KR102106573B1 - The tunnel structure using corrugated multi plate and the construction method using the same - Google Patents

Abstract

The present invention relates to a tunnel structure using a corrugated steel plate and a construction method thereof, and more particularly, to a tunnel structure using a corrugated steel plate and a construction method thereof that can prevent deformation of the corrugated steel plate structure during and after construction.
The tunnel structure and its construction method using the corrugated steel plate of the present invention prevent deformation of the arched structure by the first reinforcement means during construction, and the first reinforcement means is removed by the second reinforcement means even after the construction is completed and the first reinforcement means is removed. Alternatively, since the supporting force is provided along the extension line in the longitudinal direction of the second rope member, deformation due to earth pressure can be continuously prevented, thereby maintaining the load bearing capacity.

Description

The tunnel structure using corrugated multi plate and the construction method using the same}

The present invention relates to a tunnel structure using a corrugated steel plate and a construction method thereof, and more particularly, to a tunnel structure using a corrugated steel plate and a construction method thereof that can prevent deformation of the corrugated steel plate structure during and after construction.

In general, when manufacturing an arched bridge, tunnel, waterway culvert, etc., which is not under relatively large load, using a concrete structure, a lot of work is required, such as formwork, reinforcement, and concrete pouring, and the construction period is lengthened. In view of this, the concrete pouring method was excluded in the field, and a lining construction method and a bridge plate construction method using a corrugated steel plate were proposed.

Korean Patent Publication No. 2004-034292 discloses a tunnel structure in which a corrugated steel plate is constructed by a double construction method as an example of a bridge plate construction method.

The disclosed tunnel structure discloses a structure in which an arcuate corrugated steel plate structure using a corrugated steel plate is installed in connection with a basic concrete structure, a top portion is filled, and an inner surface is retained.

In addition, Patent No. 0407760 discloses a method for constructing a culvert culvert using corrugated steel and its structure. This culvert construction method includes the step of constructing the foundation of the retaining wall, the step of constructing the foundation surface of the reinforced concrete, and the step of constructing the reinforced concrete structure at a predetermined height from the base surface to raise the inside by treating the side with the retaining wall, and the upper surface of the wall structure. Assembled corrugated steel plate with corrugated steel plate with corrugated galvanized steel plate in semi-circular shape, assembling and constructing corrugated steel plate, making reinforced concrete wing wall construction at the entrance and exit of corrugated steel plate structure, and corrugated steel plate upper surface. A step of backfilling with soil is provided.

In addition, Utility Model No. 0296004 discloses a multi-corrugated steel pipe structure bridge. The disclosed bridge is constructed by assembling a plurality of corrugated steel plates, constructing a plurality of semi-cylindrical corrugated steel plate structures with an open bottom at regular intervals at the bottom of a stream, compacting the soil on the plurality of corrugated steel plate structures, and roading on the soil. It has a packaged structure.

In the embodiment as described above, if both sides of the structure are not covered so that the both sides of the structure simultaneously receive a uniform earth pressure in the process of backfilling the soil made of an arcuate structure using a corrugated steel sheet, the structure is deformed due to the unevenness of the earth pressure There is this.

In particular, in the case of an arcuate structure, the structure can increase the structural strength when subjected to uniform earth pressure at each site, but when the structure is distorted as described above, the strength of the structure is relatively weakened.

In addition, the work is cumbersome and requires a lot of labor to cover the structure made of corrugated steel sheets to receive a uniform earth pressure.

In Korean Patent Registration No. 10-0641355, concrete partition walls are installed at both ends of the corrugated steel plate tunnel structure to prevent deformation by external pressure, and the partition walls on both sides are interconnected by using wires and turnbuckles, but perpendicular to the corrugated steel plates between the partition walls. The external pressure transmitted in the direction has a weak point.

Republic of Korea Patent Registration No. 10-0641355: Construction method of corrugated steel plate structure

The present invention is to provide a tunnel structure using a corrugated steel plate and a construction method of the corrugated steel plate that can improve the constructability of the cover work for backfilling and maintain the structural strength of the corrugated steel tunnel structure after completion of the construction in order to solve the above problems. do.

