displacement, ensuring that the vertical joints are ligated and joined so that the ends of each of a three-plane element adjoin the side surfaces of two other elements not directly connected to each other of the same row. Three-plane elements form hexagons in the case of hexagonal containers, the angle of inclination of the lateral parts of the three-plane element to its central part is 120 °, and in the case of the square 90 °, the lateral parts of adjacent elements are either on the same line in the plan or mutually parallel, or at an angle of 120 °, (A.S. USSR I 1203222, class E 04 H 7/22, 1990)

In such a storage design, due to the ligation of vertical joints due to the arrangement of wall elements with mutual displacement

the strength and stiffness of 1 oiLf oSh increases. In addition, the three-plane shape of the elements ensures good assembly of the storage and reduction of labor costs during its installation.

The disadvantages of this solution are the significant width of the three-shell elements and their inconvenient configuration with a steep adjacency of the side parts to the central part, which worsen the portability and manufacturability and increase the cost of manufacturing and transportation of the elements, as well as the insufficient operational quality of the storage, which makes it possible to increase the horizontal pressure on the walls and separation of granular material into fractions during unloading and hampering the active ventilation of HgM, cl. E 04 H 7/22

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The specified solution is focused on improving the operational qualities of the storage, increasing the portability and manufacturability of the elements, reducing the cost of manufacturing and transportation of the structure.

This is achieved by the fact that in the storage for bulk materials, including containers with walls of three-plane elements, consisting of a central part and adjoining nodes with an angle of mutually parallel side parts arranged in rows in height with mutual displacement and joined so that the ends of each three-plane element adjoin the side surfaces of two other elements not directly connected to the mowing of one row with it, the side parts of adjacent elements are placed perpendicular to each other. In this case, the elements form octagonal and square in terms of capacity, and the angle of inclination of the lateral parts of the three-plane element to its central part is 135 °.

The claimed solution in contrast to the prototype allows you to:

-position the lateral parts of adjacent three-plane elements mutually perpendicularly;

-to form a system of octagonal and square in terms of capacities, in which four square ones are placed around each octagonal capacity;

-increase the angle of inclination of the lateral parts of the three-plane element to its central part to 135.

All of the above can improve the operational qualities of the storage, increase the portability and adaptability of the elements and reduce the cost of their manufacture and transportation.

The storage is illustrated by the drawing, where figure 1 shows the layout of the elements in an even row; figure 2 is the same in an odd row; in Fig.3 - connection of a three-plane element with an adjacent one, plan; on fig - three-plane element, plan.

The storage includes walls of three-plane elements 1 and additional elements 2 arranged in rows in height with mutual displacement. Elements 1 have thickenings 3 at the ends and in the places of excesses, as well as holes 4 for bolts 5 at the ends and at the joints.

Elements 1 and 2 are made of reinforced concrete in the factory using traditional methods. The most appropriate height of the elements is 1.2 m, the diameter of the inner circle inscribed in the octagonal capacity is 4-6 m, the wall thickness is 80-120 mm,

The installation of the storage at the construction site is reduced to a tiered installation of elements 1 and 2 and connecting them with each other with bolts 5, passed through holes 4, with the subsequent monolithic joints,

In comparison with the prototype, the claimed solution allows to improve the operational properties of the storage due to the fact that square containers formed around the octagonal ones formed due to the perpendicular placement of the side parts of adjacent elements can be used for active ventilation (aeration) of bulk material, placement of elevators and other equipment, and also as vertical discharge channels, which makes it possible to avoid an increase in horizontal pressure on the walls (dynamic effect) and dividing the granular material into fractions during unloading.

In addition, the location of the side parts of adjacent elements perpendicular to each other allows you to increase the angle of inclination of the side parts of the three-plane element to its central part to 135 °, and thereby reduce the width and improve the configuration of the three-plane elements, which increases their portability and reduces transportation costs, as well as reduces the cost and simplifies manufacturing due to higher manufacturability, which makes it possible to use equipment more efficiently, reduce production area, simplify organization conveyor line

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Claims (1)

Storage for bulk materials, including containers with walls of three-plane elements, consisting of a central part and adjacent to it at an angle of mutually parallel side parts arranged in rows in height with mutual displacement and with the ends of each three-plane element adjoining to the side surfaces of two other directly not connected interconnected elements of the same row, characterized in that the lateral parts of adjacent three-plane elements are placed perpendicular to each other with the formation of octa ial and square containers in the plan.