JPS62268413A - Ground improving-reinforcing work using composite material - Google Patents

Abstract

PURPOSE:To make the reinforcing operation of the ground easier by a method in which geotextiles are laid and fixed to the upside of plural expanded plastic blocks when the blocks are stacked up and fixed. CONSTITUTION:Plural box-shaped expanded styrol blocks 1 are laid on the ground G to form the first slab 2a, and the first geotextile 3a are fixed with an adhesive to the upside of the blocks 1. The blocks 1 are alternately bonded and fixed to the blocks 1 of the slab 2a on the upside of the first geotextile 3a to form the second slab 2b. In the same way, the second geotextile 3b, the third slab 2c,... are orderly formed on the slab 2b, where the number of the blocks 1 for the slabs 2b, 2c,... is reduced beyond the number of the blocks 1 for the slabs 2a, 2b,... to build up a trapezoidal structure S. The structure S is covered with soil to complete a roadbed A.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] This invention relates to a ground improvement/K17 strength construction method using a composite material that combines foamed plastics and high-strength lattice net to naro geotextile.

``Conventional technology'' Traditionally, it has been used to improve the ground (such as roadbeds and retaining walls) or to build slopes, for example!
A9. In Japan, stone and concrete blocks are mainly used for masonry/burozoku masonry, and for the roadbed, soil, gravel, etc. are used to form the roadbed. is widely practiced.

``Problems to be solved by the invention'' However, in order to carry out the conventional construction method described above, most of the stone masonry work, etc., in constructing retaining walls 1 often relies on manual labor, and it is difficult to carry out work in narrow spaces or on steep slopes. The transportation and loading of soil and stones in the area is very labor-intensive and inefficient, and when forming a subgrade, the weight of the subgrade soil can cause large consolidation settlements over a long period of time, especially in soft ground. There were some problems such as:

This invention was made in view of the above circumstances, and the M
Ground improvement and h where fft materials must be handled
Improving the ground to make the work extremely easy and to fully demonstrate its functions, especially in terms of strength.
The purpose is to provide a reinforcement method.

``Means for Solving the Problems'' Therefore, in order to achieve the above object, the present invention provides a method for improving and reinforcing the ground by using composite materials to partially improve or reinforce the ground. In constructing this structure, the top surface of the block is The method includes the step of laying and fixing geotextile.

Furthermore, the present construction method can be made more effective by using foamed cotton wool as the foamed plastic and by using an adhesive as a means for fixing the blocks and the geotextile.

``Action'' A structure that forms part of the ground to be improved or reinforced.
It is constructed using foamed plastic blocks, a lightweight material that provides excellent construction properties.

In addition, each block is fixed to each other through a geotextile consisting of a high-strength lattice net.
It is possible to integrate the structure and improve the strength of the entire structure.

"Example" Hereinafter, an example of the present invention will be described with reference to FIGS. 1 to 3. FIGS. 1 and 2 show an embodiment of the present invention, in which the present invention is applied to the construction of a roadbed that reinforces soft ground.

In the figure, the area indicated by the symbol G is the ground that supports the subgrade A that is to be constructed. In order to build a roadbed on this ground G, a plurality of blocks 1 are first laid on the ground G. The blocks 1 are made of foamed steel and have a thin box shape, and a so-called slab is formed by laying a large number of blocks 1 in a flat shape.

Once the first slab 2a is formed using the blocks 1 in this manner, the first geotextile 3a is then attached to the entire upper surface of the first slab 2a.

Geotextiles have recently been used for the first time in the construction field, but among artificial materials made from synthetic polymers,
Refers to materials used for soil reinforcement, soil water collection and drainage, separation of soil layers, filtration, etc.

To explain a little further, geotextile products are classified into about 10 types, of which the mainstream is a.
There are four types: a) woven fabric, b) non-woven fabric, C) resin net, and d) geogrid. In this embodiment, of the above-mentioned materials, a resin net or a geogrid is used. Geogrid is made of perforated PP (polypropylene), HDFE
A lattice-like (grid) net made by uniaxially or biaxially stretching a sheet of (high-density polyethylene) to orient the polymer.It has excellent physical properties such as tensile strength, low elongation, and is comparable to mild steel. It has comparable high strength. Also,
It has excellent weather resistance, does not corrode when exposed to acids, alkalis, seawater, etc., and is not affected by microorganisms or bacteria that live in the soil.

Such a geotextile 3a is placed in the front block 1.
Using an adhesive (not shown), the first slab 2a is firmly fixed to the upper surface of the first slab 2a. This geotextile 3a
As a pasting method, as shown in FIG. 2, the geotextiles 3a can be integrated by making the sheets of each geotextile 3a slightly conform to each other at their edges.

Next, an adhesive is applied to the upper surface of the first geotextile 3a, and a new block 1 is adhesively fixed thereto, thereby forming the second slab 2b.

This second slab 2b is formed. In this case, the blocks l constituting the second slab 2b and the blocks l constituting the first slab 2a are arranged so as to just close the joint surfaces, that is, to be staggered with the blocks l constituting the first slab 2a. Deploy.

