JP4259724B2 - Tunnel lining wall structure for branch pipe branching - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a tunnel lining wall structure for branch pipe branching provided to connect a branch pipe to a part of the main pipe when lining the main pipe such as a sewer pipe.
[0002]
[Prior art]
When laying a main pipe of a sewer pipe by shield construction, it is necessary to form a branch pipe branching lining wall that serves as a branch pipe connection part for allowing rainwater or the like to flow into the main pipe. The main pipe is usually subjected to primary lining with concrete segments on the tunnel excavation wall, and then a secondary lining for purposes such as forming a smooth inner surface or correcting the meandering of the primary lining. The branch port for joining the branch pipes by using a part of the main pipe as a lining wall for branch pipe branching and cutting a part of the lining wall for branch pipe branching. If it is formed, the rigidity of the lining wall for branch pipe branching decreases, and it cannot withstand surrounding earth pressure and water pressure. Therefore, conventionally, reinforcement is performed with a steel material or the like within a thickness range obtained by adding a secondary lining to the primary lining. That is, since the inner surface of the secondary lining on the branch pipe branching lining wall is a tunnel portion of the main pipe used as a sewer pipe, it is reinforced within the thickness of the entire lining.
[0003]
FIG. 15 and FIG. 16 show the reinforcement structure, and it is in the shape of an H in contact with the inner peripheral surface of the primary lining A1 across the planned branch port b of the branch pipe B to be opened to the branch pipe branching lining wall A. Ring-shaped front and rear main girders C and C made of steel are installed, and a plurality of beam members D made of H-section steel are circumferentially removed between the front and rear main girders C and C except for the planned branch port b. The front and rear end surfaces of these beam members D are fixed to the ring-shaped opposing surfaces of the front and rear main girders C and C with a predetermined interval therebetween, and this reinforcing structure provides rigidity of the entire branch pipe branching lining wall. Is raised to counter the surrounding earth pressure and water pressure.
[0004]
[Problems to be solved by the invention]
However, in recent years, in shield construction for sewer pipes, the secondary excavation has been omitted to reduce the excavation cross section by the shield excavator, and the excavation sediment volume has been reduced along with the lining area. Costs are being reduced. In this case, the secondary lining is omitted using the concrete segment, and the main pipe of the sewer pipe is constructed only by the primary lining. The steel segment is used instead of the concrete segment, and a plurality of the steel segments are connected in the circumferential direction of the tunnel to form a ring-shaped lining wall and the lining wall is connected in the tunnel length direction. Thus, a lining wall for branch pipe branching is formed.
[0005]
If a branch port for joining the branch pipes is formed by cutting out a part of the branch pipe branching lining wall, the rigidity of the entire branch pipe branching lining wall is reduced to withstand earth pressure and water pressure. Therefore, it is necessary to reinforce the lining wall for branch pipe branching with a steel material or the like. However, even if the conventional structure is used as the reinforcing structure, the ring-shaped front and rear main girders C, C and The problem that the beam member D has a structure projecting from the inner peripheral surface of the tunnel lining into the tunnel and cannot be used as a lining wall for branch branch of a main pipe of a sewer pipe made only of a partial lining. There is a point.
[0006]
The present invention has been made in view of such problems, and for branch pipe branching that can exhibit a predetermined strength by a steel segment in a part of a main pipe such as a sewer pipe constructed only by a primary lining. It is an object of the present invention to provide a structure of a tunnel lining wall for branch pipe branching which can construct a lining wall accurately and efficiently.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, a branch lining wall structure for branch pipe branching according to the present invention is as described in claim 1. It was constructed to form a branch port of a branch pipe that branches from the main pipe in a part of the main pipe constructed only by primary lining with concrete segments on the inner peripheral surface of the tunnel excavated by the shield excavator. A tunnel lining wall for branch pipe branching, A tunnel formed by adhering main girders to both front and rear edges of the skin plate, adhering joint plates between both ends of the main girders, and adhering a plurality of reinforcing ribs between opposing surfaces of the front and rear main girders. A plurality of rectangular steel segments curved in an arc shape in the circumferential direction, Make the outer circumferential surface flush with the outer circumferential surface of the main pipe. By assembling in the tunnel circumferential direction Thinner than the main A ring-shaped tunnel lining body is formed, and multiple tunnel lining bodies are formed in the tunnel length direction. Adjacent steel segment joint plates and reinforcing ribs are arranged in a straight line in the tunnel length direction. By connecting to the tunnel lining wall longer than the diameter of the planned branch port of the branch pipe Yes, and in a straight line At least one between the joint plates of the adjacent steel segments and between the reinforcing ribs By splicing plate Connected and fixed together And the main girder of the steel segment arranged so as to sandwich the planned branch port of the branch pipe is formed thicker than the main girder of the steel segment provided between these main girder, After forming the branch port of the branch pipe, on the inner peripheral surface of the tunnel lining wall other than the branch port, a short pipe-shaped steel pipe lining is constructed so as to be flush with the inner peripheral surface of the main pipe. Composing .
