JP2017075463A - Piled sandbag structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a piled sandbag structure that sufficiently prevents an overturn and a frontward slide caused by back-face earth pressure and back-face water pressure.SOLUTION: A piled sandbag structure A of the present invention has a plurality of sandbags 1 lined up and piled for installation, and includes a plurality of rows of a sandbag group A1 having the plurality of sandbags 1 lined up next to each other. In a lower sandbag group A1 and an upper sandbag group A1 provided thereon of the sandbags 1, each of the sandbags 1 constituting the lower sandbag group A1 and each of the sandbags 1 constituting the upper sandbag group A1 are connected to each other in a horizontal direction with a tying belt 2, alternately in a vertical direction.SELECTED DRAWING: Figure 2

Description

  The present invention relates to revetment construction using sandbags such as rivers, coasts, and the like. More specifically, in revetment construction, piled sandbags that can sufficiently prevent falling and sliding forward due to backside earth pressure or backside water pressure. Concerning the structure.

Conventionally, sandbags are often used at various locations in the construction of civil engineering works on coasts, rivers, lakes, ponds and the like.
Such sandbags are generally made by filling sandbags with filling materials such as pebbles and gravel, and are heavy.

  Such a sandbag has a base fabric bag body into which the filling material is inserted, and a lifting belt attached to the base fabric bag body, and ultraviolet rays after a lapse of at least one year. A civil engineering sandbag is known in which an extra strength corresponding to the strength deterioration due to the above is given in advance (for example, Patent Document 1).

However, these sandbags for civil engineering may be subject to individual sandbags falling forward due to pressure (backside earth pressure, backside water pressure) from the back after the construction.
If it does so, earth and sand and water may leak, and in some cases, the accumulated sandbag may collapse.

For this reason, a technique for connecting and integrating sandbags has been developed.
As an example, there is a civil engineering sandbag in which a suspension belt is sewn on a base fabric bag body, the suspension belt has a loop-shaped connecting portion for attaching a connecting rope, and the connecting rope is inserted into the connecting portion (for example, , See Patent Document 2).
In this case, in the piled sandbags, the connecting ropes are passed in the vertical direction or the horizontal direction, and a large number of sandbags are integrated.
As another example, there is a three-dimensional sandbag assembly in which a plurality of sandbag bags are bound together by a single binding belt in a lateral direction via a suspension belt (see, for example, Patent Document 3). .

JP 2007-16585 A JP 2008-63767 A JP2013-241816A

However, in the civil engineering sandbag described in Patent Document 2 described above, the connecting rope is inserted through the connecting portion, so the fall of the sandbag due to the back soil pressure or the back water pressure is suppressed, but for some reason, When the rope is cut, the entire restraint is cut off, and the individual sandbags tend to collapse.
In the vertical direction, each sandbag is connected vertically by inserting a connecting rope through the connecting portion, so that it is easy to slip forward.
In particular, there is a drawback in that the forward sliding from the linearly connected vertical direction increases.
The same can be said for the forward slip in the sandbag bag described in Patent Document 3.

  This invention is made | formed in view of the said situation, and it aims at providing the piled sandbag structure which can fully prevent the fall by the back earth pressure or back water pressure, and the sliding to the front.

  The inventors of the present invention have intensively studied to solve the above problems, and found that the above problems can be solved by bundling a plurality of upper and lower sandbags alternately in the horizontal direction with a bundling belt. The knowledge has led to the completion of the present invention.

  The present invention is (1) a piled sandbag structure A in which a plurality of sandbags 1 are stacked and constructed, and sandbag groups A1 in which a large number of sandbags 1 are arranged are gathered in multiple rows to form a lower sandbag group A1. And the upper sandbag 1 group A1 disposed thereon, the sandbags 1 constituting the lower sandbag group A1 and the sandbags 1 constituting the upper sandbag group A1 are bound horizontally and alternately by the binding belt 2 It exists in the stacked sandbag structure A.

