JP5411030B2 - Penetration screw casing method - Google Patents

Penetration screw casing method Download PDF

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JP5411030B2
JP5411030B2 JP2010054981A JP2010054981A JP5411030B2 JP 5411030 B2 JP5411030 B2 JP 5411030B2 JP 2010054981 A JP2010054981 A JP 2010054981A JP 2010054981 A JP2010054981 A JP 2010054981A JP 5411030 B2 JP5411030 B2 JP 5411030B2
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screw casing
rod
filter
deep hole
screw
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JP2011190567A (en
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則男 大津賀
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株式会社サンリツ
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本発明は、地中に埋設した既設の雨水枡を雨水浸透枡に改修する、浸透スクリューケーシング工法に関する。   The present invention relates to an infiltration screw casing method for repairing an existing rainwater tank buried in the ground to a rainwater infiltration tank.

雨水枡は、宅地や歩道等に降った雨水を溜めるものであり、雨水枡内の雨水は全て排水路へ流出する。
雨水浸透枡は、土中に雨水を浸透させる機能が有るため、排水路への雨水流出量を低減させることができる。
既設の雨水枡を雨水浸透枡へ改修すれば、排水路へ流出する汚濁物質の低減や、冠水防止等が図れる。
The rain gutter collects rain water that has fallen on residential land, sidewalks, etc., and all rain water in the rain gutter drains into the drainage channel.
Since the rainwater infiltration dredging has a function of infiltrating rainwater into the soil, it is possible to reduce the amount of rainwater outflow to the drainage channel.
By renovating an existing rainwater tank to a rainwater infiltration tank, it is possible to reduce pollutants that flow into the drainage channel and prevent flooding.

従来より、既設の雨水枡の底板を回転掘削器具で穿って浸透部材収納穴を形成し、二重構造の浸透部材を浸透部材収納穴内へ配設する工法が知られている(特許文献1参照)。
特許第3932053号公報
2. Description of the Related Art Conventionally, a construction method is known in which a bottom plate of an existing rainwater gutter is pierced with a rotary excavator to form a permeation member accommodation hole, and a dual structure permeation member is disposed in the permeation member accommodation hole (see Patent Document 1). ).
Japanese Patent No. 3932053

上記特許文献1は、下記の課題を有する。
浸透部材が装入可能な浸透部材収納穴を正確に開けるために、精密な回転掘削器具を用意する必要があり、施工コストが高くなる。
ストレーナーのフィルタ材から直接、雨水が土中に浸透する構造であるので目詰まりし易く、短期間でストレーナーを交換する必要がある。
The said patent document 1 has the following subject.
In order to accurately open the permeation member housing hole into which the permeation member can be inserted, it is necessary to prepare a precise rotary excavation tool, which increases the construction cost.
Since rainwater permeates directly into the soil from the filter material of the strainer, clogging easily occurs, and the strainer needs to be replaced in a short period of time.

本発明の目的は、施工コストが安価で、維持管理費が安い、浸透スクリューケーシング工法の提供にある。   An object of the present invention is to provide an osmotic screw casing method with low construction costs and low maintenance costs.

(請求項1について)
地中に埋設した既設の雨水枡を雨水浸透枡に改修する浸透スクリューケーシング工法は、以下の工程で行う。
先部に切削ビットを配設した切削用ロッドを、地表に据え付けた回転掘削機により、既設の雨水枡内を回転降下させ、切削ビットで雨水枡の底板を切削して貫通する浅い空所を底板下方に形成する(切削工程)。
(About claim 1)
The osmotic screw casing method for renovating an existing storm basin buried in the ground to a storm water permeable basin is carried out in the following steps.
Using a rotary excavator installed on the ground surface with a cutting rod with a cutting bit at the tip, the inside of the existing rainwater basin is rotated and lowered, and the bottom plate of the rainwater basin is cut with a cutting bit to form a shallow space. Form below the bottom plate (cutting process).

切削ビットを配設した切削用ロッドを枡外へ搬出した後、ロッド先部へ取り付けた連結具にスクリューケーシングの後端を連結した掘削用ロッドを、回転掘削機により回転降下させ、スクリューケーシングで浅い空所を更に掘り下げ深穴空所を形成する(掘削工程)。このスクリューケーシングは、先端が閉塞し後端が開口した円筒容器の外周に螺旋壁を周設し、容器内に濾過材を配し、容器壁に複数の連通穴を穿設したものである。この掘削工程で、空所をスクリューケーシングで更に掘り下げる際に、円筒容器の外周に周設した螺旋壁により、掘削により生じた掘削土が上方へ上がっていき、底板上に堆積する。   After the cutting rod provided with the cutting bit is carried out of the cage, the excavating rod, in which the rear end of the screw casing is connected to the connecting tool attached to the rod tip, is rotated and lowered by the rotary excavator. The shallow void is further dug to form a deep hole void (excavation process). In this screw casing, a spiral wall is provided around the outer periphery of a cylindrical container whose front end is closed and the rear end is open, a filter medium is provided in the container, and a plurality of communication holes are formed in the container wall. In this excavation process, when the void is further dug down by the screw casing, the excavated soil generated by excavation rises upward and accumulates on the bottom plate by the spiral wall provided around the outer periphery of the cylindrical container.

底板上に堆積した掘削土を枡外へ搬出し、回転掘削機によりロッドを上方へ引き上げ、深穴空所からスクリューケーシングを抜いて退避させ、深穴空所の容積より少ない容量の濾過石を深穴空所内へ投入する(濾過石投入工程)。   Unload the excavated soil accumulated on the bottom plate, lift the rod upward with a rotary excavator, remove the screw casing from the deep hole space, and evacuate it. Insert into the deep hole (filter stone input process).

掘削用ロッドを回転掘削機により回転降下させ、濾過石が入った深穴空所内へスクリューケーシングを押し込む(押込工程)。
押し込む際に、円筒容器の外周に周設した螺旋壁により、深穴空所内の濾過石が螺旋壁に案内されて上方に揚げられ、スクリューケーシング外周に濾過石層が構築される。なお、濾過石が不足していた時は、回転掘削機により掘削用ロッド(スクリューケーシング)を逆回転させ、螺旋壁の機能を利用して濾過石を上方から送り込むことにより、深穴空所−スクリューケーシング間の隙間へ濾過石を補充すれば良い。
The excavation rod is rotated and lowered by a rotary excavator, and the screw casing is pushed into the deep hole space containing the filter stone (indentation process).
When pushing, the filter stone in the deep hole space is guided by the spiral wall by the spiral wall provided around the outer periphery of the cylindrical container, and the filter stone layer is constructed on the outer periphery of the screw casing. When there is a shortage of filter stones, the drilling rod (screw casing) is reversely rotated by a rotary excavator, and the filter stones are fed from above by using the function of the spiral wall. What is necessary is just to replenish a filter stone to the clearance gap between screw casings.

連結具の連結を解除し、スクリューケーシングを深穴空所内に残して掘削用ロッドを枡外へ搬出した後に、スクリューケーシングの開口部に浸透フィルターを取り付ける(フィルター取付工程)。   After releasing the connection of the connector and leaving the screw casing in the deep hole space and carrying the excavation rod out of the cage, an osmotic filter is attached to the opening of the screw casing (filter attachment step).

(請求項2について)
地中に埋設した既設の雨水枡を雨水浸透枡に改修する、浸透スクリューケーシング工法は、以下の工程で行う。
先部に切削ビットを連結したロッドを、地表に据え付けた回転掘削機により回転降下させ、切削ビットで雨水枡の底板を切削して底板下方に浅い空所を形成する(切削工程)。
(About claim 2)
The osmotic screw casing method for renovating an existing stormwater basin buried in the ground to a stormwater infiltration basin is carried out in the following steps.
The rod with the cutting bit connected to the tip is rotated and lowered by a rotary excavator installed on the ground surface, and the bottom plate of the rainwater gutter is cut with the cutting bit to form a shallow void below the bottom plate (cutting process).

回転掘削機によりロッドを上方へ引き上げ、ロッド先部の切削ビットをオーガースクリューと交換し、回転掘削機によりロッドを回転降下させ、オーガースクリューで浅い空所を更に掘り下げ深穴空所を形成する(掘削工程)。なお、浅い空所をオーガースクリューで更に掘り下げる際に、掘削により生じた掘削土が上方へ上がっていき、底板上に堆積する。
堆積した掘削土を雨水枡から搬出する。
The rod is lifted upward by a rotary excavator, the cutting bit at the tip of the rod is replaced with an auger screw, the rod is rotated and lowered by the rotary excavator, and a shallow void is further dug with an auger screw to form a deep hole void ( Excavation process). When the shallow void is further dug down with an auger screw, excavated soil generated by excavation rises upward and accumulates on the bottom plate.
Remove the accumulated excavated soil from the rain gutter.

回転掘削機によりロッドを上方へ引き上げて深穴空所からオーガースクリューを抜き、深穴空所の容積より少ない容量の濾過石を深穴空所内へ投入する(濾過石投入工程)。   The rod is lifted upward by a rotary excavator, the auger screw is pulled out from the deep hole space, and a filter stone having a capacity smaller than that of the deep hole space is inserted into the deep hole space (filter stone charging step).

ロッドおよびオーガースクリューを枡外へ搬出した後に、先部へ取り付けた連結具にスクリューケーシングの後端を連結した押込用ロッドを、回転掘削機により回転降下させ、濾過石が入った深穴空所内へスクリューケーシングを押し込む(押込工程)。このスクリューケーシングは、先端が閉塞し後端が開口した円筒容器の外周に螺旋壁を周設し、容器壁に連通穴を穿設したものである。   After carrying the rod and auger screw out of the cage, the push rod with the rear end of the screw casing connected to the fitting attached to the tip is rotated down by a rotary excavator, and the inside of the deep hole where the filter stone is contained Push the screw casing into (indentation process). In this screw casing, a spiral wall is provided around the outer periphery of a cylindrical container whose front end is closed and its rear end is open, and a communication hole is formed in the container wall.

