SU953161A1 - Loose material storage - Google Patents

Description

(54) STORAGE FOR BULK MATERIALS

one

The invention relates to construction, namely storage facilities for bulk materials.

Storage for granular materials assembled from spatial elements (volumetric blocks and corner elements) and flat plates arranged in vertical and horizontal planes united in groups into silos 1 is known.

However, this storage has the small size of a separate silo, the increased labor intensity of the production of volumetric elements, significant transport costs caused by the underload of transport by spatial elements ..

Closest to the invention is storage for bulk materials, including cells bounded along the contour by flat elements. The enlarged cells include the central cell and the square cells adjoining it on both sides, with the central cell of the lower row perpendicular to the cell of the lisped row. For storage, panels are used in two sizes along the length of which have ribs for interconnecting 2.

A disadvantage of the known construction of the storage facility is the insufficient spatial rigidity of the structure as a whole, since the structure with a hinged bolt joint of panels in the absence of

5 horizontal stiffening diaphragms are instantly changeable.

In addition, the known technological complexity of manufacturing ribbed plates, the presence of closed molded cells, which require the installation of bypass holes in panels, and the wide range of prefabricated products caused by the different solutions of individual components are inherent in the design.

The aim of the invention is to simplify installation, increase rigidity and tightness of the structure.

The goal is achieved by the fact that in the storage for bulk materials, including cells, bounded by flat elements, each cell is provided with angular elements and a volume block located between the corner elements, the latter being installed in a plan along one of the diagonals of each cell, and rows adjacent in height are in the perpendicular direction, with the length of each flat element being equal to the side of the cell ..

FIG. 1 shows storage for bulk materials, section; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one; in fig. 4 — node I in FIG. one; in fig. 5 shows a section B-B in FIG. four; in fig. 6 — node II in FIG. one; in fig. 7- section GGD in FIG. 6; in fig. 8 shows the node III in FIG. one; in fig. 9 is a section d-d in fig. eight.

Storage for bulk materials includes flat large-sized elements 1 and 2, forming the contour of the cell, while the elements 1 of greater thickness have anti-rain ridge. The enlarged cell 3 is assembled from volumetric blocks 4, creating a central core of rigidity, and angular elements 5 located along the diagonal of the cell. Overflow holes are provided along the entire height of the central core. The connection of three-dimensional blocks and corner elements is performed by a traditional connection on bolts, the connection of corner elements with flat elements — by welding or screws; the vertical joints of flat panels are frame-assembled-monolithic, arranged in inventory heated formwork. The presence of sabrnomonolitnyh vertical joints in combination with horizontal schvami, reinforced by an anti-rain barrier, provides the storage of increased tightness. Corner elements 5, in order to save materials, are installed in height with discontinuities of the size of one module, while these elements are supported on volumetric blocks 4 and flat elements 1 and 2 with the help of special tides 6, ensuring at the same time forced-exact installation of structures. The presence of these gaps and bypass holes in the central core allows to combine all the space of the enlarged cell into one

volume In order to simplify the mounting one-stage and ensure the reliability of the temporary attachment of large elements, the volume blocks 4 and the elements 1 and 2 are mounted at the same height, and the corner elements 5 are half of the module. The release of bulk materials is carried out both through the central core and through the annular space formed by installing the central outlet funnel below the installation level of the flat elements.

The arrangement of angular elements and volumetric blocks along the diagonal of the cell reduces by 4.5 times the number of necessary volumetric blocks and reduces

three times the length of vertical shvov, cut four times the range of wall elements.

Claims (2)

1. USSR author's certificate number 494515, cl. E 04 H 7/22, 1980. 2. USSR author's certificate for application number 2670651 / 29-33, cl. E 04 H 7/22, 1978. J 1 0 AT in-in 5 I / ./ R U FIG. 6 gd