WO2014104910A1

WO2014104910A1 - Bundled rebar

Info

Publication number: WO2014104910A1
Application number: PCT/RU2012/001113
Authority: WO
Original assignee: Открытое акционерное общество Нижегородская инжиниринговая компания "Атомэнергопроект"
Priority date: 2012-12-26
Filing date: 2012-12-26
Publication date: 2014-07-03

Abstract

The proposed invention relates to the field of building and can be used in preparing or erecting pre-stressed reinforced-concrete structures having complex configurations and high force parameters for the stressed rebar, for instance in nuclear power plants. The technical problem is to give a bundled rebar containing a plurality of cables a cross section shape which enables the entire bundled rebar to be pulled into a channel-former in a single operation without snagging of the individual cables. The solution to this problem makes it possible to securely affix the individual cables, to pull the entire rebar bundle through at once while maintaining the proper positioning of the individual cables and to reduce the amount of time spent on installing the bundled rebar into the channel-former, thus expediting the process and reducing installation costs. The bundled rebar contains a plurality of reinforcing cables (1), provided in a protective casing (2), and a unit (3) for giving structure to and pulling the bundle into a channel-former, said unit being in the form of a perforated plate (4), the number of perforations (5) in which corresponding to the number of cables in the bundle, said cables being passed through said perforations. All of the cables passed through the perforations in the plate are made to pass through by a distance sufficient to allow said cables to be welded to the plate, with the exception of cables (7-12), which are passed through any six perforations (5) provided in groups of three along the periphery of the plate (4) symmetrically about the centre thereof, and are also sturdily connected to the plate by means of welding and passed through the plate by a distance sufficient to allow for the formation of a pulling loop (6).

Description

Reinforcing beam Technical field The present invention relates to the field of construction and can be used in the manufacture or construction of prestressed concrete structures of complex configuration, including for nuclear power plants.

State of the art

A known method of prestressing reinforced concrete structures using rope or smooth wire high-strength reinforcement, without a protective sheath, laid in the form of bundles in channels formed by channel formers made of steel or thermoplastic material (pipe or sleeve), followed by their filling (after prestressing) with anticorrosive grease or cement mortar / USSR author's certificate -6841 16, class E04N7 / 00.27.05.77 /.

Rope or smooth high-strength reinforcement for prestressed reinforced concrete structures without a protective anticorrosive sheath are subject to corrosion, starting from the manufacturing stage and later on at the stages of transportation, storage, bundle formation, which requires constant monitoring of the integrity of the reinforcing protective coating. Corrosion protection of the beam reinforcement after its installation is carried out under the conditions of the construction site, which does not fully guarantee that the beam reinforcement is not corroded during the entire service life of the building structure. When the beams are tensioned in medium and high power channel formers with their curved path, the effect of pinching of some layers of the beam elements / in the bending plane / overlying layers occurs, which leads to uneven tension between the individual elements of the cable or wire reinforcement and the beam as a whole. This undesirable effect eliminates the possibility of tension or tightening of individual elements of the beam of prestressing reinforcement and requires tension of the beam by tensioning equipment for the force in the whole beam. The unevenness of the stress state of the beam with a curved path leads to the factor of the length of the lower and upper layers of the strands of the beam lying in the plane of its bend.

Known prestressed reinforced concrete shell of a nuclear reactor containing reinforcing ropes located in the channels with towing ropes and mechanisms of tensioning ropes and ropes / Copyright certificate of the USSR W \ 236800, class E04N7 / 00.08.02.84 /.

In the considered construction, the rope tension mechanisms provide the pulling of the ropes in the channel formers and the tension of the ropes by the tension mechanisms. However, in the process of tensioning the ropes in the curved sections of the prestressed structure, the more curved strands of the rope are pinched by the less curved, uneven tension of the strands in the rope, which leads to insufficient use of the rope section.

The closest technical solution to the proposed one is a reinforcing bundle of prestressed concrete structures / RF Patent -23372458, class E04O21, 04/09/2007 /, containing many reinforcing ropes placed in a protective sheath. The reinforcing beam is a structure of anchor and base plates. The ends of the ropes are fastened in the anchor block using collet clamps. The disadvantage is that the pulling is carried out through the channel generator of the reinforcing bundle with parts containing a smaller number of reinforcing ropes in the protective sheath, in comparison with the full reinforcing bundle. The reinforcing beam is pulled through the duct by means of a structure of anchor and base plates. The ends of the ropes are fastened in the anchor block with the help of collet clamps fixed by the base plate. The use of anchor pads with collets increases the cross-sectional size of the reinforcing beam, curved strands of the rope are jammed on the curved sections of the channel former, the ropes are laid unevenly in the duct generator, making it difficult or impossible to pull all parts of the reinforcing rope. When weakening the landing of individual collets, ropes may fall out of them, so the ropes must be removed again and the procedure repeated. If the pulling is also possible, the time for pulling the ropes through the channel former increases.

