JP2015227614A - segment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a segment allowing ensuring high strength.SOLUTION: A segment 1, which has a cylindrical wall body configured inside a drill hole by connecting in the circumferential direction and further connecting in the axial direction, is configured by; a frame body 2 of which inner peripheral side is formed in an open box type; and concrete poured in the frame body 2. A rib 7 is hung over a pair of main beam plates 5 forming the frame body 2. A plurality of main reinforcements 8 extending in the circumferential direction are disposed on the inner peripheral side and outer peripheral side of the rib 7. A distributing bar 20 is provided to be wound around the main reinforcements 8 for binding. The distributing bar 20 is fixed to the rib 7.

Description

  The present invention relates to a segment that forms a cylindrical wall body in the axial direction of an excavation hole by connecting a plurality of them together.

  As a tunnel construction method, there is a shield construction method that constructs a cylindrical tunnel wall body (cylindrical wall body) by excavating the ground with a shield machine and installing arcuate plate-shaped segments in the circumferential direction and the axial direction behind it. It is common.

  Segments can be broadly divided into concrete and steel. The former concrete segment is resistant to compression and the latter steel segment is resistant to tension. For example, Patent Document 1 and Non-Patent Document 1 disclose a segment having the advantages of such a concrete and steel segment.

  The segment according to Patent Document 1 is configured by placing concrete inside a steel frame body, and a rib is spanned over the main girder plate forming the frame body. A circular arc mesh made of steel is stretched on one side.

  In addition, the segment according to Non-Patent Document 1 is formed by placing concrete inside a steel frame as described above, and the ribs spanned on the main girder forming the frame are bent in the circumferential direction of the segment. It is configured to form a square shape. Further, a main reinforcing bar extending along the circumferential direction is provided on the rib, thereby improving the strength.

Japanese Patent No. 3330664

"Nikkan Kogyo Kogyo Shimbun" June 4, 2009 issue article

  By the way, in the segment which concerns on the said nonpatent literature 1, since the rib and the main reinforcing bar are not united, anxiety remains in strength, and when sufficient internal water pressure load is applied especially, ensure sufficient intensity. There was a problem that could not.

  This invention is made | formed in view of such a subject, Comprising: It aims at providing the segment which can ensure intensity | strength higher than before.

In order to solve the above problems, the present invention proposes the following means.
That is, the segment according to the present invention is a segment that forms a cylindrical wall body in the excavation hole by being coupled in the circumferential direction and further in the axial direction, and the segment has an inner circumferential side opened. It is composed of a frame body formed in a box shape and concrete placed in the frame body, and the frame body is provided with a skin plate provided on the outer peripheral side, and at both axial ends of the skin plate. A pair of main girder plates that are provided and extend in the circumferential direction, a pair of joint plates that are respectively provided at both ends of the skin plate in the circumferential direction, and a plurality that are provided across the pair of main girder plates And a plurality of main steel materials extending in the circumferential direction are brought into contact with the inner peripheral surface and the outer peripheral surface of the ribs, and at least a part of the plurality of main steel materials is arranged in the axial direction. Wound around the array The is characterized in that a distribution force muscles to be fixed to the rib is fixed across the main steel between the ribs so.

According to the segment having such a feature, the distribution bars restrain the main steel material between the ribs, and therefore, it is possible to effectively counter the load acting on the segment itself. Moreover, since the reinforcing bars wound around the main steel material are fixed to the rib, the rib and the main steel material can be integrated, and the strength of the segment is greatly improved by the integrated main steel material. be able to.
In addition, as the main steel material, for example, a steel plate with a protrusion provided with a plurality of protrusions extending in a direction perpendicular to the extending direction of the steel plate, in addition to a reinforcing bar and a steel plate, or a corrugated surface of the steel plate Various things, such as a corrugated protrusion steel plate provided with protrusions extending in the direction, can be employed.

Moreover, in the segment according to the present invention, the plurality of main steel materials are respectively arranged on the inner peripheral side and the outer peripheral side of the rib.
Thereby, the high durability to the load which acts on the segment from the inner peripheral side and the outer peripheral side can be exhibited.

