RU2044122C1 - Loose materials storage - Google Patents

Abstract

FIELD: industrial and agricultural engineering. SUBSTANCE: storage has main and additional compartments whose walls are formed by assembled sectional three-dimensional members and making-up three-dimensional members arranged in rows in height with relative displacement and forming three spaces as additional compartments. Three- dimensional members have holes for bolts in end faces and in dividing places of inner spaces. EFFECT: enlarged operating capabilities. 4 dwg

Description

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

 Known storage for bulk materials, including the main tank and located around it lenticular additional containers, the walls of which are formed by curved prefabricated volumetric elements of the same type, containing a cavity in the form of an additional container and stacked in rows in height.

 The presence of additional containers when used as vertical discharge channels avoids the increase in horizontal pressure on the walls and the separation of bulk material into fractions when unloading from the main tank, as well as conduct active ventilation (aeration) of bulk material. Volumetric wall blocks are stable during installation and do not require temporary fastenings.

The disadvantages of this solution are:
a large number of prefabricated elements falling on the main tank, which determines the insufficient level of assembly of the structure and increased labor costs during its installation;
lack of dressing of butt welds in height, reducing the strength, rigidity and operational reliability of the structure;
increased material consumption of the structure due to the fact that each volume element encloses only one main tank.

 The invention is aimed at increasing the assembly, rigidity and operational reliability of the structure, reducing the complexity of its installation and material consumption.

 This is achieved by the fact that in the storage for bulk materials, which includes the main containers and lenticular additional containers located around, the walls of which are formed by curved prefabricated volumetric elements of the same type, containing inside the cavity in the form of additional containers and stacked in rows in height, the volumetric elements contain three cavities, and their outer walls are made in plan in the form of a semicircle. Volumetric elements are located with a mutual displacement in height, providing bandaging of vertical joints. In this case, the ends of each element are docked to the outer lateral surfaces of two other elements not directly connected to each other of the same row with their convex side in the zones between the cavities. In this solution, two others are attached to the lateral surface of each element, and their docking is carried out on the same side.

The claimed solution allows to implement:
docking one element to the side surface of another element with its convex side;
the implementation of volumetric elements with three internal cavities;
a volumetric element placement system in which each non-contour volumetric element is a side of four main capacities;
division of volume elements by docking places into three equal parts;
dressing of butt joints in height;
the use of their internal and external parts of the volume element as the walls of the main containers;
docking of each element with the ends of the other two, not directly related to each other;
docking to each non-contour element of two others on one side of it;
the implementation of the outer wall of the volumetric element in plan in the form of a semicircle.

 This allows you to increase the integrity, rigidity and operational reliability of the design, reduce the complexity of its installation and material consumption.

 In FIG. 1 shows the placement of volumetric prefabricated wall elements in an even row, plan; in FIG. 2 the same, in an odd row; in FIG. 3 connection of a volumetric wall element with an adjacent one, plan; in FIG. 4 volumetric prefabricated wall element, plan.

 Storage for bulk materials includes the main 1 and additional 2 containers, the walls of which are prefabricated volumetric elements 3 and additional volumetric elements 4, arranged in rows in height with mutual displacement and containing three cavities 5 inside in the form of additional containers 2. Volumetric elements 3 have openings 6 under the bolts 7 at the ends and in the zones between the cavities 5.

 Volumetric wall elements are made of reinforced concrete in the factory using traditional methods. The most appropriate height of the wall elements is 1.2 m, the diameter of the inner circle inscribed in the main containers is 4-6 m, the wall thickness is 80-120 mm. The outer side of the volume element is equal to half the circle.

 The installation of the storage for bulk materials at the construction site is reduced to the tiered installation of prefabricated volumetric elements 3, their connection with each other and with additional elements 4 with bolts 7, passed through holes 6 with subsequent monolithic.

 The claimed storage for bulk materials due to the shape of the elements and the system of their joining, which determine the performance of volumetric elements with three internal cavities, due to the reduction in the number of prefabricated elements and mounting joints per container, allows you to increase the integrity of the structure and reduce the complexity of its installation.

 In addition, the location system and the shape of the volumetric elements allow to achieve dressing of butt joints along the height, which provides increased rigidity and operational reliability of the structure. This is also facilitated by the overall decrease in mounting butt welds per both the main and one additional capacity.

 The system of placement of volumetric elements, in which each non-contour volumetric element is the side of four main capacities, due to the fact that both the internal and external part of the volumetric elements serve as their walls, will reduce the relative perimeter of the walls and thereby reduce the material consumption of the structure.

Claims (1)

 STORAGE FOR BULK MATERIALS, including the main containers and additional lenticular containers located along their perimeter and inscribed in a circle in the form of the same volumetric elements arranged in rows in height, the outer side of which in plan is part of the circle, and the inside has a cavity in the form of an additional container, characterized in that each volumetric element is made with three cavities, and its outer side is equal to half the circumference, and is located with a shift in height, while the ends of each volumetric element are attached to the outer side of two adjacent volumetric elements in the zones between the cavities, and two other volumetric elements are attached to its outer side.

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