KR101213684B1 - wave type steel plate tunnel - Google Patents

Abstract

A corrugated steel tunnel having a reinforced bottom support structure is disclosed.
Corrugated steel tunnel having a reinforced lower support structure, the arc-shaped unit corrugated steel plates having a corrugated portion are assembled in a semicircular or arcuate form to form a tunnel structure, and the lower portion of the unit corrugated steel sheet at both ends of the tunnel structure is provided at the installation floor. Supported by the foundation concrete,
A longitudinal coupling part is provided at the front and rear ends of the unit corrugated steel plate, and the longitudinal coupling part is composed of a horizontal flange and a vertical flange vertically bent inwardly from the horizontal flange and having a fastening hole to adjoin the vertical flange. Tighten the fastening holes of the two vertical flanges tightly as fastening bolts and fastening nuts by bringing them into close contact with the relative vertical flanges of other unit corrugated steel sheets.
A circumferential coupling portion is provided at the left and right ends of the unit corrugated steel sheet, and the circumferential coupling portion is provided at the left and right ends of the unit corrugated steel sheet and constituted by a flange plate having a plurality of fastening holes. The fastening holes of the two flange plates in close contact with the mating flange plate of the other corrugated steel sheet to be assembled as fastening bolts and fastening nuts,
The vertical flange and the flange plate is formed to be assembled projections and assembly grooves, it is configured to be assembled with the assembly grooves and assembly projections formed in the other vertical flange and flange plate,
A portion of the anchor bolt is buried in the upper part of the foundation concrete, and the L-shaped channel having a plurality of fastening holes is fixedly coupled to the lower end of the tunnel structure to allow the anchor bolt to pass through the fastening hole of the L-shaped channel. Once the anchor bolt is fastened by the anchor nut, the tunnel structure is fixed,
The anchor bolt is formed at the bottom of the hook portion, the reinforcing bars are reinforced in the interior of the foundation concrete is latched to the hook portion is latched,
In order to distribute the load on top of the tunnel structure, a load distribution structure part which is a concrete structure is installed.

Description

Wave type steel plate tunnel with reinforced bottom support structure

The present invention relates to a corrugated steel tunnel having a reinforced bottom support structure.

In the construction of new highways, national roads, and railways, they often pass through mountainous areas as well as flat lands.In particular, in mountainous areas, tunnels are excavated without cutting the mountain due to natural environmental problems or construction costs. Many roads are opened.

In the conventional excavated tunnel, after the shotcrete is installed on the rock wall of the tunnel excavated by blasting, the rock bolt is buried, the waterproofing is performed on the surface of the shotcrete, and the lining concrete layer is poured to construct the tunnel. .

In other words, the rock is excavated to form a tunnel, the shotcrete is treated inside the tunnel to stabilize the inner surface of the tunnel, and then the nonwoven fabric is attached to the shotcrete surface, and the waterproof membrane sheet is attached and fixed again on the attached nonwoven fabric. .

Then, the tunnel lining concrete is poured to a thickness of about 30 ~ 40cm, and the lining concrete is embedded in the reinforcing bars, etc., to form a jibo, the formwork for supporting this is manufactured and installed.

However, this conventional method has a problem in that the construction period and manpower for rebar assembly and formwork installation, and the construction cost is increased due to a long period of construction, such as having to undergo a curing period for a certain period of time after placing concrete.

Accordingly, recently, a lining construction method for tunnels using corrugated steel sheets has been proposed. The corrugated steel sheet is formed by the bending of the corrugated metal plate to increase the shape strength, it has the advantage of easy construction and low manufacturing cost than other concrete products. Therefore, not only the general arch structure, but also the semicircular or arcuate structure is used, such as the support of the dike channel or tunnel.

Conventional corrugated steel sheet, the fastening hole is formed to insert fasteners such as bolts into the corrugated steel sheet, a plurality of floors and valleys are formed repeatedly to form a waveform, the corrugated steel sheet on one side of the corrugated steel sheet A fastening hole is formed at a position spaced apart from the edge of the fastening hole and the fastening hole is formed at a position spaced less than the fastening hole formed in the floor portion.