押し込む際に、円筒容器の外周に周設した螺旋壁により、深穴空所内の濾過石が螺旋壁に案内されて上方に揚げられ、濾過石がスクリューケーシング外周に層状に構築される。なお、濾過石が不足していた時は、押込用ロッドを回転掘削機により逆回転させ、螺旋壁の機能を利用して濾過石を上方から送り込むことにより、深穴空所−スクリューケーシング間の隙間へ濾過石を補充すれば良い。   At the time of pushing in, the filter stone in the deep hole space is guided by the spiral wall by the spiral wall provided around the outer periphery of the cylindrical container and lifted upward, and the filter stone is constructed in a layered manner on the outer periphery of the screw casing. When there is a shortage of filter stones, reverse the rotation of the pushing rod with a rotary excavator and feed the filter stones from above using the function of the spiral wall, so that the space between the deep hole and the screw casing What is necessary is just to replenish a filter stone to a clearance gap.

連結具の連結を解除し、スクリューケーシングを深穴空所内に残して押込用ロッドを枡外へ搬出した後に、スクリューケーシングの開口部に浸透フィルターを取り付ける(フィルター取付工程)。   After releasing the connection of the connector and leaving the screw casing in the deep hole space, the push rod is carried out of the cage, and then an osmotic filter is attached to the opening of the screw casing (filter attachment step).

(請求項3について)
地中に埋設した既設の雨水枡を雨水浸透枡に改修する浸透スクリューケーシング工法は、以下の工程で行う。
先部に切削ビットを配設した切削用ロッドを、地表に据え付けた回転掘削機により、既設の雨水枡内を回転降下させ、切削ビットで雨水枡の底板を切削して貫通する浅い空所を底板下方に形成する(切削工程)。
(Claim 3)
The osmotic screw casing method for renovating an existing storm basin buried in the ground to a storm water permeable basin is carried out in the following steps.
Using a rotary excavator installed on the ground surface with a cutting rod with a cutting bit at the tip, the inside of the existing rainwater basin is rotated and lowered, and the bottom plate of the rainwater basin is cut with a cutting bit to form a shallow space. Form below the bottom plate (cutting process).

切削ビットを配設した切削用ロッドを枡外へ搬出した後、ロッド先部へ取り付けた連結具にスクリューケーシングの後端を連結した掘削用ロッドを、回転掘削機により回転降下させ、スクリューケーシングで浅い空所を更に掘り下げ、深穴空所を形成する(掘削工程)。このスクリューケーシングは、先端が閉塞し後端が開口した円筒容器の外周に螺旋壁を周設し、容器内に濾過材を配し、容器壁に複数の連通穴を穿設したものである。
この掘削工程で、浅い空所をスクリューケーシングで更に掘り下げる際に、円筒容器の外周に周設した螺旋壁により、掘削により生じた掘削土が上方へ上がっていき、底板上に堆積する。
After the cutting rod provided with the cutting bit is carried out of the cage, the excavating rod, in which the rear end of the screw casing is connected to the connecting tool attached to the rod tip, is rotated and lowered by the rotary excavator. The shallow void is further dug down to form a deep hole void (excavation process). In this screw casing, a spiral wall is provided around the outer periphery of a cylindrical container whose front end is closed and the rear end is open, a filter medium is provided in the container, and a plurality of communication holes are formed in the container wall.
In this excavation process, when the shallow void is further dug down by the screw casing, the excavated soil generated by excavation rises upward and accumulates on the bottom plate by the spiral wall provided around the outer periphery of the cylindrical container.

底板上に堆積した掘削土を枡外へ搬出する。
深穴空所とスクリューケーシングとの間の隙間上方へ濾過石を配し、回転掘削機により掘削用ロッド(スクリューケーシング)を逆回転させ、螺旋壁の機能を利用して濾過石を下方へ送り込む(濾過石送込工程)。
The excavated soil accumulated on the bottom plate is transported out of the cage.
Place the filter stone above the gap between the deep hole and the screw casing, rotate the excavating rod (screw casing) in reverse by a rotary excavator, and send the filter stone downward using the function of the spiral wall (Filter stone feeding process).

連結具の連結を解除し、スクリューケーシングを深穴空所内に残して掘削用ロッドを枡外へ搬出した後に、スクリューケーシングの開口部に浸透フィルターを取り付ける(フィルター取付工程)。   After releasing the connection of the connector and leaving the screw casing in the deep hole space and carrying the excavation rod out of the cage, an osmotic filter is attached to the opening of the screw casing (filter attachment step).

(請求項4について)
請求項4のスクリューケーシングは、請求項2に記載の浸透スクリューケーシング工法において、円筒容器内に濾過材を配したものである。
(請求項5について)
請求項1、3、4の何れか1項に記載の浸透スクリューケーシング工法において、スクリューケーシングの円筒容器内には、濾過材を籠内に配した網籠が、籠上部に取り付けたワイヤーを介して装脱可能に収容されている。
雨水浸透枡に改修後、長期間が経過し、スクリューケーシング内の濾過材を交換する際には、スクリューケーシングの開口部に取り付けた浸透フィルターを外した後に、ワイヤーを引き上げ、古い濾過材を網籠から出し、新しい濾過材を網籠に詰め直し、円筒容器内に収納する。
(About claim 4)
A screw casing according to a fourth aspect is the osmotic screw casing construction method according to the second aspect, wherein a filter medium is arranged in a cylindrical container.
(Claim 5)
The penetration screw casing construction method according to any one of claims 1, 3, and 4, wherein a screen cage in which a filtering material is arranged in a cage is provided in a cylindrical container of the screw casing via a wire attached to an upper portion of the cage. And is detachably accommodated.
When replacing the filter material in the screw casing after a long time has passed since the renovation to the rainwater infiltration basin, remove the osmotic filter attached to the opening of the screw casing, pull up the wire, and remove the old filter material. Remove from the jar, repack new filter media into the jar, and store in a cylindrical container.

(請求項1について)
請求項1の浸透スクリューケーシング工法は、以下の利点を有する。
改修に必要な作業時間が短くて済むので、改修コストが安価である。
濾過石が入った深穴空所内へ、スクリューケーシングを回転降下させて押し込む際に、円筒容器の外周に周設した螺旋壁により小さな力で深穴空所内へ押し込むことができる。 また、非回転時(改修完了後)には、スクリューケーシングと濾過石との摩擦が大きいので、スクリューケーシングを押え具で枡底に固定しなくても、スクリューケーシングの枡内への飛び出しを防止できる。
(About claim 1)
The penetration screw casing method according to claim 1 has the following advantages.
Since the work time required for the renovation can be shortened, the renovation cost is low.
When the screw casing is rotated and lowered and pushed into the deep hole space containing the filter stone, it can be pushed into the deep hole space with a small force by the spiral wall provided around the outer periphery of the cylindrical container. Also, when non-rotating (after renovation is complete), the friction between the screw casing and the filter stone is large, preventing the screw casing from popping into the cage without fixing the screw casing to the bottom of the cage with a presser. it can.

スクリューケーシングの外周に濾過石層が構築されるため、枡内の雨水をスクリューケーシングから枡下方の土中へ目詰まりすること無く、長期間、浸透させることができる。 また、スクリューケーシングの円筒容器内に濾過材を配する構造であるので、雨水の濾過性に優れ、濾過材の変形、流出、破損が起き難い。   Since the filter stone layer is constructed on the outer periphery of the screw casing, it is possible to permeate the rainwater in the cage for a long period of time without clogging from the screw casing into the soil below the cage. Further, since the filter medium is arranged in the cylindrical container of the screw casing, the filterability of rainwater is excellent, and deformation, outflow and breakage of the filter medium hardly occur.

(請求項2、4について)
請求項2の浸透スクリューケーシング工法は、以下の利点を有する。
浅い空所を更に掘り下げ深穴空所を形成する際に、オーガースクリューを用いているので、枡下方の地盤が比較的固い場合に、容易に改修作業を行うことができる。
(Claims 2 and 4)
The penetration screw casing method of claim 2 has the following advantages.
Since the auger screw is used when the shallow void is further dug to form the deep hole void, the repair work can be easily performed when the ground below the anchor is relatively hard.

改修に必要な作業時間が短くて済むので、改修コストが安価である。
濾過石が入った深穴空所内へ、スクリューケーシングを回転降下させて押し込む際に、容器外周に周設した螺旋壁により、小さな力で深穴空所内へ押し込むことができる。また、非回転時(改修完了後)には、スクリューケーシングと濾過石との摩擦が大きいので、スクリューケーシングを押え具で枡底に固定しなくても、スクリューケーシングの枡内への飛び出しを防止できる。
ケーシング外周に濾過石層が構築されるため、枡内の雨水をスクリューケーシングから枡下方の土中へ、目詰まりすること無く、長期間、浸透させることができる。
Since the work time required for the renovation can be shortened, the renovation cost is low.
When the screw casing is rotated and lowered into the deep hole space containing the filter stone, it can be pushed into the deep hole space with a small force by the spiral wall provided around the outer periphery of the container. Also, when non-rotating (after renovation is complete), the friction between the screw casing and the filter stone is large, preventing the screw casing from popping into the cage without fixing the screw casing to the bottom of the cage with a presser. it can.
Since the filter stone layer is constructed on the outer periphery of the casing, it is possible to infiltrate rainwater in the cage from the screw casing into the soil below the cage without being clogged for a long period of time.

