JP6800559B2 - Reinforcement structure of masonry retaining wall and reinforcement method of masonry retaining wall - Google Patents

Description

The present invention relates to a reinforcing structure of a masonry retaining wall in which stones, concrete blocks and the like are stacked along a slope, and a method for reinforcing the masonry retaining wall.

As a type of retaining wall to prevent the slope from collapsing against the lateral pressure (horizontal earth pressure) of the ground that forms the ground, stones and concrete blocks (hereinafter referred to as "stacked stones") are used. There is a masonry retaining wall stacked along the surface. These masonry retaining walls are applied when the earth pressure from the back ground is small, such as cuts where the ground on the back is tight or embankments where the backfill material is sufficiently compacted. ..

On the other hand, when the earth pressure from the back ground is large, a reinforcing material such as a reinforcing bar is driven into the ground, and the slope is reinforced more firmly by the pull-out resistance, such as a reinforced soil method or a reinforced soil wall method. Reinforcement method is adopted. It has been proved through the results of disaster cases and model experiments that slopes reinforced by such reinforced soil method and reinforced soil wall method show high earthquake resistance.

Masonry retaining walls have been used for a long time because the materials are easily available. However, in such a masonry retaining wall, the upper masonry sinks due to vibration during an earthquake, and the subsidence pushes the underlying masonry stone forward, causing the wall surface to deform or collapse. There is.

Therefore, for the existing masonry retaining wall, a short reinforcing material is driven into the joint where the masonry stones come into contact with each other, and the masonry stones are pushed outward to restrain the stones from each other to suppress the deformation of the wall surface. A method for reinforcing a masonry wall has been proposed, in which the wall surface is covered with a net or a sheet to prevent the stone from collapsing (for example, Patent Document 1).

However, such reinforcement cannot be expected to improve the strength to the extent that the structural strength against the horizontal earth pressure is increased, and only has the effect of suppressing the sinking and collapse of the stones forming the wall surface. Therefore, if an earthquake larger than initially expected occurs, the slope cannot be maintained against the earth pressure.

Therefore, in order to further increase the structural strength against earth pressure, it is conceivable to adopt a reinforced soil wall method or the like for the existing masonry retaining wall. That is, a concrete precast plate as a wall material is arranged so as to cover the wall surface of the existing masonry retaining wall, and a long reinforcing material such as a deformed reinforcing bar is inserted through the concrete precast plate to reach the stable area on the back side of the slip surface. By driving in, the masonry retaining wall is reinforced (for example, Patent Document 2).

Japanese Patent No. 4316939 Japanese Unexamined Patent Publication No. 9-324433

By the way, when the existing masonry retaining wall is reinforced by the reinforced soil wall method, a large space is required for the construction because a crane is required for transporting and installing the concrete precast plate. In addition, since it is necessary to drive a long reinforcing material for each concrete precast plate, the construction period becomes long. In this way, when reinforcing the existing masonry retaining wall to increase the structural strength against earth pressure, the labor required for construction is greater than when simply reinforcing the masonry retaining wall to prevent it from collapsing. There is a problem that it will increase.

The present invention has focused on such problems existing in the prior art. An object of the present invention is to provide a reinforcing structure of a masonry retaining wall and a method of reinforcing the masonry retaining wall, which can increase the structural strength against earth pressure while suppressing an increase in labor during construction.

Hereinafter, means for solving the above problems and their actions and effects will be described.
The reinforcing structure of the masonry retaining wall that solves the above-mentioned problems is a reinforcing structure of the masonry retaining wall in which a plurality of stones stacked along the slope form a wall surface, and the adhesive film adhering to the wall surface and the base. A reinforcing material having an engaging portion with the adhesive film at the end and being inserted into the ground on the tip side is provided, and the adhesive film is prepared by mixing isocyanate with a resin material containing at least one of a polyol and an amine. It is formed by curing.

According to this configuration, the adhering film adheres to the stones forming the wall surface to connect and integrate the stones, so that the stones are individually displaced by earth pressure, resulting in partial entanglement of the wall surface. Displacement and collapse of stones are suppressed. Further, by inserting a reinforcing material in which the engaging portion engages with such an adhesive film into the ground, it is possible to suppress the displacement of the integrated stone. Therefore, the structural strength against the earth pressure can be increased by receiving the earth pressure as a whole of the integrated stone and transmitting the earth pressure to the reinforcing material. Further, since the adhesion film is formed by mixing isocyanate with a resin material containing at least one of polyol and amine and curing it, it can be easily adhered to the wall surface by spraying or the like. Therefore, as compared with the case where the concrete precast plate as the wall surface material is arranged so as to cover the wall surface of the stone, it is possible to increase the structural strength against earth pressure while suppressing the increase in labor during construction.

