JPH0813498A - Embankment reinforcing material - Google Patents

Abstract

PURPOSE:To provide am embankment reinforcing material which is flexible and easy to construct, and what is more. is provided with high reinforcing and drain properties. CONSTITUTION:A loop pile 3 is formed on a single surface of a plain weave fabric comprising high strength multi-filament thread-made warps and bulky processed thread-made weft with a highly stiff synthetic resin-made mono- filament, thereby constituting a pile structural body 2. An unwoven cloth 4 is pasted together as a filter material on the loop pile side of this pile structural body 2.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an embankment reinforcing material which can be easily constructed on an embankment requiring reinforcement and which enables a high degree of reinforcement and drainage.

[0002]

2. Description of the Related Art Conventionally, a mesh-shaped geogrid, geonet or woven fabric has been used as a reinforcing material for embankment, and a method of laying these reinforcing materials in the horizontal direction at regular intervals has been used. If it is necessary to add drainage due to the soil quality or the presence of underground spring water, use a nonwoven fabric such as spunbond, or use a drainage material such as a perforated pipe or a synthetic fiber mesh body together with the underdrain. There is.

[0003]

The reinforcement material for the embankment having a high water content has a mechanical performance that suppresses slip failure on the slope of the embankment, and collects and drains excess water in the embankment to increase the strength of the soil itself. There is a demand for improved drainage capacity. In addition, there is a demand for a material that can be applied in a short period of time to shorten the construction period.

In response to such a demand, the reinforcing materials such as geogrids, geonets, and woven fabrics are excellent in strength, but have almost no water permeability in the horizontal direction. When embanking on a slope, it is necessary to use drainage materials such as perforated pipes together, which is a problem in that construction takes time.

Although non-woven fabrics such as spunbond have a certain degree of drainage, they have the drawback of being weaker in strength and higher in elongation than other reinforcing materials. Not suitable.

The invention of claim 1 is made in order to solve the above-mentioned problems of the prior art, and it is an embankment reinforcing material which can be constructed in a short period of time, has a sufficient reinforcing effect and has a high drainage property. The purpose is to get.

A second aspect of the present invention is to obtain an embankment reinforcing material having higher pressure resistance than the embankment reinforcing material according to the first aspect of the invention.

Further, the invention of claim 3 has higher filterability for clay having a small particle size and drainage over a longer period than the embankment reinforcing material according to the invention of claim 1 or 2. The purpose is to obtain an embankment reinforcement that can maintain its properties.

A fourth object of the present invention is to provide an embankment reinforcing material having a water-blocking property that can prevent excess water, such as rainwater, which has penetrated into the reinforcing material from the upper part, from penetrating into the lower layer.

[0010]

The embankment reinforcement material according to the invention of claim 1 comprises a woven fabric having a high-strength synthetic fiber yarn as a warp as a base material, and the base material is made of relatively hard synthetic fiber. A pile structure is formed by sewing a pile thread and forming a large number of loop piles on the entire surface or a part of the surface side of the base material, and a non-woven fabric or a woven or knitted fabric is applied to the loop pile side of the pile structure as a filter medium. It is a combination.

The embankment reinforcement according to the second aspect of the present invention comprises two pile structures having no filter medium as set forth in the first aspect.
1 so that each loop pile side is inside each other
It is paired and superposed.

Further, the embankment reinforcing material according to the invention of claim 3 uses the multifilament yarn which is bulked as the weft yarn of the base material of the pile structure according to claim 1 or 2.

Further, the embankment reinforcing material according to the invention of claim 4 is a sheet or film having no water permeability as a water-blocking material, which is attached on one side.