In addition, the other side of the conventional corrugated steel sheet, the fastening hole is formed at a position spaced a predetermined distance from the edge of the corrugated steel sheet in accordance with the position of one side fastening hole of the adjacent corrugated steel sheet for fastening with the adjacent corrugated steel sheet, In the floor portion, the fastening hole is formed at a position spaced less than the fastening hole formed in the floor portion.

The structure using the conventional corrugated steel sheet is made by continuously arranging each corrugated steel sheet so as to overlap the lower side of the adjacent corrugated steel sheet. The superimposed structure has an advantage in that the corrugated steel sheet has excellent bending resistance performance, thereby expanding its application range. It is becoming.

However, since the structure using the conventional corrugated steel sheet is arranged in a structure in which the corrugated steel sheet is sequentially overlapped with the lower portion of the adjacent corrugated steel sheet, leakage of one another between the corrugated steel sheets on the basis of the center line of the structure may occur. However, between the corrugated steel plates on the other side, since the corrugated steel plates at the end side are disposed on the upper side of the adjacent corrugated steel sheets, there is a fear that leakage may occur between the corrugated steel sheets, so that the corrugated steel sheets may be used in structures to which people or vehicles can pass. There was a problem.

In addition, in the case of forming a tunnel using a conventional structure, the toffee layer on the upper part of the tunnel must be at least a certain thickness so that the tunnel can be constructed without collapsing due to the arching action. Shear wedges, etc., occur, causing tunnel collapse.

In addition, when the corrugated steel sheet is joined, the adjacent corrugated steel sheets overlap each other, and the bolt is inserted through the upper side of the fastening hole formed at the overlapped portion and tightened with a nut at the bottom, or conversely, the bolt is inserted through the lower side of the fastening hole. And tighten the nut from the top. However, this requires a work on the outside and the inside of the corrugated steel sheet has a lot of work time and this causes a problem that the work is delayed, and the work to match the fastening hole of the two corrugated steel sheet is not simple, so the work is difficult.

Accordingly, the present invention has been proposed to solve the above problems, the main object of the present invention is to provide a corrugated steel tunnel having a reinforced lower support structure that can be easily and quickly assembled unit corrugated steel sheet.

Another object of the present invention is to provide a reinforced structure of the lower support structure that can prevent the shear wedge breakage of the ground is installed by the load distribution structure for dispersing the upper load on the upper side of the tunnel structure formed by the unit corrugated steel sheet is easy to assemble To provide a corrugated steel tunnel having.

Still another object of the present invention is to provide a corrugated steel tunnel having a reinforced lower support structure capable of solidifying the lower portion of the corrugated steel tunnel.

