RU2703026C1 - Filling anchor for bundle fixation from composite reinforcement - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to construction, namely to anchors for reinforcement of bundles of composite reinforcement when making pre-stressed, mainly, reinforced concrete structures. In the anchor bolt for fixing the composite reinforcement bundle, including the hollow body, which is filled with the composite compound, housing has the shape of a truncated cone with a diaphragm in a narrow part and using a separator in the developed part of the housing, which fixes the position of composite rods, creating self-hovering effect in the bundle of composite rods. Internal space in the housing is filled with a compound based on butacryl, dried screenings of rock crushing, quartz sands, benzoyl peroxide is used as a curing agent. Granite, granodiorite and basalt are used as rocks. Rocks can be of following fractions: 0.5–1.0 mm, 1.0–2.5 mm.EFFECT: provision of ideal tight contact with anchoring medium of equal and simultaneous tension of all rods of bundles.3 cl, 1 dwg

Description

The invention relates to the field of construction, namely to anchors for securing bundles of composite reinforcement in the manufacture of prestressed, mainly reinforced concrete structures. The practical application of the present invention can be found in the creation of preliminary reinforced concrete structures, as well as on support connections of seismic-resistant partially-continuous systems of metal and steel-reinforced concrete bridges.

It is known that the anchor device for A.S. USSR No. 522313 (SU 522313 A1 publ. 07.25.76), comprising a housing with a conical hole, in which a conical wedge is placed, consisting of sectors, along the side faces of which grooves are arranged in which the rods of fiberglass reinforcement are placed;

It is also known that the anchor device for A.S. USSR No. 1222788 (SU 1222788 A1 publ. 04/07/86), containing a round cage with a tapered bore and a tapered wedge with an internal cavity in which channels are arranged to accommodate fiberglass reinforcement rods. Moreover, on the inner and outer surface of the wedge, radial slots are arranged along the path of the channels, alternating from the side of the outer and inner surface of the wedge. Thanks to this design, the conical wedge acquires the properties of a radially slotted shell-spring.

Common disadvantages of these anchor devices are:

- the absence of firm guarantees of the simultaneous tension of all beam rods due to the possible manifestation of deformations to a varying degree, the wrinkled different rods and their slipping.

It is also known that a device for composite reinforcement (RU182818 U1 publ. 04.09.2018) containing a hollow telescopic body of individual conical thin-walled rings with a conical hole, inside of which a composite conical wedge is made of composite high-strength friction material consisting of sectors having side planes longitudinal grooves for fittings.

The disadvantage of this anchor device is:

- The organization of a separate operational and technological post for performing these operations involving highly skilled workers and precision equipment.

Closest to the claimed invention is an anchor according to the patent of Germany No. 2932809 publ. 03/26/81, containing an oval-shaped cage in cross section filled with a composite material based on epoxy compound and concrete, acting as an anchoring medium holding composite reinforcement rods due to adhesion and friction forces, the interaction of which creates the effect of volumetric stress state.

Moreover, the most serious drawback of the anchor device is the uneven distribution of tension between the beam rods and the long period necessary to stabilize the properties of the curable composition.

The technical problem to which the invention is directed is to ensure conditions of perfectly tight contact with the anchoring medium, equal and simultaneous tension of all beam rods.

The task is achieved in that the filling anchor for securing the beam from the composite reinforcement, including a hollow body, which is filled with a composite compound, according to the invention, the body has the shape of a truncated cone with a diaphragm in the narrow part and using a separator in the developed part of the body, fixing the position of the composite rods , creating in the beam of composite rods the effect of self-anchoring, while the internal space in the body is filled with a compound based on butacryl, dried screenings of crushing mountains benzoyl peroxide is used as a hardener, quartz sand, and also as a hardener.

At the same time, granites, granodiorites, and basalts are used as rocks. Rocks can be of the following fractions: 0.5-1.0 mm, 1.0-2.5 mm.

The essence of the invention is illustrated by the drawing, where in FIG. 1 is a longitudinal section through a putative anchor. The anchor consists of a housing 1 with an internal cavity 2 in the form of a truncated cone, in which the rods of composite reinforcement 3 are located. In the narrow part of the housing 1, a diaphragm 4 is arranged. The free space of the inner cavity 2 is filled with compound 5. In the developed part of the truncated cone of the inner cavity 2 there is a separator 6, fixing the position of the rods of the composite reinforcement, providing equal contact of all the reinforcement rods with the compound. To eliminate local effects in the rods of composite reinforcement in connection with their kink, the hole 7 in the diaphragm 4 is conical, the taper of which corresponds to the trajectory of the rods.

The implementation of the filling anchor for fixing the beam of composite reinforcement is as follows.

The space of the truncated cone 2 is filled with compound 5. After polymerization, compound 5 obtains the shape of a cone wedge, entrained by pulling the composite reinforcement 3 towards the hole 7 in the diaphragm 4. In this case, the effect of the volumetric stress state with the accompanying compression of the rods of the composite reinforcement 3 is formed, which enhances the effect of friction forces , which in this situation contribute to the preservation of adhesion forces, effective due to the fact that compound 5 envelops the rods of composite reinforcement 3. After polymerization of compound 5 about razuyutsya usloviyaidealno-tight contact with the rod 5 of the compound of composite reinforcement 3. Equivalent kontaktsterzhney of composite reinforcement 3 with compound 5 is achieved by arranging the rods in the inner cavity 2 of the housing 1 due to their anchor fixation separator 6.

To fill the cone, a polymeric binder-butacryl (TU 2257-016-47539350-2008) and dried rock crushing screenings (granites, granodiorites, basalts) of the following fractions are used: 0.5-1.0 mm, 1.0-2.5 mm, natural quartz sands meeting GOST 8735. Benzoyl peroxide is used as a hardener.

To create an anchor, 60-70% of screenings and 30-40% of a polymer binder are necessary. The reaction proceeds with the release of heat and takes 30-40 minutes.

Using the proposed design of the anchor provides the conditions for perfectly tight contact with the anchoring medium, equal and simultaneous tension of all the beam rods.

Claims (3)

1. A casting anchor for securing a beam of composite reinforcement, comprising a hollow body that is filled with a composite compound, characterized in that the body has the shape of a truncated cone with a diaphragm in the narrow part and using a separator in the developed part of the body, fixing the position of the composite rods, creating a beam of composite rods, the effect of self-anchoring, while the internal space in the body is filled with a compound based on butacryl, dried screenings of crushing rocks, quartz sand, as well as Hardener uses benzoyl peroxide. 2. A casting anchor for fixing composite reinforcement according to claim 1, characterized in that granites, granodiorites, and basalts are used as rocks. 3. A casting anchor for fixing composite reinforcement according to claim 1, characterized in that the rocks of the following fractions are used: 0.5-1.0 mm, 1.0-2.5 mm.

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