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JPH08302693A - Reinforcing earthwork method - Google Patents

Reinforcing earthwork method

Info

Publication number
JPH08302693A
JPH08302693A JP13560895A JP13560895A JPH08302693A JP H08302693 A JPH08302693 A JP H08302693A JP 13560895 A JP13560895 A JP 13560895A JP 13560895 A JP13560895 A JP 13560895A JP H08302693 A JPH08302693 A JP H08302693A
Authority
JP
Japan
Prior art keywords
belt
anchor
shaped tension
shaped
reinforced
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.)
Withdrawn
Application number
JP13560895A
Other languages
Japanese (ja)
Inventor
Susumu Kato
進 加藤
Hidekazu Kataoka
英一 片岡
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.)
Maeda Kosen Co Ltd
Original Assignee
Maeda Kosen 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 Maeda Kosen Co Ltd filed Critical Maeda Kosen Co Ltd
Priority to JP13560895A priority Critical patent/JPH08302693A/en
Publication of JPH08302693A publication Critical patent/JPH08302693A/en
Withdrawn legal-status Critical Current

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Landscapes

  • Pit Excavations, Shoring, Fill Or Stabilisation Of Slopes (AREA)

Abstract

PURPOSE: To improve the durability, allow pursuit after deformation of a banking, construct light in the weight, and enhance the transporting performance and workability. CONSTITUTION: A wall surface material 10 of concrete is coupled with an anchor 20 made of concrete or FRP through connecting rods buried therein respectively using a belt shape tensioning material 30 prepared by covering high strength fibers with a synthetic resin. Thus a reinforced earth forming structure A is provided. In the condition that the belt shape tensioning material 30 is laid on the earth surface, the wall surface material 10 is arranged on the slope face of the earth surface, and the anchor 20 is installed inside the wall surface material 10. Inside the wall surface material 10, earth and sand are put in from above the belt shape tensioning material 30 and the anchor 20. This working cycle is repeated while the structure A is shifted inward bit by bit along the slope face, and thus a banking is formed.

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、耐久性の向上が図れ、
盛土の変形に追従でき、また軽量化が図れて、運搬性お
よび施行性も向上できる補強土工法に関する。
BACKGROUND OF THE INVENTION The present invention has an improved durability.
The present invention relates to a reinforced soil construction method capable of following deformation of an embankment, reducing weight, and improving transportability and workability.

【0002】[0002]

【従来の技術】従来の土面に盛土を形成する補強土工法
の1つとして、施行現場において、土面の法面側にコン
クリート製の壁面パネルを配置し、次いで壁面パネル
と、それより内方へ離れた土面上の鉄板製のアンカーパ
ネルとを鉄筋の緊張材により連結し、次に壁面材の内方
に、アンカーパネルおよび緊張材の上から土砂を投入
し、そののち壁面パネルを上方へ重ねた状態で、順次、
これらの工程を繰り返すことにより、垂直の盛土を形成
している。
2. Description of the Related Art As one of the conventional reinforced soil construction methods for forming embankment on a soil surface, a concrete wall panel is placed on the slope side of the soil at the construction site, and then the wall panel and The anchor plate made of iron plate on the soil surface away from the wall is connected by the reinforcing material of the reinforcing bar, and then the earth and sand are put inside the wall material from above the anchor panel and the reinforcing material, and then the wall panel is attached. In the state that they are stacked upwards,
By repeating these steps, a vertical embankment is formed.

【0003】[0003]

【発明が解決しようとする課題】しかしながら、上記補
強土工法においては、壁面パネルとアンカーパネルとを
連結する緊張材が、鉄製の棒材である鉄筋からなるの
で、長期間の土中への埋設により錆び易いという問題点
がある。また、壁面パネルを垂直に積み重ねて盛土を形
成するので、仮に盛土が沈下すると、その変形に積まれ
た壁面パネルが追従できず、応力が集中して壁面パネル
が崩壊する危険性が懸念されるという問題点がある。さ
らに、緊張材の鉄筋は硬くて重いので、施行現場への運
搬や施行が重労働であるという問題点もある。
However, in the above-mentioned reinforced earth work method, since the tension member connecting the wall panel and the anchor panel is made of a reinforcing bar which is an iron bar, it is buried in the soil for a long time. Therefore, there is a problem that it easily rusts. In addition, since the wall panels are stacked vertically to form the embankment, if the embankment sinks, the wall panels stacked due to the deformation cannot follow and there is a risk of stress concentration and collapse of the wall panels. There is a problem. Furthermore, since the reinforcing bar of the tension material is hard and heavy, there is a problem that it is a heavy labor to carry and carry it to the enforcement site.