  In the present invention, (2), the sandbag 1 includes a sandbag 10 and a suspension belt 11 partially sewn to the side surface 10A and the bottom surface 10B of the sandbag 10 via a sewing portion 11A. It exists in the piled sandbag structure A of the said (1) description which is a thing.

  In the present invention, (3) the binding belt 2 is wound around the suspension belt 11 of each sandbag 1 constituting the lower sandbag group A1, and the suspension belt 11 of each sandbag 1 constituting the upper sandbag group A1 includes It exists in the piled sandbag structure A of the said (2) description tied.

  In the present invention, (4), the binding belt 2 is bound to two of the sandbags 1 of the upper sandbag group A1 with respect to one of the sandbags 1 of the lower sandbag group A1. It exists in the structure A.

  According to the present invention, (5) the first plurality of sandbag groups X1 composed of a plurality of sandbags 1 in the group A1 and the second plurality of sandbag groups X2 composed of the plurality of sandbags 1 in the sandbag group A1 are individually bundled horizontally. The stack according to the above (1), in which the surroundings are bound by the belt 2A, and a part of the sandbags 1 of the first sandbag group X1 and a part of the sandbags 1 of the second plurality of sandbag groups X2 are bound together. It exists in the sandbag structure A.

  The present invention resides in (6) a stacked sandbag structure A according to the above (5), wherein some sandbags 1 are one sandbag 1.

  In the present invention, (7) the binding belt 2 is wound around the horizontal binding belt 2A of each sandbag 1 constituting the lower sandbag group A1, and the suspension belt 11 of each sandbag 1 constituting the upper sandbag group A1. Lies in the stacked sandbag structure A described in (5) above.

  1) The stacked sandbag structure A of the present invention is a stacked sandbag structure A in which a plurality of sandbags 1 are stacked and constructed, and a plurality of sandbag groups A1 in which a plurality of sandbags 1 are arranged are gathered in multiple rows. In the lower sandbag group A1 and the upper sandbag group A1 disposed thereon, the sandbags 1 constituting the lower sandbag group A1 and the sandbags 1 constituting the upper sandbag group A1 are alternately horizontal by the binding belt 2. Since it is bound in the direction, it is possible to sufficiently prevent a fall due to back earth pressure or back water pressure and sliding forward.

  2) The sandbag 1 is composed of a sandbag bag 10 and a suspension belt 11 partially sewn to the side surface 10A and the bottom surface 10B of the sandbag bag 10 via a sewing portion 11A. The sandbags can be easily bound by the binding belt 2 via the suspension belt 11.

  3) The binding belt 2 is wound around the suspension belt 11 of each sandbag 1 constituting the lower sandbag group A1, and is tied to the suspension belt 11 of each sandbag 1 constituting the upper sandbag group A1, The upper and lower sandbags 1 can be bound more firmly.

  4) Since the binding belt 2 is bound to one of the sandbags 1 of the lower sandbag group A1, it is bound to two of the sandbags 1 of the upper sandbag group A1, so that stress due to the displacement of the upper sandbag 1 group A1 is affected by the lower sandbag. Dispersed in the first group A1.

5) The first plurality of sandbags 1 group X1 consisting of a plurality of sandbags 1 in the sandbag group A1 and the second plurality of sandbags 1 group X2 consisting of a plurality of sandbags 1 in the sandbag group A1 are respectively separated by a horizontal binding belt 2A. The sandbags 1 are part of the first sandbag group X1 and the sandbags 1 of the second plurality of sandbag groups X2 are commonly tied together, so that the single sandbags 1 are not easily displaced. Even if the binding belt 2 is cut, it only affects the sandbags 1 in the group X, and does not affect the sandbags 1 in other groups at all.
And since the periphery is united, it is avoided as much as possible that stress concentrates on a part of cloth.

