KR20060118711A - Steel wire prestress head and construction method thereby - Google Patents

Abstract

A tension head of a strand and a construction method of a concrete structure thereof are provided to minimize the waste of resources and costs by reusing a tension block after disjoining a distorted wedge coupling ring after tension work and using a high-priced tension head semi-permanently. A tension head of a strand(2) comprises a tension block(10) provided with plural insertion holes(14) penetrated from one end to the other end and hanging projections formed on the inner circumference of the insertion hole, a wedge coupling ring(20) inserted to the insertion hole of the tension block and suspended on the hanging projection of the insertion hole, and a wedge(30) inserted to the wedge coupling ring and composed of plural wedge pieces(32) divided by cutting open longitudinally and taper parts(34) adhered closely to an incline(22) of the wedge coupling ring. A construction method of a concrete structure using the tension head of a strand comprises the steps of inserting a strand into an insertion hole of a tension block, inserting a wedge coupling ring between the outer circumference of the strand and the insertion hole of the tension block, inserting a wedge between the wedge coupling ring and the strand, and tensioning the strand by pulling the tension block using a tensioner.

Description

Steel wire prestress head and construction method

1 is a perspective view of a conventional strand wire tension head

2 is a cross-sectional view showing a state of use of FIG.

Figure 3 is a perspective view of the main part of the strand wire tension head according to the present invention

4 is a cross-sectional view showing a state of use of the present invention

<Explanation of symbols for main parts of the drawings>

10. Tension block 20. Wedge coupling ring

30. Wedges

The present invention relates to a strand wire tension head and a method for constructing a concrete structure using the same. More specifically, only some parts damaged after construction of a concrete structure are removed, and when used later, new parts can be used again instead of the removed parts. The present invention relates to a stranded tension head that can reduce waste, resources and cost, and a method of constructing a concrete structure using the same.

As a temporary construction method for the excavation of the ground for the underground construction of a building, underground construction, or underground construction, the support method, earth anchor method, or strut method has been widely used. However, since these methods have a small working space and inconveniences when using heavy equipment, and problems such as private property invasion, IPS (Innovative Prestressed Support) method has been developed and widely used in recent years.

This IPS method is a method of supporting the earth pressure caused by excavation by applying the tension to the steel wire after mounting the IPS system consisting of the band and steel wire on the wall of the earth. This IPS method can increase the span of reinforcement through the prestress applied to the excavation ground, and can greatly reduce the number of installation of the reinforcement compared to using existing steel. Widely used. In addition, the method using the prestress of the strands is widely used in other concrete structures. That is, the precast concrete girder is used to cure the girders in advance in the factory for the construction of the bridge, by embedding the strand in the precast concrete girders to pre-tension, thereby improving the strength and the like. In addition, by installing a stranded wire in the supporting column of the dome roof, the stranded wire is pre-tensioned to improve structural strength and the like.

As such, a method of stretching the stranded wire is widely used in the construction of a building or a concrete structure. As a tool for tensioning the stranded wire, a tension head is used. This tension head can tension several strands of strands at once, thus increasing construction speed and the like compared to tensioning strands of strands one by one.

FIG. 1 is a perspective view of the strand wire tension head, and FIG. 2 is a cross-sectional view illustrating a state of use of FIG. 1. Referring to Figures 1 and 2, the strand wire tension head is a tension block 110 is formed with a plurality of insertion holes 114 having a tapered inclined portion (114a) to be reduced in diameter from one end to the other end, the tension The tapered portion 124 is cut in the longitudinal direction to the insertion hole 114 of the block 110 is divided into a plurality of wedge pieces 122 and the outer peripheral surface is in close contact with the insertion hole 114 of the tension block 110. It consists of a wedge 120.

According to this, after inserting both sides of the stranded wire (2) into the inside of the wedge 120, and pulling the tension block 110 of any one of the tension block 110 on both sides by a separate tensioner, the wedge piece ( 122 is held in close contact with the inclined portion 114a of the insertion hole 114 of the tension block 110 and narrowed inward in the radial direction, and holds the strand 2 passed therein, and continues in this state by the tensioner. Pulling the tension block 110, the strand (2) can be tensioned.

At this time, the wedge 120 is heat-treated to have a strength to inquire the strand 2, the wedge 120 of the tension block 110 is dug into the inclined portion (114a) of the insertion hole 114 smoothly It is not heat-treated so as to adhere closely. Therefore, when tensioning the strand 2, a force of about 20t is applied between the coupling portion of the wedge 120 and the tension block 110, and the strand 2 and the wedge 120 are tensioned by this force. Pressed by the insertion hole 114 of the block 110, by this pressing force of the insertion hole 114 of the tension block 110 is opened and crushed, the tension block 110 in this state the insertion hole 114 is opened When used again, the wedge 120 is instantaneously opened at the insertion hole 114 of the tension block 110 while the insertion hole 114 of the tension block 110 is further opened during tensioning of the strand 2. If the wedge 120 is opened while tensioning the strand 2, as described above, the strand 2 is temporarily separated from the tension block 110, which may cause a serious safety accident.

