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JPH07238530A - Material for civil works - Google Patents

Material for civil works

Info

Publication number
JPH07238530A
JPH07238530A JP5269794A JP5269794A JPH07238530A JP H07238530 A JPH07238530 A JP H07238530A JP 5269794 A JP5269794 A JP 5269794A JP 5269794 A JP5269794 A JP 5269794A JP H07238530 A JPH07238530 A JP H07238530A
Authority
JP
Japan
Prior art keywords
coarse net
net
civil engineering
drainage
continuous
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP5269794A
Other languages
Japanese (ja)
Other versions
JP3518619B2 (en
Inventor
Makoto Otaguro
誠 太田黒
Keiko Kodama
啓子 児玉
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Daiwa Boseki KK
Daiwabo Co Ltd
Original Assignee
Daiwa Boseki KK
Daiwabo Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Daiwa Boseki KK, Daiwabo Co Ltd filed Critical Daiwa Boseki KK
Priority to JP05269794A priority Critical patent/JP3518619B2/en
Publication of JPH07238530A publication Critical patent/JPH07238530A/en
Application granted granted Critical
Publication of JP3518619B2 publication Critical patent/JP3518619B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Landscapes

  • Investigation Of Foundation Soil And Reinforcement Of Foundation Soil By Compacting Or Drainage (AREA)
  • Pit Excavations, Shoring, Fill Or Stabilisation Of Slopes (AREA)
  • Revetment (AREA)
  • Laminated Bodies (AREA)

Abstract

PURPOSE:To provide a material which is used for reinforcement of an embankment or a soft ground and prevention of scouring and which provides permeability on the stuck face of a flexible course net with a large tensile strength and a non-woven cloth sheet to bring out a draining function. CONSTITUTION:A number of continuous linear materials 3 with 0.1-5mm in dia. made of a thermoplastic synthetic polymer are superpose ed and stuck together with irregular loops, in a rough net 2 having a space of a mesh 2b narrower than 100cm<2>, 80-98% in the permeability of parallel light, and 500kg/m or more in the tensile strength. And water permeable non-woven sheets 5, 6 having 20-1500g/m<2> in metsuke, 0.03-0.15g/cm<3> in the fiber density are stuck together by means of the adhesive force of the continuous linear materials 3, at the front and rear faces of the draining material base 4 and water permeable voids due to a number of continuous linear materials 3 are formed between the aggregates or the net 2 and the non-woven sheets 5, 6 at the front and rear sides.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は、盛土の補強や排水材、
軟弱地盤埋め立て地の表層安定工の補強材や排水材とし
て好適なシート状の高強力な土木用材料に関するもので
ある。
The present invention relates to embankment reinforcement and drainage materials,
The present invention relates to a sheet-like high-strength civil engineering material suitable as a reinforcing material and drainage material for surface stabilization work of soft ground reclamation sites.

【0002】[0002]

【従来の技術】盛土の補強や軟弱地盤埋め立て地の表層
安定工に用いられる補強材としては、熱可塑性合成重合
体からなるフィルムを2軸延伸した格子状シート[商品
名:テンサー(三井石化産資株式会社製)]や、ポリエ
チレンやポリプロピレン等の成型品であるネット[商品
名:トリカルネット(タキロン株式会社製)]等の格子
状に補強構造をもつ通水性補強シートが汎用されてい
る。
2. Description of the Related Art As a reinforcing material used for reinforcement of embankments and surface stabilization of soft ground reclamation sites, a lattice-shaped sheet obtained by biaxially stretching a film made of a thermoplastic synthetic polymer [trade name: tenser (Mitsui Kasei Co., Ltd. Water-permeable reinforcing sheet having a lattice-like reinforcing structure such as a net [product name: Trical Net (manufactured by Takiron Co., Ltd.)], which is a molded product such as polyethylene or polypropylene, is widely used. .

【0003】さらに排水のため合成繊維と合成樹脂を素
材とする不織布の積層構造からなる排水材[商品名:O
−Vフィルター(日本バイリーン株式会社製)]や不織
布等の通水性シートが提案されており、本出願人も実開
平2−6735号公報、同4−119827号公報にお
いて合成樹脂連続線条体を不織布でサンドイッチした土
木用排水材を提案している。
Furthermore, for drainage, a drainage material having a laminated structure of a non-woven fabric made of synthetic fiber and synthetic resin [Product name: O
-V filter (manufactured by Japan Vilene Co., Ltd.)] and a water-permeable sheet such as a non-woven fabric have been proposed, and the applicant of the present invention has also proposed synthetic resin continuous filaments in Japanese Utility Model Publication Nos. 2-6735 and 4-11827. We are proposing a drainage material for civil engineering sandwiched with non-woven fabric.

【0004】[0004]

【発明が解決しようとする課題】しかしながら、表裏の
不織布間に合成樹脂製の材料によって通水路を形成して
いる従来の排水材は、排水性は良好ではあるが引っ張り
強度が不足し、盛土の補強や排水材、軟弱地盤埋め立て
地の表層安定工の補強材や排水材としては不向きであ
る。そしてこのような引っ張り強度の要求される用途に
適合するべく通水性に富んだ芯材を介装してなる土木用
材料も知られているが、かかる用途の従来の土木用材料
はフレキシブル性が乏しく、ロール状に巻回した長尺の
シートとなすことができず、長さ方向に接合して使用し
なければならないという不都合を有している。
However, the conventional drainage material in which the water passage is formed between the front and back non-woven fabrics by the material made of the synthetic resin has a good drainage property but lacks the tensile strength, so that It is not suitable as a reinforcement or drainage material, or as a reinforcement material or drainage material for surface stabilization work on soft landfills. Further, there is also known a civil engineering material comprising a core material having a high water permeability in order to meet such an application requiring tensile strength, but a conventional civil engineering material for such an application is not flexible. It is scarce and cannot be formed into a long sheet wound in a roll shape, and it has a disadvantage that it must be joined in the length direction for use.

【0005】このことから、盛土や軟弱地盤埋立地の表
層安定工の地盤の補強および排水して圧密を促進するた
め、まず通水性シートを展開し、その上にネット等の補
強シートを展開敷設するという展開敷設作業を2度行っ
ているのが実情であり、したがって作業能率が悪く、業
界においては作業工程が簡略化できる土木用材料の開発
が強く望まれていた。
Therefore, in order to reinforce and drain the ground of surface stabilization work in embankments and soft ground reclamation sites to promote consolidation, first a water permeable sheet is developed, and a reinforcing sheet such as a net is developed and laid on it. The actual situation is that the deployment and laying work is carried out twice, and therefore the work efficiency is poor, and there has been a strong demand in the industry for the development of civil engineering materials that can simplify the work process.