【0004】本発明は、このような従来の問題点を背景
になされたもので、耐久性の向上が図れ、盛土の変形に
追従でき、また軽量化が図れて、運搬性および施行性も
向上できる補強土工法を提供することを目的とする。
The present invention has been made against the background of such conventional problems. It is possible to improve durability, follow deformation of embankment, reduce weight, and improve transportability and workability. The purpose is to provide a reinforced earth construction method that can be used.

【0005】[0005]

【課題を解決するための手段】請求項1記載の補強土工
法は、コンクリート製の壁面材と、コンクリート製また
はFRP製のアンカー材とを、それぞれに埋設された連
結ロッドを介して、高強力繊維を合成樹脂で被覆したベ
ルト状緊張材により連結して製造した補強土形成構造体
を、前記ベルト状緊張材を土面に敷設した状態で、前記
壁面材を土面の法面側に配置する一方、前記アンカー材
を前記壁面材の内方に配置する工程と、前記壁面材の内
方に、前記ベルト状緊張材および前記アンカー材の上か
ら土砂を投入する工程と、前記法面に沿って、前記補強
土形成構造体を、順次、内方へずらしながらこれらの工
程を繰り返して盛土を形成する補強土工法を提供するも
のである。なお、ここでいう連結ロッドとは、必ずしも
厳格な意味でのロッドに限らず、例えばフック状、ブロ
ック状の部材など、他の連結可能な形状のものをも含
む。
According to a first aspect of the present invention, there is provided a reinforced earth construction method of high strength through a connection rod embedded in a wall material made of concrete and an anchor material made of concrete or FRP. A reinforcing soil forming structure manufactured by connecting fibers with a belt-shaped tension material coated with a synthetic resin is arranged with the belt-shaped tension material laid on the soil surface, and the wall surface material is arranged on the slope side of the soil surface. On the other hand, a step of arranging the anchor material inside the wall material, a step of injecting earth and sand from above the belt-shaped tension material and the anchor material inside the wall material, and on the slope. Along with the above, the reinforced soil forming structure is provided with a reinforced soil construction method in which these steps are repeated while sequentially displacing the reinforced soil forming structure inward. The connecting rod referred to here is not limited to a rod in a strict sense, and may include other connectable shapes such as hook-shaped and block-shaped members.

【0006】また、請求項2記載の補強土工法は、コン
クリート製の壁面材と、コンクリート製またはFRP製
のアンカー材とを、それぞれに埋設された埋め込みロッ
ドの両端部に掛け渡された、高強力繊維を合成樹脂で被
覆した比較的短尺なループ状のベルト状緊張材の先端部
に掛け渡しロッドが差し通された連結基部を介して、比
較的長尺な前記ループ状のベルト状緊張材により連結し
て製造した補強土形成構造体を、前記比較的長尺なベル
ト状緊張材を土面に敷設した状態で、前記壁面材を土面
の法面側に配置する一方、前記アンカー材を前記壁面材
の内方に配置する工程と、前記壁面材の内方に、前記ベ
ルト状緊張材および前記アンカー材の上から土砂を投入
する工程と、前記法面に沿って、前記補強土形成構造体
を、順次、内方へずらしながらこれらの工程を繰り返し
て盛土を形成することを特徴とする補強土工法を提供す
るものである。なお、ここでいう埋め込みロッドおよび
掛け渡しロッドとは、必ずしも厳格な意味でのロッドに
限らず、例えばフック状、ブロック状の部材など、他の
連結可能な形状のものをも含む。
Further, in the reinforced earth work method according to the second aspect of the present invention, a concrete wall material and an anchor material made of concrete or FRP are bridged over both ends of the embedded rods, respectively, A relatively long loop-shaped belt-shaped tension member having a relatively short loop-shaped belt-shaped tension member coated with strong fibers with a synthetic resin through a connecting base portion in which a bridging rod is inserted into the distal end portion. In the state in which the relatively long belt-shaped tension member is laid on the soil surface, the wall material is arranged on the slope side of the soil surface while the reinforcing soil forming structure manufactured by connecting by The inside of the wall material, the inside of the wall material, the step of charging earth and sand from above the belt-shaped tension material and the anchor material, and along the slope, the reinforced soil Forming structure sequentially inward There is provided a reinforced soil construction method, which comprises forming a embankment Repeat these steps with Rashi. It should be noted that the embedded rod and the bridging rod here are not necessarily limited to the rods in a strict sense, and include other connectable shapes such as hook-shaped and block-shaped members.

