JP2005068930A - Pollution diffusion preventive device - Google Patents

Pollution diffusion preventive device Download PDF

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JP2005068930A
JP2005068930A JP2003303447A JP2003303447A JP2005068930A JP 2005068930 A JP2005068930 A JP 2005068930A JP 2003303447 A JP2003303447 A JP 2003303447A JP 2003303447 A JP2003303447 A JP 2003303447A JP 2005068930 A JP2005068930 A JP 2005068930A
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float
pollution
divided
adjacent
prevention film
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JP4214023B2 (en
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Yasuyuki Kosaka
康之 小坂
Katsuhiko Yamada
克彦 山田
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Kaiwa Tec Ltd
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Kaiwa Tec Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a pollution diffusion preventive device easy in handling, improving safety of work, and reducing costs of the work. <P>SOLUTION: This pollution diffusion preventive device 1 has a frame-shaped float part 2, and a pollution preventive film 3 suspended from the whole periphery. The float part 2 can be divided into a plurality in the peripheral direction, and the pollution preventive film 3 is divided with every divided float single body 2a. A joining part 2c is arranged in one end part of the adjacent float single body 2a, and a joining object part 2d capable of freely inserting and extracting the joining part 2c, is arranged in an end part of the corresponding other float single body 2a, and a lap material 3e for blocking up clearance with the adjacent pollution preventive film 3, is respectively installed in both side end parts of the divided respective pollution preventive films 3. The respective lap materials 3e are connected by a connecting rope 4 in the float single body 2a, and is locked on the adjacent float single body 2a or the pollution preventive film 3. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

本発明は、海洋土木工事などで発生した汚濁水による水質汚染の拡大を防止するための汚濁拡散防止装置であって、特に、杭を打込む工事で用いられるものに関する。   The present invention relates to a pollution diffusion preventing apparatus for preventing the spread of water pollution due to polluted water generated in offshore civil engineering work and the like, and more particularly to a device used in construction for driving piles.

従来、港湾・湖・河川等で行なわれる工事で、例えば、ヘドロの浚渫工事や水底の基礎工事(基礎石の投入など)、鋼管杭やコンクリート杭等の打込み工事などの、比較的作業水域の狭い工事において、発生した汚濁水による水質汚染の拡大を防止するため、枠型のフロート部を備えた汚濁拡散防止装置を用いることがある。そのフロート部の全周には汚濁防止膜が吊設されていて、汚濁拡散防止装置は、そのフロート部で杭を打ち込む地点の水域を囲むように設置されるのである。   Conventionally, in constructions carried out in harbors, lakes, rivers, etc., for example, sludge dredging work, water bottom foundation work (such as the introduction of foundation stones), steel pipe piles, concrete piles, etc. In a narrow construction, in order to prevent the spread of water pollution due to the generated polluted water, a pollution diffusion prevention device having a frame-type float part may be used. A pollution prevention film is suspended around the entire periphery of the float part, and the pollution diffusion prevention device is installed so as to surround the water area where the pile is driven in the float part.

このような汚濁拡散防止装置のフロート部は、数本の鋼管を連結して枠状にしたもので、鋼管内の気密性を保つことで浮力を持たせている。そして、汚濁防止膜は、フロート部の下部に全周にわたって設けられており、その下端部にチェーンなどの錘が取付けられ、水流等を受けても流されにくくなっている。このようなフロート部と汚濁防止膜とによって、発生した汚濁水が、汚濁拡散防止装置の内側に滞留するようにし、水質の汚染拡大をくい止めているのである。なお、汚濁拡散防止装置は、漂流しないようにタグボートやクレーン船等の作業船に係留されている(例えば、特許文献1参照)。
特開平7−229162号公報(第2〜3頁)
The float part of such a pollution diffusion preventing device is a frame formed by connecting several steel pipes, and has buoyancy by maintaining the airtightness in the steel pipes. And the pollution prevention film is provided in the lower part of the float part over the perimeter, and weights, such as a chain, are attached to the lower end part, and even if it receives a water flow etc., it is hard to be poured. By such a float part and a pollution prevention film | membrane, the generated polluted water is made to stay inside a pollution diffusion prevention apparatus, and the contamination expansion of water quality is prevented. The pollution diffusion preventing device is moored on a work boat such as a tugboat or a crane ship so as not to drift (see, for example, Patent Document 1).
JP-A-7-229162 (pages 2 to 3)

しかしながら、このような汚濁拡散防止装置を、杭の打込み工事で用いる場合には次のような問題点がある。
1.通常、このような汚濁拡散防止装置のフロート部は、両端にフランジ部を有する鋼管を、ボルトで連結し一体にしたもので、鋼管の各連結部にパッキン等を取付けて鋼管内の気密性を保ち浮力を持たせている。したがって、フロート部は、水面に浮かべた状態では容易に分割することができないので、汚濁拡散防止装置を、別の打込み位置に移動したりする場合には、打込んだ杭にフロート部や汚濁防止膜等が当たらないようにするため、クレーン船などを用いて一旦吊上げなければならない。
However, when such a pollution diffusion preventing device is used in pile driving work, there are the following problems.
1. Normally, the float part of such a pollution diffusion prevention device is a steel pipe having flanges at both ends connected by bolts and integrated, and a packing or the like is attached to each connection part of the steel pipe to improve the airtightness in the steel pipe. Keep buoyancy. Therefore, since the float part cannot be easily divided when it floats on the surface of the water, when moving the pollution diffusion prevention device to another driving position, the float part or pollution prevention is applied to the driven pile. In order not to hit the membrane, it must be lifted once using a crane ship.