【0006】本発明は上記不都合が改善され、高い引っ
張り強度を有するにも拘らずフレキシブル性を有し、排
水路が確保された土木用材料を提供するものである。
The present invention provides a civil engineering material in which the above inconvenience has been improved and which has flexibility while having a high tensile strength and has a drainage channel secured.

【0007】[0007]

【課題を解決するための手段】本発明の土木材料は、引
っ張り強度が大きい熱可塑性合成重合体からなる可撓性
の粗目ネットに、熱可塑性合成重合体からなる連続線条
を絡ませてなる排水材ベースを補強芯材とし、この排水
材ベースの表裏面に通水性不織布シートを接着複合一体
化することにより上記課題を解決したものである。
The civil engineering material of the present invention is drainage obtained by entwining a continuous coarse line made of a thermoplastic synthetic polymer with a flexible coarse net made of a thermoplastic synthetic polymer having high tensile strength. The above problem is solved by using the material base as a reinforcing core material, and adhering the water-permeable nonwoven fabric sheet to the front and back surfaces of the drainage material base in an integrated manner.

【0008】即ち本発明の土木用材料は、網目部分の大
きさが100cm2 以下で平行光線の透過率が80〜9
8%、引っ張り強度が500kg/m以上の可撓性の粗
目ネットに、熱可塑性合成重合体からなる直径0.1〜
5mmの多数の連続線条が不規則なループをなして重ね
合わされてそれぞれの各交差点において接着され、かつ
粗目ネットの網目部分の空間の連続線条の一部が粗目ネ
ットの裏面側に屈曲され粗目ネットと一体化されて排水
材ベースが形成され、この排水材ベースの表裏に、目付
けが20〜1500g/m2 、繊維密度が0.03〜
0.15g/cm3 の通水性不織布シートが貼り合わさ
れていることを特徴としているものである。
That is, the civil engineering material of the present invention has a mesh size of 100 cm 2 or less and a transmittance of parallel rays of 80-9.
8%, tensile strength of 500 kg / m or more, flexible coarse net, diameter 0.1 to 0.1 made of thermoplastic synthetic polymer
A large number of 5 mm continuous filaments are overlapped in an irregular loop and bonded at each intersection, and a part of the continuous filaments in the space of the mesh portion of the coarse net is bent to the back side of the coarse net. The drainage material base is formed by being integrated with the coarse net, and the basis weight of the drainage material base is 20 to 1500 g / m 2 , and the fiber density is 0.03 to
It is characterized in that a water-permeable nonwoven fabric sheet of 0.15 g / cm 3 is laminated.

【0009】本発明の土木材料に用いる上記可撓性の粗
目ネットは、軟弱地盤の補強、重量物の耐荷重力などの
補強材の働きをする。したがって500kg/m以上の
引っ張り強度が必要である。このネットは水分の多い所
で用いられる場合でも腐食しないように合成樹脂でなっ
ていることが好ましく、網目部分の大きさが100cm
2 以下、平行光線の透過率が80〜98%であることを
要する。具体的には、骨材部の厚さが1〜5mm、幅が
1.5〜10mmの合成樹脂の成型ネットや、熱可塑性
合成重合体からなる繊維を編織し合成樹脂加工を施した
ネット、例えば商品名:クラグリッド(クラレ株式会社
製)、商品名:ストレッチファイバー(東洋紡績株式会
社製)や、2軸延伸された厚さ1〜5mmの穿孔樹脂シ
ートから得られるネットおよび太さが2〜5mmの合成
樹脂モノフィラメントからなるネット等、引っ張り強度
の大きい樹脂製ネットが好ましく使用できる。
The above-mentioned flexible coarse net used for the civil engineering material of the present invention functions as a reinforcing material such as reinforcement of soft ground and load bearing capacity of heavy objects. Therefore, a tensile strength of 500 kg / m or more is required. It is preferable that this net is made of synthetic resin so that it will not corrode even when it is used in a place with a lot of water, and the mesh size is 100 cm.
A transmittance of parallel rays of 2 or less is required to be 80 to 98%. Specifically, a synthetic resin molding net having an aggregate thickness of 1 to 5 mm and a width of 1.5 to 10 mm, or a net made by weaving fibers made of a thermoplastic synthetic polymer and subjecting to synthetic resin processing, For example, trade name: Kura grid (manufactured by Kuraray Co., Ltd.), trade name: Stretch fiber (manufactured by Toyobo Co., Ltd.), and net and thickness obtained from biaxially stretched perforated resin sheet having a thickness of 1 to 5 mm are 2 A resin net having a large tensile strength, such as a net made of a synthetic resin monofilament having a thickness of up to 5 mm, can be preferably used.

【0010】平行光線の透過率が98%を超えると粗目
ネットの強度や剛性が低くなって耐久性に問題が生じ、
80%未満では剛性が大きくなり過ぎて、出来上がった
製品を巻き取りあるいは敷設展開するのが困難となる。
If the transmittance of parallel light rays exceeds 98%, the strength and rigidity of the coarse net will be low, causing a problem in durability.
If it is less than 80%, the rigidity becomes too high, and it becomes difficult to wind or lay the finished product.

【0011】粗目ネットに絡ませ不規則なループをなし
て重ね合わされ、各交差点において接着されて排水材ベ
ースを形成する連続線条は、熱可塑性合成重合体を溶融
紡糸することにより得られるものであ。熱可塑性合成重
合体としては、ポリエチレン、ポリプロピレン等のポリ
オレフィン系、ポリエチレンテレフタレート等のポリエ
ステル系、ナイロン6、66などのポリアミド系等の重
合体の単独溶融物または2種以上の複合溶融物などが適
用できるが、製造コストを考慮した場合、比較的融点の
低いポリエチレン、ポリプロピレンが好都合である。
The continuous filaments that are entangled in a coarse net and stacked in an irregular loop and bonded at each intersection to form a drainage material base are those obtained by melt spinning a synthetic thermoplastic polymer. . As the thermoplastic synthetic polymer, a single melt or a composite melt of two or more kinds of polymers such as polyolefins such as polyethylene and polypropylene, polyesters such as polyethylene terephthalate, polyamides such as nylon 6, 66 is applied. However, considering the manufacturing cost, polyethylene and polypropylene having a relatively low melting point are convenient.

【0012】また連続線条の線径は0.1〜5mmであ
ることが好ましい。0.1mmより小さいと得られる連
続線条の強度が小さくなりすぎ排水空隙が小さくなる。
また5mmを超えると得られる排水材ベースの剛性が大
きくなりすぎ、巻き取りや展開敷設などの作業が困難と
なる。
The diameter of the continuous filament is preferably 0.1 to 5 mm. If it is less than 0.1 mm, the strength of the continuous filament obtained will be too small and the drainage void will be small.
Further, if the thickness exceeds 5 mm, the rigidity of the obtained drainage material base becomes too large, and the work such as winding and spreading and laying becomes difficult.

