CZ2010965A3 - Flexible multistring reinforcing bolt with static independently active strings - Google Patents

Abstract

Unlimited long, coil-wound and unwindable, flexible, multi-strand reinforcing bolt with statically independent strands, designed for soil reinforcement, consisting of at least two strands (1) positioned parallel to the longitudinal axis of the bolt and loosely wound with screen braid (2) holding strands (1) together. Between the individual strands (1) and the braid (2) at least one or more vent pipes (3) can be placed to inject the strand in the soil. Between the individual independent strands (1), an injection tube (4) can be placed to inject the strand in the soil.

Description

Flexible multi-strand bolt with statically independent active strands

Technical field

The invention relates to the field of construction, in particular the field of geotechnics and the field of mining, in particular the field of soil and rock reinforcement.

BACKGROUND OF THE INVENTION

The technical design of bolt constructions has many variants. The most common are bolt structures based on a rigid element, a rod or a tubular rod. Further, there are constructions based on a flexible (flexible) element, rope, thick wire, strip, wire bundle or strips. Long bolts of flexible design are called anchor. The most common structural material of both forms of bolt structures, both rigid and flexible, is steel, but other materials such as fiberglass are also used.

Existing solutions are mainly intended for other areas, namely the stabilization of rock rock blocks and geotechnical structures, and cannot be used and are not suitable for reinforcing soils and heavily weathered and damaged rocks. Economically, these solutions are costly. The bar elements of the existing solutions are designed only for certain lengths and in the case of requirements of longer lengths it is necessary to lengthen them demandingly, thus creating joints and related connecting structures. Or in the case of shortening must be cut. Subsequently, the installation time is prolonged, economic demands are increased and other complications arise.

These structures are unsuitable for the area of soil reinforcement and weathered and disturbed rocks due to over-dimensioning of strength and load-bearing parameters.

For reinforcing the soil geogrids are used, but they can be applied only during the construction of eg embankment, but they cannot be used during remediation and reconstruction works, when the embankment body is already created.

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In the application * 19961-Ί 383 ^, an injection cable anchor, a flexible multi-arm bolt with statically independent active strands and its construction is described.

SUMMARY OF THE INVENTION • · * '· · · «r * ·» »» ~ ·· · «·»' »« * ^r * · »·» · · tr *

These disadvantages are largely overcome by the flexible multi-strand bolt with statically independent active strands of the present invention. SUMMARY OF THE INVENTION In the construction elements and their assembly there is an arrangement which makes it possible to create an unlimited long linear construction element which permits easy winding on the spool for transport and handling. The required length of the component can be unwound from this spool. The nature of the material allows easy division into the required lengths directly on site. The static function of the flexible bolt is performed by strands made of fibrillated surface fibers. Individual strands are not interconnected by any bond. Each spring is individually statically active. The number of springs is not limited. Other structural elements are a venting tube or an injection tube. These elements are used for grouting the strands in the environment where the flexible bolt will be installed. The last structural element is a braid made of mesh mesh. The purpose of the braid is to hold the strands and the venting tube or injection tube together so that they can be handled and installed as a unit. The flexible multi-leg bolt is designed in two variants. The first variant is made up of strands, vent tubes and braiding. In a first variant, the flexible bolt is injected from the borehole during installation, i.e. the injection medium is spread by the borehole from the borehole to its bottom and the vent tube serves to vent the borehole during grouting. The second variant consists of strands, injection tube and braid. In a second variant, the flexible bolt is injected from the bottom of the borehole during installation, i.e. the injection medium feeds the injection medium to the bottom of the borehole. The borehole is filled with grouting medium from its bottom to the bore mouth.

The advantage of the solution of the flexible multi-strand bolt with statically independent active strands according to the invention is its economical undemanding possibility of installation in any length and direction. Bolts can be installed with a higher density distribution, which increases the load capacity and intensively mobilizes the stability potential of the environment. By means of the bolt system it is possible to create a macro-composite material allowing additional reinforcement and reinforcement of soils on the slopes of embankments or notches. The flexible multi-leg bolt does not interfere with any subsequent modifications to the structures where it is used.

-3Overview of figures in drawings

BRIEF DESCRIPTION OF THE DRAWINGS The invention is illustrated in greater detail in the accompanying drawings, in which: FIGS. 1 and 3 show cross-sections of a flexible multi-strand bolt in a variant for injection from a borehole; FIG. and Fig. 3 is a cross-sectional view of a three-leg bolt. Giant. 4 shows a view of a portion of a four-leg bolt in a variant for injection from a borehole mouth. Figures 5 and 7 show cross-sections of a flexible multi-leg bolt in the bottom grouting variant, Figure 5 shows a cross-section of a four-leg bolt, Figure 6 shows a cross-section of a five-arm bolt, and Figure 7 shows a cross-section bolt. Giant. 8 shows a view of a portion of a four-leg bolt section in a borehole grouting variant.

DETAILED DESCRIPTION OF THE INVENTION

Example 1

The flexible multi-strand bolt with statically independent active strands is composed of at least two independent strands 1 located coaxially with the longitudinal axis of the bolt. The individual strands 1 are made of fibers with a fibrillated surface. Coaxially with the longitudinal axis of the bolt on its outer circumference is at least one vent tube 2. The strands 7 together with the vent tubes 2 are loosely wound with a braid 3, which is made of mesh mesh fibers.

Example 2

The flexible multi-strand bolt with statically independent active strands is composed of at least two independent strands 1 located coaxially with the longitudinal axis of the bolt. The individual strands 1 are made of fibers with a fibrillated surface. In the middle, between the strands 1, there is an injection tube 4. The strands 1 together with the injection tube 4 are loosely wound with a braid 3, which is made of mesh mesh fibers.

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-4True applicability

Flexible multi-strand bolt with statically independent springs can be used for strengthening and reinforcing soils and heavily weathered and damaged rocks. The bolt according to the invention is intended, in particular, for additional consolidation and reinforcement of soils and weathered and damaged rocks, unless other possibilities can be used.

Claims (3)

£ 1 ' An infinitely long, windable and divisible flexible multi-strand reinforcing bolt with statically λ - independently active strands for winding of the coil and for the required lengths, intended for soil reinforcement, characterized in that it consists of at least two strands (1) µm spaced parallel to the longitudinal axis of the bolt and loosely wound by a mesh braid (2) holding the strands (1) together. (IN 2. The bolt according to claim 1, characterized in that at least one or more vent pipes (3) are arranged between the individual strands (1) and the braid (2), which ensure the strands are injected in the soil. Third bolt of claim 1 or 2 _t SEJ Identify the ujetím the middle between the individual independent sources (1) is arranged an injection tube (4), ensuring grouting the strings in the soil.