RU2073083C1 - Method for construction of floated-in hydraulic structure foundation - Google Patents

Abstract

FIELD: hydraulic structures, for instance, floated-in concrete dams constructed on water area. SUBSTANCE: method for construction of floated-in hydraulic structure foundation includes manufacture on construction site of blocks in form of through lattice working, their transportation afloat to the place of installation, and installation of blocks into design position with the help of cranes. Distinguishing feature of the offered method is provision of each section of block, after installation of blocks in design position, with forms members, then, hollows of block and space between blocks are concreted to form single monolith. The offered technical solution allows construction of hydraulic structure foundation on unprepared bottom of water area and provides for its reliable conjunction with bottom and excludes noncontrolled process of filling with concrete of space between bottom of block and bottom of water area. EFFECT: higher efficiency. 2 dwg

Description

 The invention relates to hydraulic structures, for example concrete dams, erected in the water area by floating method.

 A known method of construction of a surfacing base, implemented by the design of the surfacing base according to ed. St. N 502084, CL E 02 B 17/02, 1974, installed on an unprepared bottom and allowing to pair the floating structure with the bottom of the water area by pumping concrete mixture under the bottom of the structure.

 The disadvantages of the invention are: it is applicable only for installation on soft soils; the process of pumping concrete into the space between the bottom of the structure and the ground is uncontrolled.

 A known method of erecting a floating base of a hydraulic structure, including the manufacture of blocks at the construction site made in the form of a through lattice structure, transporting them afloat to the installation site and installing the blocks using cranes in the design position (ed. St. USSR N 90015, class E 02 In 17/00, 1950).

 The disadvantage is that the lattice through structure does not meet the requirements for enclosing structures, such as dams.

 One of the main tasks arising in the construction of hydraulic structures, for example dams, by a floating method, is to solve the problem of interfacing a structure with soil and ensuring its water tightness.

 The invention allows to erect the base of a hydraulic structure on an unprepared bottom of the water area and ensures its reliable interfacing with the bottom, excluding the uncontrolled process of filling concrete between the bottom and the bottom of the water area with concrete. The specified technical result is achieved by the fact that in the method of erecting a floating base of a hydraulic structure, for example a concrete dam, including the production of blocks on the construction site made in the form of a through lattice structure, transporting them afloat to the installation site and installing the blocks using cranes in the design position, according to invention, after installing the blocks in the design position, equip each section of the block with formwork elements, and then concreting the cavity of the block and the inter-blocks for the formation of a single monolith.

 Figure 1 shows a diagram of the transportation and installation of the unit in the design position; figure 2 fragment filling the cavities of the blocks in the space between them with concrete.

 Before starting the construction of the foundation of a hydraulic structure, for example, a concrete dam, which must be erected in one water area at a considerable depth, on the shore, at the construction site, blocks of the through lattice structure are made of tubular elements. The block has supporting legs 1. For installation on an uneven unprepared bottom of the water area, each leg 1 has an internal strut 2, which is an adjustable support. Racks 2 are fixed at the top with the foot of the block.

 The assembled block in horizontal position is fed to inventory pontoons 3 (or to the deck of a special vessel). After towing the unit to the installation site, its lower part is lifted by a floating crane 4 and freed from pontoons located under the lower part. The block is translated into a vertical position using a floating crane and pontoons located in the upper part of the block. Ballasting of the upper pontoons is carried out until one of the legs of the base of the water area touches. The block is held in plan by towing vessels until the remaining support columns are lowered and fixed using special devices located at the top of each leg of the block. For the underwater foundation of a concrete dam, through lattice blocks are installed in two rows on the top and bottom sides.

 After installing the blocks in the design position, each section of the block is equipped with formwork elements, for example reinforced concrete shandors 5, installed in the groove devices of the blocks (not shown). Formwork elements can be installed either as the blocks are filled with concrete, or immediately to the entire height of the block.

 After installing the formwork elements on the blocks in the cavity of the blocks serves concrete on top. At the same time, concrete can be fed into the space between the blocks, forming a single monolith. So produce concreting to the full height of the blocks.

The advantages of the proposed method are as follows:
installation of blocks can be done on an unprepared base;
the lattice structure of the blocks, which does not have a dividing barrier between the soil base and the block itself, does not prevent the laying of underwater concrete directly on the base and over the entire height of the structure, which ensures the solidity of the structure and its reliable connection with the base of the water area.

Claims (1)

 A method of erecting a floating base of a hydraulic structure, for example a concrete dam, comprising making blocks at the construction site made in the form of a through lattice structure, transporting them afloat to the installation site and installing blocks using cranes in the design position, characterized in that after installing the blocks in the design each block section is equipped with shuttering elements, and then the block cavity and the space between the blocks are concreted to form a single monolith.

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