RU2049850C1 - Hydraulic structure - Google Patents

Abstract

FIELD: hydraulic engineering. SUBSTANCE: hydraulic structure is made of shells 1 installed on prepared base and filled with filling material 2. Shells are connected by superstructure 3. Lower end of each shell has bevel 6 corresponding to bottom inclination in point of installation of shell into structure. EFFECT: higher efficiency. 3 dwg

Description

 The invention relates to hydraulic engineering and can be used in the construction of protective, mooring or shore protection structures from the shells.

 Due to a number of significant advantages of the construction of structures from shells, they are widely used in hydraulic engineering construction. The main elements of such structures are shells filled with loading material, and the superstructure is the superstructure. Shells differ in design in cross section. The shell can be installed on a stone bed or partially buried in the bottom of the base, can be monolithic, composed of rings or shells.

 As a prototype, you can take a hydraulic structure in the form of a promenade, including shells installed on a prepared base, filled with loading material, and a superstructure.

 The disadvantage of the prototype, as well as other similar structures installed on a solid foundation (rock), is the considerable laboriousness of preparing the foundation, since it is necessary to cut down a foundation pit or a horizontal platform in solid rock. Difficulties increase if the bottom at the construction site abruptly descends towards the sea.

 The objective of the invention is the reduction of the complexity of the erection of a hydraulic structure on a rocky base, i.e. when there is no practical possibility by known methods of deepening the shell into the base.

 The essence of the invention is that in a structure comprising shells installed on a prepared base filled with loading material and a superstructure according to the invention, the lower end of each shell is made with a bevel corresponding to the slope of the bottom at the place of its installation in the structure.

 The bevel at the lower end of the shell can be performed during the manufacturing of the shell on the shore according to the results of preliminary measurements of the bottom profile at the place of its installation, or if the shell is assembled from individual shells in place, during the immersion and installation of individual shells. The above confirms the industrial applicability of the invention.

 Due to the adopted design of the lower end of the shell, the invention provides the opportunity to abandon completely or spend little effort on preparing the foundation pit for the structure, i.e. you can fit into a natural or slightly laid down slope of the bottom, which has never been done before.

 The invention is illustrated by drawings, which depict options for its implementation (cross sections).

 In FIG. 1 shows a restrictive structure; figure 2 retaining structure; figure 3 berth.

 The hydraulic structure consists of shells 1 installed in a row on the prepared base, filled with backfill material 2 and superstructure 3. Depending on the purpose and structure of the structure, backfill 4 behind shells 1 (see Fig. 2) or overpass 5 is arranged (Fig. . 3).

 When erecting a structure, the base of the bottom is first prepared at the place of installation of the shells, which may consist in clearing or in its flattening. Since the bottom end of each shell 1 is made with a bevel 6 corresponding to the slope of the bottom at the place of its installation (the bevel can also be made along a broken line (Fig. 3), the process of preparing the bottom becomes less laborious than when erecting structures from shells of traditional structures.

 The stability of the shell on the slope is calculated by known methods as a gravitational structure. According to these calculations, the transverse shell size is established. The shell can be in the cross section of a round, oval, rectangular, polygonal and any other shape. The stability of the shell on the slope can be enhanced by its anchoring to the base or coastal slope. To level the base, bed 7 of stone can be dumped.

 Shell 1 is installed on the prepared base, filled with backfill material 2 (usually stone or sand). On a number of shells arrange a superstructure 3 of monolithic or precast concrete.

 Depending on the purpose of the structure, its design resists shock waves of the open sea (Fig. 1) or is used as a promenade (Fig. 2) or a pier (Figs. 2 and 3). The load on the gravity structure is perceived by its entire mass and transferred to the base. The weight of the structure ensures its stability on the slope.

Claims (1)

 HYDROTECHNICAL STRUCTURE, including shells installed on a prepared solid, mainly rocky base, filled with loading material, and a superstructure, characterized in that the lower end of each shell is made in whole or in part with a bevel corresponding to the slope of the base at the place of its installation in the structure.

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