JP2008144440A - Earth retaining structure and method of constructing earth retainer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an earth retaining structure capable of being easily constructed and having a stable structure. <P>SOLUTION: This earth retaining structure 10 comprises an earth retaining frame body 11 formed by continuously connecting cells 15, 15, etc., 19, 19, etc. installed on a ground 1 and opening upward in a generally horizontal direction: and sandbags 12, 12, etc. placed in these cells. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an earth retaining structure and an earth retaining construction method that are preferably used for construction of a slope and a retaining wall.

  Earth retaining is provided to prevent landslides or sediment runoff on slopes in mountainous areas, or to revet a river. There are generally retaining walls that form a steep slope and slopes that form a gentle slope. Conventionally, the slope and the retaining wall have been constructed of concrete, but the slope and the retaining wall may collapse due to the natural settlement of the ground or embankment that holds the earth. Therefore, in Patent Document 1, a frame for earthwork in which a large number of cells are continuously formed with a belt-like base material made of a nonwoven fabric or cloth and a belt-like base material on one end side is impregnated with a bitumen material is placed on the embankment. A method frame construction method is disclosed in which the cells are laid and filled with granular materials or solidified materials while rolling. According to such a technique, since the granular material or solidified material filled in each cell is securely held in the cell and does not flow out, it is said that an extremely stable embankment structure can be constructed.

  In recent years, earth retaining structures in harmony with nature have been used from the viewpoint of nature conservation. Therefore, in Patent Document 2, a plurality of resin nets are combined to prepare a resin net structure assembly, and the resin net structure assembly is spread to form a space whose planar shape is a honeycomb shape to form a ground surface. A method for constructing a slope is disclosed in which the space portion is filled with soil and / or gravel. According to such a technique, weeds are easy to grow naturally, and a durable retaining wall or slope can be easily constructed.

Furthermore, a slope or a retaining wall is also constructed by stacking or arranging large sandbags. In disaster recovery for river scouring and slope collapse due to heavy rain, until the start of this construction, large sandbags are installed to construct slopes or retaining walls to prevent the spread of disasters. In addition, a sandbag is placed between the layers formed of a plurality of resin nets.
JP-A-11-172678 Japanese Patent Laid-Open No. 11-1000084

  However, the method frame construction method described in Patent Document 1 has a problem that a work load is large because it is necessary to fill each cell with a granular material or a solidified material while rolling.

  Further, the slope construction method described in Patent Document 2 also has a problem in that the work load is large because it is necessary to fill the space formed in the resin net structure assembly with soil and / or gravel. .

  In addition, when installing large sandbags or placing sandbags between layers of multiple resin nets, work is easy but individual large sandbags are independent, so earth pressure, etc. There was a problem that it was weak to the external load, and sometimes collapsed. Moreover, since the sandbag is inferior in weather resistance, there is a possibility that it will not be able to withstand an external load such as earth pressure over time only by installing the sandbag.

  Then, this invention makes it a subject to provide the construction method of the earth retaining structure which is easy to construct | assemble, and whose structure was stable, and the earth retaining structure.

  The present invention will be described below. In order to facilitate understanding of the present invention, reference numerals in the accompanying drawings are appropriately added in parentheses, but the present invention is not limited to the illustrated embodiment.

  According to the first aspect of the present invention, a plurality of cells (15, 15,..., 19, 19,... (Hereinafter referred to as “15, 19,...”)) Opened on the ground (1) are opened. An earth retaining structure (10) comprising: an earth retaining frame (11) formed continuously in a substantially horizontal direction and an earthen wall (12, 12, ...) filled in a cell. The problem is solved by providing.

  A cell is a space separated by a frame. Although the upper part of the cell is opened, there is no limitation as to whether the range of the opening is all or a part of the upper part as long as it can be filled with soil. The material of the earth retaining frame is not limited, and for example, synthetic resin, fiber, metal, or the like can be used. By dividing the earth retaining frame into cells by a frame, or by combining the frames of cells manufactured independently, cells are formed in a honeycomb shape in the earth retaining frame. Here, the cell frame means a frame for dividing a plurality of cells. The cells are coupled by providing a coupling portion on the frame, welding, bonding, sewing, or welding the frame. The planar shape of the cell is not particularly limited, and can be a polygon, a circle, or the like. In addition, cells having the same shape or different shapes can be combined.

