JPH1072821A - Construction method of permeable continuous underground wall and cage - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide the construction method of a continuous underground wall and a cage which can prevent collapse of ground while high permeability is secured by tightly adhering a strainer box and a water communicating pipe. SOLUTION: In the construction method of a permeable continuous underground wall, a strainer box and a water communicating pipe 5 are buried in a continuous underground wall to allow underground water flow to pass through. The strainer box 4 slidable in the orthogonal direction to a face of a cage 1 which is in contact with the underground water flow layer is disposed on the face, one end opening part of the water communicating pipe can be freely expanded in the orthogonal direction to an opposite to face the face in contact with the underground water flow layer of the strainer box 4 is connected to the opposite face. A sheet body 3 is disposed on the whole of both the faces of the cage 1 except for the face of the strainer box in contact with the underground water flow layer and the opening part of the water communicating pipe 5 located in the face opposite with respect to strainer box 4, the cage 1 is erected in an excavated groove 2, and concrete is placed between the sheet bodies 3.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a method of constructing a continuous underground wall for water permeability and a reinforcing cage.

[0002]

2. Description of the Related Art As a technique for sufficiently securing a groundwater flow when a continuous underground wall is constructed, as shown in FIGS. 5 and 6, a position where a groundwater flow layer b is present in the middle of a continuous underground wall a. A technique is known in which a strainer box d for collecting and condensing water and a water pipe e are installed in a reinforcing steel basket c so that the groundwater flow b can pass through the continuous underground wall a without interruption.

[0003]

However, when the reinforced cage c of the continuous underground wall a is manufactured on land and inserted into the excavation trench, the strainer box d and the strainer box d are prevented from coming into contact with the trench wall. It is necessary to keep a distance of several centimeters to 10 centimeters between the outer surface of the water pipe e and the groove wall surface. For this reason, a gap f is formed between the outer surface of the strainer box d and the water pipe e and the groove wall after the completion of the construction of the continuous underground wall a, which causes problems such as later collapse and causing subsidence of the surrounding ground. The present invention has been made in order to solve the above problems, the purpose of which is to adhere the strainer box and water pipe to the groove wall,
It is an object of the present invention to provide a method for constructing a water-permeable continuous underground wall and a reinforcing cage, which prevent collapse of the ground while ensuring high water permeability.

[0004]

SUMMARY OF THE INVENTION The present invention relates to a method for constructing a continuous water-permeable underground wall in which a strainer box and a water pipe are buried in a continuous underground wall to pass a groundwater flow. A strainer box slidable in the direction perpendicular to the surface is disposed on the surface in contact with the surface, and the surface of the strainer box opposite to the surface in contact with the groundwater flow layer is freely expandable and contractable in the direction perpendicular to the surface. One end opening of the drainage pipe is connected to the entire surface of the reinforcing bar, except for the surface of the strainer box in contact with the groundwater flow layer and the opening of the drainage pipe on the side opposite to the strainer box. Is installed in the excavation groove, concrete is poured between the sheet bodies, and the strainer box is slid by the concrete driving pressure to make close contact with the wall surface of the excavation groove. , In a state of being in close contact with the wall of the excavation by extending said water passage tube, curing the pouring concrete is characterized by being configured, a method for constructing a water-permeable underground diaphragm walls. Further, according to the present invention, in the above-described method for constructing a water-permeable continuous underground wall, a perforated stopper plate is provided in each of the reinforcing bar and the strainer box, and the holes in the respective stopper plates are overlapped to form the strainer box with the reinforcing bar. The bar cage is inserted into the excavation groove in a state where the strainer box is restrained by vertically inserting a rod-shaped stopper through the holes of the overlapped stopper plate, and the stopper is pulled out before placing concrete. Accordingly, a method for constructing a water-permeable continuous underground wall, characterized in that the strainer box is slidable. The present invention relates to a reinforced cage used in the method for constructing a water-permeable continuous underground wall described above, wherein the reinforced cage and a surface in contact with a groundwater flow layer of the reinforced cage slide in a direction perpendicular to the surface. A strainer box arranged so as to be able to connect an opening at one end to a surface of the strainer box opposite to a surface in contact with the groundwater flow layer, and a water pipe capable of extending and contracting in a direction perpendicular to the downstream side surface, Except for the surface of the strainer box in contact with the groundwater flow layer and the opening on the surface of the water pipe opposite to the strainer box, a sheet body is provided on both sides of the rebar cage. , A reinforced cage. Further, the present invention, in the above-described reinforced cage, by providing a perforated stopper plate in the reinforced cage and the strainer box, respectively, by overlapping the holes of these stopper plates and vertically inserting a rod-shaped stopper, The strainer box can be restrained inside the reinforced cage,
The strainer box is configured to be slidable by pulling out the stopper.