[0008]
[Action]
A main pipe such as a sewer pipe is constructed by assembling a concrete segment on the inner peripheral surface of a tunnel excavated by a shield excavator. A lining wall for branch pipe branching is constructed using steel segments instead of concrete segments. At this time, a ring-shaped tunnel lining body is formed by a plurality of steel segments, and this tunnel lining body is connected in the tunnel length direction, thereby making the branch pipe longer than the diameter of the planned branch port of the branch pipe. Form a tunnel lining wall for branching. When forming this lining wall, the steel segments adjacent to each other in the front and back are assembled so that the joint plates and the reinforcing ribs are arranged in a straight line in the tunnel length direction. The adjacent steel segments are integrally connected and fixed between joint plates or reinforcing ribs facing each other in the tunnel length direction, or between these joint plates and reinforcing ribs.
[0009]
In this way, when at least one of the joint plates and the reinforcing ribs of the front and rear steel segments is integrally connected and fixed, a single long beam in which a plurality of joint plates or reinforcing ribs are continuous in the tunnel length direction. The bending rigidity of the joint plate or the reinforcing rib formed in the beam shape with the main girder of the steel segment provided on both sides of the planned branch port as the fulcrum increases, and the skin plate It is possible to construct a tunnel lining wall for branch pipe branching that can sufficiently resist the earth pressure and water pressure acting.
[0010]
In this tunnel lining wall for branch pipe branching, Branch pipe By forming the main girder of the steel segment arranged so as to sandwich the planned branch port, it is thicker than the main girder of the steel segment provided between these main girders. Both ends of the joint plate or the reinforcing rib formed in a beam shape can be firmly supported by the main girder having a large thickness.
[0011]
further, Steel segment The rigidity can be further enhanced by forming the reinforcing rib provided in a T-shaped cross section in which a web portion and a flange portion having a certain width and thickness are integrally provided on the front end surface of the web portion. In addition, by forming the height of the reinforcing ribs to be approximately equal to the height of the main girders, the adjacent ribs of the steel segments can be moved over the joined main girders in the reinforcing ribs of these steel segments. A flange lining wall for branch pipe branching with excellent pressure resistance can be efficiently installed within the thickness range of the concrete segment that constitutes the main pipe, allowing the flanges to be easily and reliably fixed between the flanges. Can be built.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Next, a specific embodiment of the present invention will be described with reference to the drawings. In FIGS. 1 to 3, 1 is a main pipe 2 of a sewer pipe, and a branch port of a branch pipe 3 branched from the main pipe 2 is provided. A tunnel lining wall for branch pipe branching built in a portion to be formed (hereinafter referred to as a planned branch port 4), and a rectangular steel segment 10 curved in an arc shape in the circumferential direction of the tunnel. A ring-shaped tunnel covering body 1A is formed by assembling a plurality of pieces in the circumferential direction of the tunnel, and the tunnel covering body 1A is formed by connecting a plurality of rings and a tunnel length direction in the tunnel length direction. The lining length is formed longer than the diameter of the planned branch port 4.
[0013]
As shown in FIG. 4, the steel segment 10 has a rectangular skin plate 11 curved in the circumferential direction of the tunnel T and the front and rear edges of the arc surface facing the tunnel inside of the skin plate 11 over the entire length. The main girders 12 and 13 having a fixed height curved in a circular arc shape and standing and fixed, and the vertical and opposite side edges of the skin plate 11 standing and fixed to each other, and both ends thereof are Joint plates 14 and 15 fixed to both ends of the girders 12 and 13 respectively, and on the arc surface of the skin plate 11 between the joint plates 14 and 15, the joint plates 14 and 15 are parallel to the joint plates 14 and 15, and the arc direction is constant. It consists of a plurality of steel plate reinforcing ribs 16 which are erected and fixed at intervals, and these reinforcing ribs 16 are formed at the same height as the main girders 12 and 13 and the length direction of the tunnel is tunneled. Both ends are welded to the opposite faces of the main girders 12 and 13 in the longitudinal direction It is integrally fixed to me. The main beams 12, 13 and the joint plates 14, 15 are respectively provided with bolt insertion holes 17, 18 at regular intervals in the length direction.