このため、汚濁拡散防止装置のような重量物を、風や波の影響を受けやすいクレーン船で吊上げるので、揺れや落下等による事故発生のおそれがある。特に、悪天候下での作業は、より一層そのような事故が生じやすくなる。
2.上述のように汚濁拡散防止装置を吊上げて移動させる場合、そのためだけに、ランニングコストが高いクレーン船を使用しなければならず、工事の規模のわりにコストが高くなってしまい、工事の規模と工事のコストとのバランスが取れないことがある。
For this reason, a heavy object such as a pollution diffusion prevention device is lifted by a crane ship that is easily affected by wind and waves, which may cause an accident due to shaking or dropping. In particular, such accidents are more likely to occur when working in bad weather.
2. As described above, when the pollution prevention device is lifted and moved, a crane ship with a high running cost must be used only for that purpose, and the cost becomes high instead of the construction scale. May not be balanced with the cost of

本発明は、このような問題点を解決するためになされたもので、取り扱いが容易であるとともに、作業の安全性の向上と工事のコストダウンとを図ることができる汚濁拡散防止装置を提供することを目的としている。   The present invention has been made to solve such problems, and provides a pollution diffusion prevention device that is easy to handle and can improve work safety and reduce work costs. The purpose is that.

上記の課題を解決するための本発明の汚濁拡散防止装置は、杭の打込み作業を行う地点の水域を囲むように水面に浮かべて設置される枠型のフロート部と、その全周に吊設される汚濁防止膜とを備えている汚濁拡散防止装置であり、前記フロート部が周方向で複数に分割可能にし、分割されたフロート単体ごとに前記汚濁防止膜を分割する。   The pollution diffusion preventing apparatus of the present invention for solving the above-mentioned problem is a frame-type float unit installed on a water surface so as to surround a water area where a pile driving operation is performed, and suspended around the entire circumference thereof The anti-diffusion device is provided with an anti-contamination membrane, wherein the float portion can be divided into a plurality of pieces in the circumferential direction, and the anti-contamination membrane is divided for each divided float.

そして、隣接した前記フロート単体の一方の端部に結合部を設けるとともに、対応する他方の前記フロート単体の端部には、前記結合部が挿脱自在な被結合部を設け、分割した前記各汚濁防止膜の両側端部にはそれぞれ、隣接する前記汚濁防止膜との隙間を塞ぐラップ材が、前記フロート部の周方向に長さを延長するように取付ける。   And while providing the coupling | bond part in one edge part of the adjacent said float single-piece | unit, the said other float single-piece | unit is provided with the to-be-joined part in which the said coupling | bond part is detachable, and each said divided | segmented A wrap material that closes the gap between the adjacent antifouling films is attached to both end portions of the antifouling film so as to extend the length in the circumferential direction of the float part.

このような前記フロート単体の隣接しているものどうしを、前記結合部と被結合部とを結合した状態で連結索により連結し、前記各ラップ材を、隣接する前記フロート単体若しくはその汚濁防止膜に係止することを特徴としている。   Adjacent ones of the floats are connected to each other by a connecting line in a state where the coupling part and the part to be joined are joined, and each wrap material is joined to the neighboring float alone or its pollution prevention film. It is characterized by being locked to.

このような汚濁拡散防止装置によれば、分割および復元を容易に行なうことができるようになる。つまり、前記各ラップ材を、隣接する前記フロート部若しくはその汚濁防止膜から取外すとともに、前記フロート単体どうしを連結している前記連結索を取外せば、前記結合部と被結合部との結合を外すことができ、前記汚濁拡散防止装置を容易に分割できるのである。   According to such a pollution diffusion preventing apparatus, division and restoration can be easily performed. That is, when each wrap material is removed from the adjacent float part or its anti-pollution film and the connecting cord connecting the floats alone is removed, the connection between the connecting part and the connected part is achieved. It can be removed, and the pollution diffusion preventing device can be easily divided.

