RU165190U1 - REINFORCEMENT ELEMENT FOR DISPERSED REINFORCEMENT OF CONCRETE MIXES - Google Patents

Abstract

Reinforcing element for dispersed concrete reinforcement, made in the form of a curved wire segment in three dimensions with uniformly distributed deformed sections forming protrusions and troughs, characterized in that the protrusions and troughs form a wave (corrugation) along the entire length of the wire segment with parameters determined by the following to the relations: - wave height H = (1 ÷ 3.125) D; - wavelength A = (3 ÷ 12.5) D; - length of the reinforcing element L = (10 ÷ 100) D, where D is the diameter of the wire, equal to 0 , 8 to 2.0 mm, and the curved section of wire has curvature with a bending radius equal to p = 200 ÷ 300 mm.

Description

The utility model relates to reinforcing elements for dispersed reinforcement of building structures, products from concrete and similar mixtures.

Known reinforcing element for dispersed concrete reinforcement, made in the form of a straight piece of wire with periodically located recesses and thickened heads at the ends (US Patent No. 6235108 B / 1 of May 22, 2001).

The disadvantage of this invention is the lack of adhesion of the element to concrete due to the straightness of the wire and the small area of adhesion to concrete.

Known reinforcing element for dispersed concrete reinforcement, made in the form of a piece of wire with evenly distributed depressions and protrusions created by undeformed and deformed sections of wire (USSR Author's Certificate No. 1384688, Е04С 5/07 of 08/10/1986).

The essence of the invention is that the protrusions are created by undeformed sections of the wire, displaced in the transverse direction in opposite directions, while one side of the undeformed section of the wire is placed at the level of the corresponding sides of the adjacent deformed sections of the wire and forms hollows with them.

A negative feature of this reinforcing element is the complexity of its production, because it is necessary to carry out the operation of forming a complex cross section of a depression and a protrusion from one diameter of the wire - the workpiece.

Known reinforcing element for dispersed concrete reinforcement, made in the form of a curved section of wire with evenly spaced deformed sections forming protrusions and depressions (RF Patent No. 2433227 C1 ЕОС 5/00 from 03/22/2010).

A distinctive feature of this invention is that the protrusions and depressions form a wave with parameters characterized by a ratio of wavelength to wave height equal to (1 ÷ 4.5), oriented along a curved line in three-dimensional measurement.

According to this invention, the following information can be given.

It does not specify the length dimensions of the reinforcing element.

In this regard, it is possible to create a reinforcing element with clearly negative properties, for example, in the manufacture of short reinforcing elements having an element length equal to (2 ÷ 3) multiple wavelengths, which will lead to the formation of spherical formations from wire segments, and this will complicate the processing of reinforcing bars elements when performing construction work.

Known reinforcing element for dispersed concrete reinforcement, made in the form of a piece of wire from wave-shaped hollows and protrusions evenly distributed along the length of the reinforcing element (US Patent No. 4,585,487 of April 29, 1986) - adopted as a prototype.

A distinctive feature of the invention is the presence of a wave with parameters:

- amplitude, wave height from 1 to 1.5 wire diameters;

- wavelength from 7 to 10 wire diameters;

- wire diameter 1.2 mm;

- wire strength from 110 to 150 kg / mm ² ;

- the length of the reinforcing element is from 45 to 65 wire diameters.

The use of insufficient amplitude, wave heights equal to 1 to 1.5 wire diameters, will not provide the proper level of adhesion of the reinforcing element to concrete.

The use of a reinforcing element in a rectilinear state, on which protrusions and depressions are evenly distributed, leads to a decrease in the adhesion of the reinforcing element to concrete and, as a result, narrows the possibility of using this invention in construction products for various purposes.

The technical result of the claimed utility model is to increase the adhesion of the reinforcing element to concrete, to increase the quality of reinforced concrete structures and to expand the assortment of finished products, and, consequently, to increase the areas of application of the reinforcing element in building structures.