  Further, in the segment according to the present invention, the force distribution bars extend in the arrangement direction of the main steel material, and a pair of restraining portions that are respectively wound around the arrangement of the main steel material from the inner peripheral side or the outer peripheral side, The both ends of these restraint portions are connected to each other and formed into a substantially annular shape including a fixing portion fixed to the rib.

  Accordingly, the main steel materials disposed on the inner peripheral side and the outer peripheral side of the rib can be reliably restrained by the distribution bars, and these main steel materials can be firmly fixed to the rib. For this reason, the strength of the segment can be greatly improved.

In the segment according to the present invention, the plurality of main steel materials may be arranged only on the inner peripheral side of the rib.
Also by this, durability to the load which acts on a segment can be exhibited.

  Further, in the segment according to the present invention, the force distribution bars extend in the arrangement direction of the main steel material, and are wound around the arrangement of the main steel material from the inner peripheral side, and at both ends of the restriction portion, respectively. You may form in the substantially U shape which consists of a pair of fixing | fixed part which continues and is fixed to the said rib.

  Accordingly, the main steel material disposed on the inner peripheral side of the rib can be reliably restrained, and these main steel materials can be firmly fixed to the rib. As a result, it is possible to significantly improve the strength of the segment.

  Moreover, in the segment which concerns on this invention, the edge part on the opposite side to the said restraint part side in the said adhering part may be bent so that it may contact | abut from the said outer peripheral side with respect to the said rib.

  Thereby, even if it is a case where the tensile load acts on the circumferential direction of the said segment by the load from a segment inner peripheral side and an outer peripheral side, it can prevent that a distribution | stretching bar peels from a rib. Therefore, the main steel material can be more firmly fixed to the rib.

  Furthermore, in the segment according to the present invention, a plurality of the reinforcing bars fixed to the same rib are provided, and the plurality of distributing bars are wound around at least a part of the arrangement of the plurality of main steel materials. It is arranged so that it may be arranged.

  Thereby, the main steel material around which a plurality of power distribution bars are wound can be more firmly integrated with the rib, and the strength of the entire segment can be further improved.

  Moreover, in the segment which concerns on this invention, it is preferable that the adhesive agent which adhere | attaches this frame and the said concrete is apply | coated to the said frame. Thereby, a frame and concrete can be integrated and intensity | strength can be improved more.

  Furthermore, in the segment which concerns on this invention, it is preferable that the space | interval of the said adjacent ribs is set in the range of 200 mm-500 mm.

  According to the segment of the present invention, the main steel material provided on the inner peripheral side and the outer peripheral side of the rib is constrained by the reinforcing bar and the main steel material is integrated with the rib by the distributing bar. By reinforcing the reinforcement, the strength of the segment can be greatly improved.

It is a top view which shows the state which removed some concrete of the segment which concerns on 1st Embodiment. It is AA sectional drawing in FIG. FIG. 3 is a partially enlarged view of FIG. 2. It is BB sectional drawing in FIG. It is sectional drawing orthogonal to the circumferential direction in the state which removed the concrete of the segment which concerns on 2nd Embodiment. It is CC sectional drawing of FIG. It is sectional drawing orthogonal to the circumferential direction in the state which removed the concrete of the segment which concerns on 3rd Embodiment. It is DD sectional drawing of FIG. It is a perspective view of the example of the main steel material used instead of a main reinforcing bar. It is sectional drawing orthogonal to the circumferential direction in the state which removed the concrete of the segment which concerns on a modification. It is sectional drawing orthogonal to the circumferential direction in the state which removed the concrete of the segment which concerns on another modification.

Hereinafter, a first embodiment of the present invention will be described with reference to FIGS.
1 is a plan view showing a state in which a part of the concrete of the segment according to the first embodiment is removed, FIG. 2 is a cross-sectional view taken along line AA in FIG. 1, FIG. 3 is a partially enlarged view of FIG. FIG.

As shown in FIGS. 1 and 2, the segment 1 has an arc plate shape forming a part of a tunnel (cylindrical wall body) built in the excavation hole, and is connected in the circumferential direction and the axial direction in the excavation hole. Thus, it is used as a building material for constructing a tunnel in the excavation hole.
Hereinafter, when a tunnel is constructed using segment 1, the tunnel circumferential direction is referred to as the circumferential direction of segment 1, and the tunnel axial direction is referred to as the axial direction of segment 1.

