JP2015007350A - Method for manufacturing composite segment and composite segment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve an inversion process by forming a five-surface steel shell from the beginning, and inserting a reinforcement cage thereinto.SOLUTION: A method for manufacturing a composite segment by installing a reinforcement bar in a steel shell, and infilling concrete therein includes: manufacturing a five-surface steel shell 1 in which one surface side of a main girder 11 surrounding four peripheries is covered with a skin plate 12; installing a positioning guide 13 inside the main girder 11; manufacturing a reinforcement cage 2 to be inserted into the five-surface steel shell 1; inserting the reinforcement cage 2 into the five-surface steel shell 1; guiding the reinforcement cage 2 by the positioning guide 13 to position and install the reinforcement cage 2 in the five-surface steel shell 1; and driving concrete into the five-surface steel shell 1, therein for example, a stud dowel 13 fixed to the inside of the main girder 11 is used as the positioning guide, and a main reinforcement 21 of the reinforcement cage 2 is placed on the stud dowel 13 such that the reinforcement cage 2 is positioned.

Description

  The present invention relates to a production method for producing a synthetic segment by installing a reinforcing bar in a steel shell and filling concrete into it, and a synthetic segment produced by the production method.

Conventionally, there are the following three types of synthetic segments in which reinforcing bars are installed in steel shells and filled with concrete.
1) 5-sided steel shell type synthetic segment (see Non-Patent Document 1, for example)
First, a frame of a four-sided steel shell without a skin plate is made, a reinforcing bar is assembled in the frame, a lid is covered with a skin plate to form a five-sided steel shell, and concrete is packed inside.
In this case, it is necessary to reverse the heavy segment during manufacture.

2) 6-sided steel shell type synthetic segment (see Non-Patent Document 2, for example)
The structure is easy to assemble compared to the 5-sided steel shell type with a structure that ensures strength with only steel shells and filled concrete without any reinforcing bars inside.
However, it is a problem that a large amount of steel plate and stud dowels are required in terms of structure.

3) 4-sided steel shell type synthetic segment (for example, see Non-Patent Document 3)
The rigidity of the four-sided steel shell is increased to eliminate the need for stud gibber.
In this case, not only is the thickness of the steel shell large and the amount of the steel plate is large, but it is also difficult to produce by cutting, welding, and strain correction.

Ishikawajima Construction Materials Industry Co., Ltd. Development of synthetic segment (The 65th Annual Scientific Lecture VI-229) Yokogawa Sumikin Bridge Synthetic Segment (HYPERLINK "http://www.ybhd.co.jp/IR/settlementPDFs/20091111-2.pdf" http://www.ybhd.co.jp/IR/settlementPDFs/20091111 -2.pdf) Nippon Steel & Sumikin Building Materials Co., Ltd. NM segment (NETIS: KT-980192-A)

However, as described above, the 6-sided and 4-sided steel shell type has a high manufacturing cost because it has a larger amount of steel plate more expensive than a reinforcing bar.
Therefore, a 5-sided steel shell type with a reduced amount of steel plate was devised, but as mentioned above, it is a process of 4-sided steel shell → rebar assembly → 5-sided steel shell → concrete filling, The remaining problem was the need for segment reversal.

  An object of the present invention is to form a five-sided steel shell from the beginning and insert a reinforcing bar rod into this to eliminate the reversal process.

In order to solve the above problems, the invention described in claim 1
It is a manufacturing method in which a reinforcing bar is installed in a steel shell, and a synthetic segment is produced by filling concrete inside,
While producing a pentahedron steel shell that is covered with a skin plate on one side of the main girder that surrounds the four circumferences, a positioning guide is provided inside the main girder,
Reinforcing bar to be inserted into the pentahedron steel shell,
After inserting a reinforcing bar rod into the pentahedron steel shell and guiding the reinforcing bar rod by the positioning guide to position and install in the pentahedron steel shell,
Concrete is placed in the pentahedron steel shell.

The invention described in claim 2
It is a manufacturing method of the synthetic segment of Claim 1,
Using a stud gibber fixed inside the main girder as the positioning guide,
The main bar of the reinforcing bar rod is placed and positioned on the stud gibber.

The invention according to claim 3
It is a manufacturing method of the synthetic segment of Claim 1,
Using a dowel plate fixed inside the main girder as the positioning guide,
The main bar of the reinforcing bar rod is placed and positioned on the gibber plate.

The invention according to claim 4
It is a manufacturing method of the synthetic segment of Claim 1,
Using the gibber rebar fixed inside the main girder as the positioning guide,
The main bar of the reinforcing bar rod is placed and positioned on the gibber bar.

