KR100734169B1 - Pre-stressed concrete girder and method - Google Patents

Abstract

A prestressed concrete girder having a maintenance anchorage is provided to prevent the breakdown caused by installing an additional anchor block on the outside of the existing girder, to reduce maintenance expenses and not to mar the appearance. The prestressed concrete girder comprises a girder(G) composed of upper, lower flanges and a web, an anchor block projected to the appointed width from two sides of the girder, and a maintenance anchorage(F) anchored on two ends of the anchor block to apply tensile strength for tensing a stand. The maintenance anchorage comprises a sheath pipe having the appointed diameter and length, a spiral bar circling round the outer circumferential surface of the sheath pipe, a strand built in the sheath pipe and formed by twisting plural PC wires, a pressure plate installed to the outer end of the strand and penetrated with the sheath pipe, and an anchor head and a head cap installed on the pressure plate and composed of a wedge for fixing the strand, a ring nut for applying tensile force additionally and a bracket for releasing tensile force.

Description

Prestressed concrete girder and its construction method equipped with maintenance anchorage with adjustable tension force {Pre-stressed concrete girder and method}

1 is a side view showing a prestressed concrete girder equipped with a maintenance anchorage capable of adjusting the tension according to the present invention,

Figure 2 is a plan view showing a prestressed concrete girder equipped with a maintenance anchorage capable of adjusting the tension according to the present invention,

3 is an enlarged detailed view of a portion “A” of FIG. 1;

Figure 4 is a perspective view showing a maintenance anchorage capable of adjusting the tension according to the present invention,

Figure 5 is a plan view showing a maintenance anchorage capable of adjusting the tension according to the present invention.

Explanation of symbols on the main parts of the drawing

10: Sheath Tube 20: Spiral Rebar

30: strand 40: pressure plate

50: wedge 60: ring nut for additional tension

70: head cap 80: anchorage tofu

90: tension release bracket 100: bolt

B: Fusing Block F: Maintenance Fixture

G: PSC girder

The present invention relates to a prestressed concrete girder and a construction method thereof provided with a maintenance anchorage capable of adjusting the tension force.

Conventional prestressed concrete girders use anchored strands mainly in wedge tension anchors, primarily tensioning strands in tension anchors, shortly cutting strands exposed at tension anchor ends, and filling grout with sheath. The market was impossible.

In addition, the nut-type tensile anchorage is produced and set in a state where the anchorage and strands are rigid in the processing plant, so it can be used only when the strand is anchored outside the structure, and thus its use is limited, and thus it is applicable to prestressed concrete girders. This is a limited anchorage.

Therefore, the reinforcement or performance improvement of the PSC girder is mostly caused by attaching a large amount of concrete or steel anchoring block to the outside of the girder to connect and tension the strands, causing additional damage to the existing prestressed concrete girder, and significantly reducing maintenance costs. Increasingly, aesthetics are hindered and construction is difficult.

There are no alternatives to date, and most of the reinforcement or performance improvement has been made by additional installation methods of large-scale external fixing blocks.

Recently, when manufacturing prestressed concrete girder, there is a method of inserting 2 or 3 strands of non-attached strands in advance between grouted anchoring strands in wedge tension anchors and using them for future maintenance. Since it is embedded in the same sheath together with the length of the attached strand, it is unclear the mutual effect of the first strained and grouted strand, and the amount of the unattached strand to be inserted is small due to the capacity of the anchorage and the sheath. There is a disadvantage in that the effectiveness is limited to introduce a sufficient amount of tension force.

In addition, there is a problem that the finish of the anchorage treated with mortar when removing the non-maintenance strand tension must be removed one by one.

Therefore, the present invention has been devised to solve the problems described above, without the damage caused by the installation of additional fixing block to the outside of the existing girder, maintenance costs are low, it is possible to adjust the tension so as not to impair aesthetics The purpose of the present invention is to provide a prestressed concrete girder equipped with a maintenance anchorage and a construction method thereof.

