RU2011770C1 - Method for erecting steel pillar on reinforced-concrete foundation - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: reinforced-concrete foundation in the form of a cylinder is made on the erection site while liner for said cylinder is made at the plant, together with high-precision anchor bolts. Liner is inserted into cylinder, its position is fixed in accordance with design reference marks and the cylinder-to-liner gap is filled with concrete. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to the field of construction, in particular the construction of aboveground structures.

 A known method of mounting a steel column on a monolithic reinforced concrete foundation by attaching the column to the anchor bolts concreted in the foundation [1].

 Anchor bolts, fixing the position of the column in the plan, simultaneously receive pulling forces from wind loads. This requires a very accurate installation of anchor bolts in the foundation, otherwise the column will not fit onto the bolts with its holes in the base of the column.

 For alignment in height, a very precise execution of the foundation according to the elevation is also required, otherwise it will either be necessary to hollow the foundation, or use metal linings under the base of the column, but the threaded part of the bolts may not be enough.

 A disadvantage of the known installation method is that in the conditions of the construction site, it is practically impossible to install the bolts with the required accuracy due to the imperfect construction of the formwork and the inevitable errors when installing the bolts due to the specific conditions of the construction site.

 It is also not possible to carry out the foundation in compliance with absolute elevations due to the often low qualifications of construction workers, as well as the difficulty of reconciling elevations in building conditions, especially in winter with a short daylight hours.

 The closest solution to the described is a method of mounting a steel column on a reinforced concrete foundation, including fixing the column to the foundation using anchor bolts, each of which is previously embedded in a concrete insert [2]. The disadvantages of this method are the significant cost of labor and time for unfastening and alignment of the anchor bolts and liner.

 To eliminate these drawbacks in the method of mounting a steel column on a reinforced concrete foundation, including fixing the column to the foundation using anchor bolts, each of which is pre-embedded in a concrete insert, all anchor bolts are closed in one insert coaxially with the holes in the column, the insert is inserted into cup foundation followed by pouring grooves between them with concrete.

 The drawing shows a cross section of a mounted steel column on the foundation.

 A reinforced concrete cup 1 of the foundation is made, which can rest on piles 2, or without them, if soil conditions permit. Reinforced concrete liner 3, made in the molding workshop of the plant of reinforced concrete structures and including anchor bolts 4 installed in it along the conductor, is inserted into the glass 1. The inner chambers of the glass are selected so that it is possible to move the liner in the glass in all three dimensions for installation according to design dimensions. Then verify the position of the liner in the glass, fix its position with temporary wedges and fill the grooves with concrete 5.

 After gaining strength, they begin to install the steel column 6 without additional alignment, installing it directly on the upper plane of the liner 3 with holes on the anchor bolts 4.

 Using this installation method will allow you to avoid errors when installing a steel column on the foundation and get rid of significant costs when fixing defects, which is inevitable when performing the installation by the traditional method.

Claims (1)

 METHOD FOR INSTALLING A STEEL COLUMN ON A REINFORCED CONCRETE BASE, including fastening the column to the foundation using anchor bolts, each of which is pre-embedded in a concrete insert, characterized in that all anchor bolts are closed in one insert aligned with the holes in the column, the insert is inserted into the cup foundation followed by pouring grooves between them with concrete.

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