  6) Since some sandbags 1 are one sandbag 1, the length of the binding belt 2 can be shortened as much as possible.

7) The binding belt 2 is wound around the horizontal binding belt 2A of each sandbag 1 constituting the lower sandbag group A1, and is tied to the suspension belt 11 of each sandbag 1 constituting the upper sandbag group A1. Therefore, the fall by the back earth pressure or back water pressure and the sliding to the front can fully be prevented.
Further, it is difficult for the sandbags 1 to be misaligned, and even if the binding belt 2 is cut, the sandbag 1 in the group X is only affected, and the sandbags 1 in other groups are not affected at all. There is.

FIG. 1 is a schematic view showing a single sandbag, (A) is a perspective view, (B) is a plan view, and (C) is a bottom view. FIG. 2 is a schematic perspective view showing the piled sandbag structure of the present embodiment. FIG. 3 is a schematic perspective view showing a plurality of sandbag groups constituting the sandbag group of the stacked sandbag structure of the present embodiment. FIG. 4 is a schematic perspective view showing the first plurality of sandbag groups and the second plurality of sandbag groups in an integrated state in the stacked sandbag structure of the present embodiment. FIG. 5 is a plan view schematically showing two plural sandbag groups in the stacked sandbag structure of the present embodiment. FIG. 6 is an example schematically showing a case where there are five sandbags constituting a plurality of sandbag groups and one common sandbag. FIG. 7 is an example schematically showing a case where there are four and five sandbags constituting each of the plurality of sandbag groups and two common sandbags. FIG. 8 is an example schematically showing the case where there are five and five sandbags constituting each of the plurality of sandbag groups and two common sandbags. FIG. 9 is a schematic perspective view showing a stacked sandbag structure of another example of the present embodiment. FIG. 10 is a schematic perspective view schematically showing a stacked sandbag structure of still another example of the present embodiment.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings as necessary.
In the drawings, the same elements are denoted by the same reference numerals, and redundant description is omitted.
Further, the positional relationship such as up, down, left and right is based on the positional relationship shown in the drawings unless otherwise specified.
Further, the dimensional ratios in the drawings are not limited to the illustrated ratios.

(First embodiment)
The piled sandbag structure A according to the present embodiment is a piled sandbag structure A in which a plurality of sandbags 1 are arranged and stacked.
In this stacked sandbag structure A, sandbag groups A1 in which a large number of sandbags 1 are arranged are gathered in multiple rows, and in the lower sandbag group A1 and the upper sandbag group A1 disposed thereon, the lower sandbag group A1 The sandbags 1 constituting the group A1 and the sandbags 1 constituting the upper sandbag group A1 are bound in the horizontal direction alternately by the binding belt 2 in the vertical direction.
The piled sandbag structure itself is usually built on top of the foundation work by a bagged cobblestone (powerful unit) and is mainly formed as a dam such as rivers, coasts, and mountain slopes. Is done.
The individual sandbags 1 constituting the stacked sandbag structure A are formed by filling a certain amount of filling material in the sandbag bag 10.
Here, as the filling material, for example, known materials such as earth and sand, gravel, stone, and concrete pieces are used.

  The stacked sandbag structure A of the present invention is constructed by stacking a large number of sandbags 1 filled with a filling material in a sandbag bag body 10. Therefore, first, the stacked sandbag structure A is a unit constituting the stacked sandbag structure A. A single sandbag 1 will be described.

(Single sandbag)
FIG. 1 is a schematic view showing a single sandbag 1, (A) is a perspective view, (B) is a plan view, and (C) is a bottom view.
As shown in the figure, the main sandbag 1 is a sandbag bag 10 filled with a filling material (not shown), and is in a cylindrical shape when filled with the filling material.