Therefore, since the strand wire tension head is used only once, the tension block 110 itself is not used again but must be discarded as it is, resulting in a waste of resources and costs. In particular, since the fabrication cost of the tension block 110 itself is high, if the tension block 110 is discarded in this way, waste of resources and costs is increased.

In addition, the strand wire tension head is fixed to the tension block 110 by welding to the pressure plate for connecting the tension block 110 to the tensioning device, and after the work to remove the welded tension block 110 from the pressure plate, Not only is it inconvenient to use, but there is a problem that the installation and dismantling work is delayed.

The present invention has been proposed in view of the above problems, and the present invention removes only some of the damaged parts after construction of the concrete structure, and when used later, new parts can be used again instead of the removed parts, so that the resources and An object of the present invention is to provide a stranded tension head for concrete construction and a method for constructing a concrete structure using the same.

According to the present invention, there is a tension block 10 through which a plurality of insertion holes 14 penetrated from one end to the other end therein are fitted into the insertion hole 14 at one end of the tension block 10, Wedge coupling ring 20 is formed in the inclined portion 22 is reduced in the direction of the other end in one end of the insertion hole 14 of the tension block 10, the wedge coupling ring 20 is fitted in the longitudinal direction is cut Stranded wire tension head, characterized in that it comprises a wedge 30 is divided into a plurality of wedge pieces 32 and the outer peripheral surface is formed with a tapered portion 34 in close contact with the inclined portion 22 of the wedge coupling ring 20 Is provided.

According to another feature of the invention, the tension block 10 is installed so as to be able to move back and forth inside the box body 40 is formed with an opening 42 to one side, the inner wall surface and the tension block of the box body 40 Between the periphery of the (10) there is provided a steel strand tension head, characterized in that the sealing member 45 is interposed.

According to another feature of the present invention, the bolt fastening portion 11 is formed on the outer peripheral surface of the tension block 10, the bolt fastening portion 11 is formed with a bolt hole (11a), the bolt hole (11a) A strand wire tension head is provided, characterized in that the bolt penetrates the pressure plate of the tensioning device so that the tension block 10 can be installed in the tensioning device.

According to the present invention, the tension block 10 through which a plurality of insertion holes 14 are penetrated therein, and is fitted into the insertion hole 14 at one end of the tension block 10 and the tension block 10 is formed on an inner circumferential surface thereof. The insertion hole 14 of the wedge coupling ring 20 is formed in the inclined portion 22 is reduced in the direction toward the other end, and the wedge coupling ring 20 is fitted into the wedge coupling ring 20 is cut in the longitudinal direction and a plurality of wedge pieces 32 In the method of constructing a concrete structure by a strand wire tension head comprising a wedge 30 formed of a tapered portion 34 in close contact with the inclined portion 22 of the wedge coupling ring 20 on the outer peripheral surface, the Inserting the strand 2 to the insertion hole 14 of the tension block 10, and the wedge coupling ring 20 between the outer peripheral surface of the strand 2 and the insertion hole 14 of the tension block 10 ) And inserting the wedge 30 between the wedge coupling ring 20 and the strand 2, and The concrete construction method characterized in that the pulling by a tension of the long block 10 included in the process of the tension strand (2) is provided.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. 3 is a perspective view of a strand wire tension head according to the present invention, Figure 4 is a cross-sectional view showing a state of use of FIG. Referring to this, the present invention is a tension block 10 having a plurality of insertion holes 14, the wedge coupling ring 20 is fitted to the insertion hole 14 of the tension block 10, and the wedge coupling ring It consists of the wedge 30 fitted in 20. As shown in FIG.

The tension block 10 has a rectangular block shape, and a plurality of insertion holes 14 penetrating from one end to the other end therein. A locking jaw 16 is formed on the inner circumferential surface of the insertion hole 14. The wedge coupling ring 20 is formed of a ring body having a circular cross section and is inserted into the insertion hole 14 of the tension block 10, and is caught by the locking jaw 16 of the insertion hole 14. The wedge 30 is cut in the longitudinal direction is divided into a plurality of wedge pieces 32, tapered portion 34 is in close contact with the inclined portion 22 of the wedge coupling ring 20 on one side of the outer peripheral surface.

According to the present invention having such a configuration, the tension block 10 is inserted into both sides of the strand 2 so that the strand 2 passes through the inside of the wedge 30, and then either side of the tension block 10 When the tension head 10 is pulled by a separate tensioner, the divided wedge piece 32 of the wedge 30 is narrowed radially inward by the tapered insertion hole 14 of the tension block 10, Holding the strand 2 passed through the inside, in this state by pulling the tension block 10 by the tension device, the strand 2 can be tensioned.

