RU129961U1 - COMPOSITION FITTINGS - Google Patents

Abstract

1. Composite reinforcement comprising a support rod made of high-strength polymer material, with a rib located on the periphery of the rod in the form of a continuous helix and connected to the rod by a binder material in the form of resin, characterized in that the support rod and rib are made of separate longitudinal threads of high-strength polymer material of the same brand, the periphery of the rod is equipped with supporting recesses, in which an edge is installed with an interference fit, fixed in the recesses of the rod with a binder material, and m forward edge of the rod with a layer of binder materiala.2. Composite reinforcement according to claim 1, characterized in that the height of the recess on the rod is made no more than half the thickness of the peripheral thread of the rod. Composite reinforcement according to claim 1, characterized in that the layer of binder material is located between the turns of the ribs over the entire area of the supporting rod.

Description

The proposed technical solution relates to construction, namely to non-metallic composite reinforcement, used for reinforcing binding media for heat-insulating wall structures, monolithic concrete and prefabricated structures during the construction of buildings and structures, as well as in the form of separate rods for reinforcing the soil of the bases for buildings and structures , including the foundations of motorways and roads, or ground anchoring of retaining walls.

Known fiberglass composite reinforcement containing a supporting rod of high-strength polymer material and a rib with ledges, made in the form of a bundle of threads, impregnated with a binder and spirally applied to the rod with a preload. (see RF patent No. 2194135 according to class E04C 5/07 for 2002)

Composite reinforcement is also known, containing a supporting rod made of a high-strength composite material of predominantly circular cross section, wrapped around the outer surface with bundles of individual threads opposite in the direction of winding with a different angle of winding. (see, patent for PM No. 77310 according to class E04C 5/07 for 2008)

A disadvantage of the known composite reinforcement is the unreliable fastening of the ribs on the rod due to the small area of fastening the ribs on the rod and a round surface, which under axial loads leads to the displacement of the ribs on the rod and, as a result, the elastic modulus of the composite reinforcement deteriorates and it cannot be used as a filler in products in concrete structures.

The closest to the essence and the achieved technical result with the proposed is a composite reinforcement containing a supporting rod of high-strength polymer material with a hole in length, on the outer surface of which a winding in the form of several bundles is fixed. (see, patent for PM No. 82245 according to class E04C 5/07 for 2010)

The disadvantages of this type of reinforcement are similar to the disadvantages of the above analogues, namely the displacement of the winding turns on the surface of the rod due to the lack of a supporting surface on the outer surface of the rod and the low strength of the adhesive layer when they are subjected to axial loads. As a result, the rib moves along the body of the rod during shrinkage and the strength of the product is reduced with the use of composite reinforcement, especially in concrete slabs and in the construction of foundations of buildings and roads.

The objective of the proposed technical solution is to eliminate these drawbacks, increase the strength of products using composite reinforcement due to better fixing of the ribs on the body and the impossibility of its displacement under the influence of axial loads without destruction.

The specified technical problem is achieved in that in a composite reinforcement containing a supporting rod made of high-grade polymer material with a flat outer surface, on which a rib is fixed in the form of flexible winding along a helical line with a resin binder, the outer surface of the supporting rod is provided with supporting sections located between the branches of the rib along the entire length of the rod, the rib is made of the same material as the rod, and the bonding material on the outer surface of the rod is located oshnym layer along its length.

Another difference of the proposed composite reinforcement is that the supporting sections on the rod are made in the form of longitudinal protrusions with transverse recesses, the width of which is equal to the width of the ribs, and the mounting area of the ribs on the rod along the layer of adhesive material.

Figure 1 - shows a plot of the proposed composite reinforcement with a longitudinal section.

In Fig.2 is a section along aa of Fig.1

As shown in the graphic materials, the proposed composite reinforcement comprises a supporting rod 1 made of many separate threads 2 connected in a single bundle. On the outer surface 3 of the rod 1 is wound rib 4 made of the same material as the supporting rod 1. The rib 4 is located in the supporting recess 5 and is connected to the last layer 6 of the binder material. The supporting recess 5 is performed, for example, in the process of winding the ribs 4 onto the rod 1 due to the tension force of the ribs 4. Between adjacent turns of the ribs 4 on the entire surface 3 of the rod 1 is applied a layer 7 of composite binder material.

The manufacture of reinforcement of the proposed design is as follows. The threads 2 of the rod 1 from the individual coils are impregnated with composite material and connected together to form the required size of the rod 1. At the same time, a separately made rib 2 is wound on the rod 1 along a helical line with a certain force. Under the influence of the winding force, the peripheral threads 2 of the rod 1 are deformed and a recess 5 is formed. Then, after installing the ribs 4 on the rod 1, a layer 7 of the composite material is applied to the outer surface 3 and drying is performed until the layer 6 and layer 7 completely harden. The height of the support recess 5 no more than half the thickness of thread 2 of rod 1 is made. After hardening of the composite material, the rod is cut in length. This completes the assembly of the fittings.

When using the proposed fittings, the following occurs. In a manufactured product made of concrete or other hardening material, the required number of parts of reinforcement is laid mainly in length in the middle part. Then the liquid mixture of concrete is poured and hardened. When the concrete mass hardens, it shrinks and tensile forces act on the rib 4 of the rod 1. Under the influence of these forces, the rib is held at the expense of the supporting sections and prevents its displacement along the rod 1 and, as a result, increases the strength of the product itself.

Using the proposed technical solution in the manufacture of concrete products such as slabs or blocks, as well as other building elements, it is possible to increase their strength, which makes it possible to increase the service life of the product itself and increase reliability during operation, by increasing the rigidity of fixing the ribs on the rod, according to compared with the known designs of products with non-metallic composite reinforcement.

Claims (3)

1. Composite reinforcement comprising a support rod made of high-strength polymer material, with a rib located on the periphery of the rod in the form of a continuous helix and connected to the rod by a binder material in the form of resin, characterized in that the support rod and rib are made of separate longitudinal threads of high-strength polymer material of the same brand, the periphery of the rod is equipped with supporting recesses, in which an edge is installed with an interference fit, fixed in the recesses of the rod with a binder material, and m forward edge of the rod with a layer of binder material. 2. Composite reinforcement according to claim 1, characterized in that the height of the recess on the rod is made no more than half the thickness of the peripheral thread of the rod. 3. Composite reinforcement according to claim 1, characterized in that the layer of binder material is located between the turns of the ribs over the entire area of the supporting rod.

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