CS266542B1 - A method of carrying out a major reconstruction of a steel structure of a building on a strong underdeveloped territory - Google Patents

Abstract

The aim of the solution is to achieve a time-saving and cost-effective rectification of the building. For this purpose, a new foundation strip is concreted. Presses with beams are placed on the extension pipes for the foundation of the steel structure and by alternately supporting the beams and press bases, the entire steel structure is raised to the height of the rectification, after which the presses and bases are removed and a new extension with new anchor bolts is inserted into the freed space under the column, which are secured. Then, new pipes are attached to the anchor grid, on which the presses are placed, the structure is lifted with the presses, the bases are removed and the column is lowered onto a new bearing.

Description

The invention relates to a method for carrying out a large rectification of a steel structure of a building in a heavily mined area and to solves a time-saving and economically economical rectification of a building.

At present, the rectification of steel structures of buildings is ensured, for example, by performing an anchorage structure above the ground, where the steel structure is raised according to the needs of presses, which are placed in prepared pockets or under welded brackets of steel columns of structures.

The disadvantage of this rectification is that it places relatively considerable demands on space, while in the case of a building located in confined spaces, for example in a railway track, this rectification cannot be used. In addition, the rectification of the building must be carried out each time the terrain is leveled. Another foundation option is to place the anchorage below ground level. Ensuring rectifiability is done by enclosing the anchorage structure with a protective wall of such dimensions that the press can fit to the anchorage even with the operator. The disadvantage of this type of rectification is the relatively expensive construction modifications of the protective wall, which must be carried out every time the terrain is leveled. It is also a disadvantage that even minor rectifications are expensive and require interruption of the building for a longer period of time. A common disadvantage of both types of design is the need to weld the anchor bolts during large rectifications, which reduces their load-bearing capacity.

The above-mentioned drawbacks are eliminated by the method of carrying out a large rectification of the steel structure of a building in a heavily mined area, according to the invention, after several elevations of the terrain, when its level is identical with the upper level of the shaft of the extension for founding the steel structure. The essence of the invention is that a new foundation strip is concreted, presses with beams are placed on the extension tubes and the whole steel structure is lifted by the rectification height by alternating underlayment of beams and presses with substrates. inserts a new attachment with new anchor bolts to secure. Then new pipes are attached to the anchor grate, on which the presses are placed, the structure is lifted by the presses, the substrates are removed and the column is lowered onto the new bearing.

The advantage of the method of carrying out a large rectification of a steel structure of a building in a heavily mined area according to the invention is that rectification is not necessary until the height reserve is exhausted when lifting the terrain, the anchorage structure not taking up space above the terrain. It is also an advantage that it is not necessary to weld the anchor bolts and thus reduce their load-bearing capacity even with repeated major lifting of the building, which can be gradually lifted by more meters. The economic savings resulting from this method of rectification are also an advantage.

The accompanying drawings show the individual phases of the method of rectifying the steel structure of a building in a heavily mined area according to the invention, where Fig. 1 is an initial operating state of a steel building structure in a schematic elevation, Fig. 2 is a side view; steel structures after lifting the terrain and exhaustion of the height reserve, which is the initial stage of lifting, Fig. 4 is a side view of this situation, Fig. 5 is a schematic elevation of the state of the structure in the final stage of rectification after complete lifting and storage of the new extension; Fig. 7 is a schematic elevational view of the situation of the steel structure of the building after the lowering of their supporting columns on the new extension, and Fig. 8 is a side view of the situation of Fig. 7.

To clarify the method of large rectification of the steel structure of the building in a heavily mined area, it is stated that a new concrete is built around 4x6.5 m in the transverse direction and 10x6 m in the longitudinal direction, in which the projected ground clearance base strip 13 2 m wide. Two hydraulic presses 10 with a maximum pressure of 200 t are placed on the pipes £ of the extension 2 for laying the steel structure. A total of 55 columns £ of the steel structure are laid. Beams 11 are placed on the presses 10 under the brackets 12 of the columns 6 and by alternately supporting the beam 11 type I 300 and hydraulic presses 10 with substrates 14, which form concrete panels measuring 0.15x1x2 m, the whole steel structure rises by the rectification height The presses 10 and the substrates 14 are then removed and new extensions 2 'with a height of 1.15 m are inserted into the free space under the columns 2 of the steel structure with new anchor bolts 5' of size M 42x4, which are secured. Then onto the anchor grate

CS 266 542 B1 welds new tubes 6 '0 200x10, on which the presses 10 are placed, the whole structure is lifted by 10 mm by these presses 10, the substrates 14 are removed and the columns 2 ^are lowered onto their new bearings 4. Finally, the presses 10 remove beams 11 and substrates 14. This rectification is used when lifting the structure from 500 mm to 1,500 mm.

Claims (1)

OBJECT OF THE INVENTION Method of carrying out a large rectification of a steel structure of a building in a heavily mined area after several elevations of the terrain, when its level is the same as the upper level of the shaft of the extension for foundation of steel structure, characterized by concreting a new foundation strip (13) presses (10) with beams (11) are placed and the entire steel structure is lifted by the height of rectification by alternating underlayment of beams (11) and presses (10) with bases (14), after which presses (10) with bases (14) are removed and a new extension (2 ”) with new anchor bolts (5”) is inserted in the free space under the column (1), which is secured, then new pipes (6 ') are attached to the anchor grate (3), on which the presses ( 10), the structure is lifted by the presses (10), the substrates (14) are removed and the column (1) is lowered onto a new bearing (4 *).