KR20090114000A - Reinforcement structure for tunnel and reinforcement method using the same - Google Patents

Abstract

PURPOSE: A tunnel crown reinforcing structure and a tunnel crown reinforcing method using the same are provided to prevent the stress concentration and cracking of a crown of a tunnel. CONSTITUTION: A tunnel crown reinforcing structure is composed of plural anchor members(100), plural reinforcing bar arrangement members(200), and a lining concrete(300). The plural anchor members are installed in a crown of a tunnel(10). A hook is formed in the lower part of the anchor member. The plural reinforcing bar arrangement members are installed to be supported by being hanged at the hook of the anchor member. The anchor members and the reinforcing bar arrangement members are laid in the lining concrete.

Description

Tunnel end reinforcement structure and tunnel end reinforcement method using same {REINFORCEMENT STRUCTURE FOR TUNNEL AND REINFORCEMENT METHOD USING THE SAME}

The present invention relates to the field of civil engineering, and more particularly, to a structure and a method for reinforcing the top end of a tunnel.

The tunnel is a structure for resisting the surrounding earth pressure through the ground, and since the whole structure is integrally resistant to external force, there is a problem that structural stability is very weak when stress concentration and cracking occur in a part.

In particular, as shown in Figure 1, the top end (upper end) of the tunnel 10 is a site where stress concentration is likely to occur due to temperature changes, drying shrinkage, vibration, etc., the lining concrete 1 is placed firmly Cracks frequently occur for reasons such as being difficult to do, which affects the stability of the entire tunnel structure as described above.

Therefore, the study on the structure for efficiently reinforcing the top end of the tunnel was urgently needed.

The present invention has been made to solve the above problems, and an object of the present invention is to propose a tunnel top end reinforcing structure and a tunnel top end reinforcing method using the same to prevent stress concentration and cracking at the top end of the tunnel. .

The present invention, in order to achieve the above object, a plurality of anchor members 100 are provided with a gap at the top end of the tunnel 10, the hook 101 is formed at the bottom; A plurality of reinforcement members 200 installed to be caught and supported by the hooks 101 of the plurality of anchor members 100; The anchor member 100 and the reinforcement member 200 is presented to the tunnel top end reinforcement structure including;

The anchor member 100 is a bolt 110 inserted into the tunnel 10; Waterproof pack 120 installed on the lower outer circumference of the bolt 110; Nut 130 coupled to the lower portion of the bolt 110; It is preferred that the upper end is coupled to the lower portion of the bolt 110 or the nut 130, the extension portion 140 is formed with the hook 101 at the bottom.

The nut 130 is preferably provided with a separating portion 132 in the core portion to separate the upper region into which the bolt 110 is inserted and the lower region into which the extension 140 is inserted.

A drain sheet 20 installed on the top wall of the tunnel 10; It further comprises a; waterproof sheet 30 installed on the outer surface of the drain sheet 20, the waterproof pack 120 is preferably installed on the outer surface of the waterproof sheet (30).

The upper end of the nut 130, the fixing portion 131 is formed extending in the side, the fixing portion 131 is preferably inserted into the waterproof pack 120 is fixed.

The plurality of reinforcement members 200 may be implemented by a structure including a wire mesh 210.

The plurality of reinforcement member 200 is a plurality of reinforcing bars 220 is supported by the plurality of anchor members 100; It is preferable to include; a plurality of main reinforcing bars 221 installed to form a substantially right angle with the plurality of lifting bars (220).

The present invention is a tunnel top end reinforcing method for constructing the tunnel top end reinforcing structure, comprising: drilling a plurality of anchor member installation holes (11) on the top end wall of the tunnel (10); Installing the plurality of anchor members (100) in the plurality of anchor member installation holes (11); Installing the plurality of reinforcement members (200) so as to be caught and supported by the plurality of anchor members (100); Installing formwork (310) for placing the lining concrete (300) such that both ends of the predetermined section are closed in the longitudinal direction of the tunnel (10); And a lining concrete pouring step of forming a pouring hole 311 at an upper end of the closed end of the formwork 310 and pouring the lining concrete 300 through the pouring hole 311. The tunnel tip reinforcement method is presented.

The laying of the lining concrete 300 may include inserting a pipe 320 into the pouring hole 311 to position the opening of the pipe 320 at the other closed end of the formwork 310; Pouring the lining concrete (300) through the pipe (320); It is preferable to include; pouring the lining concrete 300 while gradually retreating the pipe 320.

The pipe 320 is preferably guided through the upper portion of the reinforcement member 200.

The present invention proposes a tunnel top end reinforcing structure and a tunnel top end reinforcing method using the same to prevent stress concentration and cracking at the top end of the tunnel.