Prestressed concrete girder provided with a maintenance anchorage capable of adjusting the tension according to the present invention for achieving the above object is a girder consisting of upper and lower flanges and the abdomen; A fixing block protruding from both sides of the girder with a predetermined width and width; It is characterized in that it consists of a maintenance fixing fixture fixed to introduce a tension force for tensioning the strand at a predetermined position on both ends of the fixing block.

In addition, the prestressed concrete girder construction method provided with a maintenance anchorage capable of adjusting the tension force according to the present invention for achieving the above object is provided with a protruding fixing block on both sides of the PSC girder, the wedge and the wedge fixing block Install a maintenance anchorage with a mixture of additional tension ring nuts and tension release brackets, and install strands across the maintenance anchorages, and wedges of the maintenance anchorages during the main tension of the strands. In case of additional tension, use the additional tension ring nut of the maintenance fixture to tension the strand, and if it is necessary to replace the strand, remove the tension release bracket to completely release the tension. Remove existing strands and insert new strands to relax It is done.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail.

1 is a side view showing a prestressed concrete girder provided with a maintenance anchorage controllable tension control according to the present invention, Figure 2 is a prestressed concrete girder with a maintenance anchorage controllable tension control according to the invention Figure 3 is a plan view showing an enlarged detail "A" portion of Figure 1, Figure 4 is a perspective view showing a fixing anchor capable of adjusting the tension according to the present invention.

As shown in these drawings, the prestressed concrete girder provided with a maintenance anchorage capable of adjusting the tension according to the present invention is a girder (G) consisting of the upper and lower flanges and the abdomen; A fixing block (B) protruding at a predetermined width and width on both sides of the girder (G); It is composed of a maintenance fixing fixture (F) fixed to introduce a tension force for tensioning the strand 30 at a predetermined position on both ends of the fixing block (B).

Here, the maintenance anchorage (F) is a sheath tube 10 having a constant diameter and length; A spiral reinforcing bar 20 pivoting along an outer circumferential surface of the sheath tube 10; A strand 30 embedded in the sheath tube 10 and formed by twisting a plurality of PC steel wires; An acupressure plate 40 installed at an end outside of the strand 30 and installed at the same time as the sheath tube 10 penetrates therethrough; The fixing fixture head 80 and the head, which are installed on the pressure plate 40 and consist of an additional tension ring nut 60 and a tension release bracket 90 on which the wedge 50 is fixed to fix the strand 30. The cap 70 is comprised.

In addition, the tension release bracket 90 is inserted between the shiatsu plate 40 and the ring tension 60 for further tension, the cross-sectional shape is any one of the cross-section of the square formed in the donut, U-shaped, garden hole It is formed of a structure of the shape, each cross-sectional shape is composed of a shape that can be divided into two, three, or four portions, respectively, for easy installation and dismantling.

That is, the maintenance anchorage (F) is a composite anchorage which is a mixture of the wedge 50 and the additional tension ring nut 60 and the tension release bracket 90 mixed with a wedge type and a nut type, basically a wedge ( 50) the strand 30 is mainly settled, the tension or fine adjustment of the additional strand 30 to the additional tension ring nut (60), when the tension release can remove the tension release bracket (90) It is a settlement.

It describes the construction of the prestressed concrete girder provided with a maintenance anchorage capable of adjusting the tension according to the present invention made of a configuration as described above.

