RU2161230C1 - Multiple-void building slab - Google Patents

Abstract

FIELD: construction engineering; slabs for ceilings. SUBSTANCE: slab used for ceilings of buildings with spans smaller than 4.5 m has reinforcing cage having longitudinal working and transverse reinforcement, longitudinal vertical members between voids, mounting thimbles, and placed-in-situ concrete. Longitudinal vertical members between voids are, essentially, a number of thimble clips welded to longitudinal working reinforcement at near-support sections of slab; longitudinal working reinforcement is provided with locks made in the form of eyes welded to reinforcement and spaced 0.2-0.5 of slab length apart. Box-shaped nets with single or coupled mounting thimbles are arranged at near-support sections of slab. EFFECT: reduced consumption of reinforcement material; facilitated manufacture of reinforcement cage. 5 cl, 5 dwg

Description

 The invention relates to the field of construction and can find application in the manufacture of multi-hollow floor slabs for buildings with spans of less than 4.5 m.

 A known construction of a multi-hollow floor slab containing a reinforcing cage with longitudinal working and transverse reinforcement in the form of welded meshes, longitudinal vertical hollow elements in the form of welded frames located in the supporting sections of the slab, mounting loops and monolithic concrete / 1 /.

 The disadvantages of the known design are significant metal consumption, the complexity and energy consumption of its manufacture due to the presence of a large number of welded joints.

 The technical problem is to reduce the consumption of reinforcement and the complexity of manufacturing the reinforcing frame of the panel and reducing the cost of the building panel by reducing the number of reinforcing elements and welded joints.

 The technical problem is solved in such a way that a multi-hollow building slab containing a reinforcing cage with longitudinal working and transverse reinforcement, longitudinal vertical hollow elements, mounting loops and monolithic concrete, according to the invention, the longitudinal vertical hollow structural elements are made in the form of a series of welded to the longitudinal working reinforcement in supporting sections of the plate of loop clamps, while the longitudinal working reinforcement is equipped with clamps made in the form of welded to it spruce with a pitch of 0.2 - 0.5 plate length. At the same time, the reinforcing cage in the supporting sections of the plate is equipped with upper horizontal grids made with rectangular, or rhombic, or inclined cells. In addition, the reinforcing cage in the supporting sections of the plate is provided with separate rods welded to the tops of the loop clamps, and the mounting loops of the reinforcing frame are made in the form of paired mounting loops located in the supporting sections along the width of the plate with the location of the common branch of the loop within the zone width the support or transverse reinforcement is made in the form of trough-like grids covering the longitudinal reinforcement, and the mounting loops are made L-shaped and hooked to the longitudinal working th fitting.

 The proposed design differs from the known one in that the longitudinal vertical hollow elements of the frame are made in the form of a series of loop clamps welded to the longitudinal working reinforcement in the supporting sections of the plate, while the longitudinal working reinforcement is equipped with clamps made in the form of loops welded to it with a step equal to 0, 2 - 0.5 plate lengths. The reinforcing cage in the supporting sections of the slab can be equipped with upper horizontal grids made with rectangular, or rhombic, or inclined cells. In addition, the reinforcing cage in the supporting sections of the plate is equipped with separate rods welded to the tops of the loop clamps, and the mounting loops of the reinforcing frame are made in the form of paired mounting loops located in the supporting sections located in the supporting sections along the width of the plate with the location of the common branch of the loop within the zone width supporting or transverse reinforcement is made in the form of trough-like grids covering longitudinal reinforcement, and single mounting loops are made L-shaped and hooked to the longitudinal working fittings. Such reinforcement provides the required strength of the supporting sections of the slab under the action of transverse forces, moments along inclined sections and moments from jamming of the plates in the walls while significantly reducing welded joints in the frames, and also provides the design position of the reinforcement in the body of the concrete of the plate.

 In FIG. 1 shows a multi-hollow building slab (general view); FIG. 2 - the same (reinforcement options), FIG. 3, 4, 5 - options for mounting loops, FIG. 6 - trough-like grid.

