KR101222523B1 - Precast tunnel structure using corrugated multi plate - Google Patents

Abstract

The present invention relates to a precast tunnel structure, comprising: a base retaining wall on both sides arranged in a longitudinal direction of a tunnel, and a plurality of precast concrete arch panels provided on an upper portion of the foundation retaining wall, A coupler which is formed to be inclined to abut the lower surface of the end of the precast concrete arch panel, and is disposed in the recess to couple the reinforcing bar protruding from the precast concrete arch panel and the reinforcing bar protruding from the foundation retaining wall; And a sheath pipe inserted into a lower portion of the precast concrete arch panel and the upper portion of the foundation retaining wall and the protrusion, a post tension steel wire inserted into the sheath pipe, and formed outside the foundation retaining wall. It further comprises a fixing hole for fixing to the foundation retaining wall, corrugated steel sheet By providing a precast concrete arch panel, the corrugated steel sheet can be used as a substitute for the formwork for the production of the precast panel, thereby reducing the cost for the formwork, making the construction simpler and easier, and the construction of the foundation retaining wall. Even if a slight error occurs, the construction error can be easily accommodated, and the construction of the joint between the precast concrete arch panel and the foundation retaining wall can be completed safely and simply, and the tension applied to the post tension steel wire It can be configured to be offset by the load acting on the precast concrete arch panel by.

Description

Precast tunnel structure using corrugated steel sheet {PRECAST TUNNEL STRUCTURE USING CORRUGATED MULTI PLATE}

The present invention relates to a precast tunnel structure, and more particularly, to form a precast arch panel using corrugated steel sheet, and to strengthen the joint portion between the precast arch panel and the base wall end of the tunnel, and to simplify the construction. The present invention relates to a precast tunnel structure using corrugated steel sheets capable of improving performance.

In general, construction of new highways, national highways, railways, etc. often pass through mountainous areas as well as flat areas, and especially in mountainous areas, tunnels are not cut off due to natural environmental problems or construction costs. Excavations often open roads.

Tunnels to be excavated are constructed by shotcrete on the rock wall of the tunnel excavated by blasting, embedding rock bolts, waterproofing the surface of the shotcrete, and placing lining concrete layer to complete the tunnel construction.

In recent years, in consideration of ease of construction and economical efficiency, as shown in FIG. 1, tunnels are often constructed using corrugated steel sheets. Corrugated steel sheet is to increase the shape strength by forming the bend of the waveform on the metal plate, there is an advantage that is easy to use and low manufacturing cost than other concrete products. Therefore, not only the general arch structure, but also the semi-circular structure is used, such as the support of the dike channel or tunnel.

When the structure is installed in the tunnel using the corrugated steel sheet described above, the corrugated steel sheets of a predetermined length, which are mass-produced in the factory, are arranged to overlap the edges of adjacent corrugated steel sheets to be fixed to each other using fasteners such as bolts.

As shown in Fig. 2, after the foundation retaining wall formwork is installed in the lower part of the tunnel and the retaining wall is placed, the anchor 2 is fixed to the retaining wall reinforcing bar. Then, the base channel is fastened to the anchor and the retaining wall reinforcement, and then concrete is injected and cured. Then, the corrugated steel sheet 4 formed on the excavation surface of the tunnel is connected to the lower portion of the corrugated steel sheet by bolts and nuts. Fasten to the base channel. Then, backfill the top of the tunnel and compact to complete the tunnel construction.

However, in the case of the tunnel structure made of corrugated steel as shown in FIG. 2, not only the construction of the foundation retaining wall provided below the corrugated steel sheet, but also the construction of anchor bolts and base channels for joining the foundation retaining wall and the corrugated steel sheet. It takes a lot of time, if there is an error in the installation of the base channel and the anchor bolt, there is a problem that the bonding to the corrugated steel sheet is poor and the work for correcting it takes a lot of cost and time.

On the other hand, recently, a method of constructing a tunnel by sequentially installing the site using arc-shaped precast concrete panels manufactured in advance in a factory has been used.

However, when constructing a tunnel using precast concrete panels, there are many problems in joining strength between the joints of the precast panels, especially in the construction of the joints between the precast panels and the foundation retaining wall. There was a problem in the joint strength at the joint.

The present invention is to solve the problems of the prior art described above, the object of the present invention is to prepare a formwork by using a corrugated steel sheet as a substitute for the formwork to prepare a precast concrete arch panel using a corrugated steel sheet Provides a tunnel structure that can safely and simply complete the construction of the joint between the precast concrete arch panel and the foundation retaining wall when the tunnel structure is saved by using the precast concrete arch panel. It is.