【0013】粗目ネットと連続線条により形成される排
水材ベースの連続線条の目付けは300〜2000g/
2 、排水材ベースの見掛けの厚さが1〜10mm、空
隙率が70〜95%であることが望ましい。連続線条の
目付けが300g/m2 よりも小さいと耐圧性、耐久性
が劣るとともに、排水材ベースの表裏に接着複合一体化
する通水性シート状物の接着強力が小さくなり、剥離し
排水機能を損ねる原因となる。また連続線条の目付けが
2000g/m2 以上となると排水材ベースの剛性が大
きくなりすぎ、巻き取りや展開敷設などの作業が困難と
なる。
The basis weight of the continuous line of the drainage material base formed by the coarse net and the continuous line is 300 to 2000 g /
m 2, the thickness of the drainage material based apparent 1 to 10 mm, it is desirable that the porosity is 70 to 95%. If the continuous line weight is less than 300 g / m 2 , the pressure resistance and durability will be poor, and the adhesive strength of the water-permeable sheet material that will be bonded and integrated on the front and back of the drainage material base will be reduced, causing peeling and drainage function. Cause damage to. Further, if the basis weight of the continuous line is 2000 g / m 2 or more, the rigidity of the drainage material base becomes too large, and the work such as winding and spreading and laying becomes difficult.

【0014】排水材ベースの空隙率が70%より小さい
と排水材ベースが密になりすぎ剛性が大きくなり、展開
敷設が困難となり好ましくない。空隙率が98%より大
きくなると排水材ベースの耐圧性、耐久性が劣り排水路
の形成が悪くなるという問題が生じてくる。
When the porosity of the drainage material base is less than 70%, the drainage material base becomes too dense and the rigidity becomes large, which makes unfolding and laying difficult, which is not preferable. If the porosity is greater than 98%, the drainage material base will have poor pressure resistance and durability, and the formation of drainage channels will be poor.

【0015】上記排水材ベースの表裏に貼り合わされる
通水性不織布シートとしては、目付けが20〜1500
g/m2 、繊維密度が0.03〜0.15g/cm3
ものが好ましく使用できる。具体的にはニードルパンチ
ング不織布、スパンボンド不織布、割布あるいは粗目織
物で補強したニードルパンチング不織布等を使用するこ
とができる。繊維密度が0.03g/cm3 より小さい
と微細なシルト層(粒径5〜74μm)や粘土層(粒径
5μm以下)が流出し地盤沈下の原因となり、繊維密度
が0.15g/cm3 よりも大きくなると、水の排水が
阻害されて地盤の圧密に長い期間を要するといった問題
が生じるとともに価格的にも高価となり不都合を生じ
る。
The water-permeable nonwoven fabric sheet to be attached to the front and back of the drainage material base has a basis weight of 20 to 1500.
Those having g / m 2 and a fiber density of 0.03 to 0.15 g / cm 3 can be preferably used. Specifically, a needle punched nonwoven fabric, a spunbonded nonwoven fabric, a split fabric or a needle punched nonwoven fabric reinforced with a coarse woven fabric can be used. If the fiber density is less than 0.03 g / cm 3 , fine silt layers (particle size 5 to 74 μm) and clay layers (particle size 5 μm or less) will flow out, causing ground subsidence, and the fiber density will be 0.15 g / cm 3 If it becomes larger than this, there arises a problem that the drainage of water is obstructed and it takes a long time to consolidate the ground, and the price becomes expensive, which causes a problem.

【0016】上記した粗目ネットに熱可塑性合成重合体
からなる連続線条を絡ませて接着してなる排水材ベース
と通水性不織布シートを一体化してなる本発明の土木材
料は次のようにして製造すると経済的である。
The civil engineering material of the present invention in which a drainage material base formed by entwining continuous filaments made of a thermoplastic synthetic polymer and adhering to the above-mentioned coarse net and a water-permeable nonwoven fabric sheet are manufactured as follows: Then it is economical.

【0017】即ち図4に略示したように、熱可塑性合成
重合体の溶融物を孔径0.1〜5mmの多数の紡糸ノズ
ルを有する溶融紡糸機(10)から多数横列となして紡出
し連続線条(3)(3)として自然落下させ、矢印方向に連続
線条(3) の落下速度よりも遅い速度で移動している搬送
体(11)の上に落下させながら搬送体(11)の上に不織布
シート(6) を供給するとともに、不織布シート(6) 上方
から不織布シート(6)と間隔をあけて粗目ネット(2) を
供給して不織布シート(6) および粗目ネット(2) を搬送
体(11)と同じ速度で同じ方向に移動させ、その上に連続
線条(3) を構成する樹脂が固化しないうちに連続線条
(3) を自然落下させて集積して連続線条(3) を不規則に
屈曲させ、かつ粗目ネット(2) の網目部分(2b)に連続線
条(3) を垂下膨出させるとともに各交差点を自己融着さ
せる。さらに、粗目ネット(2) 上の連続線条(3a)が未だ
固化せざる間に、連続線条(3a)の上方から通水性不織シ
ート(5) を供給してニップローラ(12)でもって粗目ネ
ット(2) 上の連続線条(3a)に向かって加圧し、未だ固化
していないこの連続線条(3a)(3a)の接着力で通水性不織
布シート(5)(6)を排水材ベース(4) の表裏に接着するこ
とにより、本発明の土木用材料(1) となすことができ
る。
That is, as schematically shown in FIG. 4, a melt of a thermoplastic synthetic polymer is continuously spun out in a large number of rows from a melt spinning machine (10) having a large number of spinning nozzles having a pore size of 0.1 to 5 mm. Conveying body (11) while letting it fall naturally as filaments (3) (3) and dropping it onto the conveyor (11) moving at a slower speed than the falling velocity of continuous filament (3) in the direction of the arrow. The non-woven sheet (6) and the coarse net (2) are supplied from above the non-woven sheet (6) with a gap between the non-woven sheet (6) and the non-woven sheet (6). Of the carrier (11) at the same speed in the same direction as the carrier (11) before the resin that composes the conductor (3) is solidified.
(3) is naturally dropped and accumulated to bend the continuous filaments (3) irregularly, and the continuous filaments (3) are drooped and bulged in the mesh portion (2b) of the coarse net (2). Self-bond the intersections. Further, while the continuous filament (3a) on the coarse net (2) is still solidified, the water-permeable non-woven sheet (5) is supplied from above the continuous filament (3a) and the nip roller (12) is used. Pressure is applied to the continuous filaments (3a) on the coarse net (2), and the water-permeable nonwoven fabric sheet (5) (6) is drained by the adhesive force of the continuous filaments (3a) (3a) that have not yet solidified. The civil material (1) of the present invention can be obtained by adhering the front and back of the material base (4).