In the reinforcement structure of the masonry retaining wall, the number of the reinforcing materials installed is smaller than the number of the masonry stones, and at least one tip of the reinforcing material is located behind the slip surface of the ground. It is preferable to insert it up to the stable region of.

According to this configuration, since the plurality of stones are integrated by the adhesive film, the earth pressure can be resisted with a smaller number of reinforcing materials than the stones. In addition, the tip of the reinforcing material is reinforced by inserting it into the stable area on the back side of the slip surface of the ground (the immovable soil mass that is separated from the moving soil mass on the slope side when the slip surface is the boundary surface). The reinforcing effect of the material can be further enhanced.

In the reinforcing structure of the masonry retaining wall, the reinforcing material includes a shaft material inserted into a bottomed insertion hole provided in the wall surface and a grout material filled in the insertion hole into which the shaft material is inserted. , Are preferably included.

According to this configuration, it is possible to secure a shear resistance force that resists the slip force of the moving soil mass constituting the slope by the shaft material and the grout material that form the reinforcing material. Further, the grout material filled in the insertion hole can increase the frictional resistance force generated between the grout material and the ground and suppress the deterioration of the shaft material.

In the reinforcing structure of the masonry retaining wall, the engaging portion preferably includes a bearing plate arranged at a position in contact with the adhesion film and a fixture for pressing the bearing plate against the adhesion film.
According to this configuration, the adhesive film can be fixed to the wall surface by the fixture. In addition, by arranging a bearing plate between the fixture and the adhesive film, the force pressing the bearing plate by the fixture can be transmitted to the masonry retaining wall integrated by the adhesive film to enhance the reinforcing effect. it can.

A method for reinforcing a structure that solves the above problems is a method for reinforcing a masonry retaining wall in which a plurality of stones stacked along a slope form a wall surface, and is a resin material containing at least one of a polyol and an amine. A bonding step of adhering a liquid substance mixed with isocyanate to the wall surface formed by the plurality of stones in a film form, a curing step of curing the liquid substance adhering to the wall surface to form an adhering film, and the above. It includes a fixing step of fixing the adhesive film to the wall surface by a reinforcing material inserted into the ground so as to penetrate the adhesive film.

According to this configuration, it is possible to obtain the same action and effect as the reinforcing structure of the above structure.

According to the present invention, it is possible to increase the structural strength of the masonry retaining wall against earth pressure while suppressing an increase in labor during construction.

The front view which shows one Embodiment of the reinforcement structure of the masonry retaining wall schematically. A cross-sectional view schematically showing an embodiment of a reinforcement structure of a masonry retaining wall.

Hereinafter, embodiments of the reinforcement structure of the masonry retaining wall and the method of reinforcing the masonry retaining wall will be described with reference to the drawings.
As shown in FIG. 1, the reinforcing structure of the present embodiment is a masonry retaining wall in which a plurality of stones 13 stacked along the slope 12 (slope in the present embodiment) of the ground 11 form a wall surface 14. It is a reinforcing structure of 15. The piling stone 13 may be a stone material, an artificial object such as a block made of concrete or the like, and the shape thereof is not particularly limited.

As shown in FIG. 2, the piling stone 13 of the present embodiment is formed as a machi block (machi stone) having a substantially rectangular shape in the front view forming the front surface forming the wall surface 14 and a cone-shaped reserve portion in the rear. It is illustrated. The configuration of the masonry retaining wall 15 can be arbitrarily changed, but when the masonry 13 is a masonry block, the backing made of concrete, crushed stone, etc. The layer 17 may be provided.

The reinforcing structure of the masonry retaining wall 15 has an adhesive film 21 attached to the wall surface 14 formed by the plurality of stones 13 and an engaging portion with the adhesive film 21 at the base end portion, and the tip end side is inserted into the slope 12. The reinforcing material 22 is provided. The adhesive film 21 covers at least the connecting portion between the stones 13 and preferably covers the entire surface of the wall surface 14 formed by the stones 13.

