SU1666640A1 - Gravitational reinforced-concrete sea structure - Google Patents

Abstract

The invention relates to the construction of hydraulic structures for the extraction of hydrocarbon raw materials. The purpose of the invention is to simplify the design, increase mobility and speed up installation at different depths of the water area and different dimensions of the structure. The structure consists of reinforced concrete box-shaped blocks 1, fastened together by U-shaped reinforced concrete lintels 2 and installed in grooves 3. The blocks have ballasting windows 4, sealed in the off position by covers 5, which are fixed to the bottom with hinges 6 and studs 7, studs 7, and an overflow device 9. The modular units 1 are ballast water, and after a structure is formed, they are ballast sand or gravel. 1 hp ff, 2 ill.

Description

The invention relates to the construction of hydraulic structures for the extraction of hydrocarbon raw materials.

The purpose of the invention is to simplify the design, increase mobility and speed up installation at different depths of the water area and with different dimensions of the structure.

Figure 1 presents the construction, top view; figure 2 - section aa in figure 1.

The marine reinforced concrete gravity structure consists of reinforced concrete box-shaped blocks of 1 step form. The blocks are installed on the planned seabed in the form of a tape base (Fig. 1) around the perimeter of a rectangle of any predetermined dimensions, multiples of the length of the modular blocks, and are fastened together by U-common reinforced concrete bridges 2 installed in the slots 3 of the upper part of the box-shaped blocks . The next in height Ruses of blocks 1 are installed with their narrower lower parts in the wider upper parts of the lower blocks, the closure of the U-shaped bridges of the lower blocks. The blocks 1 are in the bottom part of the ballasting window 4, sealed in the off position with covers 5, which are attached to the bottom with the help of hinges 6 and cotter pins 7.

The blocks that are installed in the bottom Rus directly on the bottom, have in the bottom part ballasting windows 4, sealed in the off position by covers 8, which are attached to the bottom with cotter pins 7. In addition, the blocks 1 have a bypass 9 in the bottom part to facilitate flooding. After the last floor of the modular units is installed, the internal space formed by the closed channels of the modular units can be ballast sand or gravel.

The factory-made blocks are floating afloat to the installation site, where they are orientated to the installation site with the help of floating cranes and flooded.

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by filling with water. Before the flooding of each block, the studs 7 are unpinned, water is supplied through the bypass device 9 into the block. When the hydrostatic pressure from the inner and outer sides of the caps 5 is equalized, they open under their own weight. The blocks installed in the lower Russian structure are equipped with covers 8 without a hinge 6 and are fastened on both sides with only splinted pins 7. When the block 1 is flooded, cover 8 opens and falls to the bottom.

The construction of the blocks allows the installation of an artificial structure in a short time, which is especially important in adverse weather conditions, and the short duration of the steep windows.

Claims (2)

Claims 1. Marine gravitational reinforced concrete structure, including modular blocks, ballasted by the working medium, installed coaxially with each other and connected to each other in height by socket fittings fixed relative to each other, and fixing points, characterized by simplify construction, increase mobility and simplify installation at different depths of the water area and at different overall dimensions of the structure; modular blocks are made in the form of a box-shaped stepped design with an open top and with ballasting windows in the bottom of the block, with removable lids on the outer side of the block bottom and installed by ruyas along the height and perimeter of the structure with the formation of a closed contour, the Russes adjoining each other and are interconnected with using links installed in grooves made in the upper part of the walls of adjacent blocks and closed by the next height rusami blocks. 2. Construction according to claim 1, characterized in that the fixing connections are made in the form of reinforced concrete U-shaped bridges. 2 1 Fig. /