Tunnel structure construction method using the corrugated steel sheet of the present invention for achieving the above object is a basic trenching construction step; A base surface construction step of constructing a base surface having bases in the region where the foundation trench is completed; A corrugated steel sheet assembling step of assembling corrugated steel sheets from each base into an arcuate structure; In order to prevent deformation by external pressure inside the arched structure, a plurality of reinforcing channels extending in the longitudinal direction of the arched structure are installed at equal intervals in the circumferential direction on the outer circumferential surface of the arched structure. At least one reinforcing channel is connected to a first rope member, and at least one other reinforcing channel is connected to at least one other reinforcing channel as a second rope member, and turnbuckles installed on each of the first or second rope members are connected. A first reinforcement means installation step of adjusting the tensile force of each of the first or second rope members using; And a backfilling step of backfilling the soil on the side and upper sides of the arched structure, wherein the backfilling step has a supporting force parallel to the lengthwise direction of the first or second rope member on the outside of the arched structure when filling the backend. And a second reinforcement means installation step of installing the provided second reinforcement means.

The second reinforcing means installation step is a band connecting step of connecting one side of the band to the first ring formed on the other side corresponding to one side of the reinforcing channel connected to the first or second rope member, and after the band is connected, A band spreading step of spreading the band so that the other side of the band is farther away from the arched structure into the backfilled earth and sand so that a force supporting the reinforcing channel can be generated along the lengthwise extension of the first or second rope member. It is preferred to include.

Preferably, the second reinforcement means installation step further comprises a band fixing step of fixing the end of the band to a support block installed in a soil filled with a back side spaced apart from the arched structure.

On the other hand, the tunnel structure using a corrugated steel sheet of the present invention for achieving the above object is an arcuate structure consisting of a plurality of corrugated steel plates are assembled; Bases provided with support channels for supporting corrugated steel sheets at the bottom of the arched structure in the longitudinal direction of the arched structure; It is installed on the arch-shaped structure, the first and second reinforcing means to prevent the arch-shaped structure from being deformed by external pressure; and, the first reinforcing means is installed in the longitudinal direction on the outer circumferential surface of the arched structure and the arched structure A plurality of reinforcing channels spaced apart at equal intervals in the circumferential direction along the outer circumferential surface of the first and first rope members connecting the base and the at least one reinforcing channel, and at least one other reinforcing channel for the one of the reinforcing channels A second rope member for connecting, and a turnbuckle installed on each of the first and second rope members to adjust the tensile force of the first and second rope members, the second reinforcing means connected to the reinforcing channel A first ring portion formed in the outer direction of the reinforcing channel corresponding to the first rope member or the second rope member, and fixed to the first ring portion and upper A band extending in a direction away from the arcuate structure and providing a force for supporting the reinforcing channel along a lengthwise extension of the first or second rope member, and a band extending in a direction away from the arcuate structure It characterized in that it has a support block for fixing the end.

The band penetrates the first ring portion so that the center side is supported on the first ring portion, and both ends are far from the arched structure such that both ends are spaced at the same distance from the extension line in the longitudinal direction of the first or second rope members. The second reinforcing means is formed to have a hollow inside so that both sides of the band extending from the first ring part penetrate together, and the central side of the band can be fixed to the first ring part. It is further provided with an auxiliary fixing member that is pressed toward the first ring portion by both sides of the band that are spaced apart at the same distance from the extension line in the longitudinal direction of the first or second rope member.

The tunnel structure and its construction method using the corrugated steel plate of the present invention prevent deformation of the arched structure by the first reinforcement means during construction, and the first reinforcement means is removed by the second reinforcement means even after the construction is completed and the first reinforcement means is removed. Alternatively, since the supporting force is provided along the extension line in the longitudinal direction of the second rope member, deformation due to earth pressure can be continuously prevented, thereby maintaining the load bearing capacity.