また、前記フロート単体どうしを、それらの前記結合部と被結合部とを結合した後に、前記連結索で連結し、前記ラップ部材を、隣接する前記フロート部若しくはその汚濁防止膜に係止すれば、前記汚濁拡散防止膜を容易に復元することができる。しかも、復元された前記汚濁拡散防止装置は、隣接する前記フロート単体どうしのずれが生じにくく、隣接する前記汚濁防止幕どうしの隙間は、前記ラップ材で塞がれているので、発生した汚濁水が外部に漏れにくい。   In addition, after the floats are joined to each other by joining the joining part and the joined part, the linking member is connected to the adjacent float part or its antifouling film. The pollution diffusion preventing film can be easily restored. In addition, the restored pollution diffusion prevention device is less likely to cause a gap between adjacent floats, and the gap between adjacent pollution prevention curtains is closed with the wrapping material. Is difficult to leak outside.

このように、汚濁拡散装置の分割・復元が容易にできるので、杭を打込んだ後に、汚濁拡散防止装置を別の打込み地点の水域へ移動させる場合、分割した状態で移動させれば良く、クレーン船等で吊上げる必要がなくなる。   In this way, since the pollution diffusion device can be easily divided and restored, after moving the pile, when moving the pollution diffusion prevention device to the water area of another driving point, it may be moved in a divided state, There is no need to lift it with a crane ship.

そして、前記被結合部にゴム弾性を持たせるようにすれば、この被結合部がクッションの役割をし、前記フロート部が波浪や風などによって受ける力を、前記被結合部で緩和することができ、前記フロート部にかかる負担を軽減することができる。   If the coupled portion is made to have rubber elasticity, the coupled portion can act as a cushion, and the force received by the float or the wind by the float portion can be reduced by the coupled portion. And the burden on the float portion can be reduced.

また、前記各フロート単体の汚濁防止膜のそれぞれに、その中間部にあって前記フロート単体から同じ距離だけ下がった位置に、前記フロート単体を同じ程度の長さを有する骨部材を設けて、前記各骨部材を前記フロート単体とほぼ平行に配置し、隣接した前記骨部材どうしを連結可能とすることもできる。このようにすれば、前記各フロート単体どうしを連結するとともに、前記各骨部材どうしを連結すれば、前記フロート部の下側に前記骨部材による枠を形成することができ、前記汚濁防止膜の形状を保持しやすくなる。   In addition, each of the float pollution prevention films of each float unit is provided with a bone member having the same length as the float unit at a position that is in the middle portion and is lowered by the same distance from the float unit, Each bone member may be arranged substantially parallel to the float alone so that adjacent bone members can be connected to each other. In this way, when the floats are connected to each other and the bone members are connected to each other, a frame made of the bone members can be formed on the lower side of the float part. It becomes easy to hold the shape.

上述のような手段をもって為される本発明の汚濁拡散防止装置には、次のような効果がある。   The pollution diffusion preventing apparatus of the present invention made with the above-described means has the following effects.

1.汚濁拡散防止装置の分割および復元を容易に行えるので、杭を打込んだあとに装置を移動させる場合、フロート部や汚濁防止膜等を分割して移動させればよく、クレーン船等で装置を吊上げる作業が必要なくなるので、設置作業が簡単になるとともに、作業の安全性をより高めることができる。   1. Since the pollution prevention device can be easily divided and restored, when the device is moved after the pile is driven, it is only necessary to divide and move the float part or the pollution prevention film. Since the lifting work is not necessary, the installation work is simplified and the safety of the work can be further improved.

2.汚濁防止装置を吊上げる作業手順をなくすことができるので、リース料金の割高な大型のクレーン船等を使用しなくても済み、工事にかかるコストを抑えることができる。したがって、工事規模に見合ったコストで工事を行えるようになる。   2. Since the work procedure for lifting the pollution control device can be eliminated, it is not necessary to use a large crane ship with a high lease fee, and the construction cost can be reduced. Therefore, the construction can be performed at a cost corresponding to the construction scale.

3.フロート単体の被結合部を、ゴム弾性を有する筒状体にすれば、フロート部が波浪などから受けた負荷を、筒状体で緩和することができるので、破損しにくく装置を長持ちさせることができる。   3. If the float unit is made of a cylindrical body having rubber elasticity, the load received by the float part from waves and the like can be relieved by the cylindrical body, making it difficult to break and making the device last longer. it can.

4.汚濁防止膜に骨部材を設け、その形状を保持させるようにすれば、汚濁防止膜が水流等に押されて打込み作業中の杭に干渉しにくくなるので、作業をスムーズにすすめることが可能となる。   4). If a bone member is provided on the anti-contamination membrane and its shape is maintained, the anti-contamination membrane will be pushed by the water flow, etc., and will not interfere with the pile being driven in, so the work can be carried out smoothly. Become.

以下に、本発明にかかる汚濁拡散防止装置の実施の形態について、図面1〜7を参照しつつ説明する。   Embodiments of a pollution diffusion preventing apparatus according to the present invention will be described below with reference to FIGS.