Disclosure of invention

The objective of the invention is to provide such a cross-sectional shape to a reinforcing beam containing forty-six ropes, which provides the pulling of a full reinforcing beam into the channel former in one pass, without pinching individual ropes.

The solution of this problem allows us to ensure reliable fastening of individual ropes, to pull the entire reinforcing bundle at once with the correct laying of individual ropes and to reduce the time of installation of the bundle of ropes in the channel former, which reduces the time and reduces the cost of the installation procedure.

The problem is solved due to the fact that the reinforcing bundle containing many reinforcing ropes placed in a protective sheath is equipped with a device for its formation and pulling into the channel former, made in the form of a perforated plate, the number of holes in which is equal to the number of ropes in the bundle and through which they all the ropes passed through the holes of the plate are let out of the plate to a length sufficient to connect with it a strong connection - welding, with the exception of the ropes, through any six holes around the periphery of the plate, arranged three symmetrically with respect to the center of the plate, which are also connected to it by a strong joint - welding and are extended to a length sufficient to form a sling loop, while the outer dimensions of the perforated plate are smaller than the dimensions of the inner section of the channel of the objector.

Ropes of the reinforcing beam, passed through the holes in the plate, are stripped from the protective sheath by an amount exceeding the thickness of the plate. Reinforcing bundle, in which the specified set of reinforcing ropes contains 46 ropes.

Brief Description of the Drawings

The essence of the technical solution is illustrated by drawings, where:

figure 1 shows the reinforcing ropes forming a reinforcing bundle with a sling loop;

in FIG. 2 shows a view A in FIG. one

An example embodiment of the invention

The reinforcing bundle consists of ropes 1 having a polymer protective sheath 2.

The reinforcing bundle is laid in the channel former 3 so that the reinforcing ropes 1 are evenly distributed over the entire area the cross-section of the channel former 3. This is achieved by supplying the reinforcing beam with a node for forming and pulling it into the channel former 3 in one pass, made in this technical solution in the form of a perforated plate 4 with holes 5 for passing reinforcing ropes 1 and installed on the ends of the reinforcing ropes 1.

The number of holes 5 in the perforated plate 4 is equal to the number of ropes 1 in the reinforcing beam, in the proposed invention it is forty-six. The outer dimensions of the perforated plate 4 do not exceed the dimensions of the inner section of the channel former 3.

In the place of passage and attachment of the ropes 1 to the perforated plate

4 they are stripped from the protective shell by an amount exceeding the thickness of the plate 4. To facilitate the simultaneous dragging of forty-six ropes 1 into the channel former 3 ropes 1 in quantity - forty are passed through holes 5 of the plate 4 and released to a length sufficient to connect the plate 4 with a strong connection - welding, except for ropes in the amount of six, forming a sling loop 6.

Ropes in the amount of six 7-12, passed through holes 5 located on the periphery of the plate, three symmetrically with respect to the center of the plate 4, are also welded to it and extended to a length sufficient to form a sling loop 6 to which the tow rope is hooked (in the drawing not shown) and simultaneously pull all the ropes 1, in this case in the amount of forty-six, the reinforcing beam into the channel former 3.

The application of this proposal makes it possible to shape the reinforcing beam and at the same time stretch forty-six ropes into the channel former, which reduces the installation time of the reinforcing beams of the prestressing system of the protective shell of the power units.

Claims

Claim

one . An reinforcing bundle containing many reinforcing ropes placed in a protective sheath, characterized in that it is equipped with a node for its formation and pulling into the channel former, made in the form of a perforated plate, the number of holes in which is equal to the number of ropes in the bundle and through which they are passed, In this case, all the ropes passed through the holes of the plate are released from the plate to a length sufficient to connect with it a strong connection - welding, with the exception of ropes passed through any six holes Tille plate circumferentially disposed three symmetrically relative to the plate center, which is also connected thereto durable connection - welding and released over a length sufficient for the formation of the lifting loops, the outer dimensions of the perforated plate smaller than the inner cross section kanaloobrazovatelya.

2. The reinforcing bundle according to claim 1, characterized in that the ropes passed through the holes in the plate are stripped from the protective sheath by an amount exceeding the thickness of the plate.

3. The reinforcing bundle according to claim 1, wherein said plurality of reinforcing ropes comprises 46 ropes.