JP5492394B2 - Pre-receiving material installation method and pre-receiving material installation device - Google Patents

Pre-receiving material installation method and pre-receiving material installation device Download PDF

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JP5492394B2
JP5492394B2 JP2008222709A JP2008222709A JP5492394B2 JP 5492394 B2 JP5492394 B2 JP 5492394B2 JP 2008222709 A JP2008222709 A JP 2008222709A JP 2008222709 A JP2008222709 A JP 2008222709A JP 5492394 B2 JP5492394 B2 JP 5492394B2
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tube
pipe
outer tube
ground
receiving material
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JP2010053667A (en
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茂治 岩永
光雄 益田
昭浩 中北
俊文 広瀬
定雄 宇野
幸雄 垣内
守 平林
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Kumagai Gumi Co Ltd
Fatech Co Ltd
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Kumagai Gumi Co Ltd
Fatech Co Ltd
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Description

本発明は、トンネル掘削において、穿孔ビットを使用せずに、切羽の前方の地山に先受材としての有孔管を設置する方法及び装置に関する。   The present invention relates to a method and apparatus for installing a perforated pipe as a receiving material in a natural ground in front of a face without using a drill bit in tunnel excavation.

トンネル掘削において、管の内面と外面とに貫通する貫通孔を備えた先受材としての有孔管を切羽前方の地山に設置した後に有孔管の内側及び貫通孔を通して有孔管の周囲の地山に地盤改良剤を注入することによって地山の先行沈下や緩みを防止する先受工法が知られている。
有孔管の設置は、削孔装置を用いて行う。削孔装置は、削孔ロッドと、削孔ロッドの先端に設けられた削孔ビットと、削孔ロッドに回転と打撃を与える削岩機とを備える。削孔ロッドが有孔管の内側に通され、削岩機が削孔ロッドに回転と打撃を与えることで削孔ビットが地山を掘削する。この場合、有孔管の先端と削孔ビットの後端部とを連結して削孔ビットで地山を削孔するとともに有孔管を牽引することにより有孔管を地山中に設置した後に削孔ロッドを回収する方法と、削孔ビットにより地山を掘削するとともに有孔管の後端を押圧して有孔管を地山中に設置した後に削孔ロッド及び削孔ビットを回収する方法とが知られている。
特開2003−155888号公報 特開2004−339837号公報 特開2004−19359号公報
In tunnel excavation, after installing a perforated pipe as a receiving material with a through-hole penetrating the inner and outer surfaces of the pipe in a natural ground in front of the face, and around the perforated pipe through the perforated pipe There has been known a prior construction method in which a ground improvement agent is injected into a natural ground to prevent the prior settlement and loosening of the natural ground.
The perforated pipe is installed using a drilling device. The drilling device includes a drilling rod, a drilling bit provided at the tip of the drilling rod, and a rock drill for rotating and striking the drilling rod. The drilling rod is passed inside the perforated pipe, and the drilling bit excavates the natural ground by the rock drilling machine turning and hitting the drilling rod. In this case, after connecting the tip of the perforated pipe and the rear end of the drill bit to drill the ground with the drill bit and pulling the perforated pipe to install the perforated pipe in the ground A method of collecting a drilling rod and a method of excavating a natural ground with a drilling bit and pressing a rear end of the perforated pipe to install the perforated pipe in the natural ground and then recovering the drilling rod and the drilling bit Is known.
JP 2003-155888 A JP 2004-339837 A JP 2004-19359 A

しかしながら、従来技術における有孔管の設置作業に必要な削孔ビットは高価であり、施工コストが高くなるといった問題点があった。
本発明は、高価な穿孔ビットを使用せずに、切羽の前方の地山に先受材を設置できる方法及び装置を提供する。
However, the drill bit required for the perforated tube installation work in the prior art is expensive, and there is a problem that the construction cost becomes high.
The present invention provides a method and apparatus that can install a receiving material on a natural ground in front of a face without using an expensive drill bit.

本発明に係る先受材設置方法は、トンネル空洞部の切羽におけるトンネル空洞部の内壁面との境界部から切羽よりも前方の地山に向けて内壁面と交差する方向に先受材を挿入して設置する先受材設置方法であって、内面と外面とに貫通する複数の貫通孔を備えた先受材としての外管の内側に内管を設置して外管の先端に設けられた刃と切羽とを接触させて内管と外管とを一緒に地山に押し込む押込作業と、外管の後端側から内管と外管との間を経由して外管の先端部の内側に空気を混入させた水を噴射する際に当該水が外管の刃先よりも前方の地山に到達しないように当該水の水量又は水圧を設定して当該水を噴射させる噴射作業と、地山から外管の先端部の内側に取り込まれた土砂と外管の後端側から内管と外管との間を経由して外管の先端部の内側に噴射された水とが混じり合った泥水を内管の内部空間経由で吸引して内管の外に排出する排出作業と、押込作業及び排出作業を行うことによって外管を地山に挿入して外管を地山に設置した後に、内管を外管の内側からトンネル空洞部に引き抜く作業とを備え、排出作業においては、ポンプで土砂が吸引されていることを確認した後、又は、確認しながら噴射作業を行うことを特徴とする。
外管を地山に押し込む際に、外管の上下左右への動きを規制する規制手段を用い、規制手段は、外管の地山への挿入方向に延長するように設けられたラックや載台の上に載置された外管をラックや載台の方向に押え込むように外管の上面を抑えて外管の上方への移動を規制する上規制板と、外管の右側に設けられて外管の右側への移動を規制する右規制板と、外管の左側に設けられて外管の左側への移動を規制する左規制板と、外管の下側への移動を規制する下規制板として機能するラックや載台とにより構成されたことも特徴とする。
本発明に係る先受材設置装置は、トンネル空洞部の切羽におけるトンネル空洞部の内壁面との境界部から切羽よりも前方の地山に向けて内壁面と交差する方向に長尺な先受材を挿入して設置する先受材設置装置であって、内面と外面とに貫通する複数の貫通孔を備えた先受材としての外管と、外管の内側に設けられた内管と、外管の先端に設けられた刃と切羽とを接触させて内管と外管とを一緒に地山に押し込む押込装置と、空気を混入させた水が外管の刃先よりも前方の地山に到達しないように当該水の水量又は水圧が設定されて当該水を外管の後端側から内管と外管との間を経由させて外管の先端部の内側に噴射する噴射装置と、地山から外管の先端部の内側に取り込まれた土砂と先端部の内側に噴射された水とが混じり合った泥水を内管の内部空間経由で吸引して内管の外に排出する排出装置とを備え、排出装置は、後端部が閉塞され、かつ、外管の後端よりも後方に位置する内管の後端開口に接続された管側接続口と吸引管接続口とがL字流路により連通された接続管と、ポンプと、接続管の吸引管接続口とポンプの吸込口とを繋ぐ吸引管とを備え、内管の後端開口に接続された接続管の後端が押込装置によって押圧されるように構成されたことを特徴とする。
内管が押圧部を備え、外管が押圧部と接触する被押圧部を備え、押圧部が、押込装置により押圧されて被押圧部と接触することで外管を挿入方向に押圧するとともに、外管の先端側の管の内面と内管の先端側の管の外面との間の間隙を塞ぐことによって、当該間隙を経由する外管の管の内面と内管の管の外面との間への泥水の浸入を防ぐことも特徴とする。
外管の先端部が筒状の先導ガイド部材により形成され、先導ガイド部材の先端の刃が、筒の一端に設けられた環線状の先鋭縁により形成されたことも特徴とする。
押込装置が、外管の地山への挿入方向に延長するように設けられて外管及び内管を載置するラックと、ラックに噛み合ってラックの延長方向に沿って往復移動するピニオンと、ピニオンの回転に伴って挿入方向に移動して内管を挿入方向に押圧する押圧体とを備えたことも特徴とする。
押込装置が、外管の地山への挿入方向に延長するように設けられて外管及び内管を載置する載台と、内管を挿入方向に押圧する油圧機構とを備えたことも特徴とする。
The receiving material installation method according to the present invention inserts a receiving material in a direction intersecting with the inner wall surface from the boundary with the inner wall surface of the tunnel cavity portion toward the ground in front of the cutting face in the face of the tunnel cavity portion. The receiving tube is installed at the tip of the outer tube by installing the inner tube inside the outer tube as a receiving member having a plurality of through holes penetrating the inner surface and the outer surface. Pushing the inner blade and outer tube together into the ground by bringing the blade and face into contact with each other, and the tip of the outer tube from the rear end side of the outer tube through the space between the inner tube and outer tube An injection operation for setting the water amount or water pressure of the water and injecting the water so that the water does not reach the ground in front of the cutting edge of the outer pipe when injecting water mixed with air inside , above the outer tube via the space between the inner and outer tubes from the rear end side of the outer tube sediment and the outer pipe taken inside the tip of the natural ground Natural ground the outer tube by performing a discharge operation for discharging to the outside of the inner tube muddy water where the injected water inside commingled parts by suction through the inner space of the inner tube, the pushing operation and discharging operations after installing the outer tube to the natural ground by inserting into, and a work of pulling out the inner tube from the inside of the outer tube to the tunnel cavity in the discharge operation, it was confirmed that the sediment is sucked by pump The spraying operation is performed after or while confirming.
When the outer tube is pushed into the natural ground, a restricting means for restricting the vertical movement of the outer tube is used, and the restricting means is a rack or mounting provided to extend in the insertion direction of the outer tube into the natural ground. Provided on the right side of the outer tube, and an upper restricting plate that restrains the upper surface of the outer tube so that the outer tube placed on the table is pressed in the direction of the rack or the table, and restricts the upward movement of the outer tube A right restriction plate that restricts movement of the outer pipe to the right side, a left restriction plate that is provided on the left side of the outer pipe and restricts movement of the outer pipe to the left side, and restricts movement of the outer pipe to the lower side. It is also characterized by comprising a rack and a platform that function as a lower regulating plate.
The receiving material installation device according to the present invention is a receiving device that is long in the direction intersecting the inner wall surface from the boundary with the inner wall surface of the tunnel cavity portion toward the ground surface ahead of the cutting face from the boundary surface of the tunnel cavity portion. A receiving material installation device for inserting and installing a material, an outer tube as a receiving material having a plurality of through holes penetrating the inner surface and the outer surface, and an inner tube provided inside the outer tube, A pushing device for bringing the inner tube and the outer tube together into the ground by bringing the blade and the face provided at the tip of the outer tube into contact with each other, and the water mixed with air in front of the cutting edge of the outer tube An injection device that sets the amount of water or the water pressure so as not to reach the mountain and injects the water from the rear end side of the outer pipe to the inside of the front end portion of the outer pipe through the space between the inner pipe and the outer pipe If the inner muddy water that is mixture of water injected into the inside of the sediment and the distal end portion taken in the inside of the distal end portion of the outer tube from the natural ground And a discharge device for discharging to the outside of the inner tube by suction through the inner space of, emissions device, the rear end is closed, and, after the inner tube located behind the rear end of the outer tube A connection pipe in which a pipe side connection port connected to the end opening and a suction pipe connection port are communicated by an L-shaped flow path, a pump, and a suction pipe connecting the suction pipe connection port of the connection pipe and the suction port of the pump; The rear end of the connecting pipe connected to the rear end opening of the inner pipe is configured to be pressed by the pushing device .
The inner tube includes a pressing portion, the outer tube includes a pressed portion that contacts the pressing portion, and the pressing portion is pressed by the pressing device to contact the pressed portion and presses the outer tube in the insertion direction. By closing the gap between the inner surface of the tube on the tip side of the outer tube and the outer surface of the tube on the tip side of the inner tube, the inner surface of the tube of the outer tube and the outer surface of the tube of the inner tube passing through the gap It is also characterized by preventing the infiltration of muddy water.
The tip of the outer tube is formed by a cylindrical leading guide member, and the blade at the tip of the leading guide member is formed by a ring-shaped sharp edge provided at one end of the tube.
A rack in which the pushing device extends in the insertion direction of the outer tube into the ground, and places the outer tube and the inner tube; a pinion that meshes with the rack and reciprocates along the extending direction of the rack; It is also characterized by comprising a pressing body that moves in the insertion direction along with the rotation of the pinion and presses the inner tube in the insertion direction.
The pushing device includes a mounting base that is provided so as to extend in the insertion direction of the outer pipe into the ground and on which the outer pipe and the inner pipe are placed, and a hydraulic mechanism that presses the inner pipe in the insertion direction. Features.