[0014]
The shape of the reinforcing rib 16 may be formed from a horizontally long rectangular plate having an I-shaped cross section, but as shown in the figure, the web portion 16a fixed to the skin plate 11 and having a constant thickness and height and the web portion 16a The front end surface of the web portion 16a, that is, the projecting end surface that protrudes toward the inside of the tunnel is formed into a T-shaped cross section formed integrally with a flange portion 16b having a certain width and thickness, and faces the tunnel side. The top surface of the flange portion 16b is flush with the top surfaces of the main girders 12 and 13 and the reinforcing rib 16. Further, a plurality of bolt mounting holes 19 are provided at both ends in the length direction of the flange portion 16b of these reinforcing ribs 16, that is, at the front and rear end portions.
[0015]
Further, the joint plates 14 and 15 also have flange portions 14a and 15a each having a width that is ½ of the flange portion 16b of the reinforcing rib 16 at the front end portions thereof, integrally facing the end portions of the skin plate 11. It is fixed and formed in an L-shaped cross section, and the top surfaces of these flange portions 14a and 15a, that is, the surfaces facing the inside of the tunnel are formed flush with the front end surfaces of the main girders 12 and 13. A plurality of bolt mounting holes 20 are provided at both ends in the length direction.
[0016]
Furthermore, when the ring-shaped tunnel lining body 1A is formed by combining a plurality of steel segments in the circumferential direction of the tunnel, the steel key segment 10A to be combined last is as shown in FIGS. The arc lengths of the skin plate 11 'and the main girders 12' and 13 'are formed shorter than the skin plate 11 and the main girders 12 and 13 of the steel segment 10, and the joint plates 14' and 15 'on both sides thereof are skins. The joint plates 14 'and 15' are inclined from each other toward the front end from the plate 11A side in a direction in which the distance between them increases. Accordingly, the steel segments 10B and 10B assembled on both sides of the key segment 10A in the circumferential direction of the tunnel are the joint plates 14 and 15 to be joined to the joint plates 14 'and 15' of the key segment 10A shown in FIGS. As shown, the joint plates 14 'and 15' are inclined inward from the skin plate 11 side toward the tip at the same inclination angle.
[0017]
The flange portions 14a, 14a ', 15a, 15a' integrally provided at the tips of the joint plates 14, 14 ', 15, 15' to be joined together are connected at right angles to the joint plates. However, as shown in FIG. 9, the joint plates 14, 14 ', 15, 15 are substantially flush with the front end surfaces of the main girders 12, 12', 13, 13 '. Each may be formed in a cross-sectional shape refracted at a predetermined angle. Further, unlike the other steel segments 10, the key segment 10A has a structure in which one reinforcing rib 16 is erected and fixed only at the center of the skin plate 11 ′. Since other structures are the same as those of the steel segment 10, the same parts are denoted by the same reference numerals and description thereof is omitted.
[0018]
In order to assemble the ring-shaped tunnel lining body 1A using the steel segments 10 and 10B and the key segment 10A configured in this way, the primary segmentation of the concrete segment 2A on the tunnel wall excavated by the shield excavator In the course of constructing the main pipe 2 only by the lining, when the main pipe 2 reaches the planned branch port 4 of the branch pipe 3, a plurality of tunnel excavation walls are placed on the tunnel excavation wall following the primary lining by the concrete segment 2A. This is performed by sequentially joining and connecting the steel segments 10, 10B and the key segment 10A.
