JP2003056297A - Flexible sealing material mounting structure and flexible sealing material mounting method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a flexible sealing material mounting structure which allows efficient mounting of a flexible sealing material according to excavation of a shield tunnel, and improves the cutoff performance thereof, and to provide a flexible sealing material mounting method. SOLUTION: The flexible sealing material mounting structure is comprised of a pair of segment rings 13, 13' which are arranged across a predetermined interval therebetween such that end faces 15, 15' are opposed to each other, and a ring formed of the flexible sealing material 11 sandwiched by the end faces. More specifically, rings formed of steel plates 12, 12' for mounting the flexible sealing material are arranged between the end faces 15, 15', and water- swelling films 17 are interposed between the rings formed of the steel plates 12, 12' and the segment rings 13, 13', respectively. Further, the ring formed of the flexible sealing material 11 is arranged directly on the rings formed of the steel plates 12, 12'.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mounting structure of a flexible sealing material used for constructing a shield tunnel and a mounting method of the flexible sealing material.

[0002]

2. Description of the Related Art In the construction of a tunnel by the shield construction method, after a face is excavated by a steel cylinder (shield excavator), a plurality of lining materials called segments are immediately assembled in the circumferential direction of the tunnel to form a segment ring. However, a method is adopted in which the shield excavator is further propelled by pushing the end surface (connection side end surface) of this segment ring with a hydraulic jack.

The shield tunnel thus obtained includes
In order to prevent damage and water leakage due to uneven settlement of the ground,
A member called a flexible segment is installed between a pair of segment rings to absorb the deformation of the tunnel. This flexible segment is generally a standard segment that is divided in the axial direction of the shield tunnel, and a flexible sealing material that is expandable and contractible in the axial direction of the tunnel, such as waterproof rubber or a rubber gasket, is attached to the divided portion. The segment is provided with flexibility capable of coping with the displacement of the ground.

Generally, the flexible segment has a problem that it takes a lot of time to attach the flexible segment. However, according to the flexible segment disclosed in Japanese Unexamined Patent Publication No. 2000-220392, the rear side of the shield excavator when excavating. It is possible to perform the work of attaching the waterproof rubber, and since it is not necessary to use a conventional case for attaching the waterproof rubber, the shield tunnel can be efficiently constructed. However,
In the flexible segment disclosed in the above-mentioned publication, the waterproof rubber mounting plate is also used as a toe frame at the time of placing concrete when manufacturing the segment, and by placing concrete on both sides of the waterproof rubber mounting plate. The flexible part and the concrete are integrated. Therefore, the flexible segment is a segment having a special structure different from the standard segment and provided with the flexible portion, and therefore the flexible segment disclosed in the above publication is not applicable to a general segment.

[0005]

On the other hand, FIG. 6 shows a so-called simple type flexible segment which is provided directly between standard segment rings and imparts flexibility and a water blocking function to a shield tunnel. Known types are the rubber compression type 80 and the waterproof rubber type 90 shown in FIG. All of these simple type flexible segments are attached to the end face (connecting side end face) 85 of the adjacent segment ring 83.
A flexible seal member such as the flexible rubber member 81 and the waterproof rubber member 91 is directly attached. 6 and 7, reference numerals 88 and 98 denote a holding plate (backup plate).

Therefore, it is possible to impart flexibility to the shield tunnel without requiring a box body (an ordinary segment is divided) which requires a great deal of time and labor for manufacturing, transporting, assembling, and the like. Further, the flexible segment can be constructed at the excavation site of the shield tunnel. However, if the unevenness of the end face (the end face on the connection side) is large, water may leak between the end face and the flexible sealing material. Further, since a step is formed at the joint portion of each segment that constitutes the segment ring, there is a possibility that water leakage may occur due to the external water pressure at that portion as well.

Therefore, an object of the present invention is to provide a mounting structure of a flexible sealing material which can be efficiently constructed according to the progress of the shield tunnel and can improve the water stopping performance, and a mounting method thereof. It is to be.