本発明に係る先受材設置方法によれば、押込作業と排出作業と行うことによって、高価な穿孔ビットを使用せずに、切羽の前方の地山に先受材としての外管を設置できる。特に、排出作業において、噴射作業を、ポンプで土砂が吸引されていることを確認した後、又は、確認しながら行うので、泥水の排出が確実に行われている状態で二重管体を地山にスムーズに押し込むことができる。また、排出作業において、空気を混入させた水を外管の刃先よりも前方の地山に到達しないように噴射するので、排出作業においての吸引水量を少なくできるとともに、外管の先端部の内側に取り込まれた土砂を泥水にできるので、排土をスムーズにできる。また、水が外管の先端よりも前方の地山に達した場合、前方の地山に外管の無い状態で孔が掘削されたり、外管の先端部の周囲に当該先端部の管径以上の径の孔が余掘されてしまって、当該孔部分が崩れて当該孔部分の上方の地山が地盤沈下を起こすという問題を解消できる。さらに、空気を混入させた水を噴射するので、空気を混入させない場合と比べて噴射力が同じで水量を少なくでき、排出作業においての吸引水量を少なくできるとともに、外管の先端部の内側に取り込まれた土砂を泥水にできるので、排土をスムーズにできる。
外管を地山に押し込む際に、外管の上下左右への動きを規制する規制手段を用い、規制手段は、外管の地山への挿入方向に延長するように設けられたラックや載台の上に載置された外管をラックや載台の方向に押え込むように外管の上面を抑えて外管の上方への移動を規制する上規制板と、外管の右側に設けられて外管の右側への移動を規制する右規制板と、外管の左側に設けられて外管の左側への移動を規制する左規制板と、外管の下側への移動を規制する下規制板として機能するラックや載台とにより構成されたので、外管の先端側に力をスムーズに伝達できるようになり、地山への外管の押込作業をスムーズに行えるようになる。
本発明に係る先受材設置装置によれば、外管と内管と押込装置と排出装置と噴射装置とを備えたので、高価な穿孔ビットを使用せずに、切羽の前方の地山に先受材としての外管を設置できる。特に、空気を混入させた水を外管の刃先よりも前方の地山に到達しないように噴射する噴射装置を備えたので、空気を混入させない場合と比べて噴射力が同じで水量を少なくでき、排出作業においての吸引水量を少なくできるとともに、外管の先端部の内側に取り込まれた土砂を泥水にできるので、排土をスムーズにできる。また、水が外管の先端よりも前方の地山に達した場合、前方の地山に外管の無い状態で孔が掘削されたり、外管の先端部の周囲に当該先端部の管径以上の径の孔が余掘されてしまって、当該孔部分が崩れて当該孔部分の上方の地山が地盤沈下を起こすという問題を解消できる。
内管が押圧面を備え、押圧面が、押込装置により押圧されて外管を挿入方向に押圧するとともに、外管の先端側の管の内面と内管の先端側の管の外面との間の間隙を塞ぐことによって、当該間隙を経由する外管の管の内面と内管の管の外面との間への泥水の浸入を防ぐので、泥水が外管の管の内面と内管の管の外面との間を経由せずに内管の内部空間経由で確実に排出される。
外管の先端部が筒状の先導ガイド部材により形成され、先導ガイド部材の先端の刃が、筒の一端に設けられた環線状の先鋭縁により形成されたので、外管が挿入方向に沿って地山を進行する際の抵抗が少なくなり、外管を地山にスムーズに挿入できる。
押込装置が、ラックとピニオンと押圧体とを備えたので、簡単な構成の押込装置によって、外管を容易に地山に設置することができる。
押込装置が、載台と油圧機構とを備えたので、油圧機構の押圧力を制御装置で制御でき、外管を容易に地山に設置することができる。
According to the receiving material installation method according to the present invention, an outer tube as a receiving material can be installed in a natural ground in front of the face without using an expensive drill bit by performing a pushing operation and a discharging operation. . In particular, in the discharge work, the injection work is performed after confirming that the soil is being sucked by the pump or while confirming it. It can be pushed smoothly into the mountain. In addition, in the discharge operation, water mixed with air is sprayed so as not to reach the natural ground in front of the cutting edge of the outer tube, so that the amount of sucked water in the discharge operation can be reduced and the inner side of the tip of the outer tube Since the earth and sand taken in can be made into muddy water, the soil can be drained smoothly. In addition, when water reaches a natural ground ahead of the tip of the outer pipe, a hole is excavated without the outer pipe in the front natural ground, or the diameter of the tip of the outer pipe around the outer pipe. It is possible to solve the problem that the hole having the above diameter is dug, the hole portion collapses, and the natural ground above the hole portion causes ground subsidence. In addition, since water mixed with air is injected, the amount of water can be reduced with the same injection force compared to the case where air is not mixed, the amount of suction water during discharge can be reduced, and the inside of the tip of the outer tube can be reduced. Since the taken earth and sand can be made into muddy water, the soil can be discharged smoothly.
When the outer tube is pushed into the natural ground, a restricting means for restricting the vertical movement of the outer tube is used , and the restricting means is a rack or mounting provided to extend in the insertion direction of the outer tube into the natural ground. Provided on the right side of the outer tube, and an upper restricting plate that restrains the upper surface of the outer tube so that the outer tube placed on the table is pressed in the direction of the rack or the table, and restricts the upward movement of the outer tube A right restriction plate that restricts movement of the outer pipe to the right side, a left restriction plate that is provided on the left side of the outer pipe and restricts movement of the outer pipe to the left side, and restricts movement of the outer pipe to the lower side. Because it is composed of a rack and a base that function as a lower regulating plate , the force can be transmitted smoothly to the distal end side of the outer tube, and the outer tube can be pushed into the ground smoothly. .
According to the receiving material installation device according to the present invention, since the outer tube, the inner tube, the pushing device, the discharging device, and the injection device are provided, an expensive drill bit is not used and the ground in front of the face is used. An outer tube as a receiving material can be installed. In particular, it is equipped with an injection device that injects water mixed with air so that it does not reach the ground in front of the cutting edge of the outer tube, so the amount of water can be reduced with the same injection force compared to when air is not mixed. In addition, the amount of sucked water in the discharging operation can be reduced, and the earth and sand taken inside the tip of the outer pipe can be made muddy water, so that the soil can be discharged smoothly. In addition, when water reaches a natural ground ahead of the tip of the outer pipe, a hole is excavated without the outer pipe in the front natural ground, or the diameter of the tip of the outer pipe around the outer pipe. It is possible to solve the problem that the hole having the above diameter is dug, the hole portion collapses, and the natural ground above the hole portion causes ground subsidence.
The inner tube has a pressing surface, and the pressing surface is pressed by the pushing device to press the outer tube in the insertion direction, and between the inner surface of the tube on the distal end side of the outer tube and the outer surface of the tube on the distal end side of the inner tube. By closing the gap, mud water is prevented from entering between the inner surface of the outer tube and the outer surface of the inner tube through the gap. It is surely discharged through the inner space of the inner pipe without passing through the outer surface of the tube.
Since the distal end portion of the outer tube is formed by a cylindrical leading guide member, and the blade at the distal end of the leading guide member is formed by a ring-shaped sharp edge provided at one end of the tube, the outer tube extends along the insertion direction. Therefore, the resistance when traveling through the natural ground is reduced, and the outer tube can be smoothly inserted into the natural ground.
Since the pushing device includes the rack, the pinion, and the pressing body, the outer tube can be easily installed on the natural ground by the pushing device having a simple configuration.
Since the pushing device includes the mounting table and the hydraulic mechanism, the pressing force of the hydraulic mechanism can be controlled by the control device, and the outer tube can be easily installed on the ground.

最良の形態1
図1乃至図5は最良の形態1を示し、図1は先受材設置装置を分解斜視図で示し、図2(a)は先受材設置装置を断面図で示し、図2(b)は図2(a)のA−A断面を示し、図3(a)は押込装置を背面から見て示し、図3(b)は押込装置を示し、図4(a)は先受材の先端部を挿入孔に位置決めした状態を示し、図4(b)は先受材を地山に押し込んだ状態を示し、図5(a)は二重管体の先端部を挿入孔に位置決めした状態を拡大して示し、図5(b)は外管を地山へ押し込むとともに、排出作業を行っている状態を示す。
Best form 1
1 to 5 show the best mode 1, FIG. 1 shows an exploded perspective view of a prior material installation device, FIG. 2 (a) shows a sectional view of the prior material installation device, and FIG. 2 (b). 2A shows a cross section taken along the line AA in FIG. 2A, FIG. 3A shows the pushing device viewed from the back, FIG. 3B shows the pushing device, and FIG. 4A shows the receiving material. FIG. 4B shows a state where the tip is positioned in the insertion hole, FIG. 4B shows a state where the receiving material is pushed into the ground, and FIG. 5A shows that the tip of the double tube is positioned in the insertion hole. The state is shown in an enlarged manner, and FIG. 5B shows a state in which the outer pipe is pushed into the ground and the discharging operation is performed.

トンネル空洞部116の切羽115におけるトンネル空洞部116の内壁面117との境界部118から切羽115よりも前方の地山10に向けて内壁面117と交差する方向に長尺な先受材を挿入して設置する先受材設置装置1は、先受材としての外管2と、内管3と、噴射装置4と、排出装置5と、押込装置6とを備える(図1;図2(a);図7等参照)。   A long receiving material is inserted in a direction intersecting the inner wall surface 117 from the boundary 118 between the face 115 of the tunnel cavity 116 and the inner wall surface 117 of the tunnel cavity 116 toward the natural ground 10 ahead of the face 115. The receiving material installation device 1 to be installed includes an outer tube 2, an inner tube 3, an injection device 4, a discharging device 5, and a pushing device 6 as a receiving material (FIG. 1; FIG. 2 ( a); see FIG.

外管2は、例えば6m〜15m程度の長さの長尺な断面円形の鋼管7(以下、外側長尺管という)と、外側長尺管7の先端に設けられた外管2の先端部としての先導ガイド部材8とを備える。外側長尺管7は、管の内面と外面とに貫通する複数の貫通孔9を備える。この貫通孔9は地山10中に設置された外管2の周囲の地盤に地盤改良液を供給する際の孔として使用される。尚、図示しないが、貫通孔9には、外管2の内部から外管2の周囲の地山に地盤改良液を供給する際にのみ地盤改良液の圧力によって開く周知の逆止弁が設けられる。   The outer tube 2 is, for example, a long steel pipe 7 having a circular section of about 6 m to 15 m (hereinafter referred to as an outer long tube) and a distal end portion of the outer tube 2 provided at the distal end of the outer long tube 7. And a leading guide member 8. The outer long tube 7 includes a plurality of through holes 9 penetrating the inner surface and the outer surface of the tube. The through-hole 9 is used as a hole for supplying the ground improvement liquid to the ground around the outer pipe 2 installed in the ground 10. Although not shown, the through hole 9 is provided with a known check valve that is opened by the pressure of the ground improvement liquid only when the ground improvement liquid is supplied from the inside of the outer pipe 2 to the ground around the outer pipe 2. It is done.

先導ガイド部材8は、断面円形の鋼製の筒状体により形成され、筒の先端に刃11を備え、筒の後端部に取付部12を備える。先導ガイド部材8は、刃先14となる筒の先端の外周縁から筒の後端の方向に傾斜する筒の傾斜内面13を備え、刃先14が、筒の傾斜内面13の先端となる環線状の先鋭縁(筒の先端の外周縁)により形成される。即ち、先導ガイド部材8の先端の刃11が、筒の一端に設けられた環線状の先鋭縁により形成される。   The leading guide member 8 is formed of a steel tubular body having a circular cross section, and includes a blade 11 at the tip of the tube and an attachment portion 12 at the rear end of the tube. The leading guide member 8 includes an inclined inner surface 13 of a cylinder that inclines in the direction of the rear end of the cylinder from the outer peripheral edge of the end of the cylinder that becomes the cutting edge 14, and the cutting edge 14 is an annular line that becomes the distal end of the inclined inner surface 13 of the cylinder. It is formed by a sharp edge (outer peripheral edge at the tip of the cylinder). That is, the blade 11 at the tip of the leading guide member 8 is formed by a ring-shaped sharp edge provided at one end of the cylinder.

