JP2007016461A - Construction method of inclined bank - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a construction method of an inclined bank capable of constructing the inclined bank having an optional inclination without requiring curing by promoting reuse of these by using dredging earth and construction surplus soil. <P>SOLUTION: After erecting partition walls 2w to 2z at a predetermined interval on the ground G from an upright bank 10, solidified processing earth 3 composed of the construction surplus soil and a solidifying agent such as cement is poured in, and a layer composed of the solidified processing earth 3 is stacked, to thereby construct the stairs-shaped inclined bank of increasing its height for approaching the upright bank 10. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a method for constructing a sloped levee, and in particular, by using dredged soil and construction residual soil, it promotes the reuse of these residual soils, does not require curing, and has an arbitrary inclination angle. The present invention relates to a method for constructing a sloped embankment that enables construction of a dike.

  In recent years, inclined levee has been adopted as a means to protect the coast. This is because the inclined levee can gradually weaken the wave force due to its structure, so it has high utility value as a means against storm surges and tsunamis, and existing revetment structures such as upright dykes. This is because it can be constructed as attached to an object, and is therefore considered to have a high utility value as a means for reinforcing an aging existing revetment structure.

  In particular, in recent years, countermeasures against storm surges have become indispensable due to the increase in the size of typhoons due to global warming, and as a means to deal with major earthquakes, measures to improve seismic reinforcement of existing revetment structures are required Since then, attention has been focused on the sloping dyke.

  In addition, the slope bank can be used in this respect because it can contribute to effective use of the coast and improvement of the landscape compared to conventional revetment structures, such as enabling the formation and planting of tidal flats. High value. In addition, the effective use of the coast and the improvement of the landscape should be taken into consideration when the coast is improved under the coast law revised in 1999.

  Conventionally, such an inclined bank has been constructed by stacking stones, concrete blocks, and the like. However, in recent years, the effective use of residual soil from dredging and construction work has become an issue in the civil engineering and construction industry due to the lack of treatment plants. A method of forming a slope bank by using a soil mixed with an agent to form a foundation of a slope bank and placing concrete on the foundation is being implemented.

  FIG. 12 shows a cross section of the inclined dyke 21 constructed by such a method. In this figure, 22 is a base made of soil obtained by mixing a solidifying agent such as cement with the remaining soil, 23 is a concrete layer, 24 is an existing upright embankment, and 25 is an embankment built on the land side of the upright embankment 24. , G represents the ground respectively. And this slope bank 21 is constructed | assembled by the method as demonstrated below fundamentally.

  First, the base 22 is formed on the sea side of the upright dike 24 by placing a soil obtained by mixing the remaining soil with a solidifying agent such as cement. The soil used here is used after curing in another place until it becomes a predetermined hardness after mixing the solidifying agent with the remaining soil so that the shape of the foundation 22 to be formed can be maintained. To do. This is because if the curing is insufficient, the piled up soil will collapse, and the base 22 cannot be suitably formed.

  Thereafter, concrete is cast on the surface of the base 22 to form a concrete layer 23. In this way, the inclined bank 21 having a predetermined inclined surface is constructed.

JP 2000-192460 A JP 2003-3476 A JP-A-5-209407

  In the construction method as described above, the soil for forming the foundation must be cured to a predetermined hardness, so a considerable curing period and a site for curing must be secured. There was a problem. In particular, there is a problem that such a construction method cannot be implemented in a place where such a site cannot be secured.

  In addition, the construction method as described above has a problem that the soil accumulated to form the foundation is taken to the waves depending on the tidal conditions at the construction site. In addition, such a problem can be solved by standing a water-stop sheet pile, etc. on the offshore side of the place where the inclined bank is to be constructed. There was a problem that it had to be done separately.

