KR20170135486A - Corrugated steel plate tunnel - Google Patents

Abstract

The present invention relates to a corrugated steel plate tunnel comprising: a small corrugated steel plate (10) which includes two protrusions (11) and three depressions (12), is provided with coupling portions at the depressions (12) of both ends, and is formed to have a predetermined wavelength (a1) and amplitude (b1); a large corrugated steel plate (20) includes two protrusions (21) and three depressions (22), is provided with coupling portions (22) at the depressions (22) of both ends, and is formed to have a predetermined wavelength (a2) and amplitude (b2), wherein the wavelength (a1) and amplitude (b2) are larger than the wavelength (a1) and the amplitude (b1) of the small corrugated steel plate (10). The corrugated steel plate tunnel uses a corrugated steel plate assembly reinforced by coupling the coupling portions of the small corrugated steel plate (10) to the coupling portions of the large corrugated steel plate (20). The corrugated steel plate tunnel is formed in an arched structure to form a corrugated cross-sectional structure along a lengthwise direction, and it is possible to prevent a roll-over risk of a concrete wall surface by providing a structure including: the corrugated steel plate assembly in which the large corrugated steel plate (20) is disposed at the end portion thereof; a concrete wall surface (160) which is installed at the end portion of the tunnel such that the large corrugated steel plate (20) of the corrugated steel plate assembly is embedded; and a tension reinforcement member (500) which is installed on the large corrugated steel plate (20) to increase the corrugated-direction tensile strength of the large corrugated steel plate (20).

Description

{CORRUGATED STEEL PLATE TUNNEL}

Field of the Invention [0002] The present invention relates to a construction field, and more particularly, to a corrugated steel plate connection channel and a corrugated steel plate tunnel using the same.

As compared with a concrete structure, a construction structure using a corrugated steel sheet has advantages of being small in weight, excellent in workability, and capable of reducing air and cost, and therefore research on its application has been actively conducted.

Since the corrugated steel sheet is manufactured at a certain size (size) in the factory, it needs to be assembled in the field, and it is necessary to form a reinforcing structure in accordance with the design strength of the required structure.

A conventional small corrugated steel sheet 10 has a structure of a small corrugated steel sheet 10 having two protrusions 11 and three depressions 12 and a coupling portion formed in the depressions 12, a1) and amplitude (b1) and is provided to the site (Fig. 1).

Recently, it has been proposed to provide a light emitting device having two protrusions 21 and three depressions 22, a coupling portion formed at a depression 22 at both ends, a constant wavelength a2 and an amplitude b2, there is an attempt to further manufacture and use a large corrugated steel plate 20 in which the amplitude a2 and the amplitude b2 of the large corrugated steel sheet 10 are larger than the wavelength a1 and the amplitude b1 of the small corrugated steel sheet 10 ).

That is, a small corrugated steel plate (2) having two protrusions (11) and three depressions (12), a coupling portion formed at the depressions (12) at both ends and formed to have a constant wavelength a1 and an amplitude 10), the corrugated steel plate 20 is combined (the two corrugated portions are coupled to each other) to form a corrugated steel plate assembly (Fig. 3).

The large corrugated steel sheet 20 having the wavelength a2 and the amplitude b2 larger than the wavelength a1 and the amplitude b1 of the small corrugated steel sheet 10 is obtained because the strength of the corrugated steel sheet is proportional to its wavelength and amplitude. Naturally has a greater strength than the strength of the small corrugated steel sheet 10.

Therefore, the combined structure of the small corrugated steel sheet 10 and the large corrugated steel sheet 20 also has a larger strength than that of the small corrugated steel sheet 10 alone.

On the other hand, in the case of a corrugated steel plate tunnel in which a corrugated steel plate is installed in an arch structure on both side walls 20, a concrete surface wall 160 is provided at both ends, It is preferable to dispose the large large corrugated steel sheet 20 (Fig. 4).

However, the large-sized corrugated steel sheet 20 basically has a higher overall strength than the small corrugated steel sheet 10, but has a problem that the tensile strength in the corrugated direction is smaller than that of the small corrugated steel sheet 10 as the amplitude is increased.

Therefore, when the large corrugated steel sheet 20 and the concrete wall 160 are joined to each other without any reinforcing structure, there is a problem that the concrete wall 160 can be turned outward in the longitudinal direction (FIG. 5).

SUMMARY OF THE INVENTION It is an object of the present invention to provide a corrugated steel plate tunnel capable of preventing the risk of conduction of a concrete face wall.