The invention according to claim 2 is characterized in that in the earth retaining structure (10) according to claim 1, the earthenware (12, 12,...) Is earthen earth having a filling capacity of 2 m ³ or less. A general-purpose product can be used as the sandbag.

  The invention according to claim 3 is the earth retaining structure (10) according to claim 1 or 2, wherein the frames (13a to 13d, 17) of the cells (15, 19, ...) have flexibility. It is characterized by.

Here, “having flexibility” means that the flexural rigidity is usually 1.7 × 10 ^{4 to} 3.5 × 10 ⁴ g · cm, preferably 2.0 × 10 ^{4 to} 3.0 ×. It means 10 ⁴ g · cm.

  The invention according to claim 4 is the earth retaining structure (10) according to any one of claims 1 to 3, wherein the frames (13a to 13d, 17) of the cells (15, 19, ...) are expanded and contracted. It has the property.

  Here, “having stretchability” means that the residual strain when tensile stress is applied to the frames (13a to 13d, 17) of the cells (15, 19,...) At room temperature is 10% or less, preferably 5 It means 10%.

  The invention according to claim 5 is the earth retaining structure (10) according to any one of claims 1 to 4, wherein the side surfaces of the frames (13a to 13d, 17) of the cells (15, 19, ...). A mesh-shaped opening (24, 24,...) Is provided on the entire surface.

  The density and shape of the mesh-shaped opening are not limited. The density of the openings is determined from the relationship with the strength required for the cell frame. In order to ensure the strength of the earth retaining structure, the frame of the cell is 35 kN according to the test method described in Table 2.5 of “Geotextile Design and Construction Manual for Reinforced Soil: Civil Engineering Research Center”. / M or more, or preferably has a tensile strength of 40 kN / m or more by a test method specified in JIS L 1908. The shape of the opening may be a rectangle, a polygon such as a square, a circle or an ellipse, or a combination thereof.

  The invention according to claim 6 is the material of the frame (13a to 13d, 17) of the cell (15, 19, ...) in the earth retaining structure (10) according to any one of claims 1 to 5. Is a synthetic resin.

  The synthetic resin is not particularly limited, and for example, polyethylene, polypropylene, vinylon, fiber reinforced resin, aramid fiber, and polyester can be used. From the viewpoint of rust resistance, acid resistance, and alkali resistance, polyethylene and polypropylene may be used. preferable.

  The invention described in claim 7 is the earth retaining structure (10) according to claim 6, wherein the synthetic resin contains carbon black.

  The content of carbon black in the synthetic resin is usually 3 to 15% by weight, preferably 4 to 10%, and more preferably 4 to 6%. According to this, the effect which suppresses deterioration by the ultraviolet-ray of a synthetic resin is large. If the content of carbon black is less than 3% by weight, the synthetic resin tends to deteriorate due to ultraviolet rays, and as a result, the tensile strength and bending strength of the cell frame tend to decrease.

  The invention according to claim 8 is the earth retaining structure (10) according to any one of claims 5 to 7, wherein the opening (24, 24, ...) is a longitudinal strand (22, 22, ...). And a bar-like member (32) inserted into the space formed by inserting the vertical strand of another cell into the opening of one cell (15, 19, ...). Thus, the earth retaining frame (11) to which the cell frames (13a to 13d, 17) are coupled is provided.

  The invention according to claim 9 is the earth retaining structure (10) according to any one of claims 5 to 8, wherein the cells (15, 19,...) That are the surfaces of the earth retaining (40, 50). A greening mat (41, 41,...) Is installed on the upper and side surfaces of the slab, and / or a soil pad filled in the cell forming the surface is a green soil pad (42, 42,...).

  The earth retaining is a superordinate concept including a slope and a retaining wall. The surface of the earth retaining member is a portion exposed to the outside of the earth retaining structure, and corresponds to the upper and side surfaces of the cell that do not come into contact with other earth retaining structures, the ground, or the embankment. For this reason, at least one of installing a greening mat in this portion and making the soil pad of the cell having this portion a green soil is performed. Greening mats and greening sandbags are mats and sandbags that contain grass seeds and fertilizers. As a result, grass grows from these mats and sandbags and is easily greened.

