JPH0734789A - Structure of segment joint - Google Patents

Abstract

PURPOSE:To prevent a joint from being opened due to deformation by disposing joint plates provided at connection ends of shield segments adjacent to each other and connecting both segments together by means of a plurality of bolts prallelly disposed through the joint plates. CONSTITUTION:A plurality of bolt holes are formed in joint plates 12a, 12b provided at the joint ends of segments 11a, 11b for use in lining of a shild tunnel. Next the plates 12a, 12b are disposed adjacent to each other and boxes 19a, 19b provided in each of the segments are joined to the joint plate of the corresponding segment by means of parallelly disposed different bolts 14a, 14b. And tensile stresses are generated in a joint due to the deformation of the segments 11a, 11b, both the bolts interact with each other so that pressing forces are exerted on the joint plates. As a result special reinforcement is not required to prevent the joint from being opened.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a segment joint structure used for lining a shield tunnel.

[0002]

2. Description of the Related Art A conventional segment used for lining a shield tunnel is generally an annular segment ring formed by connecting segments with bolts, and further, the segment rings are continuously bolted in the tunnel axial direction. Connected to form the primary lining body of the tunnel.

In order to connect the bolts, the joint portion of the conventional concrete segment is, as shown in FIG. 8, at the position where each adjacent segment joint portion abuts.
A joint fitting 201 having a joint plate 201a is arranged, and the joint plate 201a is fastened with nuts and bolts 202. Similarly, in the joint portion of the steel segment or the composite segment, the joint plate is fastened with nuts and bolts.

[0004]

However, when a tensile stress is applied to the segment having the joint structure of FIG. 8, the joint plate 201a is likely to be deformed, and the joint has an opening of 2 mm.
There is a problem that the water inside the shield leaks to the outside due to 03.

When this primary tunnel lining is used for an underground river or a water conduit, internal pressure is generated in the segment ring and tensile stress acts on the segment joint portion. In order to deal with this tensile stress, a reinforcement method is known in which a secondary lining is provided in the segment ring, but it requires a large amount of reinforcing bars and concrete thickness, and the actual shield from the viewpoint of construction and cost. Can be difficult to use.

The present invention has been made by paying attention to such a conventional problem, and an object thereof is to obtain an internal pressure in the shield and a tensile stress acting on the segment joint portion.
It is to provide a segment joint structure that does not open.

[0007]

SUMMARY OF THE INVENTION The present invention has been made in view of the above object, and its gist is a concrete segment joint structure used for lining a shield tunnel. A joint plate with which the joint surface abuts, a box portion formed inside each segment via this joint plate, one end is fixedly provided inside the segment, and the other end is substantially perpendicular to the joint plate. A bolt that extends to the joint plate of an adjacent segment and that extends from the joint plate; fixing means that fixes one end of the bolt inside the segment; and a joint plate that penetrates the other end of the bolt. And a locking member for stopping the bolt, the bolts alternately extending from the adjacent one segment and penetrating the abutted other segment joint plate, and alternately different joint plates. In segment joint structure characterized in that it is locked to the surface.

Another aspect of the present invention is a concrete segment joint structure used for lining a shield tunnel, which is separated from a joint surface of two adjacent segments by a predetermined length and whose longitudinal direction is parallel to the joint surface. A substantially rectangular box portion formed inside the segment, one end fixed to the inside of the segment, the other end is extended substantially perpendicular to the joint surface, the box portion and the joint surface and adjacent A bolt penetrating to the box portion of the other segment, fixing means for fixing one end of the bolt inside the segment, and a locking member for locking the other end of the bolt to the box portion, The bolts are alternately extended from adjacent one of the segments, and the bolts penetrate through the boxes of the other abutted segments, and are alternately locked to different boxes. In the structure.

Further, the gist of the present invention is a steel segment joint structure used for lining a shield tunnel, wherein a joint plate arranged on the joint surface and a segment separated from the joint plate by a predetermined length and parallel to the joint plate. A vertical rib formed inside, one end penetrates the vertical rib and is locked to this vertical rib, and the other end extends substantially perpendicular to the joint plate,
A bolt protruding from the joint plate and further penetrating to an adjacent segment joint plate, and a locking member for locking the penetrating bolt tip to the joint plate penetrating the bolt, wherein the bolts alternate from each adjacent one segment. In the segment joint structure, the segment joint plate is extended to the other side and penetrates through the other abutted segment joint plate and is alternately retained on different side faces of the joint plate.