The sandbag bag 10 is made of cloth, and a suspension belt 11 is attached to the periphery of the bag 10. The suspension belt 11 has a sewing part 11A (sewing part) attached to the cloth constituting the sandbag bag 10 partly. 11A is attached through a sewing part cover 12 so as to cover 11A.
Specifically, in the side surface 10A of the sandbag bag 10, the suspension belt 11 has a sewing portion 11A inside the sewing portion cover 12, and the other portions are not sewn to the sandbag bag 10. It is a sewn part.
The suspension belt 11 is provided around the sandbag bag 10 at intervals of 90 degrees. The suspension belt 11 is endless when attached.

And in the part which is not sewn (namely, non-sewn part), since it is separated from the cloth of the bag body, the suspension belt is free and can move freely.
A part of the suspension belt 2 is also sewn on the bottom 10B of the sandbag bag 10.
Specifically, the suspension belt 11 has sewn portions 11A (here, four locations) where the outer periphery of the cross-shaped suspension belt is sewn to the sandbag bag body 10 at the bottom 10B of the sandbag bag body 10. The other parts are non-sewn parts.

The cloth of the sandbag bag 10 is made of synthetic fiber and is sewn so as to form a bottomed cylindrical shape when spread three-dimensionally.
And as above-mentioned, the inside of the sandbag bag body 10 is filled with the filling material, and by sealing the mouth portion, a cylindrical sandbag 1 as shown in the figure is obtained.
In addition, although it does not specifically limit as a method of sealing a mouth part, For example, the method of binding using a tying rope is mentioned.

The material of the fabric of the sandbag bag 10 is not particularly limited, and polyester, polypropylene, polyethylene, polyamide, and the like are used.
Among these, polypropylene is preferable from the viewpoint of durability and ease of recycling.

The sandbag bag body 10 preferably contains a reflective agent or an ultraviolet absorber. In this case, deterioration of the sandbag bag 10 due to ultraviolet rays can be suppressed.
Examples of the reflective agent include carbon black, iron oxide, chromium oxide, lead oxide, zinc oxide, magnesium oxide, titanium oxide, calcium carbonate, and barium sulfate. Examples of the ultraviolet absorber include phenyl salicylate and hydroxybenzophenone. And benzotriazole-based absorbents.

In the sandbag 10, it is preferable that the tensile strength according to JIS-L1096 is 240 N / cm or more and the water permeability according to JIS-A1218 is 1.0 × 10 ⁻² cm / s or more.
In this case, it is possible to sufficiently prevent the base fabric bag body 1 from being broken by the backside earth pressure or the backside water pressure, and to withstand the stress from the filling material.

On the other hand, the material of the suspension belt 11 is not particularly limited, and polyester, polypropylene, polyethylene, polyamide, and the like are used.
Among these, the material of the suspension belt 11 is preferably polypropylene from the viewpoint of durability and ease of recycling.

  The suspension belt 11 preferably contains a reflective agent or an ultraviolet absorber, and in this case, deterioration of the suspension belt 2 due to ultraviolet rays can be suppressed.

(Stacked sandbag structure A)
A number of sandbags 1 having the above-described configuration are stacked and bound to form a stacked sandbag structure A. Next, the stacked sandbag structure A will be described.

FIG. 2 is a schematic perspective view showing the stacked sandbag structure A of the present embodiment.
The stacked sandbag structures A are stacked in three stages in the figure, and in the first stage, which is the base of the stack, sandbag groups A1 including seven sandbags 1 are arranged in four rows in the front-rear direction. Yes.
Here, the sandbag group A1 means that sandbags 1 are arranged, that is, sandbags 1 are arranged in a row.
On the second level above the first level, sandbag groups A1 consisting of seven sandbags 1 are placed in three rows in the front-rear direction (the front side in the figure is the front).
In other words, the upper sandbag group A1 (consisting of 21 second-stage sandbags 21) is stacked on the lower sandbag group A1 (comprising 28 first-stage sandbags 28).