The adhesive film 21 is formed by using a resin material containing at least one of a polyol and an amine as a main agent and mixing isocyanate as a curing agent with the main agent to form a liquid coating material on the wall surface 14 (for example, a thickness). It is formed by adhering (to about 2 to 10 mm) and curing. When isocyanate is mixed using polyol as the main agent of the coating material, a urethane resin obtained by polymerizing the polyol and isocyanate by urethane bonding is obtained.

Further, when isocyanate is mixed using polyamine as a main agent, an ultrafast-curing polyurea resin obtained by polymerizing polyamine and isocyanate by a urea bond is obtained. Polyurea resin is more preferable as a material for the adhesive film 21 because it takes less time to cure than urethane resin and is not easily affected by moisture and moisture in the air, so that it is excellent in workability and durability. As the coating material for forming the adhesion film 21, a resin in which isocyanate is mixed with a main agent containing both a polyol and a polyamine can also be used.

For example, as the polyurea resin, "LINE-X / XS-100" and "LINE-X / XS-350" manufactured by LINE-X LLC (location: Huntsville, Alabama, USA) are preferably used, but other than that. It is also possible to use other polyurea resins.

By the way, "LINE-X / XS-100" is an isocyanate mixture of LINE-X / XS-100 / A (curing agent) and a polyol / aromatic diamine mixture of LINE-X / XS-100 / B (hardener). It is a polyurea-polyurethane mixed elastomer (a polymer substance that exhibits high elasticity such as rubber) obtained by heating and mixing resin). On the other hand, "LINE-X / XS-350" is an isocyanate mixture of LINE-X / XS-350 / A (curing agent) and a polyol / aromatic diamine mixture of LINE-X / XS-350 / B (hardener). It is a polyurea elastomer obtained by heating and mixing resin).

Regarding the physical properties (ASTM standard) of these polyurea resins, for example, the tensile strength (test method: ASTM D412) is preferably about 10 to 50 N / mm ² , and the "LINE-X / XS-100" The case is 14.80 N / mm ² , while the case of "LINE-X / XS-350" is 23.7 N / mm ² . Similarly, the tear strength (test method: ASTM D624) is preferably 30 to 150 N / mm, and the case of "LINE-X / XS-100" is 51.7 N / mm, while "LINE". In the case of "-X · XS-350", it is 138.2 N / mm.

The adhesive film 21, which is a resin layer formed of such a material, becomes a reinforcing film having excellent tensile strength, wear resistance, and oil resistance, and adheres to the surface of each stone 13 and at the same time, adjacent stones. 13 are connected to each other and firmly integrated. As a result, even if the lateral pressure (horizontal earth pressure) of the ground forming the ground 11 acts on the masonry retaining wall 15 to which the adhering film 21 is attached, the positions of the masonry 13 are individually located. It is suppressed from shifting or moving.

The reinforcing material 22 has a basic structure used in the so-called ground reinforcement soil method, and the shaft material 25 is inserted into a bottomed insertion hole 23 provided in the wall surface 14 so as to penetrate the adhesive film 21. And the grout material 24 that fills the insertion hole 23 into which the shaft material 25 is inserted are preferably included.

The number of reinforcing materials 22 installed is smaller than the number of piled stones 13, and the tip of at least one reinforcing material 22 is stable on the back side of the slip surface 18 of the ground 11 constituting the slope 12. It is preferably inserted up to region 19. The stable region 19 refers to an immovable ground in which an immovable soil mass that is separated from a moving soil mass in the active region on the slope 12 side exists when the slip surface 18 is used as a boundary surface.

The reinforcing material 22 may be installed at a boundary between the stones 13 or at a position where the reinforcing material 22 overlaps the stones 13, but it is preferable to install the reinforcing material 22 at about one place every 2 m ² on the wall surface 14.

The shaft member 25 has a threaded portion (not shown) at the base end portion, and the adhesive film 21 is pressed against the wall surface 14 by tightening a nut 27 as a fixture screwed to the threaded portion. At this time, if the bearing plate 28 is arranged at a position in contact with the adhesive film 21, the tightening force of the nut 27 (the force of pressing the bearing plate with the fixture) can be effectively transmitted to the adhesive film 21 via the bearing plate 28. It is preferable because it can be done. That is, the engaging portion includes a bearing plate 28 arranged so as to be in contact with the adhesion film 21, and a fixture such as a nut 27 that presses the bearing plate 28 against the adhesion film 21.