請求項4の浸透スクリューケーシング工法の場合、スクリューケーシングの円筒容器内に濾過材を配する構造であるので、雨水の濾過性に優れる。なお、濾過材が円筒容器内に配されているので、濾過材の変形、流出、破損が起き難い。   In the case of the osmotic screw casing construction method according to the fourth aspect, the filter medium is arranged in the cylindrical container of the screw casing, so that it is excellent in rainwater filterability. In addition, since the filter medium is arranged in the cylindrical container, the filter medium is unlikely to be deformed, outflowed or damaged.

(請求項3について)
請求項3の浸透スクリューケーシング工法の場合、深穴空所内からスクリューケーシングを上方へ抜く必要がない。また、濾過石の深穴空所内への投入量を予め調べておく必要がない。
よって、改修に必要な作業時間を更に短縮できるので、改修コストを、より一層低減できる。
スクリューケーシングの外周に濾過石層が構築されるため、枡内の雨水をスクリューケーシングから枡下方の土中へ目詰まりすること無く、長期間、浸透させることができる。 また、スクリューケーシングの円筒容器内に濾過材を配する構造であるので、雨水の濾過性に優れ、濾過材の変形、流出、破損が起き難い。
(Claim 3)
In the case of the penetrating screw casing method of claim 3, it is not necessary to pull the screw casing upward from the deep hole space. In addition, it is not necessary to check in advance the input amount of the filter stone into the deep hole space.
Therefore, since the work time required for the repair can be further shortened, the repair cost can be further reduced.
Since the filter stone layer is constructed on the outer periphery of the screw casing, it is possible to permeate the rainwater in the cage for a long period of time without clogging from the screw casing into the soil below the cage. Further, since the filter medium is arranged in the cylindrical container of the screw casing, the filterability of rainwater is excellent, and deformation, outflow and breakage of the filter medium hardly occur.

(請求項5について)
雨水浸透枡に改修後、長期間が経過して浸透性が低下して来た場合には、スクリューケーシング内の濾過材を、以下の様に容易に交換することができる。
スクリューケーシングの開口部に取り付けた浸透フィルターを外す。
ワイヤーを引き上げ、古い濾過材を網籠から出す。
新しい濾過材を網籠に詰め直し、円筒容器内に収納する。
スクリューケーシングの開口部に浸透フィルターを取り付ける。
(Claim 5)
When the permeability has been lowered after a long period of time after renovation to the rainwater infiltration tank, the filter medium in the screw casing can be easily replaced as follows.
Remove the osmotic filter attached to the opening of the screw casing.
Pull up the wire and remove the old filter material from the net.
A new filter medium is repacked in a mesh basket and stored in a cylindrical container.
Install an osmotic filter in the opening of the screw casing.

(a)〜(c)は、実施例1、2に係る切削工程の説明図である。(A)-(c) is explanatory drawing of the cutting process which concerns on Example 1,2. (a)〜(c)は、実施例1に係る掘削工程の説明図である。(A)-(c) is explanatory drawing of the excavation process which concerns on Example 1. FIG. (a)は実施例1、2に係る濾過石投入工程の説明図、(b)、(c)は実施例1、2に係る押込工程の説明図である。(A) is explanatory drawing of the filtration stone injection | throwing-in process which concerns on Example 1, 2, (b), (c) is explanatory drawing of the pushing process which concerns on Example 1,2. (a)、(b)は実施例1、2に係るフィルター取付工程の説明図である。(A), (b) is explanatory drawing of the filter attachment process which concerns on Example 1,2. 実施例1に係るスクリューケーシングの説明図である。It is explanatory drawing of the screw casing which concerns on Example 1. FIG. (a)、(b)は実施例2に係る掘削工程の説明図、(c)は実施例2に係る濾過石投入工程の説明図である。(A), (b) is explanatory drawing of the excavation process which concerns on Example 2, (c) is explanatory drawing of the filter stone injection | throwing-in process which concerns on Example 2. FIG. 実施例2に係るスクリューケーシングの説明図である。It is explanatory drawing of the screw casing which concerns on Example 2. FIG. 実施例1、2に係る回転掘削機の説明図である。It is explanatory drawing of the rotary excavator which concerns on Example 1,2. 実施例1、2に係る切削ビットを螺着した切削用ロッドの説明図である。It is explanatory drawing of the rod for cutting which screwed the cutting bit which concerns on Example 1,2. 実施例1、2に係るスクリューケーシングを掘削用ロッドへ連結する連結具の説明図である。It is explanatory drawing of the coupling tool which connects the screw casing which concerns on Example 1, 2 to the rod for excavation. (a)〜(c)は、実施例3に係る掘削工程の説明図である。(A)-(c) is explanatory drawing of the excavation process which concerns on Example 3. FIG. (a)〜(c)は、実施例3に係る濾過石送込工程の説明図である。(A)-(c) is explanatory drawing of the filtration stone sending process which concerns on Example 3. FIG.

地中に埋設した既設の雨水枡を雨水浸透枡に改修する浸透スクリューケーシング工法は、先端が円錐台状で後端が開口した円筒容器の外周に螺旋壁を周設し、円筒容器内に濾過材を装填し、容器壁に複数の連通穴を穿設したスクリューケーシングを用い、以下の工程で行う。
先部に切削ビットを配設したロッドを、地表に据え付けた回転掘削機により回転降下させ、切削ビットで雨水枡の底板を切削して底板下方に浅い空所を形成する(切削工程)。
The permeation screw casing method, in which an existing rainwater pit buried in the ground is renovated to a rainwater permeation dredge, has a spiral wall around the outer circumference of a cylindrical container with a truncated cone shape at the tip and an open rear end, and is filtered into the cylindrical container. A screw casing in which a material is loaded and a plurality of communication holes are formed in the container wall is used in the following steps.
A rod having a cutting bit disposed at the tip is rotated and lowered by a rotary excavator installed on the ground surface, and the bottom plate of the rain gutter is cut with the cutting bit to form a shallow void below the bottom plate (cutting process).

回転掘削機によりロッドを上方へ引き上げ、ロッド先部の切削ビットをオーガースクリューと交換し、回転掘削機によりロッドを回転降下させ、オーガースクリューで浅い空所を更に掘り下げ深穴空所を形成する(掘削工程)。
回転掘削機によりロッドを上方へ引き上げて深穴空所からオーガースクリューを抜き、深穴空所の容積より少ない容量の濾過石を深穴空所内へ投入する(濾過石投入工程)。
The rod is lifted upward by a rotary excavator, the cutting bit at the tip of the rod is replaced with an auger screw, the rod is rotated and lowered by the rotary excavator, and a shallow void is further dug with an auger screw to form a deep hole void ( Excavation process).
The rod is lifted upward by a rotary excavator, the auger screw is pulled out from the deep hole space, and a filter stone having a capacity smaller than that of the deep hole space is inserted into the deep hole space (filter stone charging step).

ロッドおよびオーガースクリューを枡外へ搬出した後に、ロッド先部へ取り付けた連結具にスクリューケーシングの後端を連結した押込用ロッドを、回転掘削機により回転降下させ、濾過石が入った深穴空所内へスクリューケーシングを押し込む(押込工程)。   After carrying the rod and auger screw out of the cage, the push rod with the rear end of the screw casing connected to the fitting attached to the rod tip is rotated down by a rotary excavator, and a deep hole containing filter stones is inserted. Push the screw casing into the station (push-in process).

連結具の連結を解除し、スクリューケーシングを深穴空所内に残して押込用ロッドを枡外へ搬出した後に、スクリューケーシングの開口部に浸透フィルターを取り付ける(フィルター取付工程)。   After releasing the connection of the connector and leaving the screw casing in the deep hole space, the push rod is carried out of the cage, and then an osmotic filter is attached to the opening of the screw casing (filter attachment step).

[実施例1]
本発明の実施例1(請求項1、5に対応)に係る浸透スクリューケーシング工法を用いた、雨水枡Aの雨水浸透枡Bへ改修を、図1〜図5、図8〜図10に基づいて説明する。 雨水枡Aは、底板11(コンクリート製)と、底板11の端縁から立設する枡壁12(コンクリート製)と、枡壁12下部の取付穴13に接続される流出管(ヒューム管)14と、蓋15(金属製)が嵌め込まれる天板16(コンクリート製)とにより構成され、土中に埋設されている{図1(a)、図4参照}。
この雨水枡Aは、民地や歩道から流入する雨水を一時的に溜めて流出管14へ流すためのものであり、流出管14へ排水された雨水は、排水路を経て河川に流される。
[Example 1]
Based on FIG. 1 to FIG. 5 and FIG. 8 to FIG. 10, the repair of the storm water tank A to the rain water permeable tank B using the osmotic screw casing method according to the first embodiment of the present invention (corresponding to claims 1 and 5). I will explain. The rainwater basin A includes a bottom plate 11 (made of concrete), a heel wall 12 (made of concrete) erected from an edge of the bottom plate 11, and an outflow pipe (fume pipe) 14 connected to a mounting hole 13 below the heel wall 12. And a top plate 16 (made of concrete) into which a lid 15 (made of metal) is fitted and embedded in the soil {see FIG. 1 (a) and FIG. 4}.
The rainwater basin A is for temporarily collecting rainwater flowing in from private areas or sidewalks and flowing it to the outflow pipe 14, and the rainwater drained to the outflow pipe 14 flows into the river through the drainage channel.

