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JPH0674710B2 - Construction method of underground structure and cylinder for roof - Google Patents
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JPH0674710B2 - Construction method of underground structure and cylinder for roof - Google Patents

Construction method of underground structure and cylinder for roof

Info

Publication number
JPH0674710B2
JPH0674710B2 JP63155164A JP15516488A JPH0674710B2 JP H0674710 B2 JPH0674710 B2 JP H0674710B2 JP 63155164 A JP63155164 A JP 63155164A JP 15516488 A JP15516488 A JP 15516488A JP H0674710 B2 JPH0674710 B2 JP H0674710B2
Authority
JP
Japan
Prior art keywords
underground structure
roof
cylinder
tubular body
box
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.)
Expired - Lifetime
Application number
JP63155164A
Other languages
Japanese (ja)
Other versions
JPH01322094A (en
Inventor
厚一 植村
誠 植村
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.)
Individual
Original Assignee
Individual
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 Individual filed Critical Individual
Priority to JP63155164A priority Critical patent/JPH0674710B2/en
Publication of JPH01322094A publication Critical patent/JPH01322094A/en
Publication of JPH0674710B2 publication Critical patent/JPH0674710B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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  • Excavating Of Shafts Or Tunnels (AREA)
  • Underground Structures, Protecting, Testing And Restoring Foundations (AREA)

Description

【発明の詳細な説明】 〔産業上の利用分野〕 本発明は、鉄道、道路等の下部地中に大幅員の地下構造
物を横断方向に掘進建設する際に上部交通に支障を与え
ることなく施工することができる地下構造物の施工法及
び装置に関する。
DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention does not hinder upper traffic when excavating a large number of underground structures in the lower ground such as railways and roads in a transverse direction. The present invention relates to a construction method and device for an underground structure that can be constructed.

〔従来の技術〕[Conventional technology]

鉄道、道路等の下部地中に大幅員の地下構造物を横断方
向に掘進させるには、上部交通を支承するための防護工
が必要となり、鋼管等を水平に並列させるパイプルーフ
を設けることなどが挙げられる。
In order to excavate a large number of underground structures in the lower ground such as railroads and roads in the transverse direction, protective work is required to support upper traffic, and a pipe roof that horizontally arranges steel pipes and the like is provided. Is mentioned.

しかし、先に別工事としてパイプルーフを形成し、その
中を掘削して地下構造物を構造したり、また地下構造物
をパイプルーフ下を掘進させるようにしたのでは、この
パイプルーフが存在する分だけ土被りが厚くなる。しか
も、パイプルーフ施工の防護工が地下構造物埋設の本工
事と別工事となり、工費、工期が大である。
However, if a pipe roof was formed as a separate work and an underground structure was constructed by excavating the pipe roof or an underground structure was dug under the pipe roof, this pipe roof exists. The soil cover becomes thicker. Moreover, the protection work for pipe roof construction is different from the main construction for burying underground structures, and the construction cost and construction period are large.

そこで、発明者等は第3図〜第5図に示すような地下構
造物の施工法を発明し、先に特願昭53-89948号(特開昭
55-19312号)などとして出願した。この地下構造物の施
工法を説明し、よって本発明の目的を明らかにする。
Therefore, the inventors of the present invention invented a construction method for an underground structure as shown in FIGS. 3 to 5, and previously disclosed Japanese Patent Application No. 53-89948 (Japanese Patent Application Laid-Open No. Sho 53-89948).
No. 55-19312) etc. The construction method of this underground structure will be explained, and thus the purpose of the present invention will be clarified.

第3図に示すように、鉄道等上部交通1の脇に土留鋼矢
板2を打設して、発進坑3と到達坑4を築造し、該発進
坑3内に圧入機5を設置してこれでルーフ用筒体6を到
達坑4へ向けて圧入させる。
As shown in FIG. 3, a retaining steel sheet pile 2 is driven beside the upper traffic 1 such as a railway to construct a starting pit 3 and a reaching pit 4, and a press-fitting machine 5 is installed in the starting pit 3. With this, the roof cylinder 6 is press-fitted toward the reaching pit 4.

