RU2040672C1 - Bulk material storage - Google Patents

Abstract

FIELD: industrial and agricultural construction. SUBSTANCE: bulk material storage has main vessels and auxiliary vessels, whose walls are formed by built-in solid blocks arranged in rows through vessel height in mutually spaced relation. Solid blocks have two cavities divided by curved portions and two cantilevered curved portions. Ends of cantilevered portions are made thickened and are provided with openings for bolts positioned in their ends and in joints. EFFECT: increased efficiency and enhanced reliability in operation. 4 dwg

Description

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

 A repository for bulk materials is known, including cells from the main containers and additional lenticular containers located around them, the walls of which are formed by volumetric blocks arranged in rows in height with mutual displacement for ligation of vertical joints. Volumetric blocks are made in the form of an open cylinder with an internal cavity having the form of an additional container and located with the formation of two cantilever cylindrical sections. The ends of the cantilever sections of each volume unit are adjacent to the ends of the additional cylindrical elements, made in the form of part of the cell perimeter and not containing internal cavities. In each row, the walls of the capacitance cells are formed of two volumetric blocks, two additional open elements made in the form of a part of the cell perimeter, and two open cylindrical elements made in the shape of the inner side of the lenticular part of the volume block. Volumetric blocks in each row are placed so that their axis of symmetry lie on one straight line. Additional open cylindrical elements, made in the form of a part of the cell perimeter, are placed in such a way that their axis of symmetry lie on another line that is perpendicular to the first line. The center of the cell in the plan is located at the intersection of these lines. Each volume unit encloses one main tank. The outer wall of its cavity does not serve to enclose the main tank.

 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 blocks are stable during installation and do not require temporary fastenings.

The disadvantages of this solution are the following:
a large number of elements and joints falling on the main tank, which determines the insufficient level of assembly of the structure and increased labor costs during its installation;
high material consumption of the structure due to the fact that each volume unit encloses only one main tank;
the heterogeneity of the elements forming the walls of the tanks, which determines the insufficient unification of the design solution and the associated increased manufacturing costs.

 The purpose of the invention is to increase the prefabricated structure, reducing its material consumption and reducing the cost of manufacturing and installation.

 The goal is achieved in that in a storage for bulk materials, including cells from the main containers and additional lenticular containers located around them, the walls of which are arranged in rows arranged in height with mutual displacement for ligation of vertical joints with volumetric blocks in the form of an open cylinder with an internal cavity having the shape of the additional tank, located with the formation of two cantilever cylindrical sections, the shape, the docking system and the layout of the volumetric blocks are changed. In the proposed solution, each volume unit is made with two cavities located so that a cylindrical section is formed between them. The ends of both cantilever sections of the volume block of one cell are adjacent to the outer side surface of the volume block of the adjacent cell in the area of its internal cavity. In this case, the symmetry axes of the volume blocks, intersecting, form a closed polygon in plan, at the vertices of which the centers of the cells are located.

 The proposed solution allows each volume block with two cavities located to form a cylindrical section between them, to ensure the uniformity of the elements forming the walls of the storage tanks, create a system for placing volume blocks in which each of them is the side of several main containers, and dock the volume blocks by attaching the ends of both cantilever sections of the block of one cell to the outer side surface of the block of the adjacent cell in the area of its internal cavity cell centers in the vertices of the polygon formed by the intersecting axes of symmetry of bulk blocks used as barriers for the main tanks and the inner and outer walls of the cavities of volume units.

 All of the above allows you to increase the prefabricated structure, reduce its material consumption and reduce the cost of manufacturing and installation.

 In FIG. 1 shows an even-out layout plan for volume units; in FIG. 2 the same, in an odd row; figure 3 connection of the volume unit with an adjacent plan; figure 4 volumetric block plan.

 The storage includes cells of the main containers 1 and additional containers 2, the walls of which are volume blocks 3, arranged in rows in height with mutual displacement and containing two cavities 4, a cylindrical section 5 and two cantilever cylindrical sections 6. Volumetric blocks 3 have thickenings 7 at the ends console sections 6, as well as holes 8 for bolts 9 at the ends and at the joints.

 Along the perimeter of the storage in the zones of lenticular additional containers 2, in order to increase its volume, other volume blocks 3 can be docked, however, it should be borne in mind that the vertical joints in these places will be made without height dressing. The most appropriate number of building blocks in a row is six.

 Volumetric blocks 3 are made of reinforced concrete in the factory using traditional methods. The most appropriate height of the blocks is 1.2 m, the diameter of the inner circle is 4-6 m, the wall thickness is 80-120 mm.

 The installation of the storage at the construction site is reduced to the tiered installation of volumetric blocks 3 and their connection with each other with bolts 9, passed through holes 8, followed by monoling.

 In comparison with the prototype, the proposed storage due to the changed shape of the volumetric blocks and the docking of each of them with both ends of the cantilever sections to the outer side surface of the volumetric block of an adjacent cell in the area of its internal cavity, due to the reduction in the number of volumetric blocks and mounting joints per one main container, allows you to increase the prefabricated structure and reduce the cost of its installation.

 In addition, the system is placed volumetric blocks and cells in the plan, in which each volumetric block is the side of several main containers, due to the fact that the inner and outer walls of its cavities serve as fences of the main containers, allows you to reduce the relative perimeter of the walls and thereby reduce material consumption designs.

 It should be added that the proposed form and system for joining volumetric blocks, ensuring the uniformity of the elements forming the walls of the storage tanks, allows to increase the level of unification of the design, which leads to lower costs for manufacturing and improving the quality of industrial products.

Claims (1)

 STORAGE FOR BULK MATERIALS, including cells from the main containers and additional lenticular containers located around them, the walls of which are arranged in rows arranged in height with mutual displacement for dressing the vertical joints with volumetric blocks in the form of an open cylinder with an internal cavity having the form of an additional container located with the formation of two cantilever cylindrical sections, characterized in that each volume unit is made with two cavities located with the formation of c of cylindrical portion therebetween, wherein the ends of the two cantilevered portions of one cell unit adjacent to an outer side surface of the adjacent unit cells in the inner cavity area, wherein the cells are arranged on the sides of the polygon formed by the intersecting axes of symmetry of bulk blocks.

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