  In the invention according to claim 10, the earth retaining frame (11) in which a plurality of cells (15, 19,...) Having upper openings are continuously formed in a substantially horizontal direction is installed on the ground (1). Then, filling the cell with clay (12) to form a retaining structure (10a) and forming a plurality of retaining structures (10b to 10d) along the ground. The above-mentioned problem is solved by providing a soil retaining method.

  In the invention described in claim 11, the earth retaining frame (11) in which a plurality of cells (15, 19,...) Having upper openings are continuously formed in a substantially horizontal direction is installed on the ground (1). Then, filling the cell with clay (12) to form a retaining structure (10e), and forming a similar retaining structure (10f to 10h) on the retaining structure, Thus, the above-described problem is solved by providing a soil retaining method characterized in that a plurality of retaining structures are formed.

  According to the first aspect of the present invention, it is not necessary to fill in the cells with the embankment material, which is a granular material, at the site by filling the cells of the earth retaining frame with the earthenware, thereby reducing the work load. And can be installed quickly. Therefore, it is possible to quickly respond to disaster recovery. Furthermore, even if the weather resistance of the earthenware is inferior over time, the earth retaining frame can have earth pressure resistance.

According to the second aspect of the present invention, the load of the soil filled in the cell is 2 m ³ or less, so that the work load is reduced as compared with the case of filling a normal size of the sandbag, and the cell is quickly Can be constructed. In addition, since each soilbag is integrated with the retaining frame, the retaining wall can be stabilized as compared with the case where only the soilbag is installed.

  According to the third aspect of the present invention, the frame can be deformed by the flexibility of the cell frame. Therefore, the frame body can be installed along the unevenness of the ground 1. Further, since the frame of the cell is deformed in accordance with the shape of the sandbag, it is possible to efficiently fill the cell with the sandbag.

  According to the invention described in claim 4, since the frame of the cell has elasticity, the frame can be extended and the cell can be filled into the cell even when the clay is larger than the cell. Thereby, the work efficiency which fills a cell with a sandbag improves.

  According to the invention described in claim 5, by providing a mesh-like opening on the entire side surface of the cell frame, the cell frame can be given flexibility and stretchability, or these can be improved. it can. Thereby, work efficiency improves. Moreover, since it drains from an opening part, the drainage performance of a cell can be improved.

  According to the invention described in claim 6, by using a synthetic resin as the material of the cell frame, it is possible to provide a lightweight and inexpensive earth retaining frame body having flexibility and stretchability. Moreover, since rust does not generate | occur | produce and it is hard to corrode, a lifetime can be lengthened compared with a metal and a fiber.

  According to the invention described in claim 7, since the synthetic resin contains carbon black, the frame of the cell has weather resistance, and the service life of the earth retaining structure can be improved.

  According to the invention described in claim 8, the opening is formed by the vertical strand and the horizontal strand, and the rod-shaped member is inserted into the space formed by inserting the vertical strand of another cell into the opening of one cell. The cell frames can be easily combined by combining the cell frames. Therefore, the earth retaining frame can be quickly assembled not only in the factory but also in the field.

  According to invention of Claim 9, by installing a greening mat in the upper part and side surface of the cell used as the surface of earth retaining, and / or by making the soil pad filled in the cell which forms the surface into a green soil pad The earth retaining surface can be covered with grass. Thereby, since it is prevented that an ultraviolet-ray hits the frame for earth retaining and the earthenware, the weather resistance of the earth retaining structure can be improved. Moreover, the natural scenery can be recovered in the earth retaining after construction.

  According to the invention of claim 10, a soil retaining method for filling a cell of the retaining frame with a sandbag to form a retaining structure, and forming a plurality of retaining structures along the ground, By doing so, it is not necessary to fill the cell with the embankment material that is a granular material in the field, so that the work load is reduced and rapid construction is possible.

  According to the eleventh aspect of the present invention, the earth retaining structure is formed by filling the cells of the earth retaining frame with the sandbag, and the same earth retaining structure is formed on the earth retaining structure. By adopting the fastening construction method, it is not necessary to fill the cell with a filling material that is a granular material at the site, so that the work load is reduced and rapid construction is possible.