In addition, on the third level above the second level, sandbag groups A1 including seven sandbags 1 are placed in two rows in the front-rear direction.
That is, the upper sandbag group A1 (consisting of 14 sandbags in the third stage) is stacked on the lower sandbag group A1 (consisting of 21 sandbags in the second stage 21).

As described above, a total of 63 sandbags 1 are arranged in a total (a first-stage sandbag number 28, a second-stage sandbag number21, a third-stage sandbag1 number14), and a stacked sandbag structure. A body A is formed.
As described above, the stacked sandbag structure A is composed of a plurality of sandbag groups A1 in which a large number of sandbags 1 are arranged, but the lower sandbag group A1 and the upper sandbag group 1 disposed thereon. A major feature of A1 is that the sandbags 1 constituting the lower sandbag 1 group A1 and the sandbags 1 constituting the upper sandbag group A1 are bound in the horizontal direction alternately by the binding belt 2.

Here, the binding belt 2 (for example, a width of 10 cm) is cut to a certain length and has both ends as free ends, and can be easily wound and tied to the suspension belt 11.
For example, when paying attention to the fourth sandbag 1 (shown from the front left side in the figure, the same applies hereinafter) in the first stage, the binding belt 2 wound around the suspension belt 11 of the sandbag 1 Are tied to the suspension belt 11 of the third sandbag 1 in the second stage.
Further, the binding belt 2 is also tied to the suspension belt 11 of the fourth sandbag 1 in the second stage on the upper side.
In this way, the binding belt 2 is bound to two sandbags 1 of the upper sandbag group A1 with respect to one of the sandbags 1 of the lower sandbag group A1 in a state of being bundled in a V shape. Thus, the stress for preventing the shift of the lower sandbag group A1 is distributed to the upper sandbag group A1.

Here, the length of the binding belt 2 needs to be at least a unit length for binding in the V shape.
Next, when paying attention to the fifth sandbag 1 in the first stage, the binding belt 2 wound around the suspension belt 11 is then the suspension belt 11 of the fourth sandbag 1 in the second stage on the upper side. It is tied to
The binding belt 2 is also tied to the suspension belt 11 of the fifth sandbag 1 in the second stage on the upper side.
Also in this case, the binding belt 2 is in a state of being bound in a V shape.

Hereinafter, it can be understood from the figure that the first and second sandbags 1 are similarly bound by the binding belt 2 in the horizontal direction alternately in the vertical direction and extend in a zigzag shape. Like.
The second and third stage sandbags 1 are also bound by the binding belt 2 in the same manner as the first and second stage sandbags 1 described above.
Such binding can be performed in a state where the sandbags 1 are stacked, but can also be performed during work in the middle of stacking.
In the stacked sandbag structure A of the present invention, since the top and bottom sandbags 1 are alternately bound in the horizontal direction, the sandbag group A1 bound vertically is prevented from moving forward as much as possible. Will be.

(Sandbag group)
By the way, in the above-mentioned stacked sandbag structure A, it is effective to divide and bind the sandbag group A1 into groups in order to reduce movement between individual sandbags.
In other words, among the sandbags 1 constituting the sandbag group A1, a plurality of sandbags 1 are grouped, and the grouped sandbag groups X (the first plurality of sandbag groups X1 and the second plurality of sandbags 1 group X2) are integrated. is there.
Hereinafter, the sandbag group X will be described.

FIG. 3 is a schematic perspective view showing a plurality of sandbag groups X constituting the sandbag group A1 of the stacked sandbag structure A of the present embodiment.
A plurality of sandbags 1 are united together as one group X from a horizontal binding belt 2A.
A plurality of sandbag groups X in which the plurality of sandbags 1 are arranged horizontally are united together in a row, which is a basic unit of repetition.
In the example of this figure, four sandbags 1 are horizontally arranged and bound together to form a plurality of sandbag groups X.
The horizontal binding belt 2A is integrally bound around the group while being wound around the suspension belt 11 of each sandbag 1.
Accordingly, the sandbags are less likely to be misaligned and are strongly bound together as a group.