第6図は該ルーフ用筒体6の正面図で、略正方形断面の
箱型筒体であり、側面に鉤状の継手6a,6bを長手方向に
連続して形成し、また上面に平板からなるフリクション
カッター7を取付けている。
FIG. 6 is a front view of the roof tubular body 6, which is a box-shaped tubular body having a substantially square cross section, in which hook-shaped joints 6a and 6b are continuously formed on the side surface in the longitudinal direction, and a flat plate is formed on the upper surface. The friction cutter 7 is attached.

また、前記圧入機5は、この筒体6のジャッキ等による
押出機構とオーガー等による筒体6の内部掘削機構とを
有する。
The press-fitting machine 5 has an extruding mechanism such as a jack of the cylindrical body 6 and an internal excavating mechanism of the cylindrical body 6 such as an auger.

なお、ルーフ用筒体6は長さ方向に順次接続して必要長
を埋設することができ、さらに継手6a,6bを介して横方
向に連続しながら並列させる。この並べ方は第7図に示
すような一文字型である。
The roof cylinders 6 can be sequentially connected in the lengthwise direction to bury the required length, and are further arranged in parallel in the lateral direction via the joints 6a and 6b. This arrangement is a one-letter type as shown in FIG.

次いで、第4図に示すように発進坑3内に反力壁8、コ
ンクリート函体による地下構造物9をセットし、反力壁
8と地下構造物9との間には推進ジャッキ10を設け、地
下構造物9の先端に刃口11を設けるとともに地下構造物
9の先端と前記ルーフ用筒体6との間に小ジャッキ12を
介在させる。
Next, as shown in FIG. 4, a reaction wall 8 and an underground structure 9 made of a concrete box are set in the starting pit 3, and a propulsion jack 10 is provided between the reaction wall 8 and the underground structure 9. A blade 11 is provided at the tip of the underground structure 9 and a small jack 12 is interposed between the tip of the underground structure 9 and the roof cylinder 6.

図中13はルーフ用筒体6の支持材、14はフリクションカ
ッター7の止め部材でこれらは発進坑3側に設け、一
方、到達坑4側に受台15を設ける。
In the figure, 13 is a support member for the roof cylinder 6, 14 is a stop member for the friction cutter 7, which are provided on the starting pit 3 side, while a pedestal 15 is provided on the reaching pit 4 side.

小ジャッキ12を伸長して地下構造物9を反力としてフリ
クションカッター7を残しながらルーフ用筒体6を1本
ずつ順次押し進め、一通り筒体6が前進したならば、小
ジャッキ12を縮め今度は推進ジャッキ10を伸長して地下
構造物9を掘進させる。図中16は推進ジャッキ10と地下
構造物9間に介在させるストラットを示す。
The small jacks 12 are extended and the underground structure 9 is used as a reaction force to push the roof cylinders 6 one by one while leaving the friction cutter 7, and once the cylinders 6 have advanced, the small jacks 12 are contracted. Extends the propulsion jack 10 to advance the underground structure 9. Reference numeral 16 in the figure denotes a strut interposed between the propulsion jack 10 and the underground structure 9.

このようにして、ルーフ用筒体6の前進と地下構造物9
の前進とを交互に繰り返しながら、到達坑4に出たルー
フ用筒体6は順次撤去する。
In this way, the forward movement of the roof cylinder 6 and the underground structure 9
While alternately repeating the above-mentioned forward movement, the roof cylinder 6 that has come out to the reaching pit 4 is sequentially removed.

そして、地下構造物9の先端が到達坑4に達したなら
ば、刃口11等を撤去し適宜裏込めグラウトを行って施工
を完了する。
Then, when the tip of the underground structure 9 reaches the reaching pit 4, the blade opening 11 and the like are removed and backfilling grout is appropriately performed to complete the construction.

なお、地下構造物9はプレキャスト製のコンクリート函
体を順次発進坑3内に吊り降ろして接続していくように
してもよいし、発進坑3内でコンクリートを打設して必
要長を増設するようにしてもよい。
The underground structure 9 may be constructed by sequentially suspending and connecting precast concrete boxes in the start pit 3 or by placing concrete in the start pit 3 to increase the required length. You may do it.