In order to solve the above problems, the present invention is characterized in that it has two protrusions 11 and three depressions 12, a coupling part formed at the depressions 12 at both ends, and a constant wavelength a1 and amplitude a small corrugated steel plate (10) formed to have a thickness (b1); And is formed so as to have a constant wave length a2 and an amplitude b2 and to have a wave length a2 and a wave length b2, and has two protrusions 21 and three depressions 22, and a large corrugated steel plate (20) whose amplitude (a2) and amplitude (b2) are formed to be larger than the wavelength (a1) and amplitude (b1) of the small corrugated steel sheet (10) The large corrugated steel plate 20 is formed as an arch structure so as to have a corrugated cross-sectional structure along the longitudinal direction, and the large corrugated steel plate 20 is formed as a corrugated cross- The corrugated steel plate assembly disposed at an end; A concrete surface wall 160 installed at an end of the tunnel so that the large corrugated steel plate 20 is embedded in the corrugated steel plate assembly; And a tensile strengthening member (500) provided on the large corrugated steel plate (20) so as to increase the tensile strength in the corrugated direction of the large corrugated steel plate (20).

The tensile reinforcing member 500 is preferably coupled to the region between the protruding portion 21 and the depressed portion 22 of the large corrugated steel plate 20 along the longitudinal direction.

Preferably, both ends of the tensile reinforcing member 500 are bolted or welded to both inclined surfaces of the large corrugated steel sheet 20.

It is preferable that the tensile strengthening member 500 is coupled to the outer surface of the large corrugated steel plate 20.

The first side plate 110, the second side plate 120 and the bottom plate 130 are provided such that the connection portion a formed by the small corrugated steel sheet 10 and the large corrugated steel sheet 20 is inserted and supported, A corrugated steel plate connection channel 100 having an opened "C " And a wall 200 coupled to a lower portion of the corrugated steel plate connecting channel 100.

The corrugated steel plate connection channel 100 includes a small corrugated steel plate insertion portion 101 having a narrow gap between the first side plate 110 and the second side plate 120 so that the small corrugated steel plate 10 is inserted and joined thereto. ); A large corrugated steel plate insert (101) is formed in which the interval between the first side plate (110) and the second side plate (120) is wider than that of the small corrugated steel plate insert (101) so that the large corrugated steel plate 102).

It is preferable that the second side plate 120 is formed in a linear cross-sectional structure and the first side plate 110 is formed in a bent cross-sectional structure.

The first side plate 110 includes a first side plate 111 spaced apart from the second side plate 120 so as to form the small corrugated steel plate insert 101; A first spaced apart first side plate 112 spaced apart from the second side plate 120 by a greater distance than the spacing of the first spaced apart side plates 111 to form the large corrugated steel plate insert 102; And a connection first side plate 113 coupled between the small-side first side plate 111 and the large-side first side plate 112.

The bottom plate 130 is preferably formed in a shape corresponding to the installation position of the first side plate 110 and the second side plate 120.

The large-diameter corrugated steel plate 20 is provided with a coupling hole 103 for coupling with the small corrugated steel plate 10 at the small-interval first side plate 111, It is preferable that a coupling hole 104 for coupling is formed.

The wall 200 includes a main wall body 210 having a bottom plate 130 of the corrugated steel plate connecting channel 100 coupled to an upper surface thereof; And a protruding wall body 220 protruding upward from an inner upper surface of the main wall body 210 and having a second side plate 120 coupled to an outer surface of the corrugated steel plate connecting channel 100, (100) comprises a lower reinforcement member (140) protruded downward from the bottom plate (130) so as to be embedded in the main wall body (210); And an inner reinforcing member 150 protruding inward from the second side plate 120 so as to be embedded in the protruding wall body 220 protruding upward from the upper side of the main wall body 210.

It is preferable that the corrugated steel plate connecting channel 100 is installed such that the first side plate 110 faces outward and the second side plate 120 faces inward.

The small corrugated steel plate 10a of the corrugated steel plate connection channel 100 is inserted into the small corrugated steel plate insertion portion 101 side so that the other small corrugated steel plate 10a engaging with the small corrugated steel plate 10 forming the connection portion a is inserted and supported. A small corrugated steel plate supporting channel 310 coupled to an upper portion of the wall body 200; The large corrugated steel plate 20a of the corrugated steel plate connection channel 100 is inserted into the large corrugated steel plate insertion portion 102 so that the other large corrugated steel plate 20a engaging with the large corrugated steel plate 20 forming the connection portion a is inserted and supported. And a large corrugated plate supporting channel 320 coupled to the upper portion of the wall body 200. [

Preferably, the tensile reinforcing member 500 includes a reinforcing coupling member 510 commonly coupled to a plurality of protrusions on the outer surface of the large corrugated steel plate 20. FIG.

