JP2021188397A - Basket and earth retaining structure - Google Patents

Abstract

To provide baskets and earth retaining structures that can improve the resistance force in the shear direction between adjacent baskets, even if the baskets are installed at the installation site after being filled with filling material.SOLUTION: A basket and an earth retaining structure using the basket are provided with a box-shaped basket frame that accommodates a filling material, and a shear prevention material that is attached to an outer surface of the basket frame, protrudes from the outer surface while attached to the outer surface, and faces the sides of the adjacent other basket when placed adjacent to the other basket.SELECTED DRAWING: Figure 1

Description

The present invention relates to a cage body used for earth retaining or a dam in civil engineering work, and an earth retaining structure using the cage.

Conventionally, there has been known a cage work in which a filling material such as stone is filled inside a cage body and installed in a construction area at a site for the purpose of retaining earth or a dam. Cage works are used for river works such as revetment works and groyne works, as well as disaster recovery works for valleys, hillsides, and roadsides, and soft ground countermeasure works. The cage used in the cage is generally formed in a rectangular parallelepiped shape. Each surface of such a cage is formed in a grid pattern using a vertical member and a horizontal member, or is formed in a mesh pattern using a wire or the like (see, for example, Patent Document 1). The cages filled with filling materials such as stones are installed side by side in the construction area and stacked in the vertical direction along the slope of the construction area.

Japanese Unexamined Patent Publication No. 2007-70997

In general, a cage called a futon cage as described in Patent Document 1 has an upper cage and a lower cage in order to suppress slippage due to earth pressure between the stacked upper and lower cages. The resistance in the shearing direction is improved by piercing and connecting with a reinforcing bar. However, the method of connecting the upper cage and the lower cage with reinforcing bars is that the reinforcing bars cannot be pierced into the cage with the hanging type cage that is installed at the installation location after filling the filling material. .. Therefore, in the suspension type cage that is installed at the installation location after filling the filling material, it is not possible to improve the resistance force between adjacent cages in the shear direction, and the cage slips due to earth pressure. It cannot be suppressed.

The present invention solves the above-mentioned problems, and improves the resistance force between adjacent cages in the shearing direction even if the cage is filled with a filling material and then installed at the installation location. It is intended to provide a cage and earth retaining structure that can be used.

The cage according to the present invention is a cage in which a filling material is packed inside and placed at a construction site, and is attached to a box-shaped cage frame for accommodating the filling material and an outer surface of the cage frame. It is provided with an anti-slip material that projects from the outer surface in a state of being attached to the outer surface and faces the side surface of the other adjacent cage when the cage is arranged adjacent to the other cage.

The earth retaining structure according to the present invention is an earth retaining structure in which a plurality of cages having the above configuration are stacked in the vertical direction, and two vertically adjacent cages are directed toward the valley side of an inclined surface. In, the slip prevention material attached to the upper surface of the cage arranged on the lower side is arranged so as to face the side surface of the cage arranged on the upper side.

The cage and earth retaining structure are attached to the outer surface of the cage frame, project from the outer surface while attached to the outer surface, and when placed adjacent to the other cage, the side surface of the adjacent cage. Equipped with anti-slip material facing each other. Therefore, the cage can have the anti-slip material attached to the outer surface facing the adjacent cage, and the anti-slip material and the adjacent cage come into contact with each other to prevent slipping due to earth pressure between the cages. It can be suppressed. As a result, even if the cage is filled with the filling material and then installed at the installation location, the resistance force between the adjacent cages in the shearing direction can be improved.

It is a top view of the cage which concerns on Embodiment 1 of this invention. It is a front view of the cage body of FIG. It is a side view of the cage body of FIG. It is a bottom view of the cage body of FIG. It is a top view of the top surface material. It is a top view of the bottom material. It is a top view of the deviation prevention material of FIG. It is a front view of the slip prevention material of FIG. It is a side view of the slip prevention material of FIG. It is a front view of the modified example of a cage body. It is a front view which conceptually shows the installation state of the conventional cage body. It is a side view which conceptually shows the installation state of the conventional cage body. It is a top view of the top surface material of the cage which concerns on Embodiment 2. FIG. It is a top view of the slip prevention material attached to the top surface material. It is a top view which shows the installation state of a cage body. It is a top view of the deviation prevention material of the cage body which concerns on Embodiment 3. FIG. It is a top view of the slip prevention material attached to the top surface material. It is a top view of the displacement prevention material of the deformation example of the cage body which concerns on Embodiment 3. FIG. It is a top view of the displacement prevention material of the deformation example attached to the top surface material. It is a front view of the cage body which concerns on Embodiment 4. FIG. It is a side view of the cage body which concerns on Embodiment 4. FIG. It is a front view which conceptually showed an example of fixing with a slip prevention material and a vertical material. It is a top view which conceptually showed an example of fixing with a slip prevention material and a vertical material. It is a side view of the cage body which concerns on Embodiment 5. It is a front view of the cage body which concerns on Embodiment 6. It is a top view of the cage body which concerns on Embodiment 7. It is a front view of the cage body which concerns on Embodiment 7. It is a top view of the earth retaining structure which concerns on Embodiment 8. It is a front view of the earth retaining structure which concerns on Embodiment 8. It is a side view of the earth retaining structure which concerns on Embodiment 8. It is a side view of the earth retaining structure which concerns on Embodiment 9. It is a side view of the earth retaining structure which concerns on Embodiment 10. It is a side view of the earth retaining structure which concerns on Embodiment 11.

Hereinafter, the cage 100, the earth retaining structure 200, and the like according to the embodiment will be described with reference to the drawings and the like. In the following drawings including FIG. 1, the relative dimensional relationships and shapes of the constituent members may differ from the actual ones. Further, in the following drawings, those having the same reference numerals are the same or equivalent thereof, and this shall be common to the entire text of the specification. In addition, terms indicating directions (for example, top, bottom, left, right, front, back, front and back, etc.) are used as appropriate for ease of understanding, but these notations are for convenience of explanation. The arrangement, direction and orientation of the cage 100 and the earth retaining structure 200, or the components, etc. are not limited.

Embodiment 1.
[Basket 100]
FIG. 1 is a plan view of the basket 100 according to the first embodiment of the present invention. FIG. 2 is a front view of the cage 100 of FIG. FIG. 3 is a side view of the cage 100 of FIG. FIG. 4 is a bottom view of the cage 100 of FIG. The cage 100 is constructed by filling the inside with a filling material 80 in construction such as river construction such as revetment construction and groyne construction, disaster recovery construction near valleys, hillsides, and roads, and soft ground countermeasure construction. It is placed in. In the drawing, only a part of the filling material 80 is shown.

The cage 100 is attached to the box-shaped cage frame 10 for accommodating the filling material 80 and the outer surface of the cage frame 10, and in a state of being attached to the outer surface, protrudes from the outer surface and is adjacent to the other cage 100. When arranged, it has an anti-slip material 70 that faces the side surface of another adjacent cage 100.

<Basket frame 10>
As shown in FIGS. 1 to 4, the basket frame 10 is a hexahedron and is formed in the shape of a substantially rectangular parallelepiped box. The cage frame 10 of the embodiment is a hexahedron, but is not limited to the hexahedron, and may be a polyhedron other than the hexahedron. Further, the basket frame 10 may be formed in a box shape, and is not limited to a substantially rectangular parallelepiped.