[0019]
That is, as shown in FIG. 1, first, the steel segments 10 and 10 are joined to the joint plates 14 and 15 facing each other at the lower part of the tunnel excavation wall, and the bolts provided in the joint plates 14 and 15 are inserted. As shown in FIG. 10, the holes 18 and 18 are fixed together by bolts 21 and nuts 22 so as to be integrally connected in the circumferential direction of the tunnel, and then the steel segments 10 and 10 are connected to the steel segments 10 and 10. In the same manner as described above, the opposing joint plates 14 and 15 are joined and connected together by bolts 21 and nuts 22, and the steel segments 10B and 10B are connected in the circumferential direction of the tunnel, and finally the key segment 10A is connected. By connecting the joint plates 14, 14 ', 15, 15' inserted between these steel segments 10B, 10B and joined together with bolts 21 and nuts 22 as shown in FIG. Form.
[0020]
After the formation of the tunnel covering body 1A for one ring, the next tunnel covering body 1A is again formed adjacent to the tunnel covering body 1A in the same manner. The tunnel covering bodies 1A and 1A are integrally connected by fixing between the provided bolt insertion holes 17 and 17 with bolts and nuts (not shown). At this time, the steel segments 10 and 10 connected adjacent to each other in the front and rear of the tunnel lining bodies 1A and 1A are arranged in the tunnel length direction as shown in FIG. The joint plates 14 and 15 and the reinforcing ribs 16 are connected in a so-called spliced state in which the joint plates 14 and 15 and the reinforcing ribs 16 are arranged in a straight line in the tunnel length direction. In the same manner, a tunnel lining wall 1 for branch pipe branching longer than the diameter of the planned branch port 4 of the branch pipe 3 is constructed by sequentially connecting a plurality of tunnel lining bodies 1A in the tunnel length direction. It is.
[0021]
Further, when constructing the tunnel lining wall 1 for branch pipe branching, the joint plates 14 and 15 of one steel segment 10 facing each other in a straight line in the steel segments 10 and 10 connected to the front and rear are connected to the other. The ends of the joint plates 14 and 15 of the steel segment 10 and the opposing ends of the reinforcing ribs 16 are integrally connected and fixed. As the fixing means, as shown in FIGS. 11 and 12, the end portion of the reinforcing ribs 16 and 16 having a width substantially equal to the width of the flange portion 16b of the reinforcing rib 16 and the length facing each other can be appropriately coated. A rectangular attachment plate 5 having a long length is used. As shown in FIGS. 8, 10, and 13, the attachment plate matches a plurality of bolt mounting holes 19, 20 provided in the flange portions 14 a, 15 a, 16 b of the joint plates 14, 15 and the reinforcing rib 16. A plurality of bolt mounting holes 6 are provided.
[0022]
A main girder 12 in which the front and rear steel segments 10 and 10 are joined to each other between the ends of the reinforcing ribs 16 and 16 in the steel segments 10 and 10 adjacent to each other in the tunnel length direction. The front and rear reinforcing ribs are formed by inserting bolts 21 through the bolt mounting holes 6 and the bolt mounting holes 19 provided in the reinforcing ribs 16, 16 and screwing the nuts 22. Connect 16 and 16 together. At this time, since the heights of the front and rear main girders 12 and 13 of the steel segment 10 and the flange portion 16b of the reinforcing rib 16 are made equal, the connecting plate 5 is moved from the front end surface of the main girders 12 and 13 to the front and rear reinforcing ribs. The reinforcing ribs 16 and 16 of the steel segments 10 and 10 adjacent to each other before and after being separated by the main beams 12 and 13 can be brought into contact with each other over the flange portions 16b and 16b of the 16 and 16 parts. The plates 5 are connected and integrated into one long beam.
[0023]
Further, the end portions of the reinforcing ribs 16 and 16 that are opposed to each other in a straight line in the key segments 10A and 10A and the steel segments 10B and 10B that are adjacent to each other in the front-rear direction are integrally connected by the attachment plate 5. Similarly, the joint plates 14, 14 ′, 15, 15 ′ in the adjacent steel segments 10, 10 B and the key segment 10 A are integrally connected by the attachment plate 5. The coupling plates are coupled and fixed together by the attachment plate 5 between the opposing end portions of the coupling plates at the corners of the four segments adjacent to each other in the tunnel circumferential direction and the length direction.
