RU2292415C1 - Method for constructing of protective backwater dams - Google Patents

Abstract

FIELD: hydraulic engineering, in particular, construction of backwater dams.

SUBSTANCE: method involves spreading soft cylindrical enclosures on ground and filling enclosure cavities with filler for rendering three-dimensional shape thereto; before spreading process, securing adjacent soft cylindrical enclosures along their generatrices into mats to form dam construction modules having wavy surface after filling thereof and rendering three-dimensional shape thereto; sequentially arranging modules within dam embankment in rows on "bonded brickwork" principle so that ridges of wavy surface of module in one row are inserted into slots of wavy surface of modules in other row; if necessary, building, during laying of modules, soft water-tight membrane in dam embankment, said membrane extending from the bottom to the top in dam embankment between adjacent modules within construction for improving protective properties thereof.

EFFECT: increased strength and stability of ready construction.

3 cl

Description

The invention relates to hydraulic engineering, in particular to the construction of protective water dams capable of containing the onslaught of natural water on industrial, civil, military and other objects.

There is a method of constructing water-supporting dams in the form of soft cylindrical shells that are filled with water or air (Soft structures in hydraulic engineering / B.I. Sergeev, P.M. Stepanov, B. B. Shumakov. - M .: Kolos, 1984. - 101 s.).

This method of constructing water-supporting structures allows you to quickly build protective dams. However, their reliability leaves much to be desired. In the case of a sudden puncture of the shells with sharp floating objects (ice, trees, etc.), the water-resistant structure ceases to fulfill its protective functions.

The closest technical solution to the present invention is a method of constructing water-supporting structures (dams) from soft shells that are filled with a solid filler, for example, soil (Soft structures in hydraulic engineering / B.I. Sergeev, P.M. Stepanov, B. B. Shumakov. - M.: Kolos, 1984. - 101 p.).

The main disadvantage of this method is the need for additional binding of the filled shells to each other in the body of the dam (for example, bandages) to prevent them from rolling out and to ensure the overall stability of the finished structures, which increases the complexity of the works on the construction of dams.

The purpose of the invention is to reduce the complexity of the production of works to protect objects for various purposes from floods, by erecting protective water-resistant dams.

The method is implemented as follows. Before the front of the natural onslaught, the water is spread on a soil base, if necessary, a waterproof screen (ponur) in the form of a flexible cloth. The soft cylindrical shells along their generators are fastened into two or three pieces into mats under the conditions of the building base (for ease of transportation and laying) so that later, when filling the mats and giving them a spatial shape, dam structure modules with a wavy surface are formed. Lay the first row of mats along the waterproof screen, fill the mats with a solid filler (for example, primer or concrete). Further laying of the mats and their filling are carried out in rows according to the principle of “brickwork with dressing” so that the protrusions of the wavy surface of the modules of one row fall into the hollows of the wavy surface of the modules of another row, providing good adhesion between the modules, and, accordingly, the strength and stability of the entire finished designs.

Modules of various sizes, made of two or three interconnected shells and filled with solid filler, allow the construction of protective dams of various shapes and sizes, since in each row of the dam with this combination of shells in the modules there can be any number (even or odd) "between the shells. The number of shells in the modules can vary (selected from the conditions of convenient transportation and styling), it is only necessary that there are modules with an even and odd number of shells. The cross-sectional shape of water-bearing protective dams can be rectangular, trapezoidal or triangular in cross-section with a wide range of slope angles due to the use of such modules. The diameter of the shells in the modules is selected depending on the strength properties of the material from which they are made (geosynthetic material). The length of the shells in the mats, from which the modules are formed, is selected from the conditions of ease of transportation and layout them on the ground. If necessary, a soft waterproof (geosynthetic) membrane is inserted into the body of the structure when laying the modules, passing from top to bottom in the body of the dam between adjacent modules inside the structure to increase its protective properties.

Reducing the complexity of the work at the place of construction of the dam is achieved by making mats from interconnected shells in a building base, which, after filling, act as modules with a wavy surface laid in the structure of the dam according to the principle of "brickwork with ligation."

The method can also be implemented in the construction of closed ring structures used as protective bunds of tanks and tank farms intended for storage of liquid hydrocarbons. Protective enclosures prevent accidental spreading of liquid hydrocarbons beyond the enclosure in the event of a leak in the tanks or their overflow.

Claims (3)

1. A method of constructing protective water-supporting dams, including spreading soft cylindrical shells on the ground and filling their internal cavities with filler, giving the shells a spatial shape, characterized in that adjacent soft cylindrical shells along their generators are fastened into mats before being laid out, forming the dam construction modules with a wavy the surface after filling the mats and giving them a spatial shape, the modules are placed in the body of the structure sequentially in rows according to the principle of "brickwork with ligation "in such a way that the protrusions of the wavy surface of the modules of one row fall into the hollows of the wavy surface of the modules of another row, providing strength and stability of the finished structure. 2. The method according to claim 1, characterized in that, when necessary, a soft waterproof membrane is built into the body of the structure when laying the modules, passing from top to bottom in the body of the dam between adjacent modules inside the structure, to increase its protective properties. 3. The method according to claim 1, characterized in that the shells are fastened along the generatrix into mats with an even and odd number of shells, thereby ensuring the creation of structural modules after filling them, allowing the construction of protective dams of various shapes and sizes.