RU2303698C1 - Composite anchor - Google Patents

Abstract

FIELD: land-based and underground building structures and mining, namely anchoring-bolts for roof, floor, or shaft-lining protection, particularly anchors formed of composites based on fiber material and polymeric binder.

SUBSTANCE: anchor comprises fixing assembly including threaded bush 1, washer 2, rod 3 with shaped projections 4 and sacrificial layer 5. Rod 3 is solid or has central through channel 7. Rod has round or rectangular cross-section with straight, concave or convex sides. Continuous or interrupted shaped extensions are formed on rod surface. The extensions pass along or transversal to longitudinal axis thereof or extend along helical line. Rod 3 is made of composite material based on unidirectional fibers and polymeric binder. Sacrificial layer 5 is formed of crossing or interwoven fibrous threads, bundles or bands and connected to the rod by means of binder used for rod production. Volumetric ratio between unidirectional rod fiber and thread, bundle or band fiber of sacrificial rod layer 5 is from 1:0.04 to 1:0.5. Total binder content in rod is 15-50% of total fiber content therein.

EFFECT: increased load-bearing ability of anchor due to increased rod surface provided with sacrificial layer.

14 cl, 15 dwg

Description

The invention relates to the fastening of soils and mine workings, in particular to an anchor support made of composites based on a reinforcing fibrous material and a polymer binder, and can be used in land and underground construction and mining.

Known anchor, including a rod with a smooth outer surface and a fixing unit made of a composite, mainly fiberglass (EP 0739442 B1, IPC ⁶ E21D 21/00, publ. 13.08.1997).

Known anchor containing a hollow rod made of basalt plastic based on strands of basalt fiber and a polymer binder, mainly compositions based on epoxy, polyester or polyurethane resins (SU 1453037 A1, IPC ⁴ E21D 21/00, publ. 01/23/1989, Bull. Number 3).

Known anchors have insufficient bearing capacity, since the working surface of their rods, when introduced into the hole, is immediately and directly exposed to stones, shards, etc. protruding from the walls of the hole. and collapses. Anchors with such rods are unreliable in operation.

A known anchor containing a fixing assembly made of composites and a round cross-section rod with shaped protrusions distributed over its surface, the rod being made of a composite based on unidirectional fiber and a polymer binder (EP 0548832 B1, IPC ⁶ E21D 21/00, Е04С 5 / 07, Е04С 5/12, F16В 33/02, publ. 04/23/1997).

A known anchor has the same drawback as the above-described known anchors. Its working surface and, first of all, the protrusions are subjected to the destructive effect of the sharp components of the soil or excavation and lose their bearing capacity, and with it the operational reliability.

Anchor according to EP No. 0548832 is the closest in technical essence to the claimed one and is selected as the closest analogue (prototype).

The technical problem that was posed during the creation of the invention was to create a composite anchor that does not lose its original characteristics during the implementation of the hole.

The technical result that should be obtained as a result of using the invention is to increase the bearing capacity and operational reliability of the composite anchor.

To solve the problem in a composite anchor containing a fixing unit and a round cross-section rod with shaped protrusions distributed over its surface made of unidirectional fiber and a polymer binder, according to the invention, the rod is additionally made in cross section in the form of a polygon with straight, concave or convex sides and rounded corners and is equipped with a sacrificial layer on the outside of intersecting or interwoven fibrous threads, bundles or ribbons, fastened with it a binder, and the volume ratio of the unidirectional fiber of the rod and the fiber of threads, tows or tapes of its sacrificial layer is in the range from 1: 0.04 to 1: 0.5, and the total content of the binder in the rod with the sacrificial layer is 15-50% of the total content fibers in them, while in particular cases of carrying out the invention, the rod is made continuous or with a central through channel, and the shape of its shaped protrusions is selected from the forms shown in Fig. 2, and the rod is made with transverse channels and / or recesses, mainly GOVERNMENTAL circular section, which can be closed from the outside by elastic rings in synthetic material or rubber; the shaped protrusions are located along or across the longitudinal axis of the rod or along a three-dimensional curve, and the shaped protrusions are made continuous or discontinuous; glass, basalt, carbon, organic fiber or a combination thereof was used as a unidirectional fiber, and a composition based on polyester, epoxy, vinyl ether or polyurethane resins or a combination thereof was used as a polymeric binder; the polymer binder additionally contains up to 35% of its content, chalk, talc, dolomite, microcalcite or a mixture thereof as additives; the sacrificial layer is made of fabric, canvas, mat, thread-piercing or needle-punched cloth or tape made of glass, basalt, polymer fiber, or a combination thereof; wear-resistant coating, mainly polyurethane or PTFE, is placed outside the sacrificial layer; on the sacrificial layer, risks or notches are additionally performed; on a wear-resistant coating, risks or notches are additionally performed.

