RU2140495C1 - Method for erection of prestressed multiple-bay building frame - Google Patents

Abstract

FIELD: construction of frame buildings. SUBSTANCE: the method comprises installation of pillars with through grooves at the level of the floor, mounting of floor slabs, placement of stressed reinforcement between the floor slabs in the pillar grooves bending of the reinforcement in accordance with the preset profile of the bending moments in the building bays, tension of the reinforcement with subsequent fastening of its ends on the extreme pillars of the building and monolithic finish of seams and grooves. The reinforcement is unbent as follows: on the side of application of reinforcement tensile force in the first building bays by fixing the bend points to reinforcement tension, and in the subsequent ones - after reinforcement tension by application of concentrated vertical forces to the reinforcement in the bend points. EFFECT: provision of uniform reduction of the floor in each building bay, reduced loss of prestressing in reinforcement. 4 dwg

Description

 The invention relates to the construction, namely to prestressed reinforced concrete frames of multi-span buildings.

 Known pre-stressed frame of a multi-storey building, during the construction of which columns are installed, floor slabs are mounted, prestressed reinforcement is placed in the gaps between the plates and in the channels of the columns, bends of the prestressed reinforcement are made with its subsequent tension / 1 /.

 The disadvantage of this method is the uneven compression of the overlap due to the manifestation of significant losses of prestressing in distant spans from the tension application force.

 Closest to the proposed method is a method of erecting a prestressed building frame, including installing columns, securing temporary mounting bridges on them, through which floor slabs and side elements are laid out in the design position, installing rigid inserts in accordance with the diagram of bending moments of the overlap, concreting contact joints between the plates and the column, the passage into the holes of the columns of the prestressed reinforcement with its placement between the plates under the rigid inserts and after concrete set the required strength, tension and fixation of reinforcement on the extreme columns of the building, followed by monoling joints with prestressed reinforcement / 2 /.

 The disadvantage of this method of construction is the uneven compression of the floor in different spans due to significant loss of prestress during tension of the reinforcement due to the arising friction forces in the channels of the columns and on the hard inserts.

 The technical problem is to reduce the complexity and material consumption during the construction of the building by ensuring uniform compression of the floor in each span of the building and reduce the loss of prestressing in the reinforcement.

 The problem is solved in such a way that in the method of erecting a prestressed frame of a multi-span building, including installing columns with through channels in the floor level, installing floor slabs, placing prestressed reinforcement between the floor slabs and in the column channels, bending the reinforcement in accordance with a given diagram of bending moments in the spans of the building, the tension of the reinforcement, followed by fixing its ends on the extreme columns of the building and monolithing the seams and channels, according to the invention, bending arm urs performed: from the application-tensioning force in the first spans the building by fixing the points of inflection to tensioning, and in subsequent - after tensioning by application of concentrated forces in vertical reinforcement inflection points.

 The proposed construction method differs from the known one in that the rebar bending is carried out: from the side of the application of the reinforcement tension force in the first spans of the building by fixing the inflection points before the reinforcement tension, and in the subsequent ones, after the reinforcement tension is applied by applying concentrated vertical forces at the inflection points of the reinforcement.

 The use of various methods of bending in the spans, namely, the device of the part of the bends before tension, and the other part after tension, makes it possible to ensure uniform compression of the floors in all spans, reduce the complexity and material consumption during the construction of the building by reducing the loss of prestressing in the reinforcement.

In FIG. 1 - presents a layout of prestressed reinforcement with force P _sp within the overlapping height and stress diagram in this reinforcement at the time of stress during bending at two points; in FIG. 2 is the same as FIG. 1, after bending is carried out by applying vertical forces to the reinforcement at the inflection points, where P _z = P _sp • sinα; in FIG. 3 is the same as FIG. 1, when bending at one point; in FIG. 4 is the same as FIG. 2, for bends at one point, where P _z = 2P _sp • sinα.
The method of erecting a prestressed frame of a multi-span building includes installing columns 1 with through channels at floor level 2, securing temporary mounting tables on columns, installing floor slabs, concreting contact joints between columns and slabs, placing tensioned reinforcement 3 between floor slabs and in column channels. Next, bends are carried out at points 4 of reinforcement 3 in the first flights of the building from the side of the application of the tensile force P _sp , after which the reinforcement is tensioned by applying the force P _sp and its fixation on the extreme columns by anchors 5. Then, bends are performed at points 6 of the reinforcement 3 by applying vertical forces P _z at the inflection points. Next, produce monolithic joints with prestressed reinforcement 3 and channels in the columns 1.

When bending at one point P _z = 2P _sp • sinα; and when bending at two points, P _z = P _sp • sinα.
Example.

When erecting a prefabricated reinforced concrete frame, the length of which consists of 14 spans when tensioning the reinforcement with fixation of the inflection points to tension in all spans in the first 7 spans of the building from the side of the application of the tensile force, the tension in the reinforcement drops down within the permissible (up to 5% of P _sp ), starting from the 8th span, the voltage loss is 8 - 20% P _sp .

To reduce the voltage loss in the spans from 8 to 14, the bends of the reinforcement are produced after tension by applying vertical forces P _z at the inflection points. As a result, voltage losses are reduced to acceptable values.

Sources of information:
1. SU Copyright certificate N 1799973, cl. E 04 B 1/18; BI N 9, 03/07/93.

 2. RU Patent of the Russian Federation N 2020210, cl. E 04 B 1/18; BI N 18, 09/30/94 (prototype).

Claims (1)

 A method of erecting a prestressed frame of a multi-span building, including installing columns with through channels in the floor level, installing floor slabs, placing prestressing reinforcement between the floor slabs and in the column channels, bending the reinforcement in accordance with a given diagram of bending moments in the spans of the building, the reinforcement tension followed by fixing its ends on the extreme columns of the building and monolinging the seams and channels, characterized in that the bending of the reinforcement is carried out: from the application of reinforcement n stringing a first reinforcement spans the building by fixing the points of inflection to tensioning, and in subsequent - post-tensioning reinforcement by applying vertical forces are concentrated at the points of inflection reinforcement.

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