JP4364530B2 - Segment mis-suppression device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a misinterpretation device that is used for positioning a segment and suppresses a shift between segments in an inter-segment joint surface when a lining segment is assembled in a ring shape.
[0002]
[Prior art]
Regarding the segment for the shield method, the inner circumference of the segment tunnel is made by incorporating or protruding joint fittings or butt joints with uneven surfaces on the joint surface, compared to conventional joint boxes and joints using straight bolts or bent bolts. Various types with smooth surfaces have been developed. These joints usually have a joint function in a completed system and a positioning function during assembly.
[0003]
For inter-segment joints (piece joints) that do not expose the joint to the inner surface side of the segment, cotter-type joints that slide and fit in the tunnel axis direction, or engagement of irregularities formed on the joint surface A butt joint that prevents misalignment is common.
[0004]
As a cotter type joint, as shown in Patent Document 1, for example, a structure in which a section steel projecting from the other joint surface is engaged with a tapered groove that opens on the joint surface between segments is disclosed in Patent Document 2. In addition, there are those in which the head of a bolt as a male joint is engaged with a tapered groove as a female joint, and those in which the joint surfaces are joined together by pulling the joint surfaces with a wedge having an H-shaped cross section as shown in Patent Document 3. .
[0005]
Moreover, as a joint of a butt | matching type, there exists what formed the recessed part and convex part of the circular arc shape or trapezoid cross section which mutually fit in a joint surface as shown in patent document 4 or patent document 5, The drawing shows a state in which an assembling bolt is attached through an uneven portion for temporary fixing during assembly.
[0006]
As for the inter-ring joint, various types of axial insertion type pin joints (such as those using wedges, springs, etc.) are used (for example, Patent Documents 6 to 8).
[0007]
Further, various combinations of the joints between segments and joints as described above have been developed in which the segments are slid in the tunnel direction and at the same time the segments are automatically connected and assembled ( Non-patent document 1).
[0008]
[Patent Document 1]
JP 2001-32688 A [Patent Document 2]
JP 2000-54795 A [Patent Document 3]
Japanese Patent Laid-Open No. 9-195589 [Patent Document 4]
JP-A-11-141288 [Patent Document 5]
JP 2001-323789 A [Patent Document 6]
JP-A-8-296396 [Patent Document 7]
JP 2000-248898 A [Patent Document 8]
JP 2001-90485 A [Non-Patent Document 1]
"Civil Engineering Law Encyclopedia Revision V", first edition, second print, Industry Research Committee, September 2001,
p. 661-669
[0009]
[Problems to be solved by the invention]
In the case of a short bolt type joint by a joint box, the mistake (displacement) when the segments are assembled is caused by a gap between the bolt and the bolt hole. In such a case, the bolt hole is generally about a bolt diameter of about +3 mm, and therefore, the maximum difference is about 3 mm.
[0010]
On the other hand, in the case of a butt joint, it is an assembly bolt in an oblique direction that is provided as a temporary component that suppresses deformation in the misdirection direction, which is one of the causes of misunderstandings in relation to the bolt hole. Yes.
[0011]
On the other hand, in the case of a cotter type joint, when assembling a segment ring, adjacent segments are forcibly pulled and joined together, and the joint surface of the ring is made to resist both the tensile force and the shearing force on the joint surface with the joint bracket. Trying to adhere.
[0012]
However, if the tensile force, shearing force or bending force acting on the fitting is large, the segment body to which the fitting is attached may not be able to withstand the tensile force, etc., and may be damaged. However, it takes a lot of time and effort to replace it, delaying the construction period and increasing the cost.
[0013]
In other words, in the completed system of the lining, a stable stress state is received due to earth pressure from the natural ground, but during the assembly of the segment ring and until the assembled ring comes out of the shield tail, the weight of the segment and the shield It is unstable due to the propulsive force of the machine, etc., and the force acting on the segment may cause openings on the joint surface between segments at the top of the ring, etc., and may also cause displacement in the in-plane direction of the joint surface. There is.
[0014]
On the other hand, in the conventional cotter type joints and the like, because the segments are forcibly pulled together as described above, excessive tensile force, shearing force, bending force is generated in the segments, and the segment body may be partially damaged. is there.
[0015]
The present invention is intended to solve the above-mentioned problems in the prior art, and maintains the ring shape when the segment ring is assembled by resisting the shearing force on the joint surface of the inter-segment joint, while facilitating shield propulsion installation of, for tension segment ring circumferential direction allows the gap is generated in the inter-segment joint surfaces, joint and I構 forming a resist, also up to a predetermined shear force resisted On the other hand, for the shearing force exceeding it, the purpose is to prevent the segment from being damaged or broken without giving an excessive burden to the segment by breaking or deforming the reduced cross section of the male metal. Is.
