JP3762110B2 - Water stop structure and construction method - Google Patents

Description

【００４９】
表１に示す組合せのうち、常温における硬化速度のコントロールの容易さ、コスト、人手の容易さ等を含めて考慮すると、特に水酸基を末端に有し主鎖にクロロプレン、ブタジエン、水素添加ブタジエン、スチレンブタジエン、ニトリルブタジエン、ポリエーテルポリオール、ポリエステルポリオール、アクリルウレタンポリオール、アニリン誘導体ポリオール等を単独又は併用して用いるのか望ましい。中でも難燃度を考慮すると、クロロプレン骨格を有し、分子両末端に水酸基又はザンセート基を有するものが好適である。
【００５０】
硬化剤としては、イソシアネート系硬化剤が好適であり、１分子当り２個以上のイソシアネート基を有することが必要である。具体例には、イルイレンジイソシアネート、ジフェニルメタンジイソシアネート、ヘキサメチレンジイソシアネート、イソホロンジイソシアネート、末端イソシアネート基を有するプレポリマー等を挙げることができ、これ等を単独で又は併用して用いることができる。
【００５１】
イソシアネート系硬化剤を可塑剤と混合して用いることもできるが、可塑剤が脱水処理されていることと、イソシアネート化合物と反応しないこととが必要である。常温硬化反応を行なうための必須成分のみ、又は触媒との組合せで、本発明で満足して用いられる架橋粘弾性体を得ることができる。また、本発明では、コスト面、作業面、物性向上面で、更に各種の添加剤を加えることにより、幅広い安定した架橋粘弾性体を得ることもできる。
【００５２】
粘弾性体又は架橋粘弾性体の硬さの調整、液状ポリマー組成物の粘度の調整及び硬化反応後の硬さの調整に、可塑剤を用いることができる。可塑剤には、ナフテン系オイル、パラフィン系オイル、芳香族系オイル、ひまし油、綿実油、やし油、トール油、フタル酸誘導体、イソフタル酸誘導体、アジピン酸誘導体、マレイン酸誘導体、液状ゴムの官能基を含まないもの等を挙げることができ、これらを単独か又は併用して用いることができる。
【００５３】
難燃性を要する場合には、ハロゲン化合物系可塑剤やリン化合物系可塑剤を、単独か又は併用して用いることができる。
【００５４】
粘着付与樹脂には、天然樹脂、ロジン、変性ロジン、ロジン及び変性ロジンの誘導体、ポリテルペン系樹脂、テルペン変性体、脂肪族系炭化水素樹脂、芳香族系石油樹脂、シクロペンタジエン系樹脂、フェノール樹脂、アルキルフェノール−アセチレン樹脂、キシレン樹脂、クマロン−インデン樹脂、ビニルトルエン−αメチルスチレン共重合体等を単独か又は併用して用いることができる。
【００５５】
【実施例】
実施例及び図面を参照して、本発明を説明する。
実施例
【００５６】
図１に示した止水構造１を製造した。構造躯体２の開口部２ａには、万が一にも、パッキン材が漏れることがないように、ガムテープにて塞ぎ、その上に、亜鉛めっき鋼板からなるスリット板３を載置した。表２に示した組成の材料を計量し、エアー式モーターにて攪拌混合して、アングルで形成された堰６の中へ、厚みが３５ｍｍになるように流し込んで、１週間硬化養生させ、パッキン材４を形成した。更に、押さえ板８ａ，８ｂとシャッター板５ａ，５ｂをボルト７ａ，７ｂにて締め込んだ。
【００５７】
【表２】

【００５８】
図１の止水構造の下部に、水圧を負荷できるような圧力タンクを取り付け、水圧を０．２ＭＰａかけた。２４時間放置後、パッキン材の飛び出し及び漏水の有無を確認した。飛び出し及び漏水はなかった。更に、止水構造の内部から、図２に示すようなスライド板９を、スライド板の刃先が１５０ｍｍ突き出るまで差し込んで、漏水の有無を確認したところ、漏水はなかった。
【００５９】
【発明の効果】
本発明によれば、構造躯体の内側からスライド板を打ち込むだけで、スライド板を構造躯体の外側に押し出し、構造躯体の開口部を止水しながら、構造躯体を地盤に固定することができる。
【図面の簡単な説明】
【図１】本発明の一例の止水構造の縦断面図である。
【図２】本発明にかかる一例のスライド板の断面図である。
【図３】本発明にかかる一例のスリット板の平面図である。
【図４】（ａ）は、本発明にかかる一例のシャッター板の平面図である。
（ｂ）は、（ａ）のシャッター板の側面図である。
【符号の説明】
１ 止水構造
２ 構造躯体
２ａ 開口部
３ スリット板
３ａ 溝
４ パッキン材
５ａ，５ｂ スライド板
５ｃ 境目
５ｄ 先端部
６ 堰
７ａ，７ｂ ボルト
８ａ，８ｂ 板状体
９ スライド板
９ａ 差込側
９ｂ 面取り
１０ａ，１０ｂ 切れ目[0001]
BACKGROUND OF THE INVENTION
The present invention includes a structural housing, a slit plate, a packing material, a shutter plate, and a weir. When a slide plate is inserted from the inside to the outside of the structural housing, the inside and the outside of the structural housing are stopped. It relates to a water stop structure that is flooded.
[0002]
[Prior art]
When constructing underground or undersea structural frames, in order to fix the structural frame in the ground or in the sea, a partition plate is taken out from the internal space of the structural frame to the soil, or a pile for fixing toward the sea floor. It is necessary to drive in.
[0003]
In such a case, when trying to drive the partition plate or pile, the water pressure is already applied to the outside of the structural frame, the water level is lowered to avoid the water pressure, and the partition plate or pile is inserted.