Next, a method of reinforcing the masonry retaining wall 15 will be described.
First, a coating material, which is a liquid material obtained by mixing an isocyanate as a curing agent with a resin material containing at least one of a polyol and an amine, is attached to a wall surface 14 formed by a plurality of stones 13 in a film form by spraying or coating. Let (adhesion process).

After that, the liquid material adhering to the wall surface 14 is cured by allowing it to stand for a predetermined time to form the adhering film 21 (curing step). Since the adhesive film 21 is formed by directly spraying or applying the covering material to the object, even if the surface of the stone pile 13 constituting the wall surface 14 is uneven, it can be brought into close contact with the surface.

In forming the adhesive film 21, a base treatment step of applying one or more kinds of base materials to the wall surface 14 may be added before the adhesion step. For example, when the wall surface 14 is made of a concrete block, if a polymer cement, an epoxy resin, or the like is applied as a base material, the adhesive film 21 can be satisfactorily adhered to the wall surface 14. In this case, the base material also constitutes a part of the adhesive film 21.

When the drainage pipe 20 is provided on the masonry retaining wall 15, the adhesion film 21 may be provided while avoiding the portion of the drainage pipe 20, or after the adhesion film 21 is formed, the drainage is drained. A hole may be made in the portion of the pipe 20 to open the drain pipe 20.

Next, a bottomed insertion hole 23 is formed by excavation on the wall surface 14 to which the adhesive film 21 is attached so as to penetrate the adhesive film 21 (insertion hole forming step). It is preferable that the insertion hole 23 has a depth that reaches the stable region 19 on the back side of the slip surface 18 assumed in the ground 11.

Subsequently, cement milk or the like, which is a grout material 24, is injected into the excavated insertion hole 23 (injection step). Further, the shaft member 25 is inserted into the insertion hole 23 before or after the injection step (insertion step). At this time, the threaded portion of the shaft member 25 is projected from the insertion hole 23. Then, the grout material 24 is cured by curing for about one day.

After the grout material 24 is hardened, the nut 27 is screwed into the threaded portion of the shaft material 25 protruding from the insertion hole 23 with the bearing plate 28 bitten. Then, by tightening the nut 27, the bearing plate 28 constituting the engaging portion is engaged with the adhesive film 21 by the reinforcing material 22 inserted into the slope 12 so as to penetrate the adhesive film 21, and the adhesive film is formed. 21 is pressed against the wall surface 14 to be fixed (fixing step). This completes the reinforcement of the masonry retaining wall 15.

Next, the operation of the reinforcing structure and the reinforcing method of the masonry retaining wall 15 will be described.
As shown by the white arrows in FIG. 2, when a large horizontal earth pressure acts on the masonry retaining wall 15 due to an earthquake or the like, the upper masonry stone 13 sinks and the lower masonry stone 13 sinks. There is a risk that the wall surface 14 will be deformed or the stone wall 13 will fall.

In that respect, the masonry 13 forming the wall surface 14 of the masonry retaining wall 15 in the present embodiment is firmly integrated by the adhesive film 21 made of a curable resin such as polyurea resin, and therefore the masonry 13 is firmly integrated by earth pressure. Partial protrusion of the wall surface 14 and collapse of the pile stone 13 due to the individual displacement of the stone wall 14 are suppressed.

Further, since the piling stone 13 integrated with the adhesive film 21 is fixed to the ground 11 by the reinforcing material 22, the horizontal earth pressure received by the piling stone 13 at the time of an earthquake or the like is determined by the reinforcing material via the adhesive film 21. It is transmitted to 22. Then, the collapse of the integrated stone 13 is suppressed by the reinforcing effect mainly due to the pull-out resistance force formed by the frictional force acting between the reinforcing member 22 and the ground 11. That is, the plurality of stacked stones 13 form a wall portion integrated by the adhesive film 21 and receive earth pressure as a whole, and the earth pressure is supported by the pull-out resistance force of the reinforcing material 22 to be integrated. The collapse of the wall is suppressed.