[0008]

Means for Solving the Problems and Effects of the Invention In the structure for mounting a flexible sealing material according to the present invention for solving the above problems, a pair of segment rings arranged at regular intervals face each other. A ring made of a flexible seal material is sandwiched between the end faces, and a ring made of a steel plate for attaching the flexible seal material is arranged at the end face of the segment ring, and the ring made of the steel plate and the ring A water-swellable film and / or a water-swellable elastic body is sandwiched between the segment ring and the ring made of the flexible sealing material is directly arranged on the surface of the ring made of the steel plate. It is characterized by

According to the flexible seal member mounting structure of the present invention, an end surface (segment connection) of a segment ring (that is, an adjacent segment) to which a flexible seal member such as a flexible rubber member or a water blocking rubber member is mounted. To the side end surface) via a water-swellable film and / or a water-swellable elastic body,
Since the steel plate having a smooth surface is arranged, the flexible sealing material can be installed without considering the unevenness of the end surface of the segment ring. In the present invention, the "flexible seal material" does not refer to only the "main material" of the flexible rubber member 11 as shown in FIG. Films, such as water-swellable films, coatings and other incidental materials.

The surface of the steel sheet generally has higher smoothness than the surface of a concrete body such as a segment, and it is extremely easy to reduce the surface roughness thereof as compared with the case of the concrete body. Therefore, the risk of water leakage can be eliminated by simply disposing the steel plate on the end surface of the segment ring via a water-swellable film and / or a water-swellable elastic body and further attaching a flexible seal member to the surface of the steel plate. You can In this case, it is not necessary to strictly adjust the unevenness of the end surface of the segment ring.

Further, since the water-swellable film and / or the water-swellable elastic body is interposed between the steel plate and the end surface of the segment ring, the water-swellable film and / or the water-expandable elastic body are generated between the segment ring and the end surface due to the unevenness of the end surface. Even if water enters the gap, sufficient water stopping can be realized by the action of the water-expandable rubber. Therefore, the flexible seal member mounting structure according to the present invention is preferably used for the construction of the simple type flexible segment and the construction of the flexible portion of the flexible segment including the standard segment.

In the structure for mounting the flexible seal material of the present invention, the ring made of a steel plate for mounting the flexible seal material is
A ring-shaped assembly of two or more steel plates for attaching a flexible sealing material, and a joint part of each segment forming the segment ring and a joint part of each steel plate forming the ring made of the steel plate. However, they are preferably arranged so as not to overlap each other. At the joint portion of each segment constituting the segment ring, a step is generated in the gap between the segments, and this step may cause water leakage. In particular, when the joint portion of each segment that constitutes the segment ring and the joint portion of each steel sheet that constitutes the ring made of the steel sheet for attaching the flexible seal material overlap at the same position, the step is amplified and leakage of water occurs. It is extremely likely to cause it. However, as in the preferred embodiment of the present invention, by arranging the joint portions of both of them so that they are displaced from each other, each joint portion must have a water-swellable film and / or a water-swellable elastic body and the other flat portion. (I.e., the adjacent segment ring or the flat surface portion of the steel plate). Therefore, it is possible to reliably prevent water leakage from the joining portion.

Further, in the mounting structure of the flexible sealing material of the present invention, the thickness (that is, the length in the diametrical direction) of the segment ring of the steel plate for mounting the flexible sealing material and the segment to which the steel plate is mounted. Are preferably substantially the same. In this case, the thickness (the length in the diametrical direction of the segment ring) of the steel plate and the segment adjacent thereto is the same on both the inner surface and the outer surface of the shield tunnel. For example, in the case where the steel plate has a larger length (thickness) in the diametrical direction of the segment ring than the segment ring, the steel plate becomes a protrusion during and after the construction of the tunnel, and Since it overhangs in the space, there is a problem that it will hinder the construction work, but as mentioned above,
If the two have the same thickness, such a problem does not occur.