以上の構成によれば、外管2の先端部が筒状の先導ガイド部材8により形成され、先導ガイド部材8の先端が筒の一端に設けられた環線状の先鋭縁による先鋭な刃11に形成され、かつ、先導ガイド部材8の筒の外面が径の等しい円周面により形成されたので、外管2が挿入方向に沿って地山10を進行する際に、外管2の刃11が地山10に突き刺さった後に、外管2が挿入方向に沿って地山10中を進行する際の抵抗が少なくなり、外管2を地山10にスムーズに挿入できる。つまり、先導ガイド部材8の先端の刃11が、筒の一端に設けられた環線状の先鋭縁により形成されたことにより、外管2が挿入方向に沿って地山10を進行する際に土砂に衝突して抵抗となる挿入方向と直交する面が少なくなるので、外管2が挿入方向に沿って地山10を進行する際の抵抗が少なくなり、外管2を地山にスムーズに挿入できる。   According to the above configuration, the distal end portion of the outer tube 2 is formed by the cylindrical leading guide member 8, and the leading end of the leading guide member 8 is formed on the sharp blade 11 by the ring-shaped sharp edge provided at one end of the tube. Since the outer surface of the cylinder of the leading guide member 8 is formed by the circumferential surface having the same diameter, the blade 11 of the outer tube 2 is moved when the outer tube 2 advances through the natural ground 10 along the insertion direction. After being pierced into the natural ground 10, the resistance when the outer tube 2 proceeds through the natural ground 10 along the insertion direction is reduced, and the outer tube 2 can be smoothly inserted into the natural ground 10. That is, since the blade 11 at the tip of the leading guide member 8 is formed by a ring-shaped sharp edge provided at one end of the cylinder, the earth and sand when the outer tube 2 advances through the natural ground 10 along the insertion direction. Since there are fewer surfaces perpendicular to the insertion direction that become a resistance by colliding with the outer tube 2, the resistance when the outer tube 2 travels along the ground 10 along the insertion direction is reduced, and the outer tube 2 is smoothly inserted into the ground. it can.

図2(a);(b)に示すように、先導ガイド部材8の筒の外径15は、外側長尺管7の外径16よりも大きく形成される。先導ガイド部材8の取付部12は、外側長尺管7の先端部を嵌め込むための嵌合用孔17を備える。嵌合用孔17は、先導ガイド部材8を形成する筒の後端面20より筒の先端の方向に延長するように設けられた断面円形の孔により形成される。嵌合用孔17の径18は、先導ガイド部材8の筒の外径15よりも小さくて先導ガイド部材8の筒の内径19よりも大きい。外側長尺管7の先端部の管の外面と嵌合用孔17の孔の内壁面とが接触するように外側長尺管7の先端部が嵌合用孔17内に嵌め込まれ、かつ、外側長尺管7の先端部と先導ガイド部材8の取付部12とが溶接などで互いに連結される。これにより、外側長尺管7と先導ガイド部材8とが同軸に設けられて外管2が形成される。   As shown in FIGS. 2A and 2B, the outer diameter 15 of the tube of the leading guide member 8 is formed larger than the outer diameter 16 of the outer long tube 7. The attachment portion 12 of the leading guide member 8 includes a fitting hole 17 for fitting the distal end portion of the outer long tube 7. The fitting hole 17 is formed by a hole having a circular cross section provided so as to extend from the rear end surface 20 of the cylinder forming the leading guide member 8 toward the front end of the cylinder. The diameter 18 of the fitting hole 17 is smaller than the outer diameter 15 of the cylinder of the leading guide member 8 and larger than the inner diameter 19 of the cylinder of the leading guide member 8. The distal end of the outer long tube 7 is fitted into the fitting hole 17 so that the outer surface of the tube at the distal end of the outer long tube 7 and the inner wall surface of the hole of the fitting hole 17 are in contact with each other. The distal end portion of the long tube 7 and the attachment portion 12 of the leading guide member 8 are connected to each other by welding or the like. Thereby, the outer long tube 7 and the leading guide member 8 are provided coaxially, and the outer tube 2 is formed.

以上の構成によれば、外側長尺管7の先端部が嵌合用孔17に嵌め込まれて外側長尺管7と先導ガイド部材8とが連結された状態において、先導ガイド部材8の外面と外側長尺管7の外面との境界部21で外側長尺管7の管の外面が先導ガイド部材8の筒の外面より外方に突出しないので、外管2が挿入方向に沿って地山10を進行する際に、上記境界部21において地山10に衝突する挿入方向と直交する面がなくなり、外管2が挿入方向に沿って地山10を進行する際の抵抗が少なくなるので、外管2を地山10にスムーズに挿入できる。   According to the above configuration, in the state where the distal end portion of the outer long tube 7 is fitted into the fitting hole 17 and the outer long tube 7 and the leading guide member 8 are connected, the outer surface and the outer side of the leading guide member 8 are connected. Since the outer surface of the tube of the outer long tube 7 does not protrude outward from the outer surface of the tube of the leading guide member 8 at the boundary portion 21 with the outer surface of the long tube 7, the outer tube 2 is grounded along the insertion direction. As the outer pipe 2 travels along the insertion direction at the boundary portion 21, the resistance when the outer tube 2 travels along the insertion direction is reduced. The tube 2 can be smoothly inserted into the natural ground 10.

内管3は、断面円形の長尺な鋼管25(以下、内側長尺管という)と、内側長尺管25の先端部の外周面に取り付けられた鋼製の外管押圧部材26とを備える。外管押圧部材26は、取付用孔27と、噴射ノズル28とを備える。即ち、外管押圧部材26は、円形板の中央において円形板の先端面35と後端面49とに貫通する断面円形の貫通孔により形成された取付用孔27を備え、かつ、取付用孔27と円形板の周縁部との間にも円形板の先端面35と後端面49とに貫通する断面円形の貫通孔により形成された噴射ノズル28を備えた中央孔付き円形板により形成される。外管押圧部材26を形成する円形板の外径29は、外管2の外側長尺管7の内径23よりも小さく、かつ、先導ガイド部材8の嵌合用孔17の孔底面30に繋がる筒孔開口部の径(即ち、先導ガイド部材8の筒の内径19)よりも大きい。外管押圧部材26の取付用孔27の径29は、内側長尺管25の先端部の外面が取付用孔27の内側に挿入可能な寸法に形成される。そして、外管押圧部材26の取付用孔27の内面と内管3の内側長尺管25の先端部の外面とを接触させるか、あるいは、外管押圧部材26の取付用孔27の内面と内管3の内側長尺管25の先端部の外面との間を泥水が通過しないようにした状態において、外管押圧部材26と内側長尺管25の先端部とが溶接などで結合される。外管押圧部材26の先端面35と内側長尺管25の先端面36とが同一面上に位置されるように結合される。   The inner pipe 3 includes a long steel pipe 25 having a circular cross section (hereinafter referred to as an inner long pipe) and a steel outer pipe pressing member 26 attached to the outer peripheral surface of the distal end portion of the inner long pipe 25. . The outer tube pressing member 26 includes a mounting hole 27 and an injection nozzle 28. That is, the outer tube pressing member 26 includes a mounting hole 27 formed by a through hole having a circular cross section that penetrates the front end surface 35 and the rear end surface 49 of the circular plate at the center of the circular plate. A circular plate with a central hole provided with an injection nozzle 28 formed by a through-hole having a circular cross section that penetrates through the front end surface 35 and the rear end surface 49 of the circular plate. The outer diameter 29 of the circular plate forming the outer tube pressing member 26 is smaller than the inner diameter 23 of the outer long tube 7 of the outer tube 2 and is a cylinder connected to the hole bottom surface 30 of the fitting hole 17 of the leading guide member 8. It is larger than the diameter of the hole opening (that is, the inner diameter 19 of the cylinder of the leading guide member 8). The diameter 29 of the mounting hole 27 of the outer tube pressing member 26 is formed to have a dimension that allows the outer surface of the distal end portion of the inner long tube 25 to be inserted into the mounting hole 27. Then, the inner surface of the mounting hole 27 of the outer tube pressing member 26 is brought into contact with the outer surface of the distal end portion of the inner long tube 25 of the inner tube 3, or the inner surface of the mounting hole 27 of the outer tube pressing member 26 is contacted with In a state in which muddy water does not pass between the outer surface of the distal end portion of the inner long tube 25 of the inner tube 3, the outer tube pressing member 26 and the distal end portion of the inner long tube 25 are joined by welding or the like. . The distal end surface 35 of the outer tube pressing member 26 and the distal end surface 36 of the inner long tube 25 are coupled so as to be positioned on the same plane.

以上の構成によれば、内管3が内管3の先端側から外管2の後端開口37を経由して外管2の内側に挿入されて設置された場合、外管押圧部材26の先端面35の外周側の面により環状の押圧面40が形成され、この押圧面40と先導ガイド部材8の嵌合用孔17の孔底面30とが互いに接触することによって、外管押圧部材26が後述の押込装置6により押圧されて外管2を挿入方向に押圧するとともに、押圧面40が外管2の先端側の管の内面と内側長尺管25の先端側の管の外面との間の間隙を塞いで泥水が当該間隙を経由して外管2の管の内面と内管3の管の外面との間(以下、内外管間41という)に浸入することを防ぐ。すなわち、外管2の先端部としての先導ガイド部材8の内側には、内管3の先端に設けられた押圧部としての押圧面40により押圧される被押圧部としての孔底面30を備え、押圧面40と孔底面30とが接触するように外管2の内側に内管3を設置し、外管後端よりも後方に位置させた内管3の後端を押圧することにより内管3と外管2とを一緒に地山10に押し込む押込作業を行う。   According to the above configuration, when the inner tube 3 is installed by being inserted from the front end side of the inner tube 3 into the outer tube 2 via the rear end opening 37 of the outer tube 2, An annular pressing surface 40 is formed by the outer peripheral surface of the distal end surface 35, and the outer surface pressing member 26 is brought into contact with the pressing surface 40 and the bottom surface 30 of the fitting hole 17 of the leading guide member 8. The outer tube 2 is pressed in the insertion direction by being pressed by a pushing device 6 described later, and the pressing surface 40 is between the inner surface of the tube on the distal end side of the outer tube 2 and the outer surface of the tube on the distal end side of the inner long tube 25. The muddy water is prevented from entering between the inner surface of the outer tube 2 and the outer surface of the inner tube 3 (hereinafter referred to as the inner-outer tube 41) via the gap. That is, the inner side of the leading guide member 8 as the distal end portion of the outer tube 2 includes a hole bottom surface 30 as a pressed portion that is pressed by a pressing surface 40 as a pressing portion provided at the distal end of the inner tube 3. The inner tube 3 is installed inside the outer tube 2 so that the pressing surface 40 and the hole bottom surface 30 are in contact with each other, and the inner tube 3 is pressed by pressing the rear end of the inner tube 3 positioned behind the rear end of the outer tube. 3 and the outer tube 2 are pushed together into the natural ground 10.

つまり、外管2を地山10への挿入方向に押圧可能なように外管2の内側に内管3を設置するとともに、先導ガイド部材8の内側から泥水が内外管間41を経由せずに内管3の内部空間42経由で確実に排出されるように構成した。また、内外管間41に泥水を経由させないことにより、内外管間41に設置される後述の水供給ホース51が泥水によって損傷を受けるようなことを防止できる。   That is, the inner pipe 3 is installed inside the outer pipe 2 so that the outer pipe 2 can be pressed in the insertion direction into the natural ground 10, and muddy water does not pass between the inner and outer pipes 41 from the inner side of the leading guide member 8. It is configured to be surely discharged via the internal space 42 of the inner pipe 3. Further, by not allowing the muddy water to pass between the inner and outer pipes 41, it is possible to prevent a later-described water supply hose 51 installed in the inner and outer pipes 41 from being damaged by the muddy water.