In the following description of the first embodiment, as shown in FIGS. 1 to 4, the longitudinal direction of the cage frame 10 is orthogonal to the longitudinal direction X and the longitudinal direction X, and the lateral direction with respect to the longitudinal direction X is the lateral direction Y. The vertical direction orthogonal to each of the longitudinal direction X and the lateral direction Y is defined as the vertical direction Z. In the longitudinal direction X, the right direction with respect to the cage frame 10 is the right direction X1, and the left direction with respect to the cage frame 10 is the left direction X2. In the lateral direction Y, the front direction with respect to the cage frame 10 is the front direction Y1, and the back direction with respect to the cage frame 10 is the rear direction Y2. Further, in the vertical direction, the installation side where the cage 100 is installed is the downward Z2 with respect to the cage frame 10, the side opposite to the downward Z2, and the direction in which the cage 100 is stacked is the upward Z1. .. The downward direction Z2 is, for example, the direction of gravity.

The basket frame 10 has a filling material 80 inside. The filling material 80 is, for example, stone or earth and sand. By having the filling material 80 packed inside, the cage frame 10 can stably install the cage 100 and is adapted to the environment of the construction area.

The cage frame 10 has four wall portions, each of which is formed in a grid pattern, forming a front wall portion 1, a back wall portion 2, a right side wall portion 3, and a left side wall portion 4. The cage frame 10 is formed by connecting the ends of the four wall portions to form a rectangular frame in a plan view.

In the cage frame 10, a bottom surface member 52 is bridged between the lower ends of each of the front wall portion 1 and the back wall portion 2, which are a pair of facing wall portions, to form the bottom portion 5. Further, in the cage frame 10, a top surface material 62 is bridged between the upper ends of each of the front wall portion 1 and the back wall portion 2, and the ceiling portion 6 is formed.

That is, the basket frame 10 includes a front wall portion 1, a back wall portion 2, a right side wall portion 3, a left side wall portion 4, a bottom portion 5, and a ceiling portion 6. The front wall portion 1, the back wall portion 2, the right side wall portion 3, the left side wall portion 4, the bottom portion 5, and the ceiling portion 6 form the outer surface of the cage frame 10. A slip prevention material 70 is attached to the outer surface of the cage frame 10.

(Front wall part 1)
As shown in FIG. 2, the front wall portion 1 has a bottom member 11, a plurality of vertical members 12, a plurality of horizontal members 13, and an upper surface member 15, and is one of the four side surfaces of the cage frame 10. It constitutes the side wall part. The front wall portion 1 is formed in a grid pattern by the vertical member 12, the bottom member 11, the cross member 13, and the upper surface member 15. It is desirable that the size of each grid having a grid shape composed of the bottom member 11, the vertical member 12, the horizontal member 13, and the upper surface member 15 is set to a uniform size.

The bottom member 11 is made of a plate material that is long in one direction. The bottom member 11 constitutes a part of the bottom portion 5 of the cage frame 10, and is a portion installed on the surface of the construction area.

The vertical member 12 is erected on the bottom member 11. The vertical member 12 is a rod-shaped member. The vertical member 12 is made of a reinforcing bar or the like having a circular cross section. The plurality of vertical members 12 are arranged at predetermined intervals, and are joined to the bottom member 11 by welding, for example. Further, the vertical member 12 is joined to the upper surface member 15 by welding, for example. The vertical member 12 is formed to be long in a direction orthogonal to the horizontal member 13 and orthogonal to the horizontal member 13.

The cross member 13 is orthogonal to the vertical member 12 and is arranged substantially parallel to the bottom member 11 and the top member 15. The cross member 13 is made of a plate material that is long in one direction. The cross member 13 is formed with a hole through which the vertical member 12 is inserted. The cross member 13 is joined to the vertical member 12 by welding, for example, after the vertical member 12 is inserted into the hole. The plurality of horizontal members 13 are arranged at predetermined intervals along the vertical member 12's erection direction (extending direction), and each of the plurality of horizontal members 13 is joined to the vertical member 12.

The upper surface member 15 is attached to the upper end portion of the vertical member 12 by, for example, welding. The upper surface member 15 is made of a plate material that is long in one direction. The upper surface member 15 is formed to have the same length as the bottom member 11 and the cross member 13. The top surface member 15 is arranged substantially parallel to the bottom member 11 and the cross member 13. The upper surface member 15 constitutes a part of the ceiling portion 6 of the cage frame 10.

(Back wall 2)
The back wall portion 2 has the same configuration as the front wall portion 1. That is, the back wall portion 2 is composed of a combination of the bottom member 11, the vertical member 12, the horizontal member 13, and the upper surface member 15, and constitutes one side wall portion of the four side surfaces of the cage frame 10. The back wall portion 2 constitutes a wall portion at a position facing the front wall portion 1.

(Right side wall part 3 and left side wall part 4)
As shown in FIG. 3, the right side wall portion 3 has the same configuration as the front wall portion 1 and the back wall portion 2. That is, the right side wall portion 3 is composed of a combination of the bottom member 11, the vertical member 12, the horizontal member 13, and the upper surface member 15, and constitutes one side wall portion of the four side surfaces of the cage frame 10. The right side wall portion 3 constitutes a wall portion between the front wall portion 1 and the back wall portion 2 on one end side of the front wall portion 1 and the back wall portion 2 in the horizontal direction. In the cage 100 according to the first embodiment, the right side wall portion 3 is formed to have a shorter length along the outer edge of the bottom portion 5 of the cage frame 10 with respect to the front wall portion 1 and the back wall portion 2. The length can be set as appropriate.

The left side wall portion 4 has the same configuration as the right side wall portion 3. That is, the left side wall portion 4 is composed of a combination of the bottom member 11, the vertical member 12, the horizontal member 13, and the upper surface member 15, and constitutes one side wall portion of the four side surfaces of the cage frame 10. The left side wall portion 4 constitutes a wall portion between the front wall portion 1 and the back wall portion 2 on the other end side of the front wall portion 1 and the back wall portion 2 in the horizontal direction. In the cage 100 according to the first embodiment, the left side wall portion 4 is formed to have a shorter length along the outer edge of the bottom portion 5 of the cage frame 10 with respect to the front wall portion 1 and the back wall portion 2. The length can be set as appropriate.

As shown in FIGS. 1 to 3, the front wall portion 1, the back wall portion 2, the right side wall portion 3, and the left side wall portion 4 are erected vertically and connected to each other at their horizontal ends. , The side surface portion of the basket frame 10 is formed.

(Bottom 5)
As shown in FIG. 4, the bottom portion 5 includes the bottom member 11 of the front wall portion 1, the back wall portion 2, the right side wall portion 3, and the left side wall portion 4, and the bottom member 11 and the back wall portion of the front wall portion 1. It has a bottom member 52 bridged between the bottom member 11 and 2. That is, the bottom members 11 of the front wall portion 1, the back wall portion 2, the right side wall portion 3, and the left side wall portion 4 are the front wall portion 1, the back wall portion 2, the right side wall portion 3, and the left side wall portion 4. Along with forming a part, it is also configured as a part of the bottom 5. The outer edge of the bottom portion 5 of the cage frame 10 is formed by the bottom members 11 of the front wall portion 1, the back wall portion 2, the right side wall portion 3, and the left side wall portion 4.

As shown in FIG. 4, the bottom portion 5 has a plurality of bottom surface members 52. The bottom surface material 52 is the first outer surface material of the cage 100. The bottom surface member 52 is a plate-shaped member that is long in one direction. The plurality of bottom members 52 are arranged in parallel along the longitudinal direction X of the cage 100. The plurality of bottom members 52 are hung between the bottom member 11 of the front wall portion 1 and the bottom member 11 of the back wall portion 2 at the bottom portion 5. The bottom member 52 extends in the lateral direction Y in the cage frame 10.

