RU22161U1 - MONOLITHIC PRELIMINARY STRESS NON-KEYBOARD BUILDING FRAME - Google Patents

Description

Monolithic prestressed bezelless frame of the building.

The invention relates to building structures, namely to frame buildings and structures with tension in building conditions.

Known frame system IMS for the construction of residential buildings and public buildings, containing columns, ceilings, prestressed fittings,

laid between overlapping panels in mutually perpendicular directions, passed through openings in columns and monolithic with concrete / 1 /.

The closest design is a prestressed monolithic reinforced concrete frame of the building, including columns, floors, and prestressed reinforcement located in the channels of the overlapping in mutually perpendicular directions. / 2 /

The disadvantages of the known designs are the complexity and the complexity of the erection of the frame due to the busyness of the operation of placing and tensioning the reinforcement in the body of the ceiling, the difficulty of placing hollow formers in the formwork, as well as the need to inject concrete in the channels and filling the joints after tensioning the reinforcement.

The technical task is to reduce the time of construction of buildings due to the possibility of increasing spans while maintaining crowd overlap and reducing weight and simplifying work when tensioning reinforcement and concreting.

20-01126780

The technical problem is solved in such a way that in a monolithic prestressed bezelless frame of the building, including columns, floors, and located in the channels of the floor in mutually perpendicular directions, the prestressed reinforcement according to the invention, the prestressed reinforcement is freely movable in the channels formed by the tubes, and placed in the body of the ceiling in accordance with the diagram of moments with a radius of curvature along the axis of the column equal to 2-3 column widths, and in a single span equal to 5-10 span lengths, while the overlap is equipped with non-removable hollow formers placed in the spans between the columns and interconnected fixing rod elements made with the possibility of interaction with the formwork elements of the frame.

The proposed design differs from the known one in that the prestressed reinforcement is freely movable in the channels formed by the tubes and placed in the body of the ceiling in accordance with the diagram of moments with a radius of curvature along the axis of the column equal to 2-3 column widths, and in the middle of the span equal 5-10 span lengths, while the overlap is equipped with non-removable hollow formers placed in the spans between the columns and interconnected by fixing rod elements made with possible Stu interaction with frame formwork elements.

prestressed reinforcement consists of rope reinforcement placed freely in the tube and located along the curve of the diagram of overlapping moments in the span with a radius of curvature (R) with a minus sign and on a support (in a column) with a radius of curvature (g) with a plus sign. Such a shape of the location of the reinforcement along the overlap section determines the transmission of the vertical component of the tension force directed directly down to the supports, and in the span — along the trajectory of the stress diagram, fully absorbing the bending forces.

The curved shape of the tensioned reinforcement above the column with a radius of curvature equal to 2-3 times the width of the column is taken so that the resultant downward force of the reinforcement balances the reactive forces arising in the column, which can cause bursting in the plate. The deflection height of the prestressing reinforcement in the span with a radius of curvature equal to 5-10 span lengths is chosen so that the intensity of the vertical components along the span corresponds to the load intensity.

Non-removable core formers in the spans of the ceiling significantly reduce the weight, respectively, and the load on it with an increase in the thickness of the plate, which provides the possibility of increasing the spans of the frame.

The free placement of reinforcement facilitates the production of reinforcing work and eliminates the need for the operation of filling the channels with concrete.

Figure 1 presents the prestressed concrete frame of the building; figure 2 - aa of fig. 1; Fig. 3 - node B of Fig. 2.

The prestressed reinforced concrete frame of the building includes columns 1, floor 2, prestressed reinforcement 3 placed in tubes 4 along the floor cross-section and hollow formers 5 with fixing rod elements 6.

Pre-stressed frame is constructed as follows.

Install the reinforcing cage and the vertical formwork for the construction of columns 1 and the horizontal formwork of the ceiling 2. In the horizontal formwork, lay the tubes 4 with the fittings 3 placed in them, fixing them in a predetermined position (according to the diagram of moments). Then, hollow formers 5 are installed using fixing rod elements 6, made with the possibility of interaction with formwork elements of the frame and fixing the relative position of the hollow formers and relative to the formwork. In the upper overlap zone above the columns, non-tensioning reinforcement is placed since the reference moments of the overlap are greater than the span. After this, concreting of the columns and ceilings and exposure to hardening are performed. After that, the reinforcement is tensioned with 3 hydraulic jacks and it is fixed at the ends of the floor overlap and the formwork is removed.

Sources of information:

1, Article B. Koprivitsa "The use of the IMS frame system for the construction of residential and public buildings, housing construction, M, 1984, No. 1, p.30-32.

2. RF patent 32133802, class E04V1 / 18, BI№21. 1999. / prototype /.

Claims (1)

A monolithic prestressed bezel-free frame of the building, including columns, floors and prestressing reinforcement located in the overlapping channels in mutually perpendicular directions, characterized in that the prestressed reinforcement is freely movable in the channels formed by the tubes and is placed in the overlap body in accordance with plot of moments with a radius of curvature along the axis of the column equal to 2-3 column widths, and in the middle of the span with a radius of curvature equal to 5-10 lengths roleta, while the overlap is equipped with non-removable hollow core, placed in the spans between the columns and interconnected fixing rod elements made with the possibility of interaction with formwork elements of the frame.