【0018】即ち、上記ニップローラ(12)による加圧の
際、粗目ネット(2) の網目部分(2b)から垂下膨出してい
る連続線条(3) の一部が押圧されて粗目ネット(2) の骨
材(2a)の下面側に屈曲し、屈曲した連続線条(3a)同士が
接着するとともに骨材(2a)と連続線条(3a)および不織布
(6) が接着され、不可分に一体化されて土木用材料(1)
が形成される。
That is, when pressure is applied by the nip roller (12), a part of the continuous filament (3) bulging downward from the mesh portion (2b) of the coarse net (2) is pressed and the coarse net (2) ) The aggregate (2a) is bent to the lower surface side, and the bent continuous filaments (3a) adhere to each other, and the aggregate (2a) and the continuous filament (3a) and the non-woven fabric
(6) is glued and inseparably integrated into civil engineering material (1)
Is formed.

【0019】上記搬送体(11)の移動速度は紡出されてい
る連続線条(3) の落下速度よりも遅くなければならな
い。移動速度が連続線条(3) の落下速度と同じかそれよ
りも速いと、嵩高な網状体が形成されないばかりでな
く、連続線条(3)(3)の一部を粗目ネットの幅方向に延び
る骨材(2a)の下側に屈曲させて粗目ネット(2) と連続線
条(3) とが不可分に一体化することができない。そのう
え粗目ネット(2) の表裏に連続線条(3a)が存在しない
と、排水材ベースを(4) を形成しながら排水材ベース
(4) の表裏に図2に示すような連続線条(3a)(3a)を介し
て通水性不織布シート(5)(6)が接着された構造となすこ
とができず、土木材料の製造が非能率となる。
The moving speed of the carrier (11) must be slower than the falling speed of the continuous filaments (3) being spun. If the moving speed is the same as or faster than the falling speed of the continuous filament (3), not only a bulky net will not be formed, but also a part of the continuous filament (3) (3) will be removed in the width direction of the coarse net. The coarse net (2) and the continuous line (3) cannot be inseparably integrated by bending the aggregate (2a) extending to the lower side. In addition, if the continuous line (3a) does not exist on the front and back of the coarse net (2), the drainage base is formed while forming the drainage base (4).
Manufacturing of civil engineering materials is not possible because the water permeable non-woven fabric sheet (5) (6) cannot be constructed by adhering the continuous filaments (3a) (3a) to the front and back of (4). Becomes inefficient.

【0020】万一排水材ベース(4) を形成する粗目ネッ
ト(2) と連続線条(3) が不可分に一体化されないとか、
排水材ベース(4) と通水性不織布シート(5)(6)とが不可
分に一体化されなかった場合には、図5に示すような盛
土(20)の工事に土木用材料(1) を使用した場合、あるい
は帯状に裁断して排水材としを使用した場合、土木用材
料(1) の内部が滑り面となり地滑りを惹起し、擁壁面(2
1)の崩壊や表裏の不織布シート(5)(6)の分離を招く恐れ
が生じる。
Should the coarse net (2) forming the drainage material base (4) and the continuous line (3) be inseparably integrated,
If the drainage material base (4) and the water-permeable non-woven fabric sheet (5) (6) are not integrated, the civil engineering material (1) is used for the embankment work (20) as shown in Fig. 5. When used or cut into strips and used as drainage material, the interior of the civil engineering material (1) becomes a sliding surface and causes landslides, and the retaining wall (2
This may cause the collapse of 1) or the separation of the front and back nonwoven fabric sheets (5) and (6).

【0021】[0021]

【作用】本発明の土木用材料において、熱可塑性合成樹
脂からなる可撓性の粗目ネットは長尺の補強材としての
役割を果たし、土木用材料全体の引張強度向上および寸
法安定性向上に寄与するとともに、本発明の土木用材料
を盛土の水平排水材として使用した場合には、地盤補強
材としての役割を果たし、降雨等により土壌中水分が上
昇した場合の地盤の崩壊を防ぐのに役立つ。
In the civil engineering material of the present invention, the flexible coarse net made of the thermoplastic synthetic resin serves as a long reinforcing material and contributes to the improvement of the tensile strength and the dimensional stability of the entire civil engineering material. In addition, when the civil engineering material of the present invention is used as a horizontal drainage material for embankment, it plays a role as a ground reinforcing material and helps prevent the collapse of the ground when the water content in the soil rises due to rainfall or the like. .

【0022】粗目ネットに連続線条とが絡み合って不可
分に一体化された排水材ベースの連続線条は、不織布シ
ートと粗目ネット間に空隙を形成する作用をなし、表裏
の不織布シートは土壌中の水分を排水材ベースによって
形成された空間に導き入れ、上記連続線条によって形成
された空隙を通って一方から他方へと流動させ、土壌中
の水分を連続的に排水する。
The continuous strips of the drainage material base, which are inseparably integrated by intertwining the continuous strips with the coarse net, have the function of forming voids between the nonwoven sheet and the coarse net. Water is introduced into the space formed by the drainage material base and flows from one to the other through the voids formed by the continuous filaments, so that the water in the soil is continuously drained.

【0023】そして連続線条の膨出部の裏面に接着され
ている通水性不織布シートは、本発明の土木用材料が盛
土補強材や軟弱地盤の補強材として用いられる場合は、
排水材として働き、盛土内の水分を上記した排水作用に
よって外へ放出し盛土の圧密を促進する。一方、本発明
の土木用材料を沈床防止材として使用する場合、通水性
不織布シートは地盤の土砂の流出を防ぐ役割をし、沈床
防止に寄与するものとなる。
The water-permeable non-woven fabric sheet adhered to the back surface of the bulging portion of the continuous filament, when the civil engineering material of the present invention is used as an embankment reinforcing material or a reinforcing material for soft ground,
It acts as a drainage material and releases the moisture in the embankment to the outside by the above-mentioned drainage action to promote the consolidation of the embankment. On the other hand, when the civil engineering material of the present invention is used as a floor-prevention material, the water-permeable nonwoven fabric sheet plays a role of preventing the outflow of the earth and sand from the ground and contributes to the prevention of the floor settlement.

【0024】[0024]

【実施例】以下、本発明の土木用材料の構成およびその
製造方法について実施例により具体的に説明する。
EXAMPLES The constitution of the civil engineering material of the present invention and the method for producing the same will be specifically described below with reference to examples.