  Hereinafter, based on the embodiment shown in the drawings, the earth retaining structure and the construction method of the earth retaining structure according to the present invention will be described, but what will be described below is an example of the embodiment of the present invention. Is not limited to the following description as long as the gist is not exceeded.

  FIG. 1 is a plan view schematically showing a retaining structure 10 according to the present invention. In the earth retaining structure 10, the cells 15, 15,... Of the earth retaining frame 11 installed on the ground 1 that has been leveled are filled with the earth 12, 12,. 1 shows a state where some of the cells 15, 15,... Are not filled with the sandbag 12 for the sake of easy viewing. Moreover, when the same member (part) appears repeatedly in FIG. 1, only some members (parts) are denoted by reference numerals, and the other members (parts) are omitted. Hereinafter, construction of each member and the earth retaining structure 10 will be described.

(Frame 11 for earth retaining)
In the earth retaining frame 11, a plurality of cells 15, 15,... Opened at the top are continuously formed in a substantially horizontal direction. The earth retaining frame 11 is formed by a plurality of band-like members 13a to 13d described later. The belt-like members 13a to 13d are arranged so that the width direction thereof is the height direction of the earth retaining frame 11 (perpendicular to the paper surface). And after adjoining strip | belt-shaped member 13a-13d is couple | bonded by the coupling | bond part 14, 14, ..., it extends in the width direction (paper surface up-down direction) of the earth retaining frame 11. FIG. As a result, in the earth retaining frame 11, a plurality of cells 15, 15,... With the upper and lower portions opened continuously are formed substantially continuously in the horizontal direction, with the band-shaped members 13a to 13d as frames. Here, one cell 15 is substantially diamond-shaped, and the cells 15, 15,... The coupling unit 14 will be described later. It is preferable that the earth retaining frame 11 is fixed to the ground 1 by fixed piles 16, 16,. According to this, since the earth retaining frame 11 is fixed in a state where the upper portions of the cells 15, 15,... Are opened, the work efficiency of filling the cells 15, 15,. To do.

  In the earth retaining structure 10, it is preferable to install the belt-like member 17 on the side surface of the earth retaining such as a slope or a retaining wall. According to this, since the side surface of the earth retaining plate becomes a flat surface, the appearance can be improved. The band-shaped member 13a and the band-shaped member 17 are coupled by coupling portions 18, 18,... To form cells 19, 19,. The coupling unit 18 will be described later. In the earth retaining structure 10, the band-shaped members 13 a to 13 d are used. However, by folding back one band-shaped member, a part or all of these can be formed as one band-shaped member.

(Strip members 13a to 13d, 17)
FIG. 2 is a diagram schematically showing a part of the flat surface 21a of the belt-like member 13a. In addition, when the same member (part) appears repeatedly in FIG. 2, a code | symbol is attached | subjected only to some members (parts), and the code | symbol of another member (part) is abbreviate | omitted. The material of the belt-like member 13a is a synthetic resin, and polyethylene is used. Moreover, the strip | belt-shaped member 13a is provided with the opening part 24,24, ... in mesh shape by forming a mesh | network by the vertical strands 22,22, ... and the horizontal strands 23,23, ... in the plane 21a. . The belt-like member 13a can be manufactured by melting a raw material resin with an extruder and extruding it as an unstretched sheet, providing through holes in the unstretched sheet at regular intervals, and stretching in the length and / or width direction. . Thereby, the strip | belt-shaped member 13a has flexibility and a stretching property, is lightweight, and is manufactured cheaply. In addition, although the strip | belt-shaped member 13a was demonstrated in FIG. 2, it is the same also about the other strip | belt-shaped members 13b-13d and 17. As the belt-like members 13a to 13d and 17, for example, “Tensor” manufactured by Mitsubishi Chemical Industries, Ltd. (Tensor is a trade name) can be used.

  With this configuration, the earth retaining frame 11 can be deformed, and therefore can be installed along the unevenness of the ground 1. Moreover, since the frame of each cell 15,15, ... has flexibility and a stretching property, the filling work of the sandbag 12, 12, ... to the cell 15, 15, ... is efficient. Further, by providing the openings 24, 24,..., The drainage performance of the cells 15, 15,.