FIG. 4 is a schematic perspective view showing the second plurality of sandbag groups X2 in the same state as the first plurality of sandbag groups X1 in an integrated state in the stacked sandbag structure A of the present embodiment.
The multiple sandbag group X1 is bundled with another multiple sandbag group X2.
Specifically, for example, the first plurality of sandbag groups X1 and the second plurality of sandbag groups X2 are prepared, and the sandbags 1 constituting the first plurality of sandbag groups X1 and the second plurality of sandbag groups X2 are made common. The periphery is bound by the horizontal binding belt 2A.
That is, some sandbags 1 of the first plurality of sandbag groups X1 and some sandbags 1 of the second plurality of sandbag groups X2 are bound together.
In the example of this figure, one sandbag 1 located at the right end of the first plurality of sandbag groups X1 consisting of four sandbags 1 and the left end of the second plurality of sandbag groups X2 consisting of four sandbags 1 are also shown. A single sandbag 1 is bound together.

FIG. 5 is a plan view schematically showing two multiple sandbag groups X in the stacked sandbag structure A of the present embodiment.
In the case of this figure, it is an example which shows the case where the number of the sandbags 1 which comprise the multiple sandbag group X is four, and the common sandbag 1 is one.
The number of sandbags 1 constituting the first plurality of sandbag groups X1 is four, and the number of sandbags 1 constituting the second plurality of sandbag groups X2 is also four.
And the sandbag 1 located in the right end part among the sandbags 1 constituting the first plurality of sandbag groups X1 and the sandbag 1 located in the left end part of the sandbags 1 constituting the second plurality of sandbag groups X2 are made common. Bundling is performed by the horizontal binding belt 2A.

Specifically, for example, four sandbags 1 constituting the first plurality of sandbag groups X1 are arranged and bound in a row, and then the four sandbags 1 constituting the second plurality of sandbag groups X2 are arranged in a row in the extending direction. The sandbags 1 (indicated by hatching) located in the middle are bound together so as to be in common.
Here, the length L of the horizontal binding belt 2A varies depending on the number of sandbags 1 to be connected and fixed, but the diameter D (for example, 1.1 m) of the sandbag bag body 10 and the number N (for example, four) of sandbags 1 are included. Then, L = (N−1) × D + Dπ + α.
Α is a length used for fixing to the suspension belt.

FIG. 6 is an example schematically showing a case where there are five sandbags 1 constituting a plurality of sandbag groups X and one sandbag 1 in common.
In this case, the number of sandbags 1 constituting the first plurality of sandbag groups X1 is five, and the number of sandbags 1 constituting the second plurality of sandbags 1 group X2 is also five.
And the sandbag 1 located in the right end part among the sandbags 1 constituting the first plurality of sandbag groups X1 and the sandbag 1 located in the left end part of the sandbags 1 constituting the second plurality of sandbag groups X2 are made common. Bundling is performed by the horizontal binding belt 2A.
Specifically, for example, the sandbags 1 constituting the first plurality of sandbag groups X1 are arranged and bound in a row, and then the sandbags 1 constituting the second plurality of sandbag groups X2 are arranged in a row in the extending direction. , One sandbag 1 (indicated by diagonal lines) located in the center is bound together.

FIG. 7 is an example schematically showing the case where there are four and five sandbags 1 and two common sandbags 1 constituting each of the plurality of sandbag groups X1.
In this case, the number of sandbags 1 constituting the first plurality of sandbag groups X1 is four, and the number of sandbags 1 constituting the second plurality of sandbag groups X2 is five.
And the sandbag 1 located in the right end part among the sandbags 1 which comprise the 1st multiple sandbag group X1, the sandbag 1 located in the left, and the sandbag 1 which comprises the 2nd multiple sandbag group X2 are located in the left end part. The sandbag 1 and the sandbag 1 located to the right of the sandbag 1 are bound together by a horizontal binding belt 2A.
Specifically, for example, the sandbags 1 constituting the first plurality of sandbag groups X1 are arranged and bound in a row, and then the sandbags 1 constituting the second plurality of sandbag groups X2 are arranged in a row in the extending direction. Two sandbags 1 (indicated by diagonal lines) are bound together.