The present invention proposes a corrugated steel plate tunnel which prevents the risk of conduction of the concrete face wall.

Figures 1 to 5 illustrate the prior art,
1 is a sectional view of a small corrugated steel sheet.
2 is a sectional view of a large corrugated steel sheet.
3 is a sectional view of a corrugated steel plate assembly;
4 is a sectional view of a corrugated steel plate tunnel.
5 is a cross-sectional view of a collapsed state of the concrete face wall.
6 shows an embodiment of the present invention,
6 is a sectional view of a large corrugated steel sheet and a tensile strengthening member.
7 is a perspective view of a large corrugated steel sheet and a tensile reinforcing member.
8 is a perspective view of a first embodiment of a corrugated steel plate connecting channel.
9 is a plan view of a first embodiment of a corrugated steel plate connecting channel.
10 is a perspective view of a second embodiment of corrugated steel plate connecting channel;
11 is a plan view of a second embodiment of the corrugated steel plate connecting channel.
12 is a vertical cross-sectional view of a coupled state of the corrugated steel plate connecting channel and the corrugated steel plate.
13 is a cross-sectional view of a small corrugated steel plate insert portion of a corrugated steel plate connection channel.
14 is a cross-sectional view of a large corrugated steel plate insert portion of the corrugated steel plate connection channel.
15 is a perspective view of a first embodiment of a corrugated steel plate tunnel.
16 is a perspective view of a second embodiment of a corrugated steel plate tunnel.
17 is a sectional view of a large corrugated steel plate and a reinforcing joining member;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

6, the present invention basically comprises two protrusions 11 and three depressions 12, a coupling portion formed at a depression 12 at both ends, ) And an amplitude (b1); And has two protrusions 21 and three depressions 22 and is formed to have a coupling portion at a depression 22 at both ends and is formed to have a constant wavelength a2 and an amplitude b2, And a large wave plate 20 whose amplitude b2 is larger than the wavelength a1 and the amplitude b1 of the small wave plate 10 and the large wave plate 20 and the large wave plate 20, The present invention relates to a corrugated steel plate tunnel using a corrugated steel plate assembly in which an engaging portion of a steel plate 20 is joined and reinforced.

A corrugated steel plate assembly having an arch structure to form a corrugated cross-sectional structure along the longitudinal direction, and a large corrugated steel plate 20 disposed at an end thereof; A concrete surface wall 160 installed at the end of the tunnel so that the large corrugated steel plate 20 of the corrugated steel plate assembly is embedded; And a tensile strengthening member (500) provided on the large corrugated steel plate (20) so as to increase the tensile strength in the corrugated direction of the large corrugated steel sheet (20).

That is, a corrugated steel plate assembly by combining a small corrugated steel sheet 10 and a large corrugated steel sheet 20 is applied, and a large corrugated steel sheet 20 having a high strength is embedded in the concrete surface wall 160, So that the tensile strength in the corrugated direction, which is a disadvantage of the large corrugated steel sheet 20, is reinforced by adding the tensile reinforcing member 500.

Thus, both economic efficiency and structural stability can be obtained.

The tensile reinforcing member 500 can be realized by various structures. It is basically required to have a structure in which the large-sized corrugated steel sheet 20 is joined to the region between the projecting portion 21 and the depressed portion 22 along the longitudinal direction, .

Specifically, the tensile reinforcing member 500 may have a structure in which both ends thereof are bolted or welded to both inclined surfaces of the large corrugated steel plate 20 (FIGS. 6 and 7).

It is preferable that such a tensile strengthening member 500 is coupled to the outer surface of the large corrugated steel sheet 20 buried by a sand or other structure in terms of usability of the structure.

The tensile reinforcing member 500 may be embodied by a reinforcing joining member 510 commonly joined to a plurality of projections on the outer surface of the large corrugated steel sheet 20 (Fig. 17).

The upper reinforcing member 510 is formed by joining a structure such as a square pipe, a "b " -shaped channel, a" -shaped " channel or the like to a plurality of protrusions on the outer surface of the large corrugated steel plate 20 by bolt welding or the like, There is an advantage that construction is convenient.

