KR100605560B1 - Assembling structure of tunnel lining using anchor pipe - Google Patents

Abstract

The present invention relates to a lining assembly structure of a prefabricated tunnel using an anchor rod, and more particularly, to simplify the tunnel construction and to shorten the tunnel construction period and to reduce the construction cost. It is about.

An object of the present invention is to install a concrete panel made of a predetermined size on the shotcrete surface and fix it without saving the lining by placing concrete in the field during the construction of the tunnel, thereby reducing the construction cost of the tunnel and the tunnel construction period. To provide a lining assembly structure of the prefabricated tunnel to shorten the time.

In order to achieve the above object, the present invention, the fixing projection (1) protruding to extend along the road on both sides of the road (R) in which the basic drainage path (O) is formed, the fixing projection (1) is fitted Joining grooves 2 are formed on the bottom to be joined, joining protrusions 3 are formed on the upper side, and side arcuate concrete panels 4 are formed to have a constant curvature and form side surfaces of the circular tunnel, and the side arched concrete described above. In the prefabricated tunnel comprising a ceiling arched concrete panel (4-1) is formed in the coupling groove (2) at both ends to be coupled to the top of the panel (4) to form a ceiling of the tunnel; An anchor hole 5 formed in a horizontal direction of the ceiling arched concrete panel 4-1; Inserted into the anchor hole (5) is characterized in that it consists of an anchor rod (6) for supporting the ceiling arch-shaped concrete panel (4-1) does not fall down.

Tunnel lining, prefabricated tunnel inner lining

Description

Assembling structure of tunnel lining using anchor pipe}

1 is a perspective view illustrating a lining assembly structure of a prefabricated tunnel using an anchor rod according to the present invention;

2 is a partially exploded perspective view of FIG.

Figure 3 is a partially enlarged cross-sectional view showing a state of engagement of the anchor bar in Figure 2,

Figure 4 is a cross-sectional view showing a tunnel according to the general in-site pouring lining method.

* Explanation of symbols for the main parts of the drawings

1: fixing protrusion 2: joining groove

3: joint protrusion 4: side arched concrete panel

4-1: Ceiling arched concrete panel 5: Anchor hole

6: anchor rod 50: shotcrete

R: Road O: Foundation Drain

The present invention relates to a lining assembly structure of a prefabricated tunnel using an anchor rod, and more particularly, to simplify the tunnel construction and to shorten the tunnel construction period and to reduce the construction cost. It is about.

In general, in order to construct a tunnel, a process of tunnel excavation, reinforcement, and concrete lining is performed. The above-described concrete lining uses an in-site lining method of manufacturing concrete lining by pouring concrete directly on site. .

That is, as shown in Figure 4 after the reinforcing shotcrete (SHOTCRETE) 50 is placed on the rock excavation surface of the excavated tunnel to even the excavation surface, the non-woven fabric or waterproof sheet on the outer surface of the shotcrete 50 51 will be attached.

After attaching the non-woven fabric or the waterproof sheet 51 to the outer surface of the shotcrete 50, formwork (not shown) is installed there, and the concrete is poured in and cured to form the lining 52.

Of course, when the tunnel construction, the road (R) and the foundation drain (O) is installed.

However, when forming the lining in the tunnel as described above, if the mold is installed and cured by placing concrete, there is a problem that requires a huge construction period and huge construction cost to install and dismantle the formwork.

In addition, since the time required for the process of pouring concrete is very long, there is a problem that the construction of the entire tunnel is delayed.

Accordingly, an object of the present invention is to solve the above problems, and by installing concrete in the predetermined size of the concrete panel to be fixed to the shotcrete surface without installing the lining by pouring concrete at the construction site of the tunnel, It is to provide a lining assembly structure of the prefabricated tunnel using an anchor rod to reduce the construction cost of the construction and shorten the tunnel construction period.

In order to achieve the above object, the present invention, the fixing projections protruding to extend along the road on both sides of the road on which the foundation drainage path is formed, and the joining groove is formed on the bottom surface so that the fixing projections are fitted and bonded to the upper side A side arched concrete panel is formed to have a constant curvature and forms a side of a circular tunnel, and a ceiling arched concrete panel having joining grooves formed at both ends to be coupled to an upper portion of the side arched concrete panel to form a tunnel. In the prefabricated tunnel provided; An anchor hole formed in the transverse direction of the ceiling arched concrete panel; It is characterized in that it further comprises an anchor rod inserted into the anchor hole to support the ceiling arch-shaped concrete panel so as not to fall down.