  The present invention has been made to solve the problems related to the conventional method of constructing an inclined bank as described above. As a means for this, the method for constructing an inclined levee according to the present invention includes a plurality of partition walls on a ground within a range where an inclined levee is to be constructed, with a predetermined interval, and a shore (or an upright levee etc. As the distance from the revetment structure (the same applies below) increases, the height of each partition wall gradually rises, and then the farthest partition wall from the shore within the range where the inclined bank is to be constructed. The muddy solidified soil is poured to a predetermined height not exceeding the height of the first layer to form a first layer made of the solidified soil, and then on the first layer, and Pour mud-like solidified soil into a predetermined height that does not exceed the height of the partition wall near the one shore within the range from the partition wall near the one shore to the shore side rather than the partition wall farthest from the shore. Then, a second layer made of the solidified soil is formed, and then the second layer is formed on the second layer. And within a range from the partition wall closer to the two banks than the partition wall farthest from the bank, to a predetermined height not exceeding the height of the partition wall close to the two banks. Pour the solidified soil and form a third layer of solidified soil, stack the layers of solidified soil and build a stair-like sloped levee that increases in height as you approach the shore It is characterized by doing.

  Moreover, the construction method of the inclined levee according to the present invention includes the first partition wall standing on the ground located at the outer edge of the range where the inclined levee is to be constructed, The muddy solidified soil is poured to a predetermined height not exceeding the height of the partition wall to form a first layer made of the solidified soil, and then the second partition wall is moved to the first partition. After standing upright on the first layer so that the height is higher than the first partition wall at a predetermined interval from the first partition wall on the shore side of the wall, The muddy solidified soil is poured into a predetermined height not exceeding the height of the second partition wall to form a second layer of the solidified soil, and then the third partition wall is A predetermined distance from the second partition wall on the shore side of the second partition wall, the height of which is higher than that of the second partition wall. As described above, the muddy solidified soil is poured to a predetermined height not exceeding the height of the third partition wall after being erected on the second layer. It is characterized in that a layer of solidified soil is stacked to form a stair-like sloped bank whose height increases as it approaches the shore.

  In the construction method of the inclined bank according to the present invention, when the partition wall is removed from the constructed inclined bank after the solidified soil is solidified, the sheet pile constituting the partition wall is used. Etc. can be reused.

  The method for constructing a sloped embankment according to the present invention is characterized by constructing a sloped embankment using the remaining soil generated by dredging work and construction work, and can effectively utilize these remaining soils. Thereby, it can contribute to the solution of the problem of the shortage of the remaining soil treatment plant.

  Moreover, since the construction method of the inclined levee according to the present invention is characterized in that a step-like inclined levee is constructed using a partition wall, the soil obtained by mixing the solidifying agent with the remaining soil is not cured. In addition, it can be used as it is. Therefore, it is possible to construct an inclined bank even in a place where such a site cannot be secured without requiring time or site for curing such mud soil.

  In addition, since the construction method of the inclined bank according to the present invention uses the partition wall, the height and depth of the staircase portion can be freely determined and constructed, thereby having an arbitrary inclination angle. An inclined bank can be constructed. In addition, because of the action of the standing partition walls, the soil before solidification is not carried by the waves at the time of construction, so it is possible to construct an inclined bank regardless of tidal conditions.

  Furthermore, according to the construction method of the slope bank according to the present invention, the slope bank can be constructed so as to be attached to the existing seawall structure, so that the aging existing seawall structure is reinforced. Can do.

  The best mode for carrying out the present invention will be described below with reference to the drawings. FIG. 1A is a plan view of an inclined bank 1 constructed by the method according to the present embodiment, and FIG. 1B is a cross-sectional view taken along line LL. The inclined bank 1 is constructed so as to have a stepped step on the sea side of the upright bank 10 as shown. In FIG. 1, reference numeral 11 denotes an embankment built on the land side of the upright embankment 10, and G denotes the ground.

  The inclined bank 1 is constructed by the method described below. First, as shown in FIG. 2 (A), sheet piles are placed side by side on the outer edge of the range where the inclined bank 1 is to be constructed and the ground G in the range, and a plurality of partition walls 2 (2a to 2d, 2w to 2z).

  At this time, as shown in FIG. 2 (B), the partition wall 2 that is erected substantially parallel to the upright embankment 10 (the partition wall indicated by 2w to 2z in FIG. 2), Each of the partition walls 2 is erected so that the height of each partition wall 2 gradually decreases as the distance from the shore increases, that is, the distance from the upright dike 10 increases from the upright dike 10. Moreover, about the partition wall 2 (2a, 2a-2d, the partition wall shown by 2d) erected substantially perpendicularly with respect to the upright embankment 10, the height is 2w, 2b, 2b, 2b is set up to be 2x, 2c and 2c are set to 2y, and 2d and 2d are set at the same height as 2z.