  For the belt-like members 13b to 13d and 17, it is preferable to use a synthetic resin to which carbon black is added. According to this, since the deterioration of the synthetic resin due to ultraviolet rays is suppressed, the earth retaining frame 11 has weather resistance, and the service life of the earth retaining structure can be extended.

(Coupling part 14)
FIG. 3 is a perspective view schematically showing a part of the coupling portion 14 of the belt-like members 13a and 13b. In addition, when the same member (part) appears repeatedly in FIG. 3, only a part of member (part) is attached | subjected and the code | symbol of another member (part) is abbreviate | omitted. In the planes 21a and 21b of the band-shaped members 13a and 13b, the width of the band-shaped member 13a is arranged in the respective opening portions 24b, 24b,... Aligned in the width direction of the band-shaped member 13b (up and down direction on the paper surface, hereinafter the same in FIG. 3). The longitudinal strands 22a, 22a,... Arranged in the direction are inserted to form a space between the longitudinal strands 22a, 22a,... Of the strip member 13a and the longitudinal strands 22b, 22b,. And the strip | belt-shaped members 13a and 13b are couple | bonded by inserting the rod-shaped member 32 in this space. Thereby, in the earth retaining structure 10, the frames of the cells 15, 15,. 3 shows the coupling portion 14 of the strip members 13a and 13b, the same applies to the coupling portions 14, 14,... By the strip members 13b to 13d.

  By configuring the coupling portions 14, 14,..., The frames 15, 15,... Can be easily coupled. Can be assembled. Moreover, the size and shape of the cells 15, 15,... (See FIG. 1) can be easily adjusted by changing the coupling position according to the situation at the site and the size of the sandbags 12, 12,. Since it is possible, workability on site can be improved. Furthermore, depending on the arrangement of the belt-like members and the connection situation, different types of earth retaining frames can be produced from the same belt-like member, so that the production efficiency is good.

  Note that the joint 18 between the belt-like member 13 a and the belt-like member 17 can be configured in the same manner as the joint 14. However, when the earth retaining frame 11 is fixed to the ground 1 with the fixed pile 16, the fixed pile 16 can be used instead of the rod-shaped member 32.

(Doug 12)
In FIG. 1, the sandbags 12, 12,... Are not limited by capacity and material, and general-purpose products can be used. Further, the filling of the sandbags 12, 12,... Is not particularly limited, and in addition to soil, sand, and gravel, soil generated at the earth retaining site, construction waste, or the like can be used. However, considering the performance required for the earth retaining structure 10 such as water permeability, it is preferable to determine the filling material for the sandbags 12, 12,. One cell 15 is filled with one or more sandbags. The size of the soil filled in the same cell or other cells may be the same or different.

  In the earth retaining structure according to the present invention, it is preferable to use large sandbags as the sandbags 12, 12,. In FIG. 1, one cell 15 is filled with one large sandbag. An example of the large sandbag is “Sakai Jumbo Dobutsu” (product name) manufactured by Sakai Shoji Co., Ltd. By using large sandbags in this way, the work load is reduced as compared with the case of filling normal sandbags, and construction can be performed quickly. Moreover, since each large earthenware is integrated with the earth retaining frame, the earth retaining structure can be stabilized as compared with the case where only the large earthen earth is installed.

  The cells 19, 19,... Having the belt-shaped member 13a and the belt-shaped member 17 as frames are smaller than the cells 15, 15,. For this reason, when large soil can not be filled, small soil, embankment material or the like is filled.

(Construction of earth retaining structure 10)
The construction of the earth retaining structure 10 will be described with reference to FIG. First, the earth retaining frame 11 is installed on the ground 1 that has been leveled. Although the earth retaining frame 11 may be coupled with the strip-shaped members 13a to 13d at the site, it is preferably coupled in advance at the factory and extended at the site from the viewpoint of reducing work. The earth retaining frame 11 is extended in the width direction to open the upper portions of the cells 15, 15,..., And if necessary, the fixed piles 16, 16,. The fastening frame 11 is fixed to the ground 1. In addition, when the earth retaining structure 10 has a side surface that is externally viewed in the earth retaining structure, it is preferable to install the belt-like member 17 on the side surface in order to improve the appearance. Then, each cell 15, 15,... Is filled with sandbags 12, 12,. Here, one large soil is filled in one cell 15. Further, when the belt-like member 17 is installed, the cells 19, 19,... Formed by the belt-like member 13a and the belt-like member 17 are filled with a small soil pad or a banking material. In this way, filling the cells 15, 15,... With the clay pad 12, 12,. It can be done quickly. Therefore, it is possible to quickly respond to disaster recovery.