[0024]
That is, the both sides of the front half of the attachment plate 5 are brought into contact with the flanges of the joint plates joined to each other of the steel segments adjacent to each other in the tunnel length direction, and the both sides of the latter half of the attachment plate 5 are The front and rear steel segments adjacent to each other in the circumferential direction of the steel segment are brought into contact with the flange portions of the joint plates joined to each other, so that the bolt mounting holes 20 provided in the flange portions and the bolt mounting holes 6 of the attachment plate 5 are provided. By connecting between them with bolts 21 and nuts 22, adjacent joint plates 14, 14 ′, 15, 15 ′ are connected and integrated into one long beam.
[0025]
In addition, although the connection of the reinforcing ribs and the connection of the joint plates in the steel segments adjacent to each other by the attachment plate 5 may be performed on at least one of them, in this case, the number is large. It is desirable to connect and integrate the reinforcing ribs. Further, the connecting work between the reinforcing ribs of the steel segments adjacent to each other by the attachment plate 5 and between the joint plates is performed by using the tunnel lining wall 1 for branch pipe branching longer than the diameter of the planned branch port 4 of the branch pipe 3. It may be performed after the construction, or each time the tunnel lining body 1A for one ring is formed, the tunnel lining body 1A and the tunnel lining body 1A previously formed may be sequentially performed. .
[0026]
Further, the total length of one beam-like member formed by sequentially connecting the reinforcing ribs 16 and 16 in a straight line shape in the tunnel length direction by the attachment plate 5 is the length of the planned branch port 4 of the branch pipe 3. Steel segments (including key segments) 10, 10A, 10B that are longer than the diameter and project outside the ends of the beam-like member, that is, outside the planned branch port 4 (front and rear in the tunnel length direction) The end portions of the reinforcing ribs 16, 16 of the steel pipe are arranged so as to sandwich the planned branch port 4 of the branch pipe 3 from the front and rear, and the main girders 12 ′, 13 of these steel segments connected in a ring shape in the circumferential direction of the tunnel. The main girders 12 'and 13' are integrally fixed to the main girders 12, 13 of other steel segments arranged between these main girders 12, 13 as shown in FIG. It is formed thicker than.
[0027]
Therefore, both ends of the above-mentioned beam-like member constituted by a plurality of reinforcing ribs 16 connected in the tunnel length direction are arranged so as to sandwich the planned branch port 4 of the branch pipe 3 from the front and rear with a space in the front and rear. Reinforcing ribs 16 and 16 which are firmly supported by the thick main girders 12 'and 13' connected in a ring shape of the steel segments and which are connected in the longitudinal direction constituting the beam-like member Since the opposing end portions of the two are integrally connected by the attachment plate 5, the beam-like member exerts a large bending resistance over the entire length to reliably support earth pressure and water pressure acting on the skin plate 11. It is something that can be done. That is, since the reinforcing rib 16 is formed in a T-shaped cross section, the bending plate 5 exhibits a large bending rigidity, and the connecting plate 5 that connects and integrates the reinforcing ribs 16 and 16 exhibits a large tensile strength and has a skin. A tunnel lining wall 1 for branch pipe branching that can sufficiently resist the earth pressure and water pressure acting on the plate can be constructed.
[0028]
The main pipe 2 provided with a tunnel lining wall 1 for branch pipe branching at a predetermined site is provided on the excavation wall surface of the tunnel excavated by the shield excavator. FIG. Is formed by assembling a tortoiseshell-shaped concrete segment 2A, and the connecting portion between the main pipe 2 and the above-mentioned branch pipe branching tunnel lining wall 1 is provided with a flange as a reinforcing rib between main girders. There is a tunnel lining body 1B formed by combining ordinary steel segments 7 not provided with a ring in a ring shape. The front and rear end faces of this tunnel lining body 1B are connected to a tunnel lining wall 1 for branch pipe branching. It is integrally connected and fixed to the end surface facing the tube 2. The tunnel lining bodies 1A, 1B made of steel segments are formed thinner than the main pipe 2, and the main pipe 2 and the outer peripheral surface thereof are made to be flush with each other.
[0029]
The branch pipe 3 is propelled and buried in the ground by a propulsion method from the ground or from the inside of the shaft toward the tunnel lining wall 1 for branch pipe branching, and a blade 8 (shown in FIG. 1) attached to the tip thereof. When the tunnel lining wall 1 for branch pipe branching is reached while excavating the ground, the part of the tunnel lining wall 1 for branch pipe branching facing the opening end face of the branch pipe 3, that is, the planned branch port 4 is tunneled. A sewer pipe is formed by branching the branch pipe 3 from the main pipe 2 by cutting the inside with a gas burner or the like to open the branch port 4A, and connecting and communicating the tip of the branch pipe 2 to the branch port 4A. Is.
