RU77298U1 - PILED REINFORCED CONCRETE WITH NON-STRENGTHENING - Google Patents

Abstract

The utility model relates to the field of construction in more detail to driving structures-piles driven. The purpose of the utility model according to the present invention is the creation of a reliable design that allows to simplify the manufacturing technology of piles. The stated goal is achieved through the use of cross-shaped clamps as transverse reinforcement and the original reinforcement of the pile edge in the form of a basket-like structure of four pairs of rectangular rods that intersect each other, forming, as it were, the bottom of the basket and bent in each pair at an angle to each other.

Description

The utility model relates to the field of construction to long-length reinforced concrete products with static and dynamic loads, namely, driven piles with non-tensile reinforcement.

Known driven pile reinforced concrete of a solid square section with non-tensioning reinforcement (1). Famous piles have a three-dimensional frame with longitudinally transverse reinforcement, while the reinforcement of the tip is made integral with the reinforcement of the pile itself, longitudinal rods are assembled in a bundle at the tip of the tip, and part of the transverse reinforcement is curved in a spiral around the longitudinal equipment. Moreover, the known pile does not provide sufficient reliability when driving, because does not provide reliable reinforcement in the area experiencing the greatest shock loads. In addition, the well-known pile requires special equipment for its manufacture.

Known pile driven reinforced concrete square section with non-tensile reinforcement does not have this drawback (2). For this, a part of the spatial frame in the region of the highest shock loads (on the pile section opposite the tip) is made in the form of a group of clamps, worn on longitudinal rods and fastened with them, a spatial frame, each clamp made in the form of a mesh, and the tip has reinforcement not originally piles connected with reinforcement.

Known pile requires for the manufacture of a large number of welding and bending operations due to the spiral design of the transverse reinforcement of the tip and the design of the clamps. This fact does not allow its use in conditions not provided with appropriate equipment. Known technical solution is the closest to this utility model.

The technical task of this utility model is to create a pile design that will simplify its manufacture in the field with insufficient equipment while maintaining product reliability and reducing the range used in the manufacture of reinforcement.

This technical problem is achieved due to the structural features of the spatial frame of both the actual pile and its tip.

The essence of the claimed technical solution boils down to the fact that in a pile of reinforced concrete square section with non-tensioning reinforcement and a prefabricated rectangular spatial frame formed by longitudinally transverse reinforcement, in which the spatial frame of the tip is made in the form of a basket, which is combined with the rectangular spatial frame of the pile itself having transverse reinforcement in the form of flat clamps, and longitudinal in the form of straight rods, each flat clamp is proposed to be made in the form two rods crossed at right angles in the middle and rigidly fixed in this position, forming a cross-shaped part, the free ends of which are fixed on four longitudinal rods of a rectangular spatial frame; and longitudinal

the reinforcement of the spatial frame of the tip made in the form of a basket is formed from two pairs of rods superimposed on each other in the middle at a right angle and fixed at the intersection, forming the bottom of the basket and bent parts of the same rods from the fixation points at an angle to each other in each pair so that the spatial frame of the tip has eight longitudinal reinforcing bars directed towards the spatial frame of the pile itself and fixed on it.

The following is an example of a pile according to the present utility model.

Figure 1 presents a General view of a driven reinforced concrete piles with a composite rectangular spatial frame.

Figure 2 is a cross section of a rectangular spatial reinforcing cage with a cross-shaped transverse clamp.

Figure 3 - blank for the manufacture of longitudinal reinforcement of the spatial frame of the tip.

Figure 4 is a view from the side of the tip on a rectangular spatial frame of the tip.

The length of the pile is 6000 cm, the pile is made with a composite rectangular spatial frame, the length of the tip is 250 cm. The longitudinal reinforcement of the composite frame, namely its main part, the frame of the pile itself 1 is made in the form of four working rods 2, flat clamps of the transverse reinforcement are made of two rods 3 installed mutually perpendicular and rigidly fastened in the middle 4 by welding; the rods have free ends that mate with the longitudinal reinforcement 2 by welding. In the cross section of the reinforcing spatial framework, the flat clamps have the form of a cross-shaped part 5. The spatial framework of the pile edge

represents a basket, the longitudinal reinforcement of which is made of four rods 6 pairwise installed mutually perpendicular. At the intersection 7, the rods are fixed by welding, from the fixation point the rods are bent at an angle both to the fixation plane and to each other in each pair. This creates a volume in the form of a basket. 4, the dotted line shows the initial position of the rods 6. Inside the basket, flat transverse reinforcing cages are installed 8. The pile may be supplemented with other reinforcement depending on specific conditions. Transverse reinforcement can be installed with a variable pitch along the length of the pile, taking into account the distribution of static and dynamic loads. The rectangular spatial frame of pile 1 is extremely simple to assemble. A conductor is installed on the gantry (not shown), rods of longitudinal reinforcement are laid, pre-made cross-shaped parts 5 are inserted or superimposed on the rods of longitudinal reinforcement and fixed on them by welding. Then a spatial frame for the pile edge is made (it can be made in advance at the factory or in a special workshop as well as a cross-shaped piece). Four rods are laid in pairs at right angles to each other and at the intersection are fixed by welding, the so-called basket bottom is formed, the rods of each pair from the fixation points are bent at a bending machine at an angle to each other, transverse reinforcement is laid in the resulting volume part, which is also fixed on bent rods by any known method, after which the finished frame is mated with the spatial frame of the pile itself and fixed in

him. The resulting spatial frame of the pile is prepared for laying in formwork and concreting.

Since for manufacturing only rod reinforcement is required, the organization of production is greatly simplified, the production is also greatly simplified by the reduction of welding work to a minimum, it should also be borne in mind that this reduces the cost of operating the equipment and, consequently, the energy consumption. At the same time, the reliability of the structure increases due to the placement of transverse reinforcement inside the pile and elimination of metal corrosion at the same time, as well as by creating additional strength at the tip of the pile.

Information sources:

1. IZH 486 Piles driven reinforced concrete, Mosgorstroymaterialy p.7 1992

2. Typical building structures, products and units. Series 1.0111-10 Piles driven reinforced concrete vyp1. part 2 p. 151-283 1989

Claims (1)

A pile driven reinforced concrete square section with non-tensioning reinforcement and a prefabricated rectangular spatial frame, consisting of the actual frame of the piles and the frame of the tip, formed by longitudinal-transverse reinforcement, in which the spatial frame of the tip is made in the form of a basket, which is combined in the manufacture with a rectangular spatial frame of the actual pile having transverse reinforcement in the form of flat clamps, and longitudinal - in the form of straight rods, each clamp of transverse reinforcement is proposed to be executed in the idea of two rods crossed at right angles in the middle and rigidly fixed in this position, forming a cross-shaped part, the free ends of which are fixed on four longitudinal rods of a rectangular spatial frame, and the longitudinal reinforcement of the spatial frame of the tip, made in the form of a basket, to form two pairs of rods superimposed each other in the middle at right angles and fixed at the intersection, forming the bottom of the basket, and bent parts of the same rods from the fixation points at an angle d yz other in each pair so that the space frame has eight longitudinal edge of the reinforcing bar directed towards the spatial frame itself piles and fixed thereon.