噴射装置4は、加圧した水を外管2の後端開口37から内外管間41を経由させて外管2の先導ガイド部材8の内側に噴射する装置であって、上記噴射ノズル28と、水供給装置46とを備える。水供給装置46は、貯水タンク47と、加圧ポンプ48と、噴射ノズル28と加圧ポンプ48とを繋ぐ水供給ホース51と、ホースガイド52と、加圧ポンプ48と貯水タンク47とを繋ぐ水供給管39とを備える。   The injection device 4 is a device that injects pressurized water from the rear end opening 37 of the outer tube 2 through the inner and outer tubes 41 to the inside of the leading guide member 8 of the outer tube 2, And a water supply device 46. The water supply device 46 connects the water storage tank 47, the pressure pump 48, the water supply hose 51 that connects the injection nozzle 28 and the pressure pump 48, the hose guide 52, the pressure pump 48, and the water storage tank 47. And a water supply pipe 39.

外管押圧部材26に形成された噴射ノズル28は、内管3の先端部における外面と外側長尺管7の先端部における内面との間に設けられて、外管2の後端開口37から内外管間41を経由して供給される加圧された水(例えば200Kg/cm〜400Kg/cm程度の高圧水)を内管3の外面の先端側から先導ガイド部材8の筒の内面53に沿って噴射させる。噴射ノズル28は、一定の断面径に形成された貫通孔により形成してもよいし、外管押圧部材26を形成する円形板の後端面49から先端面35に向けて断面径が漸減するような貫通孔により形成してもよい。噴射ノズル28が、断面径の漸減するような貫通孔により形成された場合には、噴射ノズル28の出口より噴射される水の流速をより速くでき、しかも、水圧をより高くできて好ましい。 The injection nozzle 28 formed on the outer tube pressing member 26 is provided between the outer surface at the distal end portion of the inner tube 3 and the inner surface at the distal end portion of the outer long tube 7, and from the rear end opening 37 of the outer tube 2. the inner surface of the leading guide member 8 of the cylinder was pressurized supplied via the inner and outer tubes between 41 water (e.g. 200Kg / cm 2 ~400Kg / cm 2 about high pressure water) from the distal end side of the outer surface of the inner tube 3 53 is injected. The injection nozzle 28 may be formed by a through-hole formed with a constant cross-sectional diameter, or the cross-sectional diameter gradually decreases from the rear end surface 49 of the circular plate forming the outer tube pressing member 26 toward the front end surface 35. You may form with a through-hole. When the injection nozzle 28 is formed by a through-hole having a gradually decreasing cross-sectional diameter, it is preferable that the flow rate of water injected from the outlet of the injection nozzle 28 can be increased and the water pressure can be increased.

以上の構成によれば、噴射ノズル28が、外管押圧部材26の前端面49より前方の先導ガイド部材8の内側に先導ガイド部材8の筒の内面53に沿って水を噴射可能なように設けられたので、押込装置6により刃先14が地山10に押し込められることで地山10より崩れて先導ガイド部材8の内側に移動して取り込まれた土砂に確実に水を噴射できて、先導ガイド部材8の内側の土砂を土砂と水とが混じり合った泥水とすることができるので、排土をスムーズにできる。即ち、後述する排出装置5によって排出作業をスムーズに行える。   According to the above configuration, the spray nozzle 28 can spray water along the inner surface 53 of the guide guide member 8 inside the guide guide member 8 in front of the front end surface 49 of the outer tube pressing member 26. Since the cutting device 6 is pushed into the natural ground 10 by the pushing device 6, it can collapse from the natural ground 10, move to the inside of the leading guide member 8, and reliably inject water into the taken earth and sand. Since the earth and sand inside the guide member 8 can be muddy water in which earth and sand and water are mixed, the soil can be discharged smoothly. That is, the discharge operation can be smoothly performed by the discharge device 5 described later.

ホースガイド52は、例えば、内管3を形成する長尺な鋼管25が複数の鋼管25aを継ぎ足して形成される場合には、継がれる一対の鋼管25aの端部のそれぞれに形成される。ホースガイド52は、継がれる鋼管25aの端部周面において互いに90°づつ隔てた位置にそれぞれ形成された4つの突起52aにより形成される。一対の鋼管25a;25aの端部に設けられたホースガイド52の4つの突起52aの一端面同士が互いに対応するように突き合わされた状態で、当該突き合わされた突起52a同士が、これら突起52aに形成された図外のボルト貫通孔とこれらボルト貫通孔に貫通するボルト52bとこのボルト52bと締結される図外のナットとによるボルトナット結合により結合されることによって一対の鋼管25aが継がれる。つまり、ホースガイド52は、内管3の周面において十字状に突出した4つの突起52aを備えた構成である。よって、内管3の周面方向に沿って互いに隣り合う突起52aと突起52aとの間に水供給ホース51を通すことにより、水供給ホース51を外管2と内管3との間に安定に設置できる。また、ホースガイド52は、断面が十字状であるため、外管2を地山10に設置した後に、外管2内から内管3を引き抜く場合に、外管2との干渉を少なくでき、引き抜き作業を容易とできる。   For example, when the long steel pipe 25 forming the inner pipe 3 is formed by adding a plurality of steel pipes 25a, the hose guide 52 is formed at each end of the pair of steel pipes 25a to be joined. The hose guide 52 is formed by four protrusions 52a that are formed at positions 90 ° apart from each other on the peripheral surface of the end of the steel pipe 25a to be joined. In a state where the one end surfaces of the four protrusions 52a of the hose guide 52 provided at the ends of the pair of steel pipes 25a; 25a are abutted to correspond to each other, the abutted protrusions 52a are in contact with these protrusions 52a. A pair of steel pipes 25a are joined by being connected by bolt-nut coupling by the formed bolt through-holes not shown, bolts 52b passing through these bolt through-holes, and nuts outside the figure fastened to the bolts 52b. That is, the hose guide 52 is configured to include four protrusions 52 a that protrude in a cross shape on the peripheral surface of the inner tube 3. Therefore, the water supply hose 51 is stabilized between the outer tube 2 and the inner tube 3 by passing the water supply hose 51 between the projections 52a adjacent to each other along the circumferential surface direction of the inner tube 3. Can be installed. In addition, since the hose guide 52 has a cross shape in cross section, when the inner tube 3 is pulled out from the outer tube 2 after the outer tube 2 is installed in the natural ground 10, the interference with the outer tube 2 can be reduced. The drawing work can be made easy.

水供給ホース51の先端に固定された取付具60の先端側の外周面に形成された図外のねじ部と外管押圧部材26に形成された噴射ノズル28の後端側の内周面に形成された図外のねじ部とがねじ結合されることによって、噴射ノズル28の後端部に水供給ホース51の先端部が結合される。水供給ホース51の後端と加圧ポンプ48の吐出口とが連結され、加圧ポンプ48の吸込口と貯水タンク47の水出口と水供給管39で繋がれる。   On the inner peripheral surface on the rear end side of the injection nozzle 28 formed on the screw portion (not shown) formed on the outer peripheral surface on the front end side of the fixture 60 fixed to the front end of the water supply hose 51 and the outer tube pressing member 26. The leading end portion of the water supply hose 51 is coupled to the rear end portion of the injection nozzle 28 by screw coupling with the formed screw portion outside the figure. The rear end of the water supply hose 51 is connected to the discharge port of the pressurization pump 48, and is connected by the suction port of the pressurization pump 48, the water outlet of the water storage tank 47, and the water supply pipe 39.

噴射ノズル28と水供給ホース51とにより構成される噴射構造セットは、内管3の外面の周方向において図に示すように例えば90°隔てて4セット設けられる。尚、噴射構造セットは、1セット以上設ければよい。例えば、内管3の外面の周方向において例えば180°隔てて2セット設けるようにしたり、内管3の外面の周方向において例えば120°隔てて3セット設けるようにしたり、あるいは4セット以上設けてもよい。   As shown in the drawing, four sets of jetting structure sets including the jet nozzle 28 and the water supply hose 51 are provided, for example, 90 ° apart in the circumferential direction of the outer surface of the inner tube 3. Note that one or more injection structure sets may be provided. For example, two sets are provided, for example, 180 ° apart in the circumferential direction of the outer surface of the inner tube 3, or three sets are provided, for example, 120 ° apart in the circumferential direction of the outer surface of the inner tube 3, or four or more sets are provided. Also good.

以上の構成によれば、貯水タンク47からの水が加圧ポンプ48によって加圧された後に水供給ホース51及び噴射ノズル28を介して先導ガイド部材8の内側に噴射される。   According to the above configuration, the water from the water storage tank 47 is pressurized by the pressure pump 48 and then sprayed to the inside of the leading guide member 8 through the water supply hose 51 and the spray nozzle 28.

排出装置5は、先導ガイド部材8の筒の内側から泥水を内管3の内部空間42経由で吸引する装置であって、排出路64と、吸引ポンプ65と、貯留タンク63と、排出路64の終端に位置する排出口67と吸引ポンプ65とを繋ぐ吸引管68と、吸引ポンプ65と貯留タンク63とを繋ぐ連結管69とを備える。排出路64は、先導ガイド部材8の筒の内部空間59及び内管の内部空間42により形成される。排出口67は、内管3の内側長尺管25の後端部に設けられる。排出口67は、図1に示すように、内管3の管の内面と外面とに貫通する吸引管接続部により形成されたり、又は、図2に示すように、内管3の後端開口に接続される吸引接続部材200の管側接続口201により形成される。排出口67と吸引ポンプ65の吸込口とが吸引管68で連結される。吸引ポンプ65の吐出口と貯留タンク63の取込口とが連結管69により連結される。上記吸引接続部材200は、後端部が閉塞され、内管3の後端開口に接続される管側接続口201と吸引管接続口202とがL字流路により連通された接続管により形成される。内管3の後端開口端面と吸引接続部材200の管側接続口端面との間に当該間を密接に塞ぐパッキン203を介在させて内管3の後端部の外周面とパッキン203の外周面と吸引接続部材200の管側接続部の外周面とを覆う連結具204により内管3と吸引接続部材200とが接続される。図示しないが、連結具204は筒体を半割りした2つの半割部材により形成され、この半割部材の両端部にはボルト貫通孔の形成された接合フランジが設けられ、2つの半割部材で内管3及び吸引接続部材200の外周面を挟みつけるようにした場合に互いに付き合わされる接合フランジをボルト及びナットで締結することで、内管3と吸引接続部材200とが接続される。   The discharge device 5 is a device that sucks muddy water from the inside of the tube of the leading guide member 8 via the internal space 42 of the inner pipe 3, and includes a discharge path 64, a suction pump 65, a storage tank 63, and a discharge path 64. Are provided with a suction pipe 68 that connects the discharge port 67 and the suction pump 65 located at the end of the suction pipe 65, and a connection pipe 69 that connects the suction pump 65 and the storage tank 63. The discharge path 64 is formed by a cylindrical internal space 59 of the leading guide member 8 and an internal space 42 of the inner tube. The discharge port 67 is provided at the rear end portion of the inner long tube 25 of the inner tube 3. As shown in FIG. 1, the discharge port 67 is formed by a suction tube connecting portion penetrating the inner surface and the outer surface of the tube of the inner tube 3, or as shown in FIG. 2, the rear end opening of the inner tube 3 is opened. It is formed by the pipe side connection port 201 of the suction connection member 200 connected to. The discharge port 67 and the suction port of the suction pump 65 are connected by a suction pipe 68. The discharge port of the suction pump 65 and the intake port of the storage tank 63 are connected by a connecting pipe 69. The suction connection member 200 is formed of a connection pipe having a rear end portion closed and a pipe side connection port 201 connected to the rear end opening of the inner tube 3 and a suction pipe connection port 202 communicated with each other by an L-shaped flow path. Is done. An outer peripheral surface of the rear end portion of the inner tube 3 and an outer periphery of the packing 203 are interposed between the rear end opening end surface of the inner tube 3 and the tube-side connection port end surface of the suction connection member 200 so as to close the space therebetween. The inner tube 3 and the suction connection member 200 are connected by a connecting member 204 that covers the surface and the outer peripheral surface of the pipe-side connection portion of the suction connection member 200. Although not shown in the drawings, the connecting member 204 is formed by two halved members obtained by halving the cylindrical body, and two halved members are provided with joint flanges formed with bolt through holes at both ends of the halved member. When the outer peripheral surfaces of the inner tube 3 and the suction connection member 200 are clamped, the inner flange 3 and the suction connection member 200 are connected by fastening the joint flanges that are attached to each other with bolts and nuts.