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

As shown in FIG. 2 or less, the tunnel end reinforcement structure according to the present invention is basically installed at intervals at the top end of the tunnel 10, and a plurality of anchor members having hooks 101 formed at the bottom thereof ( 100); A plurality of reinforcement members 200 installed to be caught and supported by the hooks 101 of the plurality of anchor members 100; Anchor member 100 and the reinforcement member 200 is lining concrete 300 is placed to be embedded; is configured to include.

That is, a plurality of anchor members 100 are installed at the top end of the tunnel 10, and a plurality of back members 200 are installed to be supported by the anchor member 100, and then the lining concrete 300 is embedded so that they are embedded. By pouring, the top end of the tunnel is reinforced by the composite structure of anchor-reinforcement-concrete.

In this structure, even if harmful stresses occur due to temperature change, drying shrinkage, vibration, etc., the stress will be distributed to the entire area of the tunnel 10 through the reinforcement member 200 and the anchor member 100. Can be prevented, and thus the possibility of cracking can be greatly reduced.

In addition, since the hook 101 is formed at the lower end of the anchor member 100 and the reinforcement member 200 is installed thereon, even if the height of the top end of the tunnel 10 is high, the installation work of the reinforcement member 200 is easy. You can get additional effects.

The anchor member 100 is provided at intervals at the top end of the tunnel 10, and any structure may be used as long as the hook 101 is formed at the lower end to support the back muscle member 200.

4, the bolt 110 inserted into the installation hole 11 of the tunnel 10; Waterproof pack 120 installed on the lower outer circumference of the bolt 110; Nut 130 coupled to the lower portion of the bolt 110; When the upper portion is coupled to the lower portion of the bolt 110 or nut 130, and the extension portion 140 is formed with a hook 101 at the bottom; taking a structure including, for the installation of the anchor member 100 It is more preferable in terms of preventing groundwater from flowing out through the installation hole 11 formed in the tunnel 10.

Furthermore, in the case where the separating part 132 is formed in the core portion so as to separate the upper region into which the bolt 110 is inserted from the nut 130 and the lower region into which the extension 140 is inserted, the outflow of the groundwater is further increased. There is an effect that can be reliably prevented.

In general, the drainage sheet 20 is installed on the top end wall surface of the tunnel 10, the waterproof sheet 30 is installed on the outer surface, the waterproof pack 120 in the above structure on the outer surface of the waterproof sheet 30 It is preferable to install in a manner such as thermal fusion in terms of obtaining a more excellent waterproof effect.

Furthermore, when the fixing part 131 is extended to the upper side of the nut 130, and the fixing part 131 has a fixed structure inserted into the waterproof pack 120, the nut 130 and the waterproof effect More preferred in terms of achieving a rigid coupling structure of the extension member 140.

The plurality of reinforcement members 200 may be any structure as long as they are supported by the hooks 101 of the anchor members 100 and embedded in the lining concrete 300 to reinforce the top ends of the tunnels 10.

Figure 2 shows an embodiment when the wire mesh 210 is applied as the reinforcement member 200, Figure 3 shows an embodiment when the reinforcing bar is used.

In the case of the embodiment of Figure 3, a plurality of lifting rebar 220 is supported by the anchor member 100 as the reinforcement member 200; Since a plurality of main reinforcing bars (221) installed to form a substantially right angle with the plurality of lifting reinforcing bars 220; is configured to include, it is preferable in terms of obtaining a superior reinforcing effect, and additional auxiliary reinforcing bars (222), etc. as necessary Can be installed as

Tunnel top end reinforcement method according to the present invention is to construct a tunnel end end reinforcement structure as described above, the step of drilling a plurality of anchor member installation hole 11 on the top end wall surface of the tunnel (10); Installing a plurality of anchor members 100 in the plurality of anchor member installation holes 11; Installing a plurality of reinforcement members 200 so as to be caught and supported by the plurality of anchor members 100; Installing formwork 310 for placing lining concrete 300 so that both ends of the predetermined section are closed in the longitudinal direction of the tunnel 10; Forming the pouring hole 311 in the upper end of the closed end of the formwork 310, the lining concrete pouring step of pouring the lining concrete 300 through the pouring hole (311); is configured to include.

That is, in installing the formwork 310 for placing the lining concrete 300, as shown in Figure 6, so that both ends of a certain section in the longitudinal direction of the tunnel 10 is closed, of the formwork 310 It is to form a pour hole 311 in the upper end of the closed one, and to pour the lining concrete 300 through the pour hole (311).

Therefore, since concrete is poured only within the closed section above the formwork 310, there is an effect that a tight structure can be obtained.

