JP2018012962A - Tunnel structure having arch culvert installed therein, and construction method for the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve a problem when constructing a road, a water channel or the like in a hilly or mountainous land that a ground is sometimes inclined and an earth retaining blade of a culvert member at a pit mouth in such an area becomes inclined upward or downward, and if an earth retaining wall was constructed on the area, the earth retaining wall or a soil material could collapse.MEANS FOR SOLVING THE PROBLEM: A tunnel structure for an inclined road or water channel having an arch culvert installed therein is constructed in the following steps for: installing a precast arch culvert along an inclination at a pit mouth part with an inclined road or water channel; constructing a cast-in-place semi-annular earth retaining wall vertically on an outer peripheral surface of the arch culvert; and constructing near the pit mouth part a reinforcement earthen wall, an L-shaped retaining wall, a concrete block masonry structure or a similar earth retaining structure, with a horizontal bottom surface and a vertical wall at the pit mouth part.SELECTED DRAWING: Figure 1

Description

  The present invention has an inclination in which an arch culvert composed of an arch culvert near a pit and a reinforced earth wall, an L-type retaining wall, a concrete block product, or a similar earth stop installed on an inclined road or waterway is laid. The present invention relates to a tunnel structure of a road or a waterway and a construction method thereof.

An arch culvert is a concrete culvert with an arch-shaped upper section, and a base concrete is constructed on a foundation ground such as a waterway or a road, and a plurality of precast arch culvert members are arranged side by side in an arch shape. Assembled and constructed. Then, earth and sand are embanked on the arched culvert to form a tunnel structure. At that time, the shape of the outer periphery of the arch culvert near the tunnel entrance is arched, and it is difficult to join a reinforced earth wall, an L-type retaining wall, a concrete block product, or a similar earth stop adjacent to it. Met.
Incidentally, a retaining wall called a wing protrudes from the culvert of the box culvert.

However, grounds such as roads and waterways are not always horizontal and inclined in hills and mountainous areas as tunnel construction sites by culverts.
The wing of the culvert member at the wellhead in such a place is inclined upward or downward.
Then, when the retaining wall is formed in that portion, there arises a problem that the retaining wall and the embankment material collapse.

The present invention solves the above-described technical problem, and is a tunnel structure in which an arch culvert having the following invention configuration is laid and a construction method thereof.
[1] A tunnel structure in which an arch culvert is laid on an inclined road or waterway near the wellhead,
An arch culvert characterized in that a semi-annular retaining wall is suspended on the outer peripheral surface of the inclined arch culvert at the pit entrance, and an earth stop is laid adjacent to the suspended semi-circular retaining wall. Is a tunnel structure.
[2] The earth retaining is any one selected from a reinforced earth wall, an L-type retaining wall, or a concrete block product, and the bottom surface thereof is horizontal, and the earth retaining wall of the wellhead is vertical or inclined. A tunnel structure in which the arch culvert described in [1] is laid.
[3] The arch culvert described in [1] or [2], wherein the arch culvert is composed of a plurality of precast arch culvert members, and the semi-annular retaining wall is formed of a cast-in-place concrete wall. Tunnel structure.
[4] In a method of constructing a tunnel structure in which an arch culvert is laid on a road or waterway with an inclination near the wellhead,
An arch culvert is provided at the pit entrance in accordance with the inclination, and then a semi-annular retaining wall is vertically provided on the outer peripheral surface of the arch culvert, and then a soil stop is laid adjacent to the suspended semi-annular retaining wall. A method of constructing a tunnel structure with a characteristic arch culvert.
[5] The earth retaining is any one selected from a reinforced earth wall, an L-shaped retaining wall, or a concrete block product, and the bottom surface thereof is horizontal, and the earth retaining wall of the wellhead is vertical or inclined. A method for constructing a tunnel structure in which an arch culvert according to [4] is laid.
[6] The arch culvert described in [4] or [5], wherein the arch culvert is composed of a plurality of precast arch culvert members, and the semi-annular retaining wall is composed of a cast-in-place concrete wall. How to build a tunnel structure.