At this time, the present invention is interposed between the circumferential portion of the wedge 30 and the insertion hole 14 of the tension block 10 is interposed between the wedge coupling ring 20, when the tension line (2) to stretch the strands (2) And the wedge 30 pressurizes the wedge coupling ring 20 without directly pressing the insertion hole 14 of the tension block 10, and is crushed so that only the wedge coupling ring 20 is opened by this pressing force. The insertion hole 14 of the tension block 10 may be prevented from being crushed by the tensile force of the strand 2. Therefore, only the crushed wedge coupling ring 20 is removed after use, and when used later, only the new wedge coupling ring 20 can be inserted and used again, thus eliminating the problem of having to use and discard the tension block 10 itself once. .

On the other hand, the tension block 10 is installed to be able to move back and forth inside the box body 40 is formed with an opening 42 on one side, to prevent rain or snow directly hit the tension block 10 during construction of the concrete structure It can prevent rust easily. In particular, water generated by rain or snow penetrates between the wedge coupling ring 20 inserted into the insertion hole 14 of the tension block 10 and the insertion hole 14 of the tension block 10, so that the wedge coupling ring 20 is formed. It prevents the rust, thereby preventing the wedge coupling ring 20 from being separated from the insertion hole 14 of the tension block 10 by rust after use. In addition, an O-ring sealing member 45 is interposed between the inner wall surface of the box body 40 and the circumferential portion of the tension block 10. As such, the sealing member 45 is interposed to prevent the external moisture from penetrating between the insertion hole 14 of the tension block 10 and the wedge coupling ring 20.

Meanwhile, a bolt fastening portion 11 is formed on the outer circumferential surface of the tension block 10, and a bolt hole 11a is formed in the bolt fastening portion 11 to tension the bolt passing through the bolt hole 11a. Since the tension block 10 can be installed in the tensioning device by fastening to the pressure plate of the device, the field installation work and the dismantling work are quicker and easier.

As described above, the present invention does not discard the entire tension block as it is after the work for tensioning the strand, and only removes the crushed wedge coupling ring during strand tension work, so that the tension block can be reused later. It can be used semi-permanently, and accordingly, there is an advantage to minimize the waste of resources and costs. In addition, the tension block is installed back and forth inside the sealed box body, the moisture generated by rain or snow in the tension block during construction of the concrete structure penetrates between the wedge coupling ring and the insertion hole of the tension block to rust the wedge coupling ring. Since it is prevented from sticking to the insertion hole of the tension block, there is an advantage that can prevent the wedge coupling ring is not separated from the tension block by rust after use. In addition, since the sealing member is interposed between the inner wall surface of the box body and the circumferential portion of the tension block, there is an advantage that it is possible to more reliably prevent outside moisture from penetrating between the insertion hole and the wedge coupling ring of the tension block. In addition, since the tension block can be detachably installed in the tensioning device by the bolt, there is an advantage that the field installation and dismantling work more quickly and easily.

Claims (4)

A tension block 10 through which a plurality of insertion holes 14 penetrates from one end to the other end therein, and is inserted into the insertion hole 14 at one end of the tension block 10 to be inserted into the insertion hole 14. Wedge coupling ring 20 and the wedge coupling ring formed on the inner peripheral surface of the inclined portion 22 is reduced in the direction toward the other end from one end of the insertion hole 14 of the tension block 10, the wedge coupling ring Wedge 30 is inserted into the (20) is cut in the longitudinal direction is divided into a plurality of wedge pieces 32, the tapered portion 34 is in close contact with the inclined portion 22 of the wedge coupling ring 20 on the outer peripheral surface The strand wire tension head, characterized in that configured to include. The tension block 10 of claim 1, wherein the tension block 10 is installed to be able to move back and forth within the box body 40 having the opening 42 formed at one side thereof, and the inner wall surface of the box body 40 and the tension block 10 are formed. Stranded wire tension head, characterized in that the sealing member 45 is interposed between the peripheral portion. According to claim 1 or 2, The outer peripheral surface of the tension block 10 is formed with a bolt fastening portion 11, the bolt fastening portion 11 is formed with a bolt hole (11a), the bolt hole ( A strand wire tension head, characterized in that the bolt penetrating through 11a) to the pressure plate of the tensioning device to install the tension block 10 to the tension device. A tension block 10 having a plurality of insertion holes 14 penetrated therein and fitted into the insertion hole 14 at one end of the tension block 10, and an insertion hole 14 of the tension block 10 at an inner circumferential surface thereof. ) Wedge coupling ring 20 is formed in the inclined portion 22 is reduced in diameter from one end to the other end, the wedge coupling ring 20 is fitted into the wedge coupling ring 20 is cut in the longitudinal direction consisting of a plurality of wedge pieces (32) In the method for constructing a concrete structure by a strand wire tension head including a wedge 30 having a tapered portion 34 in close contact with the inclined portion 22 of the wedge coupling ring 20, the tension block 10 The process of inserting the strand (2) in the insertion hole 14 of the, and the process of inserting the wedge coupling ring 20 between the outer peripheral surface of the strand (2) and the insertion hole 14 of the tension block (10) And, inserting the wedge 30 between the wedge coupling ring 20 and the strand 2, and the tension block 10 The strand (2) how the construction concrete structure comprising the process of pulling by a tension.

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