WO2020096476A1 - Rebar with a shaped cross section and a deformed surface - Google Patents

Abstract

The invention can be used in the manufacture of reinforcing elements for the reinforcement of concrete articles and structures. The technical result is that of providing a rebar that simultaneously exhibits excellent cohesion with concrete and a uniform cross-sectional area and strength. The present rebar has a shaped cross section, the angular position of which continuously varies along the length of the bar with a constant direction and angle of rotation, and has transverse protuberances of a deformed surface on the spiral edges that are formed by the sides of said cross section. The cross section is in the shape of a circle with segments cut off. The fragments of the circumference between the cut-off segments have an angular size of not less than 10 degrees. The transverse protuberances of the deformed surface are disposed on the edges which are formed in space by the section lines that cut off the segments, and are situated at a distance from the axis of the bar which is not greater than the radius of the circle.

Description

 FITTING ROD WITH FITTED SECTION

 AND PERIODIC PROFILE

The invention relates to rolling production and can be used in the manufacture of fittings intended for working, distribution and structural reinforcement of unstressed and prestressed concrete products and structures.

 Known reinforcing bar having a cross section in the shape of a circle on

the surface of which a periodic profile is applied in the form of transverse ribs of a crescent shape over a cylindrical generatrix surface, the ribs are located in at least two longitudinal rows on the opposite sides of the rod surface (see GOST R 52544-2006 “RENTAL WELDING WELDED PERIODIC CLASS PROFILE” А500С AND В500С FOR REINFORCING REINFORCED CONCRETE CONSTRUCTIONS ”).

A disadvantage of the known reinforcing bar is the limited adhesion to concrete, which is due to the principle diagram of the interaction of the reinforcing bar with concrete, in which each transverse rib of the reinforcing bar exerts pressure on the discrete protrusion of concrete located between this and the previous transverse ribs, thereby loading not only the protrusion of concrete by normal stresses, but also the base of this protrusion by shear stresses. Another disadvantage of the known reinforcing bar is the low adaptability of laying in riots and unwinding with straightening, which consists in an additional deterioration in adhesion to concrete of this reinforcement in the case of the indicated operations. This factor is caused by ribs of a periodic profile protruding above the surface of the rod, which When the rod in the riot and subsequent unwinding with alternating bending in the roller devices undergo significant plastic deformation with a decrease in the height and transverse projection area, reducing the relative collapse area.

 The closest analogue of the reinforcing bar according to the present invention is a reinforcing bar with a shaped section and a periodic profile 'having a transverse shaped section, continuously changing its angular position along the length of the bar with a constant direction and angle of rotation, and on spiral twisted faces formed the sides of this section are the transverse protrusions of the periodic profile, the cross section being in the shape of a square (see UK patent N ° 1378569).

 This design of the reinforcing bar has a higher adhesion to concrete due to the combination of inclined faces that load the concrete to wedge with support reactions and a periodic profile that impedes spiral movement of the reinforcing bar in a spiral along its own impression in concrete, but its adhesion to concrete is still limited - due to insignificant volumes of concrete subjected to pressure between the indicated inclined faces and the cylindrical external forming surface of the reinforcing bar. In addition, the disadvantage of this design is the presence of narrow spiral ribs formed by the angles between the sides of the square section — these ribs are easily deformed with a roller tool when laying the reinforcing bar in a riot, unwinding from the riot and straightening, increasing the uneven cross-sectional area along the length of the reinforcing bar element, reducing the strength of the reinforcing bar, making it difficult to maintain straightness and reducing the actual adhesion of the reinforcing bar to concrete.

The objective of the invention is the development of a reinforcing bar, providing at the same time the highest possible adhesion to concrete, including mechanical adhesion in any potential direction displacement, and equally uniform cross-sectional area and configuration, as well as maintaining a constant cross-section and shape along the length and a given level of adhesion when laying in riots and then unwinding from the riot with straightening.