  FIG. 4 is a view showing a cross section of the slope 40. The slope is a retaining ring formed by arranging the retaining structures along the ground when the slope of the ground is gentler than about 10%. On the slope 40, the earth retaining structures 10 a to 10 d are formed along the leveled ground 1, and the surrounding area is filled with the same height as the slope 40. In FIG. 4, the cross section corresponding to the AA cross section of FIG. 1 is shown about each earth retaining structure 10a-10d. The coupling portion 14 and the fixed pile 16 are not shown. In addition, about the thing which takes the same structure as FIG. 1, the code | symbol used in FIG. 1 is attached | subjected and the description is abbreviate | omitted. Moreover, when the same member (part) appears repeatedly in FIG. 4, only a part of the member (part) is given a reference numeral, and the other members (parts) are omitted. In the structure of the earth retaining structure 10a (see FIG. 1), the earth retaining structures 10a to 10d are not provided with the belt-like member 17, and all the cells 15, 15,. .. Are placed on the top of each of the cells 15, and all the cells 15, 15,... Are filled with green soil 42, 42,. It is also possible to use only one of the greening mats 41, 41,... And the green soil pads 42, 42,. By providing the greening mats 41, 41,... And / or the green soil pads 42, 42,..., The surface of the slope 40 is covered with grass, and the earth retaining frame 11 and the soil walls 42 are exposed to ultraviolet rays. Therefore, the weather resistance of the earth retaining structures 10a to 10d can be improved. Moreover, in the slope 40 after construction, a natural landscape can be recovered.

  The construction method of the slope 40 is similar to the construction of the earth retaining structure 10 described above, and the earth retaining structure 10 a is formed on the ground 1. At this time, in the cells 15, 15,..., The greening mats 41, 41,. Similarly, the earth retaining structures 10b, 10c, and 10d are formed in this order. This eliminates the need to fill the cells 15, 15,... With a banking material or the like on the site, thereby reducing the work burden and enabling the rapid construction of the slope 40.

  On the slope 40, it is preferable that the earth retaining structures 10a to 10d are formed in contact with each other, and the cells formed between the earth retaining structures 10a to 10d are filled with an earthen pad. Moreover, it is more preferable to couple | bond the earth retaining structures 10a-10d by the coupling | bond part 43,43, .... According to this, since the plurality of earth retaining structures 10a to 10d are integrated, it is possible to form a stable slope 40 against an external load such as earth pressure. The coupling portion 43 can have the same structure as the coupling portion 14 or the coupling portion 18.

  FIG. 5 is a view showing a cross section of the retaining wall 50. The retaining wall is a retaining wall formed by stacking retaining structures in a plurality of stages facing the ground when the ground slope is steeper than about 10%. The retaining wall 50 has earth retaining structures 10e to 10h facing the slope from the ground 1 that has been leveled. In FIG. 5, about each earth retaining structure 10e-10h, the cross section corresponding to the BB cross section of FIG. 1 is shown. The coupling unit 14 is not shown. In addition, about the thing which takes the same structure as FIG. 1, the code | symbol used in FIG. 1 is attached | subjected and the description is abbreviate | omitted. Moreover, when the same member (part) appears repeatedly in FIG. 5, only a part of the member (part) is given a reference numeral, and the reference numerals of other members (parts) are omitted. In the structure of the earth retaining structure 10 (see FIG. 1), the earth retaining structures 10e to 10h are provided with the greening mats 41, 41 on the upper portions and inside the side surfaces of the cells 15, 19,. ... are installed. Moreover, in the earth retaining structure 10h, since it becomes the surface of the retaining wall 50, all the cells 15, 15,... Are filled with green soil sand 42, 42,. In the cell retaining structure 10h, only one of the greening mats 41, 41,... And the green soil 42, 42,. Thus, by providing the greening mats 41, 41,... And / or the green soil pads 42, 42,..., The surface of the retaining wall 50 is covered with grass and the retaining frame 11 and the soil walls 42 are exposed to ultraviolet rays. Therefore, the weather resistance of the earth retaining structures 10e to 10h can be improved. In particular, since the mesh-shaped openings are provided over the entire side surfaces of the cells 19, 19,..., The weather resistance is improved because grass grows uniformly on the side surfaces. Moreover, natural scenery can be recovered in the retaining wall 50 after construction.