FIG. 8 is an example schematically showing a case where there are five and five sandbags 1 constituting each of the plurality of sandbag groups X and two sandbags 1 in common.
In this case, the number of sandbags 1 constituting the first plurality of sandbag groups X1 is five, and the number of sandbags 1 constituting the second plurality of sandbag groups X2 is five.
And the sandbag 1 located in the right end part among the sandbags 1 which comprise the 1st multiple sandbag group X1, the sandbag 1 located in the left, and the sandbag 1 which comprises the 2nd multiple sandbag group X1 are located in the left end part. The sandbag 1 and the sandbag 1 located to the right of the sandbag 1 are bound together by a horizontal binding belt 2A.
Specifically, for example, the sandbags 1 constituting the first plurality of sandbag groups X1 are arranged and bound in a row, and then the sandbags 1 constituting the second plurality of sandbag groups X2 are arranged in a row, Two sandbags 1 (indicated by oblique lines) located in the center are bound together.
Next, the stacked sandbag structure A will be described.

FIG. 9 is a schematic perspective view schematically showing a stacked sandbag structure A of another example of the present embodiment.
The upper and lower sandbags 1 are bundled in the same manner as in the case of FIG. 2, except that a plurality of (four) sandbags 1 are arranged in a row and bound together by a horizontal binding belt 2A. A plurality of sandbags 1 group X are formed.
In the two sandbag groups X, one sandbag 1 out of the four sandbags 1 constituting them is united.
That is, a part (one) of sandbags 1 of the first plurality of sandbag groups X1 and a part (one) of sandbags 1 of the second plurality of sandbag groups X are bound together.
By doing in this way, the movement of the individual sandbags 1 arranged in a row is less likely to occur, and the entire sandbag group becomes sturdy without being separated.

By connecting in the vertical direction as in the first embodiment, it can be prevented from collapsing forward, and as in this embodiment, a plurality of sandbags 1 group X are arranged in a row. By bundling, the degree of freedom of movement of each sandbag 1 can be suppressed for each group X.
Moreover, since a part (one piece) of sandbags 1 of the first plurality of sandbag groups X1 and a part (one piece) of sandbags 1 of the second plurality of sandbag groups X2 are bound together, such a binding is repeated. As a result, the sandbags 1 group X are integrated continuously one after another, and the extension is easily performed.
That is, when the sandbag group A1 is long, in addition to the first plurality of sandbag groups X1 and the second plurality of sandbag groups X2, it is further extended sequentially as a third plurality of sandbag groups.. It will be something.

FIG. 10 is a schematic perspective view schematically showing a stacked sandbag structure A of still another example of the present embodiment.
Similarly to the example of FIG. 9, this stacked sandbag structure A is composed of a plurality of sandbag groups A1 in which a large number of sandbags 1 are arranged, and the lower sandbag group A1. In the upper sandbag 1 group A1 disposed thereon, the sandbags 1 constituting the lower sandbag 1 group A1 and the sandbags 1 constituting the upper sandbag group A1 are bound in the horizontal direction alternately by the binding belt 2 in the vertical direction. It is what has been.

In this case, the binding belt 2 is not tied to the vertical suspension belt 11 of the lower sandbag 1, but is tied to the horizontal binding belt 2A (in this case, the substantially middle position of the horizontal binding belt 2A).
The binding belt 2 is bound to a vertical suspension belt 11 on the upper sandbag 1.
When the binding belt 2 is bound to the vertical suspension belt 11 or the horizontal binding belt 2A, the binding belt includes a winding method and a binding method.