[0004]
In addition, grout material is injected into the part where the partition plate or pile is to be inserted, the soil is improved, the partition plate or pile is inserted from the opening of the structural frame, and then the gap is filled with something like caulking. It is sealed by sealing or mechanically tightening the opening with something like an O-ring.
[0005]
Furthermore, it is difficult to stop the water by lowering the water level outside the structural enclosure during work in the sea. For this reason, the structural frame is made into a double wall in advance, and piles or the like are driven into it to stop the water.
[0006]
[Problems to be solved by the invention]
However, in order to insert a partition plate or a pile, it is not easy to lower the surrounding water level, and a great cost is required. Moreover, after injecting grout material into the soil or inserting a partition plate or the like, filling with caulking or attaching an O-ring requires a great deal of labor and work.
[0007]
Moreover, although this process takes time and work, it is difficult to sufficiently stop the structural housing, and water and the like cannot be completely prevented from entering the structural housing.
[0008]
An object of this invention is to obtain the water stop structure by which the inner side and the outer side of a structural housing are water-stopped by inserting a slide board toward the outer side from the inner side of a structural housing.
[0009]
[Means for Solving the Problems]
The present invention includes a structural housing, a slit plate, a packing material, a shutter plate, and a weir. When the slide plate is inserted from the inside to the outside of the structural housing, the inside and the outside of the structural housing are stopped. A water-stopping structure, wherein the structural housing has an opening, the slit plate is disposed inside the opening, and the packing material is disposed inside the slit plate. And the weir is arranged around the packing material, the shutter plate is arranged inside the packing material, and when the slide plate is inserted from the inside of the shutter plate, the shutter plate is Open, the slide plate perforates the packing material, the slit plate opens by the pressure of the slide plate, the slide plate protrudes outside the structural housing and is driven into the ground That is intended according to the construction method of water stopping structure and according waterproofing structure.
[0010]
The inventor stops the opening of the structural frame by piercing the slide plate so as to pierce a packing material made of a crosslinked viscoelastic body when driving a slide plate such as a partition plate or a pile from the inside of the structural frame. It was found that the slide plate can be pushed out of the structural housing while watering, and the water stop structure of the present invention was completed.
