JP2008115585A - Tsunami and high water disaster prevention structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a tsunami and high water disaster prevention structure which has an upper surface of a low height and does not adversely affect the landscape. <P>SOLUTION: According to the tsunami and high water disaster prevention structure 1, a water storage space 3 for storing therein overflow water 18 of tsunami, is formed on a lower side of a revetment 2, and a water permeable lid 10 is set in an overflow water intake port 4 opened in an upper surface of the water storage space 3. Then a drain port 5 is opened in a sea-side surface of the revetment 2, and blocked with a rotatable drain lid 15. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a tsunami storm surge disaster prevention structure.

As tsunami storm surge prevention structures that reduce tsunami disasters, breakwaters, tide embankments, tsunami storm surge sluices, land ridges and battlements are constructed in various places. These structures prevent the tsunami from entering behind by reflecting the tsunami in front. Moreover, as another tsunami storm surge prevention structure, there exists invention of Unexamined-Japanese-Patent No. 7-113218, for example.
JP-A-7-113218

  However, the tsunami storm surge prevention structure is enlarged in a large section because the height of the tsunami increases rapidly as the water depth decreases. In addition, such a large-scale structure has a bad influence on the landscape, and there is a problem that it has no use other than measures against tsunami storm surge.

  This invention is made | formed in view of the above problems, The objective is to provide the tsunami storm surge disaster prevention structure which does not affect a landscape at a low-top end.

  The tsunami storm surge disaster prevention structure to solve the above problems forms a water storage space for storing the tsunami overflow water below the revetment, and has a permeable cover on the upper surface of the water storage space. The entrance is opened, and the drainage is opened on the sea side of the revetment. In addition, it includes that the drain outlet is blocked by a rotatable drain lid. The drain lid is a curtain wall or a steel flap gate, and includes rotating forward about the upper end. In addition, the water permeable lid includes grating.

  The inflow of tsunami overflow water into the storage space can prevent the tsunami from entering the residential area. In addition, it becomes easier to take overflow water from the grating, which is a permeable lid, into the water storage space. Moreover, since the drainage lid rotates forward at the time of the wave and the overflow water in the water storage space is automatically drained, it is possible to prepare for an invasion after the second tsunami. In addition, the tsunami high tide revetment allows the tsunami to overflow to the back, so that the top height can be suppressed, and it does not have a big impact on the landscape. It also has a function as a water revetment. In addition, an observatory park and an evacuation facility can be built on the upper surface of the water storage space, and the benefit effect can be increased by using the water storage space for parking. Moreover, even if a tsunami more than expected hits and overflows from the water storage space, the inundation start time to the residential area can be delayed, so it is possible to secure time for evacuation.

  Hereinafter, embodiments of a tsunami storm surge disaster prevention structure of the present invention will be described in detail with reference to the drawings. This tsunami storm surge disaster prevention structure is designed to prevent the invasion of tsunami into the living space by storing the tsunami that overflowed the revetment in the reservoir space under the revetment.

  As shown in FIG. 1, the tsunami storm surge disaster prevention structure 1 includes a water storage space 3 that stores tsunami overflow water below the revetment 2, and an overflow water intake 4 that is open on the upper surface of the water storage space 3. The drainage port 5 is open to the seaside surface of the revetment 2.

  This water storage space 3 has a sufficient size for storing tsunami overflow water, and supports the ceiling (the revetment upper surface) 7 by pillars 6 arranged at appropriate intervals as in the underground shopping center. . The water storage space 3 is composed of a front water storage space 8 having an overflow water intake 4 on the upper surface and a rear water storage space 9 not having the overflow water intake 4. The rear water storage space 9 is a front water storage space 9. It is formed slightly higher than the partial water storage space 8 (the ceiling height is high), so that more overflow water can be stored.

  For example, if the height of the front water storage space 8 (height from the shoreline) is 2 m, the height of the rear water storage space 9 is 3 m, which is 1 m higher than this. Thus, if the rear water storage space 9 is made higher than the front water storage space 8, not only can the overflow water be stored more, but also the function of preventing the overflow water from entering the residential area will be achieved.

  A grating that is a permeable lid 10 is installed in the overflow water intake 4 that is opened on the upper surface (the revetment upper surface) of the front water storage space 8. The overflow water intake 9 is opened over the entire upper surface of the front water storage space 8 or can be opened over the entire upper surface of the front water storage space 8 at appropriate intervals so that the overflow water can be taken in quickly. Yes. A handrail 11 is provided on the sea side of the upper surface of the front water storage space 8 to provide a function as a hydrophilic revetment.

  On the other hand, an evacuation facility 12 and an observation park 13 are provided on the upper surface of the rear water storage space 9, and a parking lot 14 is provided in the rear water storage space 9 so that people who come to the observation water park 13 can use it. It has become. The upper surface of the rear water storage space 9 is not limited to the evacuation facility 12 or the observation park 13 described above, and other things can be installed and used effectively.