One end of the bottom member 52 is connected to the bottom member 11 of the front wall portion 1, and the other end of the bottom member 52 is connected to the bottom member 11 of the back wall portion 2. Both ends of the bottom surface member 52 are fixed to the bottom member 11 of the front wall portion 1 and the bottom member 11 of the back wall portion 2. The bottom member 52 and the bottom member 11 are fixed by means such as welding or fastening bolts.

The plurality of bottom members 52 are arranged at the bottom portion 5 at predetermined intervals along the longitudinal direction X of the bottom member 11 of the front wall portion 1 and the bottom member 11 of the back wall portion 2. The plurality of bottom members 52 are arranged in parallel with each other. The plurality of bottom members 52 are not limited to the configuration in which they are arranged in a strictly parallel relationship, and may be arranged in a substantially parallel relationship with each other.

The plurality of bottom surface members 52 are arranged perpendicular to the front wall portion 1 and the back wall portion 2, and are arranged parallel to the right side wall portion 3 and the left side wall portion 4, for example. The bottom surface member 52 may be arranged substantially perpendicular to the front wall portion 1 and the back wall portion 2, and may not be strictly perpendicular to the front wall portion 2. Further, the bottom surface member 52 may be arranged substantially parallel to the right side wall portion 3 and the left side wall portion 4, and may not be strictly parallel to each other.

(Ceiling 6)
The ceiling portion 6 includes a front wall portion 1, a back wall portion 2, a right side wall portion 3, and a left side wall portion 4, each of which is an upper surface member 15, and a front surface member 15 of the front wall portion 1 and a top surface member 15 of the back wall portion 2. It has a ceiling material 62 bridged between the two. That is, each upper surface member 15 of the front wall portion 1, the back wall portion 2, the right side wall portion 3, and the left side wall portion 4 is the front wall portion 1, the back wall portion 2, the right side wall portion 3, and the left side wall portion 4. Along with forming a part, it is also configured as a part of the ceiling portion 6. The outer edge of the ceiling portion 6 of the cage frame 10 is formed by the upper surface members 15 of the front wall portion 1, the back wall portion 2, the right side wall portion 3, and the left side wall portion 4.

As shown in FIG. 1, the ceiling portion 6 has a plurality of top surface materials 62. The top surface material 62 is the first outer surface material of the cage 100. The top surface material 62 is a plate-shaped member that is long in one direction. The plurality of top surface materials 62 are arranged in parallel along the longitudinal direction X of the cage 100. The plurality of top surface members 62 are hung between the upper surface member 15 of the front wall portion 1 and the upper surface member 15 of the back wall portion 2 in the ceiling portion 6. The top surface material 62 extends in the lateral direction Y in the cage frame 10.

One end of the top member 62 is connected to the upper surface member 15 of the front wall portion 1, and the other end of the top surface member 62 is connected to the upper surface member 15 of the back wall portion 2. Both ends of the top surface member 62 are fixed to the upper surface member 15 of the front wall portion 1 and the upper surface member 15 of the back wall portion 2. The top surface member 62 and the top surface member 15 are fixed by means such as welding or fastening bolts.

The plurality of top surface members 62 are arranged on the ceiling portion 6 at predetermined intervals along the longitudinal direction X of the upper surface member 15 of the front wall portion 1 and the upper surface member 15 of the back wall portion 2. The plurality of top surface materials 62 are arranged in parallel with each other. The plurality of top surface materials 62 are not limited to the configuration in which they are arranged in a strictly parallel relationship, and may be arranged in a substantially parallel relationship with each other.

The plurality of top surface members 62 are arranged perpendicular to the front wall portion 1 and the back wall portion 2, and are arranged parallel to the right side wall portion 3 and the left side wall portion 4, for example. The top surface material 62 may be arranged substantially perpendicular to the front wall portion 1 and the back wall portion 2, and may not be strictly perpendicular to the front wall portion 2. Further, the top surface material 62 may be arranged substantially parallel to the right side wall portion 3 and the left side wall portion 4, and may not be strictly parallel to each other.

FIG. 5 is a plan view of the top surface material 62. The top surface material 62 is formed with a first through hole 62a on the fixed side to which the slip prevention material 70 is fixed. The first fixing hole 62a on the fixed side is a through hole through which the first fixing member 78, which will be described later, is inserted.

FIG. 6 is a plan view of the bottom surface member 52. The bottom surface member 52 may be formed with a first through hole 52a on the fixed side to which the slip prevention member 70 is fixed. The first fixing hole 52a on the fixed side is a through hole through which the first fixing member 78, which will be described later, is inserted.

<Slip prevention material 70>
FIG. 7 is a plan view of the slip prevention material 70 of FIG. FIG. 8 is a front view of the slip stopper 70 of FIG. FIG. 9 is a side view of the slip prevention material 70 of FIG. The cage 100 has a slip prevention material 70. The misalignment preventing material 70 suppresses the misalignment of the cage 100 in relation to the adjacent cage 100. More specifically, the anti-displacement material 70 suppresses the horizontal displacement of the cage 100 adjacent to the cage 100 with respect to the cage 100 having the anti-displacement material 70. That is, the slip prevention material 70 regulates the cage 100 having the slip prevention material 70 from moving the cage 100 adjacent to the cage 100 in the direction along the surface of the cage 100. be. For example, the slip stopper 70 is arranged on the mountain side by supporting the side surface of another cage 100 arranged on the mountain side with respect to the cage 100 to which the slip stopper 70 is attached on the inclined surface from the valley side. Suppresses the deviation of the basket 100.

The slip prevention material 70 is attached to any one or more outer surfaces of the cage frame 10. That is, the slip prevention material 70 is attached to any one or more of the front wall portion 1, the back wall portion 2, the right side wall portion 3, the left side wall portion 4, the bottom portion 5, and the ceiling portion 6. The slip prevention material 70 projects from the outer surface in a state of being attached to the outer surface.

When the cage 100 to which the slip stopper 70 is attached and the other cage 100 are arranged vertically or laterally adjacent to each other, the slip stopper 70 is attached to the side surface of the other adjacent cage 100. Facing. The slip prevention material 70 faces the side surface of another adjacent cage 100, for example, in the direction of pressure due to earth and sand applied to the adjacent cage 100. That is, the cage 100 is arranged so that the displacement preventing material 70 faces the side surface of the other adjacent cage 100 in the direction of the pressure due to the earth and sand applied to the adjacent cage 100.

The slip prevention material 70 is attached to the upper surface of the cage frame 10, for example, as shown in FIG. The slip prevention material 70 is fixed to at least two or more top surface materials 62. The slip prevention material 70 may be fixed to at least two or more bottom material 52s.

The slip prevention material 70 is attached to the cage frame 10 in which the filling material 80 is housed. The slip prevention material 70 may be attached to the cage frame 10 in advance in a state where the filling material 80 is not housed in the cage frame 10. Further, the slip stopper 70 may be attached to the top member 62 in advance, and the top member 62 to which the slip stopper 70 is attached may be attached to the upper surface member 15. Further, the slip stopper 70 is attached to the bottom member 52 in advance, and the bottom member 52 to which the slip stopper 70 is attached may be attached to the bottom member 11.

The slip stopper 70 has a long angle in one direction. The slip prevention material 70 is an angle whose vertical cross section is formed in an L shape, and may be a steel material or the like formed in an L shape. The slip prevention material 70 has an installation portion 71 and a locking portion 72 that is erected substantially perpendicular to the installation portion 71.

(Installation unit 71)
The installation portion 71 is a portion fixed to the outer surface of the cage 100 by the first fixing member 78 described later. The installation portion 71 is formed in a long flat plate shape in one direction. The installation portion 71 is formed in the shape of a rectangular plate. The installation portion 71 is formed with a first through hole 71a on the mounting side that penetrates in the direction perpendicular to the plate surface.