On the other hand, according to the method of attaching the flexible seal material of the present invention, a steel plate for attaching the flexible seal material is arranged on the end surface of the existing segment ring on the cutting edge side, and the holding plate is attached to the end surface of the steel sheet on the cutting edge side. After further attaching one end of the thrust receiving member to the pressing plate, a new segment consisting of a steel plate for attaching the flexible seal material and the pressing plate in this order is attached to the end face of the connecting side in advance. , The connecting side end face and the cutting edge side end face of the existing segment ring are arranged so as to face each other, and then the pressing plate of the new segment and the other end of the thrust receiving member in the existing segment ring. It is characterized by including a step of joining.

According to the method for mounting a flexible sealing material of the present invention, a flexible sealing material such as a flexible rubber member or a waterproof rubber member is directly attached to the end surface (connecting end surface) of the adjacent segment ring. Since it is attached, it is not necessary to use a conventional box to form the flexible segment. Therefore, economical construction of the shield tunnel can be achieved. In addition, the step between the end faces of the segment ring and each segment (segment piece) that constitutes the segment ring and the unevenness on the end faces of the segments are caused by the end faces of the segments and the flat portion of the flexible sealant mounting steel plate that abuts on the end faces. Is absorbed by the water-swellable film and / or the water-swellable elastic body interposed between the two. As a result, the adhesion between the flexible sealing material and the segment ring is enhanced, and the water stopping performance can be improved. Therefore, it is not necessary to precisely adjust the unevenness of the end faces of the segment ring.

Further, since the member for receiving the thrust of the shield excavator is mounted between the pair of mounting steel plates, it is possible to efficiently mount the flexible sealing material as the shield tunnel is dug.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION Next, a mounting structure and a mounting method for a flexible sealing material according to the present invention will be described in detail with reference to the drawings. [Attachment Structure of Flexible Seal Material] In the embodiment of the attachment structure of the flexible seal material according to the present invention, for example, water expansion is performed between the end surfaces 15 and 15 ′ of the pair of segment rings 13 and 13 ′ which face each other. In which steel plates 12 and 12 'for attaching a flexible sealing material are arranged via a flexible film 17 and 17', and a flexible rubber member 11 is sandwiched between the pair of steel plates 12 and 12 '(compression type, 1 and 2) or a pair of segment rings 13, 13 '
Between the end faces 15 and 15 'facing each other in the above, a steel plate 12 for mounting a flexible sealing material is arranged, and a water blocking rubber member 31 is sandwiched by a pair of the steel plates 12 and 12' (water blocking rubber type , See FIG. 5).

(Compression Type Embodiment) FIGS. 1 to 3 show a compression type embodiment. In the flexible seal member mounting structure 10 shown in FIGS. 1 to 3, the pair of segment rings 13 and 13 ′ are installed at a constant interval.
Steel plates 12, 12 'for attaching a flexible rubber member (flexible sealing material) 11 are arranged on the end surfaces 15, 15' of the segment ring with water-swellable films 17, 17 'interposed therebetween. There is. The flexible rubber member 11 that acts as a sealing material (water blocking material) is a pair of steel plates 12 and 12 '.
It is sandwiched between and is compressed in the axial direction x of the segment ring. Here, the water-swellable film 17, 17 '
Is not necessarily in the form of a film, as long as it is possible to eliminate the unevenness between the end faces 15 and 15 'of the segment ring and the steel plates 12 and 12' and to realize sufficient water stoppage. It may be a water-swellable elastic body that is not in the form of a film.

FIG. 1 shows a flexible rubber member (flexible sealing material) 1.
1 is a partially cutaway perspective view showing a mounting structure 10 of FIG. 1, in which a segment ring 13 and a steel plate 1 for mounting a flexible rubber member
2, 12 ', the flexible rubber member 11 and the backup plates 18, 18' are shown in a state of being cut in the circumferential direction y of the segment ring. Further, regarding the segment ring 13 ′, the joint portion 20 of the segment 14
In a, the segment adjacent to the circumferential direction y is removed.