  Further, as shown in FIG. 3, a drainage lid 15 made of a precast concrete curtain wall is installed at the drainage port 5 opened on the seaside surface of the revetment 2. The upper end portion of the drainage lid 15 is installed on the pillars 17 on both sides of the drainage port 5 with pins 16, and the drainage lid 15 rotates only forward about the pins 16.

  Therefore, as shown in FIG. 4 (1), the drain lid 15 is normally pressed against the revetment 2 side by the wave and closed. However, as shown in (2) of the figure, when overflow water flows into the reservoir space 3 due to the tsunami and the water level rises, and when the outside seawater level drops due to the tsunami, the difference in water pressure causes it to move forward. By rotating and opening, the overflow water 18 accumulated in the water storage space 3 is automatically drained. Further, if the bottom surface 19 of the water storage space 3 is slightly inclined toward the sea side, or if a fine drainage groove (not shown) extending toward the sea side is formed on the bottom surface 19, the overflow water 18 is smooth. The water starts to flow out from the drain port 5.

  The drain lid 15 is not limited to the curtain wall as described above, and may be a steel flap gate.

  Further, FIG. 5 shows a tsunami storm surge disaster prevention structure 21 in which a not-so-high protective embankment 20 is provided on the upper surface of the front water storage space 8 on the sea side, and the other configuration is the same as the tsunami storm surge disaster prevention structure 1. Providing such a protective bank 20 can prevent tsunamis more effectively.

Next, in order to confirm the effect of the present invention, verification by a calculation example was performed.
[Calculated terrain]
As shown in FIG. 6, only the revetment (1) with a height of 2 m is arranged on the coastal shoreline with a width of 2 km and a 1% gradient. And the wall (2) of height 3m is arrange | positioned in the living boundary 120m behind this revetment (1), and a water storage space (bottom level 0m) is provided. These (1) and (2) do not have a drainage function. And let this revetment be the revetment (3) of this invention which gave the drainage function. Comparison calculation was performed for each terrain of (1) to (3).

〔Calculation condition〕
A sine wave with a period of 10 minutes is made 1.5km offshore, and a tsunami of 3m or more is incident on the revetment front. This calculation is performed by a numerical analysis that considers the terrestrial run-up to the nonlinear long wave equation. In each case, the overflow formula is applied when the tsunami height in front of the revetment is greater, and in (3), if the water level in the reservoir space is greater than the front water level of the revetment, the drainage calculation is carried out by overflow. .

〔Calculation result〕
FIG. 7 shows the fluctuation of the water level in front of the revetment (outside water level) and the back of the revetment (inner water level) in each case, and FIG. 8 shows the inundation range and the inundation time. As a result, in (1), water is flooded over 360 m from the first wave, and in (2), flooding into the residential area is seen beyond the boundary wall of the residential area after the second wave. On the other hand, in the case of the revetment with drainage function (3), the inundation into the residential area is not seen (repeating the inflow and drainage into the water storage space), and the inundation range may be smaller than in other cases. As can be seen, the effect of the present invention was confirmed.

  In addition, in said embodiment, the tsunami storm surge disaster prevention structure 1 by which the drainage cover 15 which consists of curtain walls made from a precast concrete was installed in the drain outlet 5 opened to the sea side surface of the revetment 2 is demonstrated. However, it is possible to construct a tsunami storm surge disaster prevention structure in which the drain lid 15 is not installed at the drain outlet 5.

It is sectional drawing of a tsunami storm surge disaster prevention structure. It is a top view of the front water storage space of a tsunami storm surge disaster prevention structure. It is a front view of the drain outlet of a tsunami storm surge disaster prevention structure. (1) is a cross-sectional view taken along the line AA in FIG. 3, (2) is a cross-sectional view when the drainage lid is opened, and (3) is a cross-sectional view taken along the line BB in FIG. It is sectional drawing of another tsunami storm surge disaster prevention structure. It is a top view of calculation landform. (1) to (3) are graphs showing fluctuations in the internal and external water levels. It is a figure which shows the inundation range and inundation time of a tsunami.

Explanation of symbols

1,21 Tsunami storm surge disaster prevention structure 2 Seawall 3 Water storage space 4 Overflow water intake 5 Drainage port 6 Pillar 7 Ceiling 8 Front water storage space 9 Rear water storage space 10 Permeable cover 11 Handrail 12 Evacuation facility 13 Observation park 14 Parking Vehicle 15 Drain cover 16 Pin 17 Strut 18 Overflow water 19 Bottom 20 Guard

Claims (4)

  A water storage space for storing tsunami overflow water is formed under the revetment. An overflow water intake with a permeable lid is opened on the upper surface of the water storage space, and a drainage outlet is provided on the sea side of the revetment. Tsunami storm surge disaster prevention structure characterized by being opened.   The tsunami storm surge prevention structure according to claim 1, wherein the drain outlet is closed with a rotatable drain lid.   The tsunami storm surge disaster prevention structure according to claim 2, wherein the drain lid is a curtain wall or a steel flap gate and rotates forward about the upper end.   The tsunami storm surge disaster prevention structure according to any one of claims 1 to 3, wherein the permeable lid is a grating.

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