[0016]
[Means for Solving the Problems]
The invention according to claim 1 of the present application is a misinterpretation device for suppressing displacement of the inter-segment joint surface of the tunnel lining segment, which opens to the inter-segment joint surface of one of the segments joined together. A female metal part having a groove extending in the tunnel axis direction, and a groove part of the female metal part protruding from the inter-segment joint surface of the other segment and fitted into the female metal part groove part and resisting a shearing force in the tunnel radial direction Ri do from a male fittings relative movement of the tunnel axis and the tunnel circumferential direction of the inner has a protrusion unconstrained segments allowed the projection length of the projecting portion of the male hardware, when assembling the segment ring The distance between the joint surfaces is equal to or greater than the distance between the joint surfaces .
[0017]
The surface of the joint between segments may be flat, or irregularities for forming a butt joint or the like in a completed system in which the assembled segment ring is directly subjected to earth pressure from the natural ground may be formed.
[0018]
In the completed system, there is no restriction between the segments due to the joint between the rings, so there is no need to provide a joint fitting, etc., but if necessary, a joint fitting for the inter-segment joint should be embedded separately. Is also possible.
[0019]
The present invention suppresses the misunderstanding of the joint tunnel radial direction by resisting the male metal fitting inserted into the groove of the female metal hardware against the shearing force in the tunnel radial direction acting between the segments when assembling the segment ring. but is intended to, for tunnel axis and the tunnel circumferential direction that is not flux relative movement of the male fittings is contracture, while maintaining a true circle (if the segment ring is circular) or a predetermined cross-sectional shape of a certain degree segment ring, It is possible to prevent the breakage of the segment by allowing the mesh opening and preventing an excessive tensile force or bending force from acting on the segment.
As described above, in the present invention, in order to prevent breakage of the segment body, the opening on the segment joint surface during assembly is allowed, but at this time, the protruding part of the male metal part is completely pulled out from the groove part of the female metal object. If this happens, the function of preventing misunderstandings cannot be exhibited, so that the protruding length of the protruding portion of the male metal piece is set to be greater than the allowable separation distance between the joint surfaces between the segments.
[0020]
According to a second aspect of the present invention, in the misunderstanding suppressing device according to the first aspect, the female metal object includes a groove member constituting the groove portion and an anchor member for fixing the groove member to the segment body. It is what.
[0021]
When the segment main body is a concrete system or a steel-concrete composite structure, an anchor member made of a deformed steel bar or the like as an anchor member can be fixed to the female metal by welding or the like, and fixed to the concrete.
[0022]
The invention according to claim 3 is the misregistration suppressing device according to claim 1 or 2, in which the male metal object fixes the rod-like or plate-like member as the protruding portion and the rod-like or plate-like member to the segment body. It is characterized by comprising this anchor member.
[0023]
Similarly, the male metal can be fixed to the concrete by an anchor member or the like. The protruding portion of the male metal is usually a rod-shaped member such as a steel rod, but may be a plate-shaped member such as a steel plate.
[0026]
According to a fourth aspect of the present invention, in the misunderstanding suppressing device according to the first to third aspects, the protruding portion is broken or deformed when a predetermined or greater shearing force is applied to the protruding portion of the male metal object. In other words, a reduced cross-sectional portion is formed.
[0027]
The invention of the present application basically suppresses the misunderstanding by resisting the shear force at the joint surface between the segments, but if the male metal receives a very large shear force for some reason, Since there is a possibility that the segment main body may be damaged, the invention according to claim 4 provides the male metal piece with a function of a shear pin by providing a cross-sectionally reduced portion in the protruding portion of the male metal piece, thereby preventing the segment main body from being damaged. That's what it meant.
[0028]
According to a fifth aspect of the present invention, in the misunderstanding suppressing device according to the first to fourth aspects, the female metal and the male metal are provided at each face side end of the segment to which the female metal and the male metal are joined, and the groove of the female metal The face side end of the ring is opened on the joint surface between the rings of the segment, and the protruding portion of the male metal can be inserted into the groove of the female metal through the opening of the joint surface between the rings.
[0029]
In assembling the segments, the side connected to the already assembled segment ring is restrained by the existing segment ring.
[0030]
Therefore, it is desirable to provide female hardware and male hardware closer to the face as an effect of preventing misunderstanding, and in particular, by opening the end of the groove of the female hardware to the joint surface between the rings, It can be slid directly into the groove from the side, and workability is improved.