図1と2とに示すように、汚濁拡散防止装置1は、主に水面に浮かべて設置される平面視略四角形の枠型のフロート部2と、このフロート部2の全周に吊設されている汚濁防止膜3とから構成されている。
フロート部2は、平面視コの字型の2つのフロート単体2aを、それらの両端部どうしを突き合わせるようにして連結させたものである。各フロート単体2aは、直径約800mmの鋼鉄製の直管と曲管とを用いて組み立てられており、直管と曲管との各端部に設けられているフランジ部どうしを、間にパッキン挟み込んだ状態で、ボルト締結することにより一体としたものである。これらのフロート単体2aは、図2中の部分拡大図に示すように、両端に配置されている直管の開口部をそれぞれ、円板状の蓋2bで塞ぐことにより管内の気密性を保ち浮力を持たせている。
As shown in FIGS. 1 and 2, the pollution diffusion preventing apparatus 1 is suspended in a frame-shaped float portion 2 having a substantially rectangular shape in plan view, which is mainly installed floating on the water surface, and is suspended on the entire periphery of the float portion 2. And a pollution prevention film 3.
The float portion 2 is formed by connecting two float single-pieces 2a having a U-shape in plan view so that both end portions thereof face each other. Each float 2a is assembled using a straight steel pipe and a curved pipe having a diameter of about 800 mm, and the flanges provided at the ends of the straight pipe and the curved pipe are sandwiched between them. In a state of being sandwiched, it is integrated by fastening with bolts. As shown in the partially enlarged view in FIG. 2, these float single bodies 2a have buoyancy while keeping the air tightness in the pipes by closing the openings of the straight pipes arranged at both ends with disc-shaped lids 2b. Is given.

そして、一方のフロート単体2aには、各蓋2bに結合部2cがそれぞれ取付けられている。この結合部2cは、断面円形の短管の一端部にテーパー状の先端部を取付けて先細りの形状としたもので、先細りとなった先端の開口部を円形の板材で塞ぎ、基端部を蓋2bの中央部に溶接したものである。   One float unit 2a has a coupling portion 2c attached to each lid 2b. The coupling portion 2c is a tapered shape by attaching a tapered distal end to one end of a short tube having a circular cross section. The tapered opening is closed by a circular plate and the proximal end is closed. It is welded to the center of the lid 2b.

一方、他方のフロート単体2aにある各蓋2bには、結合部2cを挿脱自在な被結合部2dがそれぞれ取付けられている。これらの被結合部2dは、3本の自動車用タイヤ2eを連ねて円筒状にしたもので、その一端部をボルト止めによって、蓋2bの中央部に固定したものである。さらに、被結合部2dが取付けられているフロート単体2aには、中間部分に配置されている鋼管の側面に、2つの防舷材2rが所定の距離をおいて設けられている。   On the other hand, each lid 2b in the other float unit 2a is attached with a coupled portion 2d into which the coupling portion 2c can be inserted and removed. These coupled portions 2d are formed by connecting three automobile tires 2e into a cylindrical shape, and one end thereof is fixed to the central portion of the lid 2b by bolting. Furthermore, two fenders 2r are provided at a predetermined distance on the side surface of the steel pipe disposed in the middle portion of the float single body 2a to which the coupled portion 2d is attached.

なお、本実施の形態ではフロート単体2aは、複数の鋼管を連結して構成したものであるが、FRP(繊維強化プラスチック)等のプラスチック材料で形成した筒状体を繋げて構成しても良く、この場合フロート単体2aの軽量化を図ることができる。   In the present embodiment, the float unit 2a is configured by connecting a plurality of steel pipes, but may be configured by connecting cylindrical bodies formed of a plastic material such as FRP (fiber reinforced plastic). In this case, the float unit 2a can be reduced in weight.

汚濁防止膜3は、透水性を有するポリエステル製のキャンバスを用いて形成されており、図3に示すように、フロート単体2aごとに分割されている。汚濁防止膜3は、部分拡大図に示すように、上端部にある取付リング3fで、フロート単体2aの上部にある汚濁防止膜用レール2fに取付けられたチェーン2gに、シャックル2hを介して連結されている。この汚濁防止膜用レール2fは鋼鉄製の丸棒を、フロート単体2aの長手方向に沿って配置し、フロート単体2aから突設させたステー2jで支持させたものである。   The pollution prevention film 3 is formed using a water-permeable polyester canvas, and is divided for each float unit 2a as shown in FIG. As shown in the partially enlarged view, the pollution prevention film 3 is connected to a chain 2g attached to the pollution prevention film rail 2f at the upper part of the float unit 2a by a mounting ring 3f at the upper end via a shackle 2h. Has been. The antifouling film rail 2f is a steel round bar disposed along the longitudinal direction of the float unit 2a and supported by a stay 2j protruding from the float unit 2a.

また各汚濁防止膜3は、下端から約1/3のところで上下に分割されており、分割された上側の汚濁防止膜3aと下側の汚濁防止膜3bとは、その間に設けられている骨部材3cを介して連結されている。   Each pollution prevention film 3 is divided up and down about 1/3 from the lower end, and the divided upper pollution prevention film 3a and lower pollution prevention film 3b are provided between the bones. It is connected via a member 3c.

