RU147447U1 - COMPOSITE FITTINGS AND FLEXIBLE CONNECTIONS (OPTIONS) - Google Patents

Abstract

1. Composite reinforcement, containing fiber tows impregnated with a binder, interconnected by twisting around each other and fixing in this position with a cured binder, characterized in that, when interconnected at regular intervals, two or more bundles form a flat or spatial figures. 2. Composite reinforcement according to claim 1, characterized in that the bundles are interconnected by gluing or using a bandage. 3. Composite reinforcement according to claim 1, characterized in that the surface relief of the bundles can be created by an additional winding bundle or bundles, one of which has a greater tension. Flexible connections based on composite reinforcement, characterized in that they are elements of composite reinforcement according to claim 1, made in the form of an X-shaped, U-shaped shape, a closed or open oval shape or ovals, or a composition of shapes. 5. Composite reinforcement comprising a fiber-made bundle impregnated with a binder, characterized in that the surface relief of the tow is created by an additional winding tow or tows, at least one of which has a greater tension. 6. Flexible connections based on composite reinforcement, characterized in that they are elements of the composite reinforcement according to claim 5, made in the form of a spiral. 7. Flexible connections made of composite rebar harnesses, characterized in that they are elements made in the form of X-shaped, U-shaped shapes, closed or open oval shapes or ovals or composition shapes.

Description

Utility models relate to construction, namely to non-metallic composite reinforcement, which is used in building structures: for reinforcing heat-insulating wall panels, monolithic concrete and prefabricated buildings; for use in structural elements of buildings in the form of separate rods, for connecting the inner wall with the facing layer through the insulation in the system of three-layer walls (flexible connections); for soil reinforcement of the foundations of buildings and structures, including the foundations of motorways and roads; for anchoring in the ground retaining walls and structures.

Known composite rod (RF patent for the invention No. 2430220), including fibers combined into bundles formed by torsion of bundles, the diameter of the bundles being 25-47% of the diameter of the rod, and the number of bundles should be at least 3, and the number of twists of bundles per meter rod is in the range of 5-120. The increased adhesive ability of the test rods is provided by grooves (recesses) formed by adjacent twisted bundles.

The disadvantage of this reinforcing element is the low degree of adhesion to concrete.

Known reinforcement for dispersed reinforcement of concrete products (RF patent for the invention No. 2030530), formed from cylindrical and conical spiral elements, which are filled up freely and filled with a solution in the formwork of a given shape, while elements in the form of conical spirals are evenly distributed between elements in the form of cylindrical spirals .

The disadvantage of this technical solution is that no volumetric adhesion of the reinforcement with the solution is formed, the elements are bonded with the solution mainly along the surface of the elements, therefore, the strength of reinforced concrete structures decreases.

Known composite reinforcement according to the patent of the Russian Federation for utility model No. 124711), which has strands made of fibers impregnated with resin, the strands are interconnected by twisting around each other and fixing the cured resin in this position, indentations are formed between the turns of the strands. The bundles in the zone of their connection along the entire length of the reinforcement form a common screw-like connecting layer of cured resin and fibers of two bundles. In the cross section, the reinforcement is formed by a pair of bundles contacting each other through the connecting layer of bundles, each of which has an oval shape in cross section. The cross-sectional area of each bundle is selected within 40-49% of the total cross-sectional area of the reinforcement, the cross-sectional area of the connecting layer is selected within 20-2.0% of the total cross-sectional area of the reinforcement.

The disadvantage of this composite reinforcement is the low degree of adhesion to concrete.

Known flexible connections "Galen", which are fragments (elements) of composite reinforcement of a certain length, with thickenings at the ends.

The disadvantage of these elements of composite reinforcement is a low degree of adhesion to concrete and a high cost due to the complexity of production.

The inventive composite reinforcement, as well as known ones, contains bundles made of fibers, impregnated with a binder (resin), interconnected by twisting them around each other and fixing in this position a cured binder (resin).

The purpose of utility models is to increase the strength of reinforced products, reduce costs.

The technical result of the design solutions presented in this description is to increase the strength of the reinforcement, flexible connections and the reliability of their connection (adhesion) with concrete, reducing the price.

A technical result is achieved by connecting (intersecting) at regular intervals, two or more tows, form flat or spatial figures.

The technical result is also achieved by the fact that the bundles can be interconnected at certain intervals by gluing or using a bandage.

The technical result is also achieved by the fact that the surface relief of the bundles can be created by an additional winding bundle or bundles, one of which has a greater tension.

The technical result is achieved in that the flexible connections based on composite reinforcement are fragments (elements) of the composite reinforcement according to claim 1, made in the form of a figure of an X-shaped, U-shaped shape, the shape of a closed or open oval or ovals, or a composition of shapes .

A technical result is achieved in that the surface relief of the tow is created by an additional winding tow or tows, at least one of which has a greater tension.

The technical result is achieved in that the flexible connections based on composite reinforcement are fragments (elements) of the composite reinforcement according to claim 5, made in the form of a spiral.

The technical result is also achieved by the fact that flexible connections made of composite reinforcing rods are elements made in the form of X-shaped, U-shaped shapes, the shape of a closed or open oval or ovals, or a composition of shapes.