Meanwhile, in order to form the corrugated steel plate tunnel, it is necessary to connect the concrete wall 200 on both sides with the corrugated steel plate forming the upper structure, and the channel connecting between the ends of the corrugated steel plate and the wall 200. However, 10) and the large corrugated steel plate 20 is applied, a channel having a proper structure is required.

To this end, the corrugated steel plate connection channel 100 applied to the present invention is basically composed of a first corrugated steel plate 10 and a second corrugated steel plate 20, 110, a second side plate 120, and a bottom plate 130, and having a top opened, a corrugated plate connection channel 100 having a "C" shaped configuration; And a wall 200 coupled to a lower portion of the corrugated steel plate connecting channel 100.

Concretely, there is a structure for inserting and supporting a connecting portion (a) formed by combining the small corrugated steel sheet 10 and the large corrugated steel sheet 20, so that the small corrugated steel sheet 10 is inserted and joined, A small-sized corrugated steel plate insert 101 having a narrow gap between the first side plate 110 and the second side plate 120; A large corrugated steel plate insertion portion 102 in which the interval between the first side plate 110 and the second side plate 120 is larger than that of the small corrugated steel plate insertion portion 101 so that the large corrugated steel plate 20 is inserted and joined; .

The combination of the corrugated steel plate and the channel is achieved by bolt coupling of the protruding portion or depression of the corrugated steel plate and the first side plate or the second side plate of the channel. The interval between the first side plate 110 and the second side plate 120 It is necessary to match the amplitude of the corrugated steel sheet to achieve a stable bonding structure.

However, when a channel having a generally "C" shaped cross-sectional structure is applied to the connecting portion (a) of the small-sized corrugated steel sheet 10 and the large corrugated steel sheet 20, the gap between the two side plates should be matched to the large corrugated steel sheet 20 In this case, the interval between the both side plates is larger than the amplitude of the small-sized corrugated steel sheet 10, so that stable engagement with the small corrugated steel sheet 10 becomes impossible.

The present invention provides a structure of a corrugated steel plate connecting channel 100 in which both the small corrugated steel plate insertion portion 101 and the large corrugated steel plate insertion portion 102 are formed with the two side plates having different distances from each other, The combined structure of the small corrugated steel sheet 10 and the large corrugated steel sheet 20 and the wall 200 can be stably bonded with excellent workability.

Hereinafter, a specific configuration of the corrugated steel plate connecting channel 100 will be described.

Although the first side plate 110 and the second side plate 120 may be formed in a bent section structure, the second side plate 120 is formed in a linear cross-sectional structure, and the first side plate 110 is formed in a bent- In terms of easiness of construction (Figs. 8 and 9).

In some cases, the first side plate 110 may have a curved structure (FIGS. 10 and 11).

Specifically, the first side plate 110 includes a first side plate 111 having a small space and spaced apart from the second side plate 120 so as to form the small corrugated steel plate insert 101; Spaced first side plates 112 spaced apart from the second side plate 120 by a greater distance than the spacing of the first small side plates 111 to form the large corrugated steel plate insert 102; And a connection first side plate 113 coupled between the small-side first side plate 111 and the large-side first side plate 112,

The bottom plate 130 is preferably formed in a shape corresponding to the mounting position of the first side plate 110 and the second side plate 120 (a shape in which the first side plate portion with a small gap is recessed) from the viewpoint of economy.

On the other hand, in the case of the combination structure of the small corrugated steel sheet 10 and the large corrugated steel sheet 20, the amplitude b1 of the small corrugated steel sheet 10 is different from the amplitude b2 of the large corrugated steel sheet 20, The protruding portion 11 of the small corrugated steel sheet 10 and the side of the large corrugated steel sheet 20 on which the protruding portion 21 is disposed are formed so as not to have a constant degree of protrusion and the depressed portion 12 of the small corrugated steel sheet 10 The side on which the depressed portion 22 of the large corrugated steel plate 20 is disposed is formed with a constant degree of protrusion (FIG. 12).

Therefore, when the corrugated steel plate tunnel is installed, the protruding portion 11 of the small corrugated steel sheet 10 and the protruding portion 21 of the large corrugated steel sheet 20 are exposed to the outside (opposite to the use area of the tunnel, And the depressed portion 12 of the small corrugated steel sheet 10 and the depressed portion 22 of the large corrugated steel sheet 20 are provided so as to face inside (the use region of the tunnel) Is formed so as to face the inner side) is more preferable for the usability of the structure (for example, in the case of further joining other members).