以上の構成によれば、吸引ポンプ65による吸引力によって、泥水が、先導ガイド部材8の筒の内側から排出路64、排出口67、吸引管68を経由して吸引ポンプ65内に吸引され、貯留タンク63に送られる。   According to the above configuration, the muddy water is sucked into the suction pump 65 from the inside of the tube of the leading guide member 8 via the discharge path 64, the discharge port 67, and the suction pipe 68 by the suction force of the suction pump 65, It is sent to the storage tank 63.

噴射ノズル28、ホースガイド52、水供給ホース51を装備した内管3が外管2の内側に設置されて二重管体70が形成される。二重管体70は、内管3の外管押圧部材26の先端面と先導ガイド部材8の嵌合用孔17の孔底面30とが接触した状態において、内管3の後端部が外管2の後端よりも後方に位置するように形成される。排出口67は、外管2の後端よりも後方に位置する内管3の後端部に設けられる。そして、外管2の後端よりも後方に位置させた内管3の後端や内管3の後端開口に接続した吸引接続部材の後端を押込装置6によって押圧することにより内管3と外管2とを一緒に地山10に押し込む後述の押込作業を行う。内管3の後端開口に接続した吸引接続部材200の後端を押込装置6によって押圧すれば、押込装置6によって内管3を直接押し込む場合に比べて内管3の後端の潰れを防止できる。   The inner pipe 3 equipped with the injection nozzle 28, the hose guide 52, and the water supply hose 51 is installed inside the outer pipe 2 to form a double pipe 70. In the double tube 70, the rear end portion of the inner tube 3 is connected to the outer tube in a state where the front end surface of the outer tube pressing member 26 of the inner tube 3 is in contact with the bottom surface 30 of the fitting hole 17 of the leading guide member 8. 2 is formed so as to be located behind the rear end. The discharge port 67 is provided at the rear end portion of the inner tube 3 located behind the rear end of the outer tube 2. Then, the inner pipe 3 is pressed by pressing the rear end of the inner pipe 3 positioned behind the rear end of the outer pipe 2 or the rear end of the suction connection member connected to the rear end opening of the inner pipe 3 by the pushing device 6. The outer tube 2 and the outer tube 2 are pushed together into the ground 10 to perform the pushing operation described later. If the rear end of the suction connection member 200 connected to the rear end opening of the inner tube 3 is pressed by the pushing device 6, the rear end of the inner tube 3 is prevented from being crushed compared to the case where the inner tube 3 is pushed directly by the pushing device 6. it can.

尚、外管押圧部材26の先端面と先導ガイド部材8の嵌合用孔17の孔底面30とが接触した状態において、内管3の後端部が外管2の後端よりも前方の外管2の内側に位置する場合、内外管間41に吸引管68を入り込ませたり、排出口67と吸引管68とを連結するために外管2に開口を設ける必要があり、また、外管2の内側に位置する内管3の後端面71を後述する押込装置6の押圧面99で押圧するため、押圧面99と水供給ホース51や吸引管68とが互いに干渉しあって噴射や排出に支障が出る可能性もある。一方、外管押圧部材26の先端面と先導ガイド部材8の嵌合用孔17の孔底面30とが接触した状態において、内管3の後端部が外管2の後端よりも後方に位置するように形成し、外管2の後端よりも後方に位置させた内管3の後端を押圧することにより内管3と外管2とを一緒に地山10に押し込む押込作業を行う構成とした場合、内外管間41に吸引管68を入り込ませたり、排出口67と吸引管68とを連結するために外管2に開口を設ける必要がなくなり、また、押圧面99と水供給ホース51や吸引管68との干渉を無くすことが可能となり、スムーズな押込、噴射、排土を行える。   In the state where the front end surface of the outer tube pressing member 26 and the hole bottom surface 30 of the fitting hole 17 of the leading guide member 8 are in contact with each other, the rear end portion of the inner tube 3 is located outside the rear end of the outer tube 2. When located inside the pipe 2, it is necessary to provide the suction pipe 68 between the inner and outer pipes 41, or to provide an opening in the outer pipe 2 in order to connect the discharge port 67 and the suction pipe 68. 2, the rear end surface 71 of the inner tube 3 positioned inside the inner tube 2 is pressed by a pressing surface 99 of the pushing device 6 to be described later, so that the pressing surface 99 interferes with the water supply hose 51 and the suction tube 68 to inject and discharge. There is also a possibility that it will interfere. On the other hand, the rear end portion of the inner tube 3 is located behind the rear end of the outer tube 2 in a state where the front end surface of the outer tube pressing member 26 and the hole bottom surface 30 of the fitting hole 17 of the leading guide member 8 are in contact with each other. The inner tube 3 and the outer tube 2 are pushed together into the ground 10 by pressing the rear end of the inner tube 3 positioned rearward of the rear end of the outer tube 2. In the case of the configuration, it is not necessary to provide the suction pipe 68 between the inner and outer pipes 41, or to provide an opening in the outer pipe 2 in order to connect the discharge port 67 and the suction pipe 68, and the pressing surface 99 and the water supply Interference with the hose 51 and the suction pipe 68 can be eliminated, and smooth pushing, injection, and soil removal can be performed.

押込装置6は、外管2を地山10に押し込む装置であって、角度設定装置80と、押圧装置90とを備える。角度設定装置80は、ステッピングモータ82と、ラック83と、ステッピングモータ82を制御する制御装置81とを備える。ラック83は外管2の地山10への挿入方向に延長するように設けられる。ラック83の延長方向における後端部には軸連結部84を備える。軸連結部84には軸連結孔85が設けられる。軸連結孔85は、孔の中心線がラック83の上面(歯面)86と平行でかつラック83の延長方向と直交する。回転軸87(モータ軸あるいはモータ軸と連結された軸)が軸連結孔85に通され、この回転軸87の軸心を回転中心として回転軸87とラック83とが一緒に回転可能となるように、軸連結孔85と回転軸87とがキー89により結合される。ラック83上には外管2及び内管3を備えた二重管体70が載置される。   The pushing device 6 is a device that pushes the outer tube 2 into the natural ground 10 and includes an angle setting device 80 and a pressing device 90. The angle setting device 80 includes a stepping motor 82, a rack 83, and a control device 81 that controls the stepping motor 82. The rack 83 is provided so as to extend in the direction in which the outer tube 2 is inserted into the natural ground 10. A shaft connecting portion 84 is provided at the rear end portion in the extending direction of the rack 83. A shaft connecting hole 85 is provided in the shaft connecting portion 84. The shaft coupling hole 85 has a hole center line parallel to the upper surface (tooth surface) 86 of the rack 83 and orthogonal to the extending direction of the rack 83. A rotating shaft 87 (motor shaft or a shaft connected to the motor shaft) is passed through the shaft connecting hole 85 so that the rotating shaft 87 and the rack 83 can rotate together with the axis of the rotating shaft 87 as the center of rotation. Further, the shaft connecting hole 85 and the rotating shaft 87 are coupled by a key 89. On the rack 83, a double tube body 70 including the outer tube 2 and the inner tube 3 is placed.

押圧装置90は、上記ラック83と、上記ラック83の歯33に噛み合ってラック83の延長方向に往復移動可能に設けられたピニオン91と、ピニオン91を回転駆動するモータ92と、モータ92を制御する制御装置93と、ピニオン91の往復移動に伴ってラック83の延長方向に往復移動可能に設けられた押圧体94とを備える。ピニオン91の中心に形成された軸連結孔95と回転軸96(モータ軸あるいはモータ軸と連結された軸)とがキー34により結合される。モータ92のケーシング97がモータ取付板98に取り付けられる。モータ取付板98と押圧体94とが連結結合される。押圧体94は、押圧面99と、保持体100とを備える。押圧面99は、ラック83上に載置された二重管体70の内管3の後端面71と接触して当該後端面71を押圧する。保持体100は、押圧面99より突出してラック83上に載置された二重管体70の内管3の後端開口31から内管3の内面に嵌合状態に接触する外面を備えた円筒体(あるいは円柱体)により形成される。押圧面99は、ラック83の延長方向と直交する面により形成され、保持体100は円筒体の中心軸が押圧面99と直交するように設けられる。   The pressing device 90 controls the rack 83, a pinion 91 that meshes with the teeth 33 of the rack 83 and can be reciprocated in the extending direction of the rack 83, a motor 92 that rotationally drives the pinion 91, and the motor 92. And a pressing body 94 provided so as to be able to reciprocate in the extending direction of the rack 83 as the pinion 91 reciprocates. A shaft coupling hole 95 formed at the center of the pinion 91 and a rotating shaft 96 (a motor shaft or a shaft coupled to the motor shaft) are coupled by a key 34. A casing 97 of the motor 92 is attached to the motor attachment plate 98. The motor mounting plate 98 and the pressing body 94 are connected and coupled. The pressing body 94 includes a pressing surface 99 and a holding body 100. The pressing surface 99 comes into contact with the rear end surface 71 of the inner tube 3 of the double tubular body 70 placed on the rack 83 and presses the rear end surface 71. The holding body 100 includes an outer surface that protrudes from the pressing surface 99 and comes into contact with the inner surface of the inner tube 3 from the rear end opening 31 of the inner tube 3 of the double tube 70 placed on the rack 83. It is formed by a cylindrical body (or a cylindrical body). The pressing surface 99 is formed by a surface orthogonal to the extending direction of the rack 83, and the holding body 100 is provided so that the central axis of the cylindrical body is orthogonal to the pressing surface 99.

尚、ステッピングモータ82のケーシング105、回転軸87を回転可能に支持する軸受106、ステッピングモータ82の制御装置81、モータ92の制御装置93は、架台110に固定される。ラック83は、回転軸87の軸心を回転中心として回転可能となるように、下面111を架台面112より浮かして設けられる。そして、架台110の先端側にはラック83の先端側の下面を支持する支持面を備える。支持面は、二重管体70を載置するラック83の上面86が水平面に位置されるように、あるいは、ラック83の先端側の上面がラック83の後端側の上面よりも上方に位置されるように、ラック83の先端側の下面を支持する。   The casing 105 of the stepping motor 82, the bearing 106 that rotatably supports the rotating shaft 87, the control device 81 of the stepping motor 82, and the control device 93 of the motor 92 are fixed to the gantry 110. The rack 83 is provided with the lower surface 111 floating above the gantry surface 112 so as to be rotatable about the axis of the rotation shaft 87 as a rotation center. And the support surface which supports the lower surface of the front end side of the rack 83 is provided in the front end side of the mount frame 110. FIG. The support surface is such that the upper surface 86 of the rack 83 on which the double tube body 70 is placed is positioned in a horizontal plane, or the upper surface on the front end side of the rack 83 is positioned above the upper surface on the rear end side of the rack 83. As described above, the lower surface of the front end side of the rack 83 is supported.

以上の構成によれば、二重管体70をラック83上に載置して二重管体70の内管3の後端部を保持体100で保持して、かつ、押圧面99と内管3の後端面71とを接触させた状態として、ステッピングモータ82を駆動することによって、二重管体70の地山10への挿入角度を調整でき、かつ、モータ92を駆動することによって、二重管体70を前方へと移動させることができる。つまり、ステッピングモータを用いた角度設定装置80により、外管2を地山10への挿入角度に保持する角度保持作業を行うことができるので、様々な大きさの切羽115におけるトンネル空洞部116の内壁面117との境界部118から切羽115よりも前方の地山10に向けて外管2を地山10に挿入できて外管2を地山10に設置することが可能となる。また、モータ92とラック83とピニオン91とによる簡単な構成の押圧装置90によって、外管2を容易に地山10に設置することが可能となる。   According to the above configuration, the double pipe body 70 is placed on the rack 83, the rear end portion of the inner pipe 3 of the double pipe body 70 is held by the holding body 100, and By driving the stepping motor 82 with the rear end surface 71 of the tube 3 in contact, the insertion angle of the double tube 70 into the ground 10 can be adjusted, and by driving the motor 92, The double tube 70 can be moved forward. In other words, the angle setting device 80 using a stepping motor can perform an angle holding operation for holding the outer tube 2 at the insertion angle to the natural ground 10, so that the tunnel cavity 116 of the face 115 having various sizes can be formed. The outer pipe 2 can be inserted into the natural ground 10 from the boundary portion 118 with the inner wall surface 117 toward the natural ground 10 ahead of the face 115, and the outer pipe 2 can be installed in the natural ground 10. Further, the outer tube 2 can be easily installed on the natural ground 10 by the pressing device 90 having a simple configuration including the motor 92, the rack 83, and the pinion 91.