【0007】[0007]

【作用】請求項1、2記載の補強土工法においては、例
えばあらかじめ工場において、壁面材とアンカー材と
を、高強力繊維を合成樹脂で被覆したベルト状緊張材に
より連結して補強土形成構造体を製造し、それを施行現
場へ運び込むことができるので、現場における施行性の
向上が図れる。しかも、ベルト状緊張材が軽くて可撓性
を有する部材であるので、緊張材、ひいては補強土形成
構造体の軽量化や取り扱いの容易性が良好となり、これ
に伴って、運搬性やより以上の施行性の向上も図れる。
次いで、施行現場において、ベルト状緊張材を土面に敷
設した状態で、壁面材を土面の法面側に配置する一方、
アンカー材を壁面材の内方に配置して補強土形成構造体
を施行し、次いで壁面材の内方に、ベルト状緊張材およ
びアンカー材の上から土砂を投入し、そののち法面に沿
って、補強土形成構造体を、順次、内方へずらしながら
これらの工程を繰り返して盛土を形成する。
In the reinforced soil construction method according to claims 1 and 2, for example, in a factory, a wall material and an anchor material are connected in advance by a belt-shaped tension material in which high-strength fibers are coated with a synthetic resin to form a reinforced soil forming structure. Since the body can be manufactured and carried to the site of enforcement, the field of implementation can be improved. Moreover, since the belt-shaped tension member is a light and flexible member, the tension member, and thus the reinforced soil forming structure, are lighter and easier to handle. The enforcement of can be improved.
Then, at the enforcement site, while arranging the belt-shaped tension material on the soil surface, while arranging the wall material on the slope side of the soil surface,
The anchor material is placed inside the wall material to carry out the reinforced soil forming structure, and then earth and sand are put inside the wall material from above the belt-shaped tension material and the anchor material, and then along the slope. Then, these steps are repeated while sequentially shifting the reinforcing soil forming structure inward to form the embankment.

【0008】この際、緊張材として、高強力繊維を合成
樹脂で被覆した、比較的軽量で可撓性を有するベルト状
緊張材が採用されているので、緊張材が錆び付かず耐久
性の向上が図れるとともに、盛土の変形にも追従でき
る。また、ベルト状緊張材が、高強力繊維を合成樹脂に
より被覆した構造であるので、例えば施行時に石などの
突起物によりベルト状緊張材に衝撃が加わっても、被覆
している合成樹脂に傷が付くだけで、高強力繊維にはダ
メージが及ばず、施行後の引張強度が低下することはな
い。さらに、壁面材は、順次、内方へずらしながら積み
重ねられていくので、仮に盛土に沈下が生じて、ベルト
状緊張材が大きく引っ張られても、法面の特定部分に応
力が集中するのを防止でき、法面の崩壊を抑制できた
り、比較的小さな変形に抑えることができる。
At this time, since a relatively lightweight and flexible belt-shaped tension material in which high-strength fibers are coated with a synthetic resin is adopted as the tension material, the tension material does not rust and the durability is improved. It is also possible to follow the deformation of the embankment. In addition, since the belt-shaped tension member has a structure in which high-strength fibers are coated with synthetic resin, even if the belt-shaped tension member is impacted by protrusions such as stones during execution, the covering synthetic resin will be damaged. The high-strength fiber will not be damaged and the tensile strength after execution will not be lowered only by adding. Further, since the wall materials are sequentially stacked inwardly, even if the embankment is submerged and the belt-shaped tension member is greatly pulled, stress is not concentrated on a specific part of the slope. It is possible to prevent it, to prevent the slope from collapsing, and to suppress the deformation to a relatively small amount.

【0009】また、請求項2記載の補強土工法において
は、壁面材およびアンカー材にそれぞれ連結基部を設け
て、それぞれの連結基部をループ状のベルト状緊張材に
より連結させるので、ベルト状緊張材の強度が向上され
る。
Further, in the reinforced earthwork method according to the second aspect, since the wall material and the anchor material are respectively provided with the connection base portions and the connection base portions are connected by the loop-shaped belt-shaped tension material, the belt-shaped tension material. Strength is improved.