また、該地下構造物9の推進方法に関しても到達坑4側
に反力壁及びセンターホール式のけん引ジャッキを設
け、一端を地下構造物9に定着したP.C鋼線によるけん
引部材をこのけん引ジャッキで引くことにより到達坑4
側から地下構造物9を引き込むようにすることもでき
る。
Regarding the propulsion method of the underground structure 9, a reaction wall and a center-hole type towing jack are provided on the side of the reaching pit 4, and a towing member made of PC steel wire having one end fixed to the underground structure 9 is used with this towing jack. Reaching pit 4 by pulling
The underground structure 9 can be pulled in from the side.

さらに、ルーフ用筒体6も必ずしも到達坑4に貫通する
長さのものを当初から地中に圧入する必要はなく、短い
ルーフ用筒体6を地下構造物9とともに順次前進させる
ようにしてもよい。
Furthermore, it is not always necessary to press-fit the roof cylinder 6 having a length that penetrates the reaching pit 4 into the ground from the beginning, and the short roof cylinder 6 may be sequentially advanced together with the underground structure 9. Good.

〔発明が解決しようとする課題〕[Problems to be Solved by the Invention]

前記第3図〜第5図に示す地下構造物の施工法は、地中
に掘進させる地下構造物の防護工を前もって施工するこ
となく、地下構造物の掘進と同時に行うので安全かつ確
実に、しかも安価に工事ができ、また土被りも浅く施工
できる。
The construction method of the underground structure shown in FIG. 3 to FIG. 5 is carried out at the same time as the excavation of the underground structure without constructing the protective work of the underground structure to be excavated in the ground in advance. Moreover, it can be constructed at low cost, and it can be constructed with a shallow cover.

ところで、前記のごとくルーフ用筒体6はこれを地下構
造物9の前方に並列させて置き、小ジャッキ12で地下構
造物9を反力として推進させるものであるため、その並
列巾は地下構造物9の巾と合致させる必要がある。
By the way, as described above, since the roof cylinder 6 is placed in front of the underground structure 9 in parallel and the small jack 12 is used to propel the underground structure 9 as a reaction force, its parallel width is the underground structure. It is necessary to match the width of the object 9.

しかし、地下構造物9の巾は各工事によって様々であ
り、ルーフ用筒体6を他の工事に転用した場合は必ずし
も前記筒体6の並列巾を地下構造物9の巾に合致させる
ことができなくなる。
However, the width of the underground structure 9 varies depending on each construction, and when the roof cylinder 6 is diverted to another construction, the parallel width of the cylinders 6 may not necessarily match the width of the underground structure 9. become unable.

なお、各施工すべき地下構造物9に合わせてこれを均等
分割したような略正方形断面の箱型筒体を準備するので
は、該筒体の種類はいたずらに増し、また転用もできな
いので非常にコスト高となる。そこで、第8図、第9図
に示すように調整用箱型筒体17として前記ルーフ用筒体
6と相似形の小型の略断面正方形の箱型筒体を使用する
ことが考えられ、このような調整用箱型筒体17を連結す
る場合も、筒体6同士と同様に継手17aを介して筒体6
側の継手6cに接続することになる。
It should be noted that if a box-shaped tubular body having a substantially square cross section is prepared according to each underground structure 9 to be constructed, the type of the tubular body increases unnecessarily and cannot be diverted. High cost. Therefore, as shown in FIGS. 8 and 9, it is conceivable to use a small box-shaped tubular body having a substantially square cross section similar to the roof tubular body 6 as the adjustment box-shaped tubular body 17. When connecting such adjustment box-type tubular bodies 17 as well, the tubular bodies 6 are connected via the joints 17a in the same manner as the tubular bodies 6 are connected.
It will be connected to the side joint 6c.

しかし、前記調整用箱型筒体17は基準用のルーフ用筒体
6と高さ合わせを行う必要があり、また継手17a,6cの上
下巾はこの筒体17の大きさに応じて小さくなるため土圧
を受けた際に第9図矢印のごとく回転力を受けるおそれ
があり、著しい場合には筒体17の向きが変わり、さらに
継手17a,6cが破損することもある。
However, it is necessary to adjust the height of the adjusting box-shaped tubular body 17 with the reference roof tubular body 6, and the vertical width of the joints 17a and 6c becomes smaller according to the size of the tubular body 17. Therefore, when it receives earth pressure, it may receive a rotational force as shown by an arrow in FIG. 9, and in a remarkable case, the direction of the cylindrical body 17 may change and the joints 17a and 6c may be damaged.

