RU2032788C1 - Method for erection of structure from thin-walled steel shells on soft grounds of water area - Google Patents

Abstract

FIELD: construction. SUBSTANCE: method for erection of structure from thin-walled steel shells on soft grounds of water area consists in the following. Installed on shell 1 is standpipe 2. After installation of shell on bottom with soft ground, part of this ground 3 gets inside standpipe 2. Lower end of pipes 4 are located above lower end of shell. In course of filling the hollow with loose material, pipes are used to suck soft ground by means of pulp lifting equipment 6. When shell is filled with loose materials, pipes are withdrawn. Reactive forces arising in pipe withdrawal are transmitted through standpipe to drive shell into ground. Pipes are mounted in hollow over circumference coaxially to shell. To level shell installed with misalignment, pipes on the side of more deepened edge are withdrawn by vibration. EFFECT: improved service properties of structure due to its increased bearing capacity and levelling of misaligned shell. 3 cl, 4 dwg

Description

 The invention relates to the construction and can be used in the construction of artificial islands, enclosing lintels, berths and protective structures experiencing vertical and horizontal loads.

 The purpose of the invention is the improvement of the operational characteristics of the structure by increasing its bearing capacity, as well as aligning the shell installed with a bias.

 In FIG. 1 shows the shell water installed on soft soils; figure 2 the time of extraction from the bulk material of the pipe; in Fig.3 node pipe joint with the conductor when removing; figure 4 is the same, but with the imposition on the extracted pipe vibration.

 Work on the proposed method is as follows.

 The shore-mounted shell 1 is connected to a conductor 2, by which it is transported by a floating crane and installed at the bottom of the water area. During installation, the lower edge of the shell under the influence of gravity crashes into weak soil 3, which remains in the cavity bounded by the walls of the shell. Then, pipes 4 are mounted around the circumference, the coaxial shell, in its cavity so that their lower end is in a layer of soft soil slightly higher than the lower edge of the shell 1, and the upper parts of the pipes 4 are fastened with a conductor 2. After installing the pipes 4, the cavity of the shell 1 is filled bulk material (sand) 5, which, as the shell fills, squeezes the weak soil 3 into pipes 4. Simultaneously with filling the bulk material 5, the weak soil 3 is removed through pipes 4 using pumping or other sludge lifting equipment 6. In the filled shell bulk material is compacted, for example, using equipment 7 for deep vibration compaction, and then pipes 4 are removed. The pipes are removed using hydraulic jacks 8, the reactive forces of which are transmitted through the conductor 2 to the shell 1. Under the action of the forces transmitted from the hydraulic jacks 8 to the shell 1, its further deepening into the ground.

 If the shell 1, when installed in the water area, gets skewed, then the pipes are removed from the less deepened edge of the shell according to the described scheme, and the pipes are removed from the more deepened side of the shell with vibration. When vibrating, the forces of resistance to the extraction of the pipe 4 decrease and decrease the reactive forces from the hydraulic jacks 8, which are transmitted to the shell. To prevent unwanted effects of vibrations on the hydraulic jacks between their rods 9 and the clamping sleeve 10 set shock absorbing springs 11.

 Thus, various pressing forces act on opposite sides of the shell and its alignment occurs.

Claims (3)

 1. METHOD FOR CONSTRUCTING A STRUCTURE FROM THIN-WALLED STEEL SHELLS ON WEAK SOILS OF AQUATORIA, including fastening the conductor with the top of the shell, installing the shell on the bottom and filling its cavity with bulk material, characterized in that, in order to improve the operational characteristics of the structure and increase its bearing capacity also alignment of the shell, installed with a bias, previously placed in the cavity of the shell pipe, the lower end of which is located above the lower end of the shell, fasten them with a conductor in the process of filling the cavity with bulk material that squeezes the weak soil of the water area into the pipes, it is simultaneously sucked through the pipes outside the shell using sludge lifting equipment, and after filling the shell with bulk material, the pipes are removed and pressed into the soil by reactive forces arising from the extraction of pipes and acting through the conductor on the shell.  2. The method according to claim 1, characterized in that the pipes are placed around the circumference of the coaxial shell.  3. The method according to PP.1 and 2, characterized in that, in order to improve operating conditions by leveling in the case of installing the shell with a bias, the pipes from their more deepened edges are removed with vibration.

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