1 is a partial perspective view of a tunnel structure using a corrugated steel sheet according to a first embodiment of the present invention,
Figure 2 is a front view of the tunnel structure using the corrugated steel sheet of Figure 1,
Figure 3 is a partial perspective view of the second reinforcing means of Figure 1,
4 is a block diagram of a construction method of a tunnel structure using the corrugated steel sheet of FIG. 1.
5 is a partial perspective view of the second reinforcing means of the corrugated steel plate tunnel structure according to the second embodiment of the present invention.

Hereinafter, a tunnel structure using a corrugated steel sheet and a construction method thereof will be described in more detail with reference to the accompanying drawings.

1 to 3 show a tunnel structure 1 using a corrugated steel sheet according to a first embodiment of the present invention. Tunnel structure (1) using corrugated steel sheet according to the first embodiment of the present invention can be applied to bridges, tunnels, underground tunnels, culvert passages, etc., and bases (11,12) extending side by side, It is supported on the support channels (13, 14) installed on the top of the (11, 12), respectively, and is provided in an arcuate structure (20) formed by assembling a plurality of corrugated steel plates (21), and an arcuate structure (20), arched by external pressure. The structure 20 is provided with first and second reinforcing means to prevent the deformation.

The plurality of corrugated steel plates 21 are interconnected by high tension bolts, each having a structure bent at a predetermined curvature depending on the shape of the arcuate structure 20. The corrugated steel plates 21 constituting the arcuate structure 20 have a corrugated shape, but are not limited thereto, and may be formed in various forms according to structural strength and characteristics of the structure.

The first reinforcing means is to be installed and removed after the completion of the construction of the tunnel structure (1) using the corrugated steel plate, and the arch structure 20 is formed by the earth pressure covering the arched structure 20 during the construction of the tunnel structure (1) using the corrugated steel plate. Prevents deformation.

The first reinforcing means extends in the longitudinal direction of the arched structure 20 on the outside of the arched structure 20, that is, on the side covered by the soil 100, and is spaced apart at equal intervals in the circumferential direction of the arched structure 20 A plurality of reinforcing channels 31, a first rope member 33 connecting the bases 11 and 12 and at least one reinforcing channel, one reinforcing channel 31 and at least one other reinforcing channel 31 A second rope member 35 for connecting, and a turnbuckle 37 installed in each of the first and second rope members 33, 35 to adjust the tensile force of the first and second rope members 33, 35 It is provided.

The reinforcing channel 31 is mounted on the outer circumferential surface of the arcuate structure so that the open side faces upward, and a first ring portion 51 is formed in which the band 53 of the second reinforcing means, which will be described later, is bound.

The reinforcing channel 31 is provided by a nut (not shown) coupled to an end of a bolt extending through the arcuate structure 20 and the reinforcing channel 31 and the end of the bolt extending into the tunnel space S of the arched structure. It is fixed to the arched structure (20).

Then, the first reinforcing means is a tunnel space (S) of the arched structure 20, as shown in Figures 2 and 3 to connect the interpolation channel 31 and the first and second rope members (33,35) ) The second and second hooks 28 for connection with the first and second rope members 33 and 35 are provided on the side.

The second ring portion 28 is located on the side of the tunnel space S, and the ring body portion 28a having a ring formed therethrough, penetrates the corrugated steel plate 21 at the ring body portion 28a, and is in contact with the arched structure 20. It is provided with a ring fixing coupling portion 28b penetrating through the reinforcing channel 31 and engaging the nut 43.

Unlike the illustrated one, the first and second rope members 33 and 35 connected to the interpolation channel 31 may be applied to be connected to a bolt 41 coupling the arched structure 20 and the reinforcement channel 31. will be.

Referring to FIG. 2, the plurality of reinforcing channels 31 are the same for the upper reinforcing channel 31a installed at the top of the arched structure 20 and the upper reinforcing channel 31a to the left and right of the upper reinforcing channel 31a. It can be divided into left and right reinforcement channels (31b, 31c) spaced apart.