[0014]

According to the first aspect of the present invention, the embankment up to a height of 5 m or the embankment having a height of 5 m or more is used to reinforce a portion having a relatively low earth pressure from the uppermost part to a lower part of 5 m in the vertical direction. Well, since high-strength yarns are used in the longitudinal direction where tensile strength is required, a good reinforcing effect can be obtained. Further, since all the piles stand upright at the same height in the thickness direction, good pressure resistance can be obtained even with a small pile density per unit area, and high drainage performance can be obtained. Moreover, in the conventional material, it was necessary to apply the reinforcing material and the drainage material individually, but since the material has both properties, it is excellent in workability.

In the invention of claim 2, the height is 5
It is used to reinforce places where a high earth pressure is applied to the embankment reinforcement, such as the lower part of the embankment of m or more. When the embankment reinforcement material according to the above-mentioned claim 1 is applied to a place having a high earth pressure, the loop pile may fall down from the root portion and a sufficient water collection and drainage effect may not be obtained. On the other hand, in the embankment reinforcement material according to the second aspect of the present invention, since the piles of the two structures are alternately opposed to each other and engaged with each other, the piles do not easily fall and a very high pressure resistance can be obtained.

Further, in the third aspect of the invention, since the multifilament yarn obtained by bulking the weft yarn is used, the weft yarn has excellent filterability and is used when the soil particles of the embankment used are small.

Further, in the invention of claim 4, it is used for embankment that needs to remove excess water, such as rainwater, which has permeated into the reinforcing material from the upper portion without permeating into the lower layer.

[0018]

【Example】

Embodiment 1 An embodiment of the invention of claim 1 will be described with reference to FIGS. FIG. 1 is a vertical cross-sectional side view showing the vicinity of an end portion of the embankment reinforcement, FIG. 2 is a front sectional view showing the pile structure of FIG. 1, and FIG. 3 is a side sectional view of the same.

In the figure, reference numeral 1 is a plain woven fabric having a thickness of about 200.
0 denier polyester (polyethylene terephthalate) multifilament yarn (Kuraray Co., Ltd., tensile strength per denier of about 8 gf) was used as warp and weft,
A warp yarn and a weft yarn were formed at a density of 7.1 per cm by using a projector-type loom manufactured by Toyota Sulzer. Reference numeral 2 is a pile structure, which uses the plain woven fabric 1 as a base material and has a cross-sectional shape of a true circle and a thickness of about 2000 denier made of polypropylene monofilament yarn (Taniyama Chemical Co., Ltd. Tanicalon, bending elastic modulus of about 15000 Kg / c).
m ² ) is a pile yarn, and loop piles 3 each having a height of about 5 mm are formed at intervals of about 2.5 mm in the length direction and about 4 mm in the width direction. The pile structure 2 is manufactured by the same procedure as that for manufacturing a tufted carpet, for example, by using a tufting machine used for manufacturing a tufted carpet having a normal loop pile. Reference numeral 4 is a polyester spunbonded non-woven fabric having a basis weight of 50 g / m ² , which is superposed on the loop pile 3 side of the pile structure 2 and acts as a filter medium.

When manufacturing this embankment reinforcement, the width of the plain weave 1 and the non-woven fabric 4 is made wider than the required pile width in order to prevent soil, sand, etc. from entering inside from both ends. Then, after overlapping, both ends may be adhered or sewn to each other with, for example, the sewing thread 5.

The warp yarn of the plain woven fabric 1 used as the base material in the present invention is a polyester multifilament yarn having a thickness of about 2000 denier in the above-mentioned embodiment, but it has good corrosion resistance and has a good denier per denier. Strength is 5gf
As long as it is a synthetic fiber yarn such as polyester and polypropylene as described above, its fineness (500 to 4000 denier), density (3 to 15 fibers per cm), and the above-mentioned strength (5 gf or more per 1 denier) It can be appropriately selected according to the particle size of the soil particles of the embankment in which the embankment reinforcement is used and the required strength. As the weft, natural fibers such as cotton and hemp, as long as it has good corrosion resistance,
Or synthetic fibers such as polyester and polypropylene,
Alternatively, they may be composites thereof, and the fineness and density thereof can be appropriately selected depending on the particle size of the soil particles of the embankment in which the embankment reinforcement is used and the required water permeability.