In FIG. 7, two mounting-side first through holes 71a are formed in the installation portion 71 along the longitudinal direction X, but the number of mounting-side first through holes 71a formed in the installation portion 71 is 2. It is not limited to one. Three or more mounting-side first through holes 71a may be formed along the longitudinal direction X depending on the length of the slip prevention member 70. Further, in the cage 100 of the first embodiment, one mounting-side first through hole 71a is formed in the lateral direction Y of the slip prevention material 70. A plurality of first through holes 71a on the mounting side may be formed along the lateral direction Y depending on the size of the width of the misalignment preventing material 70 in the lateral direction Y.

As shown in FIG. 1, the installation portion 71 abuts on the top surface material 62 in the cage 100 and is fixed to the top surface material 62. To fix the installation portion 71 of the slip prevention material 70 and the top surface material 62, for example, as shown in FIG. 1, the installation portion 71 and the top surface material 62 are fastened by a first fixing member 78 such as a bolt. It is done by. That is, the slip prevention material 70 is fixed to the ceiling portion 6 which is the outer surface by the first fixing member 78.

The first fixing member 78 is inserted into the first through hole 62a on the fixing side of the top surface material 62 and the first through hole 71a on the mounting side of the installation portion 71. The fixing of the installation portion 71 of the slip prevention material 70 and the top surface material 62 may be performed by means such as welding.

Further, the installation portion 71 may come into contact with the bottom surface material 52 in the cage 100 and be fixed to the bottom surface material 52. The fixing of the installation portion 71 of the slip prevention material 70 and the bottom surface material 52 is performed by, for example, fastening the installation portion 71 and the bottom surface material 52 with a first fixing member 78 such as a bolt. The first fixing member 78 is inserted into the first through hole 52a on the fixed side of the bottom surface member 52 and the first through hole 71a on the mounting side of the installation portion 71. In this case, the slip prevention material 70 is fixed to the bottom portion 5 which is the outer surface by the first fixing member 78. The fixing of the installation portion 71 of the slip prevention material 70 and the bottom surface material 52 may be performed by means such as welding.

As shown in FIG. 1, the installation portion 71 may be fixed to the right side wall portion 3 or the left side wall portion 4 in the cage 100. The fixing portion 71 of the slip prevention material 70 and the vertical member 12 or the horizontal member 13 may be fixed by, for example, the first fixing member 78 or means such as welding.

(Locking portion 72)
The locking portion 72 is a portion facing the side surface of the other adjacent cage 100 in the direction of pressure due to earth and sand applied to the adjacent cage 100 when the locking portion 72 is arranged adjacent to the other cage. .. The locking portion 72 is formed in a long flat plate shape along the extending direction of the installation portion 71. The locking portion 72 is formed in the shape of a rectangular plate, but is not limited to the shape. The locking portion 72 is provided on the side edge 71b along the longitudinal direction X of the installation portion 71. The locking portion 72 is formed so as to rise from the side edge 71b of the installation portion 71. The locking portion 72 extends perpendicular to the installation portion 71.

When a plurality of cages 100 are installed, the locking portion 72 is the front wall portion 1, the back wall portion 2, the right side wall portion 3, and the cage body 100 adjacent to the cage body 100 having the slip stopper 70. And a wall facing any one of the left wall portions 4.

(Installation example of cage 100)
When lifting the cage 100, before lifting the cage 100, the operator drills a hole in the top surface material 62 on the upper surface of the cage 100 to form the first through hole 62a on the fixed side. After that, the worker fills the filling material 80 with the slip prevention material 70 installed, lifts the cage 100, and installs the cage 100 at the construction site. The installation example is an example, and for example, the first through hole 62a on the fixed side of the top surface material 62 may be formed in advance before being transported to the construction site.

(Modification example)
FIG. 10 is a front view of a modified example of the cage 100. The bottom view of the cage 100 of the modified example shown in FIG. 10 is the same as the plan view of the cage 100 shown in FIG. As shown in FIG. 10, the slip prevention material 70 may be attached to the lower surface of the cage frame 10. That is, the slip prevention material 70 may be attached to the bottom surface material 52 as described above. In the modified example of the cage 100, the slip prevention material 70 may be attached only to the bottom portion 5, or may be attached to the ceiling portion 6 and the bottom portion 5 of the cage frame 10 as shown in FIG.

[Action and effect of cage 100]
FIG. 11 is a front view conceptually showing the installation state of the conventional cage 100L. FIG. 12 is a side view conceptually showing the installation state of the conventional cage 100L. As shown in FIGS. 11 and 12, in the conventional cage 100L, in order to suppress slippage due to earth pressure between the stacked upper and lower cages 100L, the upper cage 100L and the lower cage 100L are combined. The resistance in the shearing direction is improved by connecting with the piercing reinforcing bar 110L. However, the method of connecting the upper cage 100L and the lower cage 100L with the reinforcing bars 110L is that in the suspension type cage 100L that is installed at the installation location after filling the filling material, the reinforcing bars are changed to the cage 100L. I can't stab. Therefore, in the suspension type cage 100L that is installed at the installation location after filling the filling material, the resistance force between the adjacent cages 100L in the shearing direction cannot be improved, and the cage 100L due to earth pressure cannot be improved. The slip cannot be suppressed.

On the other hand, the cage 100 of the present invention is attached to the outer surface of the cage frame 10, protrudes from the outer surface in a state of being attached to the outer surface, and is adjacent to the other cage 100 when it is arranged adjacent to the other cage 100. A slip prevention material 70 facing the side surface of the cage 100 is provided. Therefore, in the cage 100, the deviation preventing material 70 attached to the outer surface can be made to face the cage frame 10 of the adjacent cage 100 in the direction toward the valley side of the inclined surface, and is adjacent to the deviation preventing material 70. By abutting against the cage 100, it is possible to suppress slippage due to earth pressure between adjacent cages 100. As a result, even if the cage 100 is filled with the filling material 80 and then installed at the installation location, the resistance force between the adjacent cages 100 in the shearing direction can be improved. Therefore, the cage 100 can have a function as a permanent structure while taking advantage of the excellent features of the conventional cage.

In the cage 100 according to the first embodiment, by installing the slip prevention material 70 in advance, it is possible to eliminate the installation work of the piercing reinforcing bar and the like after installing the cage 100. Therefore, the cage 100 can exhibit the shear resistance exerted by the stab rebar even in a situation where the stab rebar cannot be installed. The filling material 80 of the cage 100 is generally made of split chestnut stone, crushed stone, etc., but the suspension type cage 100 that can be installed after filling is provided with special conditions such that work cannot be performed at the installation location. It is possible to construct the cage 100 even at the site.

Further, the slip prevention material 70 can be attached to the cage frame 10 in which the filling material 80 is housed. Therefore, even if the cage 100 is filled with the filling material 80 and then installed at the installation location, the resistance force between the adjacent cages 100 in the shearing direction can be improved.

Further, the slip prevention material 70 is attached to the upper surface of the cage frame 10. In the cage 100, the displacement preventing material 70 attached to the upper surface can be made to face the cage frame 10 of the cage 100 placed on the upper surface in the direction toward the valley side of the inclined surface, and the displacement preventing material 70 can be opposed to the cage frame 10. By contacting the adjacent cages 100 with each other, it is possible to suppress slippage due to earth pressure between the adjacent cages 100. As a result, even if the cage 100 is filled with the filling material 80 and then installed at the installation location, the resistance force between the adjacent cages 100 in the shearing direction can be improved.