この骨部材3cは、図4に示すように、直径約125mmの鋼鉄製の直管と曲管とを組み合わせて連結し、フロート部2aと同じようなコの字型の形状にしたもので、両端部には連結用のフランジ3hが取付けられている。また、変形しにくくするため、曲管の両端部を直管で繋ぎ補強している。なお、図示はしないが骨部材3cの上側と下側とに、小径のパイプ部材が骨部材3cに沿うように配置されており、この小径のパイプ部材は骨部材3cの外周面に突設した支持部材に固定されている。各汚濁防止膜3a・3bは、上側と下側の小径のパイプ部材にそれぞれ、シャックルで取付られているのである。   As shown in FIG. 4, this bone member 3c is a combination of a straight pipe made of steel having a diameter of about 125 mm and a curved pipe, and is formed into a U-shape similar to the float portion 2a. A flange 3h for connection is attached to both ends. Moreover, in order to make it difficult to deform | transform, the both ends of a curved pipe are connected and reinforced with a straight pipe. Although not shown, a small-diameter pipe member is disposed along the bone member 3c on the upper side and the lower side of the bone member 3c, and the small-diameter pipe member protrudes from the outer peripheral surface of the bone member 3c. It is fixed to the support member. Each of the antifouling films 3a and 3b is attached to the upper and lower small-diameter pipe members by shackles.

下側の汚濁防止膜3bには、その下端部に、全長にわたって重錘用としてチェーン3dが取付けられている。   A chain 3d is attached to the lower pollution preventing film 3b as a weight for the entire length at its lower end.

このような汚濁防止膜3の両側端部にはそれぞれ、縦長の長方形状のラップ材3eがその長辺側の一側端部で取付けられており、汚濁防止膜3はフロート部2の周方向に長さが延長された状態となっている。これらのラップ材3eは、図5に示すように、一方のフロート単体2a用のラップ材3eを、その汚濁防止膜3の内側の面(汚濁拡散防止装置1に囲まれた領域に面した面)に取付けた場合には、他方のフロート単体2a用のラップ材3eは、その汚濁防止膜3の外側に取付けるようにしている。各ラップ材3eは、その上端部に設けられているロープ3gが、他方のフロート単体2aのビット2dに係止されている。そして、下端部には重錘用のチェーン3dがそれぞれ取付けられている。これらのラップ材3eは、汚濁防止膜3と同じ材質の透水性のポリエステル製キャンバスで形成されている。   A longitudinally long rectangular wrapping material 3e is attached to each side end of such a pollution prevention film 3 at one end of the long side, and the pollution prevention film 3 is arranged in the circumferential direction of the float part 2. The length has been extended. As shown in FIG. 5, these wrap materials 3 e are formed by wrapping the wrap material 3 e for one float unit 2 a on the inner surface of the pollution prevention film 3 (the face facing the region surrounded by the pollution diffusion prevention device 1). ) Is attached to the outside of the antifouling film 3. Each wrap material 3e has a rope 3g provided at the upper end thereof locked to a bit 2d of the other float unit 2a. A weight chain 3d is attached to the lower end portion. These wrap materials 3 e are formed of a water-permeable polyester canvas made of the same material as the pollution prevention film 3.

また、各フロート単体2aの上部には、全長にわたって作業用の手摺付の歩廊2kが取付けられており、4台のウインチ2nが所定の間隔で設置されている。各ウインチ2nから鉛直方向に送り出されたワイヤー2pの先端部は、骨部材3cに連結されているので、ウインチ2nを駆動してワイヤー2pを巻き上げれば、汚濁防止膜3を上昇させることができる。   Further, a walkway 2k with a handrail for work is attached to the upper part of each float 2a, and four winches 2n are installed at predetermined intervals. Since the tip of the wire 2p sent out from each winch 2n in the vertical direction is connected to the bone member 3c, the anti-contamination film 3 can be raised by driving the winch 2n to wind up the wire 2p. .

各フロート単体2aの結合部2cまたは被結合部2d付近の上部にはそれぞれ、直径約200mmの鋼管製のビット2qが設けられている。このビット2qは、部分拡大図に示すように、下端部がフロート単体2aの上部に溶接されており、上端部にビット2qの直径よりも大径の円板状の抜け止めが取付けられている。   A bit 2q made of a steel pipe having a diameter of about 200 mm is provided on the upper part of each float unit 2a near the coupling part 2c or the coupled part 2d. As shown in the partial enlarged view, the lower end of the bit 2q is welded to the upper part of the float unit 2a, and a disc-shaped retaining member having a diameter larger than the diameter of the bit 2q is attached to the upper end. .

次に、このような汚濁拡散防止装置1を、杭を打込む地点の水域に設置する方法について説明する。   Next, a method for installing such a pollution diffusion preventing device 1 in a water area where a pile is driven will be described.