[0031]
The invention according to claim 6 is the misalignment suppressing device according to any of claims 1 to 5 , wherein the pin is an axial insertion type pin comprising a male joint and a female joint fitted in the tunnel axial direction on the joint surface between the rings of the segment. A joint is provided.
[0032]
In the present invention, the structure of the inter-ring joint is not particularly limited, but if the axial insertion type pin joint as described in the section of the prior art is used, the segment is simply slid in the tunnel axial direction when the segment is assembled. Thus, it is possible to connect the segments on the joint surface between the rings and fit the male metal protrusion into the female metal groove of the misregistration suppressing device of the present invention, and the assembly of the segments is a one-pass operation.
[0033]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 schematically shows how segments 1 are assembled using the misinterpretation device of the present invention in the construction of a tunnel lining by a shield method. In this example, the segments are assembled in a staggered arrangement, but they may be potato splices.
[0034]
Fig. 1 (a) shows a state in which the next segment 1 is attached in the shield machine to the lining A that is assembled in a ring shape. Fig. 1 (b) shows the mis-suppression device part that is the main part. Show.
[0035]
2 (a) and 2 (b), in this example, the inter-ring joint surface 1b of the segment 1 is provided with a female joint 21 and a male joint 22 of an axial insertion type pin joint. The segment 1 is connected by fitting the male joint 22 into the fitting hole 21a of the female joint 21 in the tunnel axis direction.
[0036]
On the other hand, with respect to the inter-segment joint surface 1a, the female hardware 11 and the male metal 12 constituting the misregistration suppressing device of the present invention are provided at a position near the face without particularly providing a joint metal fitting.
[0037]
As shown in detail in FIGS. 2 (c), 2 (d) and 3, the female hardware 11 has a groove portion 11a extending in the tunnel axis direction on the inter-segment joint surface 1a. In the illustrated example, the face side of the groove portion 11a is provided. The end is open to the inter-ring joint surface 1b.
[0038]
Anchor members 11b (two in the illustrated example) made of deformed bar steel or the like are welded to the metal fittings constituting the groove 11a serving as the main body of the female metal 11, and are fixed in the concrete of the segment 1 main body.
[0039]
As shown in detail in FIGS. 2 (c), 2 (d) and FIG. 4, the male metal piece 12 has a rod-like protrusion 12a fitted into the groove 11a of the female metal piece 11. In this example, for example, FIG. The anchor member 12c is welded in the form as shown, and the protruding portion 12a is screwed into the insert member 12a fixed in the concrete of the segment 1 body.
[0040]
The projecting portion 12a is composed of a pin member having a male thread at one end, and is detachable from the inserter and the member 12c at the site. Further, the projecting portion 12a is formed with a cross-sectional reduced portion 13 by cutting a groove. When a very large shearing force is applied, the projecting portion 12a has a function of a shear pin so as to be broken or broken at the cross-sectional reduced portion. Yes.
[0041]
FIG. 6 schematically shows the assembly of the segment 1 and the insertion of the protruding portion 12a of the male metal 12 into the groove 11a of the female metal 11 of the misregistration suppressing device. And the male joint 22 of the segment 1 to be newly joined is fitted to the female joint 21 of the segment 1 constituting the previous segment ring 2 on the inter-ring joint surface 1b. The rod-shaped protrusion 12a of the male metal 12 of the segment 1 to be newly bonded is inserted into the groove 11a of the female metal 11 provided near the face of the inter-segment joint surface 1a of the adjacent segment 1 that is bonded.
[0042]
In this state, the protrusion 12a of the male metal object is restrained from moving in the tunnel radial direction within the groove part 11a of the female metal object 11 and resists shearing force to suppress the mistake, but the tunnel axis direction and the tunnel circumferential direction are relatively different. It is movable and allows opening between adjacent segments 1 in the circumferential direction of the tunnel. When assembling the segment 1 in the shield machine and when leaving the shield tail, force is applied to the segment 1 body. Does not work.
[0043]
In addition, when looking at the segment 1 alone, there are a case where the female hardware 11 is attached to one of the joint surfaces between the segments and a male hardware 12 is attached to the other, and a case where the female hardware 11 or the male hardware 12 is attached to both of the joint surfaces between the segments. Though conceivable and not particularly limited, for the K segment inserted at the end of the assembly of the segment ring 2, it is efficient to attach the male hardware 12 to both the inter-segment joint surfaces.
[0045]
【The invention's effect】
In the present invention, the engagement between the female metal and the male metal constituting the misregistration suppressing device is effectively suppressed in the segment joint surface, and in the groove of the female metal and in the tunnel axial direction of the protrusion of the male metal Since the relative movement in the circumferential direction of the tunnel is not constrained , an unreasonable force does not act on the segment in the state before reaching the complete system, and damage to the segment body can be prevented.