次に、設置方法を説明する。二重管体70を形成して、この二重管体70をラックの上面86に載置する。噴射装置4及び排出装置5を形成する。切羽115に外管2の先端部を挿入するための目印となる挿入穴119を形成する。つまり、押込作業を行う前に、切羽115にコンクリートを吹き付けて切羽115に吹き付けコンクリート層120を形成し、この吹き付けコンクリート層120に外管2の先端部を挿入するための目印となる挿入穴119を形成しておく。このように、切羽115に外管2の先端部を挿入するための挿入穴119を形成しておくことによって、外管2の先端部の位置決め作業を容易にできる。   Next, an installation method will be described. A double tube 70 is formed and this double tube 70 is placed on the top surface 86 of the rack. An injection device 4 and a discharge device 5 are formed. An insertion hole 119 is formed in the face 115 as a mark for inserting the tip of the outer tube 2. That is, before the pushing operation is performed, concrete is sprayed on the face 115 to form the sprayed concrete layer 120 on the face 115, and the insertion hole 119 serving as a mark for inserting the tip of the outer tube 2 into the sprayed concrete layer 120. Is formed. Thus, by forming the insertion hole 119 for inserting the distal end portion of the outer tube 2 in the face 115, the positioning operation of the distal end portion of the outer tube 2 can be facilitated.

そして、架台110を切羽115側に移動する作業、及び、角度設定装置80による外管挿入角設定作業と押圧装置90による内管押圧作業とを行って外管2の先端部を挿入穴119に挿入する。つまり、外管2の先端部を位置決めするための位置決め作業を行う。外管2の先端部を挿入穴119に挿入した後に、押込装置6の押圧装置90を駆動して押込作業を行うとともに、排出装置5による排出作業を行う。この排出作業において、吸引ポンプ65で土砂が吸引されていることを確認した後、又は、確認しながら、噴射装置4により噴射作業を行い、以後、押込作業、排出作業、噴射作業を継続させることで、押圧装置90により二重管体70が押されながら、排出装置5により先端ガイド部材8の内側の泥水が吸引されて排出されることで排土が行われるので、二重管体70が地山10にスムーズに押し込まれて地山10に挿入され、地山10に設置される。
尚、噴射作業は、水が先導ガイド部材8の内側だけで流動して、先導ガイド部材8の刃先14よりも前方の地山10に到達しないように、水量や水圧などの条件を設定して行う。二重管体70が地山10に設置された後、ピニオン91をラック83の後端側に移動させて内管3を外管2の内側からトンネル空洞部116に引き抜く。そして、地山10に設置された外管2の後端開口37から外管2内に直接又はパッカーを用いて地盤改良液を注入することによって、地盤改良液が外管2の貫通孔9を経由して外管2の周囲の地盤に浸透し、これにより、外管2の周囲の地盤が地盤改良される。その後、切羽115を図外の掘削機で掘削する。
Then, the work of moving the gantry 110 to the face 115 side, the outer tube insertion angle setting operation by the angle setting device 80 and the inner tube pressing operation by the pressing device 90 are performed, and the distal end portion of the outer tube 2 is inserted into the insertion hole 119. insert. That is, a positioning operation for positioning the distal end portion of the outer tube 2 is performed. After the distal end portion of the outer tube 2 is inserted into the insertion hole 119, the pressing device 90 of the pressing device 6 is driven to perform the pressing operation, and the discharging operation by the discharging device 5 is performed. In this discharge operation, after confirming that the earth and sand are sucked by the suction pump 65, or while confirming, the injection device 4 performs the injection operation, and thereafter, the pushing operation, the discharge operation, and the injection operation are continued. Thus, since the muddy water inside the tip guide member 8 is sucked and discharged by the discharge device 5 while the double tube 70 is pushed by the pressing device 90, the soil is discharged. It is pushed into the natural ground 10 smoothly, inserted into the natural ground 10, and installed in the natural ground 10.
The injection operation is performed by setting conditions such as the amount of water and water pressure so that the water flows only inside the leading guide member 8 and does not reach the natural ground 10 ahead of the cutting edge 14 of the leading guide member 8. Do. After the double pipe 70 is installed in the natural ground 10, the pinion 91 is moved to the rear end side of the rack 83, and the inner pipe 3 is pulled out from the inner side of the outer pipe 2 to the tunnel cavity 116. Then, by injecting the ground improvement liquid directly into the outer pipe 2 from the rear end opening 37 of the outer pipe 2 installed in the ground 10 or using a packer, the ground improvement liquid passes through the through-hole 9 of the outer pipe 2. It penetrates into the ground around the outer pipe 2 via, thereby improving the ground around the outer pipe 2. Thereafter, the face 115 is excavated with an excavator not shown.

最良の形態1によれば、高価の穿孔ビットを用いることなく、トンネル空洞部116の切羽115におけるトンネル空洞部116の内壁面117との境界部118から切羽115よりも前方の地山10に向けて内壁面117と交差する方向に長尺先受材としての外管2を挿入して当該外管2を地山10中に設置できるので、先受材設置作業のコストを削減できる。
また、最良の形態1によれば、水が先導ガイド部材8の内側だけで流動して、先導ガイド部材8の刃先14よりも前方の地山10に到達しないように、水量や水圧などの条件を設定して噴射作業を行うので、これにより、排出作業においての吸引水量を少なくできるとともに、先導ガイド部材8の内側に取り込まれた土砂を泥水にできるので、排土をスムーズにできる。また、水が先導ガイド部材8の刃先14よりも前方の地山10に達した場合、先導ガイド部材8の刃先14の前方の地山に外管2の無い状態で孔が掘削されたり、先導ガイド部材8の周囲に先導ガイド部材8の管径以上の径の孔が余掘されてしまって、当該孔部分が崩れて当該孔部分の上方の地山が地盤沈下を起こすという問題が生じてしまう。さらに、水が先導ガイド部材8の刃先14よりも前方の地山10への浸透が進行して時間が経過すると、地山10が固くなり、二重管体70が地山10にスムーズに押し込まれないといった問題も生じてしまう。一方、最良の形態1によれば、水が先導ガイド部材8の刃先14よりも前方の地山10に到達しないようにしたので、上述した問題を解消できる。
According to the best mode 1, without using an expensive drill bit, the face 118 of the tunnel cavity 116 is directed from the boundary 118 with the inner wall surface 117 of the tunnel cavity 116 to the ground 10 in front of the face 115. Since the outer tube 2 as a long tip receiving material can be inserted in the direction intersecting the inner wall surface 117 and the outer tube 2 can be installed in the natural ground 10, the cost of the receiving material installation work can be reduced.
Further, according to the best mode 1, conditions such as the amount of water and water pressure prevent water from flowing only inside the leading guide member 8 and not reaching the natural ground 10 ahead of the cutting edge 14 of the leading guide member 8. Therefore, the amount of suction water in the discharge operation can be reduced and the earth and sand taken inside the leading guide member 8 can be made muddy water, so that the soil can be discharged smoothly. Further, when water reaches the natural ground 10 ahead of the cutting edge 14 of the leading guide member 8, a hole is excavated in the natural ground ahead of the cutting edge 14 of the leading guide member 8 without the outer pipe 2, There is a problem in that a hole having a diameter larger than the pipe diameter of the leading guide member 8 is dug around the guide member 8, and the hole portion collapses and the ground above the hole portion causes ground subsidence. End up. Further, when water penetrates into the natural ground 10 ahead of the cutting edge 14 of the leading guide member 8 and time elapses, the natural ground 10 becomes hard and the double tube 70 is smoothly pushed into the natural ground 10. The problem of not being able to occur will also arise. On the other hand, according to the best mode 1, water is prevented from reaching the natural ground 10 in front of the cutting edge 14 of the leading guide member 8, so that the above-described problem can be solved.

最良の形態2
図6に示すような押込装置6aを用いてもよい。押込装置6aは、角度設定装置80と、押圧装置102とを備える。本形態の場合、角度設定装置は、ステッピングモータ82と、載台125と、ステッピングモータ82を制御する制御装置81とを備える。載台125は外管2の地山10への挿入方向に延長するように設けられる。載台125の延長方向における後端部には軸連結部84を備える。軸連結部84には軸連結孔85が設けられる。軸連結孔85は孔の中心線が載台125の上面123と平行でかつ載台125の延長方向と直交する。回転軸87(モータ軸あるいはモータ軸と連結された軸)が軸連結孔85内に通され、この回転軸87の軸心を回転中心として回転軸87と載台125とが一緒に回転可能となるように、軸連結孔85と回転軸87とがキー89により結合される。載台125上には外管2及び内管3を備えた二重管体70が載置される。
Best form 2
A pushing device 6a as shown in FIG. 6 may be used. The pushing device 6 a includes an angle setting device 80 and a pressing device 102. In the case of this embodiment, the angle setting device includes a stepping motor 82, a stage 125, and a control device 81 that controls the stepping motor 82. The mounting table 125 is provided so as to extend in the direction in which the outer tube 2 is inserted into the ground 10. A shaft connecting portion 84 is provided at the rear end portion in the extending direction of the mounting table 125. A shaft connecting hole 85 is provided in the shaft connecting portion 84. The shaft coupling hole 85 has a hole center line parallel to the upper surface 123 of the mounting table 125 and orthogonal to the extending direction of the mounting table 125. A rotating shaft 87 (motor shaft or a shaft connected to the motor shaft) is passed through the shaft connecting hole 85, and the rotating shaft 87 and the mounting table 125 can be rotated together around the axis of the rotating shaft 87 as a rotation center. Thus, the shaft coupling hole 85 and the rotary shaft 87 are coupled by a key 89. On the mounting table 125, a double tube 70 including the outer tube 2 and the inner tube 3 is placed.

押圧装置102は、内管3を挿入方向に押圧する油圧機構103と、油圧機構103を制御する制御装置104と、押圧体94とを備える。油圧機構103は載台125の上面123に設置された搭載台104aに固定されたシリンダ109と、油圧によって外管2の地山10への挿入方向に往復移動可能に設けられたピストン107と、制御装置104とを備える。ピストン107の先端に設けられた取付板108に押圧体94が連結結合される。尚、ステッピングモータ82のケーシング105、回転軸87を回転可能に支持する軸受106、ステッピングモータ82の制御装置81、制御装置104は架台110に固定される。押圧体94の構成は、最良の形態1の押圧体94の構成と同じである。   The pressing device 102 includes a hydraulic mechanism 103 that presses the inner tube 3 in the insertion direction, a control device 104 that controls the hydraulic mechanism 103, and a pressing body 94. The hydraulic mechanism 103 includes a cylinder 109 fixed to the mounting base 104a installed on the upper surface 123 of the mounting base 125, a piston 107 provided so as to reciprocate in the direction of insertion into the ground 10 of the outer pipe 2 by hydraulic pressure, And a control device 104. A pressing body 94 is connected and coupled to a mounting plate 108 provided at the tip of the piston 107. The casing 105 of the stepping motor 82, the bearing 106 that rotatably supports the rotary shaft 87, the control device 81 of the stepping motor 82, and the control device 104 are fixed to the gantry 110. The configuration of the pressing body 94 is the same as the configuration of the pressing body 94 of the best mode 1.