Further, the slip prevention material 70 may be attached to the lower surface of the cage frame 10. In the cage 100, the displacement preventing material 70 attached to the lower surface can face the cage frame 10 of the cage 100 placed on the lower surface in the direction toward the valley side of the inclined surface, and the cage 100 is adjacent to the cage 100. It is possible to suppress slippage due to earth pressure between 100s. As a result, even if the cage 100 is filled with the filling material 80 and then installed at the installation location, the resistance force between the adjacent cages 100 in the shearing direction can be improved. Further, in the cage 100, the displacement preventing material 70 attached to the lower surface can face the cage frame 10 of the cage 100 placed on the lower surface in the direction toward the valley side of the inclined surface, and the cage 100 can be opposed to the cage frame 10. It is possible to prevent 100 falls.

Further, the slip prevention material 70 has an L-shaped vertical cross section. Therefore, the slip-preventing material 70 comes into contact with the cage 100 to which the slip-preventing material 70 is fixed, and the cage 100 which is in contact with the outer surface to which the slip-preventing material 70 is fixed and is arranged adjacent to the cage 100. Can be in contact with. Therefore, in the cage 100, the slip prevention material 70 attached to the outer surface can face the cage frame 10 of the adjacent cage 100 in the direction toward the valley side of the inclined surface, and the adjacent cages 100 can face each other. Slip due to earth pressure can be suppressed.

Further, the slip prevention material 70 is fixed to the outer surface of the cage 100 by the first fixing member 78. The cage 100 can adjust the expected shear resistance force by the number of the first fixing members 78 such as bolts on which the slip prevention material 70 is installed or the diameter of the first fixing member 78.

Further, the slip prevention material 70 has an installation portion 71 and a locking portion 72. Therefore, the slip-preventing material 70 comes into contact with the cage 100 to which the slip-preventing material 70 is fixed, and the cage 100 which is in contact with the outer surface to which the slip-preventing material 70 is fixed and is arranged adjacent to the cage 100. Can be in contact with. Therefore, in the cage 100, the slip prevention material 70 attached to the outer surface can face the cage frame 10 of the adjacent cage 100 in the direction toward the valley side of the inclined surface, and the adjacent cages 100 can face each other. Slip due to earth pressure can be suppressed.

Further, the installation portion 71 is formed with a first through hole 71a on the mounting side through which the first fixing member 78 is inserted. By using the first through hole 71a on the mounting side, the operator can easily attach the slip prevention material 70 to the cage frame 10 by using the first fixing member 78 at the installation location of the cage 100.

Further, the slip prevention material 70 is fixed to at least two or more first outer surface materials. Therefore, the slip prevention material 70 can be stably and surely fixed to the cage frame 10. Further, by using the first through hole 62a on the fixed side, the operator can easily attach the slip prevention material 70 to the cage frame 10 by using the first fixing member 78 at the place where the cage 100 is installed. ..

Further, in the cage body 100, a plurality of slip prevention materials 70 are attached to the cage frame 10. By having the plurality of slip prevention materials 70, the cage 100 can improve the resistance to regulate the movement of the adjacent cage 100. Further, by having the plurality of slip prevention materials 70, the cage 100 can correspond to the position of installation of the adjacent cage 100 or the orientation of the installation of the adjacent cage 100.

Embodiment 2.
FIG. 13 is a plan view of the top surface material 62 of the cage 100 according to the second embodiment. The parts having the same structure as the cage 100 and the like in FIGS. 1 to 12 are designated by the same reference numerals, and the description thereof will be omitted. The cage 100 according to the second embodiment further specifies the configuration of the top surface material 62.

The first through hole 62a1 on the fixed side is a long hole long along the longitudinal direction of the top surface material 62. The structure of the fixed-side first through hole 62a1 other than the shape of the hole is the same as the structure of the fixed-side first through hole 62a of the first embodiment. Although not shown, the fixed-side first through hole 62a1 formed in the bottom surface member 52 may be a long hole long along the longitudinal direction of the bottom surface member 52. That is, the first through hole 62a1 on the fixed side is a long hole long along the longitudinal direction of the first outer surface material.

FIG. 14 is a plan view of the slip prevention material 70 attached to the top surface material 62. The slip prevention material 70 is attached to the top surface material 62 in a state of being obliquely oriented with respect to the longitudinal direction of the top surface material 62 in a plan view by using the elongated hole of the first through hole 62a1 on the fixed side. Can be done. Similarly, the slip prevention material 70 is attached to the bottom surface material 52 in a state of being obliquely oriented with respect to the longitudinal direction of the bottom surface material 52 in a plan view by utilizing the elongated hole of the first through hole 62a1 on the fixed side. be able to.

[Action and effect of cage 100]
FIG. 15 is a plan view showing an installed state of the cage 100. The cage 100a shown in FIG. 15 is the cage 100 installed in the lower stage, and the cage 100b is the cage 100 installed in the upper stage. Further, the white arrow indicates the direction of the valley side on the inclined surface. The cage 100 is not only arranged in a straight line, but may be arranged in a curved shape as shown in FIG. 15 depending on the conditions such as the topography of the installation location.

In the cage 100, since the first through hole 62a1 on the fixed side is a long hole long along the longitudinal direction of the first outer surface material, the slip prevention material 70 can be attached diagonally. Therefore, even when a plurality of the arranged cages 100 are arranged in a curved shape, the side surface of the upper cage 100 and the slip prevention material 70 can be brought into contact with each other in the direction toward the valley side of the inclined surface. can. As a result, even if the cage 100 is filled with the filling material 80 and then installed at the installation location, the resistance force between the adjacent cages 100 in the shearing direction can be improved.

Embodiment 3.
FIG. 16 is a plan view of the slip prevention material 70 of the cage 100 according to the third embodiment. The parts having the same structure as the cage 100 and the like in FIGS. 1 to 15 are designated by the same reference numerals, and the description thereof will be omitted. The cage 100 according to the third embodiment further specifies the configuration of the slip prevention material 70.

The first through hole 71a1 on the mounting side is an elongated hole formed so as to extend in the longitudinal direction X of the mounting portion 71 along the extending direction of the side edge 71b provided with the locking portion 72. The mounting-side first through-hole 71a1 has the same configuration as that of the mounting-side first through-hole 71a according to the first embodiment, except that the mounting-side first through-hole 71a1 is, for example, a through-hole or the number of formed holes.

FIG. 17 is a plan view of the slip prevention material 70 attached to the top surface material 62. The slip prevention material 70 is attached to the top surface material 62 in a state of being obliquely oriented with respect to the longitudinal direction of the top surface material 62 in a plan view by using the elongated hole of the first through hole 71a1 on the mounting side. Can be done. Similarly, the slip prevention material 70 is attached to the bottom surface material 52 in a state of being obliquely oriented with respect to the longitudinal direction of the bottom surface material 52 in a plan view by utilizing the elongated hole of the first through hole 71a1 on the mounting side. be able to.

FIG. 18 is a plan view of the displacement preventing material 70 of the modified example of the cage 100 according to the third embodiment. The first through hole 71a1 on the mounting side formed in the slip prevention material 70 of the cage 100 according to the third embodiment is a long hole extending in the longitudinal direction X, but the first through hole 71a1 on the mounting side is short. It may be an elongated hole extending in the direction Y. In the following description, the mounting side first through hole 71a1 extending in the lateral direction Y will be described as the mounting side first through hole 71a2.

The first through hole 71a2 on the mounting side extends between one side edge 71b on the side where the locking portion 72 is formed and the other side edge 71c on the side where the locking portion 72 is not formed. It is an elongated hole formed. The mounting-side first through-hole 71a2 has the same configuration as that of the mounting-side first through-hole 71a according to the first embodiment, except that the mounting-side first through-hole 71a2 is, for example, a through-hole or the number of formed holes.