The technical result is achieved by the fact that the reinforcing element for disperse concrete reinforcement, made in the form of a curved wire segment in three dimensions with uniformly distributed deformed sections forming protrusions and depressions, and according to the utility model, the protrusions and depressions form a wave (corrugation) along the entire length of the wire segment with parameters determined by the following relationships:

- wave height H = (1 ÷ 3.125) D;

- wavelength A = (3 ÷ 12.5) D;

- the length of the reinforcing element L = (10 ÷ 100) D,

where D is the diameter of the wire from 0.8 to 2.0 mm, and the curved section of the wire has a curvature with a bending radius equal to p = 200 ÷ 300 mm.

The essence of the utility model is illustrated by Figures 1, 2, 3, which depict embodiments of reinforcing wire elements.

The Figure 1 presents a General view of a rectilinear reinforcing wire element having a deformed section creating a protrusion 1, a deformed section creating a depression 2, generally giving a wave (corrugation) with parameters of height H, length A, diameter of the wire of the reinforcing element D, length of the reinforcing element L.

Figure 2 shows a view of a curvilinear reinforcing element with the presence of curvature, called concavity, and in Figure 3 of curvature, called convexity, wallpaper characterized by a radius of p.

Features of the reinforcing element are as follows.

To increase the adhesion of the reinforcing element with concrete, the protrusions and depressions form a wave (corrugation), characterized by a height H and a length A, defined by the ratio:

H = (1 ÷ 3.125) D, A = (3 ÷ 12.5) D, where

D is the diameter of the wire.

With these ratios, the wave height increases and, thus, the contact area of the reinforcing element with concrete increases due to its increased branching and, therefore, its adhesion to concrete increases.

In the prototype, the ratio of the height to the diameter of the wire is within 1 ÷ 1.5, that is, less than in the claimed utility model, therefore, the contact area of the wire with concrete is reduced and, therefore, the adhesion to concrete is reduced.

In addition, each segment of the reinforcing element has a curvature in the form of convexity and concavity with a bending radius of curvature p equal to within 200-300 mm.

The presence of curvature increases the adhesion of the reinforcing element with concrete due to the appearance of the difficulty of sliding the wire along the curved line during the operation of reinforced concrete structures in production conditions. While in the prototype a piece of wire is in a rectilinear state and the marked effect is absent and, therefore, there is a decrease in the adhesion of the reinforcing element to concrete compared with the claimed utility model.

The use of wires of various diameters ranging from 0.8 to 2.0 mm allows you to get a reinforcing element of various sizes and strengths, and thus dramatically expand the assortment of manufactured reinforcing elements and more fully satisfy the needs of the national economy.

General characteristics of the claimed utility model with the prototype is:

- the presence of protrusions and depressions forming a wave (corrugation) of the reinforcing element;

- the use of wire for the manufacture of reinforcing element.

The difference between the characteristics of the claimed utility model with the prototype is as follows:

- the ratio of the wave height to the diameter of the wire is in the prototype from 1 to 1.5; in the claimed utility model, from 1 to 3.125;

- the ratio of wavelength to diameter of the wire is in the prototype from 7 to 10, in the claimed utility model - from 3 to 12.5;

- the ratio of the length of the reinforcing element to the diameter of the wire is in the prototype from 45 to 65, in the claimed utility model - from 10 to 100;

- in the prototype, the reinforcing element is in a rectilinear state, in the claimed utility model is in a curved state with a bending radius of 200-300 mm

These differences allow you to get the positive qualities of the claimed utility model, namely:

- increase the adhesion of the reinforcing element with concrete and, thus, increase the quality of reinforced concrete products;

- expand the range of manufactured reinforcing elements and therefore more fully satisfy the needs of consumers of these products.

Claims (1)

Reinforcing element for dispersed concrete reinforcement made in the form of a curved wire segment in three dimensions with uniformly distributed deformed sections forming protrusions and depressions, characterized in that the protrusions and depressions form a wave (corrugation) along the entire length of the wire segment with parameters determined by the following to the ratios: - wave height H = (1 ÷ 3.125) D; - wavelength A = (3 ÷ 12.5) D; - the length of the reinforcing element L = (10 ÷ 100) D, where D is the diameter of the wire, equal to from 0.8 to 2.0 mm, and the curved section of the wire has a curvature with a bending radius equal to p = 200 ÷ 300 mm.

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