The left and right reinforcing channels 31b and 31c are supported on the auxiliary frame 29 such that each side facing the upper reinforcing channel 31a is spaced apart from the outer circumferential surface of the arched structure 20 so that each first hook portion 51 is made. It is preferable that the one rope member 33 is installed to be parallel to the extension line.

The auxiliary frame 29 extends in the longitudinal direction of the arcuate structure 20 and is formed to have a triangular cross-section in which the cross-sectional width decreases from one side to the other in the direction orthogonal to the longitudinal direction. The surface in contact with the reinforcing channel 31 of the auxiliary frame 29 is formed in a plane, and the surface in contact with the outer circumferential surface of the arcuate structure 20 of the auxiliary frame 29 is a curved surface corresponding to the arc curvature of the arcuate structure 20. Is formed.

However, unlike the illustrated one, the left and right reinforcing channels 31b and 31c without the auxiliary frame 29 may be installed directly in contact with the arcuate structure 20.

The second reinforcing means supports the arched structure 20 so that the load of the earth pressure applied to the arched structure 20 is uniformly distributed even when the first reinforcing means is removed after completion of the construction of the tunnel structure using the corrugated steel plate. It is provided with one ring portion 51, a band 53, a plurality of support blocks 55, and a top plate block 58.

The first hook portion 51 is formed on the other side of the reinforcing channel 31 corresponding to the first rope member or the second rope members 33 and 35 connected to one side of the reinforcing channel 31. Referring to FIG. , Protruding upward from the bottom of the interior space opened upward. The first ring portion 51 is spaced apart in the longitudinal direction of the reinforcing channel 31 is formed in a number.

The band 53 is a first or second rope member (33, 35) to provide a force to support the reinforcing channel 31 in the longitudinal extension of the longitudinal direction, fixed to the first hook portion 51 and arched structure It extends in a direction away from (20). The band 53 is formed of a bendable material, and a metal material or a high-strength synthetic resin may be applied to provide support to the arched structure.

Referring to FIG. 3, the band 53 penetrates the first ring portion 51 so that the center side is supported by the first ring portion 51, and both ends thereof have lengths of the first or second rope members 33 and 35. It extends away from the arched structure to be spaced at the same distance from the extension line parallel to the direction. Alternatively, the band 53 may be applied so that one side is bound to the first hook portion 51 and the other side extends in the lengthwise direction of the first or second rope members 33 and 35, unlike the illustrated one.

The support blocks 55 are installed in the earth and sand covering the arched structures to fix the ends of the bands 53 extending in a direction away from the arched structures 20, respectively.

The plurality of support blocks 55 are fixed to the first hook portion 51 and connected to both ends of the band 53 extending in a direction away from the arched structure 20, respectively, the first or second rope member It is preferable to be installed at a position spaced apart from the same distance with respect to the extension lines (a, b) parallel to the longitudinal direction of (33,35).

The support block 55 is formed in the direction of the arcuate structure 20 on the side of the weight body 56 and the weight body 56, the diameter of which extends toward the bottom so that it can be stably positioned in the soil and the band 53 It is provided with a third ring portion 57 that is connected to.

The top plate block 58 is a plate shape installed on the upper side of the soil to be positioned above the arched structure 20 and extends in the longitudinal direction of the arched structure and is horizontally embedded in the soil. The upper plate block 58 is formed with a fourth ring portion 59 that fixes an end portion of the band 53 extending upwardly with respect to the arcuate structure 20.

It is preferable that a hook (not shown) is applied to the end of the band 53 connected to the third ring portion 57 or the fourth ring portion 59 to facilitate binding.

The tunnel structure using the corrugated steel sheet according to the first embodiment of the present invention maintains a large load bearing capacity even after construction since it has a load with uniform distribution at each site against the earth pressure even if the first reinforcing means is removed by the second reinforcing means. You can.