【0010】[0010]

【実施例】以下、本発明の補強土工法の実施例を図面に
基づいて説明する。まず、図1、2に基づいて、本発明
の第1の実施例の補強土工法を説明する。図1に示すよ
うに、本発明の第1の実施例の補強土工法は、補強土形
成構造体Aを用いた、5段式の盛土を形成する補強土工
法である。補強土形成構造体Aは、土面の法面側に配置
される壁面材10と、壁面材10の内方の土面に配置さ
れるアンカー材20と、壁面材10およびアンカー材2
0を、それぞれに埋設された連結ロッド11、21に挿
着された状態で連結するベルト状緊張材30とを備えて
いる。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the reinforced earthwork method of the present invention will be described below with reference to the drawings. First, the reinforced earthwork method of the first embodiment of the present invention will be described with reference to FIGS. As shown in FIG. 1, the reinforced soil construction method of the first embodiment of the present invention is a reinforced soil construction method in which a reinforced soil forming structure A is used to form a five-step embankment. The reinforced soil forming structure A includes a wall material 10 arranged on the slope side of the soil surface, an anchor material 20 arranged on the soil surface inside the wall material 10, the wall material 10 and the anchor material 2.
0 is connected to the connecting rods 11 and 21 embedded in each of the belts 0, and the belt-like tensioning member 30 is connected.

【0011】壁面材10は、厚さ150mm、高さ1,
000mm、幅1,000mmのコンクリート製の部材
であり、またアンカー材20は、厚さ150mm、高さ
200mm、幅200mmのコンクリート製のものであ
る。ただし、アンカー材20は、これに限らずFRP製
のものでもよい。図2、3に示すように、ベルト状緊張
材30は、高強力繊維の一例である総デニール22,0
00deのマルチフィラメントからなる20本の高強度
ポリエステル繊維31を横に2.5mmピッチで並べ、
それらを合成樹脂の一例であるポリエチレン樹脂32で
一体的に被覆した長さ6m、巾85mm、厚さ3mm、
引張強度3tfのベルト状部材が使用されている。
The wall material 10 has a thickness of 150 mm and a height of 1.
The anchor member 20 is a concrete member having a thickness of 150 mm, a height of 200 mm, and a width of 200 mm. However, the anchor material 20 is not limited to this, and may be made of FRP. As shown in FIGS. 2 and 3, the belt-shaped tension member 30 is a total denier 22,0 which is an example of high strength fiber.
Twenty high-strength polyester fibers 31 consisting of 00 de multifilaments are arranged side by side at a pitch of 2.5 mm,
6m in length, 85mm in width, 3mm in thickness, which are integrally covered with polyethylene resin 32, which is an example of synthetic resin,
A belt-shaped member having a tensile strength of 3 tf is used.

【0012】なお、このような土木工事用の樹脂部材と
しては、フィラメント状の長繊維でなければ効果が弱
い。短繊維からなる紡績糸では、繊維がずるずると伸び
てしまい、所定の強度が得られ難いためである。高強度
繊維としては、そのほか超高分子量ポリエチレン繊維、
アラミド繊維、全芳香族ポリエステル繊維などの有機高
強力繊維、アモルファス金属繊維、ボロン繊維などの無
機繊維といった所定の高強力の素材からなる補強用繊維
が挙げられる。また、高強度ポリエステル繊維31の太
さを22,000deとしたが、これに限定しなくて
も、通常、総デニールは1,000〜2,000,00
0de、好ましくは3,000〜1,000,000d
e程度である。
As a resin member for civil engineering work, the effect is weak unless it is a filamentary long fiber. This is because in the spun yarn made of short fibers, if the fibers are slippery, they will stretch and it will be difficult to obtain a predetermined strength. Other high strength fibers include ultra high molecular weight polyethylene fibers,
Reinforcing fibers made of a predetermined high-strength material such as organic high-strength fibers such as aramid fibers and wholly aromatic polyester fibers, amorphous metal fibers, and inorganic fibers such as boron fibers can be mentioned. Although the thickness of the high-strength polyester fiber 31 is 22,000 de, the total denier is usually 1,000 to 2,000, without being limited to this.
0 de, preferably 3,000 to 1,000,000 d
It is about e.