この浸透スクリューケーシング工法を用いて改修された雨水浸透枡Bは、貫通穴10が開けられた底板11と、底板11の端縁から立設する枡壁12と、枡壁12下部の取付穴13に接続される流出管14と、蓋15が嵌め込まれる天板16と、上部が貫通穴10に臨む深穴空所64と、深穴空所64内に押し込まれたスクリューケーシング3(ステンレス、樹脂、鋼製)と、スクリューケーシング3の外側に構築された濾過石41の層と、スクリューケーシング3の開口部に取り付けられた浸透フィルター4とを備え、土中に埋設されている{図4(b)参照}。   The rainwater infiltration rod B refurbished using this infiltration screw casing method includes a bottom plate 11 in which a through hole 10 is formed, a trough wall 12 erected from an edge of the bottom plate 11, and a mounting hole 13 at the bottom of the trough wall 12. , The top plate 16 into which the lid 15 is fitted, the deep hole space 64 whose upper part faces the through hole 10, and the screw casing 3 (stainless steel, resin that is pushed into the deep hole space 64 Steel), a layer of filter stone 41 constructed on the outside of the screw casing 3, and a permeation filter 4 attached to the opening of the screw casing 3 and embedded in the soil {FIG. b) Reference}.

この浸透スクリューケーシング工法を用いた、雨水枡Aの雨水浸透枡Bへの改修は、以下の手順で行う。
(切削工程)
先部に切削ビット51を螺着した切削用ロッド52の基部を、地表に据え付けた回転掘削機5の駆動クランプ53に取り付ける{図1(a)参照}。
回転掘削機5(図8参照)を作動させて切削用ロッド52(図9参照)を回転降下させ、切削ビット51の切削刃54で雨水枡Aの底板11を切削して、底板11を貫通する浅い空所63を底板11下方に形成する{図1(b)参照}。なお、61は切削ビット51の切削刃54が切削した部分の底板11のコンクリート板であり、62は土である。
切削ビット51を配設した切削用ロッド52を引き上げ、コンクリート板61および土62を枡外へ撤去すると底板11下方に浅い空所63が形成される{図1(c)参照}。
Using this osmotic screw casing method, the rainwater basin A is repaired into the rainwater permeable basin B according to the following procedure.
(Cutting process)
A base portion of a cutting rod 52 having a cutting bit 51 screwed to a tip portion is attached to a drive clamp 53 of the rotary excavator 5 installed on the ground surface {see FIG. 1 (a)}.
The rotary excavator 5 (see FIG. 8) is operated to rotate and lower the cutting rod 52 (see FIG. 9), and the bottom plate 11 of the storm sewer A is cut by the cutting blade 54 of the cutting bit 51 to penetrate the bottom plate 11. A shallow void 63 is formed below the bottom plate 11 {see FIG. 1 (b)}. In addition, 61 is the concrete board of the bottom board 11 of the part which the cutting blade 54 of the cutting bit 51 cut, and 62 is soil.
When the cutting rod 52 provided with the cutting bit 51 is pulled up and the concrete plate 61 and the soil 62 are removed from the cage, a shallow void 63 is formed below the bottom plate 11 {see FIG. 1 (c)}.

(掘削工程)
切削ビット51を螺着した切削用ロッド52を枡外へ搬出した後、先部に連結具7を固定した掘削用ロッド55の基部を回転掘削機5の駆動クランプ53に取り付ける。つぎに、連結具7の爪71を切欠30へ嵌め込んで掘削用ロッド55へスクリューケーシング3を固定する(図10参照)。
(Drilling process)
After the cutting rod 52 to which the cutting bit 51 is screwed is carried out of the cage, the base of the excavating rod 55 with the connecting tool 7 fixed to the tip is attached to the drive clamp 53 of the rotary excavator 5. Next, the claw 71 of the connector 7 is fitted into the notch 30 to fix the screw casing 3 to the excavation rod 55 (see FIG. 10).

回転掘削機5を作動させ、スクリューケーシング3を固定した掘削用ロッド55を回転降下させ、スクリューケーシング3で浅い空所63を更に掘り下げ深穴空所64を形成する{図2(a)〜(c)参照}。この掘削工程で、浅い空所63をスクリューケーシング3で更に掘り下げる際に、円筒容器の外周に周設した螺旋壁31により、掘削により生じた掘削土60が上方へ上がっていき、底板11上に堆積する。   The rotary excavator 5 is operated, the excavating rod 55 to which the screw casing 3 is fixed is rotated down, and the shallow void 63 is further dug by the screw casing 3 to form the deep hole void 64 {FIG. 2 (a) to ( c) See}. In this excavation process, when the shallow void 63 is further dug down by the screw casing 3, the excavated soil 60 raised by the excavation rises upward by the spiral wall 31 provided around the outer periphery of the cylindrical container, and on the bottom plate 11. accumulate.

スクリューケーシング3は、先端が円錐台状を呈し、切欠30を設けた後端が開口する円筒容器の外周に螺旋壁31を周設し、容器壁に複数の連通穴hを穿設したものである。そして、円筒容器内に、網籠34が、籠上部に取り付けたワイヤーwを介して装脱可能に収容されている(図5参照)。
なお、網籠34内には、網籠内壁に臨む袋状フィルター35と、袋状フィルター35内に詰められる多数の砕石33とからなる濾過材が封入されている。
The screw casing 3 has a truncated cone shape at the tip, a spiral wall 31 is provided around the outer periphery of a cylindrical container having a notch 30 and an open rear end, and a plurality of communication holes h are formed in the container wall. is there. And the mesh basket 34 is accommodated in the cylindrical container so that attachment or detachment is possible via the wire w attached to the top of the basket (refer FIG. 5).
In addition, a filter medium comprising a bag-like filter 35 facing the inner wall of the mesh basket and a large number of crushed stones 33 packed in the bag-like filter 35 is enclosed in the mesh basket 34.

(濾過石投入工程)
回転掘削機5を作動させて掘削用ロッド55を上方へ引き上げ、深穴空所64からスクリューケーシング3を抜いて退避させ、底板11上に堆積した掘削土60を枡外へ搬出し、深穴空所64の容積より少ない容量(深穴空所64の容積−スクリューケーシング3の容積)の濾過石41を深穴空所64内へ投入する{図2(c)、図3(a)参照}。
(Filter stone input process)
The rotary excavator 5 is operated to lift the excavating rod 55 upward, the screw casing 3 is pulled out from the deep hole space 64 and retracted, and the excavated soil 60 accumulated on the bottom plate 11 is carried out of the cage to the deep hole. The filter stone 41 having a capacity smaller than the volume of the void 64 (volume of the deep hole void 64−volume of the screw casing 3) is put into the deep hole void 64 {see FIGS. 2 (c) and 3 (a). }.

(押込工程)
図3(b)に示す様に、回転掘削機5を作動させて掘削用ロッド55を回転降下させ、濾過石41が入った深穴空所64内へスクリューケーシング3を押し込む。押し込む際に、円筒容器の外周に周設した螺旋壁31により、深穴空所64内の濾過石41が螺旋壁31に案内されて上方に揚げられ、スクリューケーシング3の外周に濾過石41の層が構築される{図3(c)参照}。なお、濾過石41が不足している場合は、回転掘削機5を作動させて掘削用ロッド55(スクリューケーシング3)を回転上昇させ、濾過石41を上方から下方へ送り込むことにより、深穴空所64−スクリューケーシング3間の隙間へ補充すれば良い。
(Indentation process)
As shown in FIG. 3 (b), the rotary excavator 5 is operated to rotate and lower the excavation rod 55, and the screw casing 3 is pushed into the deep hole space 64 containing the filter stone 41. At the time of pushing, the filter stone 41 in the deep hole space 64 is guided to the spiral wall 31 by the spiral wall 31 provided around the outer periphery of the cylindrical container, and is lifted upward. Layers are built {see Figure 3 (c)}. If the filter stone 41 is insufficient, the rotary excavator 5 is operated to rotate and lift the excavating rod 55 (screw casing 3), and the filter stone 41 is sent downward from above, so that a deep hole is formed. What is necessary is just to replenish to the clearance gap between the place 64-screw casing 3. FIG.

(フィルター取付工程)
連結具7の爪71を切欠30から外して、連結具7と掘削用ロッド55との締結を解除し、スクリューケーシング3を深穴空所64内に残して掘削用ロッド55を枡外へ搬出する。
続いて、スクリューケーシング3の開口部に浸透フィルター4を嵌め込んで取り付ける{図4(a)参照}。
回転掘削機5を撤収し、蓋15を天板16に嵌め込むと、雨水浸透枡Bが完成する{図4(b)参照}。
(Filter installation process)
The claw 71 of the connector 7 is removed from the notch 30, the fastening of the connector 7 and the excavation rod 55 is released, and the excavation rod 55 is carried out of the cage leaving the screw casing 3 in the deep hole space 64. To do.
Subsequently, the permeation filter 4 is fitted into the opening of the screw casing 3 and attached {see FIG. 4 (a)}.
When the rotary excavator 5 is withdrawn and the lid 15 is fitted into the top plate 16, the rainwater seepage rod B is completed {see FIG. 4 (b)}.

実施例1の浸透スクリューケーシング工法を用いた雨水枡Aの雨水浸透枡Bへ改修方法は、以下の利点を有する。
比較的短い作業時間で、雨水枡Aを雨水浸透枡Bへ改修することができ、改修に伴う工事費が安価である。
The method of refurbishing the rainwater tank A into the rainwater infiltration tank B using the infiltration screw casing method of Example 1 has the following advantages.
The rainwater tank A can be repaired to the rainwater infiltration tank B in a relatively short working time, and the construction cost associated with the repair is low.