  Here, although not shown, the binding belt 2 is bound to the intersection of the suspension belt 11 and the horizontal binding belt 2A (that is, the intersection of the vertical suspension belt 11 of the lower sandbag 1 and the horizontal binding belt 2A). Of course it is good.

As mentioned above, although preferred embodiment of this invention was described, this invention is not limited to embodiment mentioned above.
For example, as for the form of stacking, various stacking methods other than those shown in FIG. 2 and FIG. 9 are possible, and the total number of sandbags 1 constituting the stacked sandbag structure A is 63. Of course, it is also possible to increase the number of sandbags 1 at each stage to increase the overall size.

Further, when the binding belt 2 is wound around the suspension belt 11 or the horizontal binding belt 2A, it is possible to wrap one or many windings. When the binding belt 2 is tied to the suspension belt 11, the binding method is easy. Unless you can solve it, you are free.
Further, the bundling belt 2 and the horizontal bundling belt 2A may be doubled or tripled.
Further, for example, four hanging belts attached to the side surface 10A in the sandbag bag body 10 according to the present embodiment are shown, but the present invention is not limited to this.

In the stacked sandbag structure A according to the present invention, a sandbag group A1 in which a large number of sandbags 1 are arranged is gathered in multiple rows. In the lower sandbag group A1 and the upper sandbag group A1 disposed thereon, Since each sandbag 1 constituting the sandbag group A1 and each sandbag 1 constituting the upper sandbag group A1 are bound in the horizontal direction alternately by the binding belt 2, the sandbag 1 falls over and receives the backside earth pressure or the backside water pressure. Can be prevented sufficiently.
Therefore, as long as this principle is used, it can be widely applied to revetment work, as well as work including slope work such as mountains.

DESCRIPTION OF SYMBOLS 1 ... Sandbag 10A ... Side surface 10B ... Bottom 11 ... Suspension belt 11A ... Sewing part 12 ... Sewing part cover 2 ... Bundling belt 2A ... Bundling belt for horizontal A ... Stacked sandbag structure A1 ... Sandbag group X ... Multiple sandbag groups X1 ... First sandbag group X2 ... Second sandbag group

Claims (7)

  It is a piled sandbag structure in which a plurality of sandbags are stacked side by side, and a group of sandbags with a large number of sandbags arranged in multiple rows, and in the lower sandbag group and the upper sandbag group arranged on it A stacked sandbag structure, wherein each sandbag constituting the lower sandbag group and each sandbag constituting the upper sandbag group are bound in the horizontal direction alternately in the vertical direction by a binding belt.   The sandbag includes a sandbag bag and a hanging sandbag partly sewn on a side surface and a bottom surface of the sandbag bag via a sewing portion. Structure.   The stacking belt according to claim 2, wherein the binding belt is wound around a suspension belt of each sandbag constituting the lower sandbag group, and is tied to a suspension belt of each sandbag constituting the upper sandbag group. Sandbag structure.   4. The stacked sandbag structure according to claim 3, wherein the binding belt is bound to two sandbags of the upper sandbag group with respect to one sandbag of the lower sandbag group.   An eleventh plurality of sandbag groups consisting of a plurality of sandbags in the sandbag group and a second plurality of sandbag groups consisting of a plurality of sandbags in the sandbag group are individually bound together by a horizontal binding belt, and the first plurality of sandbag groups The stacked sandbag structure according to claim 1, wherein a part of sandbags of the sandbag group and a part of sandbags of the second plurality of sandbag groups are bound together.   The stacked sandbag structure according to claim 5, wherein some sandbags are one sandbag. 6. The stacked sandbag structure according to claim 5, wherein the binding belt is wound around a horizontal binding belt of each sandbag constituting the lower sandbag group, and is tied to a suspension belt of each sandbag constituting the upper sandbag group.

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