【0013】高強度ポリエステル繊維31を被覆する合
成樹脂として、ポリエチレン樹脂32を挙げたが、これ
に限定しなくても、低密度ポリエチレン、ポリプロピレ
ン、ナイロン、EVA、またはポリ塩化ビニルなどの熱
可塑性合成樹脂を採用することもできる。なお、ベルト
状緊張材30における高強度ポリエステル繊維31の使
用本数は20本であるが、これに限定しなくても、例え
ば5本、10本など任意本数でもよい。また、ベルト状
緊張材30の使用本数は、1壁面あたり1本であるが、
これに限定しなくても、例えば2本、4本など任意本数
でもよい。さらに、ベルト状緊張材30は、ここでは長
さ6m、引張強度3tfとしたものの、これは盛土材の
土質、盛土高さなどにより異なり、補強盛土の安定解析
により、その長さ、強度を決定すればよい。
As the synthetic resin for covering the high-strength polyester fiber 31, the polyethylene resin 32 has been cited, but the synthetic resin is not limited to this, and is made of thermoplastic synthetic material such as low-density polyethylene, polypropylene, nylon, EVA, or polyvinyl chloride. Resin can also be adopted. The number of high-strength polyester fibers 31 used in the belt-shaped tension member 30 is 20, but the number is not limited to this and may be any number such as 5, 10 or the like. Also, the number of belt-shaped tension members 30 used is one per wall surface,
The number is not limited to this and may be any number such as two or four. Further, although the belt-shaped tension member 30 has a length of 6 m and a tensile strength of 3 tf here, this differs depending on the soil quality of the embankment material, the embankment height, etc., and its length and strength are determined by the stability analysis of the reinforcement embankment. do it.

【0014】次に、本発明の第1の実施例の補強土工法
を説明する。図2に示すように、あらかじめ工場におい
て、壁面材10とアンカー材20とを、ベルト状緊張材
30により連結して、補強土形成構造体Aを製造してお
く。次いで、これらの補強土形成構造体Aをトラックな
どで施行現場へ運び込む。図1に示すように、壁面材1
0を土面の法面側に配置し、ベルト状緊張材30を内方
へ引っ張りながら、アンカー材20を土面の奥位置に配
置する。なお、この時点では、ベルト状緊張材30は、
壁面材10とアンカー材20の間に横架された状態とな
っている。それから、壁面材10の内方に、ベルト状緊
張材30やアンカー材20を埋設するように、上方より
土砂Sを投入して1段目の盛土部分を形成する。その
後、順次、法面に沿って補強土形成構造体Aを、内方へ
ずらしながら、上述した工程を繰り返すことにより、高
さ5m、5段式の盛土を形成する。
Next, the reinforcing earthwork method of the first embodiment of the present invention will be explained. As shown in FIG. 2, in the factory, the wall material 10 and the anchor material 20 are connected by the belt-shaped tension material 30 to manufacture the reinforced soil forming structure A in advance. Next, these reinforced soil forming structures A are carried to the site by a truck or the like. As shown in FIG. 1, the wall material 1
0 is arranged on the slope side of the soil surface, and the anchor material 20 is arranged at the back position of the soil surface while pulling the belt-shaped tension member 30 inward. At this point, the belt-shaped tension member 30 is
It is in a state of being horizontally stretched between the wall material 10 and the anchor material 20. Then, the sand S is introduced from above so as to bury the belt-shaped tension member 30 and the anchor member 20 inside the wall member 10 to form the first embankment portion. After that, the reinforced soil forming structure A is sequentially shifted inward along the slope, and the above-described steps are repeated to form a 5-m height, 5-step embankment.

【0015】このように緊張材として、従来の鉄筋に代
えてベルト状緊張材30を採用したことにより、運搬に
支障のないほどに軽量で、かつ可撓性を有する緊張材が
得られ、これにより施行現場でなく、工場での組み立て
が可能となり、現場での施行性を向上できる。なお、仮
に本手段と同様に、硬くて重い緊張材を採用した従来の
補強土形成構造体を工場製造することも考えられるが、
その場合、必然的に運搬車への積み込み、積み下ろし用
のクレーン装置の大型化や運搬車自体の大型化の問題を
抱え込むことになり、コスト的に折り合わず、現実的な
ものでないのは明らかである。
By adopting the belt-shaped tension member 30 instead of the conventional reinforcing bar as the tension member, a tension member which is lightweight and flexible enough not to hinder transportation can be obtained. As a result, assembly at the factory, not at the site of execution, is possible, improving the workability at the site. Note that, similar to this means, it is conceivable to factory-manufacture a conventional reinforced soil forming structure employing a hard and heavy tension material,
In that case, it will inevitably have the problems of increasing the size of the crane device for loading and unloading the carrier and the size of the carrier itself, and it is obvious that it is not realistic in terms of cost. is there.