Next, the pile yarn used for the pile structure 2 in the present invention is a polypropylene monofilament yarn having a perfect circular cross section and a thickness of about 2000 denier in the above-mentioned embodiment. Flexural modulus of 7,000 denier, 9000-30000 Kg / cm ²
It is recommended to use synthetic fibers such as polypropylene, polyester, polyamide, etc. of monofilament whose cross-sectional shape is not flat in order to reduce the density of pile yarn to increase the horizontal water permeability and to maintain higher pressure resistance. Preference is given to using. If the fineness is less than 600 denier, a pile must be formed at a high density to maintain pressure resistance, which is disadvantageous in terms of processing cost. 70
When a pile yarn having a fineness of more than 00 denier is used, it becomes difficult to sew it to the base material by the method described below. On the other hand, when a pile yarn having a flexural modulus of less than 9000 Kg / cm ² is used,
It is necessary to increase the pile density in order to maintain high pressure resistance, which not only increases the material cost but also impairs the horizontal water permeability. The flexural modulus is 30,000.
The use of pile yarns exceeding Kg / cm ² also makes it difficult to sew onto the substrate by the method described below.

As an example of the method of sewing the pile yarn to the base material, there is a method of producing a so-called loop pile tufted carpet. In that way, it is preferable that a pile yarn is driven from the back surface of the base material to form loop piles having a height of 3 to 20 mm at intervals of 1 to 10 mm. If the height of the loop pile is less than 3 mm, sufficient horizontal water permeability cannot be obtained, and if it exceeds 20 mm, the loop pile cannot withstand pressure and is deformed, and efficient water collection and drainage cannot be achieved.

Further, as the filter medium in the present invention,
Although a spunbonded non-woven fabric made of polyester having a basis weight of 50 g / m ² is shown in the above-mentioned examples, non-woven fabrics, woven fabrics, knitted fabrics, etc. having water permeability are mentioned, and their fiber density, thickness, opening ratio,
The opening diameter can be selected according to the particle size of the soil particles of the embankment in which the embankment reinforcement is used and the required water permeability. The material may be natural fiber such as cotton or hemp, synthetic fiber such as polypropylene, polyester, polyamide, or a composite thereof, as long as it has excellent corrosion resistance.

The embankment reinforcement 6 thus obtained is
For example, as shown in FIG. 4, it is used by being embedded in the embankment 7,
A good reinforcing effect and high drainage can be obtained. And this embankment reinforcement material 6 is 10000 kg / in the thickness direction.
It has a high pressure resistance with a strain rate of about 20% when a load of m ² is applied, and a tensile strength of 10,000 in the longitudinal direction.
It has a high reinforcing effect of Kg / m and breaking elongation of 20%. Further, it has flexibility and can be wound into a roll, and can be easily cut using a cutter knife or the like.

Embodiment 2 An embodiment of the invention of claim 2 will be described with reference to FIG. FIG. 5 is a vertical cross-sectional side view showing the vicinity of the end portion of the embankment reinforcement, and the same or corresponding parts as those in the first embodiment are designated by the same reference numerals and the description thereof will be omitted. The embankment reinforcement material 6A of this embodiment is formed by stacking two pile structures 2 with their respective loop piles 3 side facing each other.

When manufacturing this embankment reinforcement 6A, in order to prevent soil, sand, etc. from entering into the interior from both ends, FIG.
It is preferable that the width of the base material 1 is made wider than the required pile width as shown in, and the both ends are adhered or sewn to each other by, for example, the sewing thread 5 after they are overlapped.

Embankment reinforcement 6A thus obtained
Has a strain rate of about 15% when a load of 10,000 kg / m ² is applied in the thickness direction and a tensile strength of 20,000 in the longitudinal direction.
The embankment reinforcing material 6 has a pressure resistance and a reinforcing effect higher than those of the embankment reinforcing material 6 according to the first embodiment of the present invention, which is Kg / m and a breaking elongation of 20%. Similarly, it has flexibility and can be wound into a roll,
It can be easily cut with a cutter knife or the like.