これに加えて、該調整用箱型筒体17を連結するためのル
ーフ用筒体6の継手6cは他の継手6a,6cよりも上下巾の
小さい特殊のものであるので、これを設けたルーフ用筒
体6は他の位置には使えないものとなり、汎用性が失わ
れる。
In addition to this, since the joint 6c of the roof cylinder 6 for connecting the adjustment box-shaped cylinder 17 is a special one having a smaller vertical width than the other joints 6a, 6c, it is provided. The roof cylinder 6 cannot be used at any other position, and loses its versatility.

本発明の目的は前記従来例の不都合を解消し、断面略正
方形のルーフ用筒体を並列させてその後方の地下構造物
の巾に合致させる場合に調整用箱型筒体を用いることで
簡単かつ安価にできるとともに、この調整用箱型筒体は
安定した状態で他のルーフ用筒体に連結でき、しかも他
のルーフ用筒体の汎用性を損なうことがない地下構造物
を提供することにある。
The object of the present invention is to eliminate the disadvantages of the above-described conventional example, and to use the adjustment box-type tubular body when the roof tubular bodies having a substantially square cross section are juxtaposed to match the width of the underground structure behind the roof tubular body. (EN) An underground structure which can be manufactured at low cost and can be connected to other roof cylinders in a stable state, and which does not impair the versatility of other roof cylinders. It is in.

〔課題を解決するための手段〕 本発明は前記目的を達成するため、ルーフ用筒体を発進
坑から地中に水平方向に圧入して並列させ、発進坑に残
るルーフ用筒体の後方に小ジャッキを介在させて地下構
造物を配設し、該地下構造物を反力部材として小ジャッ
キでルーフ用筒体を押し進めるとともに、地下構造物は
在来工法で掘進させる地下構造物の施工法において、前
記並列するルーフ用筒体は略正方形断面の箱型筒体を継
手を介して所要数連結させ、所要位置に該箱型筒体と同
じ高さで巾が狭い縦長略長方形断面の調整用箱型筒体を
継手を介して連結してこれら筒体の連結巾を地下構造物
の巾に合致させることを要旨とするものである。
[Means for Solving the Problem] In order to achieve the above-mentioned object, the present invention press-fits a roof cylinder in the ground horizontally from the start pit to be parallel to the rear of the roof cylinder that remains in the start pit. A construction method for an underground structure in which an underground structure is arranged with a small jack interposed, and the underground structure is used as a reaction member to push the roof cylinder with the small jack, and the underground structure is dug by the conventional construction method. In the above, the parallel roof cylinders are formed by connecting a required number of box-shaped cylinders each having a substantially square cross-section through a joint, and adjusting a vertically-elongated rectangular cross-section having the same height as the box-shaped cylinders and a narrow width at a required position. The gist of the invention is to connect the box-shaped cylinders through a joint so that the connection width of these cylinders matches the width of the underground structure.

〔作用〕[Action]

本発明によれば、調整用箱型筒体は他の基準用のルーフ
用筒体と同じ高さなので、該ルーフ用筒体同士を連結す
る継手と同様な継手でルーフ用筒体に連結できる。これ
により、継手の上下幅も小さくならず、この調整用箱型
筒体のみが特に回転するようなことはなくなる。また、
ルーフ用筒体もこの調整用箱型筒体を連結するための特
別な継手を設ける必要はない。
According to the present invention, since the adjustment box-shaped cylinder has the same height as that of the other reference roof cylinders, it can be connected to the roof cylinder by a joint similar to a joint that connects the roof cylinders. . As a result, the vertical width of the joint is not reduced, and the adjustment box-shaped tubular body alone does not rotate. Also,
The roof cylinder does not need to be provided with a special joint for connecting the adjusting box cylinder.

〔実施例〕〔Example〕

以下、図面について本発明の実施例を詳細に説明する。 Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

第1図は本考案の地下構造物の施工法及びルーフ用筒体
の1実施例を示す正面図、第2図は同上要部の正面図
で、前記従来例を示す第8図、第9図と同一構成要素に
は同一符号を付したものである。
FIG. 1 is a front view showing an embodiment of a method for constructing an underground structure of the present invention and a roof cylinder, and FIG. 2 is a front view of a main part of the same as above, and FIGS. The same components as those in the figure are designated by the same reference numerals.

