SU844750A1 - Base of through-going column of metal framework - Google Patents

Description

(54) BASE OF METAL COLUMN

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The invention relates to construction and can be used in the construction of steel | 1x frames of industrial buildings in seismic areas.

Separate bases of through columns are known, including column branches, base plates, traverse p). The disadvantage of such bases is the rigid attachment of the column branches to the foundation and the high consumption of metal.

The base of the through column, consisting of a base plate, traverse bars welded to the branches of the column, and anchor tiles 23 is also known.

The disadvantage of such a base is the rigid attachment of the column to the foundation, which is undesirable for seismic construction areas, and high steel consumption for structural design of the base, in particular, due to the need to deepen the bottom of the column at least 600 mm from the top of the clean floor. CARCASA

The purpose of the invention is to increase the seismic resistance and decrease the skeleton meta-thickness.

This goal is achieved by the fact that in the base of the through column of the metal frame, including the branches of columns 1, support of the plate and anchor bolts, the base plates are made with developed end sections, having an width less than the width of the plate,

10 and attached to the foundation with anchor bolts.

FIG. 1 shows the proposed base of the through column; on figs section A-A of FIG. G.

Claims (2)

The base of the through column consists of branches 1 and lattice 2 columns, base plates 3, made of twisted square 4 and sections 4, width of which is less than the width of plate 3, foundation 5, to which base plates 3 are attached using anchor bolts 6, I-beam 7 , embedded in foundation 5 and connected with struts 8. During overloads during an earthquake in the branches x 1, large normal forces may arise, significantly exceeding the calculated ones. With large horizontal seismic loads in the base plate 3 of the extended branch 1 of the column, plastic deformations develop at the transition to a reduced cross section, due to which the support plate 3 bends and the stretched branch 1 of the column departs from the support 5. As a result, the maximum normal forces in the branch x 1 the columns are limited by the carrying capacity of the base plate 3, and part of the energy of the seismic effects is absorbed by the plastic work of the material of the base plate 3. Under the seismic load of the opposite sign, uta plate 3 is deformed in the opposite direction, and the second supporting plate 3 razvivayuts elastoplastic deformation. At the end of the earthquakes under the influence of the vertical load, the column takes up its original position, while the base plates 3 are straightened. The horizontal seismic loads are transferred to the foundation 5 by means of an I-beam 7 and struts 8. For the depth of the bottom of the proposed column 04 is 200 mm, thereby reducing the length of the column and anchor bolts 6 by 400 mm. In addition, there are no traverses and anchor tiles, which reduces the consumption of steel per column. Thus, the invention makes it possible to increase the reliability of operation of the columns in earthquakes and to reduce the consumption of steel for the framework columns. Claims of the base of the through frame of the metal frame, including the column branches, supporting plates and anchor bolts, characterized in that, in order to increase seismic resistance and reduce the metal intensity of the frame, the base plates are filled with developed face sections that are 1 times smaller than the width of the plate and attached to the foundation with anchor bolts. Sources of information taken into account in the examination 1.K.Muhanov Design of steel structures. M., State Publishing House of Literature on Construction and Architecture, 1956, p. 284, p. 171. 2. Belen E.I. Metal constructions . M., stroiizdat, 1976, p. 390, p. Xiy 17 L  one . . 1 I I I  I ff g / g.2