Embodiment 3 An embodiment of the invention of claim 3 will be described with reference to FIGS. FIG. 6 is a vertical cross-sectional side view showing the vicinity of the end of the embankment reinforcement, FIG. 7 is a front sectional view showing the plain weave of FIG. 6, and FIG. 8 is a side sectional view of the same. Are denoted by the same reference numerals and description thereof will be omitted.

In the figure, 1A is a plain weave and has a thickness of about 20.
A multifilament yarn of 00 denier polyester (polyethylene terephthalate) (manufactured by Kuraray Co., Ltd., tensile strength of about 8 gf per denier) was used as warp 8 and crimped of polyester (polyethylene terephthalate) with a thickness of about 2100 denier. A multifilament yarn (manufactured by Kuraray Co., Ltd.) is used as a weft yarn 9, and a warp and a weft yarn are configured to have a density of 7.1 per cm by using a projectile loom manufactured by Toyota Sulzer.

Embankment reinforcement 6B constituted by a pile structure 2A obtained by using this plain fabric 1A as a base material.
Has a high pressure resistance and a high reinforcing effect as in the embankment reinforcing material 6 according to the invention of claim 1 in the above-mentioned Example 1, and also has very fine soil particles having a particle size of 100 μm or less. It also has the effect that it can be filtered. Further, it is also flexible and can be wound into a roll, and can be easily cut with a cutter knife or the like.

When higher pressure resistance and reinforcing effect are required, two pile structures 2A are stacked with the loop pile 3 side facing inward as in the embankment reinforcing material 6A of Embodiment 2 shown in FIG. Good to match.

The weft yarn 9 of the plain woven fabric 1A used as the base material in the present invention may be any filament yarn that can be bulked and has good corrosion resistance, and its fineness, density and bulky finish. The degree can be appropriately selected depending on the particle size of the soil particles of the embankment in which the embankment reinforcement is used and the required water permeability.

Embodiment 4 An embodiment of the invention of claim 4 will be described with reference to FIG. FIG. 9 is a vertical cross-sectional side view showing the vicinity of the end portion of the embankment reinforcement, and the same or corresponding parts as those in the first embodiment are designated by the same reference numerals and the description thereof will be omitted.

In the figure, reference numeral 10 is a vinyl chloride film (may be a sheet) having a thickness of 500 μ, which is superposed on the side of the loop pile 3 of the pile structure 2.

Embankment reinforcement 6C thus obtained
Has a high pressure resistance and a high reinforcing effect similarly to the embankment reinforcement material 6 according to the invention of claim 1 in the above-mentioned Example 1, and is constructed with the film 10 side as the lower surface (shown in FIG. 4). By doing so, it is possible to obtain the effect that the excess water that has permeated into the embankment reinforcement 6C from the upper part can be removed without permeating into the lower layer. Further, it is also flexible and can be wound into a roll, and can be easily cut with a cutter knife or the like.

Further, when higher pressure resistance and reinforcing effect are required, it is advisable to attach a water blocking sheet (film 10) to one side of the embankment reinforcing member 6A of Example 2 shown in FIG.

[0038]

As described above, according to the first aspect of the present invention, since the portions that act as water passages are made of pile structures having high rigidity independent from each other in the horizontal direction,
It has a low apparent density, high horizontal water permeability, and high pressure resistance. It also has a high reinforcing effect when it is applied horizontally in the embankment at regular intervals by using high-strength fibers for the warp. Is obtained. Therefore, when embankment is constructed by embedding the embankment reinforcement consisting of such a pile structure, the pile structure has the same mechanical strength as the conventional reinforcement such as a grid and the surplus in the embankment. Water passes through the filter medium, enters the pile structure, and is drained as a water passage in the pile structure, so it is possible to embank a steep slope without separately constructing a reinforcing material and drainage material, and it is easy to cut Since it is highly flexible and can be wound into a roll, the work required for construction can be greatly simplified, and the filter media prevents the sand and sand from penetrating into the pile structure, so it is stable over a long period of time. The embankment can be maintained.