図3(b)に示す様に、濾過石41が入った深穴空所64内へ、スクリューケーシング3を回転降下させて押し込む際に、円筒容器外周に螺旋壁31を周設しているので、小さな力で深穴空所64内へ押し込むことができる。
雨水浸透枡Bへ改修が完了して、濾過石41が入った深穴空所64内へスクリューケーシング3が押し込まれていると、スクリューケーシング3と濾過石41との摩擦が大きいので、スクリューケーシング3が枡内へ飛び出さない。つまり、スクリューケーシング3を枡底に固定するための押え具が不要である。
As shown in FIG. 3B, when the screw casing 3 is rotated and lowered into the deep hole space 64 containing the filter stone 41, the spiral wall 31 is provided around the cylindrical container. It can be pushed into the deep hole space 64 with a small force.
If the screw casing 3 is pushed into the deep hole space 64 containing the filter stone 41 after the refurbishment to the rainwater infiltrating rod B, the friction between the screw casing 3 and the filter stone 41 is large. 3 does not jump into the cage. That is, a presser for fixing the screw casing 3 to the bottom of the hook is unnecessary.

スクリューケーシング3の外周に濾過石41の層が構築されるため、枡内の雨水をスクリューケーシング3から枡下方の土中へ、目詰まりすること無く、長期間、浸透させることができる。   Since the layer of the filter stone 41 is constructed on the outer periphery of the screw casing 3, rainwater in the cage can be permeated for a long period of time without clogging from the screw casing 3 into the soil below the cage.

雨水浸透枡Bは、スクリューケーシング3の円筒容器内に、網籠34が、籠上部に取り付けたワイヤーwを介して装脱可能に収容され、網籠34内には、網籠内壁に臨む袋状フィルター35と、袋状フィルター35内に詰められる多数の砕石33とからなる濾過材がが配されている。このため、雨水の濾過性に優れるとともに、濾過材の変形、流出、破損が起き難い。   The rainwater permeation basket B is accommodated in a cylindrical container of the screw casing 3 so that the mesh basket 34 can be detachably attached through a wire w attached to the upper part of the basket, and the bag facing the inner wall of the mesh basket is contained in the mesh basket 34. A filter medium comprising a filter 35 and a large number of crushed stones 33 packed in the bag filter 35 is disposed. For this reason, while being excellent in the filterability of rainwater, a deformation | transformation, outflow, and damage of a filter medium do not occur easily.

雨水枡Aを雨水浸透枡Bへ改修した後、長期間が経過して雨水浸透枡Bの浸透性が低下して来た場合には、スクリューケーシング3内の袋状フィルター35および砕石33を、以下の様に容易に交換することができる。
スクリューケーシング3の開口部に取り付けた浸透フィルター4を取り外す。
ワイヤーwを引き上げ、古い砕石33および袋状フィルター35を網籠34から出す。 新しい砕石33および袋状フィルター35を網籠34に詰め直し、網籠34を円筒容器内に収納する。
スクリューケーシング3の開口部に浸透フィルター4を取り付ける。
After the rainwater basin A has been repaired into the rainwater infiltration basin B, when the permeability of the rainwater infiltration basin B has declined over a long period of time, the bag-like filter 35 and the crushed stone 33 in the screw casing 3 are It can be easily replaced as follows.
The permeation filter 4 attached to the opening of the screw casing 3 is removed.
The wire w is pulled up, and the old crushed stone 33 and the bag-like filter 35 are taken out from the net cage 34. The new crushed stone 33 and the bag-like filter 35 are repacked in the mesh basket 34, and the mesh basket 34 is stored in the cylindrical container.
An osmotic filter 4 is attached to the opening of the screw casing 3.

[実施例2]
つぎに、本発明の実施例2(請求項2、4に対応)に係る、浸透スクリューケーシング工法を用いた、雨水枡Aの雨水浸透枡Cへ改修を、図1、図3、図4、図6〜図10に基づいて説明する。
[Example 2]
Next, the rainwater permeation cage C is modified to the rainwater permeation cage C using the permeation screw casing method according to the second embodiment of the present invention (corresponding to claims 2 and 4). This will be described with reference to FIGS.

雨水枡Aは、実施例1と同様のものである。
浸透スクリューケーシング工法を用いて改修された雨水浸透枡Cは、貫通穴10が開けられた底板11と、底板11の端縁から立設する枡壁12と、枡壁12下部の取付穴13に接続される流出管14と、蓋15が嵌め込まれる天板16と、上部が貫通穴10に臨む深穴空所2と、深穴空所2内に押し込まれたスクリューケーシング3B(ステンレス、樹脂、鋼製)と、スクリューケーシング3Bの外側に構築された濾過石41の層と、スクリューケーシング3Bの開口部に取り付けられた浸透フィルター4とを備え、土中に埋設されている{図4(b)参照}。
The rainwater basket A is the same as that in the first embodiment.
The rainwater infiltrating reed C modified by using the permeating screw casing method is formed in a bottom plate 11 having a through hole 10, a reed wall 12 standing from an edge of the bottom plate 11, and a mounting hole 13 below the reed wall 12. The outlet pipe 14 to be connected, the top plate 16 into which the lid 15 is fitted, the deep hole space 2 whose upper part faces the through hole 10, and the screw casing 3B (stainless steel, resin, Steel), a layer of filter stone 41 constructed on the outside of the screw casing 3B, and an osmotic filter 4 attached to the opening of the screw casing 3B, embedded in the soil {FIG. 4 (b )reference}.

浸透スクリューケーシング工法を用いた、雨水枡Aの雨水浸透枡Cへの改修は、以下の手順で行う。
(切削工程)
先部に切削ビット51を螺着した切削用ロッド52の基部を、地表に据え付けた回転掘削機5の駆動クランプ53に取り付ける{図1(a)参照}。
回転掘削機5を作動させて切削用ロッド52を回転降下させ、切削ビット51の切削刃54で雨水枡Aの底板11を切削して、底板11を貫通する浅い空所63を底板11の下方に形成する{図1(b)参照}。なお、61は切削ビット51の切削刃54が切削した部分の底板11のコンクリート板であり、62は土である。
切削ビット51を螺着した切削用ロッド52を引き上げ、コンクリート板61および土62を枡外へ撤去すると、底板11の下方に浅い空所63が形成される{図1(c)参照}。
Using the osmotic screw casing method, the rainwater basin A is repaired to the stormwater permeable cage C by the following procedure.
(Cutting process)
A base portion of a cutting rod 52 having a cutting bit 51 screwed to a tip portion is attached to a drive clamp 53 of the rotary excavator 5 installed on the ground surface {see FIG. 1 (a)}.
The rotary excavator 5 is operated to rotate and lower the cutting rod 52, and the bottom plate 11 of the rainwater trough A is cut with the cutting blade 54 of the cutting bit 51, and a shallow space 63 penetrating the bottom plate 11 is formed below the bottom plate 11. {Refer to FIG. 1 (b)}. In addition, 61 is the concrete board of the bottom board 11 of the part which the cutting blade 54 of the cutting bit 51 cut, and 62 is soil.
When the cutting rod 52 to which the cutting bit 51 is screwed is pulled up and the concrete plate 61 and the soil 62 are removed from the cage, a shallow void 63 is formed below the bottom plate 11 {see FIG. 1 (c)}.

(掘削工程)
切削用ロッド52の先部から切削ビット51を外してオーガースクリュー8を螺着した後、回転掘削機5を作動させて切削用ロッド52を回転降下させて、オーガースクリュー8で浅い空所63を更に掘り下げ深穴空所64を形成する{図6(a)、(b)参照}。 この掘削工程で、浅い空所63をオーガースクリュー8で更に掘り下げる際に、掘削により生じた掘削土60が上方へ上がっていき、底板11上に堆積する。
(Drilling process)
After removing the cutting bit 51 from the tip of the cutting rod 52 and screwing the auger screw 8, the rotary excavator 5 is operated to rotate and lower the cutting rod 52, and the auger screw 8 forms a shallow space 63. Further, a deep hole cavity 64 is formed {see FIGS. 6A and 6B}. In this excavation process, when the shallow void 63 is further dug down by the auger screw 8, the excavated soil 60 generated by excavation rises upward and accumulates on the bottom plate 11.

(濾過石投入工程)
回転掘削機5を作動させて切削用ロッド52を上方へ引き上げ、深穴空所64からオーガースクリュー8を抜いて退避させ、底板11上に堆積した掘削土60を枡外へ搬出し{図6(c)参照}、深穴空所64の容積より少ない容量(深穴空所64の容積−スクリューケーシング3の容積)の濾過石41を深穴空所64内へ投入する。
(Filter stone input process)
The rotary excavator 5 is operated to lift the cutting rod 52 upward, the auger screw 8 is pulled out from the deep hole space 64, and the excavated soil 60 deposited on the bottom plate 11 is carried out of the cage {FIG. 6 (Refer to (c)}, the filter stone 41 having a capacity smaller than the volume of the deep hole space 64 (volume of the deep hole space 64−volume of the screw casing 3) is put into the deep hole space 64.

図7に示す如く、スクリューケーシング3Bは、先端が円錐台状を呈し、後端が開口した円筒容器の外周に螺旋壁31を周設し、円筒容器内に濾過材を配し、容器壁に複数の連通穴hを穿設したものである。
濾過材は、スクリューケーシング3Bの内壁(約2/3位置迄)に臨む袋状フィルター32と、袋状フィルター32内に詰められる多数の砕石33とからなる。
As shown in FIG. 7, the screw casing 3 </ b> B has a truncated cone shape at the front end, a spiral wall 31 is provided around the outer periphery of the cylindrical container that is open at the rear end, a filter medium is disposed in the cylindrical container, A plurality of communication holes h are formed.
The filter medium includes a bag-like filter 32 facing the inner wall (up to about 2/3 position) of the screw casing 3B, and a large number of crushed stones 33 packed in the bag-like filter 32.

