SU916705A1 - Reinforcement framework - Google Patents

Description

The invention relates to reinforcement cages of reinforced concrete elements such as piles.

Known reinforcement cage, containing transverse reinforcement in the form of outer and inner rings and longitudinal reinforcement, made in the form of zigzag bent rods, the tops of the bends which are alternately attached to the outer and inner rings [1].

Also known reinforcing cage, containing distribution rods, curved along the siusoidal contour shape, on the protrusions and depressions which are wound, respectively, the outer and inner spiral working reinforcement [2].

The disadvantage of these reinforcement cages is low longitudinal compression strength of reinforced concrete elements.

Closest to the offer is a reinforcement cage containing longitudinal rods and indirect spiral reinforcement [3].

The disadvantage of this reinforcement cage is low bearing capacity

2

and the impact resistance of reinforced concrete elements.

The purpose of the invention is to increase the carrying capacity and impact resistance of reinforced concrete elements.

5 The goal is achieved by the fact that the reinforcement cage containing longitudinal rods and indirect spiral reinforcement is equipped with transverse reinforcement, made in the form of a wire helix,

₁₀ bent in turn in the longitudinal direction in the form of a cylindrical helix and covering indirect reinforcement.

FIG. 1 shows the reinforcement cage, a general view; in fig. 2 - section A — A in FIG. one.

₁₅ The reinforcement cage consists of longitudinal rods 1, indirect helical armature 2 and transverse reinforcement made in the form of a wire helix 3, bent in turn in the longitudinal direction in the form of a cylindrical helix 4 and oh ²⁰ wavatyugützie indirect reinforcement 2.

The reinforcement cage is made as follows.

Spirals 2 and 3 are made on the coiling machine. Spiral 3 in closed state 3

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four

The bends are bent in the longitudinal direction into the cylindrical spiral 4 with the circumference of the spiral 2. Then the spiral 3 is stretched and with a predetermined pitch of its turns is fastened with the turns of the spiral 2 of the indirect reinforcement. After that, on the inside of the helix 2, the longitudinal rods 1 are installed and fastened with it.

During operation of the reinforced concrete element, its carrying capacity is increased due to the volume reinforcement by the transverse spiral 4. This also increases its resistance to shock due to the perception of the shock vertical load by the turns of the transverse spiral in the radial direction.

Claims (1)

Claim Armature frame containing longitudinal rods and indirect helical reinforcement, characterized in that, in order to increase the bearing capacity and impact resistance of reinforced concrete elements, it is provided with transverse reinforcement made in the form of a wire helix, bent in turn in the longitudinal direction in the form of a cylindrical helix and covering indirect reinforcement.