JPH0723098U - Segment fittings - Google Patents

Abstract

(57) [Summary] [Purpose] To provide a segment joint with greatly improved followability to ground deformation such as during earthquakes and uneven settlement. [Structure] In a flat plate-type concrete segment 10, the segment body is composed of reinforced concrete 14, and joints 2 are provided on the end faces in the circumferential direction and the tunnel axis direction.
0 is provided. Joint plate 2 constituting this joint 20
No. 2 is made of ultra low yield point steel, where "extra low yield point steel"
Means a steel material having a lower yield strength and a larger amount of elongation deformation at break than ordinary steel. At present, for example, an extremely low yield point steel is known which has lower strength, higher elongation, and higher energy absorption capacity than ordinary steel. Since the joint plate 22 is made of an extremely low yield point steel, even if the joint 20 is deformed due to an earthquake, unequal settlement, etc., the joint plate 22 absorbs the amount of deformation, and as a result, The reinforced concrete 14 is not destroyed.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a joint which is provided on a joint end face of a segment for tunnel lining and which connects the segments by bolt or pin joints.

[0002]

[Prior art and its problems]

 As a shield tunnel lining for railways, sewers, common ditches, etc., a plurality of arc-shaped segments are connected in the circumferential direction to form a cylindrical body, and a large number of these are connected in the tunnel axial direction to form a tunnel. It is being built.

For example, FIG. 1 is a perspective view of a flat plate-type concrete segment 10 that is often used as a lining body. The segment body is made of reinforced concrete 14, and joints 20 are provided on the end faces in the circumferential direction and the tunnel axis direction. Is provided. The joint 20 is made of a box-shaped joint metal, and the steel joint plates 22 located at the joint end faces are opposed to each other and fastened with bolts (not shown) to construct a tunnel lining body by the segments 10. Has become.

In such a segment 10, the number of joints 20 is about 10 points per one piece of the segment, which is smaller than the segment length. In addition, the rigidity of the joint plate 22 and bolts is smaller than that of the segment body, so if the tunnel undergoes tensile deformation when an earthquake occurs, the deformation concentrates on the joint 20 and the area around the joint of the segment 10 may be destroyed. There is.

[0005]

[The purpose of the device]

 The present invention solves the above-mentioned problems, and it is an object of the present invention to provide a segment joint with greatly improved followability to ground deformation such as an earthquake or uneven settlement, and improved reliability. It is what

[0006]

[Constitution of device]

 The present invention is characterized in that in a joint of a segment in which joint plates are connected by bolts or pin joints, a part or all of the joint plates are made of ultra-low yield point steel.

[0007]

[Action]

 By adopting the above configuration, even if the joint receives deformation due to an earthquake or unequal subsidence, etc., the joint plate absorbs the amount of deformation, and as a result, the joint of the segment and its peripheral portion may be destroyed. Absent.

[0008]

【Example】

 INDUSTRIAL APPLICABILITY The present invention can be applied to a concrete segment, a steel segment, or a composite segment composed of a steel plate and concrete. Hereinafter, the concrete segment will be described with reference to FIGS. 1 and 2 which are perspective views of the concrete segment. A preferred embodiment of the present invention will be described.

FIG. 2 is a perspective view of the joint 20 embedded in the end surface of the segment 10. The joint 20 includes a joint plate 22 having a bolt hole 24 formed in the center and side plates 26 on both side surfaces thereof. And the anchor muscle 28 fixed via The joint 20 is embedded in the connecting end face of the reinforced concrete 14 of the segment 10 by the anchor bar 28, and the space surrounded by the joint plate 22 and the side plate 26 forms a joint box for bolting. Is the same as.

A feature of the present invention is that the joint plate 22 is made of ultra-low yield point steel. Here, "extremely low yield point steel" refers to a steel material having a lower yield strength and a larger amount of elongation deformation at break than ordinary steel. At present, for example, ultra low yield point steel is known which has lower strength, higher elongation, and higher energy absorption capacity than ordinary steel. That is, the ultra low yield point steel has a yield strength of about 1/3 and a tensile strength of about 1/2 as compared with ordinary steel. In addition, the ultra low yield point steel has an elongation at the time of tensile rupture about twice, and is excellent in the ability of repeated plastic deformation.

The side plate 26 is made of a steel plate or an iron plate as in the conventional case.

In the present invention, since the joint plate 22 is made of the extremely low yield point steel, even if the joint 20 is deformed due to an earthquake or unequal settlement, the joint plate 22 absorbs the deformation amount. The joint 20 and the reinforced concrete 14 around the joint 20 are not destroyed. That is, the joint plate 22 has sufficient capacity to withstand the bolt tightening force during tunnel construction and the stress due to earth pressure applied to the lining during normal operation, and at the same time, has elongation performance to follow deformation during earthquakes. Is to have.

Although the present invention has been described with reference to the bolt-joint type concrete segment, as described above, the present invention can be applied to a composite segment or a steel segment, and also to a pin-joint type joint. be able to.

Next, a method of making a tunnel a seismic isolation structure by using the segment 10 including the joint 20 of the present invention will be described. In this case, the number of seismic isolation segments to be used and the intervals of use, etc. are determined by the ground conditions, tunnel diameter, tunnel usage, importance, etc., but the rough guideline is as follows. That is, if the ground is soft and uniform and seismic performance is required over the entire tunnel, install 10 to 20 rings in the axial direction of the tunnel. In addition, if there are places where the ground rigidity, soil cover, etc. change suddenly and local deformation is expected, 5-20 rings will be concentrated at those points. In this way, it is possible to counter the seismic force by making the tunnel a seismic isolation structure.

[0015]

[Effect of device]

 According to the segment joint of the present invention, the reliability of the segment is improved by greatly improving the followability to ground deformation such as an earthquake or uneven settlement, and thus the safety of the tunnel lining is enhanced. be able to.

In addition, in the segment joint of the present invention, for the simplest joint structure, only a part of the material forming the joint is changed, and a new type of work is added at the time of lining the tunnel. Never. Therefore, when constructing a tunnel of seismic isolation structure, a large amount of joints as a whole are required, but the segment joint of the present invention is extremely economically advantageous.

[Brief description of drawings]

FIG. 1 is a perspective view of a concrete segment including a joint according to the present invention.

FIG. 2 is a perspective view showing an embodiment of a joint according to the present invention.

[Explanation of symbols]

 10 segment 14 reinforced concrete 20 joint 22 joint plate 24 bolt hole 26 side plate 28 anchor bar

Claims (1)

[Scope of utility model registration request] 1. A segment joint in which joint plates are connected by bolts or pin joints, wherein a part or all of the joint plate is made of ultra-low yield point steel.