According to the present invention, the semicircular earth retaining wall in which the arch culvert laid in accordance with the gradient in the tunnel structure in which the arch culvert that is an inclined road or waterway is laid in accordance with the gradient is suspended on the outer peripheral surface thereof. Since there is a wall and a soil barrier is laid in the vicinity of the wellhead, there is no problem that the soil barrier wall and the soil material collapse.
In addition, a reinforced earth wall, an L-shaped retaining wall, a concrete block product, or a similar earth stop can be easily laid in the vicinity of the wellhead portion so that the bottom surface is horizontal and the wellhead wall is vertical.
As the earth retaining method, a reinforcing earth wall, an L-type retaining wall, a concrete block product, or a similar earth retaining method can be selected, and the construction period can be shortened and the cost can be reduced.

It is a general | schematic longitudinal cross-sectional view of this invention. It is a side view of the arch culvert member 2a in the vicinity of the wellhead. It is a front view of the vicinity of a wellhead.

In the present invention, first, as shown in FIG. 1, a precast arch culvert 2 is laid by connecting a large number of arch culvert members 2 a to an inclined road or waterway 1.
In the conventional method, when there is an inclination, the arch culvert member 2a of the wellhead is also provided with an inclination, and the existing earth retaining semi-annular rib-shaped wall (3) (not shown) is also provided. Inclined state.
Then, there is a risk that the upper wall of the embankment material collapses.
Therefore, in the present invention, a semicircular rib-like wall 3 for earth retaining is placed in place on the arch culvert member 2a in a vertical manner.
Furthermore, reinforced soil walls, L-type retaining walls, concrete block products, or similar retaining walls 4 are constructed with the bottom surface horizontal and the pit wall vertically laid, that is, in the same manner as normal flat ground construction, It is possible to secure the strength of the entire tunnel structure of the inclined road.
In the present invention, a large number of arch culvert members 2a are produced by molding and curing (precast) at a factory, and the arch culvert 2 is easily laid by connecting them at the site.
However, the semicircular earth retaining wall 3 made of concrete is vertically placed and cured on the arch culvert member 2a at the wellhead using a formwork at the site.
The reinforced earth wall construction method is a construction method in which a vertical slope is formed by laying steel strips (strip bars) as reinforcements in the embankment material in multiple stages, and the slope strength is increased.
By the above, the earth retaining wall can be easily formed in a vertical or slope at the tunnel well opening part of an inclined road or waterway, there is no risk of the earth retaining wall or embankment collapsing, and the strength near the well opening is maintained. A safe and sloping road or waterway tunnel structure is provided.

Next, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a schematic longitudinal sectional view of a tunnel structure of the present invention, FIG. 2 is a side view of an arch culvert member 2a in the vicinity of a wellhead, and FIG. 3 is a front view in the vicinity of a wellhead.
First, a foundation (crushed stone, concrete, etc.) corresponding to the earth strength required for the ground on which the arch culvert is to be laid is constructed, and a number of arch culvert members 2a are arranged side by side, and are tensioned by a steel wire or the like. Then, concrete is poured into the bottom plate to construct a concrete slab, or a precast concrete slab is laid in advance, and then a large number of arch culvert members 2a are arranged side by side.
Next, the semi-annular retaining wall 3 is suspended from the outer peripheral surface of the arch culvert member 2a at the wellhead.
When the semi-annular retaining wall 3 is suspended, there are (1) a method in which a reinforcing bar is embedded in the arch culvert member 2a at the time of factory production, and (2) a method in which the reinforcing bar is fixed with an embedded anchor after curing.
Then, at the construction site, a large number of bar-shaped reinforcing bars are projected and fixed on the outer peripheral surface of the arch culvert member 2a at the wellhead, and then the reinforcing bars are assembled, and then the formwork is assembled vertically, and then the concrete is poured and cured.
Thereby, the semi-annular earth retaining wall 3 made of concrete suspended from the outer peripheral surface of the arch culvert member 2a is formed.
Thereafter, a reinforced earth wall, an L-shaped retaining wall, a concrete block product, or a similar earth stop 4 is laid in the wellhead adjacent to the semi-annular retaining wall 3.