FIG. 19 is a plan view of a deformation preventing material 70 attached to the top surface material 62. The slip prevention material 70 is attached to the top surface material 62 in a state of being obliquely oriented with respect to the longitudinal direction of the top surface material 62 in a plan view by using the elongated hole of the first through hole 71a2 on the mounting side. Can be done. Similarly, the slip prevention material 70 is attached to the bottom surface material 52 in a state of being obliquely oriented with respect to the longitudinal direction of the bottom surface material 52 in a plan view by utilizing the elongated hole of the first through hole 71a2 on the mounting side. be able to.

[Action and effect of cage 100]
Since the first through hole 71a1 on the mounting side or the first through hole 71a2 on the mounting side is a long hole in the cage 100, the slip prevention material 70 can be attached obliquely to the first outer surface material. Therefore, as in the case shown in FIG. 15, even when a plurality of the arranged cages 100 are arranged in a curved shape, the side surface of the upper cage 100 and the slip prevention material are arranged in the direction toward the valley side of the inclined surface. The 70 can be brought into contact with the 70. As a result, even if the cage 100 is filled with the filling material 80 and then installed at the installation location, the resistance force between the adjacent cages 100 in the shearing direction can be improved.

Embodiment 4.
FIG. 20 is a front view of the basket 100 according to the fourth embodiment. FIG. 21 is a side view of the basket 100 according to the fourth embodiment. The parts having the same structure as the cage 100 and the like in FIGS. 1 to 19 are designated by the same reference numerals and the description thereof will be omitted. The cage 100 according to the fourth embodiment further specifies the mounting position of the slip prevention material 70.

The slip prevention material 70 may be attached to the side surface of the cage frame 10 as shown in FIGS. 20 and 21. That is, in the cage 100, the slip prevention material 70 may be attached to the right side wall portion 3 or may be attached to the left side wall portion 4.

In the case of the basket 100 of the fourth embodiment, the installation portion 71 is arranged along the vertical member 12, for example. Further, it is desirable that the plate surface of the installation portion 71 comes into contact with the cross member 13. When the installation portion 71 and the horizontal member 13 come into contact with each other, it is possible to prevent the slip prevention member 70 from rotating with respect to the vertical member 12.

FIG. 22 is a front view conceptually showing an example of fixing the slip prevention material 70 and the vertical member 12. FIG. 23 is a plan view conceptually showing an example of fixing the slip prevention material 70 and the vertical member 12. The first fixing member 78 is, for example, a U bolt. The slip prevention member 70 may be fixed to the vertical member 12 by a first fixing member 78 such as a U bolt. The fixing of the slip stopper 70 and the right side wall portion 3 is not limited to this aspect.

[Action and effect of cage 100]
The cage 100 of the present invention is attached to the side surface of the cage frame 10, protrudes from the outer surface in a state of being attached to the side surface, and when arranged adjacent to the other cage 100, the other adjacent cage 100 is adjacent. It is provided with a slip prevention material 70 facing the side surface of the above. Therefore, in the cage 100, the displacement preventing material 70 attached to the outer surface can face the cage frame 10 of the horizontally adjacent cage 100 in the direction toward the valley side of the inclined surface, and the adjacent cage 100 can be opposed to the cage frame 10. It is possible to suppress slippage due to earth pressure between 100s. As a result, even if the cage 100 is filled with the filling material 80 and then installed at the installation location, the resistance force between the horizontally adjacent cages 100 in the shearing direction can be improved.

Embodiment 5.
FIG. 24 is a side view of the basket 100 according to the fifth embodiment. The parts having the same structure as the cage 100 and the like in FIGS. 1 to 23 are designated by the same reference numerals, and the description thereof will be omitted. The cage 100 according to the fifth embodiment further specifies the mounting mode of the slip prevention material 70.

As shown in FIG. 24, the right side wall portion 3 has a plurality of side members 32. The side surface material 32 is the first outer surface material of the cage 100. The side surface member 32 is a plate-shaped member that is long in one direction. The plurality of side members 32 are arranged in parallel along the vertical direction Z of the cage 100. The plurality of side members 32 are hung on the plurality of vertical members 12 in the right side wall portion 3. The side member 32 extends in the lateral direction Y in the cage frame 10.

The side surface member 32 is fixed to, for example, the vertical member 12. The fixing of the side member 32 and the vertical member 12 is performed by welding, but the fixing of the side member 32 and the vertical member 12 is not limited to welding. The side member 32 may be fixed to the cross member 13, the bottom member 11, or the upper surface member 15.

The side member 32 is arranged parallel to the cross member 13. The side member 32 may be arranged substantially parallel to the cross member 13, and may not be strictly parallel.

Similar to the top surface material 62, the side surface material 32 is formed with a fixed-side first through hole 62a (not shown) to which the displacement prevention material 70 is fixed.

As shown in FIG. 24, the slip prevention material 70 may be attached to the side surface of the cage frame 10. That is, in the cage 100, the slip prevention material 70 may be attached to the right side wall portion 3 or may be attached to the left side wall portion 4.

[Action and effect of cage 100]
The cage 100 of the present invention is attached to the side surface of the cage frame 10, protrudes from the outer surface in a state of being attached to the side surface, and when arranged adjacent to the other cage 100, the other adjacent cage 100 is adjacent. It is provided with a slip prevention material 70 facing the side surface of the above. Therefore, the basket 100 can exert the same effect as that of the fourth embodiment.

Embodiment 6.
FIG. 25 is a front view of the basket 100 according to the sixth embodiment. The parts having the same structure as the cage 100 and the like in FIGS. 1 to 24 are designated by the same reference numerals and the description thereof will be omitted. The cage 100 according to the sixth embodiment further specifies the mounting mode of the slip prevention material 70.

As shown in FIG. 25, the front wall portion 1 has a side member 33. The side surface material 33 is a second outer surface material of the cage 100. The side surface member 33 is a plate-shaped member that is long in one direction. The side surface member 33 is provided along the lower end portion of the front wall portion 1. The side member 33 is hung on a plurality of vertical members 12 in the front wall portion 1. The side member 33 extends in the longitudinal direction X in the cage frame 10.

The side surface member 33 is fixed to, for example, the vertical member 12. The fixing of the side member 33 and the vertical member 12 is performed by welding, but the fixing of the side member 33 and the vertical member 12 is not limited to welding. The side member 33 may be fixed to the bottom member 11, the upper surface member 15, or the cross member 13.

The side member 33 is arranged parallel to the cross member 13. The side member 33 may be arranged substantially parallel to the cross member 13, and may not be strictly parallel.

The side surface material 33, which is the second outer surface material, is formed with a fixed-side second through hole 33a used for fixing to the displacement prevention material 70 attached to another adjacent cage 100. That is, the second through hole 33a on the fixing side is used for fixing to the slip prevention material 70 attached to another adjacent cage 100.

The side surface member 33, which is the second outer surface material, may be attached to the upper end portion of the back wall portion 2 so as to face the locking portion 72 of another adjacent cage 100. Further, the side surface member 33, which is the second outer surface material, may be provided on the right side wall portion 3 or the left side wall portion 4.

The locking portion 72 of the slip prevention material 70 communicates with the second through hole 33a on the fixed side of the adjacent other cage 100 and is fixed to the side member 33 which is the second outer surface material of the adjacent other cage 100. A second through hole 72a on the mounting side through which the second fixing member 79 used for the purpose is inserted is formed. That is, the second through hole 72a on the mounting side is used for fixing to the outer surface of another adjacent cage 100.