[0010]

In the segment joint structure according to the present invention, the bolts penetrating the abutting joint plates or joint portions in adjacent segments are alternately locked and fixed to the joint portion side in different directions. Therefore, when a tensile stress is applied between the adjacent segments, the tensile stress is sequentially transferred from both segment bodies to the respective bolts, the locking means arranged in the other segment, and the joint portion of the other segment. It flows from the direction. Therefore, the abutting joint portions are pulled from opposite sides in opposite directions (opposite direction), and the tensile stress is converted into a force for crimping the abutted joint portions to each other.

[0011]

Embodiments of the present invention will be described below with reference to the accompanying drawings.

FIG. 1 is a first embodiment according to claim 1, (a) is a partial plan view of the segment joint structure of the present invention, and (b) is a sectional view taken along line AA. The segment joint structure 10 of the first embodiment has joint plates 12a, 12 arranged at three contact points of respective segment joint surfaces of two adjacent concrete segments 11a, 11b.
b and three box portions formed inside the respective segments via the joint plates 12a and 12b 1
3a, 13b and two adjacent segments 11a, 1
1b, bolts 14a, 14b, washers 17a, 17b and nuts 18 as fixing means for fixing one end of each bolt 14a, 14b inside the segment.
a, 18b and the other ends of the bolts 14a, 14b to the joint plate 1
Washers 15a as locking members for locking 2a, 12b,
The main part is composed of 15b and nuts 16a and 16b. As the components other than the main part, the box parts 19 formed at three positions inside the segments 11a and 11b are used.
a, 19b, three bolt through holes 20a provided inside the segment 11a between the box portion 19a and the box portion 13a, and inside the segment 11a between the box portion 19b and the box portion 13b. Three bolt through holes 20
There is b.

The joint plates 12a and 12b are integrally formed as joint fittings (not shown) and are formed on the joint surface together with the concave box portions 13a and 13b. Each of the joint plates 12a and 12b has two bolt holes (not shown) formed at corresponding positions when they are brought into contact with each other. Further, when the joint metal fitting is provided in order to stabilize the joint metal fitting, an anchor bar (not shown) is attached and fixed to this.

The box portion 19a is provided inside the segment 11a by extending a predetermined length in a direction substantially perpendicular to the joint surface from one hole of the joint plate 12a, and the box portion 19b is the other of the joint plate 12b. Extending from the hole to a predetermined length in a direction substantially perpendicular to the joint surface, the holes are provided at three locations inside the segment 11b.

The bolt 14a passes from the box portion 19a through the bolt through hole 20a and the box portion 13a, and the joint plates 12a and 12b.
It will be installed through. One end of the bolt 14a is fixed to the box portion 19a with a washer 17a and a nut 18a,
The other end is a joint plate 12b formed by a washer 15b and a nut 16b.
Fixed to. On the other hand, the bolt 14b passes from the box portion 19b through the bolt through hole 20b and the box portion 13b, and the joint plates 12b, 1b.
2a is penetrated and arranged. One end of this bolt 14b is fixed to the box portion 19b by a washer 17b and a nut 18b, and the other end is fixed by a washer 15b and a nut 16a.
Fix to 2a. In this way, the two bolts 14a, 14b that penetrate the pair of abutting joint plates 12a, 12b.
Are alternately locked to different surfaces of the joint plates 12a and 12b by washers 15a and 15b and nuts 16a and 16b.