In this way, in the masonry retaining wall 15, the structural strength is improved by forming the masonry 13 into a wall portion integrated with the adhesive film 21 and fixing the wall portion to the ground 11 by the reinforcing material 22. .. Regarding this point, when the wall surface 14 of the masonry retaining wall 15 is covered with a sheet, a net, or the like, even if the partial fall of the masonry 13 can be suppressed, the structural strength to receive earth pressure is improved. Since this is not the case, it is not possible to suppress the collapse of the slope 12 (ground 11) in the event of an earthquake or the like.

Further, since the adhesive film 21 can be easily attached to the wall surface 14 by spraying a liquid resin material, the cost associated with obtaining the members is lower than that in the case of arranging the concrete precast plate as the wall surface material. In addition, the increase in labor during construction is suppressed. Further, by forming the adhesive film 21 and using a polyurea resin or the like, the toughness is greatly improved and high strength can be obtained as compared with the case where a lattice frame, a sheet, a net or the like is arranged as the surface material, and the wall surface 14 has Since it can be brought into close contact with the entire surface, it is highly effective in suppressing the displacement of the individual stones 13. Further, by forming the adhesive film 21 and using a polyurea resin or the like, deterioration such as deterioration due to oxidation is less likely to occur as compared with the case where a wire mesh or the like is used as the surface material, so that the durability is improved.

According to the first embodiment described in detail above, the following effects are exhibited.
(1) Since the adhesive film 21 adheres to the stones 13 forming the wall surface 14 to connect and integrate the stones 13, the portion of the wall surface 14 due to the individual displacement of the stones 13 by earth pressure. Target protrusion and collapse of the pile stone 13 are suppressed. Further, by inserting the reinforcing member 22 with which the engaging portion engages with the adhesive film 21 into the slope 12, the displacement of the integrated stone 13 can be suppressed. Therefore, the structural strength against the earth pressure can be increased by receiving the earth pressure as a whole of the integrated stone 13 and transmitting the earth pressure to the reinforcing member 22. Further, since the adhesion film 21 is formed by mixing isocyanate with a resin material containing at least one of polyol and amine and curing it, it can be easily adhered to the wall surface 14 by spraying or the like. Therefore, as compared with the case where the concrete precast plate serving as the wall surface material is arranged so as to cover the wall surface 14 of the stone pile 13, the structural strength against earth pressure can be increased while suppressing the increase in labor during construction.

(2) Since the plurality of stones 13 are integrated by the adhesive film 21, the earth pressure can be resisted by a smaller number of reinforcing materials 22 than the stones 13. Further, the tip of the reinforcing material 22 extends to the stable region 19 (immovable soil mass classified from the moving soil mass on the slope 12 side when the slip surface 18 is the boundary surface) behind the slip surface 18 of the ground 11. By inserting it, the reinforcing effect of the reinforcing material 22 can be further enhanced.

(3) The shaft member 25 and the grout member 24 constituting the reinforcing member 22 can secure a shear resistance force that resists the sliding force of the moving soil mass constituting the slope 12. Further, the grout material 24 filled in the insertion hole 23 can increase the frictional resistance force generated between the grout material and the ground and suppress the deterioration of the shaft material 25. For example, when a metal shaft member 25 is used, the grout material 24 can suppress the oxidation of the shaft member 25.

(4) The adhesive film 21 can be fixed to the wall surface 14 by tightening the nut 27 which is a fixing tool. Further, by arranging the bearing plate 28 between the nut 27 and the adhesive film 21, the force pressing the bearing plate 28 by the nut 27 is transmitted to the masonry retaining wall 15 integrated by the adhesive film 21 to reinforce it. The effect can be enhanced.

(Change example)
The above embodiment can be modified and embodied as follows.
-It is not necessary to provide the bearing plate 28 between the nut 27 and the adhesive film 21.

-The fixing tool is not limited to the nut 27, and for example, a fixing tool having an insertion hole through which the end of the shaft member 25 having no screw portion is inserted and a wedge inserted into the insertion hole of the fixing tool are used as the fixing tool. May be good. In this case, the bearing plate 28 can be pressed against the adhesive film 21 by inserting the shaft member 25 into the insertion hole of the insertion member and then inserting the wedge.

-The masonry retaining wall 15 may be an empty stacking type in which cement, mortar, etc. are not filled between adjacent stones 13, or cement, mortar, etc. are filled between adjacent stones 13. It may be a kneading type in which 13 are connected to each other.