  The segment 1 in the present embodiment includes a frame 2 made of a steel plate, main reinforcing bars (main steel members) 8 and distribution bars 20 arranged in the frame 2, and main reinforcing bars inside the frame 2. 8 and a concrete segment made up of concrete 3 placed so as to bury the distribution bars 20.

  As shown in FIGS. 1 and 2, the frame 2 includes a skin plate 4 provided on the outer peripheral side, a pair of main girder plates 5 disposed on the side of the skin plate 4, and the skin plate 4. It has a pair of joint plates 6 disposed at the ends, and a plurality of ribs 7 are provided between the main beam plates 5.

The skin plate 4 is a member that comes into contact with the wall surface of the excavation hole during tunnel construction, and has a curved plate shape that curves along the circumferential direction.
The pair of main girder plates 5 are arranged in parallel to each other so as to extend from both axial ends of the skin plate 4 toward the inner side in the circumferential direction (inner peripheral side). It has a curved shape along the circumferential direction.

Further, the pair of joint plates 6 has a rectangular plate shape extending from both circumferential ends of the skin plate 4 toward the inner side in the circumferential direction (inner peripheral side), and is disposed between the pair of main girder plates 5. ing.
The skin plate 4, the main beam plate 5, and the joint plate 6 are connected by welding.

  As shown in FIG. 1, the pair of main girders 5 has a plurality of insertion holes 5a through which joint members for connecting the segments 1 to each other in the axial direction are inserted at predetermined intervals in the circumferential direction (in the present embodiment). 4) are formed. Furthermore, a plurality of insertion holes 6 a are formed in the pair of joint plates 6 through which joint members that connect the segments 1 in the circumferential direction are inserted.

  As shown in FIGS. 1 and 2, the rib 7 has a substantially plate shape extending in the axial direction and having both ends fixed to the main girder plate 5, with the plate surface facing in the circumferential direction. It is arranged. The rib 7 is disposed on the inner peripheral side of the main girder plate 5 so that a gap is formed between the rib 7 and the skin plate 4. In this embodiment, the rib 7 is measured at a predetermined interval in the circumferential direction. Six are provided. In addition, it is preferable that the space | interval of adjacent ribs 7 is set in the range of 200 mm-500 mm.

  The main rebar 8 is a rod-shaped member that is formed from a steel material and extends in the circumferential direction. As shown in FIGS. 1 to 4, the inner side (inner side) and the circumferential direction of the plurality of ribs 7. On the outer side (outer peripheral side), a plurality (in the present embodiment, ten on each of the inner peripheral side and the outer peripheral side) are arranged with a predetermined interval in the axial direction. The main reinforcing bar 8 may be welded to the rib 7 or may be in contact with the main reinforcing bar 8 without being welded.

  As shown in detail in FIGS. 3 and 4, the force distribution bars 20 are annular steel materials that restrain the plurality of main reinforcing bars 8, and a plurality of the reinforcing bars 20 are wound around the arrangement of the main reinforcing bars 8 (in this embodiment, 6) corresponding to the number of ribs 7 is provided. In the present embodiment, the two force distribution members 21, 21 having a substantially U-shaped bar shape are integrated by, for example, welding, an adhesive, a stopper, or the like, so that the force distribution member 20 has an annular shape as a whole. Is configured.

  As shown in FIG. 4, the reinforcing bar 20 extends in the arrangement direction (axial direction) of the main reinforcing bars 8 and is wound around the main reinforcing bars 8 arranged on the inner peripheral side of the rib 7 from the inner peripheral side. 20a, and a restraining portion 20b that extends from the outer peripheral side around the main reinforcing bar 8 that extends in the arrangement direction (axial direction) of the main reinforcing bar 8 and is arranged on the outer peripheral side of the rib 7. It has a substantially rectangular annular shape with a pair of fixing portions 20c, 20d that connect both ends of the portions 20a, 20b. Thereby, the distribution bar 20 restrains the plurality of main reinforcing bars 8 arranged on the inner peripheral side and the outer peripheral side of the rib 7 so as to surround from the periphery.