FIG. 7 shows the joint plates 12a and 12 of the first embodiment.
It is an enlarged view of the vicinity of b. Transmission of force when tensile stress acts on the segment joint structure of the present invention will be described below with reference to FIGS. 1 and 7. Segments 11a, 11
When the tensile stress T acts between b, this tensile stress T is dispersed and transmitted as the tensile stress T1 to each of the three bolts 14a and 14b fixed to the segment plates 11a and 11b. This tensile stress T1 causes the three bolts 14a to pull the contacted joint plates 12a, 12b from the joint plate 12b side in the direction of arrow A through the washer 15b and the nut 16b, while the three bolts 14a are pulled. 14b is the joint plate 12 that is abutted through the washer 15a and the nut 16a.
Pull a and 12b from the joint plate 12a side in the direction of arrow B. In this way, the washer 15a and the nut 16a and the washer 15b and the nut 16b are in contact with each other.
In order to pull a and 12b from different sides in opposite directions,
Here, the tensile stress T1 is due to the abutting joint plates 12a,
It is converted into a force for crimping 12b to each other. As described above, even when the tensile stress T acts between the segments 11a and 11b, the joint plates 12a and 12b can be strengthened by the tensile stress T without opening the mesh.

Also in the following second to fifth embodiments, as in the first embodiment, when tensile stress acts on the adjacent segments, the abutting joint plates or joint parts are contacted with each other. By alternately arranging the washers and the nuts, the tensile stress from the bolts is converted into the crimping force between the joint plates or the joint portions.

FIG. 2 is a second embodiment according to claim 1, (a) is a partial plan view of the segment joint structure of the present invention, and (b) is a BB sectional view. The main part of the segment joint structure 30 of the second embodiment is different from that of the first embodiment in that the anchor bolt 38a as a fixing means for fixing one end of the bolt 34a, 34b inside the segment 31a, 31b is used. 38b and connectors 37a and 37b. As the structure similar to the main part of the first embodiment, in two adjacent concrete segments 31a and 31b, joint plates 32a and 32b arranged at three positions where the respective segment joint surfaces abut, and these joint plates. 32
Three box portions 33a, 33b formed inside each segment via a, 32b, and a bolt 34a penetrating two adjacent segments 31a, 31b,
34b and the ends of the bolts 34a, 34b at the joint plate 32.
washers 35a, 3 as locking members for locking a, 32b
5b and nuts 36a and 36b.

Similar to the first embodiment, the joint plates 32a and 32b are integrally formed as joint fittings (not shown) in the joint surface and are formed together with the boxes 33a and 33b. Each of the joint plates 32a and 32b has two bolt holes (not shown) formed at corresponding positions when they are brought into contact with each other. Further, when the joint fitting is buried in order to stabilize the buried joint fitting, an anchor bar (not shown) is attached and fixed thereto.

The anchor bolt 38a is provided with the joint plate 32.
It is embedded in the segment 31a on a line extending from one hole of a in a direction substantially perpendicular to the joint surface, and one end thereof projects into the box portion 33a. The anchor bolt 38b is embedded in the segment 31b on a line extending from the other hole of the joint plate 32b in a direction substantially perpendicular to the joint surface, and one end thereof projects into the box portion 33b.

The bolt 34a has a connector 37a at one end.
To the anchor bolt 38a, and the other end penetrates the pair of abutting joint plates 32a and 32b to form a joint plate 32b.
The washer 35b and the nut 36b are engaged and fixed on the top. On the other hand, the bolt 34b has a connector 37b at one end.
Is connected to the anchor bolt 38b with the other end penetrating the pair of abutting joint plates 32a, 32b, and the joint plate 32a.
The washer 35b and the nut 36b are engaged and fixed on the top. In this way, the pair of abutting joint plates 32a, 3
Two bolts 34a, 34b penetrating 2b alternate with washers 15a, 1 on different surfaces of joint plates 32a, 32b.
5b and nuts 16a and 16b are engaged and fixed.