The construction method of the tunnel structure using the corrugated steel sheet according to the first embodiment of the present invention having the above structure is described with reference to FIG. 4, the terpa for excavation for the basic construction at the place where the tunnel structure using the corrugated steel sheet will be installed. A construction phase (S1); A base surface construction step (S2) of constructing a base surface having bases 11 and 12 parallel to each other by connecting a concrete steel structure to a region where the foundation trench is completed; A corrugated steel plate assembly step (S3) of assembling a plurality of corrugated steel plates 21 from each base 12 to form an arched structure 20 when the construction of the base surface having the base 11 and 12 is completed; The first reinforcement means installation step (S4) of installing the first reinforcement means 30 to prevent the arched structure 20 from being deformed by external pressure applied to the arched structure is performed.

In the base surface construction step (S2), a channel (13) (14) for supporting the corrugated steel plates (21) at the bottom of the structure in the longitudinal direction is installed at the top of the base (11) (12). ) 14 may be supported by an anchor bolt on the base 11, 12, which is a concrete structure, or may be embedded in the base 11, 12. Base (11) (12) for supporting the corrugated steel plates (21) of the lowermost portion of the arched structure (20) is not limited by the above-described embodiment, any structure that can support the end of the arched structure (20) is possible It can have one structure.

The first reinforcement means installation step (S4) is a corrugated steel plate assembling step (S3) or the assembly of the corrugated steel plate (21), the arched structure 20 is completed, the structural strength of the arched structure 20 against external pressure It is a step of installing the first reinforcement means 30 to improve.

The first reinforcement means installation step (S4) is a reinforcement channel installation step of installing the reinforcement channels 31 in the longitudinal direction on the outer circumferential surface of the corrugated steel plate structure 20, and the base 11 and 12 of the corrugated steel plate structure 20 And a first rope member installation step of connecting the at least one reinforcing channel 31 to the first rope member 33, and removing at least one other reinforcing channel 31 for one reinforcing channel 31 Each of the second rope members 33 using the second rope member installation step connected to the two rope members 35 and the turnbuckles 37 and 38 installed on the first and second rope members 33 and 35, respectively. ) 35 includes a tension adjustment step for adjusting the tensile force.

The step of installing the reinforcing channel is a step of installing a plurality of reinforcing channels 31 parallel to the longitudinal direction of the arcuate structure 20 and spaced at the same distance in the circumferential direction at the same interval on the outer circumferential surface.

The reinforcing channel 31 is installed in the longitudinal direction of the arched structure 20, and the uniform tensile force of the first and second rope members is applied to each corrugated steel plate 21 in the direction in which the reinforcing channel 31 is installed. The reinforcing channel 31 may be provided with a second hook portion 28 or a hook penetrating the corrugated steel plate to connect the ends of the first and second rope members 33 and 35.

In the first reinforcing means installation step, before the installation step of the reinforcing channel, one surface of the auxiliary frame 29 having a right-angled triangular cross section at a position spaced apart at the same distance in the direction perpendicular to the longitudinal direction from the top of the arched structure 20 is donated (13 , 14) may include an auxiliary frame installation step installed in the arched structure 20 orthogonally to the extension line (a) extending from the second ring portion 28. In addition, the installation step of the reinforcement channel includes a first reinforcement channel installation step of fixing the reinforcement channel 31 to the auxiliary frame 29 and a second reinforcement channel installation step of installing the reinforcement channel on the top of the outer circumferential surface of the arched structure 20. It can contain.

When the first reinforcing means installation step (S4) is completed, a backfilling step (S5) is performed to refill the soil on the sides and top of the arched structure 20.

The backfilling construction is preferably such that the earth and sand are backfilled and compacted on both sides of the arched structure 20 to prevent settlement or uneven sedimentation after construction.

Backfilling step (S5) is a second reinforcing means for installing a second reinforcing means for providing support force in the longitudinal direction of the first or second rope members 33 and 35 on the outside of the arched structure 20 when filling the back of the soil. Includes installation steps.

The second reinforcement means installation step (S6) includes a band connecting step (S7) and a band spreading step (S8).

The band connecting step (S7) is a band 53 on the first hook portion 51 formed on the other side corresponding to one side of the reinforcing channel 31 connected to the first or second rope members 33 and 35 before filling the soil. It is a step to connect one side of.