  In addition, about the partition wall 2 (partition wall shown by 2a-2d and 2z in FIG. 2) standingly arranged in the ground G located in the outer edge of the range which is going to construct the slope bank 1, "solidification process mentioned later" In order to prevent tilting due to “pouring of soil”, it is preferable to take means (not shown) for preventing this tilting. As such means, for example, it is conceivable to deepen the penetration length of the partition walls 2a to 2d and 2z, or to pile up stones or the like to make a bank for consolidation.

  Next, as shown in FIG. 3, the muddy solidified soil 3 is poured into a range where the inclined bank 1 is to be constructed. The solidified soil 3 is a soil that has been treated to solidify from a mud state after a predetermined time has elapsed, and is manufactured by mixing a solidifying agent such as cement with the soil as a raw material.

  The soil as the raw material for the solidified soil may be any soil, but it is preferable to use the remaining soil generated by dredging or building work, such as dredged soil or building remaining soil. Moreover, it is also possible to manufacture lighter solidified soil by adding air or foam beads to this during manufacturing.

  When pouring the mud-like solidified soil 3, as shown in FIG. 3, in order to prevent tilting of each partition wall 2 erected, it is poured evenly into the entire range where the inclined bank 1 is to be constructed. In this way, the poured solidified soil 3 is maintained at substantially the same height within the range. Thus, the 1st layer which consists of the solidification processing soil 3 is formed by pouring the solidification processing soil 3 until it becomes substantially the same height as the partition wall 2z furthest from the upright embankment 10.

  After the first layer is formed, next, as shown in FIG. 4, the partition wall 2y and the upright dike until the height is substantially the same as the partition wall 2y closer to the upright dike 10 than the partition wall 2z. 10, the muddy solidified soil 3 is poured to form a second layer made of the solidified soil 3. Also in this case, in order to prevent the partition walls 2 from being tilted, the poured solidified soil 3 is poured evenly so that it has almost the same height.

  When the second layer is formed, as shown in FIG. 5, the partition wall 2 x and the upright dike 10 are kept at the same height as the partition wall 2 x closer to the upright dike 10 than the partition wall 2 y. In between, the muddy solidified soil 3 is poured to form a third layer made of the solidified soil 3.

  In this way, by stacking the layers made of the solidified soil 3, the stair-like sloped levee 1 whose height increases as it approaches the upright levee 10 as shown in FIG. 1 is constructed.

  Next, a second embodiment of the method for constructing an inclined bank according to the present invention will be described. 6A is a plan view of the inclined bank 1 constructed by the method according to the present embodiment, and FIG. 6B is a cross-sectional view taken along line LL.

  Also in the construction method according to the present embodiment, as in the first embodiment, first, the sheet piles are placed side by side on the outer edge of the range where the inclined bank 1 is to be constructed and the ground G within the range, A plurality of partition walls 2 (2a to 2d, 2w to 2z) are erected.

  However, at this time, among the partition walls 2 that are erected substantially parallel to the upright embankment 10 (partition walls indicated by 2w to 2z in FIG. 6), as shown in FIG. 6 (A). In addition, as shown in FIG. 6 (B), the width increases as the distance from the upright embankment 10 increases and the distance from the upright embankment 10 increases. The partition wall 2 is erected so that the height is gradually lowered.

  Moreover, about the partition wall 2 (partition walls 2a, 2a-2d, 2d) erected at a substantially right angle with respect to the upright dike 10, as shown in FIG. The both ends of the partition walls 2w to 2z that are erected are connected to the upright dike 10, and the heights thereof are 2w for 2a, 2a, 2x for 2b, 2b, 2x, 2c, 2c. Is set up so that 2y, 2d, and 2d have the same height as 2z.

  When all the partition walls 2 are erected, as in the first embodiment (see FIG. 3), the muddy solidified soil 3 is poured into the range where the inclined bank 1 is to be constructed. Also in this case, in order to prevent the tilting of each partition wall 2 erected, the mud-like solidified soil 3 is uniformly poured into the entire range where the inclined bank 1 is to be constructed. Within the range, the same height is maintained. In this way, the muddy solidified soil 3 is poured into the partition wall 2z farthest from the upright embankment 10 until the same height as the partition wall 2z, and a first layer made of the solidified soil 3 is formed.

