RU2045641C1 - Storehouse for friable materials - Google Patents

Abstract

FIELD: industrial and agricultural structures. SUBSTANCE: storehouse comprises main storages of a square shape in plan and additional square storages whose walls are made of sectional three-panel members straight members and additional members arranged vertically in rows with alternating members and linear members which ensure binding of vertical joints. Wall members have thicker portions at the ends and holes for the bolts. EFFECT: improved design. 6 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 walls of prefabricated three-panel elements. Three-panel wall elements consist of the middle part and adjacent to it from different sides at right angles to the two extreme parts. Three-panel elements are arranged in rows in height with ligation of vertical joints and form containers having a square shape in plan. Each non-contour three-panel wall element at both ends is docked to the side surfaces of two adjacent three-panel elements at their bends so that two wall elements are joined at each node. In this case, all square containers have the same dimensions, and the middle parts of three-panel elements are equal in size to the side of the square container. Three-panel elements are placed in all rads along the height of the store. The extreme parts of the three-panel wall elements are perpendicular to the middle part of the element to which they are attached, and are located coaxially with its extreme parts. The connection of three-panel elements is carried out by welding metal plates with embedded parts, followed by monolithic butt grooves [1]
In this solution, due to the ligation of the vertical joints, the strength, rigidity and reliability of the structure are increased. At the same time, the execution of wall elements enlarged contributes to the increase in the integrity of the storage.

The disadvantages of this solution are:
poor transportability of three-panel wall elements, increasing the cost of their transportation;
the high cost and the complexity of performing butt joints, requiring the use of a large amount of welding work at a construction site;
insufficiently high operating qualities of the storage, allowing the possibility of increasing horizontal pressure on the walls and separating bulk material into fractions during unloading, as well as making it difficult to conduct active ventilation (aeration) of bulk material.

 The invention is aimed at reducing the cost of transportation and installation of prefabricated wall elements and improving the performance of the storage.

 This is achieved by the fact that in the storage for bulk materials, including walls of prefabricated three-panel elements, consisting of a middle part and two extreme parts adjacent to it at right angles, arranged in rows in height with ligation of vertical joints and forming square containers in terms of capacity, around each square capacity placed four additional square containers having smaller dimensions. In this case, the extreme parts of the three-panel elements are placed coaxially with the middle part of the wall three-panel element to which they are attached. In this solution, the middle parts of the three-panel elements are made smaller than the sides of the main square container. The walls of the storehouse, in one row in height, are assembled from rectilinear wall elements. Rectilinear elements are made in length by the total size of the sides of the main and additional square containers. They were docked so that the ends of two adjacent wall rectilinear elements are attached at two places to the opposite side surfaces of each non-rectilinear rectilinear wall element. In all nodes of the storage, two wall elements are docked.

The claimed solution in contrast to the prototype allows you to:
to provide placement between each four square main capacities of one square additional capacity;
create a container system in which each primary square container is surrounded by four additional square containers;
to perform the middle part of each three-panel wall element with a size less than the side of the main square container;
place the extreme parts of three-panel wall elements aligned with the middle parts of those three-panel elements to which they are attached;
use rectilinear elements with a length equal to the sum of the sides of the main and additional capacities through one row in height to make the walls.

 Figure 1 shows the layout of prefabricated wall elements in an even row; figure 2 is the same in an odd row; figure 3 joint of three-panel wall elements, plan; in Fig.4 joint of rectilinear wall elements, plan; in FIG. 5 three-panel wall element, plan; Fig.6 rectilinear wall element, plan.

 The storage includes the main containers 1 of a square shape in plan and additional square containers 2, the walls of which are made of prefabricated three-panel elements 3, rectilinear elements 4 and edge additional elements 5, arranged in rows in height with alternating rows of elements 3 and 4, providing vertical ligation joints. Wall elements 3 and 4 have thickenings 6 at the ends and holes 7 for bolts 8.

 Wall elements 3 and 4 are made of reinforced concrete in the factory using traditional methods. The most appropriate height of the wall elements is 1.2 m, the dimensions of the sides of the main square containers are 3-6 m, the wall thickness is 100-160 mm.

 Installation of the storage at the construction site is reduced to the tiered installation of elements 3, 4 and 5 and their connection with each other by bolts 8, passed through holes 7, followed by monolithic.

 Compared with the prototype, the claimed storage due to the implementation of the middle parts of three-panel wall elements the size of which is less than the side of a square container allows them to give a more transportable shape, which, along with the use of enlarged rectilinear wall elements with good transportability, leads to lower transportation costs. In addition, rectilinear elements are more simple in technological terms and require less manufacturing costs.

 Placing the extreme parts of three-panel elements coaxially with the middle parts of adjacent elements allows using thickenings facing additional containers at the ends, and thanks to them, it is easier to solve joints by using bolted connections, which reduces the cost and laboriousness of installation works.

 A system of containers in which each main square container is surrounded by four additional containers allows you to use additional containers for active ventilation (aeration) of bulk material or as vertical discharge channels, eliminating the possibility of increasing horizontal pressure on the walls and separating the bulk material into fractions during unloading, which improves storage performance.

Claims (1)

 STORAGE FOR BULK MATERIALS, including square containers, the walls of which are made of three-panel elements, consisting of a middle part and adjacent to it from different sides at right angles of two extreme parts, arranged in rows in height with ligation of vertical joints, characterized in that it is equipped with installed through one row in height with rectilinear elements and additional elements placed along the storage perimeter, and the extreme parts of three-panel elements are aligned with the middle parts of adjacent three-panel elements when connecting, they form four additional square containers placed around the main container, with the length of each rectilinear element being equal to the sum of the sides of the main and additional containers.