The band spreading step (S8) is performed in parallel while filling the earth and sand, and after the band 53 is connected to the first ring 51, the first or second rope member 33, 35 extends in the longitudinal direction. The step of expanding the band 53 so that the end of the band 53 is farther away from the arched structure 20 into the backfilled soil so that the force supporting the reinforcement channel 31 and the arched structure 20 can be generated. . That is, when the band is buried in the soil, the tosa is filled while the band is pulled so that the unfolded state is maintained.

The second reinforcing means installation step (S6) may further include a band fixing step (S9) of fixing the ends of the bands 53 extended in a direction away from the arched structure 20.

Band fixing step (S9) is a third ring portion 57 of the support block 55 spaced laterally with respect to the arched structure 20 in the backfilled soil and the top plate located above the arched structure 20 in the soil This is a step of fixing the ends of each band 53 extending in a direction corresponding to the fourth ring portion 59 of the block 58.

The plurality of support blocks 55 and the top plate block 58 are sequentially installed in the soil from the bottom to the top while refilling the soil, at the position of the end of the band 53 stretched tightly through the band spreading step (S8). The third ring portion 57 or the fourth ring portion 59 is installed to be positioned.

When the backfilling construction is completed as described above, the first reinforcement means removal step (S9) of removing the first reinforcement means 30 connecting the base 11, 12 and the reinforcing channel 31 is provided.

The first reinforcing means removal step (S9) may be performed at the time when the backfilling construction is completed or after the backfilling operation, the backfilled part is settled and compacted and then removed.

As described above, the tunnel structure using the corrugated steel sheet according to the present invention and the construction method thereof are easy to construct, and the arched structure 20 is crushed or deformed due to unevenness of the earth pressure applied from both sides of the arched structure during backfilling of the soil. Can be prevented. In particular, the tunnel structure using the corrugated steel sheet according to the present invention and its construction method can fundamentally prevent deformation of the arcuate structure during and after construction, by the second reinforcement means 50 the first or second rope Since the support force is provided in the longitudinal direction of the members 33 and 35 in the extension lines a and b, it is possible to prevent deformation due to earth pressure even after the first reinforcing means are removed.

Meanwhile, FIG. 5 shows a second reinforcing means of a tunnel structure using a corrugated steel plate according to a second embodiment of the present invention.

The second reinforcing means according to the second embodiment of the present invention further includes an auxiliary fixing member 160 in the second reinforcing means according to the first embodiment of the present invention.

The auxiliary fixing member 160 is a heavy object having a hollow through which both sides of the band 53 extending from the first ring portion 51 are penetrated. The auxiliary fixing member 160 is not limited to the illustrated one, and the through size may vary according to the left or right width or thickness of the band 53, and may be formed in a polygonal column shape such as a square column in addition to a column.

In the auxiliary fixing member 160, both ends of the band 53 extending in a direction away from the arcuate structure 20 are the same with respect to the extension line (a) in the longitudinal direction of the first or second rope members 33 and 35. As the gaps are separated by a distance, while moving toward the first ring portion 51, the center side of the band 53 is pressed and fixed so as not to be moved by the first ring portion 51.

The tunnel structure using the corrugated steel sheet according to the second embodiment of the present invention has a relatively stable support force to prevent deformation of the arched structure due to earth pressure as the binding force between the first ring portion 51 and the band 53 is strengthened. There is an advantage that can be provided.

In the above, the tunnel structure using the corrugated steel sheet according to the present invention and the construction method thereof have been described with reference to an example shown in the drawings, but this is only an example, and a person skilled in the art can make various modifications therefrom. And it will be understood that other equivalent embodiments are possible. Therefore, the scope of true technical protection of the present invention should be defined by the technical spirit of the appended claims.