Once the second slab 2b is formed, an adhesive is applied to the entire upper surface of the second slab 2b, and then a second geotextile 3b is laid thereon and fixed to the second slab 21). Thereafter, in the same way as when the second slab 2b was formed on the first slab 2a, a third slab 2c and a third geotextile 3c are sequentially formed on the second geotextile 3b using an adhesive. , and then the fourth slab 2d may be formed. (Up to the third slab 2C in FIG. 2) Furthermore, in this example, the slabs formed on the upper part are configured so that the cross-sectional shape of the constructed roadbed A becomes a trapezoid that becomes narrower toward the top. The number of blocks 1 is arranged so as to gradually become smaller than the number of blocks 1 constituting the slab formed below.

Once a structure S made of a composite material of styrofoam blocks 1 and geotextile 3 has been constructed in this way, the entire structure S is covered with soil 5 etc. to complete the target roadbed A. .

According to the above construction method, most of the subgrade A is made up of the structure S made of lightweight styrofoam blocks 1, which makes the work extremely easy and eliminates variations in quality. It is also a prefabricated construction method that uses ready-made products that are almost non-existent.

In addition, since lightweight materials are used, even if the ground G is soft, consolidation settlement will not occur due to long-term stress due to its weight, unlike roadbeds constructed of soil or gravel. . Furthermore, the structure S made up of the blocks 1 made of styrofoam is integrated by the geotextile 3 stuck between each of the slabs. Not only can it prevent phenomena such as caving in, but its strength (bending, tensile, and shear) can be greatly improved.

In addition, when laying the blocks 1 in a planar manner to form the slab 2, the adjacent side faces of each block 1 may be bonded with an adhesive, and in this case, the structure A It is possible to achieve stronger integration of the two. Furthermore, it is of course possible to provide the geotextile 3 at the lowest part of the 111η structure S, that is, between the first slab 2a and the ground G. If the ground G is particularly soft, such a method may be used. This is an extremely effective method that takes advantage of the physical properties of Geotextile 3 in terms of preventing ground formation.

FIG. 3 shows an embodiment of a pond according to the present invention, in which the present invention is applied to a retaining wall for building land. What is indicated by the symbol G is the ground, and in order to construct the retaining wall B on the slope of the ground G, which is t; It is a combination of the earth anchorage method, and the pile driving method. To construct retaining wall B, first, blocks L made of styrofoam were sequentially glued together via geotextile 3 along the cut slope of ground G, similar to that described in the previous example. A structure S made of composite material is built by piling up the structure S, and then a pressure-receiving slope 6 is provided on the front end surface of this structure S and an anchor steel material 7 for an earth anchor is inserted. It is sufficient to fix the surface using the pressure-receiving temporary 6, and then drive the resist 8.

In this embodiment, +1 of the roadbed A shown in the above embodiment.
Similar to construction, a prefabricated construction method using ready-made lightweight earthen materials has been realized, and retaining wall B can be constructed extremely easily. 1 are adhesively fixed to each other by the geotextile 3, the structure S is integrated, thereby minimizing the risk of partial collapse.Furthermore, in this embodiment, in addition to this, the resistor 8 and the anchor steel material 7 increases the self-reliance and strength of retaining wall B, making retaining wall B even stronger.In addition, when this example is applied as a retaining wall for residential land development, etc. There are advantages such as the ability to utilize the top surface of the newly formed structure S as land.

"Effects of the Invention" As explained above, a method for improving and reinforcing the ground is provided in which a part of the ground to be improved or reinforced is constructed with a structure constructed using a composite material. In constructing this structure, there is a process of stacking and fixing multiple blocks made of foamed plastic such as Styrofoam in sequence, and in the middle of the process of stacking these blocks, geotextile is laid on the top surface of the surface block and adhesive is applied. Since the method has a process of fixing with a method such as the following, it exhibits extremely easy construction using lightweight materials, and also realizes ground improvement and reinforcement that is strong and does not cause soil damage, etc. It has excellent effects.

[Brief explanation of drawings]

1 and 2 are diagrams for explaining one embodiment of the present invention, in which FIG. 1 is a perspective view including a front cross section of a roadbed, and FIG. 2 is a side sectional view. FIG. 3 is a side sectional view of a retaining wall for explaining another embodiment of the present invention. A...Road bed, B...Retaining wall, G...
...Ground, S...Structure, l...
...Block, 2...Slab, 3...
... Geotextile, 7 ... Anchor steel, 8 ... Pile.

Claims (1)

[Claims] 1. A ground improvement/reinforcement method in which a part of the ground to be improved or reinforced is constructed using a structure constructed using a composite material, the method comprising a plurality of blocks made of foamed plastics. A ground improvement/reinforcement method using composite materials, comprising the steps of sequentially stacking and fixing blocks, and, during the stacking process, laying and fixing geotextile on the top surface of the blocks. 2. The ground improvement/reinforcement method using a composite material according to claim 1, wherein the foamed plastic is foamed polystyrene. 3. Claim 1, wherein the means for fixing the block and the geotextile is an adhesive.
Ground improvement/reinforcement method using composite materials as described in section.