JPH07314430A - Production of pc segment - Google Patents

Abstract

PURPOSE:To eliminate a possibility of deformation of a form for a segment and produce a PC segment of high waterstop properties. CONSTITUTION:A plurality of wires 20, 20... are fastened to a PC steel rod 12 at predetermined intervals between abutments A1, A2 forming a tensing device. Each of the wires 20, 20... is extended in the centrifugal direction of the circular PC steel rod 12 through an outer peripheral form 10b. When the set PC steel rod 12 is tensed, it is tensed with a force corresponding to a required tensing force while a reaction force is produced from the abutments A1, A2. If at this time the respective wires 20 are also simultaneously tensed in accordance with the tensing force, the PC steel rod 12 cannot be deformed in shape but can be formed into an accurate circle. Therefore, a prestress can be uniformly introduced. Mortar, such as concrete, is placed in a forms 10 with the PC steel rod 12 tensed. After the concrete is hardened with the generation of a predetermined strength, the form 10 is disassembled for the removal of the segment.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of manufacturing a prestressed concrete segment (hereinafter referred to as a PC segment), and more particularly to a method of manufacturing a PC segment by a pretensioning method.

[0002]

2. Description of the Related Art Conventionally, segments made of reinforced concrete are generally used for shield tunnels such as roads, railroads, and common grooves. By the way, due to urbanization in recent years, rainwater that has fallen in urban areas concentrates at once and paralyzes urban functions, so underground rivers are planned to eliminate this. Since the underground tunnel is excavated underground with a depth of about 50 m, an internal pressure of 4 to 5 kgf / cm ² is constantly loaded on the tunnel, and a thick segment of reinforced concrete is required to counter this, and the segment itself In addition to the increase in size, there is a problem that the construction cost increases due to the large excavated cross section.

Further, due to the drying shrinkage of the segment, a crack may be formed on the surface of the segment, and the crack may penetrate into the inside of the segment by passing through the main reinforcing bar and the force distributing bar, which may cause a structural problem. In order to prevent this, measures such as waterproofing the inside of the segment were taken.

On the other hand, P using a steel material for prestressed concrete (hereinafter referred to as PC steel material) in place of the reinforcing bar
The C segment is also known. For example, Japanese Patent Publication Sho 57-1
No. 0814 discloses that a PC steel wire is arranged in a mold for a segment, the PC steel wire is fixed in the mold using a supporting steel material, and then the PC steel wire is tension-fixed to form the mold. A method of manufacturing a PC segment in which mortars are filled in and cured is disclosed.

The PC segment is excellent in that the segment having the same strength as the reinforced concrete product can be made thin and lightweight. However, in the manufacturing method of the PC segment described above, the PC
Since the supporting steel material for supporting the steel wire takes a reaction force from the outer peripheral mold, the mold may be deformed. Further, since the ends of a large number of supporting steel materials are exposed on the outer surface of the segment, there is a problem that the water-stopping property of the segment is not sufficient.

[0006]

OBJECT OF THE INVENTION It is an object of the present invention to provide a method for producing a PC segment which is free from the risk of deformation of the frame for the segment and has a high waterproofness.

[0007]

According to the method of manufacturing a PC segment according to the present invention, a PC steel material is arranged in an arc shape in a frame for a segment, and a plurality of wires are fastened to the PC steel material at predetermined intervals. The PC steel material is tensioned in the circumferential direction while the wire is tensioned in the centrifugal direction of the PC steel material, and mortars are placed in the mold with the PC steel material being tensioned, and the mortars are hardened and then demolded. It is characterized by doing.

In the above-mentioned manufacturing method, it is preferable that the inner side surface of the outer peripheral side mold is boxed in advance so as to surround the through hole of the wire, and after the mold is removed, the boxed portion is filled with mortar.

In the manufacturing method, it is preferable that a guide tube is provided along the PC steel material and the PC steel material is tensioned in the circumferential direction while tensioning the wire fastened to the guide tube. A perforated tube or a half-split tube is optimal as the guide tube.

[0010]

When the PC steel material is tensioned, if each wire is also tensioned at the same time in accordance with the tension force, an accurate arc can be produced without distorting the shape of the PC steel material.

Also, the box removing part on the back of the PC segment is
By filling holes with mortars, it is possible to secure the specified fog on the wire.

When the guide tube is installed along with the PC steel material, an accurate arc can be formed for the PC steel wire or the PC steel stranded wire. Especially, if a perforated pipe or a half-divided pipe is used as the guide pipe, the mortar and the PC steel material come into close contact with each other because the mortar wraps around from the hole of the perforated pipe or the back side of the half-divided pipe, and the adhesive force is obtained. Prestress can be sufficiently introduced in the circumferential direction.