Further, according to the invention of claim 2, since it has higher pressure resistance and reinforcing effect than the embankment reinforcing material according to claim 1, it can be used for steep and high embankments. However, the effect that the sufficient drainage property and the reinforcing effect can be maintained can be obtained.

Further, according to the invention of claim 3, since the multifilament yarn subjected to the bulking process has a high filtering effect, even when the embankment is made using soil having a small particle size, An effect that excellent drainage performance can be maintained for a longer period of time can be obtained.

Further, according to the invention of claim 4, since the water blocking sheet is attached to the side which becomes the lower surface at the time of construction,
It is possible to effectively remove excess water that has permeated into the reinforcing material from the upper portion without permeating into the lower layer.

[Brief description of drawings]

FIG. 1 is a vertical sectional side view in the vicinity of an end portion of an embankment reinforcing member showing Example 1 of the present invention.

2 is a front sectional view showing the pile structure of FIG. 1. FIG.

3 is a side sectional view showing the pile structure of FIG. 1. FIG.

FIG. 4 is a cross-sectional view showing how to use the embankment reinforcement of FIG.

FIG. 5 is a vertical cross-sectional side view showing the vicinity of an end portion of an embankment reinforcing member according to a second embodiment of the present invention.

FIG. 6 is a vertical sectional side view in the vicinity of an end portion of an embankment reinforcing member showing Embodiment 3 of the present invention.

FIG. 7 is a front cross-sectional view showing the plain fabric of FIG.

8 is a side sectional view showing the plain fabric of FIG.

FIG. 9 is a vertical sectional side view in the vicinity of an end portion of an embankment reinforcement material showing Embodiment 4 of the present invention.

[Explanation of symbols]

 1,1A Plain weave 2,2A Pile structure 3 Loop pile 4 Nonwoven fabric 5 Sewing thread 6,6A, 6B, 6C Embankment reinforcement 7 Embankment 8 Warp 9 Weft 10 Water impervious sheet

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Satoshi Matsumoto No. 8 at 6 911 Hamadera Motomachi, Sakai City, Osaka 102 Corp. Nitta 102 (72) Inventor Teruo Tamai, 3-10-15 Nakai-cho, Kishiwada-shi, Osaka Issue (72) Inventor Hiroyuki Ohata 15-2 Tsudakitamachi, Kaizuka, Osaka Prefecture Tezak Research and Development Department (72) Inventor Osamu Kakihana 15-2 Tsudakitamachi, Kaizuka City Osaka Prefecture Tesac Research and Development Department (72) ) Inventor Eiichi Sasakawa 1-12-39 Umeda, Kita-ku, Osaka City, Osaka Prefecture Kuraray Co., Ltd.

Claims (4)

[Claims] 1. A woven fabric using high-strength synthetic fiber yarn as a warp, is used as a base material, and a pile thread made of a relatively hard synthetic fiber is sewn to the base material, and the whole surface or a part of the surface side of the base material is sewn. A embankment reinforcing material comprising: a pile structure formed by forming a large number of loop piles on a side of the pile structure; 2. A fill embankment reinforcing material, characterized in that two pile structures without a filter medium according to claim 1 are superposed in a pair so that their loop pile sides are inside each other. 3. An embankment reinforcing material, wherein a bulky processed multifilament yarn is used as the weft yarn of the woven fabric as the base material of the pile structure according to claim 1 or 2. 4. The embankment reinforcement material according to any one of claims 1 to 3, wherein a sheet or film having no water permeability is adhered on one surface as a water shield material.