[0011]
In the present invention, an opening for allowing the slide plate to pass through is provided in the structural housing so that the slide plate can be inserted from the internal space of the structural housing toward the external space. Further, the opening is filled with a packing material that is easily torn by a slide plate inserted from the inside of the structural housing and can withstand water pressure and earth pressure from the outside of the structural housing.
[0012]
Such a packing material is in close contact with the slide plate while the slide plate moves from the inside to the outside of the structural housing, so that the water stoppage is not impaired. A weir is disposed around the packing material, and when a slide plate is inserted into the packing material, the internal stress of the packing material is increased.
[0013]
However, with this packing material alone, the packing material is pulled out from the opening of the structural housing as the slide plate is inserted. In the present invention, the slit plate is arranged inside the opening so that the packing material does not jump out of the structure until the blade edge of the slide plate reaches the opening of the structure. As a result, the internal stress applied to the packing material is further increased, and the packing material and the slide plate are further in close contact with each other. The slit plate opens when the slide plate is inserted.
[0014]
Moreover, in this invention, the surface of the packing material before a slide plate passes is sealed with a shutter plate so that a packing material may not jump out to the inner side of a structure housing | casing by insertion of a slide plate. The shutter plate opens when the slide plate is inserted.
[0015]
According to the present invention, simply by driving the slide plate from the inside of the structure case, the slide plate can be pushed out to the outside of the structure case, and the structure case can be fixed to the ground while the opening of the structure case is stopped.
[0016]
In the process of constructing an underground structure, when injecting a soil modifier to improve the soil outside the structure, the partition plate should be placed inside the structure so that the injected material does not flow into other places than necessary. Must be driven from. However, with the existing method, there was no suitable packing material at the location where the slide plate passes, so this work was not possible without lowering the water level around the structure.
[0017]
According to the present invention, a partition plate can be inserted into a desired position from the inside regardless of whether water is present outside the structure, and the construction period and cost can be greatly reduced.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be described in detail with reference to the drawings.
FIG. 1 is a longitudinal sectional view of a water stop structure as an example of the present invention. FIG. 2 is a cross-sectional view of an example slide plate according to the present invention. FIG. 3 is a plan view of an example slit plate according to the present invention. FIG. 4A is a plan view of an example shutter plate according to the present invention. FIG. 4B is a side view of the shutter plate.
[0019]
As shown in FIG. 1, the water stop structure 1 as an example of the present invention includes a structural housing 2, a slit plate 3, a packing material 4, shutter plates 5 a and 5 b, and a weir 6, and from the inside of the structural housing 2. When the slide plate is inserted toward the outside, the inside and outside of the structural housing 1 are stopped.
[0020]
In the water stop structure 1, the structural housing 2 has the opening 2 a, the slit plate 3 is disposed inside the opening 2 a, and the packing material 4 is disposed inside the slit plate 3. The weir 6 is disposed around the packing material 4, and the shutter plates 5 a and 5 b are disposed inside the packing material 4.
[0021]
In such a water stop structure, when the slide plate is inserted from the boundary 5c between the shutter plate 5a and the shutter plate 5b, the shutter plates 5a and 5b open to the left and right, and the slide plate enters between the shutter plate 5a and the shutter plate 5b. .
[0022]
The slide plate that has entered enters the opening 2a of the structural housing 2 while perforating the packing material 4 and expanding the packing material 4. Due to the pressure of the inserted slide plate, the slit plate 3 opens and passes through the slide plate. The slide plate protrudes outside the structural housing 2 and is driven into the ground.
[0023]
In the present invention, various slide plates such as a partition plate and a pile plate can be used. For example, a slide plate as shown in FIG. 2 can be used. The slide plate 9 has a structure in which the insertion side 9a is thin and is easy to drive into the ground. A chamfer 9b is provided at the tip of the insertion side 9a in order to prevent work hazards. It is preferable that the insertion side of the slide plate has a sharp tip shape as much as possible.