Further, in the present embodiment, the fixing portions 20 c and 20 d in the power distribution bar 20 are fixed to the plate surface of the rib 7, respectively. For this reason, the main reinforcing bar 8 restrained by the distribution bar 20 is integrated with each rib 7 via the distribution bar 20.
In addition, as a method for fixing the fixing portions 20c and 20d of the distribution bar 20 to the rib 7, it is preferable to weld the fixing portions 20c and 20d to the rib 7. However, for example, the fixing portions 20c and 20d are fixed using a stopper or the like. The portions 20c and 20d may be fixed to the rib 7.

As shown in FIGS. 1 and 2, the concrete 3 is placed inside the frame 2 in which the main reinforcing bars 8 and the distribution bars 20 are disposed, and the insertion holes 5 a and 5 b in the concrete 3. A joint recess 3a for housing the joint member is formed in the periphery.
Further, an adhesive is applied to the inner surface of the frame body 2, whereby the concrete 3 placed in the frame body 2 and the frame body 2 are integrated. The adhesive may be applied only to the inner surface of the main beam plate 5 in the frame 2.

  As described above, according to the segment 1 having the above-described configuration, the distribution bar 20 is wound around the arrangement of the plurality of main reinforcing bars 8 disposed on the inner peripheral side and the outer peripheral side of the rib 7. Can constrain the main reinforcing bar 8 as one body and effectively counteract the load acting on the segment 1.

  Further, since the reinforcing bars 20 wound around the main reinforcing bars 8 are fixed to the ribs 7, the main reinforcing bars 8 are fixed to the ribs 7 through the distributing bars 20. That is, since the main reinforcing bar 8 and the rib 7 can be integrated, the strength of the segment 1 can be significantly improved by the integrated main reinforcing bar 8.

In the present embodiment, since the plurality of main reinforcing bars 8 are arranged on both the inner peripheral side and the outer peripheral side of the rib 7, high durability against loads acting from the inner peripheral side and the outer peripheral side of the segment 1. Can demonstrate its sexuality.
Further, since the distribution bar 20 is configured in an annular shape including the restraining portions 20a and 20b and the fixing portions 20c and 20d, the main reinforcing bars 8 disposed on the inner and outer peripheral sides of the rib 7 can be securely connected. While restraining, the main reinforcing bar 8 can be firmly integrated with the rib 7. As a result, it is possible to significantly improve the strength of the segment 1.

  Next, a second embodiment of the present invention will be described with reference to FIGS. FIG. 5 is a cross-sectional view orthogonal to the circumferential direction in a state where the concrete of the segment according to the second embodiment is removed, and FIG. 6 is a cross-sectional view taken along the line CC in FIG.

  The segment 30 of the second embodiment includes the same frame body 2, concrete 3, and main reinforcing bar 8 as those of the first embodiment. Further, in the first embodiment, a single power distribution for each rib 7 is provided. In contrast to the configuration in which the muscle 20 is fixed, in the second embodiment, a total of two force distribution muscles 31A, that is, the first force distribution muscle 31A and the second force distribution muscle 31B with respect to each rib 7. 31B is fixed.

  As shown in FIGS. 5 and 6, the distribution bars 31 </ b> A and 31 </ b> B are made of an annular steel material, and are wound around an array of the main reinforcing bars 8 to restrain the main reinforcing bars 8.

  As shown in FIGS. 5 and 6, the first distribution bar 31 </ b> A is arranged on one side in the circumferential direction of the rib 7 (the front side of the rib 7 in FIG. 5, the left side in FIG. 6). Wound around a total of 10 main reinforcing bars 8 closer to one side in the axial direction (the right side in FIG. 5) among the main reinforcing bars 8 in which a plurality (10 in this embodiment) are arranged on each of the inner peripheral side and the outer peripheral side. It has been.