1 and 2 are a perspective view and an exploded perspective view showing the assembly structure of the lining of the prefabricated tunnel using the anchor rod according to the present invention, so as to extend along the road on both sides of the road (R) on which the foundation drainage (O) is formed; Protruding fixed projection (1), and the joining groove (2) is formed on the bottom surface so that the fixing projection (1) is fitted and coupled, and the joining projection (3) is formed on the upper side and has a curvature of about 4 minutes A side arched concrete panel 4 formed in a predetermined size to form a side of a circular tunnel, and a ceiling arched shape in which a joining groove 2 is formed at both ends to be coupled to an upper portion of the side arched concrete panel 4 to form a ceiling of the tunnel. It consists of a concrete panel (4-1).

Particularly, in the horizontal direction of the ceiling arched concrete panel 4-1, anchor holes 5 are oppositely formed at both sides as shown in FIG. 3, and the ceiling arches are inserted into the anchor holes 5. An anchor rod 6 for supporting the concrete panel 4-1 so as not to fall down is installed.

That is, when the side and ceiling arched concrete panels 4, 4-1 are assembled, the arched concrete panels 4, 4-1 are engaged with each other by the joining protrusions 3 and the joining grooves 2 to form a circle. And, the anchor bar 6 is to connect the ceiling arched concrete panels 4-1 in the horizontal direction to improve the bearing capacity more.

Here, the sides of the joining grooves 2 and the joining protrusions 3 are formed to have a predetermined angle, the angle of which is the weight of the ceiling arch-shaped concrete panel 4-1 assembled in a circular position below By concentrating in the center direction A of the side arched concrete panel 4, the force applied in the downward direction is set to be absorbed and supported at the most appropriate angle.

When explaining the operation and effect of the present invention as described above, after excavating the tunnel for the construction of the tunnel, the shotcrete 50 is poured on the inner surface of the tunnel, and when the shotcrete 50 is hardened, the nonwoven fabric or The waterproof sheet 51 is attached.

In this state, the joining grooves of the side arched concrete panel 4 are engaged with the fixing protrusions 1 formed on both sides of the road R, and the side arched concrete panel 4 is placed in an upright state.

When the side arched concrete panel 4 is erected in an upright state, the left and right flows of the side arched concrete panel 4 can be suppressed by the fixing protrusion 1 and the joining groove 2, in this state. The ceiling arched concrete panel 4-1 is coupled to the upper surface of the side arched concrete panel 4.

Of course, when the ceiling arched concrete panel 4-1 is coupled, the arched concrete panels 4 and 4-1 are installed in a circular state while the anchor rod 6 is inserted into the anchor hole 5.

When the anchor rod 6 is inserted between the ceiling arched concrete panel 4-1, the anchor rod 6 serves to support the arched concrete panel.

When the arcuate concrete panels 4 and 4-1 are engaged with each other by the joining grooves 2 and the joining protrusions 3, they are not flowed and are firmly supported by the anchor rods 6. The construction process becomes very simple and the construction period of the tunnel can be greatly shortened.

That is, since the time required to install and release the concrete on the site and curing the mold is not required as in the prior art, the construction period of the tunnel can be shortened.

In addition, it is only to assemble in the tunnel by moving the concrete panels (4, 4-1) made in advance during the construction of the tunnel, it is possible to further improve the safety of the operator compared to the conventional site-cast concrete.

As described above, the present invention forms a joining groove and a joining protrusion at both ends of the arched concrete panel so as to form a circular shape by stacking a plurality of arched concrete panels, and when supporting it in the transverse direction with an anchor rod, the lining of the tunnel can be easily constructed. In addition to this, there is an advantage that can shorten the tunnel manufacturing air and reduce the manufacturing cost.

Claims (2)

Fixing protrusions protruding to extend along the road on both sides of the road in which the foundation drainage path is formed, and a joining groove is formed on the bottom surface so that the fixing protrusions are fitted into the joining groove, and a joining protrusion is formed on the upper side and is formed to have a constant curvature. A prefabricated tunnel having a side arched concrete panel forming a side of a circular tunnel and a ceiling arched concrete panel coupled to an upper portion of the side arched concrete panel and formed with grooves at both ends to form a ceiling of the tunnel; An anchor hole formed in the transverse direction of the ceiling arched concrete panel; The lining assembly structure of the prefabricated tunnel using the anchor rod further comprises an anchor rod inserted into the anchor hole to support the ceiling arch-shaped concrete panel not to fall down. delete

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