RU2063497C1 - Method for erecting foundation - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: support shell is made of sections made in the form of cylindrical rings with openings placed in symmetry around the circuit and being strung on guides suspended from conductor placed over water surface to be descend to the ground. Then the well is worked through the cavities. Then the cavities are filled with structural material together shell cavities. Number of sections is specified by the depth of support submerging, and the sections are tightened using guide securing members as they are strung on. EFFECT: erection of foundations on deep water reservoirs. 4 dwg

Description

 The invention relates to foundations erected on a terrain covered with water, and can be used in the construction of various structures: bridge supports, power lines, etc.

 There is a method of erecting a foundation / 1 / in an area covered with water by lowering it from the watercraft to the ground at the location of the shell support formed on reinforced concrete pipes, after which a well is developed using a drilling rig and it is filled and the concrete shell cavity, forming a support. In a similar manner, the remaining foundation supports are erected, and then metal sheet piles are hammered around the foundation perimeter in the form of a ring covering all the foundation supports, the soil is removed from the sheet piling and the space between the supports is concreted.

 The technical solution adopted for the prototype is a method of erecting the foundation / 2 / by assembling the support shell from building elements lowered to the ground along the guides installed along the perimeter of the support shell, and then performing wells in the soil through the cavity of the support shell and filling them with structural material.

 The proposed method, in comparison with the known one, allows the production of deeper supports by increasing the strength and manufacturability of the construction, which is achieved due to the fact that the guides are suspended on the external structure, and building elements made in the form of sections having the shape of a cylindrical ring with holes symmetrically arranged around the circumference , coaxially lowered to the ground, strung on guides, while the number of sections is determined by the depth of immersion of the support, and sections as they grow along jected to a coupler with a locking element guides.

The proposed method is illustrated by drawings:
figure 1 section of the shell of the support;
figure 2 mounting supports;
figure 3 support assembly, a vertical section;
figure 4 locking element.

 The sections of the shell of the support 1 are in the form of a cylindrical ring with through holes 2 and mounting nodes 3, consisting of a liner 4, inserted into the recess of the housing of section 1, into which a guide 5 is put on and put on sleeve at the docking section with the section 6. The liner 1 is fixed, for example, using a bolt with a nut 7 and brackets 8.

 The support shell is mounted using an external structure, for example, in the form of a conductor frame 9 held above the water surface at the installation site of the support using floating cranes 10 on which flexible guides 5 made of metal or synthetic rope / cable / are fixed. The section with the help of mounting nodes is connected to the guides 5 and the section is lowered onto them onto the ground. Subsequent sections are mounted in a similar manner, the number of which is determined by the depth of the reservoir. To ensure stability during installation and installation in the required position, sections 1 are equipped with traps for clamps (not shown in the drawing), which are proportional protrusions and recesses located on opposite planes of the cylindrical ring, as in the prototype.

 As the support height increases, the sections are coupled with locking elements made, for example, in the form of a conical sleeve 11, which consists of two parts, and a spring 12 placed in the sleeve of the lower part of the hole through which the guide 5 passes. Under the action of the overlying gravity section, sleeve 11 is pressed into the hole of the underlying section, through which passes the guide 5.

 Sections 1, dialed to the required height, form cavities 13 and 14, through which then wells 15 and 16 are made in the soil. After the development of all the wells, the prefabricated vertical elements 17 and 18 are lowered into the wells and in the shell cavity, which form sections 1, moreover, they are selected in length so that the line (plane) of their docking in cavities 13 and 14 is at different levels both between themselves and in sections. This is necessary in order to ensure the solidity and strength of the support on the perception of horizontal forces. The free space between them is filled with bulk material (sand, gravel). After filling all the cavities, the grillage 19 is erected, the conductor frame 9 is removed and the excess sections of the guides 5 are cut off. After the concrete forming the grillage has acquired the necessary strength, the support is ready for operation. Using the proposed method, you can build a foundation at depths of up to 300 meters. In this case, the diameter of the foundation can reach 80-100 meters, the diameter of the support can be at least 400 mm, the thickness of section 1 can be almost any, and the diameter of the cavity 14 can be in the range of 400 4000 mm. because depends on hydrogeological conditions. The diameter of the central cavity of section 1 may be half the diameter of the support.

 A comparative analysis of the known and proposed methods for erecting a support teaches that the last of them requires less installation time of the support, provides greater strength. YYY2

Claims (1)

 A method of erecting a foundation, including assembling a shell from building elements, lowered one on top of the other from the bottom of the water area to the level of its surface along guides located around the perimeter of the support shell, making wells in the ground through the cavity of the support shell and filling them with structural material, characterized in that cables are used as guides, the upper ends of which are previously fixed on a conductor located above the surface of the water, and building elements in the form of cylindrical rings as uskaniya pull together with each other locking elements.

Images