  Once the first layer is formed, next, the partition wall 2y, the upright embankment 10, and the partition wall 2y that is closer to the upright embankment 10 than the partition wall 2z within the range surrounded by the partition walls 2c, 2c, The muddy solidified soil 3 is poured until the same height is reached, and a second layer made of the solidified soil 3 is formed (see FIG. 4). Also in this case, in order to prevent the standing partition walls 2 from being tilted, the solidified soil 3 that has been poured is poured uniformly so as to have substantially the same height.

  When the second layer is formed, the height of the partition wall 2x, the upright dike 10 and the partition wall 2x that is closer to the upright dike 10 than the partition wall 2y is within the range surrounded by the partition walls 2b and 2b. Until that time, the muddy solidified soil 3 is poured to form a third layer made of the solidified soil 3 (see FIG. 5).

  In this way, by stacking the layers made of the solidified soil 3, the height increases as it approaches the upright embankment 10 as shown in FIG. 6, and the width decreases as the height increases. The staircase-shaped sloped dam 1 is constructed.

  Next, a third embodiment of the method for constructing an inclined bank according to the present invention will be described. FIG. 7A is a plan view of the inclined bank 1 constructed by the method according to the present embodiment, and FIG. 7B is a cross-sectional view taken along the line LL.

  In addition, the construction method of the slope bank according to the present embodiment does not set up all the partition walls 2 first, but alternately sets up the partition walls 2 and pours the muddy solid-treated soil 3. It is characterized by being performed. This will be described in more detail below.

  First, as shown in FIG. 8, sheet piles are placed side by side on the ground G located at the outer edge of the range where the inclined bank 1 is to be constructed, and the first partition wall 2A having a predetermined height is provided. Stand up.

  Next, the muddy solidified soil 3 is poured into the range where the sloped dam 1 surrounded by the first partition wall 2A is to be constructed until it becomes almost the same height as the partition wall 2A. A first layer made of the treated soil 3 is formed.

  Then, after waiting for this solidified soil 3 to solidify to some extent, as shown in FIG. 9, the second partition wall 2B is placed on the first layer from the first partition wall 2A to a predetermined level. It stands upright so that the height may become higher than 2 A of 1st partition walls.

  When the second partition wall 2B is erected, as shown in FIG. 10, the muddy solidified soil 3 is poured into a range surrounded by the second partition wall 2B and the upright dike 10, and the solidification treatment is performed. A second layer made of soil 3 is formed.

  In this way, when the partition wall 2 is erected, the muddy solid-treated soil 3 is poured into the range surrounded by the erected partition wall 2 and the upright embankment 10, By alternately repeating the process of stacking the layers, the height increases as it approaches the upright embankment 10 as shown in FIG. 7, and the width decreases as the height increases. Build the slope bank 1

  In the method according to the present embodiment, since the partition walls 2 are driven in the layer formed by the solidified soil 3, the length of each partition wall 2 can be reduced. Therefore, according to this method, compared with the method according to the first and second embodiments described above, the construction period at the time of placing can be shortened and the economic efficiency can be improved.

  In the embodiment described above, the partition walls 2 are embedded in the inclined bank 1 as they are after the construction. However, after the inclined walls 1 are constructed, these partition walls 2 may be removed. good. It is because the sheet pile etc. which comprise the partition wall 2 can be reused by removing the partition wall 2. FIG. However, if the partition wall 2 is not removed and is left embedded in the inclined levee 1, it is more difficult to scour and the stronger inclined levee 1 can be constructed.

  Further, in the embodiment described above, when the muddy solidified soil 3 is poured, it is poured until it becomes almost the same height as the predetermined partition wall 2 appropriately selected. For example, the muddy solidified soil 3 may be poured to a predetermined height that does not exceed the height of the predetermined partition wall 2.

  Furthermore, in the embodiment described above, the upright dike 10 is used as a reference for determining the position and orientation of the partition wall 2 for convenience of explanation. In the present invention, instead of the upright dike 10, Other revetment structures can be used as the standard.