(押込工程)
切削ビット51を螺着した切削用ロッド52を枡外へ搬出した後、先部に連結具7を固定した掘削用ロッド55(以下、第2実施例において押込用ロッド55という、図10参照)の基部を回転掘削機5の駆動クランプ53に取り付ける。つぎに、連結具7の爪71を切欠30へ嵌め込んで押込用ロッド55へスクリューケーシング3Bを固定する{図3(a)参照}。
(Indentation process)
After carrying out the cutting rod 52 screwed with the cutting bit 51 to the outside of the cage, the excavating rod 55 with the connecting tool 7 fixed to the tip (hereinafter referred to as the pushing rod 55 in the second embodiment, see FIG. 10). Is attached to the drive clamp 53 of the rotary excavator 5. Next, the claw 71 of the connector 7 is fitted into the notch 30 to fix the screw casing 3B to the pushing rod 55 {see FIG. 3 (a)}.

回転掘削機5を作動させて押込用ロッド55を回転降下させ、濾過石41が入った深穴空所64内へスクリューケーシング3Bを押し込む。押し込む際に、円筒容器の外周に周設した螺旋壁31により、深穴空所64内の濾過石41が螺旋壁31に案内されて上方に揚げられ、スクリューケーシング3の外周に濾過石41の層が構築される{図3(b)、(c)参照}。なお、濾過石41が不足している場合は、回転掘削機5の駆動クランプ53により押込用ロッド55を回転上昇させ、濾過石41を上方から下方へ送り込むことにより、深穴空所64−スクリューケーシング3間の隙間へ補充すれば良い。   The rotary excavator 5 is operated to rotate and push down the pushing rod 55, and the screw casing 3B is pushed into the deep hole space 64 containing the filter stone 41. At the time of pushing, the filter stone 41 in the deep hole space 64 is guided to the spiral wall 31 by the spiral wall 31 provided around the outer periphery of the cylindrical container, and is lifted upward. Layers are built {see Fig. 3 (b), (c)}. If the filter stone 41 is insufficient, the push rod 55 is rotated and raised by the drive clamp 53 of the rotary excavator 5, and the filter stone 41 is fed downward from above, so that the deep hole void 64-screw What is necessary is just to replenish the clearance gap between the casings 3.

(フィルター取付工程)
連結具7の爪71を切欠30から出して、連結具7と押込用ロッド55との締結を解除し、スクリューケーシング3を深穴空所64内に残して押込用ロッド55を枡外へ搬出する。
続いて、スクリューケーシング3の開口部に浸透フィルター4を嵌め込んで取り付ける{図4(a)参照}。
回転掘削機5を撤収し、蓋15を天板16に嵌め込むと、雨水浸透枡Cが完成する{図4(b)参照}。
(Filter installation process)
The nail | claw 71 of the connector 7 is taken out from the notch 30, the fastening of the connector 7 and the pushing rod 55 is cancelled | released, the screw casing 3 is left in the deep hole space 64, and the pushing rod 55 is carried out to the exterior. To do.
Subsequently, the permeation filter 4 is fitted into the opening of the screw casing 3 and attached {see FIG. 4 (a)}.
When the rotary excavator 5 is withdrawn and the lid 15 is fitted into the top plate 16, the rainwater seepage trough C is completed {see FIG. 4 (b)}.

実施例2の浸透スクリューケーシング工法を用いた雨水枡Aの雨水浸透枡Cへ改修方法は、以下の利点を有する。
比較的短い作業時間で、雨水枡Aを雨水浸透枡Cへ改修することができ、改修に伴う工事費が安価である。
The method of renovating the rainwater trap A to the rainwater penetrating rod C using the penetrating screw casing method of Example 2 has the following advantages.
The rainwater tank A can be repaired to the rainwater infiltration tank C in a relatively short work time, and the construction cost associated with the repair is low.

図3(b)に示す様に、濾過石41が入った深穴空所64内へ、スクリューケーシング3を回転降下させて押し込む際に、スクリューケーシング3の円筒容器外周に周設した螺旋壁31により、小さな力で深穴空所64内へ押し込むことができる。   As shown in FIG. 3 (b), when the screw casing 3 is rotated and lowered into the deep hole space 64 containing the filter stone 41, the spiral wall 31 provided around the outer circumference of the cylindrical container of the screw casing 3. Thus, it can be pushed into the deep hole space 64 with a small force.

雨水浸透枡Cへ改修が完了して、濾過石41が入った深穴空所64内へスクリューケーシング3が押し込まれていると、スクリューケーシング3と濾過石41との摩擦が大きいので、スクリューケーシング3が枡内へ飛び出さない。つまり、スクリューケーシング3Bを枡底に固定するための押え具が不要である。   If the screw casing 3 is pushed into the deep hole space 64 containing the filter stone 41 after the refurbishment to the rainwater permeation cage C, the friction between the screw casing 3 and the filter stone 41 is large. 3 does not jump into the cage. That is, a presser for fixing the screw casing 3B to the bottom of the hook is unnecessary.

スクリューケーシング3Bの外周に濾過石41の層が構築されるため、枡内の雨水をスクリューケーシング3から枡下方の土中へ、目詰まりすること無く、長期間、浸透させることができる。
浅い空所63を更に掘り下げ、深穴空所64を形成する際に、オーガースクリュー8を用いているので、枡下方の地盤が比較的固い場合でも、容易に改修作業を行うことができる。
Since the layer of the filter stone 41 is constructed on the outer periphery of the screw casing 3B, rainwater in the cage can be permeated for a long time without clogging from the screw casing 3 into the soil below the cage.
Since the auger screw 8 is used when the shallow void 63 is further dug down to form the deep hole void 64, the repair work can be easily performed even when the ground below the anchor is relatively hard.

[実施例3]
つぎに、本発明の実施例3(請求項3〜5に対応)に係る、浸透スクリューケーシング工法を用いた、雨水枡Aの雨水浸透枡Dへの改修を、図1、図4、図5、図8〜図12に基づいて説明する。
既設の雨水枡Aは、実施例1と同様のものである。
この浸透スクリューケーシング工法を用いて改修された雨水浸透枡Dは、貫通穴10が開けられた底板11と、底板11の端縁から立設する枡壁12と、枡壁12下部の取付穴13に接続される流出管14と、蓋15が嵌め込まれる天板16と、上部が貫通穴10に臨む深穴空所64と、深穴空所64内に押し込まれたスクリューケーシング3(ステンレス、樹脂、鋼製)と、スクリューケーシング3の外側に構築された濾過石41の層と、スクリューケーシング3の開口部に取り付けられた浸透フィルター4とを備え、土中に埋設されている{図4(b)参照}。
[Example 3]
Next, the modification of the rainwater basin A to the rainwater infiltration basin D using the osmotic screw casing method according to Example 3 (corresponding to claims 3 to 5) of the present invention is shown in FIGS. This will be described with reference to FIGS.
The existing rainwater trough A is the same as that in the first embodiment.
The rainwater infiltration rod D, which has been refurbished using this penetration screw casing method, includes a bottom plate 11 with a through hole 10, a trough wall 12 standing from the edge of the bottom plate 11, and a mounting hole 13 at the bottom of the trough wall 12. , The top plate 16 into which the lid 15 is fitted, the deep hole space 64 whose upper part faces the through hole 10, and the screw casing 3 (stainless steel, resin that is pushed into the deep hole space 64 Steel), a layer of filter stone 41 constructed on the outside of the screw casing 3, and a permeation filter 4 attached to the opening of the screw casing 3 and embedded in the soil {FIG. b) Reference}.

この浸透スクリューケーシング工法を用いた、雨水枡Aの雨水浸透枡Dへの改修は、以下の手順で行う。
(切削工程)
先部に切削ビット51を螺着した切削用ロッド52の基部を、地表に据え付けた回転掘削機5の駆動クランプ53に取り付ける{図1(a)参照}。
回転掘削機5(図8参照)を作動させて切削用ロッド52(図9参照)を回転降下させ、切削ビット51の切削刃54で雨水枡Aの底板11を切削して、底板11を貫通する浅い空所63を底板11下方に形成する{図1(b)参照}。なお、61は切削ビット51の切削刃54が切削した部分の底板11のコンクリート板であり、62は土である。
切削ビット51を配設した切削用ロッド52を引き上げ、コンクリート板61および土62を枡外へ撤去すると底板11下方に浅い空所63が形成される{図1(c)参照}。
Using this osmotic screw casing construction method, the rainwater basin A is modified to the rainwater permeable basin D in the following procedure.
(Cutting process)
A base portion of a cutting rod 52 having a cutting bit 51 screwed to a tip portion is attached to a drive clamp 53 of the rotary excavator 5 installed on the ground surface {see FIG. 1 (a)}.
The rotary excavator 5 (see FIG. 8) is operated to rotate and lower the cutting rod 52 (see FIG. 9), and the bottom plate 11 of the storm sewer A is cut by the cutting blade 54 of the cutting bit 51 to penetrate the bottom plate 11. A shallow void 63 is formed below the bottom plate 11 {see FIG. 1 (b)}. In addition, 61 is the concrete board of the bottom board 11 of the part which the cutting blade 54 of the cutting bit 51 cut, and 62 is soil.
When the cutting rod 52 provided with the cutting bit 51 is pulled up and the concrete plate 61 and the soil 62 are removed from the cage, a shallow void 63 is formed below the bottom plate 11 {see FIG. 1 (c)}.

(掘削工程)
切削ビット51を螺着した切削用ロッド52を枡外へ搬出した後、先部に連結具7を固定した掘削用ロッド55の基部を回転掘削機5の駆動クランプ53に取り付ける。つぎに、連結具7の爪71を切欠30へ嵌め込んで掘削用ロッド55へスクリューケーシング3を固定する(図10参照)。
(Drilling process)
After the cutting rod 52 to which the cutting bit 51 is screwed is carried out of the cage, the base of the excavating rod 55 with the connecting tool 7 fixed to the tip is attached to the drive clamp 53 of the rotary excavator 5. Next, the claw 71 of the connector 7 is fitted into the notch 30 to fix the screw casing 3 to the excavation rod 55 (see FIG. 10).