FIG. 2 shows a mounting structure 1 for the flexible rubber member 11.
0 is the segment ring 13, 13 ', and in FIG.
It is a fragmentary sectional view seen from the circumferential direction y in the surface shown by. In FIG. 2, parts other than the segment ring 13 ′, the bolt 21, and the load support member 22 are shown in cross section. FIG. 3 is a partial cross-sectional view of the attachment structure 10 of the flexible rubber member 11 in which the segment rings 13 and 13 ′ are viewed in the circumferential direction y on the surface indicated by reference numeral II in FIG. 1. In Figure 3,
Portions other than the segment ring 13 'are shown in cross section.

The segment ring 13 'shown in FIGS. 2 and 3 is the joint surface 14a of the segment in the circumferential direction y. The flexible rubber member mounting structure 10 shown in FIG. 1 is formed by the following procedure. In the following description, among the pair of segment rings shown in FIG. 1, the one designated by the reference numeral 13 is an existing segment ring, and the one designated by the reference numeral 13 'is a newly installed segment ring.

First, a steel plate 12 for mounting a flexible rubber member (flexible sealing material) 11 is arranged on an end surface (cutting edge side end surface) 15 of an existing segment ring 13. At this time, the water-swellable film 17 and / or the water-swellable elastic body is sandwiched between the segment ring 13 and the steel plate 12.
Next, the backup plate (or pressing plate) 18 of the flexible rubber member 11 is attached to the surface of the steel plate 12, and one end of the thrust receiving member 19 is fixed to the backup plate 18a.

Here, the thrust receiving member 19 corresponds to the jack thrust applied to the segment rings 13 and 13 'during the excavation of the shield excavator. For example, as shown in FIG. It is sandwiched between the backup plates 18a and 18a 'at a portion having no hole so as to maintain the space between the segment rings when the jack thrust is applied. On the other hand, regarding the newly installed segment ring 13 ′, the water-swellable film 17 and / or the water-swellable elastic body and the flexible rubber member are preliminarily provided on the end surface (connecting side end surface) 15 ′ of the segment 14 constituting the segment ring 13 ′. The mounting steel plate 12 'is mounted in this order.

Next, the newly installed segment ring 13 '
The segment 14 constituting the
And the cutting edge side end surface 1 of the existing segment ring 13
5 and the flexible rubber member 1 are installed so as to face each other.
The installation position of the segment 14 is fixed while 1 is compressed. Then, the backup plates 18 'and 18a' of the flexible rubber member 11 are attached to the surface of the steel plate 12 ', and the other end of the thrust receiving member 19 is attached to the backup plate 18a' having no bolt holes. To fix.

In this way, the segment 14 is moved in the circumferential direction y.
Installed in sequence to build the segment ring 13 ',
A shield excavator is newly excavated starting from the end surface (not shown) of the newly installed segment ring 13 ′ on the cutting edge side. Further, after the jack is not thrust on the mounting location of the flexible rubber member 11, the thrust receiving member mounted between the pair of backup plates 18a, 18a 'is removed to remove the thrust receiving member shown in FIG. The attachment structure 10 for the flexible rubber member 11 is completed.

Here, the flexible rubber member 11 is sufficiently compressed between the pair of segment rings 13 and 13 ', so that the end faces 1 of the flexible rubber member 11 and the segments 14 are compressed.
It is possible to ensure the water stop between 5, 15 '. Further, when the flexible rubber member mounting steel plate 12 is fixed to the end surfaces 15, 15 ′ of the segment ring with the bolts 21, the backup plates 18, 18 ′ are interposed so that the flexible rubber member 11 is moved by external water pressure. This can be prevented in advance.

In the embodiment shown in FIG. 1, each segment 14 constituting the segment rings 13 and 13 'and each steel plate 12 constituting the ring made of the flexible rubber member mounting steel plate 12 are connected to each other at their joint portions 20a. , 20b are arranged so that their positions are offset from each other so that they do not overlap each other. Specifically, the joint portion 20a of the segment 14 constituting the segment ring [that is,
Part of the joining surface 14a of the segment 14 (see FIG. 1)]
And the joint portion 20b of each steel plate 12 constituting the ring made of the steel plate for attaching the flexible sealing material are arranged as illustrated in FIGS. 4 (a) and 4 (b).