【0016】また、ベルト状緊張材30が軽くて可撓性
を有する部材であるので、施行時に、補強土形成構造体
Aの取り扱いが容易となり、例えば石などの突起物によ
りベルト状緊張材30に衝撃が加わっても、被覆してい
るポリエチレン樹脂32に傷が付くだけで、高強度ポリ
エステル繊維31にはダメージが及ばず、施行後の引張
強度が低下することはない。またこの施行後も、緊張材
が錆び付き難くて耐久性の向上が図れるとともに、仮に
盛土が沈下したとしても、ベルト状緊張材30が屈曲し
て、その盛土の変形に追従し易い。さらに、壁面材10
は、順次、内方へずらしながら積み重ねられていくの
で、仮に盛土に沈下が生じて、ベルト状緊張材30が大
きく引っ張られても、法面の特定部分に応力が集中する
のを防止でき、法面の崩壊を抑制できたり、比較的小さ
な変形に抑えることができる。
Further, since the belt-shaped tension member 30 is a light and flexible member, it becomes easy to handle the reinforcing soil forming structure A at the time of execution, and the belt-shaped tension member 30 is made of protrusions such as stones. Even if an impact is applied to the polyethylene resin 32, only the polyethylene resin 32 covering it is scratched, the high-strength polyester fiber 31 is not damaged, and the tensile strength after execution is not reduced. Further, even after this is performed, the tension material is less likely to rust and the durability is improved, and even if the embankment sinks, the belt-shaped tension material 30 bends and easily follows the deformation of the embankment. Furthermore, the wall material 10
Are sequentially stacked inwardly, so that even if the embankment sinks and the belt-shaped tension member 30 is greatly pulled, stress can be prevented from concentrating on a specific part of the slope. It is possible to prevent the slope from collapsing and to suppress the deformation to a relatively small amount.

【0017】次に、図4に基づいて、本発明の第2の実
施例の補強土工法を説明する。第2の実施例の補強土工
法は、補強土形成構造体Bが、壁面材40およびアンカ
ー材50に連結基部41、51が取り付けられ、両連結
基部41、51をループ状のベルト状緊張材60により
連結して、ベルト状緊張材60の強度を向上させたもの
である。連結基部41、51は、それぞれの壁面材40
およびアンカー材50に埋設された埋め込みロッド4
2、52と、埋め込みロッド42、52の両端部に掛け
渡された短尺なループ状のベルト状緊張材43、53
と、ベルト状緊張材43、53の先端部に差し通された
掛け渡しロッド44、54とを有している。ベルト状緊
張材60は、これらの掛け渡しロッド44、54間に掛
け渡されている。なお、上記以外の構成および作用は、
第1実施例と同様であるので、省略する。
Next, with reference to FIG. 4, a reinforced earthwork method according to a second embodiment of the present invention will be described. In the reinforced soil construction method of the second embodiment, the reinforced soil forming structure B is attached to the wall material 40 and the anchor material 50 with the connecting base portions 41 and 51, and the connecting base portions 41 and 51 are loop-shaped belt-shaped tension members. The strength of the belt-shaped tension member 60 is improved by connecting with the belt-shaped tension member 60. The connection bases 41 and 51 are respectively the wall members 40.
And embedded rod 4 embedded in anchor material 50
2, 52, and belt-shaped tension members 43, 53 in a short loop extending from both ends of the embedded rods 42, 52.
And the bridging rods 44 and 54 inserted through the tip ends of the belt-shaped tension members 43 and 53. The belt-shaped tension member 60 is bridged between these bridge rods 44 and 54. The configuration and operation other than the above are
Since it is the same as the first embodiment, it will be omitted.

【0018】以上、本発明の実施例を説明したが、具体
的な構成および作用はこれらの実施例に限られるもので
はなく、本発明の要旨を逸脱しない範囲での設計変更な
どがあっても本発明に含まれる。例えば、壁面材10、
アンカー材20、ベルト状緊張材30の寸法は、実施例
のものに限定されなくても、任意の寸法でもよい。ま
た、実施例では、5段式の盛土を形成したが、これに限
定しなくても、2、〜4段または6段以上に積み上げた
盛土でもよい。さらに、実施例では、壁面材10、アン
カー材20およびベルト状緊張材30を、あらかじめ工
場で組み立てる例について説明したが、これらの材料
は、現場で組み立ててもよい。
Although the embodiments of the present invention have been described above, the specific configurations and operations are not limited to these embodiments, and even if there are design changes and the like without departing from the scope of the present invention. Included in the present invention. For example, the wall material 10,
The dimensions of the anchor material 20 and the belt-shaped tension material 30 are not limited to those in the embodiment, and may be arbitrary dimensions. Further, in the embodiment, the five-stage type embankment is formed, but the present invention is not limited to this, and the embankment piled up in two, four, or six or more stages may be used. Furthermore, although the example in which the wall material 10, the anchor material 20, and the belt-shaped tension material 30 are assembled in advance in the factory has been described in the embodiment, these materials may be assembled in the field.

