SU987062A1 - Ferroconcrete structure - Google Patents

Description

(54) REINFORCED CONSTRUCTION

one

The invention relates to the construction, in particular to reinforced concrete structures 1 ", which are being designed again or are to be restored during operation.

Known reinforced concrete structures, equipped with an external spatial substructure 1.

The closest technical solution to this invention is a reinforced concrete structure of the beam type, containing external reinforcement made in the form of transverse rods fixed on the horizontal surfaces of the support sections 2.

The disadvantage of these structures is insufficient stiffness and crack resistance.

The purpose of the invention is to increase the crack resistance and stiffness.

This goal is achieved by the fact that the reinforced concrete structure of the beam type, containing external reinforcement made in the form of transverse rods mounted on the horizontal surfaces of the support sections, is provided with plates and longitudinal rods connecting the plates.

and the upper faces of the support sections are made with vertical ledges on the floor of the slab.

FIG. 1 shows a reinforced concrete structure (girder), side view; in fig. 2 5 same plan view; in fig. 3 shows section A-A in FIG. one; in fig. 4 shows a section BB in FIG. one.

The reinforced concrete structure includes a bolt 1 with ledges 2 and with outlets of reinforcement 3 and a substructure consisting of longitudinal 4 and transverse rods 5 interconnected by plates 6. The plates are in contact with embedded metal plates 7. The reinforcement 4 and 5 can be tensioned .

Due to the concrete-metal nlits 6, installed in the supporting parts and secured with tensioned transverse rods, the shear and torsional rigidity of the sections increases.

In view of the fact that the compliance of the upper plates in the horizontal plane is limited to specially arranged ledges, and the lower plates are capable of shifting during bending-torsional effects on the transom bars.

the longitudinal and transverse rods of the substructure are additionally stretched as the load increases, increasing the lateral compression of the bolts. In this case, the self-stress of the bolt in the transverse direction occurs and a corresponding decrease in the growth of the main tensile stresses in the concrete, which are the cause of the formation of inclined cracks. As a result, the crack resistance of the bolt locking sections increases.

Placing the supporting concrete-metal plates on embedded metal plates during the vibration process creates conditions for dry friction, which increases dissipative properties. The support plates together with the plates perform the role of dry friction dampers, which reduce the vibration of the foundation at resonant frequencies.

With industrial testing, the rigidity of the structure was restored to such an extent that during the temperature expansion of the turbine, the twist angle of the bolt and the rotation of the chair of the second subunit was set within the permissible limits of ± 0.6 mm / m. The operation of the foundation and turbine bearings in this range of angular deformations of the bolts provides non-stop operation of turbine units during scheduled overhaul periods, and the restoration and improvement of rigidity of the bolts during torsion will extend the service life of prefabricated foundations for turbine units.

Claims (2)

1. USSR Author's Certificate No. 771304, cl. E 04 G 23/02, 1979. 2. Mikheev I. I. Strengthening of structures of industrial buildings and structures, M., stroiizdat, 1969, p. 36 6 2 g 7 J / .. 6 but BUT fГ / / FIG. Jf.