  The retaining wall 50 is constructed by first forming the retaining structure 10 e on the ground 1 in the same manner as the retaining structure 10. At this time, the greening mats 41, 41,... Are installed in the upper portions and inside of the side surfaces of the cells 15, 19,. Similarly, the earth retaining structures 10f, 10g, and 10h are stacked and installed in this order on the earth retaining structure 10e. In the earth retaining structure 10h, the cells 15, 15,... Are filled with green soil sand 42, 42,... And the green mats 41, 41,. This eliminates the need to fill the cells 15, 15,... With the embankment material that is a granular material at the site, thereby reducing the work load and enabling the rapid construction of the retaining wall 50.

  While the present invention has been described in connection with embodiments that are presently the most practical and preferred, the present invention is not limited to the embodiments disclosed herein. However, it can be changed as appropriate without departing from the spirit or concept of the invention that can be read from the claims and the entire specification, and the earth retaining structure and the earth retaining construction method with such changes are also the technical features of the present invention. It should be understood as encompassed by the scope.

It is a top view which shows typically the earth retaining structure which concerns on this invention. It is a figure which shows typically a part of plane of a strip | belt-shaped member. It is a perspective view which shows typically a part of coupling | bond part of a strip | belt-shaped member. It is a figure which shows the cross section of a slope. It is a figure which shows the cross section of a retaining wall.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Ground 10, 10a-10h Earth retaining structure 11 Earth retaining frame 13a-13d Band-shaped member 14 Connection part 15 Cell 16 Fixed pile 17 Band-shaped member 18 Connection part 19 Cell 22, 22a, 22b Vertical strand 23 Horizontal strand 24, 24b Opening 32 Bar-shaped member 40 Slope 41 Greening mat 42 Greening clay 50 Retaining wall

Claims (11)

A retaining frame in which a plurality of cells having an open upper portion installed on the ground are continuously formed in a substantially horizontal direction;
An earth retaining structure comprising a sandbag filled in the cell. The earth retaining structure according to claim 1, wherein the sandbag is a sandbag having a filling capacity of 2 m ³ or less. The earth retaining structure according to claim 1 or 2, wherein the frame of the cell has flexibility. The earth retaining structure according to any one of claims 1 to 3, wherein the frame of the cell has elasticity. The earth retaining structure according to any one of claims 1 to 4, wherein a mesh-like opening is provided on the entire side surface of the frame of the cell. The earth retaining structure according to any one of claims 1 to 5, wherein a material of the frame of the cell is a synthetic resin. The earth retaining structure according to claim 6, wherein the synthetic resin contains carbon black. The opening is formed by a vertical strand and a horizontal strand, and a rod-like member is inserted into a space formed by inserting the vertical strand of another cell into the opening of one cell, and The earth retaining structure according to any one of claims 5 to 7, comprising the earth retaining frame body to which the frame is coupled. 9. A greening mat is installed on the upper and side surfaces of the cell that is a surface of the earth retaining, and / or a sandbag filled in the cell forming the surface is used as a greening soil. The earth retaining structure according to any one of the above. A step of installing a retaining frame in which a plurality of cells having an open top are continuously formed in a substantially horizontal direction on the ground, and filling the cells with a sandbag to form a retaining structure;
And a step of forming a plurality of the retaining structures along the ground. A step of installing a retaining frame in which a plurality of cells having an open top are continuously formed in a substantially horizontal direction on the ground, and filling the cells with a sandbag to form a retaining structure;
A method of forming a multi-stage earth retaining structure by forming a similar earth retaining structure on the earth retaining structure.

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