The invention described in claim 5
A method for producing a synthetic segment according to claim 2,
An arc shield formed by arc welding the stud gibber to the main girder is also used as the positioning guide,
The stud gibber is positioned by abutting a reinforcing bar in the width direction of the reinforcing bar rod.

The invention described in claim 6
It is a composite segment in which reinforcing bars are installed in steel shells and filled with concrete,
The pentahedron steel shell produced by the synthetic segment manufacturing method according to any one of claims 1 to 5,
The rebar rod inserted and positioned in the pentahedron steel shell,
And filling concrete placed in the pentahedron steel shell in which the reinforcing bar is positioned.

According to the present invention, since the reinforcing bar rod and the steel shell can be manufactured separately, the reversing process during the manufacturing is not necessary.
As a result, the layout of the factory and the arrangement of mobile devices such as cranes are simplified, and it is not necessary to modify the conventional RC segment factory, thereby reducing the factory costs.
In addition, it is easy to position and fix the reinforcing bar rod in the steel shell, and it is ensured that the reinforcing bar is covered and misaligned, and it is reasonably possible to manufacture a high-quality synthetic segment.

It is the longitudinal cross-sectional view (a) which shows the structure of Embodiment 1 to which this invention is applied, and its top view (b). It is the longitudinal cross-sectional view (a) which shows the structure of Embodiment 2, and its top view (b). It is the longitudinal cross-sectional view which showed an example of the insertion method of a reinforcing bar rod. It is the longitudinal cross-sectional view which showed the other example of the insertion method of a reinforcing bar rod. It is the longitudinal cross-sectional view (a) which shows the structure of Embodiment 3, and the enlarged view (b) of the arrow B part.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the drawings.
(Overview)
A reversing process is eliminated by forming a five-sided steel shell from the beginning and inserting a reinforcing bar rod into it.
First, rebar rods are assembled, inserted into a box made of five steel shells separately manufactured, and filled with concrete to form a composite segment.
Then, the position and shape of the stud gibber, which is merely a detent between the steel shell and the filled concrete, are devised to provide a function as a positioning guide when inserting the reinforcing bar and a spacer when placing concrete.
As a result, the manufacturing process of the synthetic segment using the reinforcing bar is simplified, the reinforcing bar can be reliably fixed at a predetermined position, and a high-quality synthetic segment can be manufactured by rational means.

(Specific configuration)
As shown in FIG. 1 and FIG. 2, a pentahedral steel shell 1 in which a natural mountain side of a main girder 11 of four rounds is covered with a skin plate 12 from the beginning is manufactured.
Next, as shown in FIGS. 3 and 4, a reinforcing bar 2 in which a circumferential reinforcing bar (main reinforcing bar) 21 and a widthwise reinforcing bar 22 are separately assembled is inserted into the steel shell 1 to illustrate the reinforcing bar 2. Fix in such a position.
It should be noted that the reinforcing bar 2 needs to be fixed so that it does not move during positioning and subsequent placement of the filled concrete 3.

(Embodiment 1)
1) The stud gibber 13 is used as a positioning guide and restraint.
As shown in FIG. 1, in a state where the main bar 21 of the reinforcing bar 2 is placed and suspended on the stud gibber 13 protruding in the horizontal direction from the main girder 11, the reinforcing bar 2 is exactly at a predetermined position in the vertical direction. The stud gibber 13 is arranged so as to be.

As shown in the figure, the stud gibber 13 has a head such as a hexagon bolt. The head of the stud gibber 13 is in contact with the main reinforcing bar 21 of the reinforcing bar 2 so that the movement of the reinforcing bar 2 in the left-right direction is constrained and guided so that the horizontal direction of the reinforcing bar 2 is also installed at a predetermined position. Can do.
In the illustrated example, a stud dowel 14 projects from the skin plate 12 in the vertical direction.

  If it is difficult to set the position of the head of the stud gibber 13 to the position of the main muscle 21, a hexagonal nut is provided on the stud gibber 13 with a screw cut, and the nut is moved to replace the head. Also good.

  In the above embodiment, the stud gibber 13 is used. However, depending on the cross-sectional force, any can be used as long as it is a displacement stopper that realizes a steel-concrete composite structure such as a conventionally used gibber plate or gibber rebar. .

(Embodiment 2)
2) The gibber plate 15 and the gibber reinforcing bar 16 are used as positioning guides and restraints.
As shown in FIG. 2, in a state where the main bar 21 of the reinforcing bar 2 is placed and suspended on the gibber plate 15 and the gibber bar 16 protruding in the horizontal direction from the main beam 11, the reinforcing bar 2 is just in the vertical direction. The dowel plate 15 and the dowel reinforcing bar 16 are arranged so as to be in a predetermined position.