以上の構成によれば、二重管体70を載台に載置して二重管体70の内管3の後端部を保持体100で保持して、かつ、押圧面99と内管3の後端面71とを接触させた状態として、ステッピングモータ82を駆動することによって、二重管体70の地山10への挿入角度を調整できる。そして、制御装置104が油圧機構103を制御して外管2の地山10への挿入方向にピストン107を伸ばすことで二重管体70を地山10に設置する。制御装置104が油圧機構103を制御して挿入方向と逆方向にピストン107を戻すことで内管3を外管2の内側からトンネル空洞部116に引き抜く。油圧機構103を用いた場合、押圧力を制御装置104で制御でき、外管2を容易に地山10に設置することができる。   According to the above configuration, the double tube body 70 is placed on the mounting table, the rear end portion of the inner tube 3 of the double tube body 70 is held by the holding body 100, and the pressing surface 99 and the inner tube are By driving the stepping motor 82 in a state in which the rear end surface 71 of the third tube is in contact with each other, the insertion angle of the double tube 70 into the ground 10 can be adjusted. Then, the control device 104 controls the hydraulic mechanism 103 to extend the piston 107 in the direction in which the outer pipe 2 is inserted into the natural ground 10, thereby installing the double pipe body 70 on the natural ground 10. The control device 104 controls the hydraulic mechanism 103 to return the piston 107 in the direction opposite to the insertion direction, thereby pulling out the inner tube 3 from the inner side of the outer tube 2 to the tunnel cavity 116. When the hydraulic mechanism 103 is used, the pressing force can be controlled by the control device 104, and the outer tube 2 can be easily installed on the natural ground 10.

尚、6m以上のピストンストロークを持つ油圧機構103は特殊装置であるため、例えば、50cm〜1m程度のピストンストロークを持つ油圧機構103を用いて、ピストン107を伸ばして二重管体70を50cm〜1m程度押圧する毎にピストン107を縮退させた後に押圧面99と内管3の後端面71との間にピストン107の力を押圧面99に伝達する伝達材(例えば、後端面71が押圧面99と接触し、先端面が内管3の後端面71と接触する鋼管)を設置すればよい。   Since the hydraulic mechanism 103 having a piston stroke of 6 m or more is a special device, for example, by using the hydraulic mechanism 103 having a piston stroke of about 50 cm to 1 m, the piston 107 is extended and the double tube 70 is made 50 cm to 50 cm. A transmission material that transmits the force of the piston 107 to the pressing surface 99 between the pressing surface 99 and the rear end surface 71 of the inner tube 3 after the piston 107 is retracted every time the pressure is pressed by about 1 m (for example, the rear end surface 71 is the pressing surface). 99 and a steel pipe whose front end surface is in contact with the rear end surface 71 of the inner pipe 3 may be installed.

最良の形態3
図7(a);(b)に示すように、トンネル空洞部116の切羽115におけるトンネル空洞部116の内壁面117とのアーチ状(上半円状)の境界部118から切羽115よりも前方の地山10に向けて内壁面117と交差する方向に長尺な先受材を複数本挿入して設置する場合は、上記アーチ状に対応した半円筒状の外周面126を架台面127として備えた架台128と、この架台面127の周方向に所定間隔を隔てて設けられた複数の押込装置6とを備えた装置を使用すればよい。図7(a)は複数の二重管体70の先端部を挿入穴119に位置決めした状態を示し、図7(b)は複数の二重管体70の地山10に設置した状態を示す。
Best form 3
As shown in FIGS. 7A and 7B, the face 115 of the tunnel cavity 116 has an arch-shaped (upper semicircular) boundary 118 with the inner wall surface 117 of the tunnel cavity 116, and is forward of the face 115. When a plurality of long receiving materials are inserted and installed in the direction intersecting the inner wall surface 117 toward the natural ground 10, the semi-cylindrical outer peripheral surface 126 corresponding to the arch shape is used as the mount surface 127. What is necessary is just to use the apparatus provided with the mount frame 128 with which it equipped, and the several pushing-in apparatus 6 provided in the circumferential direction of this mount surface 127 at predetermined intervals. FIG. 7A shows a state in which the distal end portions of the plurality of double tube bodies 70 are positioned in the insertion holes 119, and FIG. 7B shows a state in which the plurality of double tube bodies 70 are installed in the natural ground 10. .

最良の形態4
図8に示すように、回転軸87の軸心を回転中心としてラック83や載台125の先端側を上下動させる油圧ジャッキのような昇降装置300を用いた角度設定装置を使用してもよい。
Best form 4
As shown in FIG. 8, an angle setting device using an elevating device 300 such as a hydraulic jack that moves the front end side of the rack 83 or the mounting table 125 up and down around the axis of the rotating shaft 87 may be used. .

最良の形態5
最良の形態1乃至4において、外管2は長いので外管2を地山10に押し込む際に外管2が上下左右に振れ動きやすい。外管2を地山10に押し込む際に外管2が上下左右に振れ動いてしまうと、内管3の後端側に加えられた力が外管2の先端側に伝達されにくくなって、外管2の先端側に力をスムーズに伝達できず、外管2を地山10に押し込みにくくなる。
そこで、図9に示すように、外管2を地山10に押し込む際に、外管2の上下左右への動きを規制する規制手段301を用いる。規制手段301は、ラック83や載台125の上に載置された外管2をラック83や載台125の方向に押え込むように外管2の上面を抑えて外管の上方への移動を規制する上規制板302と、外管2の右側に設けられて外管の右側への移動を規制する右規制板303と、外管2の左側に設けられて外管の左側への移動を規制する左規制板304と、外管2の下側への移動を規制する下規制板305として機能するラック83や載台125とにより構成される。この規制手段301を用いることによって、外管2を地山10に押し込む際の外管2の上下左右の振れ動きを防止できるので、地山10中に既に入り込んだ外管2を地山10中で真っ直ぐに進行させることができるとともに、まだ地山10中に入っていない外管2を地山10に真っ直ぐに挿入できる。特に、外管2の長さが長い場合に、地山10に近い位置に規制手段301を設ければ効果的である。
Best form 5
In the best modes 1 to 4, since the outer tube 2 is long, when the outer tube 2 is pushed into the ground 10, the outer tube 2 easily swings up and down and right and left. When the outer tube 2 swings up, down, left and right when the outer tube 2 is pushed into the ground 10, the force applied to the rear end side of the inner tube 3 becomes difficult to be transmitted to the front end side of the outer tube 2, The force cannot be transmitted smoothly to the distal end side of the outer tube 2, and it becomes difficult to push the outer tube 2 into the natural ground 10.
Therefore, as shown in FIG. 9, when the outer tube 2 is pushed into the natural ground 10, a regulating means 301 that regulates the vertical and horizontal movement of the outer tube 2 is used. The restricting means 301 suppresses the upper surface of the outer tube 2 so as to press the outer tube 2 placed on the rack 83 or the mounting table 125 in the direction of the rack 83 or the mounting table 125, and moves the outer tube 2 upward. An upper restricting plate 302 that restricts the movement of the outer tube 2, a right restricting plate 303 that is provided on the right side of the outer tube 2 to restrict the movement of the outer tube to the right side, and a left movement of the outer tube 2 that moves to the left side of the outer tube 2. The left restricting plate 304 that restricts the movement of the outer tube 2 and the rack 83 and the mount 125 that function as the lower restricting plate 305 that restricts the downward movement of the outer tube 2. By using this restricting means 301, it is possible to prevent the outer pipe 2 from swinging up and down and left and right when the outer pipe 2 is pushed into the natural ground 10, so that the outer pipe 2 that has already entered the natural ground 10 is The outer tube 2 that has not yet entered the natural ground 10 can be inserted straight into the natural ground 10. In particular, when the length of the outer tube 2 is long, it is effective to provide the regulating means 301 at a position close to the natural ground 10.

最良の形態6
空気を混入させた水を噴射するようにすれば、空気を混入させない場合と比べて噴射力が同じで水量を少なくできるので、排出作業においての吸引水量を少なくできるとともに、先導ガイド部材8の内側に取り込まれた土砂を泥水にできるので、排土をスムーズにできる。
Best form 6
If water mixed with air is injected, the amount of water can be reduced with the same injection force as compared with the case where air is not mixed. Therefore, the amount of suction water in the discharge operation can be reduced, and the inside of the leading guide member 8 can be reduced. Since the earth and sand taken in can be made into muddy water, the soil can be drained smoothly.

外側長尺管7と別体の先導ガイド部材8を用いずに、外側長尺管7の先端そのものを先鋭な環線状の刃11に形成した構成の外管2としてもよい。この場合、外管2の先端よりも中央寄り側の外管2の内側に、内管3の外管押圧部材26の押圧面40と接触して外管2の先端側の管の内面と内管3の先端側の管の外面との間の間隙を塞ぐ被押圧面を設ければよい。刃11は、必ずしも先鋭な環線状の刃でなくともよい。例えば、外管2の先端が細く形成されたような環線状の刃でもよいし、外管2の先端が鋸刃状に形成された刃でもよい。尚、外管2と内管3と刃11は、断面円形状のものに限らず、断面矩形状、その他の形状のものを用いてもよい。   The leading end of the outer long tube 7 itself may be formed as a sharp ring-shaped blade 11 without using the leading guide member 8 that is separate from the outer long tube 7. In this case, inside the outer tube 2 closer to the center than the distal end of the outer tube 2, the inner surface of the outer tube 2 comes into contact with the inner surface of the outer tube 2 by contacting the pressing surface 40 of the outer tube pressing member 26 of the inner tube 3. What is necessary is just to provide the to-be-pressed surface which plugs up the gap | interval between the outer surfaces of the pipe | tube of the front end side of the pipe | tube 3. The blade 11 is not necessarily a sharp ring-shaped blade. For example, a ring-shaped blade in which the tip of the outer tube 2 is formed thin or a blade in which the tip of the outer tube 2 is formed in a saw blade shape may be used. The outer tube 2, the inner tube 3, and the blade 11 are not limited to those having a circular cross section, but may have a rectangular cross section or other shapes.

内管3の先端に設けられた外管押圧部材26として、外周にねじ部が形成された中央孔付き円形板を用いるとともに、先導ガイド部材8の筒の内面や外管2の内面にねじ部を形成し、これらねじ部をねじ結合してもよい。この場合、外管2を地山10に設置した後に、内管3を回してねじ結合を解除して内管3をトンネル空洞部116に引き抜くことができる。この構成によれば、外管2の先端側の管の内面と内管3の先端側の管の外面との間の間隙を確実に塞ぐことができる。また、内管3と外管2とが一体化された二重管体70を形成できるので、二重管体70の取扱いが容易となる。尚、この構成とした場合、押込作業の際に外管2を押圧することも可能となる。外管2を押す場合は、外管2に水供給ホース51や吸引管68を引き出すための穴や切り欠きを設ければよい。   As the outer tube pressing member 26 provided at the distal end of the inner tube 3, a circular plate with a central hole having a threaded portion formed on the outer periphery is used, and a threaded portion is formed on the inner surface of the tube of the leading guide member 8 and the inner surface of the outer tube 2. And these screw portions may be screwed together. In this case, after the outer tube 2 is installed in the ground 10, the inner tube 3 can be turned to release the screw connection, and the inner tube 3 can be pulled out into the tunnel cavity 116. According to this configuration, it is possible to reliably close the gap between the inner surface of the tube on the distal end side of the outer tube 2 and the outer surface of the tube on the distal end side of the inner tube 3. Moreover, since the double tube 70 in which the inner tube 3 and the outer tube 2 are integrated can be formed, the handling of the double tube 70 becomes easy. In this configuration, it is possible to press the outer tube 2 during the pushing operation. When the outer tube 2 is pushed, a hole or notch for drawing out the water supply hose 51 or the suction tube 68 may be provided in the outer tube 2.

水供給ホース51の先端部を外管押圧部材26の先端面35よりも前方に突出させ、この水供給ホース51の先端開口を噴射ノズル28としてもよい。   The distal end portion of the water supply hose 51 may protrude forward from the distal end surface 35 of the outer tube pressing member 26, and the distal end opening of the water supply hose 51 may be used as the injection nozzle 28.

先受材としての外管2として、例えば6m〜15m程度の長さの鋼管7を使用する場合を説明したが、本発明においては、6m以下の外管や15m以上の外管も使用可能である。   Although the case where the steel pipe 7 having a length of, for example, about 6 m to 15 m is used as the outer pipe 2 as the receiving material has been described, in the present invention, an outer pipe of 6 m or less or an outer pipe of 15 m or more can be used. is there.