To this end, it is preferable that the corrugated steel plate connecting channel 100 is provided such that the first side plate 110 of the bent section structure faces outward and the second side plate 120 of the straight section structure faces inward , 16).

The wall body 200 includes a main wall body 210 having a bottom plate 130 of the corrugated steel plate connecting channel 100 coupled to the top surface thereof; And a protruding wall body 220 protruding upward from the inner upper surface of the present wall body 210 and coupled to the outer surface of the second side plate 120 of the corrugated steel plate connecting channel 100, It is preferable from the viewpoint of preventing water from being introduced into the joint portion of the channel from flowing into the inside of the tunnel.

In this case, since the inner side surface of the corrugated steel plate connecting channel 100 is in contact with the protruding wall body 220 and can not perform the bolt joining operation with the corrugated steel plate, the bolt joining operation must be performed through the outer side surface of the connecting channel 100.

Therefore, a coupling hole 103 for coupling with the small corrugated steel plate 10 is formed on the first side plate 111 at a small interval, and a coupling hole 103 for coupling with the large corrugated steel plate 10 is formed on the large- It is preferable that the coupling hole 104 be formed.

A lower side reinforcement member 140 such as a stud protruded downward from the bottom plate 130 so as to be embedded in the main wall body 210 is formed in the connection channel 100 for stable connection between the connection channel 100 and the wall 200. An inner reinforcing member 150 such as a stud formed inwardly from the second side plate 120 so as to be embedded in the protruding wall body 220 protruding upward from the inner upper surface of the present wall body 210.

A connecting portion a of the small corrugated steel sheet 10 and the large corrugated steel sheet 20 is formed on the premise that a plurality of small corrugated steel sheets 10 are joined successively and a plurality of large corrugated steel sheets 20 are connected successively The small corrugated steel plate 10 is joined to the small corrugated steel plate insertion portion 101 side of the corrugated steel plate connection channel 100 such that another small corrugated steel plate 10a coupled to the small corrugated steel plate 10 forming the connection portion a is inserted and supported. A small corrugated plate supporting channel 310 coupled to an upper portion of the wall body 200; A large corrugated steel plate insertion portion 102 side of the corrugated steel plate connection channel 100 so as to be inserted and supported by another large corrugated steel plate 20a coupled to the large corrugated steel plate 20 forming the connection portion a, In addition, it is preferable to further include a large corrugated plate supporting channel 320 coupled to the upper portion of the wall 200 (FIG. 15).

In this case, the interval between both side plates of the small corrugated steel plate supporting channel 310 is equal to the amplitude of the small corrugated steel plate 10, and the interval between both side plates of the large corrugated steel plate supporting channel 320 is equal to the amplitude of the large corrugated steel plate 20 ).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

10: small-sized corrugated steel plate 11: depression
12: protrusion 20: large corrugated steel plate
21: depression 22: protrusion
100: corrugated steel plate connection part Channel 101: small corrugated steel plate insertion part
102: large corrugated steel plate inserting portion 103, 104: engaging hole
110: first side plate 111: small interval first side plate
112: large interval first side plate 113: connection first side plate
120: second side plate 130: bottom plate
140: lower reinforcement member 150: inner reinforcement member
160: Concrete face wall 200: Wall
210: main wall 220:
310: Small wave plate supporting channel 320: Large wave plate supporting channel
500: tensile reinforcement member

Claims (14)