  Further, as shown in FIGS. 5 and 6, the second force distribution bar 31 </ b> B is arranged on the other side in the circumferential direction of the rib 7 (the rear side of the rib 7 in FIG. 5, the right side in FIG. 6). Among the main reinforcing bars 8 in which a plurality (10 in the present embodiment) are arranged on the inner peripheral side and the outer peripheral side of the rib 7 respectively, a total of twelve main reinforcing bars 8 near the other side in the axial direction (left side in FIG. 5). It is wrapped around

  Of the first and second distribution bars 31A, 31B, a portion that extends in the arrangement direction (axial direction) of the main reinforcing bars 8 and wraps around the main reinforcing bars 8 arranged on the inner peripheral side of the rib 7 from the inner peripheral side Is a restraining portion 32a, and a portion extending from the outer peripheral side of the main reinforcing bar 8 arranged in the outer peripheral side of the rib 7 extending in the arrangement direction (axial direction) of the main reinforcing bar 8 is the restraining portion 32b. . And the part which connects the both ends of these pair of restraint parts 32a and 32b is made into the adhering parts 32c and 32d, respectively. The fixing portions 32c and 32d are fixed to the plate surface of the rib 7 through welding or the like.

  As described above, in the present embodiment, two force distribution bars 31A and 31B fixed to the same rib 7 are provided, and an arrangement in the vicinity of the center in the axial direction of the plurality of main reinforcing bars 8, that is, the inner circumference of the rib 7 is provided. Both the two reinforcing bars 31A and 31B are wound around the two main reinforcing bars (four main reinforcing bars 8 in total) near the center in the axial direction on the side and the outer peripheral side. For this reason, the main reinforcement 8 in the axial direction center part of the segment 30 can be more firmly integrated with a rib, and the intensity | strength of the segment 30 whole can be improved more.

  Next, a third embodiment of the present invention will be described with reference to FIGS. 7 is a cross-sectional view orthogonal to the circumferential direction in a state in which the concrete of the segment according to the third embodiment is removed, and FIG. 8 is a cross-sectional view taken along the line DD in FIG.

  The segment 40 of the third embodiment includes the same frame 2 and concrete 3 as in the first embodiment, and the main reinforcing bars 8 are arranged only on the inner peripheral surface side of the rib 7. Furthermore, in the first embodiment, a single annular force distribution bar 20 is fixed to each rib 7, whereas in the third embodiment, a substantially U-shape is provided to each rib 7. It is set as the structure which fixed 41 A of 1st force distribution bars and 2nd force distribution muscle 31B which make a shape.

  As shown in FIGS. 7 and 8, the two power distribution bars 41 </ b> A and 41 </ b> B are steel materials having a substantially U shape, and are wound around an array of the main reinforcing bars 8 to restrain the plurality of main reinforcing bars 8. It is arranged like this.

  As shown in FIGS. 7 and 8, the first distribution bar 41 </ b> A is arranged on one side in the circumferential direction of the rib 7 (the front side of the rib 7 in FIG. 7, the left side in FIG. 8). Are wound around six main reinforcing bars 8 closer to the other axial side (left side in FIG. 7) of the main reinforcing bars 8 arranged in a plurality (10 in the present embodiment) on the inner peripheral side of the main reinforcing bars.

  As shown in FIGS. 7 and 8, the second force distribution bar 41 </ b> B is disposed on the other circumferential side of the rib 7 (the rear side of the rib 7 in FIG. 7, the right side in FIG. 8). Are wound around six main reinforcing bars 8 closer to one axial side (the right side in FIG. 7) of the main reinforcing bars 8 arranged in a plurality (10 in the present embodiment) on the inner peripheral side.

  Of the first and second distribution bars 41A and 41B, a portion that extends in the arrangement direction (axial direction) of the main reinforcing bars 8 and wraps around the main reinforcing bars 8 arranged on the inner peripheral side of the rib 7 from the inner peripheral side Is the restraining portion 42a. And the part extended toward the outer peripheral side following the both ends of this restraint part 42a is made into the adhering parts 42b and 42c.

  In the first and second force distribution bars 41A and 41B, the ends of the fixing portions 42b and 42c opposite to the side continuous with the restraining portion 42a are shown in detail in FIG. Therefore, it is bent in the circumferential direction so as to contact from the outer peripheral side, and the contact portion is fixed by welding or the like.