先に本発明のルーフ用筒体について説明すると、並列さ
せる筒体6は前記従来例と同じく基準品として略正方形
断面の箱型筒体であり、側面に鉤状の継手6a,6bを長手
方向に連続して形成し、また上面に平板からなるフリク
ションカッター7を取付けている。
The roof tubular body of the present invention will be described first. The tubular body 6 to be juxtaposed is a box-shaped tubular body having a substantially square cross section as a reference product as in the conventional example, and hook-like joints 6a and 6b are provided on the side surfaces in the longitudinal direction. And a friction cutter 7 made of a flat plate is attached to the upper surface.

このルーフ用筒体6は継手6a,6bの結合により並列させ
て連結するが、その端に連結する調整用箱型筒体18は、
筒体6と同じ高さで巾が狭い縦長略長方形断面のものと
した。
The roof cylinder 6 is connected in parallel by connecting the joints 6a and 6b, and the adjustment box cylinder 18 connected to the end of the roof cylinder 6 is
It has a vertically long substantially rectangular cross section having the same height as the cylindrical body 6 and a narrow width.

この調整用箱型筒体18にも継手18aを設けるが(但し一
方の側面のみでよい)、該継手18aはルーフ用筒体6の
継手6a又は6bと大きさや形状が同一ものとする。
The adjustment box-shaped tubular body 18 is also provided with a joint 18a (however, only one side surface is required), but the joint 18a has the same size and shape as the joint 6a or 6b of the roof tubular body 6.

この継手18aが継手6a又は6bと組合わさることにより、
調整用箱型筒体18は並列するルーフ用筒体6の一番端の
ルーフ用筒体6に連結する。
By combining this joint 18a with the joint 6a or 6b,
The adjusting box-shaped cylinder 18 is connected to the roof cylinder 6 at the end of the roof cylinders 6 arranged in parallel.

次に、以上の筒体6及び筒体18を用いて行う本発明工法
について説明するが、工法そのものは前記第3図〜第5
図で説明した従来工法と同一である。
Next, the construction method of the present invention using the above-mentioned cylinder body 6 and cylinder body 18 will be described. The construction method itself is the same as in FIGS.
This is the same as the conventional method described in the figure.

第3図に示すように、鉄道等上部交通1の脇に土留鋼矢
板2を打設して、発進坑3と到達坑4を築造し、該発進
坑3内に圧入機5を設置してこれでルーフ用筒体6及び
調整用箱型筒体18を到達坑4へ向けて圧入させる。
As shown in FIG. 3, a retaining steel sheet pile 2 is driven beside the upper traffic 1 such as a railway to construct a starting pit 3 and a reaching pit 4, and a press-fitting machine 5 is installed in the starting pit 3. With this, the roof cylinder 6 and the adjustment box cylinder 18 are press-fitted toward the reaching pit 4.

なお、ルーフ用筒体6は調整用箱型筒体18の長さ方向に
順次接続して必要長を埋設することができる。さらに、
ルーフ用筒体6は継手6a,6bを介して横方向に連続しな
がら並列させるが、その端に位置する筒体6には継手18
aを介して調整用箱型筒体18を並列に連結する。
The roof cylinder 6 can be sequentially connected in the length direction of the adjustment box cylinder 18 to embed the required length. further,
The roof cylinders 6 are arranged side by side in a continuous manner through the joints 6a and 6b in a lateral direction.
The adjusting box-shaped cylinders 18 are connected in parallel via a.

次いで、第4図に示すように発進坑3内に反力壁8、コ
ンクリート函体による地下構造物9をセットし、反力壁
8と地下構造物9との間には推進ジャッキ10を設け、地
下構造物9の先端に刃口11を設けるとともに地下構造物
9の先端と前記ルーフ用筒体6及び調整用箱型筒体18と
の間に小ジャッキ12を介在させる。
Next, as shown in FIG. 4, a reaction wall 8 and an underground structure 9 made of a concrete box are set in the starting pit 3, and a propulsion jack 10 is provided between the reaction wall 8 and the underground structure 9. A blade 11 is provided at the tip of the underground structure 9, and a small jack 12 is interposed between the tip of the underground structure 9 and the roof cylinder 6 and the adjustment box cylinder 18.