  Further, as shown in FIG. 11, a stone step 4 is installed on the inclined bank 1 constructed by the method described above, or the upper surface of the inclined bank 1 is covered with soil 5, and a concrete staircase 6 is provided there. Or you may plant the flower 7. By doing in this way, the inclined bank concerning the present invention can be made the appearance which suits the surrounding scenery more. In this figure, reference numeral 8 denotes a dam for root consolidation installed as a means for preventing the partition wall 2 farthest from the upright levee 10 from being tilted.

The top view of the inclined bank 1 which concerns on 1st embodiment of this invention, and its sectional drawing. Explanatory drawing of the construction method of the inclined bank 1 which concerns on 1st embodiment of this invention. Explanatory drawing of the construction method of the inclined bank 1 which concerns on 1st and 2nd embodiment of this invention. Explanatory drawing of the construction method of the inclined bank 1 which concerns on 1st and 2nd embodiment of this invention. Explanatory drawing of the construction method of the inclined bank 1 which concerns on 1st and 2nd embodiment of this invention. The top view of the inclined bank 1 which concerns on 2nd embodiment of this invention, and its sectional drawing. The top view of the inclined bank 1 which concerns on 3rd embodiment of this invention, and its sectional drawing. Explanatory drawing of the construction method of the slope bank 1 which concerns on 3rd embodiment of this invention. Explanatory drawing of the construction method of the slope bank 1 which concerns on 3rd embodiment of this invention. Explanatory drawing of the construction method of the slope bank 1 which concerns on 3rd embodiment of this invention. The figure which showed an example of the usage condition of the inclined bank 1 which concerns on this invention. Sectional drawing of the conventional inclined bank 21. FIG.

Explanation of symbols

1: Inclined embankment,
2: Partition wall
2a to 2d: partition walls erected substantially at right angles to the upright embankment 10,
2w to 2z: partition walls erected substantially parallel to the upright embankment 10,
2A: first partition wall,
2B: second partition wall,
2C: third partition wall,
2D: the fourth partition wall,
3: Solidified soil,
4: Stone steps
5: Sat,
6: Concrete stairs,
7: Flower,
8: Embankment for consolidation,
10: Upright embankment,
11: Embankment,
21: Inclined embankment,
22: Foundation,
23: Concrete layer
24: Upright embankment,
25: Embankment,
G: Ground

Claims (3)

A plurality of partition walls are erected on the ground within the range where the inclined bank is to be constructed so that the height of each partition wall gradually decreases as the distance from the shore increases. From
The muddy solidified soil is poured to a predetermined height that does not exceed the height of the partition wall farthest from the shore within the range where the inclined bank is to be constructed, thereby forming a first layer of solidified soil. And
Thereafter, the height of the partition wall near the one shore within the range on the shore side from the partition wall closer to one shore than the partition wall farthest from the shore above the first layer. The muddy solidified soil is poured to a predetermined height that does not exceed, forming a second layer of solidified soil,
After that, the height of the partition wall near the two banks is within the range on the shore side from the partition wall that is on the second layer and closer to the two banks than the partition wall farthest from the bank. By pouring the muddy solidified soil to a predetermined height not exceeding the thickness, and forming a third layer made of the solidified soil,
A method for constructing an inclined levee characterized by stacking layers of solidified soil and constructing a step-like inclined levee that increases in height as it approaches the shore. After the first partition wall is erected on the ground located at the outer edge of the range where the inclined bank is to be constructed, within the range, up to a predetermined height not exceeding the height of the first partition wall, Pour the muddy solidified soil to form the first layer of solidified soil,
Thereafter, the second partition wall is located on the shore side of the first partition wall at a predetermined interval from the first partition wall so that the height of the second partition wall is higher than that of the first partition wall. Then, the muddy solidified soil is poured to a predetermined height that does not exceed the height of the second partition wall after being erected on the first layer, and the second layer made of the solidified soil. Form the
After that, the third partition wall is located on the shore side of the second partition wall at a predetermined interval from the second partition wall, and the height thereof is higher than that of the second partition wall. As described above, the muddy solidified soil is poured to a predetermined height not exceeding the height of the third partition wall after being erected on the second layer. By forming a layer
A method for constructing an inclined levee characterized by stacking layers of solidified soil and constructing a step-like inclined levee that increases in height as it approaches the shore.   The method for constructing an inclined levee according to claim 1 or 2, wherein the partition wall is removed from the constructed inclined dyke after the solidified soil is solidified.

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