【0025】図1は、本発明の土木用材料の一例を示し
たものであって、図2および図3は図1の長さ方向およ
び幅方向の断面図である。図において(1) は土木用材
料、(2) は粗目ネット、(3) は連続線条、(4) は排水材
ベース、(5)(6)は表裏の通水性の不織布シートである。
FIG. 1 shows an example of the civil engineering material of the present invention, and FIGS. 2 and 3 are sectional views in the length direction and the width direction of FIG. In the figure, (1) is a civil engineering material, (2) is a coarse net, (3) is a continuous strip, (4) is a drainage material base, and (5) and (6) are water-permeable non-woven sheets on the front and back.

【0026】粗目ネット(2) として、ポリプロピレン樹
脂を押出し二軸延伸して得られた、骨材(2a) の幅が
4.0mm、厚さが1.8mm、1つの網目部の大きさ
が120cm2 、平行光線透過率が約80%、引張強度
が3800kg/mの成型ネットを使用している。また
通水性不織布シート(5)(6)として、繊度が6デニール、
繊維長が64mmのポリプロピレン繊維60重量%と繊
度が8デニール、繊維長が76mmのポリプロピレン繊
維40重量%からなる目付300g/m2 、見かけ厚さ
3mmのニードルパンチング不織布を使用した。そして
連続線条(3) は、ポリプロピレン樹脂を直径1.2mm
の紡糸ノズルを有する紡糸機から紡出・落下させること
により形成している。
As the coarse net (2), polypropylene resin was extruded and biaxially stretched to obtain an aggregate (2a) having a width of 4.0 mm, a thickness of 1.8 mm and a size of one mesh portion. A molding net of 120 cm 2 , parallel light transmittance of about 80% and tensile strength of 3800 kg / m is used. As the water-permeable nonwoven sheet (5) (6), the fineness is 6 denier,
A needle punched nonwoven fabric having a basis weight of 300 g / m 2 and an apparent thickness of 3 mm, which was composed of 60% by weight of polypropylene fiber having a fiber length of 64 mm, fineness of 8 denier, and 40% by weight of polypropylene fiber having a fiber length of 76 mm, was used. And the continuous filament (3) is made of polypropylene resin with a diameter of 1.2 mm.
It is formed by spinning and dropping from a spinning machine having a spinning nozzle.

【0027】本発明の土木用材料(1) は、図1〜図3に
示しているように、上記粗目ネット(2) 上に、熱可塑性
合成重合体からなる上記連続線条(3) が不規則なループ
をなして重ね合わされてそれぞれの各交差点において接
着され、かつ粗目ネット(2)の網目部分の空間に垂下さ
れた連続線条(3) の一部が粗目ネット(2) の裏面側に屈
曲されて粗目ネット(2) と一体化された排水材ベース
(4) が形成され、この排水材ベース(4) の表裏に、粗目
ネット(2) の骨材(2a)上の連続線条(3a)(3a)を接着剤と
して上記通水性の不織布シート(5)(6)が貼り合わされて
構成されている。
As shown in FIGS. 1 to 3, the civil engineering material (1) of the present invention has the continuous filaments (3) made of a thermoplastic synthetic polymer on the coarse net (2). A part of the continuous filaments (3), which are superposed in an irregular loop and glued at each intersection, and hang down in the space of the mesh portion of the coarse net (2), is the back surface of the coarse net (2). Drainage base that is bent to the side and integrated with the coarse net (2)
(4) is formed, and on the front and back of this drainage material base (4), the continuous line-like strips (3a) and (3a) on the aggregate (2a) of the coarse net (2) are used as an adhesive, and the above water-permeable nonwoven sheet is used. (5) and (6) are laminated and configured.

【0028】上記した構造の土木用材料(1) は次のよう
にして製造した。即ち、図4に示したように、ポリプロ
ピレン樹脂を溶融させ、幅方向に数列の紡糸ノズルを有
した紡糸機(10)より直径1.2mmの多数の連続線条
(3)(3)を紡出するとともに、紡糸ノズルの下方において
上記連続線条(3) の落下速度より遅く矢印方向に移動し
ているエンドレス状の搬送体(11)に上記連続線条(3)
群を自然落下させる。そして搬送体(11)上に上記1枚の
不織布シート(6) を載置供給するとともにこの不織布シ
ート(6) の上方から不織布シート(6) と約10cmの間
隔をあけて粗目ネット(2) を供給して不織布シート(6)
と粗目ネット(2) とを搬送体(11)と同速で同方向に移動
させながら粗目ネット(2) および不織布シート(6) の上
に落下している上記連続線条(3) 群を垂積させ、不規則
に屈曲させながら粗目ネット(2)の網目部分(2b)に連続
線条(3) を垂下膨出させるとともに各交差点を自己融着
させる。このとき粗目ネット(2) の網目部分(2b)から膨
出した連続線条(3) の一部は搬送体(11)の移動にともな
って幅方向に延びている骨材(2a)の下面側に屈曲する。
The civil engineering material (1) having the above structure was produced as follows. That is, as shown in FIG. 4, a polypropylene machine is melted, and a spinning machine (10) having several rows of spinning nozzles in the width direction produces a large number of continuous filaments having a diameter of 1.2 mm.
(3) While spinning (3), the continuous filament (11) is moved to the endless carrier (11) below the spinning nozzle and moving in the direction of the arrow slower than the falling speed of the continuous filament (3). 3)
The group is allowed to fall naturally. Then, the above-mentioned one non-woven sheet (6) is placed on the carrier (11) and supplied, and the coarse net (2) is provided above the non-woven sheet (6) with a distance of about 10 cm from the non-woven sheet (6). Supply Nonwoven Sheet (6)
And the coarse net (2) are moving in the same direction as the carrier (11) at the same speed, the continuous wire (3) group falling on the coarse net (2) and the nonwoven sheet (6) is removed. The continuous line (3) is hung and bulged in the mesh part (2b) of the coarse net (2) while being piled up and bent irregularly, and each intersection is self-bonded. At this time, part of the continuous filaments (3) bulging from the mesh portion (2b) of the coarse net (2) is the bottom surface of the aggregate (2a) extending in the width direction as the carrier (11) moves. Bend to the side.