Corrugated steel tunnel having a reinforced lower support structure according to the present invention (hereinafter referred to as "corrugated steel tunnel"), the tunnel structure by assembling the arc-shaped unit corrugated steel plate 20 having a corrugated portion 21 in a semicircular or arcuate shape 10, the lower portion of the unit corrugated steel plate 20 of the both ends forming the tunnel structure 10 is supported by the foundation concrete 30 is provided on the installation floor,
A longitudinal coupling portion 210 is provided at the front and rear ends of the unit corrugated steel sheet 20, and the longitudinal coupling portion 210 vertically bends inward from the horizontal flange 211 and the horizontal flange 211. And a vertical flange 212 having a fastening hole 212a, and the vertical flange 212 is brought into close contact with the relative vertical flange 212 of another unit corrugated steel sheet 20 to be fastened to the two vertical flanges that are in close contact with each other. Assemble the ball by tightening it with the fastening bolt (b) and the fastening nut (n),
The circumferential coupling portion 220 is provided at the left and right ends of the unit corrugated steel sheet 20, and the circumferential coupling portion 220 is provided at the left and right ends of the unit corrugated steel sheet 20. A flange plate 221 having a hole 221a is formed, and the flange plate 221 is brought into close contact with the mating flange plate 221 of another unit corrugated steel sheet 20 to close the fastening hole of the two flange plates in close contact. Assemble by fastening as fastening bolt (b) and fastening nut (n),
Assembling protrusions 212b and 222 and assembling grooves 212c and 223 are formed in the vertical flange 212 and the flange plate 221, and the assembling groove 212c formed in the other vertical flange 212 and the flange plate 221. And is configured to be assembled with the assembling protrusions 212b and 222).
A portion of the anchor bolt 42 is embedded in the upper portion of the base concrete 30, and the L-shaped channel 41 having a plurality of fastening holes 41a is fixedly coupled to the lower end of the tunnel structure 10, The anchor bolt (42) is to pass through the fastening hole (41a) of the L-shaped channel 41, the through bolt (42) is fastened by the anchor nut 43 to secure the tunnel structure,
The anchor bolt 42 has a hook portion 42a formed at a lower end thereof, and a reinforcing bar 33a to which the hook portion 42a is caught among the reinforcing bars 33 disposed inside the base concrete 30. Are added
In order to distribute the load on top of the tunnel structure 10, a load distribution structure 50, which is a concrete structure, is installed.

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According to the present invention, the assembly time of the unit corrugated steel sheet can be improved to shorten the assembly time of the tunnel structure, and the labor force can be reduced due to the ease of assembly, thereby reducing labor costs.

In addition, the assembly protrusion and the groove formed in the assembly end of the unit corrugated steel sheet can be assembled between the unit corrugated steel sheet can be improved assembly precision.

In addition, by installing a load distribution structure on the upper side of the tunnel structure, it is possible to prevent shear shear of the ground regardless of the thickness of the toffee layer, thereby increasing the collapse strength of the tunnel structure.

1 is a perspective view showing an installation state of a corrugated steel tunnel having a reinforced lower support structure according to the present invention.
2 is an exploded and assembled perspective view of a corrugated steel tunnel having a reinforced lower support structure according to the present invention.
3 is a cross-sectional view taken along the line AA of FIG. 2.
4 is a cross-sectional view of part B of FIG. 2.
5 is a first installation example of a corrugated steel tunnel having a reinforced lower support structure according to the present invention.
6 is a second example of installation of a corrugated steel tunnel having a reinforced lower support structure according to the present invention.
7A is a first state diagram in which a load distribution structure part is installed in a corrugated steel tunnel having a reinforced lower support structure according to the present invention.
7B is a second state diagram in which a load distribution structure part is installed in a corrugated steel tunnel having a reinforced lower support structure according to the present invention.
7C is a third state diagram in which a load distribution structure part is installed in a corrugated steel tunnel having a reinforced lower support structure according to the present invention.

Hereinafter, the corrugated steel tunnel according to the embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited to the following embodiments, and those skilled in the art Various other forms may be implemented without departing from the technical spirit of the present invention.

1 is a perspective view showing an installation state of a corrugated steel tunnel having a reinforced lower support structure according to the present invention, Figure 2 is a separation and assembly perspective view of a corrugated steel tunnel having a reinforced lower support structure according to the present invention.

1 and 2, the tunnel structure 10 of the corrugated steel tunnel is made by assembling the arc-shaped unit corrugated steel plates 20 in a semicircular or arcuate shape.

The unit corrugated steel sheet 20 may form a corrugated portion 21 in the longitudinal direction for improving shape strength. Unlike this, the unit corrugated steel sheet 20 may form a lattice corrugated portion in the longitudinal direction and the circumferential direction although not shown in the drawing.

The unit corrugated steel sheet 20 has coupling portions 200 on four edges thereof. The coupling part 200 includes a longitudinal coupling part 210 provided at the front and rear ends of the unit corrugated steel sheet 20 and a circumferential coupling part 220 provided at the left and right ends thereof.