At the joint portion 20a between the segments 14 and the joint portion 20b between the steel plates 12, a water-swellable film is provided at the joint portion, whereby sufficient water stopping is realized. On the other hand, the segment rings 13, 1
At the end surface of the ring made of 3'and the steel plate 12, water blocking may be insufficient at the step portion caused by the joint portion, and in particular, both joint portions 20a, 20
When b overlaps with each other, the gaps associated with the steps become too large, resulting in incomplete water stopping. However,
By arranging the segment rings 13 and 13 'and the ring made of the steel plate 12 as shown in FIG. 4, the stepped portion always comes into contact with the end faces of the segment rings 13 and 13' or the ring made of the steel plate 12, Moreover, since the water-swellable film is interposed at the contact point with the end face, it is possible to maintain the water stop at the joint portions 20a, 20b.

(Water-Proof Rubber Type Embodiment) FIG. 5 shows a water-proof rubber type embodiment. In the flexible seal member mounting structure 30 shown in FIG. 5, a pair of segment rings 1
3, 13 'are installed at regular intervals. Steel plates 12, 12 ′ for attaching a waterproof rubber member (flexible sealing material) 31 are arranged on the end faces 15, 15 ′ of the segment ring with a water-swellable film 17 interposed. Further, the water blocking rubber member 31 which functions as a sealing material (water blocking material) is fixed to each of the pair of steel plates 12, 12 'by the pressing plates 38, 38'. The water blocking rubber member 31 includes a bending portion 31a that can expand and contract in the axial direction x of the segment ring.

FIG. 5 shows a mounting structure 30 for the waterproof rubber member 31.
FIG. 4 is a partial cross-sectional view of the segment ring 13, 13 ′ as viewed in the circumferential direction y, in which
A portion other than 1 and the nut 42 is shown in cross section. The segment ring 13 'shown in FIG. 5 is the joint surface 14a of the segment in the circumferential direction y. Figure 5
The water-blocking rubber member mounting structure 30 shown in is formed by the following procedure. In addition, in the following description, as in the case of the “compression type embodiment”, a pair of segment rings to which the reference numeral 13 is attached is an existing segment ring, and a portion to which the reference numeral 13 ′ is attached is The segment will be newly installed.

First, the steel plate 12 for mounting the waterproof rubber member (flexible seal material) 31 is arranged on the end surface (cutting edge side end surface) 15 of the existing segment ring 13. At this time, the water-swellable film 17 and / or the water-swellable elastic body is sandwiched between the segment ring 13 and the steel plate 12.
Next, one flange portion 31b of the water blocking rubber member 31 is brought into contact with the surface of the steel plate 12, and is fixed by a holding plate (or backup plate) 38. Further, one end of a thrust receiving member (not shown) is fixed to a portion (not shown) of the pressing plate that does not have a hole for a bolt. This thrust receiving material is the same as that used in the "compression type embodiment".

On the other hand, a newly installed segment ring 1
As for 3 ', the water-swellable film 17 and the steel plate 12' for attaching the waterproof rubber member are previously attached in this order to the end face (connecting side end face) 15 'of the segment 14 constituting this. Next, the segment 14 that constitutes the newly installed segment ring 13 ′ is connected to the end face 1 on the connecting side.
5'and the cutting edge side end surface 15 of the existing segment ring 13 are installed so as to face each other. continue,
Of the pair of flange portions 31b of the waterproof rubber member 31, the flange portion 31b opposite to the one fixed to the existing segment ring 13 side in advance is brought into contact with the connection side end surface 15 ′ of the segment 14, Fix with the holding plate 38 '. After that, the pressing plate 3 of the waterproof rubber member 31 is attached to the surface of the steel plate 12 '.
8'is attached and the other end of the thrust receiving member (not shown) is fixed to the backup plate (not shown) at a portion having no hole for bolt.

In this way, the segment 14 is moved in the circumferential direction y.
Installed in sequence to build the segment ring 13 ',
A shield excavator is newly excavated starting from the end surface (not shown) of the newly installed segment ring 13 ′ on the cutting edge side. After the thrust of the jack is not applied to the location where the waterproof rubber member 31 is attached, the thrust receiving member mounted between the pair of holding plates is removed to remove the waterproof rubber member 31 shown in FIG. Mounting structure 30
Is completed.