【0029】さらに上記のようにして垂下集積された連
続線条(3) が上に集積し、その集積された連続線条(3)
が未だ固化せざる間にもう1枚の不織布シート(5) を上
方から粗目ネット(2) 上の連続線条(3a)に向かって供給
するとともにニップローラー(12)でもってその不織布シ
ート(5) を粗目ネット(2) 上の連続線条(3a)に加圧し、
未だ固化していない連続線条(3a)の接着力によって上下
の不織布シート(5)(6)を粗目ネット(2) に接着し、順次
巻き取ることによって本発明の上記土木用材料(1) とし
た。
Further, the continuous filaments (3) suspended and accumulated as described above are accumulated on the upper side, and the accumulated continuous filaments (3) are accumulated.
While still solidifying, another non-woven sheet (5) is fed from above toward the continuous filament (3a) on the coarse net (2), and the non-woven sheet (5) is fed by the nip roller (12). ) To the continuous wire (3a) on the coarse net (2),
The upper and lower nonwoven fabric sheets (5) and (6) are adhered to the coarse net (2) by the adhesive force of the continuous filaments (3a) which have not been solidified yet, and the civil engineering material (1) of the present invention is obtained by sequentially winding them. And

【0030】上記土木用材料(1) の連続線条(3) の目付
は400g/m2 、粗目ネット(2)連続線条(3) とから
なる排水材ベース(4) の見掛け厚さは約2.5mm、空
隙率は82%であり、土木用材料(1) の引張強度は約4
000kgf/mであった。
The unit weight of the continuous wire (3) of the civil engineering material (1) is 400 g / m 2 , and the apparent thickness of the drainage material base (4) consisting of the coarse net (2) and the continuous wire (3) is Approximately 2.5 mm, porosity is 82%, and the tensile strength of civil engineering material (1) is approximately 4
It was 000 kgf / m.

【0031】図2および図3は、上記製造方法により得
られた土木用材料(1) の長さ方向および幅方向の断面図
を示している。この図から明らかなように、粗目ネット
(2)の骨材(2a)の上面と下面に位置した連続線条(3b)(3
b)は、粗目ネット(2) と表裏の不織布シート(5)(6)とを
スポット的に接着して3層を合体させるとともに、各連
続線条(3)(3)間に長さ方向に延びる通水隙間(7)(7)を形
成された構造となっている。
2 and 3 are cross-sectional views in the length direction and the width direction of the civil engineering material (1) obtained by the above manufacturing method. As is clear from this figure, the coarse net
The continuous filaments (3b) (3b) (3b) located on the upper and lower surfaces of the aggregate (2a) of (2)
In b), the coarse net (2) and the non-woven fabric sheets (5) and (6) on the front and back are spot-bonded to combine the three layers, and the lengthwise direction is set between the continuous filaments (3) and (3). It has a structure in which water passage gaps (7) and (7) extending to the are formed.

【0032】[0032]

【発明の効果】このように本発明による土木用材料(1)
は、網目部分(2b)の大きさが100cm2 以下で平行光
線の透過率が80〜98%、引っ張り強度が500kg
/m以上の粗目ネット(2) に、熱可塑性合成重合体から
なる直径0.1〜5mmの多数の連続線条(3) が不規則
なループをなして重ね合わされてそれぞれの各交差点に
おいて接着され、かつ粗目ネット(2) の網目部分の空間
の連続線条(3) の一部が粗目ネット(2) の裏面側に屈曲
され粗目ネット(2) と一体化されて排水材ベース(4) が
形成され、この排水材ベース(4) の表裏に、目付けが2
0〜1500g/m2 、繊維密度が0.03〜0.15
g/cm3 の通水性不織布シート(5)(6)が貼り合わされ
てなるものであり、排水性を具備しながら特に引っ張り
強度が大きいから、これを盛土(20)用補強材を兼ねた排
水材(1A)として用いて図5に略示したように広幅で展開
敷設すれば、敷設施工時の引っ張りに耐え、施工後は通
水性不織布シート(5)(6)を介して盛土(20)内の水分が排
水材ベース(4) へと移行し、排水材ベース(4) 内を移動
して盛土(20)外へと排出されるので、盛土が圧密され、
それによってまた土との摩擦抵抗が増加し、盛土(20)の
土滑りを効果的に防止することができる。
As described above, the civil engineering material according to the present invention (1)
Has a mesh portion (2b) size of 100 cm 2 or less, a parallel light transmittance of 80 to 98%, and a tensile strength of 500 kg.
/ M or more coarse net (2), a large number of continuous filaments (3) made of thermoplastic synthetic polymer with a diameter of 0.1 to 5 mm are stacked in an irregular loop and bonded at each intersection. In addition, a part of the continuous filaments (3) in the space of the mesh portion of the coarse net (2) is bent to the back side of the coarse net (2) and integrated with the coarse net (2) to form the drainage base (4 ) Is formed, and the basis weight is 2 on the front and back of this drainage base (4).
0-1500 g / m 2 , fiber density 0.03-0.15
The water-permeable non-woven fabric sheet (5) (6) of g / cm 3 is laminated, and it has a particularly high tensile strength while having drainage properties. Therefore, this drainage also serves as a reinforcing material for the embankment (20). If it is used as a material (1A) and laid out in a wide width as schematically shown in FIG. 5, it can withstand the pulling during the laying work, and after the construction, the embankment (20) is put through the water-permeable nonwoven sheet (5) (6). The water inside moves to the drainage material base (4), moves inside the drainage material base (4), and is discharged to the outside of the embankment (20).
As a result, the friction resistance with the soil is also increased, and the embankment (20) can be effectively prevented from slipping.

【0033】また図示を省略しているが、本発明の土木
用材料(1) を帯状に裁断して盛土内の水平排水材として
使用すると、上記と同様に土壌内の水分は通水性不織布
シート(5)(6)を介して排水材ベース(4) へと導かれ、さ
らに排水材ベース(4) の連続線条(3)(3)間の上記通水隙
間(7)(7)を通って排出することができ、盛土(20)内の圧
密が有効に促進される。
Although not shown in the drawings, when the civil engineering material (1) of the present invention is cut into strips and used as a horizontal drainage material in the embankment, the moisture in the soil is a water-permeable non-woven sheet as described above. It is guided to the drainage material base (4) via (5) and (6), and the above water passage gaps (7) and (7) between the continuous linear strips (3) and (3) of the drainage material base (4) are It can be discharged through and effectively promotes consolidation within the embankment (20).

【0034】また図6に示すように、軟弱地盤(30)の垂
直ドレン用ペーパードレン材(1B)として土壌中に埋設し
て使用しても、土圧にも拘らず十分な通水路を確保し、
表裏の不織布シート(5)(6)を通って排水材ベース(4) 内
へ流入した水分を、排水材ベース(4) 内の上記通水隙間
に沿って地上へ排水することができる。そしてこの垂直
ドレン用ペーパードレン材(1B)を油圧パックホウを用い
て地下20〜30mまで打設してもこの打設時の外力に
十分耐えることができる。
Further, as shown in FIG. 6, even if it is used by being buried in the soil as the paper drain material (1B) for the vertical drain of the soft ground (30), a sufficient water passage can be secured despite the earth pressure. Then
Moisture that has flowed into the drainage material base (4) through the non-woven fabric sheets (5) and (6) on the front and back can be drained to the ground along the water passage gaps in the drainage material base (4). Even if this paper drain material (1B) for vertical drains is driven to a depth of 20 to 30 m underground using a hydraulic pack hoe, it can sufficiently withstand the external force during this driving.