  A portion of the second distribution bar 41A that extends in the arrangement direction (axial direction) of the main reinforcing bars 8 and winds around the main reinforcing bars 8 arranged on the outer peripheral side of the rib 7 from the inner peripheral side is defined as a restraining portion 42a. ing. Then, the portions extending toward the outer peripheral side continuously to both ends of the restraining portion 42a are fixed portions 42b and 42c, and the fixed portions 42b and 42c are fixed to the plate surface of the rib 7 through welding or the like, respectively. Yes.

  As described above, according to the segment 40 of the present embodiment, the U-shaped distribution bars 41A and 41B are wound around the arrangement of the plurality of main reinforcing bars 8 arranged on the inner peripheral side of the rib 7. The distribution bars 41A and 41B constrain the main reinforcing bar 8 as one body, and can effectively counter the loads acting from the inner and outer peripheral sides of the segment 40.

  Further, since the distribution bars 41A and 41B are configured in a U shape including the restraining portion 42a and the fixing portions 42b and 42c, the main reinforcing bars 8 disposed on the inner peripheral side of the rib 7 are reliably restrained. In addition, the main reinforcing bar 8 can be firmly integrated with the rib 7. As a result, the strength of the segment 40 can be significantly improved.

  Further, two force distribution bars 41A and 41B fixed to the same rib 7 are provided, and an arrangement in the vicinity of the axial center of the plurality of main reinforcing bars 8, that is, 2 in the vicinity of the axial center on the inner peripheral side of the rib 7 Since the two reinforcing bars 41A and 41B are disposed around the main reinforcing bar 8, the main reinforcing bar 8 at the central portion in the axial direction of the segment 40 can be more firmly integrated with the rib. . Thereby, the intensity | strength of the segment 40 whole can be improved more.

  Further, the ends of the anchoring portions 42b and 42c of the force distribution bars 41A and 41B opposite to the restraining portion 42a are bent in the circumferential direction, and are in contact with and welded to the rib 7 from the outer peripheral side. Therefore, the distribution bars 41 </ b> A and 41 </ b> B can be firmly fixed to the rib 7. Thereby, even if it is a case where the tensile load acts on the circumferential direction of the said segment 40 by the load from the inner peripheral side of the segment 40, and an outer peripheral side, it prevents that the distributing bars 41A and 41B peel from a rib. And the main rebar can be more firmly fixed to the rib.

  As mentioned above, although embodiment of this invention was described in detail, unless it deviates from the technical idea of this invention, it is not limited to these, A some design change etc. are possible. For example, in the embodiment, the case where the main reinforcing bars 8 are arranged on the inner peripheral side and the outer peripheral side of the rib 7 and the case where the main reinforcing bars 8 are arranged only on the inner peripheral side of the rib 7 have been described. 7 may have a configuration in which the main reinforcing bars 8 are arranged only on the outer peripheral side of 7.

  Moreover, it may replace with the main reinforcing bar 8 of embodiment, and the steel plate 11 with a protrusion as shown to Fig.9 (a) and the steel plate 14 with a wavy protrusion may be used as a main steel material. Similar to the embodiment, the load acting from the inner peripheral side and the outer peripheral side of the segment 1 by arranging the plurality of steel plates 11 with protrusions or the steel plates 14 with wavy protrusions on the inner peripheral side and outer peripheral side of the plurality of ribs 7. High durability can be exhibited.

  Furthermore, between the ribs 7, there may be provided a dowel extending from the pair of main girder plates 5 in a direction facing each other. In this case, it is preferable that the interval between the adjacent ribs 7 and the dowel is set in a range of 200 mm to 500 mm, similarly to the interval between the adjacent ribs 7.

  In the third embodiment, the pair of first force distribution bars 41 </ b> A and second force distribution bars 31 </ b> B that are substantially U-shaped with respect to each rib 7 is fixed. The number of strength bars to be fixed is not limited to two, and three or more may be fixed. In this case, since the main reinforcing bar 8 is restrained by a plurality of distribution bars, the strength can be further improved.