Distinctive features of the prototype features of the claimed composite anchor are the following:

a) the signs that ensure the receipt of a technical result in all cases to which the requested amount of legal protection applies:

- the implementation of the anchor rod in cross section in addition to round in the form of a polygon with straight, concave or convex sides and rounded corners,

- supplying said rod outside with a sacrificial layer,

- the implementation of the sacrificial layer of intersecting or interwoven fibrous threads, tows or ribbons,

- fastening the sacrificial layer to the rod by the binder of the rod,

- the volume ratio of the unidirectional fiber of the rod and fiber of threads, bundles or tapes of its sacrificial layer, which is in the range from 1: 0.04 to 1: 0.5,

- the total binder content in the rod with the sacrificial layer, amounting to 15-50% of the total fiber content in them,

b) signs characterizing the invention in special cases:

- the execution of the rod continuous or with a central through channel,

- the choice of the shape of the shaped protrusions of the rod from the forms shown in figure 2,

- the implementation of the rod with transverse channels and recesses, mainly of circular cross section,

- closed transverse channels from the outside with elastic rings of polymer material or rubber,

- the location of the shaped protrusions along or across the longitudinal axis of the rod or along a three-dimensional curve,

- the implementation of the shaped protrusions continuous or intermittent,

- use as a unidirectional fiber glass, basalt, carbon, organic fiber, or a combination thereof, and as a polymer binder, compositions based on polyester, epoxy, vinyl ether or polyurethane resins, or a combination thereof,

- the content in the polymer binder as additives of chalk, talc, dolomite, microcalcite or a mixture thereof,

- the content of these additives, up to 35% of the content of the binder,

- the implementation of the sacrificial layer of fabric, canvas, mat, thread-piercing or needle-punched cloth or tape of glass, basalt, polymer fibers, or a combination thereof,

- placement of a wear-resistant coating, mainly polyurethane or fluoroplastic, outside the sacrificial layer,

- additional performance on the sacrificial layer of notches or notches;

- additional performance on a wear-resistant coating of scratches or notches;

- supplying the front of the rod with a drill head or tip;

- the drill head and / or tip are made of rod material.

These distinctive features, individually and collectively, are aimed at achieving the stated result and are significant. In the prior art, the totality of the known and distinctive features presented in the independent claim is not known and, therefore, the invention meets the criterion of "novelty."

The claimed composite anchor has a high degree of adhesion to the ground due to the developed surface of its rod. This developed surface is provided, on the one hand, by the cross-sectional shape of the rod and, on the other hand, by shaped protrusions made on it. Unlike the prototype anchor, on the rod of which there are also protrusions, the claimed technical solution allows creating an optimal anchor design for a given soil due to the possibility of using a wide variety of section shapes and protrusions, which is not limited to the examples shown in Fig. 2. Shaped protrusions can be either continuous or intermittent, which also improves traction.

The problem that was solved when creating the invention was to preserve this developed surface on the anchor after it was inserted into the hole, since when the anchor was introduced, sharp fragments of rock or stones destroy the surface layer of the composite on the rod. This leads to a violation of the structure of the composite due to flaking and breaking off the fibers of its reinforcing material, and therefore to a decrease in the bearing capacity and a decrease in the operational reliability of the anchor.

The problem was solved by using an additional, integral with the core, sacrificial layer made not of unidirectional fiber, of which the core is made, but of woven or non-woven material made of fibers interconnected by weaving or crossing, impregnated with a binder of the material of the core.

Experimentally, a range of values was derived for the ratio of the amount of fiber contained in the rod and in the sacrificial layer: from 1.0: 0.04 to 1.0: 0.5. The above interval means that if the fiber content is below 0.04, the sacrificial layer will be fragile, it will collapse without reaching the end of the hole, thereby not fulfilling its task, and if the fiber content is above 0.5, the longitudinal strength of the anchor and its bearing capacity will decrease.

In the same experimental way, the total binder content in the rod with the sacrificial layer was determined, which should be 15-50% of the total fiber content in them. The lack of a binder (less than 15%) as well as its excess (more than 50%) will lead to a decrease in strength, bearing capacity and operational reliability of the anchor.

The binder may contain mineral additives (up to 35% of the binder content).

The wear-resistant coating gives additional protective properties to the anchor rod, the choice of which is determined in each case by the degree of necessary surface protection and compatibility with the material of the sacrificial layer of the rod.

The anchor fixing unit can be made of elements that ensure the fixing of the rod in the hole, both with an interference fit and without it.

On the sacrificial layer, risks or notches can additionally be performed.

On a wear-resistant coating, risks or notches can be additionally performed.

The front of the shaft may be provided with a drill head or tip.

The drill head and / or tip may be made of core material.

The claimed invention allows the use of different methods of fixing the anchor in the hole due to the possibility of making the anchor rod continuous (for fixing using prefabricated cartridges with ampoules) or with a central through channel (for fixing by injection method).

All of the above ensures the operational reliability of the claimed composite anchor.

The invention is illustrated by a description of a specific, but not limiting, example of implementation and the accompanying drawings.

Figure 1 (a, b) shows the claimed composite anchor, a general view, figure 2 (a-l) shows options for the shapes of sections and shaped protrusions of the anchor rod, in figures 3, 4 - additional options for the structural design of the rod.