Here, the pair of flange portions 31b of the waterproof rubber member 31 are made of steel plates 12, 12 'by a pair of pressing plates.
The waterproof rubber member 31
It is possible to ensure water stop between the end surfaces 15 and 15 'of the segment 14 and to prevent the flexible rubber member 11 from moving due to external water pressure. In the embodiment shown in FIG. 5, the segment rings 13, 1
The respective segments 14 constituting 3 ′ and the respective steel plates 12 constituting the ring made of the steel plate 32 for attaching the waterproof rubber member are positioned so that their respective joint portions 20 a and 20 b do not overlap each other. They are arranged in a staggered manner. The effect obtained by this is the same as that shown in FIG. 1 and FIG.

(Flexible Sealing Material) The flexible sealing material used in the present invention is a flexible rubber member 11 (see FIGS. 1 and 2) used in the compression type embodiment or a waterproof rubber type. The waterproof rubber member 31 (see FIG. 5) and the like used for the form may be used. The flexible seal material, which is used in any of the above types, is characterized by being made of rubber or the like having flexibility in common.

Although the flexible sealing material is not limited to this, it is an annular member having no seam over the entire circumferential direction of the shield tunnel in order to further ensure the waterproofness. Is preferred. In this case, a plurality of flexible sealing materials may be installed in the circumferential direction y of the segment ring, and then the seam portion may be vulcanized and bonded on site to form an annular member. It is preferable to provide one or a plurality of ridges 11a on the surface of the flexible sealing material that directly contacts the flexible sealing material mounting steel plates 12 and 12 '(see FIG. 1). The ridges are compressed and crushed by sandwiching the flexible seal material between the segment rings (between the steel plates), and as a result, the waterproof property between the flexible seal material and the steel plates is further improved. It can be further enhanced.

(Steel Plate for Attaching Flexible Seal Material) As the steel sheet for attaching the flexible seal material used in the present invention, a ring similar to the segment ring is brought into contact with the end face of the segment ring and arranged in the circumferential direction y. Of a flexible sealing material (side surface of flexible rubber member 11 shown in FIG. 1, waterproof rubber member shown in FIG. 5) In the case of 31, the flange 31b may be of any type as long as it can be brought into close contact with the contact surface.

Therefore, although not particularly limited,
The thickness of the steel sheet (the length of the shield tunnel in the axial direction x) is preferably 9 to 32 mm, and 9 to 19 m.
More preferably m. If the thickness of the steel sheet deviates from the above range, workability may become extremely low when attaching to the segment ring. In addition, the length of the steel plate in the diameter direction (thickness direction) of the segment ring is
It is preferable to set the thickness to the same level as the thickness of the segment itself (length in the diameter direction). In the case of the waterproof rubber type embodiment described above, the length of the steel plate in the diametrical direction (thickness direction) is larger than the length of the holding plates 38, 38 '(see FIG. 5) (diametrical direction of the segment ring). It is required to be long. If the length of the holding plate is shorter than the length, the water blocking rubber may not be stably fixed. The length in the diameter direction (thickness direction) of the steel plate is, specifically,
It is preferable that the thickness is the same as the thickness (digit height) of the adjacent segments.

The material of the steel sheet used in the present invention is not particularly limited, and various conventionally known materials such as SS400 can be used. The surface roughness of the steel sheet used in the present invention is not particularly limited, as long as it does not have scratches or irregularities on the surface, and that meets the criteria required for a commercially available steel sheet, it is used in the present invention be able to. The surface smoothness may be a grade with a ten-point average roughness of 200z to 400z or more.

(Segment) As the segment used in the present invention, various conventionally known segments such as concrete segment, steel segment and ductile segment can be used. (Water-swellable film and water-swellable elastic body) In the present invention, the water-swellable film and the water-swellable elastic body are not particularly limited, and various conventionally known water-swellable rubbers can be used. .