[0005]

Embodiment 1 Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

<A> Overall Structure As shown in FIGS. 1 and 4, the reinforcing bar 1 includes sheet bodies 3, 3 opposed to both wall surfaces 21, 21 of the excavation groove 2, and a space between the sheet bodies 3, 3. A reinforced cage 1 is arranged, and a strainer box 4 and a water pipe 5 are arranged in the reinforced cage 1,
By filling concrete between the sheets 3, 3, the strainer box 4 and the water pipe 5 together with the sheets 3, 3 are provided.
In close contact with the wall surfaces 21 and 21 of the excavation groove 2.

<B> Reinforcing cage The reinforcing cage 1 is a cage for reinforcing a continuous underground wall to be constructed. As shown in FIG. 1 to FIG. 4, the reinforcing bar 1 is inserted into the excavation groove 2 in a state where a strainer box 4 and a water pipe 5 described later are incorporated. At this time, the reinforcement basket 1 is provided with a slide shoe 11 and an upper slide guide 12 in advance so that the strainer box 4 is slidable in a direction perpendicular to the surface of the reinforcement cage 1 in contact with the groundwater flow layer 6. . In addition, a perforated stopper plate 13 is attached to a predetermined member of the reinforcing cage 1 in order to restrain the strainer box 4. Further, a joining steel plate 14 is attached to both short sides of the reinforcing bar 1 over the entire length of the reinforcing bar 1. Bonded steel plate 14
Sheets 3 and 3 cover the entire surfaces of the reinforcing bar 1 except for the surface of the strainer box 4 that contacts the groundwater flow layer 6 and the opening of the water pipe 5 on the side opposite to the strainer box 4. Are attached respectively. Hereinafter, each member provided in the reinforcing bar 1 will be described.

(1) Strainer Box As shown in FIGS. 1 to 4, the strainer box 4 is a member which is slidably mounted in a direction orthogonal to the surface of the reinforced cage 1 in contact with the groundwater flow layer 6, and Attach it at the same level as the groundwater flow 6 in the middle of Step 1. The strainer box 4 is a hollow box that is opened only on the surface that is in contact with the groundwater flow layer 6, and a sheet body made of a water-permeable material such as a steel screen or an endren mat may be attached to the opened side. An upper slide guide 12 is attached to the upper surface of the strainer box 4, and a lower slide guide (not shown) having a slight clearance with the slide shoe 11 is attached to the lower surface of the strainer box 4. As described above, the bottom surface and the top surface of the strainer box 4 are guided by the slide shoe 11 and the upper slide guide 12 so as to be slidable. In addition, a hole is formed on the back surface of the strainer box 4 for connecting an opening at one end of a water pipe 5 described later.

As shown in FIG. 4, the strainer box 4
When the concrete 9 is cast between the sheet bodies 3 and 3, the sheet body 3 arranged around the reinforcing bar 1 is connected to the outer periphery, and the concrete 9 is slid on the slide shoe 11 by the casting pressure. And can be brought into close contact with the wall surface 21 of the excavation groove 2. In addition,
Perforated stopper plate 4 on the side of strainer box 4
2 is attached and matches the hole of the stopper plate 13 of the reinforcing bar 1 described above. The stopper plates 13 and 42
The strainer box 4 is a restraining means for attaching the strainer box 4 to the reinforced cage 1. The strainer box 4 is inserted into the reinforced basket 1 by vertically inserting the rod-shaped stopper 7 in a state where the holes of the stopper plates 13 and 42 are overlapped. Restrained
Can be stored.

(2) Water pipe As shown in FIGS. 1 to 4, the water pipe 5 has one end opening connected to a hole formed on the back surface of the strainer box 4, and allows the groundwater flow 6 to flow to the original ground. It is a member to function similarly. The water pipe 5 is configured to be axially expandable and contractable by an inner water pipe 51 fixed in a direction perpendicular to the back surface of the strainer box 4 and an outer water pipe 52 slidably mounted on the inner pipe 51. Further, the outer pipe 52 is connected to the sheet body 3 and the peripheral edge of the end, and when the concrete 8 is cast between the sheet bodies 3, 3, the outer pipe 52 is extended by the casting pressure to extend the wall 21 of the excavation groove 2. Can be adhered to. The number of the water pipes 5 is appropriately arranged as needed.

<C> Construction method of continuous ground wall with water permeability

(1) Production of Reinforced Basket As shown in FIGS. 1 and 2, a strainer box 4, a water pipe 5, a sheet body 3,
3 is attached. At this time, the stopper plate 42 of the strainer box 4 and the stopper plate 13 of the reinforcing bar 1 are overlapped with each other, and the stopper 7 is inserted in the vertical direction.
The strainer box 4 is restrained. The water pipe 5 is in a state where the outer water pipe 52 is fitted (shrinked) into the inner water pipe 51.