【0035】また、本発明の土木用材料(1) を軟弱地盤
用補強材(1C)としても使用することができる。即ち、図
7のように軟弱地盤(30)の上面に展開敷設したのちパワ
ーショベルのような重量物が軟弱地盤の上に進入するよ
うなことがあっても、路盤を強化する役目をするので、
重量物が沈み込むようなこともない。さらに施工の際
に、土木用材料(1) を軟弱地盤(30)の域外へまで延長す
るように展開敷設したとき、土木用材料(1) に大きな土
圧がかかっても十分な通水路を確保し、表裏の不織布シ
ート(5)(6)を通って排水材ベース(4) へ流入した水分は
前記しているように排水材ベース(4) の連続線条(3)(3)
間の通水隙間(7)(7)を通って域外へと排水することがで
き、軟弱地盤の圧密にも好適となる。
The civil engineering material (1) of the present invention can also be used as a reinforcing material (1C) for soft ground. That is, even if a heavy object such as a power shovel enters the soft ground (30) after being laid on the upper surface of the soft ground (30) as shown in FIG. 7, it serves to strengthen the roadbed. ,
No heavy objects will sink. Furthermore, during construction, when the civil engineering material (1) is deployed and laid so as to extend outside the soft ground (30), a sufficient water passage will be created even if a large earth pressure is applied to the civil engineering material (1). The water that has been secured and that has flowed into the drainage material base (4) through the non-woven fabric sheets (5) (6) on the front and back sides is connected to the continuous strips (3) (3) of the drainage material base (4) as described above.
The water can be drained to the outside through the water passage gaps (7) and (7), which is also suitable for consolidation of soft ground.

【図面の簡単な説明】[Brief description of drawings]

【図1】本発明の土木用材料の一部破断斜視図である。FIG. 1 is a partially cutaway perspective view of a civil engineering material of the present invention.

【図2】図1の長さ方向の断面拡大図である。FIG. 2 is an enlarged sectional view taken along the length of FIG.

【図3】図1の幅方向の断面拡大図である。3 is an enlarged cross-sectional view in the width direction of FIG.

【図4】本発明の土木用材料の製造方法を略示した断面
図である。
FIG. 4 is a cross-sectional view schematically showing a method for manufacturing a civil engineering material of the present invention.

【図5】本発明の土木用材料を盛土工事の施工に使用し
た簡略説明図である。
FIG. 5 is a simplified explanatory diagram in which the civil engineering material of the present invention is used for embankment work.

【図6】本発明の土木用材料を軟弱地盤垂直ドレン用ペ
ーパードレン材として用いた簡略説明図である。
FIG. 6 is a simplified explanatory diagram in which the civil engineering material of the present invention is used as a paper drain material for vertical drains on soft ground.

【図7】本発明の土木用材料を軟弱地盤補強の施工に使
用した簡略説明図ある。
FIG. 7 is a simplified explanatory diagram in which the civil engineering material of the present invention is used for constructing soft ground reinforcement.

【符号の説明】[Explanation of symbols]

1.土木用材料 2.粗目ネット 3.連続線条 4.排水材ベース 5.通水性の不織布シート 6.通水性の不織布シート 7.通水隙間 1. Materials for civil engineering 2. Coarse net 3. Continuous line 4. Drainage material base 5. Water-permeable non-woven sheet 6. Water-permeable non-woven sheet 7. Water passage gap

─────────────────────────────────────────────────────
─────────────────────────────────────────────────── ───

【手続補正書】[Procedure amendment]

【提出日】平成6年6月10日[Submission date] June 10, 1994

【手続補正1】[Procedure Amendment 1]

【補正対象書類名】明細書[Document name to be amended] Statement

【補正対象項目名】0026[Correction target item name] 0026

【補正方法】変更[Correction method] Change

【補正内容】[Correction content]

【0026】粗目ネット(2) として、ポリプロピレン樹
脂を押出し二軸延伸して得られた、骨材(2a) の幅が
4.0mm、厚さが1.8mm、1つの網目部の大きさ
12cm2 、平行光線透過率が約80%、引張強度が
3800kg/mの成型ネットを使用している。また通
水性不織布シート(5)(6)として、繊度が6デニール、繊
維長が64mmのポリプロピレン繊維60重量%と繊度
が8デニール、繊維長が76mmのポリプロピレン繊維
40重量%からなる目付300g/m2 、見かけ厚さ3
mmのニードルパンチング不織布を使用した。そして連
続線条(3) は、ポリプロピレン樹脂を直径1.2mmの
紡糸ノズルを有する紡糸機から紡出・落下させることに
より形成している。
As the coarse net (2), polypropylene resin was extruded and biaxially stretched to obtain an aggregate (2a) having a width of 4.0 mm, a thickness of 1.8 mm and a size of one mesh portion. A molding net of 12 cm 2 , parallel light transmittance of about 80%, and tensile strength of 3800 kg / m is used. Further, as the water-permeable non-woven sheet (5) (6), a basis weight of 6 denier and a fiber length of 64 mm is 60% by weight of polypropylene fibers and a fineness is 8 denier and a fiber length of 76 mm is 40% by weight. 2 , apparent thickness 3
mm needle punched non-woven fabric was used. The continuous filaments (3) are formed by spinning and dropping polypropylene resin from a spinning machine having a spinning nozzle with a diameter of 1.2 mm.

【手続補正2】[Procedure Amendment 2]

【補正対象書類名】明細書[Document name to be amended] Statement

【補正対象項目名】0028[Correction target item name] 0028

【補正方法】変更[Correction method] Change

【補正内容】[Correction content]