[0024]
The slit plate according to the present invention can be formed in various shapes. Such a slit plate has a structure in which the packing material does not jump out of the structure housing until the blade edge of the slide plate reaches the opening of the structure housing, and may be opened by inserting the slide plate. .
[0025]
The slit plate is preferably provided with a groove at a position where the slide plate passes, and is set to a strength that can be bent outward without damaging the structural housing even if the slide plate passes.
[0026]
Such a groove may not be a continuous groove, but is preferably a continuous groove having the same length as the slide plate. The groove has a width of 0.5 to 5 mm and a depth of 0.5 to 3 mm, preferably 1.0 to 2.5 mm and a depth of 0.8 to 1.6 mm. If such a groove is arranged at the center through which the slide plate passes, bending of the slit plate can be induced.
[0027]
1 and 3 show an example of such a slit plate. The slit plate 3 has a groove 3a at a central portion along the length direction, and is buckled and opened at the groove 3a portion by the pressure of the slide plate inserted from the inside of the structural housing.
[0028]
The slit plate according to the present invention may have a through hole at a position where the slide plate passes. However, it is necessary to form such a through-hole so that the packing material does not leak to the outside of the structural housing as the slide plate is inserted.
[0029]
Further, in a state where water pressure or the like is applied from the outside of the structural housing, the packing material may be pushed up entirely by water or the like passing through a gap between the slit plates. The packing material according to the present invention cannot withstand water pressure or the like when the slide plate is not inserted. For this reason, in this invention, the surface of the packing material pushed up by water pressure etc. can be sealed with a shutter board | plate. The shutter plate opens when the slide plate is inserted.
[0030]
In the water stop structure of the present invention, the strength of the structural housing varies depending on the magnitude of the water pressure resistance, but the slit plate must be formed of a material that does not break when the slide plate passes. Don't be. As such a material, for example, iron and non-ferrous metals are suitable, and plastics are inappropriate. An iron plate is preferable.
[0031]
In addition, as shown in FIGS. 1 and 3, the slit plate has a hole 3b through which the mounting bolts 7a and 7b of the shutter plates 5a and 5b pass so as not to cause displacement. Is preferred.
[0032]
The shutter plate according to the present invention is designed to seal the surface of the packing material before the slide plate passes and to open when the slide plate is inserted. When water pressure or the like is applied from the outside of the structural housing, the packing material is pushed up through the gaps of the slit plates. The packing material alone cannot withstand the water pressure from the outside of the structural housing when the slide plate is not inserted.
[0033]
The shutter plate seals the surface of the packing material before the sliding plate passes so that the packing material does not jump out of the inside of the structural housing by inserting the sliding plate, and opens when the sliding plate is inserted. The shape can be selected.
[0034]
FIGS. 1, 4A and 4B show an example of such a shutter plate. As shown in FIG. 1, the shutter plates 5a and 5b are arranged symmetrically, and can slide in both directions from the boundary 5c through which the slide plate passes to slide to the same extent as the width of the opening 2a. The shutter plate 5a shown in FIG. 4A has cuts 10a and 10b through which the fixing bolt 7a shown in FIG. 1 passes, and the cuts 10a and 10b are long so that the shutter plate 5a slides. There is a hole. Also, the shutter plate 5a is provided with a sharp tip 5d so that the portion where the slide plate abuts is in a grooved state, and the slide plate can be called into the boundary 5c between the shutter plate 5a and the shutter plate 5b.
[0035]
It is preferable that a plate-like body is provided between the shutter plate and the packing material so that the shutter plate can easily slide. In such a structure, the shutter plate slides so as to open as the slide plate is inserted.