 This problem is solved in that the reinforcing bar with a shaped section and a periodic profile, having a transverse shaped section, continuously changing its angular position along the length of the bar with a constant direction and angle of rotation and transverse protrusions of the periodic profile on the spiral faces formed by the sides of this section, according to the invention, the cross section is made in the form of a circle with cut segments, while fragments of the circle between the cut segments have an angular size of at least 10 degrees Owls, transverse protrusions of the periodic profile are located on the faces formed in space by section lines separating the above segments and are located at a distance from the axis of the rod not exceeding the radius of the above circle. The number of cut segments can be equal to three, the sides of the section forming the spiral faces of the surface of the rod can be either straight or concave, the transverse protrusions of the periodic profile can be inclined in the direction opposite to the direction of the cylindrical spiral along which faces, and the mutual position of the transverse protrusions can be such that in the cross section perpendicular to the axis of the rod, where one of the transverse protrusions ends, the next pop starts on the other side of the spiral face RIVER protrusion.

This embodiment of the reinforcing bar provides an increase in the volume of concrete under the cylindrical generatrix of the reinforcing bar, which is wedged by inclined faces, while the presence of fragments of the cylindrical surface and the location of the elements of the periodic profile under the generatrix of this surface allows bending and straightening of the reinforcing bar with roller devices with toroidal by streams, the transverse radius of which slightly exceeds the radius of the reinforcing bar, without damaging the periodic profile and the shaped section itself, and the location of the transverse protrusions, in which one protrusion begins in the same section and ends on the other sides of the spiral face, provides the constancy of the cross-sectional area of the reinforcing bar and its equal strength along the length.

 The invention is illustrated by drawings, where in FIG. 1 schematically shows the appearance of a reinforcing bar with a shaped section and a periodic profile.

 A reinforcing bar with a shaped section and a periodic profile according to one embodiment of the invention is shown in FIG. 1, 2. On the surface of the rod 1, three ruled surfaces 2 are applied along a helical line, separated by sections of a cylindrical surface 3. On ruled surfaces 2, they are arranged obliquely in the direction opposite to the direction of the helix of the arrangement of the ruled surfaces 2 themselves , trapezoidal transverse protrusions 4.

 A reinforcing bar is made, for example, as follows.

Pre-made rolled rod 1 of circular cross section. Then, the rod 1 is fed in a hot or cold state through a roller cassette rotating around it with three inclined rollers having cylindrical working surfaces with inclined grooves cut onto them. Moreover, on the surface of the rod 1, under the influence of cylindrical rollers, ruled surfaces 2 are formed in a spiral, and in places where grooves are made on the cylindrical surface of the rollers, trapezoidal transverse protrusions 4 are formed on them. On the part of the surface of the rod 1, not deformed by rollers, sections of the cylindrical surface 3 are preserved.

In addition to the described method, the rod 1 can be fed with rotation relative to its longitudinal axis through a stationary stand with inclined roles - by segments of measured length, either feed rod 1 through a stationary stand with inclined rollers by unwinding from a riot located on a rotating support and then winding it into a revolt, also located on a rotating support, or feed rod 1 through a stationary stand with a longitudinal located drive rolls and a rotating cassette with inclined mounted non-drive rollers forming an identical caliber.

i

I

Claims

Claim 1. An reinforcing bar with a shaped section and a periodic profile, having a transverse shaped section, continuously changing its angular position along the length of the bar with a constant direction and angle of rotation, and transverse protrusions of a periodic profile on spiral faces formed by the sides of this section characterized in that the cross-section is made in the form of a circle with cut segments, while the fragments of the circle between the cut segments have an angular size of at least 10 degrees, the transverse protrusions are periodic Skog profile arranged on the faces formed in the space section lines The relative fissile aforementioned segments and are at a distance from the axis of the rod not exceeding the radius of the aforementioned circle.  2. The reinforcing bar according to claim 1., in which the number of cut segments is three.  3. The reinforcing bar according to claim 2., wherein the sides of the cross section forming the spiral faces of the surface of the bar are straight. 4. The reinforcing bar according to claim 2., wherein the sides of the cross section forming the spiral faces of the surface of the bar are concave. 5. The reinforcing bar according to p. 3-4., In which the transverse protrusions of the periodic profile have a slope in the direction opposite to the direction of the cylindrical spiral along which the faces are located, and the relative position of the transverse protrusions is such that in the perpendicular axis of the rod the section where one of the transverse protrusions ends, the next transverse protrusion begins on the other side of the spiral face.