[0013]

EXAMPLE A preferred embodiment of the present invention will be described below with an inner diameter of 1
A case in which a precast concrete segment constituting a secondary lining having a diameter of 1.7 m and an outer diameter of 12.5 m is manufactured by a pretensioning method will be described in detail as an example.

FIG. 2 shows a PC manufactured by the method of the present invention.
It is the perspective view which looked at segment 2 from the inside, and said secondary lining is 1 in the direction of the circumference by such PC segment 2.
It is divided into 0. Reference numeral 4 denotes a joint metal fitting, and it is preferable to use a joint metal fitting having high rigidity and high strength, for example, one having a tide arch structure, in order to enhance water blocking between the segments.

FIG. 1 is a plan view for explaining the tension state of a PC steel material in the method of the present invention, which is an inner peripheral side mold 10a and an outer peripheral side mold 10 forming an upright arc-shaped mold 10.
The PC steel rod 12 is arranged in an arc shape between b. In this embodiment, the inner radius of curvature R _i is 5,900 mm and the outer radius of curvature R _o is 6, for a one-piece segment 2.
The PC steel rod 12 is previously bent by a rebar processing machine so as to have a length of 175 mm. Reference numerals A ₁ and A ₂ are abutments (reaction force bases) installed at both ends of the PC steel rod 12 for tensioning it.

FIG. 3 shows a tensioning device 14 including an abutment A ₁ .
Shows a perspective view, the back part of the abutment A ₁ hydraulic jack 16 is arranged, the hydraulic pump 18 and the abutment A ₁ and the hydraulic jacks 16 for driving the hydraulic jack 16
The tension device 14 is constituted by the and. The form 10 is not shown in the figure.

As shown in FIG. 1, a plurality of wires 20, 20, ... Are fastened to the PC steel rod 12 at a predetermined interval between the abutments A ₁ , A ₂ , respectively.
.. penetrates the outer peripheral side mold 10b and extends in the centrifugal direction of the arc-shaped PC steel rod 12. In this example, 1
The three wires 20 were fastened to the segment 2 of the piece, but the number of fastened wires 20 and the spacing are determined in consideration of the prestressing condition.

Reference numerals A ₃ , A ₄ and A ₅ are abuts which constitute a connecting means for connecting the PC steel rod 12 to the original position when the prestress is introduced. Similar to the tension device 14, a hydraulic jack (not shown) and a hydraulic pump (not shown) are connected to each other to form the connecting means.

As described above, the PC steel rod 12 is arranged in the mold 10, and the PC steel rod 12 has the wire 20,
Since 20 ... Are fastened, a hole through which the PC steel rod 12 penetrates is formed at the circumferential end of the mold 10, and a through hole for each wire is formed in the outer peripheral mold 10b. Has been drilled. Then, it is preferable to provide a convex portion for removing the box so as to surround the wire through hole on the inner side surface of the outer peripheral side mold 10b. In addition, it is preferable to provide a convex portion for surrounding the PC steel rod 12 through hole and removing the box on the inner side surface of the circumferential connection end portion of the mold 10. In the segment made of reinforced concrete, 500
Whereas a thickness of mm was required, PC segment 2
It was possible to reduce the size to about 370 mm.

When the PC steel rod 12 set as described above is tensioned by the tensioning device 14, the reaction force is applied to the abutment A.
While taking ₁ and A ₂ , the PC steel rod 12 is tensioned by the jack 16 with a force commensurate with the required tension force. At this time, if each wire 20 is also tensioned at the same time by the locking means according to the tension force, an accurate arc can be produced without distorting the shape of the PC steel rod 12, and therefore prestress is uniformly introduced. be able to.

With the PC steel rod 12 under tension, the form 10
Placing mortar such as concrete inside. When the concrete hardens and a predetermined strength is developed, the mold 10 is disassembled and demolded. At this time, the end of the PC steel rod 12 at the end in the circumferential direction of the segment 2 and the end of each wire 20 are
Cut between the bottom and top of the box cutout. Prestress is introduced into the segment 2 by the PC steel rod 12 being integrated with the concrete.

FIG. 4 shows the PC segment 2 immediately after demolding, and FIG. 4 (a) is a front view seen from the outer peripheral surface side.
FIG. 2B is a side view taken along line bb of FIG. The box 22 on the back side of the PC segment 2 is filled with a hole such as mortar so that the wire 2
It is possible to secure the fog designated as 0. Also,
The boxed portion at the circumferential end of the segment 2 is also filled in the same manner.