[0036]
FIG. 1 shows an example of such a plate-like body. The plate-like bodies 8a and 8b are respectively provided between the shutter plates 5a and 5b and the packing material 4, and an opening 8c through which the slide plate passes is provided on the vertical line of the opening 2a of the structural housing 2. The shutter plates 5a and 5b, the plate-like bodies 8a and 8b, and the slit plate 3 are fastened to the structural housing 2 via bolts 7a, and the shutter plates 5a and 5b slide on the plate-like bodies 8a and 8b. It is easy to do.
[0037]
The thickness and material of the shutter plate or plate-like body can be appropriately selected with respect to the length and width of the shutter plate or plate-like body. The shutter plate may be easily slid when the slide plate passes. The material of the shutter plate is not particularly limited, but metals such as welding may be used depending on the work situation, so metals are preferable, and iron is particularly preferable.
[0038]
The packing material according to the present invention is provided so as to be easily cut by simply inserting the slide plate, to be in close contact with the slide plate, and not to creep over time. Various materials can be used for the packing material. Moreover, it is preferable that such a packing material is directly poured into the inside of the structural housing and molded. Since the packing material that is not directly poured in has a slightly different shape between the bolt for attaching the shutter plate and the packing material and the weir and the like, a gap may be generated between the casing and water leakage.
[0039]
Water leakage from this location can be prevented by pressing the shutter plate with a nut, but when inserting the slide plate, the packing material may be pulled and a delicate gap may be generated again. For this reason, it is preferable that the structural housing, the weir, the bolt, and the packing material are in close contact with each other, and that the packing material exerts an adhesive force that is not inferior to the tensile force when the slide plate is inserted. Further, depending on the state of the structural housing, it is possible to apply a primer to increase the adhesive force.
[0040]
Further, the packing material should have a width twice as large as that of the opening of the structural housing, preferably four times or more. If the thickness of the packing material is 3 mm or more, there is a water stop effect, but 10 to 80 mm is effective in relation to water pressure.
[0041]
Such a packing material is preferably composed of a crosslinked viscoelastic body obtained by reacting a reactive polymer that is liquid at room temperature with a curing agent. Such a cross-linked viscoelastic body easily adheres to a slide plate, a weir or the like even after the molding material is injected and cured. Among them, it is preferable to use a material containing a reactive polymer which is liquid at room temperature having a hydroxyl group at the molecular end and a curing agent having an isocyanate group at the molecular end.
[0042]
Further, in this case, 100 parts by weight of the reactive polymer that is liquid at normal temperature and the ratio of the number of moles of isocyanate groups of the curing agent to the number of moles of hydroxyl groups of the reactive polymer, that is, NCO / OH is 0.5 to 1.5. It is preferably obtained by reacting a certain amount of the curing agent with 50 to 1000 parts by weight of a bituminous product per 100 parts by weight of the reactive polymer. The primary elastic water-stopping material obtained in this way has a low modulus and high resilience, and is easier to bend.
[0043]
If the NCO / OH molar ratio between the reactive polymer and the curing agent that is liquid at room temperature is less than 0.5, the curing reaction is not sufficient, and many unreacted groups remain, which causes problems with stability over time. Occurs. On the other hand, if the NCO / OH molar ratio is greater than 1.5, the crosslinked viscoelastic body becomes too hard, and the hardness cannot be adjusted sufficiently with the plasticizer.
[0044]
Moreover, this packing material can exhibit the water stop performance. A bituminous material can be added to reduce the cost of the packing material. The bituminous materials include straight asphalt, bronze asphalt, tar and the like. In order to obtain a desired physical property value, a material previously modified with a plasticizer or a tackifier resin can be used.
[0045]
It is preferable to use a rubber-like material such as liquid rubber in combination with a bituminous material. As an indication of the amount added, 50 to 1000 parts by weight of a bituminous product is appropriate for 100 parts by weight of the liquid polymer.