FIG. 3 is a third embodiment according to claim 2, (a) is a partial plan view of the segment joint structure of the present invention, and (b) is a CC sectional view. In the segment joint structure 40 of the third embodiment, the joint surfaces 65a and 65b are formed on two adjacent concrete segments 41a and 41b.
A substantially rectangular parallelepiped box portion 43a, 43b formed in the segment parallel to the joint surface in the longitudinal direction and four bolts 45 penetrating two adjacent segments 41a, 41b. 46, 47, 48 and this bolt 4
5, 46, 47 and 48 are connected to one end of the segment 41a,
Washers 57a, 5 as fixing means fixed inside 41b
7b, 61a, 63b and nuts 58a, 60b, 62
a, 64b and a washer 5 as a locking member for locking the other ends of the bolts 45, 46, 47, 48 to the box portions 43a, 43b.
7b, 59a, 61b, 63a and nuts 58b, 60
A, 62b, and 64a form a main part. The components other than the main part include segments 41a and 41b.
Box portions 53, 54, 55 formed at two locations inside the
56, bolt through holes 49, 49 ′, 49 ″ communicating from the box portion 53 to the box portion 43b through the box portion 43, and three bolt through holes similar to this, in addition to the bolt through holes. There is.

The bolt 45 is arranged so as to pass from the box portion 53 through the bolt through hole 49, the box portion 43a, the bolt through hole 49 'and the bolt through hole 49 "to the box portion 43b. One end of the bolt 45 is provided. , Washer 57a and nut 58a are fixed to the box portion 53, and the other end is washer 57b and nut 58b.
It is fixed to the box portion 43b by. On the other hand, the bolt 46 is arranged so as to pass from the box portion 55 through the bolt through hole 50, the box portion 43b, the bolt through hole 50 'and the bolt through hole 50 "to the box portion 43a. One end of the bolt 46 is a washer. 59
It is fixed to the box part 55 by b and a nut 60b, and the other end is fixed to the box part 43a by a washer 59a and a nut 60a. Thus, the pair of abutted joint portions 42a, 42
The two bolts 45 and 46 penetrating b are connected to the joint portion 42.
Boxes 43a and 43b different from each other with a and 42b sandwiched therebetween
Alternatingly with washers 57b, 59a and nuts 58b, 60
It is locked and fixed by a. Similarly, the bolts 47 and 48 are alternately fixed to the different box portions 43a and 43b with the washer and the nut sandwiching the joint portions 42a and 42b.

FIG. 4 is a fourth embodiment according to claim 2, (a) is a partial plan view of the segment joint structure of the present invention, and (b) is a DD sectional view. The main part of the segment joint structure 70 of the fourth embodiment is different from that of the third embodiment as a fixing means for fixing one end of the bolts 75, 76, 77, 78 inside the segments 31a, 31b. Anchor bolts 83, 85, 87, 89 and connectors 84, 86, 88, 90. As the structure similar to the main part of the third embodiment, the joint surfaces 99a, 99 of two adjacent concrete segments 71a, 71b are
box-shaped parts 73a and 73b each having a substantially rectangular parallelepiped shape and formed on the inner side of the segment parallel to the joint surface in the longitudinal direction at a predetermined distance from b,
As four bolts 75, 76, 77, 78 penetrating into two adjacent segments 71a, 71b and a locking member for locking the tips of these bolts 75, 76, 77, 78 to the box portions 73a, 73b. There are washers 91, 93, 95, 97 and nuts 92, 94, 96, 98. Components other than this main part include bolt through holes 79 'and 79 ", 80' and 80", 81 'and 81 ", and 82' and 82" that communicate from the box portion 73a to the box portion 73b. There is.

The anchor bolt 83 is embedded in the segment 71a on a line extending from the bolt through holes 79 'and 79 "to the joint surface 99a at a substantially right angle, and one end of the anchor bolt 83 is formed in the box portion 73a. Also, the anchor bolt 87 has the bolt through holes 80 'and 8'.
On a line extending from 0 "to the joint surface 99a in a direction substantially perpendicular to the joint surface 99a,
Besides, it is embedded in the segment 71b, and one end thereof projects into the box portion 73b. The anchor bolts 85 and 89 are also arranged on the segments 71a and 71b similarly to the anchor bolts 83 and 87.