6 and 7, the pipe 320 is inserted into the pour hole 311 so that the opening of the pipe 320 is positioned at the other closed end of the formwork 310 and the pipe 320 is inserted into the pipe 320. In order to pour the lining concrete 300, it is more preferable to finish the pour of the lining concrete 300 while gradually retreating the pipe 320.

That is, since the concrete is poured from a part far away from the casting hole 311 (the corner portion of the die) of the formwork 310, the casting work is finished at the portion close to the placing hole 311, so that the more concrete placing Because work becomes possible.

Such insertion and reversal driving of the pipe 320 is more preferable for the tight casting of concrete to be guided through the upper part of the upper reinforcement member 200 than the surface contact with the upper surface of the formwork 310. .

Since the above is merely described with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above All of the technical ideas together with the technical idea of the base will be included in the scope of the present invention.

1 is a cross-sectional view of a conventional tunnel.

Figure 2 below shows an embodiment of the present invention,

2 is a sectional view of a first embodiment of a reinforcing structure;

3 is a sectional view of a second embodiment of a reinforcing structure;

4 is a cross-sectional view of the anchor member.

5 is a bottom view of a second embodiment of a reinforcing structure.

6,7 is a process chart of the lining concrete pouring work.

** Description of the symbols for the main parts of the drawings **

10 tunnel 11 anchor member installation hole

20: drain sheet 30: waterproof sheet

100: anchor member 101: hook

110: bolt 120: waterproof pack

130: nut 140: extension

200: reinforcement member 210: wire mesh

220: reinforced bar 221: cast iron

300: lining concrete 310: formwork

311: pour ball 320: pipe

Claims (10)

A plurality of anchor members 100 installed at intervals at the top ends of the tunnels 10 and having hooks 101 formed at lower ends thereof; A plurality of reinforcement members 200 installed to be caught and supported by the hooks 101 of the plurality of anchor members 100; Lining concrete 300 is placed so that the anchor member 100 and the reinforcement member 200 is embedded; Tunnel end reinforcement structure comprising. The method of claim 1, The anchor member 100 A bolt 110 inserted into the tunnel 10; Waterproof pack 120 installed on the lower outer circumference of the bolt 110; Nut 130 coupled to the lower portion of the bolt 110; The upper portion is coupled to the lower portion of the bolt 110 or the nut 130, and the extension portion 140 is formed with the hook 101 at the bottom; Tunnel top end reinforcement structure comprising a. The method of claim 2, The nut 130 is Tunnel top end reinforcement structure, characterized in that provided with a separating portion 132 in the core to separate the upper region into which the bolt 110 is inserted and the lower region into which the extension 140 is inserted. The method of claim 2, A drain sheet 20 installed on the top wall of the tunnel 10; Further comprising; a waterproof sheet 30 installed on the outer surface of the drain sheet 20, The waterproof pack 120 is a tunnel top end reinforcement structure, characterized in that installed on the outer surface of the waterproof sheet (30). The method of claim 4, wherein Tunnel end reinforcement structure, characterized in that the fixing portion 131 is extended to the upper side of the nut 130, the fixing portion 131 is fixed to the waterproof pack 120. The method of claim 1, The plurality of muscle members 200 Tunnel top end reinforcement structure comprising a wire mesh (210). The method of claim 1, The plurality of muscle members 200 A plurality of lifting rebars 220 supported by the plurality of anchor members 100; A plurality of cast iron bars 221 installed to form a substantially right angle with the plurality of lifting bars 220; Tunnel top end reinforcement structure comprising a. A tunnel tip end reinforcement method for constructing a tunnel end end reinforcement structure according to any one of claims 1 to 7, Drilling a plurality of anchor member installation holes (11) on the top end wall of the tunnel (10); Installing the plurality of anchor members (100) in the plurality of anchor member installation holes (11); Installing the plurality of reinforcement members (200) so as to be caught and supported by the plurality of anchor members (100); Installing formwork (310) for placing the lining concrete (300) such that both ends of the predetermined section are closed in the longitudinal direction of the tunnel (10); A lining concrete pouring step of forming a pouring hole 311 at an upper end of the closed end of the formwork 310 and pouring the lining concrete 300 through the pouring hole 311; Tunnel top end reinforcement method comprising a. The method of claim 8, The lining concrete 300 pouring step Inserting a pipe (320) into the pour hole (311) to position the opening of the pipe (320) at the other closed end of the formwork (310); Pouring the lining concrete (300) through the pipe (320); Pouring the lining concrete 300 while gradually retracting the pipe 320; Tunnel top end reinforcement method comprising a. The method of claim 9, The pipe 320 is a tunnel tip reinforcement method, characterized in that guided through the upper portion of the reinforcement member (200).

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