回転掘削機5を作動させ、スクリューケーシング3を固定した掘削用ロッド55を回転降下させ、スクリューケーシング3で浅い空所63を更に掘り下げ深穴空所64を形成する{図11(a)〜(c)参照}。この掘削工程で、浅い空所63をスクリューケーシング3で更に掘り下げる際に、円筒容器の外周に周設した螺旋壁31により、掘削により生じた掘削土60が上方へ上がっていき、底板11上に堆積する。   The rotary excavator 5 is actuated to rotate and lower the excavation rod 55 to which the screw casing 3 is fixed, and the shallow cavities 63 are further dug by the screw casing 3 to form deep hole cavities 64 {FIG. 11 (a) to ( c) See}. In this excavation process, when the shallow void 63 is further dug down by the screw casing 3, the excavated soil 60 raised by the excavation rises upward by the spiral wall 31 provided around the outer periphery of the cylindrical container, and on the bottom plate 11. accumulate.

スクリューケーシング3は、先端が円錐台状を呈し、切欠30を設けた後端が開口する円筒容器の外周に螺旋壁31を周設し、容器壁に複数の連通穴hを穿設したものである。そして、円筒容器内に、網籠34が、籠上部に取り付けたワイヤーwを介して装脱可能に収容されている(図5参照)。
なお、網籠34内には、網籠内壁に臨む袋状フィルター35と、袋状フィルター35内に詰められる多数の砕石33とからなる濾過材が封入されている。
The screw casing 3 has a truncated cone shape at the tip, a spiral wall 31 is provided around the outer periphery of a cylindrical container having a notch 30 and an open rear end, and a plurality of communication holes h are formed in the container wall. is there. And the mesh basket 34 is accommodated in the cylindrical container so that attachment or detachment is possible via the wire w attached to the top of the basket (refer FIG. 5).
In addition, a filter medium comprising a bag-like filter 35 facing the inner wall of the mesh basket and a large number of crushed stones 33 packed in the bag-like filter 35 is enclosed in the mesh basket 34.

(濾過石送込工程)
底板11上に堆積した掘削土60を枡外へ搬出する{図11(c)参照}。
深穴空所64とスクリューケーシング3との間の隙間上方へ濾過石41を配し、回転掘削機5により掘削用ロッド55(スクリューケーシング3)を逆回転させ、螺旋壁31の機能を利用して濾過石41を下方へ送り込む{図12(a)、(b)、(c)参照}。
(Filter stone feeding process)
The excavated soil 60 accumulated on the bottom plate 11 is carried out of the cage {see FIG. 11 (c)}.
The filter stone 41 is arranged above the gap between the deep hole space 64 and the screw casing 3, and the excavating rod 55 (screw casing 3) is rotated in reverse by the rotary excavator 5, and the function of the spiral wall 31 is used. Then, the filter stone 41 is sent downward {see FIGS. 12A, 12B, and 12C}.

(フィルター取付工程)
連結具7の爪71を切欠30から外して、連結具7と掘削用ロッド55との締結を解除し、スクリューケーシング3を深穴空所64内に残して掘削用ロッド55を枡外へ搬出する。
続いて、スクリューケーシング3の開口部に浸透フィルター4を嵌め込んで取り付ける{図4(a)参照}。
回転掘削機5を撤収し、蓋15を天板16に嵌め込むと、雨水浸透枡Dが完成する{図4(b)参照}。
(Filter installation process)
The claw 71 of the connector 7 is removed from the notch 30, the fastening of the connector 7 and the excavation rod 55 is released, and the excavation rod 55 is carried out of the cage leaving the screw casing 3 in the deep hole space 64. To do.
Subsequently, the permeation filter 4 is fitted into the opening of the screw casing 3 and attached {see FIG. 4 (a)}.
When the rotary excavator 5 is withdrawn and the lid 15 is fitted into the top plate 16, the rainwater seepage rod D is completed {see FIG. 4 (b)}.

実施例3の浸透スクリューケーシング工法を用いた雨水枡Aの雨水浸透枡Dへの改修方法は、以下の利点を有する。
実施例3の浸透スクリューケーシング工法の場合、深穴空所64内からスクリューケーシング3を上方へ抜く必要がない。また、濾過石41の深穴空所64内への投入量を予め調べておく必要がない。
よって、改修に必要な作業時間を更に短縮できるので、改修コストを、より一層低減できる。
The modification method of the rainwater basin A to the rainwater permeation basin D using the osmotic screw casing construction method of Example 3 has the following advantages.
In the case of the penetration screw casing method of the third embodiment, it is not necessary to pull the screw casing 3 upward from the deep hole space 64. Further, it is not necessary to check in advance the amount of the filter stone 41 to be inserted into the deep hole space 64.
Therefore, since the work time required for the repair can be further shortened, the repair cost can be further reduced.

雨水浸透枡Dは、スクリューケーシング3の外周に濾過石41の層が構築されるため、枡内の雨水をスクリューケーシング3から枡下方の土中へ目詰まりすること無く、長期間、浸透させることができる。また、スクリューケーシング3の円筒容器内に濾過材を配する構造であるので、雨水の濾過性に優れ、濾過材の変形、流出、破損が起き難い。   The rainwater permeation dredging D has a layer of filtration stones 41 built on the outer periphery of the screw casing 3, so that the rainwater in the dredging can permeate for a long time without clogging from the screw casing 3 into the soil below the dredging. Can do. Moreover, since the filter medium is arranged in the cylindrical container of the screw casing 3, the filterability of rainwater is excellent, and the filter medium is unlikely to be deformed, outflowed or damaged.

雨水浸透枡Dは、スクリューケーシング3の円筒容器内に、網籠34が、籠上部に取り付けたワイヤーwを介して装脱可能に収容され、網籠34内には、網籠内壁に臨む袋状フィルター35と、袋状フィルター35内に詰められる多数の砕石33とからなる濾過材がが配されている。このため、雨水の濾過性に優れるとともに、濾過材の変形、流出、破損が起き難い。   The rainwater permeation cage D is accommodated in a cylindrical container of the screw casing 3 so that the mesh cage 34 can be detachable via a wire w attached to the upper portion of the cage, and the mesh cage 34 has a bag facing the inner wall of the mesh cage. A filter medium comprising a filter 35 and a large number of crushed stones 33 packed in the bag filter 35 is disposed. For this reason, while being excellent in the filterability of rainwater, a deformation | transformation, outflow, and damage of a filter medium do not occur easily.

雨水枡Aを雨水浸透枡Dへ改修した後、長期間が経過して雨水浸透枡Dの浸透性が低下して来た場合には、スクリューケーシング3内の袋状フィルター35および砕石33を、以下の様に容易に交換することができる。
スクリューケーシング3の開口部に取り付けた浸透フィルター4を取り外す。
ワイヤーwを引き上げ、古い砕石33および袋状フィルター35を網籠34から出す。 新しい砕石33および袋状フィルター35を網籠34に詰め直し、網籠34を円筒容器内に収納する。
スクリューケーシング3の開口部に浸透フィルター4を取り付ける。
After the rainwater basin A has been repaired to the rainwater infiltration basin D, if a long period of time has passed and the permeability of the rainwater infiltration basin D has declined, the bag-like filter 35 and the crushed stone 33 in the screw casing 3 are It can be easily replaced as follows.
The permeation filter 4 attached to the opening of the screw casing 3 is removed.
The wire w is pulled up, and the old crushed stone 33 and the bag-like filter 35 are taken out from the net cage 34. The new crushed stone 33 and the bag-like filter 35 are repacked in the mesh basket 34, and the mesh basket 34 is stored in the cylindrical container.
An osmotic filter 4 is attached to the opening of the screw casing 3.

[変形例1]
実施例1〜3において、スクリューケーシング内の濾過材は、袋状フィルターまたは砕石の何れか一方だけでも良い。
[変形例2]
実施例1、2において、押込工程の時点で、濾過材がスクリューケーシング内へ装填されていなくても良く、押込工程の完了後に、濾過材をスクリューケーシング内へ装填する様にしても良い。
[変形例3]
実施例1〜3において、濾過材は、浸透フィルターと分離していても、一体化していても良い。
[Modification 1]
In Examples 1 to 3, the filter medium in the screw casing may be either a bag-shaped filter or crushed stone.
[Modification 2]
In Examples 1 and 2, the filter medium may not be loaded into the screw casing at the time of the pushing process, and the filter medium may be loaded into the screw casing after the pushing process is completed.
[Modification 3]
In Examples 1 to 3, the filter medium may be separated from or integrated with the permeation filter.

この浸透スクリューケーシング工法を採用すれば、地中に埋設した既設の雨水枡を、短い作業時間で、且つ安価に雨水浸透枡に改修でき、浸透性が長期間、維持できる。   If this osmotic screw casing construction method is adopted, the existing rainwater basin buried in the ground can be repaired to the rainwater permeable basin in a short working time and at a low cost, and the permeability can be maintained for a long time.