1: Foundation ground 2: Arch culvert 2a: Arch culvert member 3: Semi-annular retaining wall 4: Reinforced earth wall, L-shaped retaining wall, concrete block product, or similar earth retaining

The present invention solves the above-described technical problem, and is a tunnel structure in which an arch culvert having the following invention configuration is laid and a construction method thereof.
[1] A tunnel structure in which an arch culvert is laid on an inclined road or waterway in the vicinity of the wellhead,
A semi-annular retaining wall (3) is suspended on the outer peripheral surface of the inclined arch culvert (2) at the pit entrance, and the earth retaining (4) is adjacent to the suspended semi-circular retaining wall (3 ). Ri but Na is laid, and the arch culvert comprises a plurality of precast arch culvert member and said arch culvert to semi-annular earth retaining wall (3), wherein Rukoto such consists of the in-place concrete wall construction Tunnel structure.
[2] The earth retaining (4) is any one selected from a reinforced earth wall, an L-shaped retaining wall, or a concrete block product, and the bottom surface thereof is horizontal and the earth retaining wall of the wellhead is vertical or The tunnel structure in which the arch culvert according to [1] is laid, wherein the tunnel structure has a slope.
[3] In a method for constructing a tunnel structure in which an arch culvert is laid on a road or waterway having an inclined vicinity of a wellhead,
An arch culvert (2) is provided at the pit entrance according to the inclination using a plurality of precast arch culvert members (2a), and then a semi-annular retaining wall (3) is provided on the outer peripheral surface of the arch culvert (2). A tunnel structure in which an arch culvert is laid, in which a concrete wall is placed in a vertical position, and then an earth retaining wall (4) is laid adjacent to the suspended semi-annular retaining wall (3) How to build.
[4] The earth retaining wall (4) is any one selected from a reinforced earth wall, an L-type retaining wall, or a concrete block product, and the bottom surface thereof is horizontal, and the earth retaining wall (4) of the wellhead portion The method for constructing a tunnel structure in which the arch culvert is laid down according to [3], characterized in that is vertical or inclined .

According to the present invention, the wellhead portion vicinity of a certain road or waterway in which arch culvert arch culvert laid inclined accordance gradient wellhead section laying tunnel gradient structure has been vertically on the outer peripheral surface Since it has a semi-annular earth retaining wall and an earth stop is laid in the vicinity of the wellhead portion, there is no problem that the earth retaining wall and the earth material collapse.
The arch culvert is composed of a plurality of precast arch culvert members and the semi-annular retaining wall (3) is made of cast-in-place concrete wall. 3) is a cast-in-place, resulting in good productivity and workability.
Furthermore, a reinforced earth wall, an L-shaped retaining wall, a concrete block product, or similar earth retaining can be easily laid in the vicinity of the wellhead portion so that the bottom surface is horizontal and the wellhead portion wall is vertical.
As the earth retaining method, a reinforcing earth wall, an L-type retaining wall, a concrete block product, or a similar earth retaining method can be selected, and the construction period can be shortened and the cost can be reduced.
As described above, the retaining wall can be easily formed vertically on the tunnel wellhead part of an inclined road or waterway, there is no danger of the retaining wall or embankment material collapsing, and the strength near the wellhead is maintained. A safe and sloped road or waterway tunnel structure is provided.

Claims (6)

It is a tunnel structure in which an arch culvert is laid on an inclined road or waterway near the wellhead,
An arch culvert characterized in that a semi-annular retaining wall is suspended on the outer peripheral surface of the inclined arch culvert at the pit entrance, and an earth stop is laid adjacent to the suspended semi-circular retaining wall. Is a tunnel structure.   The earth retaining is any one selected from a reinforced earth wall, an L-type retaining wall, or a concrete block product, and the bottom surface thereof is horizontal, and the earth retaining wall of the wellhead is vertical or inclined. The tunnel structure in which the arch culvert according to claim 1 is laid.   The tunnel structure in which the arch culvert is laid according to claim 1 or 2, wherein the arch culvert is composed of a plurality of precast arch culvert members, and the semi-annular retaining wall is composed of a cast-in-place concrete wall. In the method of constructing a tunnel structure in which an arch culvert is laid on a road or waterway with an inclination near the wellhead,
An arch culvert is provided at the pit entrance in accordance with the inclination, and then a semi-annular retaining wall is vertically provided on the outer peripheral surface of the arch culvert, and then a soil stop is laid adjacent to the suspended semi-annular retaining wall. A method of constructing a tunnel structure with a characteristic arch culvert.   The earth retaining is any one selected from a reinforced earth wall, an L-type retaining wall, or a concrete block product, and the bottom surface thereof is horizontal, and the earth retaining wall of the wellhead is vertical or inclined. The method for constructing a tunnel structure in which the arch culvert is laid according to claim 4. The arch culvert is composed of a plurality of precast arch culvert members, and the semi-annular retaining wall is composed of a cast-in-place concrete wall. Method.

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