In order to achieve the above object, the precast tunnel structure using a corrugated steel sheet according to the present invention, the base retaining walls on both sides arranged in the longitudinal direction of the tunnel, and a plurality of precast concrete arch panels provided on the base retaining wall In the tunnel structure comprising a,

The precast concrete arch panel is composed of a corrugated steel sheet formed by bending in an arc shape along the width direction of the tunnel, a concrete layer filled in the upper portion of the corrugated steel sheet, and the reinforcement is inserted into the concrete layer and reinforced

A concave portion and a protrusion are formed on an upper surface of the foundation retaining wall, and the concave portion is inclined to be parallel to an end surface of the precast concrete arch panel, and a second inclined wall perpendicular to the first inclined wall. An inclined wall, wherein the protrusion is formed under the second inclined wall, and is inclined to be parallel to an end surface of the precast concrete arch panel to be in contact with a bottom surface of the end of the precast concrete arch panel. Formed,

It is characterized in that it further comprises a coupler disposed in the recess to connect the reinforcing bar projecting from the precast concrete arch panel and the reinforcing bar projecting from the foundation retaining wall.

Here, a sheath pipe inserted into a lower portion of the precast concrete arch panel and an upper portion of the foundation retaining wall and the protrusion, a post tension steel wire inserted into the sheath pipe, and an outer portion of the foundation retaining wall It is characterized by further comprising a fixing unit for fixing a steel wire to the foundation retaining wall.

Here, the anchorage is characterized by having an inclined surface formed inclined with respect to the outer surface of the base retaining wall.

Here, the precast concrete arch panel is further provided with a reinforcement is installed in the mountain portion of the corrugated steel plate in the longitudinal direction of the corrugated steel sheet, the reinforcing material is to penetrate the reinforcing bar reinforcement to the precast concrete arch panel It is characterized in that it is a one-shaped beam having a plurality of through holes formed.

In addition, the precast concrete arch panel is characterized in that it further comprises an auxiliary corrugated steel plate is arranged in the direction opposite to the peaks and valleys of the corrugated steel sheet to accommodate and protect the sheath pipe.

The coupler may include a first coupler fastened to an end of the main wall of the foundation retaining wall and inserted into the foundation retaining wall, and coupled to an end of a rebar of the precast concrete arch panel and inserted into the precast concrete arch panel. It is composed of two couplers, characterized in that it further comprises a steel bar that is fastened to each of the first coupler and the second coupler.

According to the tunnel structure according to the present invention having the above-described configuration, by providing a precast concrete arch panel using a corrugated steel sheet, the cost of manufacturing the formwork by using the corrugated steel sheet as a substitute for the formwork for the production of the precast panel Can be saved.

In addition, by providing a concave portion and a protrusion formed inclined to the foundation retaining wall, by arranging the protrusion to abut the precast concrete arch panel, it is possible to prevent the arch panel from falling off by the coupling construction of the coupler after the temporary arrangement. In this state, the construction of the subsequent process is possible, and thus the construction is simpler and easier. Even if a slight error occurs in the construction of the foundation retaining wall, the construction error can be easily accommodated, and the coupler can be used freely. Since the cast concrete arch panel and the base retaining wall can be joined simply and safely, the construction of the joint portion between the precast concrete arch panel and the base retaining wall can be completed safely and simply.

In addition, by introducing a tension force by the post tension steel wire, the foundation retaining wall and the precast concrete arch panel can be formed more integrally, and acts on the precast concrete arch panel by the tension force introduced into the post tension steel wire. It can be configured to offset the load.

1 and 2 show a prior art.
3 is a view showing a tunnel structure according to the present invention.
4 is a detailed view of portion A of FIG. 3.
5 is a cross-sectional view of the precast concrete arch panel of the present invention.
6 is a view showing a reinforcing material of the present invention.
7 is a cross-sectional view taken along line BB of FIG. 4.
8 is a view showing another example of the coupler of the present invention.

Hereinafter, a tunnel structure using a corrugated steel sheet according to the present invention will be described in detail with reference to the accompanying drawings.

3 to 8, the precast tunnel structure 1 according to the present invention includes a foundation retaining wall 10, a precast concrete arch panel 20, a post tension steel wire 32, and a coupler 40. It is configured to include).