The bolt 75 has one end connected to the anchor bolt 83 by a connector 84, the other end penetrating a pair of abutting joints 72a and 72b, and a washer 9 on the box 73b.
1 and the nut 92 are engaged and fixed. On the other hand, one end of the bolt 76 is connected to the anchor bolt 87 by the connector 88, and the other end of the bolt 76 is a pair of abutting joint portions 72.
a, 72b, and a washer 93 and a nut 9 on the box portion 73a.
It is locked by 4 and fixed. Similarly to the bolts 75 and 76, the bolts 77 and 78 also have the segments 71a,
It is arranged at 71b. In this way, the four bolts 75 passing through the pair of abutting joint portions 72a, 72b,
The washers 9 are alternately arranged on different box portions 73a and 73b with the joint portions 72a and 72b sandwiched therebetween.
1,93,95,97 and nuts 92,94,96,98
It is locked and fixed by. FIG. 5 is a fifth embodiment according to claim 3, (a) is a partial plan view of the segment joint structure of the present invention, and (b) is a sectional view taken along line EE. The segment joint structure 100 of the fifth embodiment includes joint plates 102a and 102b arranged on the joint surface of a steel segment and a segment 1 that is separated from the joint plate by a predetermined length and is parallel to the joint plate.
Vertical ribs 109a, 1 formed inside 01a, 101b
09b, six bolts 103a having one end penetrating and locking the vertical rib 109a and the other end penetrating substantially perpendicularly to the joint plates 102a and 102b, and locking, and one end being the vertical rib. 109b is penetrated and locked, and the other end is the joint plate 102.
6 bolts 103b that are locked by penetrating substantially perpendicularly to a and 102b, and these bolts 103a and 103b that penetrate
Washers 104a and 104b as locking members for locking the joint plates 102a and 102b having their tips penetrated and the nut 10
The main part is composed of 5a and 105b. As components other than the main part, washers 106a and 106b arranged between the heads 107a and 107b of the bolts 103a and 103b and the vertical ribs 109a and 109b, and the vertical ribs 109 are provided.
1 between a and 109b and joint plates 102a and 102b
There are lateral ribs 108a and 108b on which the sheets are arranged.

Twelve bolt holes (not shown) are formed in the joint plates 102a and 102b at the same position when they are brought into contact with each other.

Six bolt holes are formed in each of the vertical ribs 109a and 109b. Among the bolt holes, for example, the bolt hole 110 "of the vertical rib 109b is a joint plate 10a.
2a and 102b are formed on the joint surface vertically extending from the bolt holes 110 ', and then the bolt holes 11 of the vertical ribs 109a are formed.
1 ″ is formed vertically extending from the bolt holes 111 ′ of the joint plates 102a and 102b to the joint surface. In this way, the bolt holes of the vertical ribs 109a and 109b are formed on the joint plate 1 respectively.
It is formed so as to correspond to every other bolt hole of 02a and 102b.

The bolt 103a has a vertical rib 109a at one end.
Of the joint plate 102 which penetrates through the bolt hole of the
a, 102b, and a washer 104b and a nut 105.
It is locked and fixed by b. On the other hand, the bolt 103b
Has one end penetrating the bolt hole of the vertical rib 109b and locked by the bolt head 107b, and the other end penetrating the pair of abutting joint plates 102a, 102b to form a washer 104a and a nut 105a. It is locked and fixed by. Thus, the pair of abutting joint plates 102a, 1a
Six bolts 103a and 103b each penetrating 02b
Are the washers 104a and 104b and the nut 10 alternately from different surfaces with the joint plates 102a and 102b sandwiched therebetween.
It is locked and fixed by 5a and 105b.

In the segment joint structure of the present invention, when the bolts are locked and fixed to the abutted joint plate, variations of the arrangement of the washers and the nuts are shown in FIG. In this joint structure 120, a washer 125a and a nut 126a are passed through the joint plates 122a and 122b toward the joint plate 122a.
With two bolts 124b locked and fixed by the joint plates 12a and 122b, the joint plate 12 is penetrated.
There is one bolt 124a that is locked and fixed by a washer 125b and a nut 126b on the 2b side. For example, by arranging this combination in the box portions 13a and 13b of the first embodiment, the box portions 33a and 33b of the second embodiment, and the joint portion of the fifth embodiment, the same effect as the above-described embodiment can be obtained. You can

[0031]

As described above, in the segment joint structure of the present invention, even when internal pressure is generated in the shield and tensile stress acts on the segment joint, the segment joint does not open, and rather the tensile stress causes The crimping force can be increased.