[0030]
Even if the branch port 4A is opened in the tunnel lining wall 1 for branch pipe branching, the wall portion other than the branch port 4A is formed in a ring shape with the branch port 4A interposed therebetween as described above. Both ends of the main girders 12 and 13 are integrally connected and fixed, and the opposite end is integrally connected and fixed by the attachment plate 5 to maintain a lining wall that can withstand earth pressure and water pressure. be able to. In addition, before the branch pipe 3 reaches the tunnel lining wall 1 for branch pipe branching, a chemical solution or the like is previously injected into the ground of the planned branch port 4 portion to perform a water stop treatment.
[0031]
After forming the branch port 4A in which the branch pipe 3 communicates with the branch pipe branching tunnel lining wall 1 in this way, on the inner peripheral side of the branch pipe branching tunnel lining wall 1 other than the branch port 4A, FIG. As shown, a short pipe-shaped steel pipe lining 8 is incorporated so as to be flush with the inner peripheral surface of the main pipe 2. The steel pipe lining 8 has an inner diameter that is the same as the inner diameter of the main pipe 2, and the steel segments 10, 10 </ b> A whose tips constitute the tunnel lining wall 1 for branch pipe branching at a plurality of locations on the outer peripheral surface. The connecting member 8a has a length that reaches the inner surface of the skin plate 11 of 10B, and is constructed by fixing the tip of the connecting member 8a to the inner surface of the skin plate 11 by welding.
[0032]
In addition, this steel pipe lined 8 is divided into a plurality of parts in the length direction in advance, and a plurality of divided lining parts from which portions corresponding to the above-mentioned branch openings 4A are cut are assembled to each other while assembling the welded end faces. A tunnel lining wall 1 for branch pipe branching is formed by forming an opening having the same size as that of 4A and communicating with the branch opening 4A in a state of being opposed to the branch opening 4A. A continuous steel pipe lining 8 is formed on the inner peripheral surface of the main pipe 2 by being assembled while being integrally connected to each other by welding so as to face the front and rear portions of the inner peripheral surface.
[0033]
After the construction of the steel pipe lining 8, the branch port is formed in the space between the inner surface of the skin plate 10 of the steel segment constituting the tunnel lining wall 1 for branch pipe branching and the outer peripheral surface of the steel pipe lining 8. Filling and solidifying the mortar 9 leaving the space between 4A and the opening, a tunnel lining wall is formed in which the branch port 4A communicates with the inside of the main pipe 2, and further, on the inner peripheral surface of the steel pipe lining 8 Anti-corrosion and wear-resistant layers are formed by spraying polyurea resin. Thus, the main pipe 2 is constituted only by the primary lining by the concrete segment 2a, and the portions where the branch pipe 2 is branched and merged are the steel segment as the primary lining and the steel pipe lining 8 as the secondary lining. And mortar 9 and a spray layer of polyurea resin.
[0034]
【The invention's effect】
As described above, according to the tunnel lining wall structure for branch pipe branching of the present invention, It was constructed to form a branch port of a branch pipe branched from the main pipe in a part of the main pipe constructed only by primary lining with a concrete segment on the inner peripheral surface of the tunnel excavated by the shield excavator. A tunnel lining wall for branch pipe branching, A tunnel for branch pipe branching longer than the diameter of the planned branch port of the branch pipe is formed by forming a ring-shaped tunnel cover body by a plurality of steel segments and connecting the tunnel cover body in the tunnel length direction. When forming the lining wall, the steel segments adjacent to each other in the front and rear are assembled so that the joint plates and the reinforcing ribs are arranged in a straight line in the tunnel length direction, and opposed to the tunnel length direction. Since it has a structure in which adjacent steel segment joint plates or reinforcement ribs, or between these joint plates and reinforcement ribs, are connected and secured together, a plurality of joint plates or reinforcement ribs are provided for the tunnel length. It becomes a long beam-like structure continuous in the vertical direction, and the bending rigidity with the main girder of the steel segment provided on both sides of the planned branch port as a fulcrum is remarkably increased. A tunnel lining wall for branch pipe branching that can sufficiently resist the earth pressure and water pressure acting on the skin plate can be constructed accurately and efficiently within the thickness of the main pipe such as a sewer pipe constructed only by Is.