[0046]
Examples of the reactive polymer that is liquid at room temperature include liquid polybutadiene, liquid chloroprene, liquid styrene butadiene copolymer, liquid acrylonitrile butadiene copolymer, polyether polyol, polyester polyol, aniline derivative polyol, silicone, polysulfide, modified silicone, and the like. Is included. These polymers can cause a curing reaction at room temperature to obtain a crosslinked viscoelastic body.
[0047]
The cross-linked viscoelastic body that can be used in the present invention is a cured product obtained by reacting a liquid reactive polymer at room temperature at room temperature, and retains its shape even when heated to 80 ° C., and has a hardness at 20 ° C. However, it satisfies the condition that it is 50 or less in a C-type hardness meter shown in Japan Rubber Association Standard SRIS-0101. A crosslinked viscoelastic body that can satisfy this condition can be obtained from a combination of a liquid rubber and a curing agent exemplified in Table 1.
[0048]
[Table 1]

[0049]
Among the combinations shown in Table 1, considering the ease of control of the curing rate at normal temperature, cost, ease of manpower, etc., especially chloroprene, butadiene, hydrogenated butadiene, styrene having a hydroxyl group at the end and the main chain It is desirable to use butadiene, nitrile butadiene, polyether polyol, polyester polyol, acrylic urethane polyol, aniline derivative polyol or the like alone or in combination. Among these, considering the flame retardancy, those having a chloroprene skeleton and having a hydroxyl group or a xanthate group at both molecular ends are preferred.
[0050]
As the curing agent, an isocyanate curing agent is suitable, and it is necessary to have two or more isocyanate groups per molecule. Specific examples include ylylene diisocyanate, diphenylmethane diisocyanate, hexamethylene diisocyanate, isophorone diisocyanate, a prepolymer having a terminal isocyanate group, and the like, which can be used alone or in combination.
[0051]
An isocyanate curing agent can be used by mixing with a plasticizer, but it is necessary that the plasticizer is dehydrated and does not react with the isocyanate compound. A crosslinked viscoelastic body that is used satisfactorily in the present invention can be obtained by using only the essential components for carrying out the room temperature curing reaction or a combination with a catalyst. In the present invention, a wide range of stable crosslinked viscoelastic bodies can be obtained by adding various additives in terms of cost, work, and physical properties.
[0052]
A plasticizer can be used for adjusting the hardness of the viscoelastic body or the crosslinked viscoelastic body, adjusting the viscosity of the liquid polymer composition, and adjusting the hardness after the curing reaction. Plasticizers include naphthenic oil, paraffinic oil, aromatic oil, castor oil, cottonseed oil, palm oil, tall oil, phthalic acid derivative, isophthalic acid derivative, adipic acid derivative, maleic acid derivative, functional group of liquid rubber The thing etc. which do not contain can be mentioned, These can be used individually or in combination.
[0053]
When flame retardancy is required, a halogen compound plasticizer or a phosphorus compound plasticizer can be used alone or in combination.
[0054]
Tackifying resins include natural resins, rosins, modified rosins, rosin and modified rosin derivatives, polyterpene resins, terpene modified products, aliphatic hydrocarbon resins, aromatic petroleum resins, cyclopentadiene resins, phenol resins, Alkylphenol-acetylene resins, xylene resins, coumarone-indene resins, vinyltoluene-α-methylstyrene copolymers and the like can be used alone or in combination.
[0055]
【Example】
The present invention will be described with reference to examples and drawings.
Examples [0056]
The water stop structure 1 shown in FIG. 1 was manufactured. The opening 2a of the structural housing 2 was closed with a gum tape so that the packing material would not leak out, and a slit plate 3 made of a galvanized steel plate was placed thereon. The materials having the composition shown in Table 2 are weighed, mixed by stirring with an air motor, poured into a weir 6 formed by an angle so that the thickness is 35 mm, cured for one week, and packed. Material 4 was formed. Further, the holding plates 8a and 8b and the shutter plates 5a and 5b were tightened with bolts 7a and 7b.