[Brief description of drawings]

1 is a first embodiment of the present invention, (a) is a partial plan view of the segment joint structure of the present invention, (b) is A
FIG.

2 is a second embodiment of the present invention, (a) is a partial plan view of the segment joint structure of the present invention, (b) is B
It is a -B sectional view.

3 is a third embodiment of the present invention, (a) is a partial plan view of the segment joint structure of the present invention, (b) is a C
FIG.

4 is a fourth embodiment of the present invention, (a) is a partial plan view of the segment joint structure of the present invention, (b) is a D
It is a -D sectional view.

5 is a fifth embodiment of the present invention, (a) is a partial plan view of the segment joint structure of the present invention, (b) is an E
It is a -E sectional view.

FIG. 6 is an embodiment of the present invention other than the first to fifth embodiments.

FIG. 7 is an enlarged view of the vicinity of the joint plates 12a and 12b of the first embodiment.

FIG. 8 is a partial plan view of a conventional segment joint structure.

[Explanation of symbols]

10, 30, 40, 70, 100 Segment joint structure 12a, 12b, 32a, 32b, 102a, 102b
Joint plates 42a, 42b, 72a, 72b Joint portions 13a, 13b, 33a, 33b, 43a, 43b, 7
3a, 73b Recesses 14a, 14b, 34a, 34b, 45, 46, 47,
48, 75, 76, 77, 78, 103a, 103b
Bolts 15a, 15b, 35a, 35b, 57b, 59a, 6
1b, 63a, 91, 93, 95, 97, 104a, 1
04b Washer (locking member) 16a, 16b, 36a, 36b, 58b, 60a, 6
2b, 64a, 92, 94, 96, 98, 105a, 1
05b Nut (locking member) 38a, 38b, 83, 85, 87, 89 Anchor bolt (fixing means) 37a, 37b, 84, 86, 88, 90 Connector (fixing means) 17a, 17b, 57a, 59b, 61a, 63b, 1
06a, 106b Washers (fixing means) 18a, 18b, 58a, 60b, 62a, 64b, 1
07a, 107b Nut (fixing means)

Claims (3)

[Claims] 1. A concrete segment joint structure used for lining a shield tunnel, comprising: a joint plate with which the joint surfaces of two adjacent segments contact each other; and a joint plate formed inside each segment via the joint plate. A box portion, one end fixed to the inside of the segment, the other end is extended substantially perpendicular to the joint plate, projecting from the joint plate, the bolt penetrating to the joint plate of the adjacent segment, The bolt comprises a fixing means for fixing one end of the bolt inside the segment, and a locking member for locking the other end of the bolt to the joint plate penetrating the other end of the bolt. A segment joint structure, wherein the segment joint plate penetrates the other abutted segment joint plate and is alternately retained on different side faces of the joint plate. 2. A concrete segment joint structure used for lining a shield tunnel, wherein the joint segment is separated from the joint surface of two adjacent segments by a predetermined length, and the longitudinal direction is formed inside the segment parallel to the joint surface. A box part of a cube and one end fixed to the inside of the segment, the other end extending substantially perpendicular to the joint surface, up to the box part and the joint surface and the box part of the adjacent other segment The bolt includes a penetrating bolt, a fixing means that fixes one end of the bolt inside the segment, and a locking member that locks the other end of the bolt to the box portion, and the bolt is adjacent to each one of the segments. From the above, the bolt penetrates the box part of the other segment which is alternately abutted and is abutted on the different box parts alternately. 3. A steel segment joint structure used for lining a shield tunnel, comprising: a joint plate disposed on the joint surface; and a vertical direction formed inside the segment parallel to the joint plate and separated from the joint plate by a predetermined length. The rib and one end thereof penetrates the vertical rib and is locked to the vertical rib, and the other end of the rib extends substantially perpendicular to the joint plate, protrudes from the joint plate, and further adjoins the segment joint plate. And a locking member that locks to the joint plate through which the end of the bolt penetrates. The bolt is alternately extended from one adjacent segment and the other segment joint abutted. A segment joint structure which penetrates a plate and is alternately locked to the side faces of different joint plates.