1: Tunnel structure using corrugated steel sheet
11,12: Donation 13,14: Support channel
20: arched structure 21: corrugated steel sheet
28: second hook 31: reinforcement channel
33: first rope member 35: second rope member
37: turnbuckle 51: first hook
53: band 55: support block
58: top block 100: earth and sand
S1: Digging construction stage S2: Base surface construction stage
S3: corrugated steel plate assembly step S4: first reinforcement means installation step
S5: Backfilling step S6: Second reinforcement means installation step
S10: First reinforcement means removal step

Claims (5)

A foundation digging construction step;
A base surface construction step of constructing a base surface having bases in the region where the foundation trench is completed;
A corrugated steel sheet assembling step of assembling corrugated steel sheets from each base into an arcuate structure;
In order to prevent deformation by external pressure inside the arched structure, a plurality of reinforcing channels extending in the longitudinal direction of the arched structure are installed at equal intervals in the circumferential direction on the outer circumferential surface of the arched structure. At least one reinforcing channel is connected to a first rope member, and at least one other reinforcing channel is connected to at least one other reinforcing channel as a second rope member, and turnbuckles installed on each of the first or second rope members are connected. A first reinforcement means installation step of adjusting the tensile force of each of the first or second rope members using;
And a backfilling step of backfilling the soil on the side and upper sides of the arched structure,
The backfilling step
A second reinforcing means installation step of installing a second reinforcing means provided by a supporting force in the longitudinal direction of the first or second rope member on the outside of the arched structure when filling the back of the soil,
The second reinforcement means installation step
A band connecting step of connecting one side of the band to the first ring formed on the other side corresponding to one side of the reinforcing channel connected to the first or second rope member,
After the band connection, the band so that the other side of the band is farther away from the arched structure into the backfilled soil so that a force supporting the reinforcing channel can be generated along the lengthwise extension of the first or second rope member. The band spreading step and
And a band fixing step of fixing the end of the band to a support block installed in a soil filled with a back spaced to be spaced apart from the arched structure,
The band
Through the first ring portion, a central side is supported on the first ring portion, and both ends extend away from the arched structure so as to be spaced at the same distance from the extension line in the longitudinal direction of the first or second rope members. ,
The second reinforcement means
In the longitudinal direction of the first or second rope member, a hollow is formed inside so that both sides of the band extending from the first ring portion penetrate together, and the central side of the band can be fixed to the first ring portion. A method of constructing a tunnel structure using a corrugated steel sheet, characterized in that it comprises an auxiliary fixing member which is pressed toward the first ring portion by both sides of the band that are spaced apart at the same distance from the extension line. delete delete An arcuate structure in which a plurality of corrugated steel plates are assembled;
Bases provided with support channels for supporting corrugated steel sheets at the bottom of the arched structure in the longitudinal direction of the arched structure;
It is provided on the arch-shaped structure, the first and second reinforcement means for preventing the arch structure from being deformed by external pressure;
The first reinforcement means
A plurality of reinforcing channels installed longitudinally on the outer circumferential surface of the arched structure and spaced apart at equal intervals in the circumferential direction along the outer circumferential surface of the arched structure, and a first rope member connecting the base and the at least one reinforcing channel, A second rope member connecting at least one or more other reinforcing channels to one of the reinforcing channels, and a turnbuckle installed on each of the first and second rope members to adjust the tensile force of the first and second rope members. Equipped,
The second reinforcement means
A first hook portion formed in an outer direction of the reinforcing channel corresponding to the first rope member or the second rope member connected to the reinforcing channel,
A band fixed to the first ring portion and extending in a direction away from the arched structure to provide a force for supporting the reinforcement channel along an extension line in the longitudinal direction of the first or second rope member;
It has a support block for fixing the end of the band extending in a direction away from the arched structure,
The band
Through the first ring portion, a central side is supported on the first ring portion, and both ends extend away from the arched structure so as to be spaced at the same distance from the extension line in the longitudinal direction of the first or second rope members. ,
The second reinforcement means
In the longitudinal direction of the first or second rope member, a hollow is formed inside so that both sides of the band extending from the first ring portion penetrate together, and the central side of the band can be fixed to the first ring portion. Tunnel structure using a corrugated steel sheet further comprises an auxiliary fixing member that is pressed toward the first ring portion by both sides of the band that are spaced apart at the same distance from the extension line. delete

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