SU1574739A1 - Massif-stone work wall - Google Patents

Abstract

The invention relates to the field of construction and is intended for the construction of retaining walls in civil and hydraulic engineering construction. The purpose of the invention is to reduce the labor intensity of the construction and increase the reliability of operation with uneven subsidence of the base. The wall of massive masonry for construction includes a stone bed and a masonry of concrete blocks, while the arrays are made with through cylindrical holes, into which rigid cylindrical elements are placed, the axes of the holes are located in a horizontal plane parallel to the longitudinal axis of the building sheet of arrays, and the diameter of the through hole of the array is greater than the diameter of the cylindrical element by an amount not exceeding the value of the permissible non-uniformity of sediment adjacent pillars of arrays. 1 hp f-ly, 5 ill.

Description

The invention relates to construction and is intended for the construction of retaining walls in civil and hydraulic engineering.

The purpose of the invention is to reduce the complexity of the construction and increase the reliability of work with uneven subsidence of the base.

Fig. 1 shows a Fragment of the Lasada structure with a columnar stack of blocks of arrays united by a cylindrical element; in fig. 2 - the same, with stitching of seams when installing integrated blocks from arrays; in fig. 3 - enlarged block of connected arrays; in fig. 4 is a diagram of the mutual arrangement of the array and the cylindrical element before and after.

base sediments; in fig. 5 - a possible constructive solution for fastening a cylindrical element at the ends of the extreme arrays of an enlarged block.

The structure includes a stone bed 1, enlarged blocks of arrays 2 and the upper structure 3. Arrays 2 are made with holes 4, the axes of which are located in a horizontal plane parallel to the longitudinal axis of the structure and pass through the centers of the mass of the arrays. In these openings, rigid cylindrical elements 5 are placed, passing through the through openings of several adjacent arrays and uniting them into enlarged blocks. For fixing

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cylindrical elements at the ends of the extreme arrays of enlarged blocks (Figure 5) can be used limiters 6 of sheet steel with a thickness of no more than half the thickness of the vertical seam between the enlarged blocks.

The construction of the structure can be carried out in the following sequence; they make a stone bed; pre-assembled enlarged blocks from arrays (Fig. 3) are installed, the blocks can be installed (in the form of pillars (Fig. 1), and with stitching (Lig. 2); the upper structure of the structure is arranged.

The connection of arrays into enlarged blocks by means of a rigid element passing through holes located at the level of the center of gravity of the arrays makes it possible to simplify and speed up the installation of the structure. When mounted, the enlarged unit can be lifted by fixing the crane sling either to the end caps of the cylindrical elements or to the parts 7 welded to the latter (Fig. 3), placed in the mounting holes 8 of the extreme arrays of the enlarged blocks. When installing the structure below the water level in such openings, milestones can be placed that serve as guides when winding up and installing the upper blocks of the structure.

The connecting cylindrical elements 5 must be designed to work on bending both at the stage of assembling the enlarged blocks and during the operation of the structure with uneven subsidence of adjacent arrays of one enlarged block, In the first case, i.e. when the enlarged block is moved during its installation into the body of the structure, element 5 bends as a cantilever or cantilever (depending on the location of the lines) the beam on the load from the weight of the arrays forming the block. In the second case, i.e. during operation of the mounted structure, the connecting element 5 may or may not perceive external transverse load

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747394 (in case of uneven subsidence of block arrays, the most subsided arrays hang on element 4), as shown in Lig.4. Due to the fact that connecting element 5 is partly based on the least sagging (or not dead) block arrays and perceives the load from the weight of sagging arrays of the same block hanging on it, the vertical forces are redistributed between all the arrays of the enlarged block, with the result that these forces individual arrays are leveled, and this, in turn, leads to a smoothing of stresses in the stone bed and in the soil foundation, as well as to a reduction in the unevenness of the sediment of the structure. This effect makes it possible to reduce the height of the stone bed and, consequently, reduce the costs for the construction of the structure.

Claims (2)

1. Wall made of solid masonry for construction, including stone bedding and masonry concrete masonry 25 thirty 35 40 BOB, characterized by that, in order to reduce the laboriousness of the construction and increase the reliability of work with uneven subsidence of the base, the arrays are made with through cylindrical holes in which rigid cylindrical elements are placed, the axes of the holes passing through the centers of the weight of the arrays the longitudinal axis of the structure, and the diameters from (in the absence of block sediments or at 55 holes more than the diameters of a cylindrical uniform sediment of block arrays), by an amount, the weight does not exceed the weight of the permissible unequal or several block arrays, the dimension of the sediment of adjacent arrays. 515747396 2. The wall according to claim 1, of the distinctive elements in aggregate with the fact that the arrays are lengthwise. the walls are connected using cylinders / Fy / Fig.Z T 4 5 FIG. five eight