The longitudinal coupling part 210 includes a horizontal flange 211 forming a horizontal plane in the longitudinal direction and a vertical flange 212 bent inward from the horizontal flange 211 and formed with a plurality of fastening holes 212a. do. Alternatively, the vertical flange 212 may take a configuration that is manufactured by assembling separately from the horizontal flange 211 instead of integrally bent.

The circumferential coupling portion 220 is composed of a flange plate 221 is arranged a plurality of fastening holes (221a) in the longitudinal direction. The flange plate 221 may be formed integrally with the body of the unit corrugated steel sheet 20 as in the vertical flange 212 above, but is difficult to be formed from the above-mentioned corrugated portion 21, so it is manufactured separately. After that, the method of binding the upper and lower ends of the unit corrugated steel sheet 20 by a method such as welding is more preferable.

3 is a cross-sectional view taken along the line A-A of FIG. 2, and FIG. 4 is a cross-sectional view taken along the portion B of FIG.

3 and 4, the assembling protrusion 212b and the assembling groove 212c are formed on the vertical flange 212 to assemble with the assembling groove 212c and the assembling protrusion 212b of the other vertical flange 212, respectively. By doing so, when the unit corrugated plate 20 is connected in the longitudinal direction, simple and quick assembly is possible.

In addition, the flange plate 221, the assembling protrusion 222 and the assembling groove 223 is formed is assembled with the assembly groove 223 and the assembling protrusion 222 of the other flange plate 221, respectively, unit corrugated steel sheet 20 ) Can be easily and quickly assembled when circumferentially connected.

FIG. 5 is a first installation example of a corrugated steel tunnel having a reinforced bottom support structure according to the present invention, and FIG. 6 is a second installation example of a corrugated steel tunnel having a reinforced bottom support structure according to the present invention.

5 and 6, the tunnel structure 10 is supported by the foundation concrete 30 provided on the installation floor. Two structures for fixing the tunnel structure 10 on the foundation concrete 30 are proposed.

The first structure, as shown in Figure 5, to form a support groove 31 wider than the bottom thickness of the tunnel structure 10 on the top of the base concrete 30, thereby recessing the bottom of the tunnel structure 10 do. Then, by filling the non-shrink mortar 32 in the surplus space formed by the difference in the thickness of the lower end of the tunnel structure 10 and the size of the support groove 31, the lower end of the tunnel structure 10 in the support groove 31 It is fixed at.

For reference, non-shrinking mortar refers to a mixture of cement and sand in a ratio of about 1: 3, as known, and kneaded with water, and has good strength, fire resistance, and durability, and is based on excellent strength. It is used for the part or foundation part where various loads are required.

The second structure, as shown in Figure 6, is installed in the upper portion of the base concrete 30, the fastening member 40 consisting of the L-shaped channel 41 and the anchor bolt 42 bound thereto, to be embedded, The lower portion of the tunnel structure 10 is fixed to the foundation concrete 30 by fastening the lower portion of the tunnel structure 10 on the female channel 41.

Here, a hook portion 42a may be formed at a lower end of the anchor bolt 42, and among the reinforcing bars 33 arranged in the interior of the foundation concrete 30, the hook bar 42a may be caught. As a result of the reinforcement of 33a), even when the anchor bolt 42 is damaged by the cracking and breakage of the foundation concrete 30, it is possible to strengthen the binding force of the anchor bolt 42, thereby increasing the reliability of the lower support structure of the corrugated steel sheet. Can increase.

7A is a first state diagram in which a load distribution structure part is installed in a corrugated steel tunnel according to the present invention, and FIG. 7B is a second state diagram in which a load distribution structure part is installed in a corrugated steel tunnel according to the present invention. 3 is a third state diagram in which a load distribution structure part is installed in a corrugated steel tunnel according to the present invention.