【0028】上記した構造の土木用材料(1) は次のよう
にして製造した。即ち、図4に示したように、ポリプロ
ピレン樹脂を溶融させ、幅方向に数列の紡糸ノズルを有
した紡糸機(10)より直径1.2mmの多数の連続線条
(3)(3)を紡出するとともに、紡糸ノズルの下方において
上記連続線条(3) の落下速度より遅く矢印方向に移動し
ているエンドレス状の搬送体(11)に上記連続線条(3)
群を自然落下させる。そして搬送体(11)上に上記1枚の
不織布シート(6) を載置供給するとともにこの不織布シ
ート(6) の上方から不織布シート(6) と約10cmの間
隔をあけて粗目ネット(2) を供給して不織布シート(6)
と粗目ネット(2) とを搬送体(11)と同速で同方向に移動
させながら粗目ネット(2) および不織布シート(6) の上
に落下している上記連続線条(3) 群を垂下集積させ、不
規則に屈曲させながら粗目ネット(2) の網目部分(2b)に
連続線条(3) を垂下膨出させるとともに各交差点を自己
融着させる。このとき粗目ネット(2) の網目部分(2b)か
ら膨出した連続線条(3) の一部は搬送体(11)の移動にと
もなって幅方向に延びている骨材(2a)の下面側に屈曲す
る。
The civil engineering material (1) having the above structure was produced as follows. That is, as shown in FIG. 4, a polypropylene machine is melted, and a spinning machine (10) having several rows of spinning nozzles in the width direction produces a large number of continuous filaments having a diameter of 1.2 mm.
(3) While spinning (3), the continuous filament (11) is moved to the endless carrier (11) below the spinning nozzle and moving in the direction of the arrow slower than the falling speed of the continuous filament (3). 3)
The group is allowed to fall naturally. Then, the above-mentioned one non-woven sheet (6) is placed on the carrier (11) and supplied, and the coarse net (2) is provided above the non-woven sheet (6) with a distance of about 10 cm from the non-woven sheet (6). Supply Nonwoven Sheet (6)
And the coarse net (2) are moving in the same direction as the carrier (11) at the same speed, the continuous wire (3) group falling on the coarse net (2) and the nonwoven sheet (6) is removed. The continuous filaments (3) are drooped and bulged on the mesh portion (2b) of the coarse net (2) while being drooped and accumulated and bent at irregular intervals, and each intersection is self-bonded. At this time, part of the continuous filaments (3) bulging from the mesh portion (2b) of the coarse net (2) is the bottom surface of the aggregate (2a) extending in the width direction as the carrier (11) moves. Bend to the side.

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 網目部分の大きさが100cm2 以下で
平行光線の透過率が80〜98%、引っ張り強度が50
0kg/m以上の可撓性の粗目ネットに、熱可塑性合成
重合体からなる直径0.1〜5mmの多数の連続線条が
不規則なループをなして重ね合わされてそれぞれの各交
差点において接着され、かつ粗目ネットの網目部分の空
間の連続線条の一部が粗目ネットの裏面側に屈曲され粗
目ネットと一体化されて排水材ベースが形成され、この
排水材ベースの表裏に、目付けが20〜1500g/m
2 、繊維密度が0.03〜0.15g/cm3 の通水性
不織布シートが貼り合わされていることを特徴とする土
木用材料。
1. A mesh portion having a size of 100 cm 2 or less, a parallel light transmittance of 80 to 98%, and a tensile strength of 50.
A large number of continuous filaments having a diameter of 0.1 to 5 mm made of a thermoplastic synthetic polymer are superposed on a flexible coarse net of 0 kg / m or more in an irregular loop and adhered at each intersection. In addition, a part of the continuous filaments in the space of the mesh portion of the coarse net is bent to the back side of the coarse net to be integrated with the coarse net to form a drainage material base. ~ 1500g / m
2. A material for civil engineering, characterized in that a water-permeable nonwoven fabric sheet having a fiber density of 0.03 to 0.15 g / cm 3 is laminated.
【請求項2】 上記粗目ネットが、熱可塑性合成重合体
の成型体または熱可塑性合成重合体からなる繊維を編織
し合成樹脂加工を施した材料からなる請求項1記載の土
木用材料。
2. The material for civil engineering according to claim 1, wherein the coarse net is made of a thermoplastic synthetic polymer molding or a material obtained by weaving fibers made of a thermoplastic synthetic polymer and subjecting to synthetic resin processing.
JP05269794A 1994-02-25 1994-02-25 Materials for civil engineering Expired - Fee Related JP3518619B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP05269794A JP3518619B2 (en) 1994-02-25 1994-02-25 Materials for civil engineering

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP05269794A JP3518619B2 (en) 1994-02-25 1994-02-25 Materials for civil engineering

Publications (2)

Publication Number Publication Date
JPH07238530A true JPH07238530A (en) 1995-09-12
JP3518619B2 JP3518619B2 (en) 2004-04-12

Family

ID=12922087

Family Applications (1)

Application Number Title Priority Date Filing Date
JP05269794A Expired - Fee Related JP3518619B2 (en) 1994-02-25 1994-02-25 Materials for civil engineering

Country Status (1)

Country Link
JP (1) JP3518619B2 (en)

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2816648A1 (en) * 2000-11-15 2002-05-17 Gtm Construction Reinforced earth embankment used in retaining walls has layers of synthetic geotextile or mesh fixed to inside of prefabricated wall panels with earth between the layers
JP2002371558A (en) * 2001-06-18 2002-12-26 Diatex Co Ltd Civil engineering sheet
JP2006152502A (en) * 2004-11-30 2006-06-15 Daiwabo Co Ltd Net-like article and its production method
JP2008542583A (en) * 2005-05-26 2008-11-27 オフィシネ マッカフェリイ ソシエタ ペル アチオニ Lightweight protective element and mattress type filter
JP2009500166A (en) * 2005-07-05 2009-01-08 エルテック エンヴァイアロンメンタル システムズ エルエルシー Sediment control
JP2011518268A (en) * 2008-04-22 2011-06-23 アントン カナンド, Flood, coastal or puddle protection device and method
JP2014211025A (en) * 2013-04-18 2014-11-13 Jx日鉱日石エネルギー株式会社 Geosynthetics
JP2018001983A (en) * 2016-07-04 2018-01-11 株式会社エイワ Air filling safety apparatus

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2816648A1 (en) * 2000-11-15 2002-05-17 Gtm Construction Reinforced earth embankment used in retaining walls has layers of synthetic geotextile or mesh fixed to inside of prefabricated wall panels with earth between the layers
JP2002371558A (en) * 2001-06-18 2002-12-26 Diatex Co Ltd Civil engineering sheet
JP4511081B2 (en) * 2001-06-18 2010-07-28 ダイヤテックス株式会社 Civil engineering sheet
JP2006152502A (en) * 2004-11-30 2006-06-15 Daiwabo Co Ltd Net-like article and its production method
JP2008542583A (en) * 2005-05-26 2008-11-27 オフィシネ マッカフェリイ ソシエタ ペル アチオニ Lightweight protective element and mattress type filter
US8979428B2 (en) 2005-05-26 2015-03-17 Officine Maccaferri S.P.A. Lightweight protection element and filter of the mattress type
JP2009500166A (en) * 2005-07-05 2009-01-08 エルテック エンヴァイアロンメンタル システムズ エルエルシー Sediment control
JP2011518268A (en) * 2008-04-22 2011-06-23 アントン カナンド, Flood, coastal or puddle protection device and method
JP2014211025A (en) * 2013-04-18 2014-11-13 Jx日鉱日石エネルギー株式会社 Geosynthetics
JP2018001983A (en) * 2016-07-04 2018-01-11 株式会社エイワ Air filling safety apparatus

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