The composite anchor consists of a fixing unit, including a threaded sleeve 1 and a washer 2, and a rod 3 with protrusions 4 uniformly distributed along its surface and located along its longitudinal axis (Fig. 1a).

The rod 3 is made with a sacrificial layer 5 of intersecting or interwoven fibrous threads, bundles or ribbons 6 and with a centrally located through channel 7 (Fig.1B).

The rod 3 is made of fiberglass based on unidirectional fiber and an epoxy binder, its sacrificial layer 5 is made of fiberglass impregnated with the same resin. The sleeve 1 and the washer 2 are made of fiberglass. The volume ratio of the unidirectional fiber of the rod and the fiber of threads, tows or tapes of its sacrificial layer is 1: 0.5, and the total content of the binder in the rod with the sacrificial layer is 35% of the total fiber content.

The rod 3 can be made with the shapes of the sections and shaped protrusions shown in figure 2, with transverse through 8 or blind 9 channels, the through channels can be closed with elastic rings 10 of polymer material or rubber, can be equipped with a drill head or tip 11 connected with the rod by a mechanical connection (Fig. 3), the shaped protrusions can be located along 4 (Fig. 1) or across 12 (Fig. 3) of the longitudinal axis of the rod or along a three-dimensional curve 13 (Fig. 4), which can be continuous or with gaps 14 (figure 4), on uzhnoy surface of the rod, or a sacrificial wear layers can be made risks notches 15 or 16 (Figure 4).

Anchor work. The washer 2 is put on the rod 3 and the nut 1 is screwed. The assembled composite anchor is inserted all the way into the pre-drilled hole. After that, through the channel 7 of the rod 3 inject the composition of pre-mixed resin and hardener. Then, the anchor is fixed with the washer 2 and nut 1. Sometimes, to guarantee the fastening of the anchor with soil in the rod wall, transverse through or blind channels are made.

When the rod 3 is inserted into the hole, it is rotated, inevitably touching the walls of the hole with sharp stones protruding from them, crushed stone, etc. The undesirable destructive effect of the borehole walls on the rod 3 and, first of all, on its protrusions, is perceived by its sacrificial layer 5 and, if available, a wear-resistant coating.

The results of experimental installations of the anchors of the claimed design showed that their calculated bearing capacity, and with it the operational reliability, not only does not decrease, but also increases due to the preservation of part of the sacrificial layer, and sometimes wear-resistant.

Thus, the task was solved, and the technical result is achieved.

The composite anchor according to the invention is manufactured under industrial conditions on equipment for the production of products from composites.

Claims (14)

1. A composite anchor containing a fixing unit and a rod with shaped protrusions distributed over its surface made of unidirectional fiber and a polymeric binder, characterized in that the rod is made in cross section round or in the form of a polygon with straight, concave or convex sides and rounded corners and is equipped with a sacrificial layer from the outside of intersecting or interwoven fibrous threads, bundles or ribbons, fastened with its binder, and the volume ratio is unidirectional The core fiber of the rod and the fiber of the threads, bundles or tapes of its sacrificial layer is in the range from 1: 0.04 to 1: 0.5, and the total volume content of the binder in the rod with the sacrificial layer is from 15 to 50%. 2. Anchor according to claim 1, characterized in that the rod is made continuous or with a central through channel, and the shape of its shaped protrusions is selected from the forms shown in figure 2. 3. Anchor according to claim 2, characterized in that the rod is made with transverse channels and / or recesses, mainly of circular cross section. 4. Anchor according to claim 3, characterized in that the transverse channels are closed externally with elastic rings of polymer material or rubber. 5. Anchor according to claim 1, characterized in that the shaped protrusions are located along or across the longitudinal axis of the rod or along a three-dimensional curve. 6. Anchor according to claim 5, characterized in that the shaped protrusions are continuous or intermittent. 7. Anchor according to claim 1, characterized in that glass, basalt, carbon, organic, polymer fiber or a combination thereof is used as a unidirectional fiber, and a composition based on polyester, epoxy, vinyl ester or polyurethane resins or their combinations. 8. Anchor according to claim 7, characterized in that the polymer binder additionally contains up to 35% of its content of chalk, talc, dolomite, microcalcite or a mixture thereof as additives. 9. Anchor according to claim 1, characterized in that the sacrificial layer is made of fabric, canvas, mat, thread-piercing or needle-punched cloth or tape made of glass, basalt, polymer fiber, or a combination thereof. 10. Anchor according to claim 1, characterized in that a wear-resistant coating is placed outside the sacrificial layer, mainly polyurethane or PTFE. 11. Anchor according to claim 1, characterized in that risks or notches are additionally performed on the sacrificial layer. 12. Anchor according to claim 10, characterized in that risks or notches are additionally performed on the wear-resistant coating. 13. Anchor according to claim 1, characterized in that the front of the rod is equipped with a drill head or tip. 14. Anchor according to item 13, wherein the drill head and / or tip are made of rod material.

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