Referring to the drawings, the corrugated steel tunnel according to the present invention may be a load distribution structure 50, a concrete structure in order to distribute the upper load of the tunnel structure (10).

The load distributing structure part 50 separates and disperses the upper load of the tunnel structure 10 into the load distributing structure part 50 and the tunnel structure 10 without concentrating on the tunnel structure 10. Prevents the occurrence of

The load distribution structure 50 is configured to be longer than the width of the tunnel structure 10, the construction position is arranged in contact with the upper portion of the tunnel structure 10 as shown in Figure 7a, or as shown in Figure 7b and the ground It may be disposed between the upper surface of the tunnel structure 10, or may be disposed on the ground as shown in Figure 7c. The above three types of arrangement can be arranged according to the site situation in consideration of effective load distribution.

In addition, the load-distributing structure 50 may be directly installed on the soil layer on the tunnel structure 10, or alternatively, the load distribution structure 50 may be manufactured in advance in a panel form and then transported to the site for installation.

In the detailed description of the present invention described above with reference to the embodiments of the present invention, those skilled in the art or those skilled in the art having ordinary knowledge in the art and the scope of the invention described in the claims It will be understood that various modifications and variations of the present invention can be made without departing from the scope thereof.

10: tunnel structure 20: unit corrugated steel sheet
21: wavy portion 30: foundation concrete
31: support groove 32: non-shrink mortar
40: fastening member 41: L-shaped channel
42: anchor bolt 50: load distribution structure
200: assembly portion 210: longitudinal coupling portion
211: horizontal flange 212: vertical flange
220: circumferential coupling portion 221: flange plate

Claims (5)

The arc shaped unit corrugated steel plates 20 having the corrugated portion 21 are assembled in a semicircular or arcuate shape to form a tunnel structure 10, and the lower portion of the unit corrugated steel sheet 20 at both ends of the tunnel structure 10 is formed. Supported by the foundation concrete (30) provided on the installation floor,
A longitudinal coupling portion 210 is provided at the front and rear ends of the unit corrugated steel sheet 20, and the longitudinal coupling portion 210 vertically bends inward from the horizontal flange 211 and the horizontal flange 211. And a vertical flange 212 having a fastening hole 212a, and the vertical flange 212 is brought into close contact with the relative vertical flange 212 of another unit corrugated steel sheet 20 to be fastened to the two vertical flanges that are in close contact with each other. Assemble the ball by tightening it with the fastening bolt (b) and the fastening nut (n),
The circumferential coupling portion 220 is provided at the left and right ends of the unit corrugated steel sheet 20, and the circumferential coupling portion 220 is provided at the left and right ends of the unit corrugated steel sheet 20. A flange plate 221 having a hole 221a is formed, and the flange plate 221 is brought into close contact with the mating flange plate 221 of another unit corrugated steel sheet 20 to close the fastening hole of the two flange plates in close contact. Assemble by fastening as fastening bolt (b) and fastening nut (n),
Assembling protrusions 212b and 222 and assembling grooves 212c and 223 are formed in the vertical flange 212 and the flange plate 221, and the assembling groove 212c formed in the other vertical flange 212 and the flange plate 221. And is configured to be assembled with the assembling protrusions 212b and 222).
A portion of the anchor bolt 42 is embedded in the upper portion of the base concrete 30, and the L-shaped channel 41 having a plurality of fastening holes 41a is fixedly coupled to the lower end of the tunnel structure 10, The anchor bolt (42) is to pass through the fastening hole (41a) of the L-shaped channel 41, the through bolt (42) is fastened by the anchor nut 43 to secure the tunnel structure,
The anchor bolt 42 has a hook portion 42a formed at a lower end thereof, and a reinforcing bar 33a to which the hook portion 42a is caught among the reinforcing bars 33 disposed inside the base concrete 30. Are added
Corrugated steel tunnel having a reinforced lower support structure, characterized in that the load distribution structure 50 is installed in the concrete structure to distribute the load on top of the tunnel structure (10). delete delete delete delete

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