A small corrugated steel sheet 10 (10) having two protrusions 11 and three depressions 12 and formed with engagement portions at the depressions 12 at both ends thereof and having a constant wavelength a1 and amplitude b1, );
And is formed so as to have a constant wavelength a2 and an amplitude b2 and to have a predetermined wavelength a2 and an amplitude b2, and a large corrugated steel plate (20) whose amplitude (a2) and amplitude (b2) are largely larger than the wavelength (a1) and amplitude (b1) of the small corrugated steel sheet (10)
A corrugated steel plate tunnel using a corrugated steel plate assembly reinforced by engaging portions of engaging portions of the small corrugated steel plates (10) and engaging portions of the large corrugated steel plates (20)
The corrugated steel plate assembly being formed in an arch structure so as to have a corrugated cross-sectional structure along the longitudinal direction and having the large corrugated steel plate 20 disposed at the end thereof;
A concrete surface wall 160 installed at an end of the tunnel so that the large corrugated steel plate 20 is embedded in the corrugated steel plate assembly;
A tensile reinforcing member (500) provided on the large corrugated steel plate (20) so as to increase the tensile strength in the corrugated direction of the large corrugated steel sheet (20);
Wherein the corrugated steel plate tunnel comprises: The method according to claim 1,
The tensile reinforcing member (500)
(21) of the large corrugated steel plate (20) and the depression (22) of the large corrugated steel plate (20). 3. The method of claim 2,
The tensile reinforcing member 500 has a straight structure,
And both ends of the large-sized corrugated steel plate (20) are bolted or welded to both side inclined surfaces of the large corrugated steel plate (20). The method according to claim 1,
The tensile reinforcing member (500)
And is coupled to an outer surface of the large corrugated steel plate (20). The method according to claim 1,
The first side plate 110, the second side plate 120 and the bottom plate 130 are provided such that the connection portion a formed by the small corrugated steel sheet 10 and the large corrugated steel sheet 20 is inserted and supported, A corrugated steel plate connection channel 100 having an opened "C "
A wall 200 coupled to a lower portion of the corrugated steel plate connecting channel 100;
Wherein the corrugated steel plate tunnel comprises: 6. The method of claim 5,
The corrugated steel plate connecting channel (100)
A small corrugated steel plate insert 101 having a narrow gap between the first side plate 110 and the second side plate 120 so that the small corrugated steel plate 10 is inserted and joined;
A large corrugated steel plate insert (101) is formed in which the interval between the first side plate (110) and the second side plate (120) is wider than that of the small corrugated steel plate insert (101) so that the large corrugated steel plate 102);
Wherein the corrugated steel plate tunnel comprises: The method according to claim 6,
Wherein the second side plate (120) is formed to have a straight section structure, and the first side plate (110) has a bent section structure. 8. The method of claim 7,
The first side plate (110)
A first side plate 111 spaced apart from the second side plate 120 so as to form the small corrugated steel plate insert 101;
A first spaced apart first side plate 112 spaced apart from the second side plate 120 by a greater distance than the spacing of the first spaced apart side plates 111 to form the large corrugated steel plate insert 102;
A connecting first side plate 113 coupled between the small-side first side plate 111 and the large-side first side plate 112;
Wherein the corrugated steel plate tunnel comprises: 9. The method of claim 8,
Wherein the bottom plate (130) is formed in a shape corresponding to a mounting position of the first side plate (110) and the second side plate (120). 9. The method of claim 8,
The large-diameter corrugated steel plate 20 is provided with a coupling hole 103 for coupling with the small corrugated steel plate 10 at the small-interval first side plate 111, Wherein a coupling hole (104) for coupling is formed. 6. The method of claim 5,
The wall (200)
A main wall body 210 in which a bottom plate 130 of the corrugated steel plate connecting channel 100 is coupled to an upper surface thereof;
And a protruding wall body 220 protruding upward from an inner upper surface of the main wall body 210 and having a second side plate 120 coupled to an outer surface of the corrugated steel plate connecting channel 100,
The corrugated steel plate connecting channel (100)
A lower reinforcement member 140 protruded downward from the bottom plate 130 so as to be embedded in the present wall body 210;
An inner reinforcing member 150 protruding inward from the second side plate 120 so as to be embedded in the protruding wall body 220 protruding upward from the inner upper surface of the main wall body 210;
Wherein the corrugated steel plate tunnel comprises: 6. The method of claim 5,
Wherein the corrugated steel plate connecting channel (100) is installed such that the first side plate (110) faces outward and the second side plate (120) faces inward. The method according to claim 6,
The small corrugated steel plate 10a of the corrugated steel plate connection channel 100 is inserted into the small corrugated steel plate insertion portion 101 side so that the other small corrugated steel plate 10a engaging with the small corrugated steel plate 10 forming the connection portion a is inserted and supported. A small corrugated steel plate supporting channel 310 coupled to an upper portion of the wall body 200;
The large corrugated steel plate 20a of the corrugated steel plate connection channel 100 is inserted into the large corrugated steel plate insertion portion 102 so that the other large corrugated steel plate 20a engaging with the large corrugated steel plate 20 forming the connection portion a is inserted and supported. A large corrugated plate supporting channel 320 coupled to an upper portion of the wall body 200,
Wherein the corrugated steel plate tunnel comprises: The method according to claim 1,
The tensile reinforcing member (500)
And a reinforcing coupling member (510) commonly coupled to a plurality of projections on the outer surface of the large corrugated steel plate (20).

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