小ジャッキ12を伸長して地下構造物9を反力としてフリ
クションカッター7を残しながらルーフ用筒体6を1本
ずつ順次押し進め、最後に同様に調整用箱型筒体18を押
し進め、一通りこれらが前進したならば、小ジャッキ12
を縮め今度は推進ジャッキ10を伸長して地下構造物9を
掘進させる。
The small jacks 12 are extended and the underground structure 9 is used as a reaction force to leave the friction cutter 7, and the roof cylinders 6 are sequentially pushed one by one, and finally the adjustment box-shaped cylinder 18 is also pushed forward. If you move forward, small jack 12
Then, the propulsion jack 10 is extended and the underground structure 9 is advanced.

このようにして、ルーフ用筒体6及び調整用箱型筒体18
の前進と地下構造物9の前進とを交互に繰り返しなが
ら、到達坑4に出たルーフ用筒体6及び調整用箱型筒体
18は順次撤去する。
In this way, the roof cylinder 6 and the adjustment box cylinder 18
While alternately repeating the forward movement of the underground structure 9 and the forward movement of the underground structure 9, the roof cylinder 6 and the adjustment box cylinder that have come out to the arrival pit 4
18 will be removed sequentially.

この撤去したルーフ用筒体6を他の工事に転用する場
合、地下構造物9が前回のものと巾の異なるものである
時は、調整用箱型筒体のみ別のものを用いる。
When the removed roof cylinder 6 is used for another construction, if the underground structure 9 has a width different from that of the previous time, only another adjustment box cylinder is used.

また、調整用箱型筒体18はこれをルーフ用筒体6の間に
介在させることも可能であり、その場合は継手18aを両
側に設けるようにすればよい。
Further, the adjusting box-shaped tubular body 18 may be interposed between the roof tubular bodies 6, and in that case, the joints 18a may be provided on both sides.

〔発明の効果〕〔The invention's effect〕

以上述べたように本発明の地下構造物の施工法及びルー
フ用筒体の推進装置は、ルーフ用筒体を発進坑から地中
に水平方向に圧入して並列させ、発進坑に残るルーフ用
筒体の後方に小ジャッキを介在させて地下構造物を配設
し、該地下構造物を反力部材として小ジャッキでルーフ
用筒体を押し進めるとともに、地下構造物は在来工法で
掘進させる地下構造物の施工法において、断面略正方形
のルーフ用筒体を並列させてその後方の地下構造物の巾
に合致させる場合に調整用箱型筒体を用いることで簡単
かつ安価にできるとともに、この調整用箱型筒体は安定
した状態で他のルーフ用筒体に連結でき、しかも他のル
ーフ用筒体の汎用性を損なうことがないものである。
As described above, the construction method of the underground structure and the propulsion device for the roof tubular body of the present invention are for the roof that remains in the launch pit by horizontally pressing the roof tubular body horizontally into the ground from the launch pit. An underground structure is placed behind a tubular body with a small jack interposed, and the underground cylinder is used as a reaction member to push the roof tubular body with the small jack, and the underground structure is dug by the conventional construction method. In the construction method of the structure, it is possible to make it simple and cheap by using the adjustment box type cylinder when aligning the roof cylinders of approximately square cross section and matching the width of the underground structure behind it. The adjustment box-type cylinder can be stably connected to another roof cylinder and does not impair the versatility of the other roof cylinder.