まず、2つのフロート単体2aを、杭を打込む作業を行う水域までタクボートで曳航する。その際、フロート単体2aに設置されているウインチ2nのワイヤー2pを巻揚げ、汚濁防止膜3の下端部を水底から離しておくと、汚濁防止膜3が水底の障害物等に引掛ったりすることなくスムーズに曳航することができる。   First, the two float single bodies 2a are towed by a tach boat to the water area where the work of driving piles is performed. At that time, if the wire 2p of the winch 2n installed in the float single body 2a is wound up and the lower end portion of the pollution prevention film 3 is separated from the bottom of the water, the pollution prevention film 3 is caught on an obstacle or the like on the bottom of the water. It can be towed smoothly without any problems.

そして、図6−1(a)に示すように、被結合部2dのある一方のフロート単体2aを、被結合部2dを前方に向けた状態で、打込み地点の水域に停泊させている杭打船Sの船首にロープ等で係留する。また、結合部2cのあるフロート単体2aを、その結合部2cが、杭打船Sに係留されているフロート単体2aの被結合部2dに対向するようにして配置する。   Then, as shown in FIG. 6-1 (a), one float unit 2a having the coupled portion 2d is anchored in the water area of the driving point with the coupled portion 2d facing forward. Moored with rope etc. at the bow of Ship S. Further, the float single unit 2a having the coupling part 2c is arranged so that the coupling part 2c faces the coupled part 2d of the float single unit 2a moored to the pile driving boat S.

次に、図6−1(b)のように、作業者が小型艇(図示せず)などに乗って、杭打船Sのデッキの左舷側と右舷側とに設置されているウインチS1のワイヤーS2をそれぞれ前方に向かって引き出し、係留されているフロート単体2aにあるビット2qに引っ掛けた後、他方のフロート単体2aのビット2qにそれぞれ巻き付け固定する。その際、各ワイヤーS1は、他方のフロート単体2aにある反対側のビット2qに固定するので、ワイヤーS1はクロスした状態となる。   Next, as shown in FIG. 6-1 (b), an operator rides on a small boat (not shown) and the like of the winch S1 installed on the port side and the starboard side of the deck of the pile driving boat S. The wires S2 are each pulled out forward, hooked on the bit 2q in the float unit 2a that is moored, and then wound around and fixed to the bit 2q of the other float unit 2a. At that time, each wire S1 is fixed to the opposite bit 2q in the other float unit 2a, so that the wire S1 is in a crossed state.

このように、2本のワイヤーS1をクロスさせた状態にしておけば、ワイヤーS1を巻き取って他方のフロート単体2aを引き寄せる際、そのフロート単体2aを横方向へ移動させやすくなり、左右の位置合わせが簡単に行えるようになる。   In this way, if the two wires S1 are crossed, when the wire S1 is wound up and the other float single body 2a is drawn, it becomes easier to move the float single body 2a in the horizontal direction, Matching can be done easily.

そして、図6−2(c)のように、ウインチS1を駆動してワイヤーS1を巻き取り、他方のフロート単体2aを、横方向の位置合わせをしつつ徐々に引き寄せ、その結合部2cを、係留されているフロート単体2aの被結合部2dに結合する。その状態で、両フロート単体2aのビット2qどうしを、ロープなどの連結索4で繋ぐことにより、フロート単体2aどうしを連結する。この作業が終了すれば、各ワイヤーS1をビット2qから外しウインチS1に巻き戻すとともに、各フロート単体2aにあるウインチ2nを駆動して、汚濁防止膜3の下端部を水底まで下げる。   Then, as shown in FIG. 6-2 (c), the winch S1 is driven to wind the wire S1, and the other float unit 2a is gradually drawn while being aligned in the lateral direction, and the coupling portion 2c is It couple | bonds with the to-be-joined part 2d of the float single body 2a moored. In this state, the floats 2a are connected to each other by connecting the bits 2q of the two floats 2a with a connecting cable 4 such as a rope. When this operation is completed, each wire S1 is removed from the bit 2q and wound back to the winch S1, and the winch 2n in each float unit 2a is driven to lower the lower end portion of the pollution prevention film 3 to the bottom of the water.

それからダイバーを潜らせて、各汚濁防止膜3にある骨部材3cの端部に設けられているフランジ3hどうしをボルト締結し、汚濁防止膜3の形状を保持するための枠を骨部材3cで構成する。その後、各汚濁防止膜3に取付られているラップ材3eのロープ3gを、反対側のフロート単体2aのビット2qにそれぞれ結びつける。   Then, the diver is submerged, and the flanges 3h provided at the ends of the bone members 3c in each pollution prevention film 3 are bolted together, and a frame for holding the shape of the pollution prevention film 3 is formed by the bone members 3c. Constitute. Thereafter, the rope 3g of the wrapping material 3e attached to each pollution prevention film 3 is tied to the bit 2q of the float single body 2a on the opposite side.