【0019】[0019]

【発明の効果】以上説明したように、請求項1、2記載
の補強土工法においては、このように壁面材とアンカー
材とを、高強力繊維を合成樹脂で被覆したベルト状緊張
材により連結して製造した補強土形成構造体を土面に配
設する工程と、壁面材の内方に土砂を投入する工程と
を、順次、繰り返して盛土を形成するようにしたので、
耐久性の向上が図れ、盛土の変形に追従でき、また軽量
化が図れて、運搬性および施行性も向上できる。
As described above, in the reinforced soil construction method according to the first and second aspects, the wall material and the anchor material are thus connected by the belt-shaped tension material in which the high-strength fiber is coated with the synthetic resin. Since the step of arranging the reinforced soil forming structure manufactured as described above on the soil surface and the step of charging the earth and sand inside the wall material are sequentially repeated to form the embankment,
The durability can be improved, the deformation of the embankment can be followed, the weight can be reduced, and the transportability and the workability can be improved.

【0020】特に、請求項2記載の補強土工法において
は、壁面材およびアンカー材にそれぞれ連結基部を取り
付け、両連結基部をループ状のベルト状緊張材により連
結させるようにしたので、ベルト状緊張材の強度を向上
できる。
Particularly, in the reinforced earthwork method according to claim 2, since the connection bases are attached to the wall material and the anchor material, respectively, and both connection bases are connected by the loop-shaped belt-like tension member, the belt-like tension is obtained. The strength of the material can be improved.

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

【図1】本発明の第1の実施例の補強土工法による盛土
形成状態を示す断面図である。
FIG. 1 is a cross-sectional view showing a state of embankment formation by a reinforced earth method according to a first embodiment of the present invention.

【図2】第1の実施例の補強土工法に使用される補強土
形成構造体の縦拡大断面図である。
FIG. 2 is a vertical enlarged cross-sectional view of a reinforced soil forming structure used in the reinforced soil construction method of the first embodiment.

【図3】補強土形成構造体の拡大断面図である。FIG. 3 is an enlarged cross-sectional view of a reinforced soil forming structure.

【図4】本発明の第2の実施例の補強土工法に使用され
る補強土形成構造体の拡大縦断面図である。
FIG. 4 is an enlarged vertical cross-sectional view of a reinforced soil forming structure used in the reinforced soil construction method of the second embodiment of the present invention.

【図5】補強土形成構造体の拡大横断面図である。FIG. 5 is an enlarged cross-sectional view of a reinforced soil forming structure.

【符号の説明】[Explanation of symbols]

10 壁面材 11 連結ロッド 20 アンカー材 21 連結ロッド 30 ベルト状緊張材 31 高強度ポリエステル繊維 32 ポリエチレン樹脂 40 壁面材 41 連結基部 42 埋め込みロッド 43 ベルト状緊張材 44 掛け渡しロッド 50 アンカー材 51 連結基部 52 埋め込みロッド 53 ベルト状緊張材 54 掛け渡しロッド 60 ベルト状緊張材 A 補強土形成構造体 B 補強土形成構造体 S 土砂 10 Wall material 11 Connecting rod 20 Anchor material 21 Connecting rod 30 Belt-shaped tension material 31 High-strength polyester fiber 32 Polyethylene resin 40 Wall material 41 Connection base part 42 Embedded rod 43 Belt-shaped tension material 44 Crossing rod 50 Anchor material 51 Connection base part 52 Embedded rod 53 Belt-shaped tension material 54 Stretching rod 60 Belt-shaped tension material A Reinforced soil forming structure B Reinforced soil forming structure S Sand