先受材設置装置の分解斜視図(最良の形態1)。The disassembled perspective view of a tip receiving material installation apparatus (best form 1). (a)は先受材設置装置の断面図、図2(b)は図2(a)のA−A断面図(最良の形態1)。(A) is sectional drawing of a receiving material installation apparatus, FIG.2 (b) is AA sectional drawing (best form 1) of Fig.2 (a). (a)は押込装置を後方から見た図、(b)は押込装置の側面図(最良の形態1)。(A) is the figure which looked at the pushing apparatus from back, (b) is the side view of a pushing apparatus (best form 1). (a)は二重管体の先端部を切羽に位置決めした状態を示し、(b)は地山に外管を押し込んだ状態を示す図(最良の形態1)。(A) shows the state which positioned the front-end | tip part of a double pipe body to the face, (b) is the figure which shows the state which pushed the outer pipe | tube into the natural ground (best form 1). (a)は二重管体の先端部が挿入穴に位置決めされた状態を拡大して示し、(b)は噴射装置から噴射した水により崩れた地山の泥水を吸引しつつ二重管体を地山へ押し込む状態を拡大して示す図(最良の形態1)。(A) shows an enlarged view of the state where the tip of the double pipe is positioned in the insertion hole, and (b) shows the double pipe while sucking the muddy water of the natural ground broken by the water jetted from the jetting device. The figure which expands and shows the state which pushes into a natural ground (best form 1). (a)は押込装置を後方から見た図、(b)は押込装置の側面図(最良の形態2)。(A) is the figure which looked at the pushing apparatus from back, (b) is the side view of a pushing apparatus (best form 2). (a)は複数の二重管体の先端部を挿入穴に位置決めした状態を示し、(b)は複数の二重管体を地山に設置した状態を示す図(最良の形態3)。(A) shows the state which positioned the front-end | tip part of a some double pipe body in the insertion hole, (b) is the figure which shows the state which installed the some double pipe body in the natural ground (best form 3). 上下動ジャッキを用いた角度設定方法を示す図(最良の形態4)。The figure which shows the angle setting method using an up-and-down movement jack (best form 4). (a)は規制手段を示す斜視図、(b)は規制手段と外管との関係を示す正面図(最良の形態5)。(A) is a perspective view which shows a control means, (b) is a front view which shows the relationship between a control means and an outer tube (best form 5).

符号の説明Explanation of symbols

1 先受材設置装置、2 外管、3 内管、4 噴射装置、6 押込装置、
8 先導ガイド部材、9 貫通孔、11 刃、40 押圧面、42 内部空間、
83 ラック、91 ピニオン、94 押圧体、103 油圧機構、115 切羽、
116 トンネル空洞部、117 内壁面、118 境界部、119 挿入穴、
125 載台、301 規制手段。
1 receiving material installation device, 2 outer tube, 3 inner tube, 4 jetting device, 6 pushing device,
8 Leading guide member, 9 Through hole, 11 blade, 40 Press surface, 42 Internal space,
83 rack, 91 pinion, 94 pressing body, 103 hydraulic mechanism, 115 face,
116 tunnel cavity, 117 inner wall surface, 118 boundary, 119 insertion hole,
125 platform, 301 regulating means.

Claims (7)

トンネル空洞部の切羽におけるトンネル空洞部の内壁面との境界部から切羽よりも前方の地山に向けて内壁面と交差する方向に先受材を挿入して設置する先受材設置方法であって、
内面と外面とに貫通する複数の貫通孔を備えた先受材としての外管の内側に内管を設置して外管の先端に設けられた刃と切羽とを接触させて内管と外管とを一緒に地山に押し込む押込作業と、
外管の後端側から内管と外管との間を経由して外管の先端部の内側に空気を混入させた水を噴射する際に当該水が外管の刃先よりも前方の地山に到達しないように当該水の水量又は水圧を設定して当該水を噴射させる噴射作業と、
地山から外管の先端部の内側に取り込まれた土砂と外管の後端側から内管と外管との間を経由して外管の先端部の内側に噴射された水とが混じり合った泥水を内管の内部空間経由で吸引して内管の外に排出する排出作業と、
押込作業及び排出作業を行うことによって外管を地山に挿入して外管を地山に設置した後に、内管を外管の内側からトンネル空洞部に引き抜く作業とを備え、
排出作業においては、ポンプで土砂が吸引されていることを確認した後、又は、確認しながら噴射作業を行うことを特徴とする先受材設置方法。
This is a tip receiving material installation method in which a tip receiving material is inserted in a direction intersecting the inner wall surface from the boundary between the tunnel cavity face and the inner wall surface of the tunnel cavity toward the ground in front of the face. And
An inner tube is installed inside the outer tube as a receiving material having a plurality of through holes penetrating the inner surface and the outer surface, and the blade provided at the tip of the outer tube is brought into contact with the face, so that the inner tube and the outer surface are in contact with each other. Pushing the tube together into the ground,
When water mixed with air is injected from the rear end side of the outer pipe to the inside of the tip of the outer pipe through the space between the inner pipe and the outer pipe, the water is located in front of the cutting edge of the outer pipe. An injection operation for injecting the water by setting the amount or water pressure of the water so as not to reach the mountain;
The earth and sand taken from the ground to the inside of the tip of the outer tube and the water sprayed from the rear end of the outer tube to the inside of the outer tube through the space between the inner tube and the outer tube are mixed. Discharging the combined mud water through the inner space of the inner pipe and discharging it outside the inner pipe;
After inserting the outer pipe into the natural ground by performing push-in work and discharging work and installing the outer pipe in the natural ground, the inner pipe is pulled out from the inside of the outer pipe to the tunnel cavity, and
In the discharge operation, after confirming that the sediment in the pump are aspirated, or, previously receiving material installation method which is characterized in that the injection work while confirming.
外管を地山に押し込む際に、外管の上下左右への動きを規制する規制手段を用い、規制手段は、外管の地山への挿入方向に延長するように設けられたラックや載台の上に載置された外管をラックや載台の方向に押え込むように外管の上面を抑えて外管の上方への移動を規制する上規制板と、外管の右側に設けられて外管の右側への移動を規制する右規制板と、外管の左側に設けられて外管の左側への移動を規制する左規制板と、外管の下側への移動を規制する下規制板として機能するラックや載台とにより構成されたことを特徴とする請求項1に記載の先受材設置方法。   When the outer tube is pushed into the natural ground, a restricting means for restricting the vertical movement of the outer tube is used, and the restricting means is a rack or mounting provided to extend in the insertion direction of the outer tube into the natural ground. Provided on the right side of the outer tube, and an upper restricting plate that restrains the upper surface of the outer tube so that the outer tube placed on the table is pressed in the direction of the rack or the table, and restricts the upward movement of the outer tube A right restriction plate that restricts movement of the outer pipe to the right side, a left restriction plate that is provided on the left side of the outer pipe and restricts movement of the outer pipe to the left side, and restricts movement of the outer pipe to the lower side. The receiving material installation method according to claim 1, wherein the receiving material installation method is configured by a rack or a platform that functions as a lower regulating plate. トンネル空洞部の切羽におけるトンネル空洞部の内壁面との境界部から切羽よりも前方の地山に向けて内壁面と交差する方向に長尺な先受材を挿入して設置する先受材設置装置であって、
内面と外面とに貫通する複数の貫通孔を備えた先受材としての外管と、
外管の内側に設けられた内管と、
外管の先端に設けられた刃と切羽とを接触させて内管と外管とを一緒に地山に押し込む押込装置と、
空気を混入させた水が外管の刃先よりも前方の地山に到達しないように当該水の水量又は水圧が設定されて当該水を外管の後端側から内管と外管との間を経由させて外管の先端部の内側に噴射する噴射装置と、
地山から外管の先端部の内側に取り込まれた土砂と先端部の内側に噴射された水とが混じり合った泥水を内管の内部空間経由で吸引して内管の外に排出する排出装置とを備え
出装置は、後端部が閉塞され、かつ、外管の後端よりも後方に位置する内管の後端開口に接続された管側接続口と吸引管接続口とがL字流路により連通された接続管と、ポンプと、接続管の吸引管接続口とポンプの吸込口とを繋ぐ吸引管とを備え、内管の後端開口に接続された接続管の後端が押込装置によって押圧されるように構成されたことを特徴とする先受材設置装置。
A receiving material installation in which a long receiving material is inserted in a direction intersecting the inner wall surface from the boundary with the inner wall surface of the tunnel cavity portion toward the ground in front of the working surface at the face of the tunnel cavity portion A device,
An outer tube as a receiving material having a plurality of through holes penetrating the inner surface and the outer surface;
An inner tube provided inside the outer tube;
A pushing device for bringing the blade provided at the tip of the outer tube into contact with the face and pushing the inner tube and the outer tube together into the ground;
The amount of water or the water pressure is set so that the water mixed with air does not reach the ground in front of the cutting edge of the outer pipe, and the water flows between the inner pipe and the outer pipe from the rear end side of the outer pipe. An injection device that injects the inside of the tip of the outer tube via
Discharge that draws out mud mixed with soil and sand taken inside the tip of the outer pipe from the ground and water sprayed inside the tip through the inner space of the inner pipe and discharges it outside the inner pipe With the device ,
Emissions device, the rear end is closed, and the outer tube rear end opening connected to a pipe connecting port and the suction tube connection port and an L-shaped flow path of the inner tube located behind the rear end of the And a suction pipe connecting the suction pipe connection port of the connection pipe and the suction port of the pump, and the rear end of the connection pipe connected to the rear end opening of the inner pipe is a pushing device. The receiving material installation apparatus characterized by being comprised so that it may be pressed by .
内管が押圧部を備え、外管が押圧部と接触する被押圧部を備え、押圧部が、押込装置により押圧されて被押圧部と接触することで外管を挿入方向に押圧するとともに、外管の先端側の管の内面と内管の先端側の管の外面との間の間隙を塞ぐことによって、当該間隙を経由する外管の管の内面と内管の管の外面との間への泥水の浸入を防ぐことを特徴とする請求項3に記載の先受材設置装置。   The inner tube includes a pressing portion, the outer tube includes a pressed portion that contacts the pressing portion, and the pressing portion is pressed by the pressing device to contact the pressed portion and presses the outer tube in the insertion direction. By closing the gap between the inner surface of the tube on the tip side of the outer tube and the outer surface of the tube on the tip side of the inner tube, the inner surface of the tube of the outer tube and the outer surface of the tube of the inner tube passing through the gap The receiving material installation device according to claim 3, wherein muddy water is prevented from entering. 外管の先端部が筒状の先導ガイド部材により形成され、先導ガイド部材の先端の刃が、筒の一端に設けられた環線状の先鋭縁により形成されたことを特徴とする請求項3又は請求項4に記載の先受材設置装置。   The tip of the outer tube is formed by a cylindrical leading guide member, and the blade at the tip of the leading guide member is formed by a ring-shaped sharp edge provided at one end of the tube. The receiving material installation apparatus of Claim 4. 押込装置が、外管の地山への挿入方向に延長するように設けられて外管及び内管を載置するラックと、ラックに噛み合ってラックの延長方向に沿って往復移動するピニオンと、ピニオンの回転に伴って挿入方向に移動して内管を挿入方向に押圧する押圧体とを備えたことを特徴とする請求項3乃至請求項5のいずれか一項に記載の先受材設置装置。   A rack in which the pushing device extends in the insertion direction of the outer tube into the ground, and places the outer tube and the inner tube; a pinion that meshes with the rack and reciprocates along the extending direction of the rack; The receiving material installation according to any one of claims 3 to 5, further comprising a pressing body that moves in the insertion direction along with the rotation of the pinion and presses the inner tube in the insertion direction. apparatus. 押込装置が、外管の地山への挿入方向に延長するように設けられて外管及び内管を載置する載台と、内管を挿入方向に押圧する油圧機構とを備えたことを特徴とする請求項3乃至請求項5のいずれか一項に記載の先受材設置装置。   The pushing device includes a mounting base that is provided so as to extend in the insertion direction of the outer pipe into the ground and places the outer pipe and the inner pipe, and a hydraulic mechanism that presses the inner pipe in the insertion direction. The pre-receiving material installation device according to any one of claims 3 to 5, characterized in that:
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