Due to the fact that, connecting at regular intervals, two or more bundles form flat or spatial figures, improved adhesion of reinforcement to concrete is ensured, the strength of reinforced products (structures) is increased, failure of reinforcement in cured concrete is eliminated during the operation of the concrete structure.

Harnesses can be interconnected at regular intervals by gluing or using a bandage, which increases the strength of the reinforcement and provides improved adhesion of the reinforcement to concrete.

Creating a surface relief of the bundle or bundles with a winding bundle or bundles having a higher tension (more direct shape) than the main bundle also increases the adhesion strength of the reinforcement to concrete.

The bundles can have a round or oval or square section, which expands the range of manufactured fittings and allows the selection of fittings for each design.

The implementation of flexible connections in the form of fragments of the inventive composite reinforcement according to claim 1, which are figures of an X-shaped, U-shaped shape, the shape of a closed or open oval or ovals or composition of shapes, increases adhesion to concrete and allows the selection of reinforcement for each structure.

The surface relief of the bundle or bundles with an additional winding bundle or bundles, one of which has a higher tension, gives the reinforcement a spiral shape (corkscrew), which also provides improved adhesion of the reinforcement to concrete, increases the strength of the reinforced products.

The implementation of flexible connections in the form of elements of the inventive composite reinforcement according to claim 5, which are spirals, provides improved adhesion of the reinforcement to concrete.

The implementation of flexible connections in the form of fragments of composite reinforcing ropes, which are figures of an X-shaped, U-shaped, closed or open oval or ovals, or composition of shapes, increases adhesion to concrete and, therefore, reduces the cost of production.

The proposed fittings and flexible connections are explained using the drawings. In FIG. 1 and FIG. 2 presents a General view of the inventive composite reinforcement, in FIG. 3 is a general view of flexible connections in a three-layer building block.

Composite reinforcement 1 (Fig. 1) contains braids 2 made of fibers (not shown in the drawing), impregnated with resin and interconnected by twisting them around each other. Connecting (intersecting) with each other through certain intervals two or more tow 2, form a flat 3 or spatial 4 (Fig. 2) figures. The tows 2 are fixed with a cured resin or by gluing or using a bandage.

The fiber of the reinforcement 1 is a thread of organic or inorganic material, the length of the fiber can be along the entire length of the reinforcement 1, or it can be made in a known manner from several threads connected to each other (not shown in the drawing). In the cross section, the reinforcement 1 is formed by two or more identical bundles 2, twisted around the longitudinal axis of the reinforcement 1, while alternating the tight connection of the bundles 2 with each other, fixed with a cured resin or by gluing or using a bandage and flat 3 or 4 spatial figures.

Flexible connections 5 (Fig. 3) are fragments (elements) of the inventive composite reinforcement 1 according to claim 1. Flexible connections 5 are made in the form of an X-shaped 6, U-shaped 7 shape, closed 8 shape or an open elongated oval or ovals (not shown in the drawing) or composition of forms 9. Similarly, flexible connections 5 of bundles 2 of composite reinforcement 1 can be made, bypassing the stage of manufacturing the reinforcement 1.

Composite reinforcement 1 according to claim 5 contains bundles 2 made of fibers impregnated with a binder, while the surface relief of the bundles 2 is created by an additional winding bundle 2 or bundles, at least one of which has a greater tension (not shown in the drawing).

Flexible connections 10 are elements (fragments) of the inventive composite reinforcement 1 according to claim 5 and are made in the form of a spiral.

Armature 1 operates as follows. The pieces of reinforcement 1 are placed in the formwork and poured with concrete or other cementing material. In the process of curing concrete, due to the presence of flat 3 or spatial 4 figures or due to the spiral shape, a strong connection of reinforcement 1 with concrete is formed.

Flexible connections 5 are used for the production of multilayer blocks (Teplosten, Polyblock, etc.) or for the construction of a multilayer building structure on the construction site, due to their X-shaped, U-shaped, closed or open elongated oval shape, spiral shape forms a strong connection of concrete layers or masonry through insulation, eliminating the delamination of the block or masonry.

Claims (7)

1. Composite reinforcement containing fiber-made bundles, impregnated with a binder, interconnected by twisting them around each other and fixing in this position with a cured binder, characterized in that, when interconnected at regular intervals, two or more bundles form flat or spatial figures. 2. Composite reinforcement according to claim 1, characterized in that the bundles are interconnected by gluing or using a bandage. 3. Composite reinforcement according to claim 1, characterized in that the surface relief of the bundles can be created by an additional winding bundle or bundles, one of which has a greater tension. 4. Flexible connections based on composite reinforcement, characterized in that they are elements of composite reinforcement according to claim 1, made in the form of a figure of an X-shaped, U-shaped shape, the shape of a closed or open oval or ovals or composition of shapes. 5. Composite reinforcement containing a fiber made of a bundle impregnated with a binder, characterized in that the surface relief of the bundle is created by an additional winding bundle or bundles, at least one of which has a greater tension. 6. Flexible connections based on composite reinforcement, characterized in that they are elements of the composite reinforcement according to claim 5, made in the form of a spiral. 7. Flexible connections made of composite rebar harnesses, characterized in that they are elements made in the form of X-shaped, U-shaped shapes, closed or open oval shapes or ovals or composition shapes.

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