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 コンクリート製の壁面材と、コンクリー
ト製またはFRP製のアンカー材とを、それぞれに埋設
された連結ロッドを介して、高強力繊維を合成樹脂で被
覆したベルト状緊張材により連結して製造した補強土形
成構造体を、前記ベルト状緊張材を土面に敷設した状態
で、前記壁面材を土面の法面側に配置する一方、前記ア
ンカー材を前記壁面材の内方に配置する工程と、 前記壁面材の内方に、前記ベルト状緊張材および前記ア
ンカー材の上から土砂を投入する工程と、 前記法面に沿って、前記補強土形成構造体を、順次、内
方へずらしながらこれらの工程を繰り返して盛土を形成
することを特徴とする補強土工法。
1. A concrete wall material and an anchor material made of concrete or FRP are connected by a belt-shaped tension member in which high-strength fibers are coated with a synthetic resin, via connecting rods embedded in each. The reinforced soil forming structure produced by the above, while the belt-shaped tension member is laid on the soil surface, the wall material is arranged on the slope side of the soil surface, while the anchor material is placed inward of the wall material. A step of disposing, a step of injecting earth and sand from above the belt-shaped tension material and the anchor material to the inside of the wall surface material, and along the slope, the reinforcing soil forming structure, A reinforced earthwork method characterized in that the embankment is formed by repeating these steps while shifting toward each other.
【請求項2】 コンクリート製の壁面材と、コンクリー
ト製またはFRP製のアンカー材とを、それぞれに埋設
された埋め込みロッドの両端部に掛け渡された、高強力
繊維を合成樹脂で被覆した比較的短尺なループ状のベル
ト状緊張材の先端部に掛け渡しロッドが差し通された連
結基部を介して、比較的長尺な前記ループ状のベルト状
緊張材により連結して製造した補強土形成構造体を、前
記比較的長尺なベルト状緊張材を土面に敷設した状態
で、前記壁面材を土面の法面側に配置する一方、前記ア
ンカー材を前記壁面材の内方に配置する工程と、 前記壁面材の内方に、前記ベルト状緊張材および前記ア
ンカー材の上から土砂を投入する工程と、 前記法面に沿って、前記補強土形成構造体を、順次、内
方へずらしながらこれらの工程を繰り返して盛土を形成
することを特徴とする補強土工法。
2. A comparatively high-strength fiber coated with a synthetic resin, in which a concrete wall material and a concrete or FRP anchor material are hung on both ends of an embedded rod embedded in each. Reinforced soil forming structure manufactured by connecting with a relatively long loop-shaped belt-shaped tension member through a connection base in which a bridging rod is inserted at the tip of a short loop-shaped belt-shaped tension member In the state where the body is laid on the soil surface with the relatively long belt-shaped tension material, the wall material is arranged on the slope side of the soil surface, while the anchor material is arranged inward of the wall material. A step, inward of the wall material, a step of charging earth and sand from above the belt-shaped tension material and the anchor material, and along the slope, the reinforced soil forming structure sequentially inward Repeat these steps while shifting Reinforced soil construction method and forming the embankment Te.
JP13560895A 1995-05-11 1995-05-11 Reinforcing earthwork method Withdrawn JPH08302693A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP13560895A JPH08302693A (en) 1995-05-11 1995-05-11 Reinforcing earthwork method

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP13560895A JPH08302693A (en) 1995-05-11 1995-05-11 Reinforcing earthwork method

Publications (1)

Publication Number Publication Date
JPH08302693A true JPH08302693A (en) 1996-11-19

Family

ID=15155798

Family Applications (1)

Application Number Title Priority Date Filing Date
JP13560895A Withdrawn JPH08302693A (en) 1995-05-11 1995-05-11 Reinforcing earthwork method

Country Status (1)

Country Link
JP (1) JPH08302693A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2008517186A (en) * 2004-10-19 2008-05-22 ジョンス リ Belt-like fiber reinforcement for supporting reinforced earth wall and its construction method
JP4544754B2 (en) * 2000-01-07 2010-09-15 フレーシネ アンテルナシオナル(ステュップ) System for attaching a reinforcement band to a wall of a support structure and apparatus for arranging the system
JP2015229847A (en) * 2014-06-04 2015-12-21 前田工繊株式会社 Structure and reinforcing method for reinforced ground

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP4544754B2 (en) * 2000-01-07 2010-09-15 フレーシネ アンテルナシオナル(ステュップ) System for attaching a reinforcement band to a wall of a support structure and apparatus for arranging the system
JP2008517186A (en) * 2004-10-19 2008-05-22 ジョンス リ Belt-like fiber reinforcement for supporting reinforced earth wall and its construction method
JP2015229847A (en) * 2014-06-04 2015-12-21 前田工繊株式会社 Structure and reinforcing method for reinforced ground

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