[0046]
Further, since the groove and the bar-like or plate-like protrusion are engaged with each other, the play for resisting the shearing force may be small, and the generated misalignment amount can be minimized.
[0047]
Moreover, in the invention which concerns on Claim 4 , the function of a shear pin is given by the cross-section reduction | decrease part, and when an excessive shear force acts, a male metal object bends or fractures | ruptures, and can prevent damage to a segment main body. .
[0048]
Furthermore, if an axial insertion type pin joint is used in combination as an inter-ring joint as in the invention according to claim 6 , the assembly work can be performed in one pass, and workability can be improved.
[Brief description of the drawings]
FIG. 1 schematically shows how segments are assembled using the misinterpretation device of the present invention in the construction of a tunnel lining by a shield method, (a) is a perspective view of the entire segment ring (B) is a perspective view of the misdirection suppressing device portion.
FIG. 2 is a view corresponding to FIG. 1, in which (a) is a perspective view of a single segment as viewed from the female metal side, and (b) is a view from the male metal (bar-shaped protrusion at the left end in the figure) side. (C) And (d) is a perspective view which shows the mode of insertion of the male metal object to a female metal object.
3A and 3B show details of a female metal fitting according to an embodiment of the present invention, in which FIG. 3A is a view seen from the inter-segment joint surface side, FIG. 3B is a view seen from the inter-ring joint surface side; c) is a horizontal cross-sectional view with the segment laid down.
FIG. 4 shows an example of a case where a protruding part of a male metal object is fixed to an insert member embedded in a segment in advance as a male object according to an embodiment of the present invention. The front view before attaching to (1), (b) is a partial cross-sectional view showing a state attached to the screw.
5A and 5B show examples of arrangement of anchor members with respect to the male metal insert member of FIG. 4, wherein FIG. 5A is a side view and FIG. 5B is a front view.
FIG. 6 is an explanatory diagram showing the relationship between assembling a segment and fitting a male metal object into a female metal object of the misregistration suppressing device.
[Explanation of symbols]
A ... lining,
DESCRIPTION OF SYMBOLS 1 ... Segment, 1a ... Inter-segment joint surface, 1b ... Inter-ring joint surface, 2 ... Segment ring, 11 ... Female metal, 11a ... Groove, 11b ... Anchor member, 12 ... Male metal, 12a ... Projection, 12b ... Insert member, 12c ... anchor member, 1 3 ... reduced cross section, 21 ... female joint, 21a ... fitting hole, 21b ... anchor member 22 ... male joint

Claims (6)

A misregistration suppressing device for suppressing misalignment of an inter-segment joint surface of a tunnel lining segment, wherein the female has a groove portion that opens in the inter-segment joint surface of one of the segments joined to each other and extends in the tunnel axial direction. It protrudes from the joint surface between the segments of the metal and the other segment, and is fitted in the groove of the female metal, and resists the shearing force in the tunnel radial direction, while in the tunnel axial direction and the tunnel circumferential direction in the groove of the female metal do from a male fittings that relative movement has a protruding portion which is not constrained in Ri, the projection length of the projecting portion of the male fittings is as acceptable or distance segments between the joint surfaces each other is when the assembled segments ring An apparatus for suppressing misinterpretation of segments characterized by the above.   2. The segment misregistration suppressing device according to claim 1, wherein the female metal hardware includes a groove member constituting the groove portion and an anchor member for fixing the groove member to the segment main body.   The segment eye according to claim 1 or 2, wherein the male metal object comprises a rod-like or plate-like member as the projecting portion and an anchor member for fixing the rod-like or plate-like member to the segment body. Difference suppression device. Claim 1-3, characterized in that the projection of the shearing force of more than predetermined in part out projecting the portion of the male fittings is reduced cross section for causing the breaking or deforming the projecting portion when the action is formed The segment error suppressing device according to any one of the above. The female metal part and the male metal part are provided at each face side end part of the segments to be joined to each other, and the face side end part of the groove part of the female metal part opens to the inter-ring joint surface of the segment. The device for suppressing misidentification of segments according to any one of claims 1 to 4 , wherein the protruding portion of the male metal fitting can be fitted into the groove portion of the female metal fitting from the opening of the segment. The inter-ring joint surfaces of the segments, to any one of claims 1 to 5, characterized in that axial insertion-type pin joint consisting of a male and female joints to be fitted in the tunnel axis direction is provided The device for suppressing misunderstanding of the described segment.

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