(2) Reinforcing Reinforcement Basket When the reinforcement cage 1 is installed in the excavation groove 2, the strainer box 4 is restrained and accommodated in the reinforcement cage 1 by the stopper 7. Therefore, the strainer box 4 and the water pipe 5 do not protrude beyond the thickness of the reinforced cage 1, and the excavation groove 2
Since it does not contact the wall surface 21, the reinforced cage 1 can be built smoothly. After the reinforced cage 1 is set in the excavation groove 2, the stopper 7 is pulled out to release the strainer box 4.

(3) Casting of concrete [FIGS. 2 to 4] Concrete 8 is cast between the sheets 3 and 3.
The sheet bodies 3, 3 are pushed out of the reinforcing bar 1 by the casting pressure of the concrete 8. At this time, since the strainer box 4 and the outer water passage 52 are connected to the sheet members 3, 3, the wall surface 2 of the digging groove 2 follows the sheet members 3.
Adhere to 1. When the concrete 8 hardens, the water-permeable continuous underground wall 10 having no gap between itself and the wall surface 21 of the excavation groove 2 is completed.

[0015]

As described above, the present invention has the following effects. <B> By sliding and extending the strainer box and the water pipe, it can be brought into close contact with the wall of the excavation groove when concrete is cast, and the gap between the strainer box and the water pipe and the excavation groove is different from the conventional method. No gaps occur. For this reason, as before, earth and sand collapsed into this gap,
There is no risk of land subsidence. <B> As described above, since no gap is generated between the strainer box and the water pipe and the excavation groove, earth and sand do not collapse into the gap, so that the strainer box does not receive a large bending stress. As a result, the required strength of the strainer box can be kept low, and an economical design has become possible.

[Brief description of the drawings]

FIG. 1 is a perspective view of a construction site of a water-permeable continuous underground wall according to the present invention.

FIG. 2 is a cross-sectional view taken along the line II-II in FIG.

FIG. 3 is a cross-sectional view taken along the line III-III in FIG.

FIG. 4 is a sectional view of the constructed water-permeable continuous underground wall.

FIG. 5 is a cross-sectional view of a water-permeable continuous underground wall using a conventional strainer box.

FIG. 6 is a cross-sectional view taken along line VI-VI in FIG.

Claims (4)

[Claims] 1. A method for constructing a water-permeable continuous underground wall in which a strainer box and a water pipe are buried in a continuous underground wall to allow a groundwater flow to pass therethrough, the method comprising: A strainer box slidable in the direction perpendicular to the strainer box is disposed, and a surface of the strainer box opposite to a surface in contact with the groundwater flow layer is provided with an opening at one end of a water pipe that is extendable and contractible in a direction perpendicular to the surface. Connecting a sheet body to both sides of the reinforcing bar cage except for a surface in contact with the groundwater flow layer of the strainer box and an opening on a surface of the water pipe opposite to the strainer box, The concrete is poured into the excavation groove, concrete is poured between the sheet bodies, and the strainer box is slid by the driving force of the concrete so as to be brought into close contact with the wall surface of the excavation groove, and the water pipe is extended. And in close contact with the wall of the excavation trench,
A method for constructing a water-permeable continuous underground wall, characterized in that the cast concrete is cured. 2. The method for constructing a water-permeable continuous underground wall according to claim 1, wherein a perforated stopper plate is provided in each of the reinforcing bar and the strainer box, and the holes in the respective stopper plates are overlapped with each other to form a strainer. The box is housed in a reinforced cage, and the reinforced cage is inserted into the excavation groove in a state where the strainer box is restrained by vertically inserting a bar-shaped stopper into the hole of the overlapped stopper plate, and before placing concrete, By pulling out the stopper,
A method for constructing a water-permeable continuous underground wall, wherein a strainer box is slidable. 3. A reinforced cage used in the method for constructing a water-permeable continuous underground wall according to claim 1, wherein the reinforced cage, and a surface of the reinforced cage in contact with a groundwater flow layer, A strainer box arranged so as to be slidable in the orthogonal direction, and an end connected to a surface of the strainer box opposite to the surface in contact with the groundwater flow layer, and capable of extending and contracting in a direction orthogonal to the downstream side surface. Excluding a surface in contact with the groundwater flow layer of the strainer box and an opening on a surface of the strainer box opposite to the strainer box, and a sheet body disposed on both surfaces of the rebar cage. A reinforced basket, characterized in that: 4. The reinforced cage according to claim 3, wherein perforated stopper plates are provided in the reinforced cage and the strainer box, respectively, and the holes of the stopper plates are overlapped with each other to vertically insert a rod-shaped stopper. The reinforcing bar is configured such that the strainer box can be restrained in the reinforcing bar and the strainer box is slidable by pulling out the stopper.