PC steel wire or PC stranded wire as the PC steel material is excellent in that it can apply a large amount of prestress to concrete as compared with the PC steel rod 12, and is also inexpensive in cost. . However, when a PC steel wire or a PC stranded wire is used, when tension is applied from the abutments A ₁ and A ₂ and at the same time tensions are applied at three points A ₃ , A ₄ and A ₅ , unlike the PC steel rod 12, the PC steel wire is Does not have an arc shape, but has a so-called polygonal shape in which a plurality of chords are continuous. Therefore,
The present invention uses a guide tube for PC steel wire,
It also proposes a method of using a PC stranded wire (or PC steel wire) as a tension material in the same manner as a PC steel rod.

FIG. 5 is a partial front view and a side view of the guide tube. FIG. 5 (a) shows a perforated tube 30a, and FIG. 5 (b) shows a half-tube 30b. Perforated tube 30a
Is a commercially available steel pipe having a wall thickness of about 2.4 mm or 3.2 mm, in which a large number of holes 32 are bored, and the perforated pipe 30a is bent to have a predetermined radius of curvature. The object is set in the mold 10 and the PC steel wire 34 is inserted in the perforated pipe 30a.

In this embodiment, when the PC steel strand 34 is tensioned by the tensioning device 14 while the wire 20 fastened to the perforated pipe 30a is being tensioned by the connecting means, the PC steel strand 3 is tightened.
4 is formed in an arc shape along with the perforated tube 30a, and maintains its radius of curvature. In addition, such a perforated pipe 30
When a is used, there is a space between the perforated tube 30a and the PC steel strand 34, but the mortar filled in the mold 10 can penetrate into the perforated tube 30a through many holes 32. Thus, the PC strand is closely attached to the wire 34 to obtain an adhesive force. Therefore, it is not necessary to grout the void.

Even when the half-split pipe 30b is used, the perforated pipe 30
As in the case of “a”, by providing the PC steel wire 34 along the half-split pipe 30b in the mold 10 and tensioning the PC steel wire 34, an accurate arc shape can be obtained. Further, the adhesion of the stranded wire 34 and the mortars from the PC steel is sure.

[0027]

According to the PC segment manufacturing method of the present invention, since the PC steel material is tensioned in the centrifugal direction by a plurality of wires, it is necessary to take a reaction force from the segment mold when tensioning the PC steel material. And there is no deformation of the formwork.

Further, according to the method of the present invention, since the end cut surface of the wire for tensioning the PC steel material is completely buried by filling the hole in the box-extracted portion, the water resistance of the obtained PC segment is high. Be effective.

Further, according to the method of the present invention, even for PC steel wire or PC steel stranded wire, by installing a guide tube, it is possible to form an accurate arc like a PC steel rod,
Sufficient prestress can be introduced uniformly in the circumferential direction of the segment.

[Brief description of drawings]

FIG. 1 is a plan view for explaining a tension state of a PC steel material by the method of the present invention.

FIG. 2 is a perspective view of a PC segment as viewed from the inside.

FIG. 3 is a perspective view of a PC steel tensioning device.

FIG. 4 is a front view (FIG. 4A) of the PC segment immediately after demolding as viewed from the outer peripheral surface side, and a side view taken along line bb of FIG. 4A (FIG. 4B). Is.

5A and 5B are a partial front view and a side view of a guide tube, in which FIG. 5A shows a porous tube and FIG. 5B shows a half tube.

[Explanation of symbols]

2 PC segment 10a Inner circumference side mold 10b Outer circumference side mold 12 PC steel rod 14 Tensioner 20 Wire 22 Box extraction part 30a Perforated pipe as guide pipe 30b Half split pipe as guide pipe 34 PC steel stranded wire A ₁ ~ A ₅ abutment (Hanchikaradai)

Claims (3)

[Claims] 1. A PC steel material is arranged in an arc shape in a frame for a segment, a plurality of wires are fastened to the PC steel material at predetermined intervals, and each wire is tensioned in the centrifugal direction of the PC steel material. While the PC steel material is tensioned in the circumferential direction, the mortars are placed in the mold while the PC steel material is tensioned, and the mortars are hardened and then released from the mold.
Segment manufacturing method. 2. On the inner side surface of the outer peripheral side mold, the through hole of the wire is surrounded in advance and the box is removed.
2. The method of manufacturing a PC segment according to claim 1, wherein the box-out portion is filled with mortar. 3. A guide tube is provided along with the PC steel material, while tensioning the wire fastened to the guide tube,
The method for manufacturing a PC segment according to claim 1, wherein the PC steel material is tensioned in a circumferential direction.