 A multi-hollow building slab consists of a reinforcing cage and monolithic concrete. The reinforcing cage contains longitudinal working reinforcement 1 and 1a, having latches in the form of loops 2 welded to it with a step equal to 0.2-0.5 of the length of the plate, determined by calculation depending on the dimensions and bearing capacity of the plate. In the supporting sections of the plate, a number of loop clamps 3 are welded to the working longitudinal reinforcement 3, forming a vertical inter-hollow frame element, and there is also a trough-like mesh 4 covering the working longitudinal reinforcement 1 and 1a, and mounting loops - single 5, 5a and 5b, hooked to the working reinforcement, or paired 6 and 6a, the connecting section of which covers the longitudinal working reinforcement 1 and 1a similar to a trough-like grid 4. A separate rod 7 is welded to the tops of the loop clamps 3 in each row 7. The reinforcing frame in The supporting zones of the plate have upper horizontal grids 8 with rhombic, or rectangular, or inclined cells.

 Building hollow core slab is made as follows.

 On the pallet of the mold, trough-like nets 4 of d4-5Bp1 wire are laid in the supporting zones of the plate and single mounting loops are hung 5. The mounting loops are made L-shaped from steel A-1 d10-14 and have the shape as shown in FIG. 5 (5, 5a, 5b). Mounting loops 5 are hung on rods laid on the longitudinal sides of the mold, and punches are introduced. Instead of trough-like grids and single mounting loops, you can use paired loops 6 and 6a, which are laid on a pallet with hooks facing the center of the span of the plate, while the connecting section of 7 loops 6 is placed parallel to the ends of the plate at a distance of 50 mm, which is achieved by using special clamps. Between the punches, the longitudinal working reinforcement 1 with the loop clamps 3 and the reinforcement 1a with the clips 2 are laid out. After that, the rods are removed from the single mounting loops 5 and the upper grids 8 are placed on the punches (8a, 8b). Then lay the concrete mixture and set the load. After molding, the punches are removed from the mold and the plate is heat treated.

 Mounting loops 6 and 6a make it possible to exclude trough-like grids 4 in the supporting sections of the plate, and the upper grids 8 have welded joints only along the contour and also increase the reliability of fixing the paired mounting loops 6 and 6a.

 The proposed design of the plate makes it possible to simplify the technology of its manufacture by eliminating the welded bottom mesh, reducing welded joints by 2–3 times, reducing the amount of work on cutting reinforcing bars, and reducing labor intensity, energy consumption, metal consumption and the cost of plates.

Sourse of information
1. Drawing album "Multi-hollow reinforced concrete panels". Series 1.141-1, issue 60, developed by the Central Research Institute for Housing and Housing and Research Institute of Gosstroy of the USSR 02/04/83

Claims (5)

 1. A multi-hollow building slab containing a reinforcing cage with longitudinal working and transverse reinforcement, longitudinal vertical hollow elements, mounting loops and monolithic concrete, characterized in that the longitudinal vertical hollow casing elements are made in the form of a series of welded to the longitudinal working reinforcement in the supporting sections of the loop plate clamps, while the longitudinal working reinforcement is equipped with clamps made in the form of hinges welded to it with a step equal to 0.2 - 0.5 of the length of the plate.  2. The multi-hollow building slab according to claim 1, characterized in that the reinforcing cage in the supporting sections of the slab is equipped with upper horizontal grids made with rectangular, or rhombic, or inclined cells.  3. The multi-hollow building slab according to claim 1, characterized in that the reinforcing cage in the supporting sections of the slab is provided with individual rods welded to the tops of the loop clamps.  4. A multi-hollow building slab according to any one of claims 1 to 3, characterized in that the mounting hinges of the reinforcing cage are made in the form of paired mounting loops covering longitudinal reinforcement placed in supporting sections along the width of the slab with the location of the common branch of the loop within the width of the bearing zone.  5. A multi-hollow building slab according to any one of claims 1 to 3, characterized in that the transverse reinforcement is made in the form of trough-like grids covering the longitudinal reinforcement, and the mounting loops are made L-shaped and hooked to the longitudinal working reinforcement.

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