[Action and effect of cage 100]
The side member 33, which is the second outer surface material, is formed with a second through hole 33a on the fixed side. Further, the locking portion 72 is formed with a second through hole 72a on the mounting side through which the second fixing member 79 is inserted. Therefore, in the cage 100, the slip prevention material 70 and the side surface member 33 of the adjacent cage 100 can be fixed by the second fixing member 79. Therefore, the cage 100 can fix the adjacent cages to each other, and can further suppress the horizontal movement of the adjacent cages 100 to each other.

Embodiment 7.
FIG. 26 is a plan view of the basket 100 according to the seventh embodiment. FIG. 27 is a front view of the basket 100 according to the seventh embodiment. The parts having the same structure as the cage 100 and the like in FIGS. 1 to 25 are designated by the same reference numerals and the description thereof will be omitted. The cage 100 according to the seventh embodiment further specifies the configuration of the slip prevention material 70.

The slip-preventing material 70 of the cage 100 according to the seventh embodiment has a short-shaped first slip-preventing material 70A and a long-shaped second slip-preventing material 70B.

[Action and effect of cage 100]
The basket 100 according to the seventh embodiment has two anti-slip materials 70 having different lengths. The cage 100 can correspond to the dimensions of the adjacent cages 100 by changing the number of the two anti-slip materials 70 installed, the installation positions of the two anti-slip materials 70, and the like.

Embodiment 8.
FIG. 28 is a plan view of the earth retaining structure 200 according to the eighth embodiment. FIG. 29 is a front view of the earth retaining structure 200 according to the eighth embodiment. FIG. 30 is a side view of the earth retaining structure 200 according to the eighth embodiment. The white arrows shown in FIGS. 28 and 30 indicate the direction of the valley side on the inclined surface. The parts having the same structure as the cage 100 and the like in FIGS. 1 to 27 are designated by the same reference numerals and the description thereof will be omitted. The eighth embodiment is the earth retaining structure 200 using the cage 100 according to the first to seventh embodiments.

The earth retaining structure 200 is used for river construction such as revetment construction and groyne construction, disaster recovery construction along valleys, hillsides, and roads, and soft ground countermeasure construction. The earth retaining structure 200 is installed, for example, at an installation location 300 forming an inclined surface as shown in FIG. 30.

The earth retaining structure 200 is configured by stacking a plurality of cages 100 according to the first to seventh embodiments in the vertical direction. Although FIGS. 28 and 29 show three cages 100, the number of cages 100 is not limited. Further, the cage 100a shown in FIGS. 28 to 30 is the cage 100 installed in the lower stage, and the cage 100b is the cage 100 installed in the upper stage.

In the two cages 100 that are adjacent to each other in the vertical direction, the displacement prevention material 70 attached to the upper surface of the cage 100a arranged on the lower side is arranged on the upper side in the direction toward the valley side of the inclined surface. It is arranged so as to face the side surface of 100b.

[Action and effect of earth retaining structure 200]
The earth retaining structure 200 is attached to the outer surface of the cage frame 10, projects from the outer surface in a state of being attached to the outer surface, and when arranged adjacent to the other cage 100, the side surface of the other adjacent cage 100. It is provided with a cage 100 having an anti-slip material 70 facing the same. Therefore, in the earth retaining structure 200, the displacement preventing material 70 attached to the outer surface can be made to face the cage frame 10 of the adjacent cage 100, and the displacement preventing material 70 and the adjacent cage 100 come into contact with each other. , It is possible to suppress slippage due to earth pressure between adjacent cages 100. As a result, even if the earth retaining structure 200 has a cage 100 to be installed at the installation location after filling the filling material 80, the resistance force between the adjacent cages 100 in the shearing direction can be improved. can.

Further, the earth retaining structure 200 has a cage 100 according to the first to seventh embodiments. Therefore, the earth retaining structure 200 can exert the same effect as the cage 100.

Embodiment 9.
FIG. 31 is a side view of the earth retaining structure 200 according to the ninth embodiment. The white arrow shown in FIG. 31 indicates the direction of the valley side on the inclined surface. The parts having the same structure as the cage 100 of FIGS. 1 to 27 and the earth retaining structure 200 of FIGS. 28 to 30 are designated by the same reference numerals and the description thereof will be omitted. The ninth embodiment is an earth retaining structure 200 using a cage 100 in which the installation position of the slip prevention material 70 is different from the cage 100 used for the earth retaining structure 200 of the eighth embodiment.

In the earth retaining structure 200 according to the ninth embodiment, the two vertically adjacent cages 100 are prevented from slipping attached to the lower surface of the cage 100b arranged on the upper side in the direction toward the valley side of the inclined surface. The material 70 is arranged so as to face the side surface of the cage 100a arranged on the lower side.

[Action and effect of earth retaining structure 200]
In the cage 100, the displacement preventing material 70 attached to the lower surface can face the cage frame 10 of the cage 100 placed on the lower surface in the direction toward the valley side of the inclined surface, and the cage 100 is adjacent to the cage 100. It is possible to suppress slippage due to earth pressure between 100s. As a result, even if the cage 100 is filled with the filling material 80 and then installed at the installation location, the resistance force between the adjacent cages 100 in the shearing direction can be improved. Further, in the cage 100, the displacement preventing material 70 attached to the lower surface can be made to face the cage frame 10 of the cage 100 placed on the lower surface in the direction toward the valley side of the inclined surface, for example. Even if the earth and sand on the inclined surface side is scraped, the cage 100 can be prevented from tipping over.

Further, the earth retaining structure 200 has a cage 100 according to the first to eighth embodiments. Therefore, the earth retaining structure 200 can exert the same effect as the cage 100.

Embodiment 10.
FIG. 32 is a side view of the earth retaining structure 200 according to the tenth embodiment. The white arrow shown in FIG. 32 indicates the direction of the valley side on the inclined surface. The parts having the same structure as the cage 100 of FIGS. 1 to 27 and the earth retaining structure 200 of FIGS. 28 to 31 are designated by the same reference numerals and the description thereof will be omitted. The tenth embodiment is an earth retaining structure 200 using a cage 100 in which the installation position of the slip prevention material 70 is different from the cage 100 used for the earth retaining structure 200 of the eighth embodiment.

The earth retaining structure 200 is configured by stacking a plurality of cages 100 according to the first to ninth embodiments in the vertical direction. Although FIG. 32 shows three cages 100, the number of cages 100 is not limited. Further, the cage 100a shown in FIG. 32 is a cage 100 installed in the lower stage with respect to the cage 100b, and the cage 100b is a cage 100 installed in the upper stage with respect to the cage 100a. Further, the cage 100b shown in FIG. 32 is a cage 100 installed in the lower stage with respect to the cage 100c, and the cage 100c is a cage 100 installed in the upper stage with respect to the cage 100b.

The earth retaining structure 200 according to the tenth embodiment has the following configuration. In the two cages 100 that are adjacent to each other in the vertical direction, the displacement prevention material 70 attached to the upper surface of the cage 100a arranged on the lower side is arranged on the upper side in the direction toward the valley side of the inclined surface. It is arranged so as to face the side surface of 100b. Further, the displacement preventing material 70 attached to the lower surface of the cage 100c arranged on the upper side is arranged so as to face the side surface of the cage 100b arranged on the lower side.

[Action and effect of earth retaining structure 200]
In the cage 100, the displacement preventing material 70 attached to the lower surface can face the cage frame 10 of the cage 100 placed on the lower surface in the direction toward the valley side of the inclined surface, and the cage 100 is adjacent to the cage 100. It is possible to suppress slippage due to earth pressure between 100s. As a result, even if the cage 100 is filled with the filling material 80 and then installed at the installation location, the resistance force between the adjacent cages 100 in the shearing direction can be improved. Further, in the cage 100, the displacement preventing material 70 attached to the lower surface can be made to face the cage frame 10 of the cage 100 placed on the lower surface in the direction toward the valley side of the inclined surface, for example. Even if the earth and sand on the inclined surface side is scraped, the cage 100 can be prevented from tipping over.