-For example, when it is necessary to further reinforce the slope due to the strengthening of the earthquake resistance standard or the change in the strength of the ground, a plurality of plate members (for example, the adhesive film 21 of the above embodiment) are covered. A concrete precast plate) may be arranged and the plate member may be fixed to the slope with a reinforcing material. That is, after the reinforcement of the above embodiment is performed, the slope may be further reinforced by the ground reinforcement earth method.

Further, the technical idea grasped from the above-described embodiment and each modification is described below.
(B) A reinforcing structure of a masonry retaining wall in which a plurality of stones piled up along a slope form a wall surface.
With a plurality of plate members arranged along the wall surface
A reinforcing material having an engaging portion with the plate member at the base end portion and the tip end side being inserted into the ground.
An adhesive film adhering to the surfaces of the plurality of plate members,
With
The coating film is a reinforcing structure of a masonry retaining wall, which is formed by mixing isocyanate with a resin material containing at least one of a polyol and an amine and curing it.

According to this configuration, the plurality of plate members arranged along the wall surface suppress the partial protrusion of the wall surface and the collapse of the pile stone due to the individual displacement of the pile stone. Further, by inserting the reinforcing material into the ground, the plate member can be fixed to the ground. Further, the adhesive film adheres to the plurality of plate members, so that the strength of the wall portion formed by the plate members is increased. Therefore, the structural strength against earth pressure can be increased. Since this adhesion film is formed by mixing isocyanate with a resin material containing at least one of polyol and amine and curing it, it can be easily adhered to a plurality of plate members by spraying or the like.

(B) Assuming that the reinforcing material is the reinforcing material of ¬.1.
The slope reinforcement structure according to (a) above, wherein the base end portion has an engaging portion with respect to the adhesion film, and the tip end side further includes a second reinforcing material inserted into the ground.

According to this configuration, by inserting a second reinforcing material in which the engaging portion engages with the adhesive film into the ground, the adhesive film can be fixed to the ground and the structural strength against earth pressure can be further increased. it can.

11 ... Ground, 12 ... Slope, 13 ... Stone, 14 ... Wall, 15 ... Masonry retaining wall, 18 ... Sliding surface, 19 ... Stable area, 21 ... Adhesive film, 22 ... Reinforcing material, 23 ... Insert hole, 24 ... grout material, 25 ... shaft material, 27 ... nut as a fixture, 28 ... bearing plate.

Claims (5)

It is a reinforcing structure of a masonry retaining wall in which a plurality of stones piled up along a slope form a wall surface.
An adhesive film that connects and integrates the stones by adhering and curing a liquid material obtained by mixing isocyanate with a resin material containing at least one of a polyol and an amine to the plurality of stones forming the wall surface. When,
A reinforcing member distal end has an engaging portion for the deposition film after curing the base end portion is inserted into the natural ground so as to pass through the deposition film after curing,
Reinforcement structure of the masonry retaining wall, which is characterized by being equipped with. The number of the reinforcing materials installed is a plurality smaller than the number of the piled stones.
The reinforcing structure for a masonry retaining wall according to claim 1, wherein the tip portion of at least one of the reinforcing members is inserted to a stable region on the back side of the slip surface of the ground. The reinforcing material includes a shaft material inserted into a bottomed insertion hole provided in the wall surface so as to penetrate the adhesive film, and a grout material filled in the insertion hole into which the shaft material is inserted. only including,
The engagement portion according to claim 1 or 2, wherein the engaging portion includes a bearing plate arranged so as to be in contact with the adhesion film, and a fixture for pressing the bearing plate against the adhesion film . Reinforcement structure of masonry retaining wall. The reinforcing material, the reinforcing of masonry retaining wall according to any one of claims 1 to 3, characterized in that it is installed in a plurality of positions including a position overlapping with the loading stone in the wall Construction. A method of reinforcing a masonry retaining wall in which a plurality of stones stacked along a slope form a wall surface.
A bonding step of attaching a liquid material obtained by mixing isocyanate with a resin material containing at least one of a polyol and an amine to the wall surface formed by the plurality of stones in a film form.
A hard step of curing the liquid material adhering to the wall surface to form an adhering film that connects and integrates the stones on the surface.
Fixing for fixing the attached film on the wall surface by the reinforcing member distal end has an engaging portion for the deposition film after curing the base end portion is inserted into the rock mass to pass through the deposition film after curing Process and
A method of reinforcing a masonry retaining wall, which is characterized by being provided with.