As shown in the drawing, the recess 15a for placing the main bar 21 is formed on the upper end surface of the gibber plate 15, and further, the rebar bar 2 is inserted while being rotated, so that the bar bar 2 does not hit at that time. An oblique shape portion is formed for the purpose.
The gibber reinforcing bar 16 is formed in a three-dimensional shape as shown in the figure, and a guide reinforcing bar 16a is provided on the upper end surface thereof. This guide reinforcing bar 16a functions as a guide for placing the main reinforcing bar 21 thereon.

(Embodiment 3)
3) The arc shield 17 is used as a positioning guide.
As shown in FIG. 5, the stud gibber 13 is fixed to the inner surface of the steel shell 1 (main girder 11) by arc welding.
In this manufacturing process, as shown in the drawing, an arc shield 17 such as a ceramic made of clay or the like covering the base of the stud gibber 13 conically has a role of protecting surrounding steel materials during arc welding.

Here, the arc shield 17 has been conventionally crushed and removed after welding the stud gibber 13, but this remains.
That is, when the main bar 21 of the reinforcing bar 2 is placed on the stud gibber 13 while leaving the arc shield 17 at the base of the stud bar 13 protruding in the horizontal direction from the main girder 11, the reinforcing bar 22 in the width direction of the reinforcing bar 2 is If the reinforcing bar 2 is adjusted so as to be in a predetermined position in contact with the arc shield 17, the arc shield 17 can be used as a guide for guiding the vertical position and the left and right position (width direction position) of the reinforcing bar 2. Can be used.

  If diversion is difficult, such as when the arc shield 17 is not at the desired position, the mortar may be raised in a conical shape instead.

(effect)
As described above, according to the composite segment of the embodiment, the reinforcing bar 2 and the steel shell 1 are separately manufactured by forming the five-sided steel shell 1 from the beginning and inserting the reinforcing bar 2 into this. Therefore, the reversal process during production, which was conventionally required, is not necessary.
As a result, the layout of the factory and the arrangement of mobile devices such as cranes are simplified, and it is not necessary to modify the conventional RC segment factory, thereby reducing the factory costs.

  Further, the positioning and fixing of the reinforcing bar 2 in the steel shell 1 are facilitated, the covering of the reinforcing bar and the prevention of displacement are ensured, and the production of a high-quality synthetic segment is reasonably possible.

(Modification)
In addition to the above-described embodiments, it is needless to say that specific detailed structures and methods can be appropriately changed.

1 Steel shell 11 Main girder 12 Skin plate 13 Stud gibber 14 Stud gibber 15 Stud plate 16 Gibber rebar 17 Arc shield 2 Rebar rod 21 Circumferential rebar (main rebar)
22 Width direction rebar 3 Filled concrete

Claims (6)

It is a manufacturing method in which a reinforcing segment is installed in a steel shell and a concrete segment is prepared by filling concrete inside,
While producing a pentahedron steel shell that is covered with a skin plate on one side of the main girder that surrounds the four circumferences, a positioning guide is provided inside the main girder,
Reinforcing bar to be inserted into the pentahedron steel shell,
After inserting a reinforcing bar rod into the pentahedron steel shell and guiding the reinforcing bar rod by the positioning guide to position and install in the pentahedron steel shell,
A method for producing a synthetic segment, wherein concrete is cast into the pentahedron steel shell. Using a stud gibber fixed inside the main girder as the positioning guide,
The synthetic segment manufacturing method according to claim 1, wherein the main bar of the reinforcing bar is placed and positioned on the stud gibber. Using a dowel plate fixed inside the main girder as the positioning guide,
2. The method of manufacturing a synthetic segment according to claim 1, wherein the main bar of the reinforcing bar is placed and positioned on the gibber plate. Using the gibber rebar fixed inside the main girder as the positioning guide,
The synthetic segment manufacturing method according to claim 1, wherein the main bar of the reinforcing bar rod is placed and positioned on the gibber reinforcing bar. An arc shield formed by arc welding the stud gibber to the main girder is also used as the positioning guide,
The synthetic segment manufacturing method according to claim 2, wherein positioning is performed by bringing a reinforcing bar in a width direction of the reinforcing bar rod into contact with the stud gibber. It is a composite segment in which reinforcing bars are installed in steel shells and filled with concrete,
The pentahedron steel shell produced by the synthetic segment manufacturing method according to any one of claims 1 to 5,
The rebar rod inserted and positioned in the pentahedron steel shell,
A composite segment comprising: an inside-filled concrete placed in the pentahedron steel shell in which the reinforcing bar is positioned.

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