Prestressed concrete girder construction method provided with a maintenance anchorage adjustable tension control according to the present invention is installed on both sides of the PSC girder (G) projecting fixing block (B), the wedge (b) on the projecting fixing block (B) 50) and an additional tension ring nut 60 are installed, respectively, for the maintenance fixing unit F, and the strand 30 is installed over each of the maintenance fixing units F, and the strand 30 At the time of main tension, tension is performed using the wedge 50 of the maintenance anchorage (F), while additional tension is applied to the strand (using the additional tension ring nut (60) of the maintenance anchorage (F). 30) and when the strand needs to be replaced due to the lowering of the tension of the strand, the strand tensioner is slightly tensioned with the existing strand 30 to release the tension between the pressure plate 40 and the ring nut 60 for additional tension. Remove the bracket (90) Relax the introduced tension force first, and further tension the existing strand (30) gradually with a strand tensioner to turn the additional tension ring nut (60) in the unwinding direction to fully relax the tension force in the second direction to completely relax the introduced tension force. After release, the wedge 50 is dismantled to pull out the strands 30, and after inserting the new strands 30, the anchorage head 80 is remounted to relax.

As described above, the prestressed concrete girder and its construction method provided with a maintenance anchorage capable of adjusting the tension force according to the present invention has the following effects.

First, the present invention has a merit that the maintenance anchorage is used as the owner of the wedge when the new construction of the PSC girder, and the nut type is used for the maintenance of the strand, so that the tension of the strand can be continuously maintained at low cost in common. .

Second, the present invention can remove the tension release bracket when the strand is inserted into the maintenance anchorage can be replaced by removing the tension-releasing bracket to relax the tension force has the effect of prolonging the common life of the PSC girder for a long time have.

Claims (4)

A girder (G) comprising an upper and lower flange and an abdomen; Fixing block (B) protruding in a constant width and width on both sides of the girder; In the prestressed concrete girder consisting of a maintenance fixing device (F) for tensioning the strand 30 in common after the main tension at a predetermined position on both ends of the fixing block, The maintenance anchorage (F) and the sheath tube 10 having a constant diameter and length; A spiral reinforcing bar 20 pivoting along an outer circumferential surface of the sheath tube 10; A strand 30 embedded in the sheath tube 10 and formed by twisting a plurality of PC steel wires; An acupressure plate 40 installed at an end outside of the strand 30 and installed at the same time as the sheath tube 10 penetrates therethrough; The fixing fixture head 80 and the head, which are installed on the pressure plate 40 and consist of an additional tension ring nut 60 and a tension release bracket 90 on which the wedge 50 is fixed to fix the strand 30. Prestressed concrete girder equipped with a maintenance anchorage capable of adjusting the tension, characterized in that consisting of a cap (70). The method of claim 1, The tension-releasing bracket 90 is inserted between the pressure plate 40 and the additional tension ring nut 60, and the cross-sectional shape is any one of the cross-sectional shape of a square formed with a donut, a U-shape, and a garden hole. The prestressed concrete girder is provided with a structure that is formed of a structure, each cross-section is configured to be divided into two, three or four quarters of the shape can be segmented, respectively, the tension fixing adjustable anchorage. Protruding fixing blocks (B) are installed on both sides of the PSC girder (G), and the fixing fixtures (F) in which the wedges 50 and the additional tension ring nuts 60 are mixed in the protruding fixing blocks (B). Each installation, the strand 30 is installed over each of the maintenance anchorage (F), when the main tension of the strand (30) using the wedge 50 of the maintenance anchorage (F) On the other hand, when the additional re-tension tension the strand 30 by using the additional tension ring nut 60 of the maintenance anchorage (F), when the tension release for replacing the strand 30 to release the tension bracket Prestressed concrete girder construction method equipped with a maintenance anchorage capable of adjusting the tension, characterized in that to remove (90). The method of claim 3, wherein The strand 30 is replaced by a slight tension of the existing strand 30 with a strand tensioner to remove the tension release bracket 90 sandwiched between the pressure plate 40 and the ring tension ring 60 for additional tension. The tension force is firstly relaxed, and the existing tension 30 is gradually added to the strand tensioner little by little, and the additional tension ring nut 60 is turned in the release direction to completely relax the tension force to completely release the introduced tension force. After dismantling the wedge 50, withdraw the strand 30, and after inserting a new strand 30 is provided with a maintenance anchorage capable of adjusting the tension force characterized in that the tension by remounting the anchor head (80). Prestressed concrete girder construction method.

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