  As a modification, for example, the segment 50 shown in FIG. 10 may be used. The distribution reinforcing bars 51 in this segment 50 have a portion that extends in the arrangement direction (axial direction) of the main reinforcing bars 8 and is wound around the main reinforcing bars 8 arranged on the inner peripheral side of the rib 7 from the inner peripheral side with the restraining portion 51a. And, it has a U-shape provided with fixing portions 51b and 51c extending continuously toward the outer peripheral side at both ends of the restraining portion 51a.

  Bolt screws 51d and 51e are formed at the ends of the fixing portions 51b and 51c opposite to the side connected to the restraint portion 51a, and the nut members 52 and 52 are screwed into the bolt screws 51d and 51e. ing. The nut members 52, 52 are in contact with the rib 7 from the outer peripheral side, so that the force distribution bars 51 are firmly fixed and integrated with the rib 7. Thereby, the strength improvement of the segment 40 whole can be aimed at.

  As another modification, for example, the segment 60 shown in FIG. 11 may be used. In the segment 60, the reinforcing bars 61 extend in the arrangement direction (axial direction) of the main reinforcing bars 8 and are wound around the main reinforcing bars 8 arranged on the inner peripheral side of the rib 7 from the inner peripheral side. And the fixing | fixed part 61b, 61c continuously extended toward the outer peripheral side is provided in both ends of this restraining part 61a, and also the opposite side to the side connected to the restraining part 61a in the fixing | fixed part 61b, 61c Are connected to U-shaped portions 61d and 61e each having a U-shape. A pair of main reinforcing bars 8 and 8 are provided on the outer peripheral side of the rib 7 so as to be wound around the U-shaped portions 61 d and 61 e, respectively. Thereby, the distribution bar 61 can be firmly integrated by the rib 7 and the main reinforcing bar 8, and the strength of the segment 60 can be improved.

  Furthermore, the segment 1, 30, 40, 50, 60 may be configured such that the main reinforcing bar 8 is bent and abuts against the rib 7. Thereby, the sense of unity between the main reinforcing bars 8 and the ribs 7 can be enhanced, and the strength can be improved.

1 Segment 2 Frame 3 Concrete 3a Joint Recess 4 Skin Plate 5 Main Girder Plate 5a Insertion Hole 6 Joint Plate 6a Insertion Hole 7 Rib 8 Main Reinforcement (Main Steel)
11 Steel plate with protrusions (main steel)
14 Steel plate with wavy projections (main steel)
20 Alignment bars 20a Constraint section 20b Constraint sections 20c Securing section 20d Securing section 21 Alignment muscular members 30 Segment 31A Alignment muscular 31B Alignment bars 32a Constraint section 32b Constraint section 32c Securing section 32d Securing section 40 Segment 41A Alignment section 41B Power distribution muscle 42a Restraint portion 42b Adhering portion 42c Adhering portion 50 Segment 51 Power distribution muscle 60 Segment 61 Power distribution muscle

Claims (3)

A segment that forms a cylindrical wall body in the excavation hole by being connected in the circumferential direction and further connected in the axial direction,
The segment is composed of a frame formed in a box shape with an inner peripheral side opened, and concrete placed in the frame,
The frame body includes a skin plate provided on the outer peripheral side, a pair of main girder plates provided at both axial ends of the skin plate and extending in the circumferential direction, and both circumferential ends of the skin plate. A pair of joint plates provided, and a plurality of ribs provided across the pair of main girder plates,
A plurality of main steel materials extending in the circumferential direction are brought into contact with the surfaces on the inner peripheral side and the outer peripheral side of the ribs and arranged in the axial direction,
A segment characterized by providing a reinforcing bar fixed to the rib while fixing the main steel material between the rib so as to be wound around an array of at least a part of the plurality of main steel materials. The distribution muscles are
A pair of restraining portions extending in the arrangement direction of the main steel materials and wound around the arrangement of the main steel materials from the inner peripheral side or the outer peripheral side, respectively;
The segment according to claim 1, wherein both ends of these restraining portions are connected to each other and are formed in a substantially annular shape including a fixing portion fixed to the rib. A plurality of force distribution bars fixed to the same rib are provided;
The segment according to claim 1 or 2, wherein the plurality of power distribution bars are arranged around at least a part of the arrangement of the plurality of main steel materials.

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