RU2047690C1 - Foundation - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: floor of reinforced concrete plates is placed on filling material. The plates are placed in two rows and displaced about one another in each row. Axes of the plates are placed at acute angle to lengthwise axis of the bank. Horizontal crosswise members are placed on the plate. The members are made in the form of steel tubes and integrated into a circuit through lengthwise members to form closed frame-like structure. EFFECT: high strength and reliability. 3 dwg

Description

 The invention relates to construction, for foundation engineering, and may find application mainly in the development of oil and gas fields, for example, in the construction of superblocks.

 There is a well-known foundation, including a reinforced concrete flooring placed on a bedding.

 The disadvantage of this design is the inability to use the foundation for installing a superblock on it. The large weight of superblocks up to 600 tons does not allow the use of cranes to lift the superblock.

 The purpose of the invention is to reduce material consumption and the ability to install a superblock on a foundation.

 This is achieved by the fact that in the foundation, including the reinforced concrete slab flooring, the foundation is equipped with horizontal transverse elements laid on the slabs, and the reinforced concrete slabs are laid in two parallel rows with offsets relative to each other in each row, while the axes of the slabs are placed under an acute angle to the longitudinal axis of the embankment, and the horizontal elements are made of steel pipes and combined along the contour by means of longitudinal elements with the formation of a closed frame structure.

 In FIG. 1 shows a foundation, front view; in FIG. 2 same, plan view; in FIG. 3, section AA in FIG. 2.

 The foundation includes embankment 1, reinforced concrete slabs 2, steel pipes 3 and connecting elements 4.

 The construction of the foundation is as follows.

Embankment 1 is formed on the soil surface. From the side of pulling the superblock to the base, embankment 1 is performed with a slight slope. On the mound laid in two rows of reinforced concrete slabs 2, which have an acute angle ^of 10-15 to the longitudinal axis of the mound in rows offset relative to each other. Plates 2 are also laid on the gently sloping part of embankment 1. Before the superblock, steel pipes 3 are laid alternately on plates 2 with steel diameters of 80-100 mm, through which the superblock is easily rolled onto the platform.

 Pipes 3, when moving the superblock, act as roller bearings. The number and diameter of pipes designed to move the superblock to the base is taken from the condition of uniform loading from the superblock to plates 2, strength characteristics of the pipes and the slope of the embankment 1. To reduce the rolling friction forces when moving the superblock, the short ends of the plates are placed on the embankment at an acute angle relative to the long side of the pontoon 5. As a result, the contact area of the pipes 3 with the junction of the plates 2 is reduced by two to three orders of magnitude. A slight displacement of the plates 2 in rows relative to each other also reduces the contact area of the pipes with the joints of the plates.

 After the superblock is installed on the plates 2, the pipes 3 are connected at the ends and closed by the elements 4, forming a closed frame structure under the superblock, and the pipes and plates that were previously used on the gentle part of the embankment 1 (indicated by a dotted line) are removed. Using pipes 3 between the bottom of the pontoon 5 and the surface of the embankment 1, a windproof airspace is formed, which serves as an effective heat-insulating screen.

 Thus, the foundation simultaneously performs the functions of elements for moving the superblock, supporting structures (grillage) and heat-insulating screen.

Claims (1)

 A BASE including a reinforced concrete slab flooring, characterized in that the foundation is provided with horizontal transverse elements laid on the slabs, and the reinforced concrete slabs are laid in two parallel rows with offset relative to each other in each row, while the axes of the slabs are placed at an acute angle to the longitudinal axis of the embankment, and horizontal elements are made in the form of steel pipes and combined along the contour by means of longitudinal elements with the formation of a closed frame structure.

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