The water-swellable film 17 and / or the water-swellable elastic body is sandwiched between a segment ring 13 and a ring made of a steel plate 12, as shown in FIG. 1, for example. The length of the water-swellable film or the water-swellable elastic body in the diameter direction of the segment rings 13 and 13 'is not particularly limited, but is usually set to about 20 mm. By continuously providing the water-swellable film or the water-swellable elastic body along the circumferential direction y of the segment rings 13 and 13 ′, even if there is some unevenness on the end faces 15 and 15 ′ of the segment rings, It is possible to reliably prevent water leakage between the end surface and the flexible sealing material.

From the viewpoint of water stopping property, the thickness of the water-swellable film or the water-swellable elastic body is about 4 mm, which is usually set to about 2 to 5 mm. In order to further improve the water blocking performance at the connecting portion of the segment ring 13, for example, as shown in FIG. 1, a water-swellable film is also provided at the joint portion 20b of the ring made of the steel plate 12 for attaching the flexible sealing material. Preferably.

[Brief description of drawings]

FIG. 1 is a partially cutaway perspective view showing an embodiment of a mounting structure for a flexible sealing material according to the present invention.

2 is a partial cross-sectional view taken along the plane I of the embodiment shown in FIG.

FIG. 3 is a partial cross-sectional view taken along the plane II of the embodiment shown in FIG.

4A is a sectional view taken along line AA of FIG. 2, and FIG. 4B is a sectional view taken along line BB of FIG.

FIG. 5 is a partial cross-sectional view showing another embodiment of a mounting structure for a flexible sealing material according to the present invention.

FIG. 6 is a partial cross-sectional view showing an example of a conventional simplified flexible segment.

FIG. 7 is a partial cross-sectional view showing another example of a conventional simple type flexible segment.

[Explanation of symbols]

10 flexible seal material mounting structure, 11 flexible rubber member, 12 (12 ') flexible seal material mounting steel plate, 1
3 (13 ') segment ring, 14 segment,
15 end face (cutting edge side face), 15 'end face (connecting side end face), 14a segment joint face, 17 water-swellable film, 20a joint part, 20b joint part, 30 flexible sealing material (waterproof rubber member) Mounting structure, 31 waterproof rubber member, 40a joint part, 40
b Joint site.

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Claims (4)

[Claims] 1. A mounting structure for a flexible sealing material, wherein rings made of a flexible sealing material are sandwiched between opposed end faces of a pair of segment rings arranged at regular intervals. A ring made of a steel plate for attaching a flexible sealing material is arranged on the end face, and a water-expandable film and / or a water-expandable elastic body is sandwiched between the ring made of the steel plate and the segment ring. ,
A structure for mounting a flexible sealing material, in which a ring made of the flexible sealing material is directly arranged on the surface of the ring made of the steel plate. 2. A ring made of the above steel plate is formed by assembling two or more steel plates for attaching a flexible seal material in a ring shape, and the joining portion of each segment constituting a segment ring and the above steel plate. The mounting structure for the flexible sealing material according to claim 1, wherein the joint portions of the steel plates forming the ring made of are arranged so as not to overlap each other. 3. The mounting of the flexible sealing material according to claim 1, wherein the steel sheet for mounting the flexible sealing material and the segment to which the steel sheet is mounted have substantially the same thickness of the segment ring. Construction. 4. A water swellable film and / or a water swellable elastic body is disposed on the end face of the existing segment ring on the cutting edge side, and then a steel plate for mounting a flexible seal material is disposed on the surface thereof, and further the steel plate. After attaching the pressing plate to the end face of the cutting edge of the, and attaching one end of the thrust receiving member to the pressing plate, the water-swellable film and / or
Alternatively, a water-expandable elastic body, a steel plate for attaching a flexible sealing material, and a holding plate, a new segment formed by attaching in this order, the connecting side end face and the cutting edge side end face of the existing segment ring. Are arranged so as to face each other, and then the pressing plate of the new segment and the other end of the thrust receiving member of the existing segment ring are joined to each other.