The foundation retaining wall 10 is installed on the floor on which the tunnel structure 1 is installed, and is installed on both sides along the longitudinal direction of the tunnel, and a plurality of reinforcing bars such as the main bar and the power bar are arranged inside. Some of the main roots 11 of the main roots placed on the foundation retaining wall 10 are configured to be bent in an arc shape at the upper end of the foundation retaining wall so as to protrude to the outside of the recess described later.

A recess 12 is formed at an upper end of the foundation retaining wall 10, and the recess 12 has a first inclined wall 12a formed to be inclined downward from the upper end of the foundation retaining wall toward the inside. Is formed. The inclination of the first inclined wall 12a is formed to be inclined to be parallel to the end surface of the precast concrete arch panel. In addition, a second inclined wall 12b perpendicular to the first inclined wall 12a is formed in the concave portion.

A protrusion 13 is formed below the recess 12, that is, below the second inclined wall. The protrusion 13 is formed to protrude toward the tunnel side from the inner surface of the foundation retaining wall, the end surface 13a of the protrusion 13 is formed to be inclined to be parallel to the end surface of the precast concrete arch panel It is. The end surface 13a of the protruding portion is disposed to abut the lower surface of the end of the precast concrete arch panel.

The precast concrete arch panel 20 abutting on the protruding portion includes a corrugated steel sheet 21, a concrete layer 23, and reinforcing bars 22 disposed inside the concrete layer.

The corrugated steel sheet 21 is formed to be curved in an arc shape along the width direction of the tunnel structure. Since the precast concrete arch panel is manufactured by using the corrugated steel sheet 21, when manufacturing the precast concrete arch panel in a factory, only the formwork on both sides is manufactured by using the corrugated steel sheet 21 as a substitute for the floor formwork. Since the installation can be done, the time and cost required to install the formwork can be reduced.

Some of the main roots 22 of the main rods placed on the precast concrete arch panel 20 are formed to protrude from the end surface of the precast concrete arch panel.

As described above, by providing a concave portion and a protrusion formed inclined at the upper end of the foundation retaining wall 10, when the precast concrete arch panel is joined, the precast concrete arch panel is temporarily placed on the convex portion After that, the arch panel can be prevented from falling off by the coupling construction of the coupler described later, and construction of the subsequent process can be performed in that state, thereby making construction simpler and easier.

4 and 7, the tunnel structure according to the present invention can further install a post-tensioned steel wire (32).

As shown in FIG. 4, a sheath tube 31 is inserted through a lower portion of the precast concrete arch panel, an upper portion of the foundation retaining wall, and the protrusion, and the precast arch panel is coupled to the foundation retaining wall. After the coupler is installed, the post tension steel wire 32 is inserted into the sheath tube 31, a tension force is applied to the post tension steel wire 32, and the precast is applied by the tension force introduced into the post tension steel wire. Applying a tensile force to the concrete arch panel, and thus can be configured to offset the load acting on the precast concrete arch panel.

Here, the fixing unit 30 for introducing a tension force to the post-tension steel wire 32 is provided on the outer surface of the base retaining wall. The anchorage has an inclined surface (30a) formed inclined with respect to the outer surface of the base retaining wall so that the anchorage 30 is formed perpendicular to the direction of the post-tensioned steel wire, thereby introducing a tension force to the post-tensioned steel wire The post tension steel wire is configured to be stably fixed at the time.

On the other hand, the precast concrete arch panel 20 may be further provided with a reinforcing material (50). As shown in Fig. 6, the reinforcing material 50 is installed in the peak portion of the corrugated steel sheet along the longitudinal direction of the corrugated steel sheet by welding or the like. In the present embodiment, the reinforcing material 50 is composed of a single-shaped iron beam, the reinforcing material is formed with a plurality of through holes 51, the precast concrete arch panel through the plurality of through holes The reinforcing bar 22a arranged at the side is configured to penetrate through. By providing the reinforcing material, not only the reinforcing material functions as a shear key, but also the mechanical coupling force between the reinforcing bar and the corrugated steel sheet can be further improved.

In addition, the precast concrete arch panel may be further provided with an auxiliary corrugated steel sheet 60. The auxiliary corrugated steel sheet 60 cuts the corrugated steel sheet to a predetermined length, and then the corrugated steel sheet 60a in a direction opposite to the peaks 21a and the valleys 21b of the corrugated steel sheet installed at the lower portion of the precast concrete arch panel. ) And the mount 60b are joined to the corrugated steel sheet 21 by a welding or bolting method. By providing the auxiliary corrugated steel sheet 60, the post-tensioned steel wire and the sheath pipe are configured to pass through the post tension steel wire and the sheath pipe in the space formed by the corrugated steel sheet 21 and the auxiliary corrugated steel sheet 60. At the same time, the post-tensioned steel wire is further supported by the auxiliary corrugated steel sheet 60 near the middle of the full length, thereby further strengthening the prestressing force introduced into the steel wire.