このようにして汚濁拡散防止装置1を、杭を打込む地点の水域に設置した後、図6−2(d)のように、杭打船Sで杭P打ちの作業を行なう。作業中に発生した汚濁水は、フロート部2や水底Bまで設けられている汚濁防止膜3によって、汚濁拡散防止装置1の内側に留められ、装置の外側へ広く拡散しないようになっている。また、汚濁防止膜3どうしの隙間はラップ材3eによって塞がされているので、汚濁水が外側へ漏れにくくなっている。作業中の汚濁防止膜3は、その中間部に枠状の骨部材3cが設けられているため、横から水流を受けた場合でも、平面視四角形の形状が保持され、汚濁防止膜3が杭などに干渉しにくくなるので作業がしやすい。   Thus, after installing the pollution diffusion prevention apparatus 1 in the water area where the pile is driven, the pile driving operation is performed by the pile driving ship S as shown in FIG. 6-2 (d). The polluted water generated during the work is kept inside the pollution diffusion preventing apparatus 1 by the pollution preventing film 3 provided up to the float part 2 and the bottom B, so that it does not diffuse widely outside the apparatus. Moreover, since the clearance gap between the pollution prevention films | membranes 3 is block | closed by the wrap material 3e, it is hard to leak polluted water outside. Since the anti-pollution film 3 during work is provided with a frame-like bone member 3c at the middle part thereof, even when a water flow is received from the side, the rectangular shape in plan view is maintained, and the anti-pollution film 3 is piled up. It is easy to work because it is less likely to interfere with etc.

杭の打込み作業が終了すれば、ラップ材3eのロープ3gを外すとともに、フロート単体2aや骨部材3cなどの連結を外し、汚濁拡散防止装置1を2つに分割する。そして、分割した汚濁拡散防止装置1を順番にタグボートTBで曳航し、図6−3(e)に示すように、杭を打込むの別の地点の水域へ移動させるのである。このように、汚濁拡散防止装置1を2つに分割して移動させることができるので、クレーン船等で吊上げなくても、打込んだ杭を簡単に避けることができる。   When the pile driving operation is completed, the rope 3g of the wrapping material 3e is removed, and the float unit 2a, the bone member 3c, and the like are disconnected, and the pollution diffusion preventing apparatus 1 is divided into two. And the divided pollution diffusion prevention apparatus 1 is towed in order by the tugboat TB, and as shown to FIG. 6-3 (e), it moves to the water area of another point which drives a pile. Thus, since the pollution diffusion prevention apparatus 1 can be divided and moved, it is possible to easily avoid piles that have been driven in without being lifted by a crane ship or the like.

なお、図7のように、フロート単体2aの各ビット2qの付近に、ローラ式のフェアリーダ(導索器)2tを設けておけば、フロート単体2aどうしの連結を、より楽に行なうことが可能となる。つまり、杭打船SのウインチS1のワイヤーS2をそれぞれ、ビット2qの代わりにフェアリーダ2tのローラ2uを介するようにすれば、ワイヤーS2の巻き取りがスムーズになるからである。また、ビット2qやワイヤーS2が傷みにくいという利点もある。   As shown in FIG. 7, if a roller-type fair leader (conductor) 2t is provided in the vicinity of each bit 2q of the float unit 2a, the float units 2a can be connected more easily. It becomes. That is, if the wire S2 of the winch S1 of the pile driving boat S is respectively passed through the roller 2u of the fair leader 2t instead of the bit 2q, the winding of the wire S2 becomes smooth. There is also an advantage that the bit 2q and the wire S2 are hardly damaged.

汚濁拡散防止装置の側面図である。It is a side view of a pollution diffusion prevention device. 汚濁拡散防止装置の平面図である。It is a top view of a pollution diffusion prevention device. 汚濁拡散防止装置の別の方向から見た側面図である。It is the side view seen from another direction of a pollution diffusion prevention device. 分割された各汚濁防止膜に取付けられている骨部材の平面図である。It is a top view of the bone member attached to each division | segmentation antifouling film | membrane. フロート単体どうしの連結部分の拡大図である。It is an enlarged view of the connection part of the float simple substance. (a)は汚濁拡散防止装置を2つに分割して、杭を打込む地点の水域に曳航し、分割した汚濁拡散防止装置の一方を、杭打船に係留した状態を示す平面図である。(b)は分割した汚濁拡散防止装置を連結する作業状態を示した平面図である。(A) It is a top view which shows the state which divided the pollution diffusion prevention apparatus into two, towed to the water area of the point which drives a pile, and moored one side of the divided pollution diffusion prevention apparatus to the pile driving ship. . (B) is the top view which showed the operation | working state which connects the divided | segmented pollution diffusion prevention apparatus. (c)は汚濁拡散防止装置の連結状態を示す平面図であり、(d)は杭打ち作業を行なっている状態を示す側面図である。(C) is a top view which shows the connection state of a pollution spreading | diffusion prevention apparatus, (d) is a side view which shows the state which is performing the pile driving operation. (e)汚濁拡散防止装置を、別の杭を打込む地点の水域に移動させた状態を示す平面図である。(E) It is a top view which shows the state which moved the pollution diffusion prevention apparatus to the water area of the point which drives another pile. フェアリーダにワイヤーを掛けた状態の平面図である。It is a top view in the state where a wire was hung on the fair leader.

