SU975965A1 - Reinforcement framework - Google Patents

Description

The invention relates to reinforcement cages for reinforced concrete products. ^x ly and designs.

The reinforcement cage is known, which contains profile rods and transverse supports in the form of frames with supporting brackets for fixing the longitudinal rods in the design position £ 1].

The disadvantage of this reinforcement cage is impossible fake. tions of longitudinal rods with high saturation with reinforcement of the cross section of the manufactured concrete product.

Also known reinforcing cage containing longitudinal rods and transverse reinforcement, wound in the form of a spiral on the transverse rods with alternating them from the outer and inner side to ensure mutual fixation [2].

The disadvantage of this reinforcement cage is the complexity of its manufacture and the need to use. special equipment.

The closest technical solution of the invention is a reinforcement cage containing working and mounting rods and transverse ar2

matur in the form of rods, closed or open clamps £ 3].

A disadvantage of the known reinforcement cage is low accuracy.

fixing of working rods, which can be made by measuring lines or specially made templates.

10 In addition, the rectilinear shape of the contour sections of transverse reinforcement does not provide a high rigidity of the reinforcement cage as a whole.

The purpose of the invention is to improve the accuracy of fixing the working rods and

15. Increase the rigidity of the frame.

The goal is achieved by the fact that in the reinforcement cage containing working and mounting rods and transverse reinforcement in the form of rods, closed or open clamps, sections of transverse reinforcement associated with the working rods are made with wavelike bends whose width corresponds to the diameter of the working rods.

To simplify fixation of transverse reinforcement rods in the design position on the form pallet, the ends of these rods are made with a support loop of 3.0 m, bent in the plane, perpendicular 975965

dicular plane of undulating bends.

FIG. 1 shows a spatial reinforcement cage with a closed yoke connected by hooks covering the mounting rod, end view; in fig. 2 - the same, with a closed collar connected by welding; in fig. 3 - the same, with an open clamp; in fig. 4 - flat reinforced cage, side view; in fig. 5, view A in FIG. four.

Spatial reinforcement cage contains workers 1 and 2 mounting rods and transverse reinforcement in the form of closed 3 or 4 unclosed clamps. The flat reinforcement cage contains working rods 5 and transverse reinforcement in the form of rods 6. The sections of collars 3 and 4 and transverse rods 6 mated with working rods are made with wave-like curvature 7, the width of which corresponds to the diameter of the working rods laid in these bends. With a two-row arrangement of working rods between Them laid transverse rod 8.

The transverse rods 6 flat frames are made at the ends with support loops 9, bent in a plane perpendicular to the plane of the wave-like bends 7. Support loops 9 serve to fix the rods 6 on the form 10 pallet in the design position, to which they can be fastened with brackets 11.

The reinforcement cage is made as follows.

At the ends of the frame, extreme clamps 3 or 4 are installed, in which the working rods 1 are placed in the wave-like bends 7. If it is necessary to install the second row of working rods, transverse rods 8 are placed on the rods of the first row, which serve as support for the second row of rods 1. Then install the mounting rods 2, after which the rods 1 and 2 are connected to the clamps, for example a binding wire. After that, the intermediate clamps in the required quantity are installed and fixed in the design position along the frame length.

In the assembled reinforcement cage, high accuracy of the installation of the working rods 1 is ensured, which are fixed in the design position in the wave-like bends of 7 clamps.

The reinforcement cage can be assembled using intermediate clamps of conventional shape without undulating bends, since the installation accuracy of the working rods will be provided by simple clamps having undulating bends. Can also

5 to manufacture the reinforcement cage completely from clamps without wavy curves, using a temporary installation of clamps with wavy curves in * as templates.

ten

When assembling flat reinforcement cages, transverse rods 6 are laid on the pallet of the mold 10, the supporting loops 9 of which orient the wave-like bends 7 perpendicular to the pallet plane. If necessary, the loop 9 is fixed using staples 11. After that, the working rods 5 are placed in wavy curves 7

-θ rods 6, thereby ensuring their design position.

The wavelike bends on the transverse reinforcement also increase its rigidity, which increases the rigidity of the entire reinforcement cage and, in some concrete products, makes it possible to eliminate face grids.

Claims (2)

Claim 1. Reinforcement frame containing working and mounting rods and transverse reinforcement in the form of rods, closed or open clamps, 35, characterized in that, in order to improve the fixing accuracy of the working rods and increase the rigidity of the frame, the sections of the transverse ar40 mated with the working rods are made with wave-like bends whose width corresponds to the diameter of the working rods. • 2. Frame pop. 1, which is distinguished by the fact that, in order to simplify the fixing of rods of transverse reinforcement in the design position on the form tray, the ends of these rods are made with support loops bent in a plane perpendicular to the plane of the wave-like bends.