On the other hand, the foundation retaining wall 10 and the precast concrete arch panel 20 is coupled by a coupler (40). One side of the coupler 40 is fastened to the main root 11 of the foundation retaining wall protruding from the foundation retaining wall 10, the other side of the coupler 40 rebar protruding from one end of the precast concrete arch panel ( 22) is fastened. In addition, after the coupler 40 is fastened, the coupler is disposed in a space in which the recess is formed, and the space of the recess is surrounded by a filler such as mortar and protected from outside air after the installation of the gobbler.

In the present embodiment, the coupler is configured to fasten the reinforcing bar protruding from the foundation retaining wall and the reinforcing bar protruding from the precast concrete arch panel in the space formed by the spacer, as shown in Figure 8, The first coupler 41 is pre-fastened and inserted into the end of the main bar of the foundation retaining wall, and the second coupler 42 is pre-fastened and inserted into the end of the rebar of the precast concrete arch panel. The first coupler and the second coupler may be configured to be fastened by the steel bar 43.

The present embodiment merely shows a part of the technical idea included in the present invention clearly, and modifications and specific embodiments that can be easily inferred by those skilled in the art within the scope of the technical idea included in the specification of the present invention All are included in the technical idea of the present invention.

1: tunnel structure
10: foundation retaining wall
20: precast concrete arch panel
32: post tension liner
40: coupler

Claims (6)

In a tunnel structure comprising a foundation retaining wall on both sides disposed in the longitudinal direction of the tunnel, and a plurality of precast concrete arch panels provided on the foundation retaining wall,
The precast concrete arch panel is composed of a corrugated steel sheet formed by bending in an arc shape along the width direction of the tunnel, a concrete layer filled in the upper portion of the corrugated steel sheet, and the reinforcement is inserted into the concrete layer and reinforced
A concave portion and a protrusion are formed on an upper surface of the foundation retaining wall, and the concave portion is inclined to be parallel to an end surface of the precast concrete arch panel, and a second inclined wall perpendicular to the first inclined wall. An inclined wall, wherein the protrusion is formed under the second inclined wall, and is inclined to be parallel to an end surface of the precast concrete arch panel to be in contact with a bottom surface of the end of the precast concrete arch panel. Formed,
The precast tunnel structure using a corrugated steel sheet further comprising a coupler disposed in the concave to connect the reinforcement reinforced on the precast concrete arch panel and the reinforcement reinforced on the foundation retaining wall.
The method of claim 1,
A sheath tube inserted through a lower portion of the precast concrete arch panel and an upper portion of the foundation retaining wall and the protrusion;
A post tension steel wire inserted into the sheath tube;
A precast tunnel structure using a corrugated steel sheet, characterized in that it further comprises a fixing unit formed on the outer side of the foundation retaining wall for fixing the post tension steel wire to the foundation retaining wall.
The method of claim 2,
The anchorage is a precast tunnel structure using a corrugated steel sheet characterized in that it has an inclined surface formed inclined with respect to the outer surface of the foundation retaining wall.
The method according to any one of claims 1 to 3,
The precast concrete arch panel is further provided with a reinforcement is installed in the mountain portion of the corrugated steel plate in the longitudinal direction of the corrugated steel sheet,
The reinforcing material is a precast tunnel structure using a corrugated steel sheet, characterized in that the beam of a one-shape formed with a plurality of through-holes for the reinforcing bar to be reinforced to the precast concrete arch panel.
The method according to claim 2 or 3,
The precast concrete arch panel is a precast tunnel structure using a corrugated steel sheet further comprises an auxiliary corrugated steel sheet is arranged in the direction opposite to the peaks and valleys of the corrugated steel sheet to accommodate and protect the sheath pipe .
The precast concrete arch panel of claim 1, wherein the coupler is fastened to an end of a main wall of the foundation retaining wall and inserted into the foundation retaining wall, and coupled to an end of a reinforcing bar of the precast concrete arch panel. A second coupler inserted into the
The precast tunnel structure using a corrugated steel sheet, characterized in that further comprising a steel bar coupled to the first coupler and the second coupler, respectively.

Images