A 雨水枡
B、C、D 雨水浸透枡
h 連通穴
w ワイヤー
3、3B スクリューケーシング
4 浸透フィルター
5 回転掘削機
7 連結具
11 底板
31 螺旋壁
33 砕石(濾過材)
35 袋状フィルター(濾過材)
41 濾過石
51 切削ビット
52 切削用ロッド
55 掘削用ロッド、押込用ロッド
63 浅い空所
64 深穴空所
A Rainwater basin B, C, D Rainwater infiltration basin h Communication hole w Wire 3, 3B Screw casing 4 Osmosis filter 5 Rotating excavator 7 Connector 11 Bottom plate 31 Spiral wall 33 Crushed stone (filter material)
35 Bag filter (filter material)
41 Filter stone 51 Cutting bit 52 Cutting rod 55 Drilling rod, pushing rod 63 Shallow void 64 Deep hole void

Claims (5)

先端が閉塞し後端が開口した円筒容器の外周に螺旋壁を周設し、容器内に濾過材を配し、容器壁に複数の連通穴を穿設したスクリューケーシングを用いて、地中に埋設した既設の雨水枡を雨水浸透枡に改修する、浸透スクリューケーシング工法であって、
先部に切削ビットを配設した切削用ロッドを、地表に据え付けた回転掘削機により回転降下させ、前記切削ビットで前記雨水枡の底板を切削して、底板下方に浅い空所を形成する切削工程と、
前記切削ビットを配設した切削用ロッドを枡外へ搬出した後、ロッド先部へ取り付けた連結具に前記スクリューケーシングの後端を連結した掘削用ロッドを、前記回転掘削機により回転降下させ、前記スクリューケーシングで前記浅い空所を更に掘り下げ深穴空所を形成する掘削工程と、
前記回転掘削機により前記掘削用ロッドを上方へ引き上げ、前記深穴空所から前記スクリューケーシングを抜いて退避させ、深穴空所の容積より少ない容量の濾過石を深穴空所内へ投入する濾過石投入工程と、
前記掘削用ロッドを前記回転掘削機により回転降下させ、前記濾過石が入った深穴空所内へ前記スクリューケーシングを押し込む押込工程と、
前記連結具の連結を解除し、前記スクリューケーシングを深穴空所内に残して前記掘削用ロッドを枡外へ搬出した後に、前記スクリューケーシングの開口部に浸透フィルターを取り付けるフィルター取付工程とからなる浸透スクリューケーシング工法。
Using a screw casing with a spiral wall around the outer periphery of a cylindrical container whose front end is closed and whose rear end is open, a filter medium is placed in the container, and a plurality of communication holes are drilled in the container wall, An osmotic screw casing method that renovates an existing stormwater basin into a stormwater infiltration basin,
A cutting rod having a cutting bit disposed at the tip is rotated and lowered by a rotary excavator installed on the surface of the ground, and the bottom plate of the rainwater trough is cut with the cutting bit to form a shallow void below the bottom plate. Process,
After carrying out the cutting rod provided with the cutting bit to the outside of the cage, the excavating rod connected to the rear end of the screw casing to the connecting tool attached to the rod tip is rotated and lowered by the rotary excavator, A drilling step of further drilling the shallow cavity with the screw casing to form a deep hole cavity;
Filtration in which the excavating rod is lifted upward by the rotary excavator, the screw casing is pulled out from the deep hole space and retracted, and a filter stone having a capacity smaller than that of the deep hole space is put into the deep hole space. Stone input process,
A push-in step of rotating the excavation rod with the rotary excavator and pushing the screw casing into a deep hole space containing the filter stone;
A permeation step comprising: a filter attaching step of releasing a connection of the coupling tool, leaving the screw casing in a deep hole space and carrying the excavation rod out of the cage, and attaching a permeation filter to the opening of the screw casing. Screw casing method.
先端が閉塞し後端が開口した円筒容器の外周に螺旋壁を周設し、容器壁に連通穴を穿設したスクリューケーシングを用いて、地中に埋設した既設の雨水枡を雨水浸透枡に改修する、浸透スクリューケーシング工法であって、
先部に切削ビットを連結したロッドを、地表に据え付けた回転掘削機により回転降下させ、前記切削ビットで前記雨水枡の底板を切削して、底板下方に浅い空所を形成する切削工程と、
前記回転掘削機により前記ロッドを上方へ引き上げ、ロッド先部の前記切削ビットをオーガースクリューと交換し、前記回転掘削機により前記ロッドを回転降下させ、前記オーガースクリューで前記浅い空所を更に掘り下げ深穴空所を形成する掘削工程と、
前記回転掘削機により前記ロッドを上方へ引き上げて前記深穴空所から前記オーガースクリューを抜き、前記深穴空所の容積より少ない容量の濾過石を深穴空所内へ投入する濾過石投入工程と、
前記ロッドおよび前記オーガースクリューを枡外へ搬出した後に、ロッド先部へ取り付けた連結具に前記スクリューケーシングの後端を連結した押込用ロッドを、前記回転掘削機により回転降下させ、前記濾過石が入った深穴空所内へ前記スクリューケーシングを押し込む押込工程と、
前記連結具の連結を解除し、前記スクリューケーシングを前記深穴空所内に残して前記押込用ロッドを枡外へ搬出した後に、前記スクリューケーシングの開口部に浸透フィルターを取り付けるフィルター取付工程とからなる浸透スクリューケーシング工法。
Using a screw casing with a spiral wall around the outer circumference of a cylindrical container with a closed end and an open rear end, and a communication hole in the container wall, the existing rainwater tank buried underground is used as a rainwater infiltration tank. It is an improved penetration screw casing method,
A cutting step in which a rod having a cutting bit connected to the tip portion is rotated and lowered by a rotary excavator installed on the ground surface, and the bottom plate of the rainwater trough is cut with the cutting bit to form a shallow void below the bottom plate;
The rod is pulled up by the rotary excavator, the cutting bit at the tip of the rod is replaced with an auger screw, the rod is rotated down by the rotary excavator, and the shallow void is further dug down by the auger screw. A drilling process to form a hole,
A filter stone charging step of pulling up the rod upward by the rotary excavator, pulling out the auger screw from the deep hole space, and charging a filter stone having a capacity smaller than the volume of the deep hole space into the deep hole space; ,
After the rod and the auger screw are carried out of the cage, a push rod in which a rear end of the screw casing is connected to a connector attached to the rod tip is rotated and lowered by the rotary excavator, and the filter stone is A pushing process of pushing the screw casing into the deep hole space,
And a filter mounting step of attaching an osmotic filter to the opening of the screw casing after releasing the connection of the connector and leaving the screw casing in the deep hole space and carrying the pushing rod out of the cage. Penetration screw casing method.
先端が閉塞し後端が開口した円筒容器の外周に螺旋壁を周設し、容器内に濾過材を配し、容器壁に複数の連通穴を穿設したスクリューケーシングを用いて、地中に埋設した既設の雨水枡を雨水浸透枡に改修する、浸透スクリューケーシング工法であって、
先部に切削ビットを配設した切削用ロッドを、地表に据え付けた回転掘削機により回転降下させ、前記切削ビットで前記雨水枡の底板を切削して、底板下方に浅い空所を形成する切削工程と、
前記切削ビットを配設した切削用ロッドを枡外へ搬出した後、ロッド先部へ取り付けた連結具に前記スクリューケーシングの後端を連結した掘削用ロッドを、前記回転掘削機により回転降下させ、前記スクリューケーシングで前記浅い空所を更に掘り下げ深穴空所を形成する掘削工程と、
前記深穴空所と前記スクリューケーシングとの間の隙間上方へ濾過石を配し、前記回転掘削機により前記掘削用ロッドを逆回転させ、前記螺旋壁を利用して前記濾過石を下方へ送り込む濾過石送込工程と、
前記連結具の連結を解除し、前記スクリューケーシングを深穴空所内に残して前記掘削用ロッドを枡外へ搬出した後に、前記スクリューケーシングの開口部に浸透フィルターを取り付けるフィルター取付工程とからなる浸透スクリューケーシング工法。
Using a screw casing with a spiral wall around the outer periphery of a cylindrical container whose front end is closed and whose rear end is open, a filter medium is placed in the container, and a plurality of communication holes are drilled in the container wall, An osmotic screw casing method that renovates an existing stormwater basin into a stormwater infiltration basin,
A cutting rod having a cutting bit disposed at the tip is rotated and lowered by a rotary excavator installed on the surface of the ground, and the bottom plate of the rainwater trough is cut with the cutting bit to form a shallow void below the bottom plate. Process,
After carrying out the cutting rod provided with the cutting bit to the outside of the cage, the excavating rod connected to the rear end of the screw casing to the connecting tool attached to the rod tip is rotated and lowered by the rotary excavator, A drilling step of further drilling the shallow cavity with the screw casing to form a deep hole cavity;
A filter stone is arranged above the gap between the deep hole space and the screw casing, the excavation rod is rotated in reverse by the rotary excavator, and the filter stone is sent downward using the spiral wall. Filtration stone feeding process;
A permeation step comprising: a filter attaching step of releasing a connection of the coupling tool, leaving the screw casing in a deep hole space and carrying the excavation rod out of the cage, and attaching a permeation filter to the opening of the screw casing. Screw casing method.
前記スクリューケーシングの円筒容器内に濾過材を配したことを特徴とする請求項2に記載の浸透スクリューケーシング工法。   The permeating screw casing method according to claim 2, wherein a filter medium is disposed in a cylindrical container of the screw casing. 請求項1、3、4の何れか1項に記載の浸透スクリューケーシング工法において、
前記スクリューケーシングの円筒容器内には、濾過材を籠内に配した網籠が、籠上部に取り付けたワイヤーを介して装脱可能に収容されていることを特徴とする浸透スクリューケーシング工法。
In the penetration screw casing method according to any one of claims 1, 3, and 4,
In the cylindrical casing of the screw casing, a net cage in which a filtering material is arranged in a cage is accommodated in a removable manner via a wire attached to the upper portion of the cage.
JP2010054981A 2010-03-11 2010-03-11 Penetration screw casing method Expired - Fee Related JP5411030B2 (en)

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