[0057]
[Table 2]

[0058]
A pressure tank capable of applying a water pressure was attached to the lower part of the water stop structure of FIG. 1, and a water pressure of 0.2 MPa was applied. After standing for 24 hours, the packing material jumped out and the presence or absence of water leakage was confirmed. There was no jumping out or water leakage. Furthermore, when the slide plate 9 as shown in FIG. 2 was inserted from the inside of the water stop structure until the blade edge of the slide plate protruded 150 mm, and the presence or absence of water leakage was confirmed, there was no water leakage.
[0059]
【The invention's effect】
According to the present invention, simply by driving the slide plate from the inside of the structure case, the slide plate can be pushed out to the outside of the structure case, and the structure case can be fixed to the ground while the opening of the structure case is stopped.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a water stop structure according to an example of the present invention.
FIG. 2 is a cross-sectional view of an example slide plate according to the present invention.
FIG. 3 is a plan view of an example slit plate according to the present invention.
FIG. 4A is a plan view of an example shutter plate according to the present invention.
(B) is a side view of the shutter plate of (a).
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Water stop structure 2 Structure housing 2a Opening part 3 Slit board 3a Groove 4 Packing material 5a, 5b Slide board 5c Boundary 5d Tip part 6 Weir 7a, 7b Bolt 8a, 8b Plate-like body 9 Slide board 9a Insertion side 9b Chamfering 10a 10b cut

Claims (6)

A structural housing, a slit plate, a packing material, a shutter plate, and a weir are provided, and when the slide plate is inserted from the inside to the outside of the structural housing, the inner and outer sides of the structural housing are stopped. Water structure,
The structural housing has an opening, the slit plate is arranged inside the opening, the packing material is arranged inside the slit plate, and the weir around the packing material The shutter plate is arranged inside the packing material, and when the slide plate is inserted from the inside of the shutter plate, the shutter plate opens, and the slide plate uses the packing material. A waterstop structure, wherein the slit plate is opened by pressure of the slide plate, the slide plate protrudes outside the structural housing and can be driven into the ground. The water stop structure according to claim 1, wherein the slit plate has a groove, and the slit plate can be buckled and opened by a pressure of the slide plate at the groove portion. A plate-like body is provided between the shutter plate and the packing material, and the shutter plate, the plate-like body, and the slit plate are fastened to the structural housing via bolts, and the shutter The water stop structure according to claim 1 or 2, wherein the plate is fixed so as to be slidable on the plate-like body. The packing material comprises a cross-linked viscoelastic body obtained by reacting a liquid reactive polymer at normal temperature with a curing agent, and the cross-linked viscoelastic body comprises a bituminous material, a plasticizer, a tackifier resin, and a filler. The water stop structure according to any one of claims 1 to 3, wherein the water stop structure contains at least one selected additive. The reactive polymer has a hydroxyl group at the molecular terminal, the curing agent has an isocyanate group at the molecular terminal, and the cross-linked viscoelastic body has 100 parts by weight of the reactive polymer and the hydroxyl group. It is obtained from the curing agent in such an amount that the molar ratio of the isocyanate groups is 0.5 to 1.5, and the crosslinked viscoelastic body contains 50 to 1000 parts by weight of the bitumen. The water stop structure according to claim 4, characterized in that A structural housing, a slit plate, a packing material, a shutter plate, and a weir are provided, and when the slide plate is inserted from the inside to the outside of the structural housing, the inner and outer sides of the structural housing are stopped. In getting the water structure,
The structure housing is provided with an opening, the slit plate is provided inside the opening, the packing material is provided inside the slit plate, the weir is provided around the packing material, and the packing material is provided inside the packing material. The shutter plate is provided, and when the slide plate is inserted from the inside of the shutter plate, the shutter plate opens, the slide plate perforates the packing material, and the slit plate opens by the pressure of the slide plate. The construction method of a water stop structure, characterized in that the slide plate protrudes outside the structural housing and can be driven into the ground.

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