[0035]
In addition, the above Since the main girder of the steel segment arranged so as to sandwich the planned branch port of the branch pipe is formed thicker than the main girder of the steel segment provided between these main girder, The both ends of the joint plate or the reinforcing rib formed in the shape of one beam can be firmly supported by the main girder of the wall thickness, and a strong tunnel lining wall for branch pipe branching is formed. Can do.
[0036]
Also in the steel segment The reinforcing rib provided is formed into a T-shaped cross section in which a web portion and a flange portion having a certain width and thickness are integrally provided on the front end surface of the web portion. By putting on The rigidity can be further increased, and the height of the reinforcing rib is formed to be approximately equal to the height of the main girder. By leaving The concrete that constitutes the main pipe can be easily and surely secured between the flange portions of the reinforcing ribs of these steel segments by connecting the main girders of the adjacent steel segments by means of the attachment plate. Within the thickness range of the manufactured segment, the tunnel lining wall for branch pipe branching excellent in pressure resistance can be efficiently built.
[Brief description of the drawings]
FIG. 1 is a simplified longitudinal front view of a tunnel lining wall for branch pipe branching,
FIG. 2 is a partially cutaway simplified side view thereof,
FIG. 3 is a simplified plan view showing a connection state between a main pipe, a tunnel lining wall for branch pipe branching, and a branch pipe;
FIG. 4 is a perspective view of a steel segment,
FIG. 5 is a longitudinal front view of a key segment,
FIG. 6 is a bottom view thereof.
FIG. 7 is a longitudinal side view of a steel segment,
FIG. 8 is an enlarged vertical front view of a connecting portion between a key segment and a steel segment,
FIG. 9 is an enlarged longitudinal front view showing another structure,
FIG. 10 is an enlarged longitudinal front view of a connecting portion between steel segments,
FIG. 11 is a simplified plan view of steel segments connected in a circumferential direction and a length direction;
FIG. 12 is a longitudinal front view thereof,
FIG. 13 is an enlarged longitudinal front view of a part of the same,
FIG. 14 is a longitudinal side view showing a state in which a steel pipe lining is constructed inside a tunnel lining wall for branch pipe branching,
FIG. 15 is a simplified longitudinal front view showing a conventional example,
FIG. 16 is a simplified vertical sectional side view thereof.
[Explanation of symbols]
1 Tunnel lining wall for branch pipe branching
2 main
3 Branch pipe
4 Plan branch
5 Attachment plate
10 Steel segment
11 Skin plate
12, 13 Main digits
14, 15 Fitting plate
16 Reinforcement rib
16a Flange

Claims (1)

It was constructed to form a branch port of a branch pipe branched from the main pipe in a part of the main pipe constructed only by primary lining with a concrete segment on the inner peripheral surface of the tunnel excavated by the shield excavator. A tunnel lining wall for branch pipe branching, in which a main girder is fixed to both front and rear edges of the skin plate, and a joint plate is fixed between both ends of the main girder, and a plurality of pipes are provided between opposing surfaces of the front and rear main girder. A plurality of rectangular steel segments curved in a circular arc shape in the circumferential direction of the tunnel formed by fixing the reinforcing ribs, and the outer peripheral surface is made to be continuous with the outer peripheral surface of the main pipe. forms a ring-shaped tunnel lining body thinner than the main pipe by assembling the tunnel circumferentially Te, multiple rings the tunnel lining member, the joint plate and reinforcing ribs of the steel segment adjacent to the tunnel longitudinal direction Yes formed in long tunnel lining wall than the diameter of the planning branch port of the branch pipe by coupling in the state arranged in a straight line in the tunnel longitudinal direction, further, the steel segment adjacent arranged in a straight line At least one of the joint plates and the reinforcing ribs is integrally connected and fixed by an attachment plate, and the main girders of the steel segments arranged so as to sandwich the planned branch port of the branch pipe are connected to these It is formed thicker than the main girders of the steel segments provided between the main girders. After the branch port branch port is formed, the main pipe is formed on the inner peripheral surface of the tunnel lining wall other than the branch port. A tunnel lining wall structure for branch pipe branching, characterized in that a short pipe-shaped steel pipe lining is constructed so as to be flush with the inner peripheral surface of the pipe .

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