Further, the earth retaining structure 200 has a cage 100 according to the first to ninth embodiments. Therefore, the earth retaining structure 200 can exert the same effect as the cage 100.

Embodiment 11.
FIG. 33 is a side view of the earth retaining structure 200 according to the eleventh embodiment. The white arrow shown in FIG. 33 indicates the direction of the valley side on the inclined surface. The parts having the same structure as the cage 100 of FIGS. 1 to 27 and the earth retaining structure 200 of FIGS. 28 to 32 are designated by the same reference numerals and the description thereof will be omitted. The eleventh embodiment is an earth retaining structure 200 using a cage 100 in which the installation position of the slip prevention material 70 is different from the cage 100 used for the earth retaining structure 200 of the eighth embodiment.

The earth retaining structure 200 is configured by arranging a plurality of cages 100 according to the first to tenth embodiments continuously in the lateral direction. Although FIG. 33 shows two cages 100, the number of cages 100 is not limited. The cage 100d shown in FIG. 33 is a cage 100 installed on the left side with respect to the cage 100e, and the cage 100e is a cage 100 installed on the right side with respect to the cage 100d.

The earth retaining structure 200 according to the eleventh embodiment has the following configuration. The two cages 100 adjacent to each other in the lateral direction have an anti-slip material 70 attached to the side surface of the cage 100d located in the valley river more than the other cage 100e in the direction toward the valley side of the inclined surface. The cage 100e is arranged so as to face the front side surface of the cage 100e.

[Action and effect of earth retaining structure 200]
In the earth retaining structure 200, the slip prevention material 70 attached to the outer surface can be made to face the cage frame 10 of the adjacent cages 100, and slippage due to earth pressure between the adjacent cages 100 can be suppressed. As a result, even if the earth retaining structure 200 has a cage 100 to be installed at the installation location after filling the filling material 80, the resistance force between the adjacent cages 100 in the shearing direction can be improved. can.

Further, the earth retaining structure 200 has a cage 100 according to the first to tenth embodiments. Therefore, the earth retaining structure 200 can exert the same effect as the cage 100.

The configuration shown in the above embodiment is an example, and can be combined with another known technique, or a part of the configuration may be omitted or changed without departing from the gist. It is possible.

1 front wall part, 2 back wall part, 3 right side wall part, 4 left side wall part, 5 bottom part, 6 ceiling part, 10 cage frame, 11 bottom member, 12 vertical member, 13 horizontal member, 15 top member, 32 side member , 33 Side material, 33a Fixed side second through hole, 52 Bottom material, 52a Fixed side first through hole, 62 Top surface material, 62a Fixed side first through hole, 62a1 Fixed side first through hole, 70 Anti-slip material , 70A 1st slip stopper, 70B 2nd slip stopper, 71 installation part, 71a mounting side 1st through hole, 71a1 mounting side 1st through hole, 71a2 mounting side 1st through hole, 71b side edge, 71c side edge , 72 Locking part, 72a Mounting side 2nd through hole, 78 1st fixing member, 79 2nd fixing member, 80 Filling material, 100 basin, 100L basin, 100a basin, 100b basin, 100c basin , 100d cage, 100e cage, 110L reinforcement, 200 earth retaining structure, 300 installation location, X longitudinal direction, X1 right direction, X2 left direction, Y short direction, Y1 front direction, Y2 rear direction, Z vertical direction, Z1 up, Z2 down.

Claims (19)

It is a cage that is filled with filling material inside and placed at the construction site.
A box-shaped basket frame for accommodating the filling material and
When it is attached to the outer surface of the cage frame, protrudes from the outer surface in a state of being attached to the outer surface, and is arranged adjacent to the other cage, the displacement facing the side surface of the other adjacent cage. With a stopper,
A basket body equipped with. The slip prevention material is
The cage according to claim 1, which is attached to the upper surface of the cage frame. The slip prevention material is
The cage according to claim 1 or 2, which is attached to the lower surface of the cage frame. The slip prevention material is
The cage according to any one of claims 1 to 3, which is attached to the side surface of the cage frame. The slip prevention material is
The cage according to any one of claims 1 to 4, which is fixed to the outer surface by the first fixing member. The outer surface is
It has a plurality of first outer surface materials formed in the shape of a long plate, and has a plurality of first outer surface materials.
The plurality of the first outer surface materials are
Each is arranged in parallel,
The cage according to any one of claims 1 to 5, wherein at least two or more of the first outer surface materials are formed with first through holes on the fixed side to which the slip prevention material is fixed. The first through hole on the fixed side is
The cage according to claim 6, which is a long hole long along the longitudinal direction of the first outer surface material. The slip prevention material is
The cage according to any one of claims 1 to 7, wherein the vertical cross section is formed in an L shape. The slip prevention material is
An installation portion that is formed in the shape of a rectangular plate and is fixed to the outer surface by the first fixing member, and
It is formed in the shape of a rectangular plate, and has a locking portion that rises from the side edge of the installation portion and a locking portion.
The cage according to claim 5. In the installation part
The cage according to claim 9, wherein the first through hole on the mounting side through which the first fixing member is inserted is formed. The first through hole on the mounting side is
The cage according to claim 10, which is an elongated hole formed so as to extend in the longitudinal direction of the installation portion along the extending direction of the side edge provided with the locking portion. The locking portion has
The cage according to any one of claims 9 to 11, wherein a second through hole on the mounting side is formed through which a second fixing member used for fixing to the outer surface of the other adjacent cage is inserted. .. The outer surface is
It has a second outer surface material formed in the shape of a long plate, and has a second outer surface material.
One of claims 1 to 12, wherein the second outer surface material is formed with a second through hole on the fixing side used for fixing to the slip prevention material attached to the other adjacent cage. The cage described in. The slip prevention material is
The cage according to any one of claims 1 to 13, which is attached to the cage frame in plurality. The slip prevention material is
The cage according to any one of claims 1 to 14, which has a short-shaped first slip-preventing material and a long-shaped second slip-preventing material. An earth retaining structure composed of a plurality of cages according to any one of claims 1 to 15 stacked in the vertical direction.
The two cages that are vertically adjacent to each other
In the direction toward the valley side of the slope
An earth retaining structure in which the slip prevention material attached to the upper surface of the cage arranged on the lower side is arranged so as to face the side surface of the cage arranged on the upper side. An earth retaining structure composed of a plurality of cages according to any one of claims 1 to 15 stacked in the vertical direction.
The two cages that are vertically adjacent to each other
In the direction toward the valley side of the slope
An earth retaining structure in which the slip prevention material attached to the lower surface of the cage arranged on the upper side is arranged so as to face the side surface of the cage arranged on the lower side. An earth retaining structure composed of a plurality of cages according to any one of claims 1 to 15 stacked in the vertical direction.
The two cages that are vertically adjacent to each other
In the direction toward the valley side of the slope
The anti-slip material attached to the upper surface of the cage arranged on the lower side is arranged so as to face the side surface of the cage arranged on the upper side.
An earth retaining structure in which the slip prevention material attached to the lower surface of the cage arranged on the upper side is arranged so as to face the side surface of the cage arranged on the lower side. A retaining structure in which a plurality of cages according to any one of claims 1 to 15 are continuously arranged in the horizontal direction.
The two cages that are adjacent to each other in the horizontal direction are
In the direction toward the valley side of the slope
An earth retaining structure in which the anti-slip material attached to the side surface of the cage located in Tanigawa rather than the other cage is arranged so as to face the side surface of the other cage.

Images