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

第1図は本発明の地下構造物の施工法及びルーフ用筒体
の1実施例を示す正面図、第2図は同上要部の正面図、
第3図〜第5図は地下構造物の施工法の各工程を示す側
面図、第6図は基準用ルーフ用筒体の正面図、第7図は
筒体の配列状態を示す正面図、第8図は従来例を示す正
面図、第9図は同上要部の正面図である。 1……上部交通、2……土留鋼矢板 3……発進坑、4……到達坑 5……圧入機、6……ルーフ用筒体 6a,6b,6c……継手 7……フリクションカッター 8……反力壁、9……地下構造物 10……推進ジャッキ、11……刃口 12……小ジャッキ、13……支持材 14……止め部材、15……受台 16……ストラット、17,18……調整用箱型筒体 17a,18a……継手
FIG. 1 is a front view showing an embodiment of a method for constructing an underground structure and a roof cylinder according to the present invention, and FIG. 2 is a front view of a main part of the same.
3 to 5 are side views showing respective steps of the method for constructing an underground structure, FIG. 6 is a front view of a reference roof cylinder, and FIG. 7 is a front view showing an arrangement state of cylinders, FIG. 8 is a front view showing a conventional example, and FIG. 9 is a front view of a main part of the same. 1 …… Upper traffic 2 …… Soil retaining steel sheet pile 3 …… Starting pit 4 …… Driving pit 5 …… Pressing machine, 6 …… Roof cylinder 6a, 6b, 6c …… Joint 7 …… Friction cutter 8 …… Reaction force wall, 9 …… Underground structure 10 …… Propulsion jack, 11 …… Blade 12 …… Small jack, 13 …… Supporting material 14 …… Stopping member, 15 …… Cast 16 …… Strut, 17,18 …… Adjustment box type cylinder 17a, 18a …… Coupling

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】ルーフ用筒体を発進坑から地中に水平方向
に圧入して並列させ、発進坑に残るルーフ用筒体の後方
に小ジャッキを介在させて地下構造物を配設し、該地下
構造物を反力部材として小ジャッキでルーフ用筒体を押
し進めるとともに、地下構造物は在来工法で掘進させる
地下構造物の施工法において、前記並列するルーフ用筒
体は略正方形断面の箱型筒体を継手を介して所要数連結
させ、所要位置に該箱型筒体と同じ高さで巾が狭い縦長
略長方形断面の調整用箱型筒体を継手を介して連結して
これら筒体の連結巾を地下構造物の巾に合致させること
を特徴とする地下構造物の施工法。
1. A roof cylinder is press-fitted horizontally from the starting pit into the ground to be arranged in parallel, and an underground structure is disposed behind the roof cylinder remaining in the starting pit with a small jack interposed. In the construction method of an underground structure in which the underground structure is pushed forward by a conventional construction method while pushing the roof cylinder with a small jack using the underground structure as a reaction member, the parallel roof cylinders have a substantially square cross section. A required number of box-shaped tubular bodies are connected through a joint, and an adjustment box-shaped tubular body having a vertically long substantially rectangular cross-section having the same height as the box-shaped tubular body and a narrow width is connected at a required position through a joint. A construction method for an underground structure, characterized in that the connecting width of the cylinders matches the width of the underground structure.
【請求項2】継手を介して所要数並列に連結させる略正
方形断面の箱型筒体と、該箱型筒体と同じ高さで巾が狭
い縦長略長方形断面で所要位置の箱型筒体に対し継手を
介して連結する調整用箱型筒体とからなるルーフ用筒
体。
2. A box-shaped tubular body having a substantially square cross-section, which is connected in parallel via a joint, and a box-shaped tubular body at a predetermined position having a vertically elongated substantially rectangular cross-section having the same height as the box-shaped tubular body and a narrow width. A tubular body for a roof, which comprises a box-shaped tubular body for adjustment, which is connected via a joint.
JP63155164A 1988-06-23 1988-06-23 Construction method of underground structure and cylinder for roof Expired - Lifetime JPH0674710B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP63155164A JPH0674710B2 (en) 1988-06-23 1988-06-23 Construction method of underground structure and cylinder for roof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP63155164A JPH0674710B2 (en) 1988-06-23 1988-06-23 Construction method of underground structure and cylinder for roof

Publications (2)

Publication Number Publication Date
JPH01322094A JPH01322094A (en) 1989-12-27
JPH0674710B2 true JPH0674710B2 (en) 1994-09-21

Family

ID=15599911

Family Applications (1)

Application Number Title Priority Date Filing Date
JP63155164A Expired - Lifetime JPH0674710B2 (en) 1988-06-23 1988-06-23 Construction method of underground structure and cylinder for roof

Country Status (1)

Country Link
JP (1) JPH0674710B2 (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113482052A (en) * 2021-06-25 2021-10-08 上海建工七建集团有限公司 Construction method of tower at stage of super high-rise basement

Also Published As

Publication number Publication date
JPH01322094A (en) 1989-12-27

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