符号の説明Explanation of symbols

1 汚濁拡散防止装置
2 フロート部
2a フロート単体
2b 結合部
2c 被結合部
3 汚濁防止膜
3c 骨部材
4 連結索
DESCRIPTION OF SYMBOLS 1 Pollution diffusion prevention apparatus 2 Float part 2a Float simple substance 2b Joint part 2c Coupled part 3 Pollution prevention film 3c Bone member 4 Connecting cable

Claims (3)

杭の打込み作業を行なう地点の水域を囲むように水面に浮かべて設置される枠型のフロート部と、その全周に吊設される汚濁防止膜とを備えている汚濁拡散防止装置において、
前記フロート部が周方向で複数に分割可能で、分割されたフロート単体ごとに前記汚濁防止膜が分割されており、隣接した前記フロート単体の一方の端部に結合部が設けられるとともに、対応する他方の前記フロート単体の端部に、前記結合部が挿脱自在な被結合部が設けられ、前記各汚濁防止膜の両側端部にはそれぞれ、隣接する前記汚濁防止膜との隙間を塞ぐラップ材が、前記フロート部の周方向に長さを延長するように取付けられており、
隣接した前記フロート単体どうしが、前記結合部と被結合部とを結合した状態で、連結索により連結され、前記各ラップ材が、隣接する前記フロート単体若しくはその汚濁防止膜に係止されていることを特徴とする汚濁拡散防止装置。
In the pollution diffusion prevention device comprising a frame-type float part that is floated on the water surface so as to surround the water area of the point where the pile driving work is performed, and a pollution prevention film suspended on the entire circumference thereof,
The float part can be divided into a plurality in the circumferential direction, the pollution prevention film is divided for each divided float, and a coupling part is provided at one end of the adjacent float alone and corresponding On the other end of the float itself, there is provided a coupled portion to which the coupling portion can be inserted and removed, and wraps that close gaps between adjacent pollution control films on both side edges of each pollution prevention film, respectively. The material is attached so as to extend the length in the circumferential direction of the float part,
The adjacent floats are connected to each other by a connecting line in a state in which the connecting part and the connected part are connected, and each wrap material is locked to the adjacent float or its pollution prevention film. A pollution diffusion preventing device characterized by that.
前記被結合部が、ゴム弾性を有していることを特徴とする請求項1記載の汚濁拡散防止装置。   The pollution diffusion preventing device according to claim 1, wherein the coupled portion has rubber elasticity. 前記各フロート単体の汚濁防止膜のそれぞれに、その中間部にあって前記フロート単体から同じ距離だけ下がった位置に、前記フロート単体と同じ程度の長さを有する骨部材が設けられており、前記各骨部材が前記フロート単体とほぼ平行に配置され、隣接した前記骨部材どうしが連結可能となっていることを特徴とする請求項1または2記載の汚濁拡散防止装置。   Each of the float antifouling films is provided with a bone member having the same length as that of the float alone at a position at the same distance from the float alone in the middle part thereof, The pollution diffusion preventing device according to claim 1 or 2, wherein each bone member is disposed substantially parallel to the float unit and adjacent bone members can be connected to each other.
JP2003303447A 2003-08-27 2003-08-27 Pollution diffusion prevention device Expired - Fee Related JP4214023B2 (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2010121344A (en) * 2008-11-19 2010-06-03 Taisei Corp Water contamination preventive device
JP2013204218A (en) * 2012-03-27 2013-10-07 Yoshin Kensetsu Kk Opening/closing type polluted water outflow prevention method
JP2014043672A (en) * 2012-08-24 2014-03-13 Penta Ocean Construction Co Ltd Turbid water treatment method and turbid water treatment system
NL2011268C2 (en) * 2013-08-05 2015-02-09 Cornelis Petrus Gerardus Maria Boot INSTALLATION FOR Dredging or deepening.
JP2015031049A (en) * 2013-08-02 2015-02-16 海和テック株式会社 Construction method using pollution diffusion prevention device of separate type

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KR101391908B1 (en) * 2013-10-28 2014-05-07 준백건설 주식회사 Device for silt protection

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2010121344A (en) * 2008-11-19 2010-06-03 Taisei Corp Water contamination preventive device
JP2013204218A (en) * 2012-03-27 2013-10-07 Yoshin Kensetsu Kk Opening/closing type polluted water outflow prevention method
JP2014043672A (en) * 2012-08-24 2014-03-13 Penta Ocean Construction Co Ltd Turbid water treatment method and turbid water treatment system
JP2015031049A (en) * 2013-08-02 2015-02-16 海和テック株式会社 Construction method using pollution diffusion prevention device of separate type
NL2011268C2 (en) * 2013-08-05 2015-02-09 Cornelis Petrus Gerardus Maria Boot INSTALLATION FOR Dredging or deepening.
WO2015020520A1 (en) 2013-08-05 2015-02-12 Cornelis Petrus Gerardus Maria Boot Installation for dredging or deepening

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