JP2020128670A - Method for repairing stone structure - Google Patents

Abstract

To provide a method for repairing a stone structure capable of surely fixing and installing a sheet material used as a form on the surface of the stone structure when repairing defects detected on the surface of the stone structure composed of stone by filling a filling material.SOLUTION: A method of repairing the stone structure comprises: a fixing step of a light-transmitting sheet material 11 made of an elastic material to be fixed to the surface S of the defective stone structure to be repaired with an adhesive; a filling step for filling a defect with a plastic grout material by injecting the plastic grout material through an injection part 21 to 24 formed on the surface of the sheet material; and a checking step for the filling state of the plastic grout material through the light-transmitting sheet material. An adhesion assisting sheet 12, 13 having better adhesion to the adhesive than the sheet material is adhered to at least one end region 11a and the other end region 11b facing each other on the back surface of the sheet material, and the sheet material is fixed by interposing an adhesive between the surface of the stone structure and the adhesion auxiliary sheet.SELECTED DRAWING: Figure 1

Description

The present invention relates to a method for repairing a stone structure made of stone.

When repairing defects in the joints of stone materials such as a masonry revetment by injecting and filling the filling material, according to the conventional method, it was necessary to install a mold made of wood or the like to prevent leakage of the filling material.

Patent Document 1 is a method for repairing cracks in the underwater portion of a concrete structure, and covers a sheet material such as a light-transmitting rubber sheet made of an elastic material on the surface of the cracked underwater portion to cover the cracks. So that the filling material is filled in the crack by injecting a water-inseparable plastic grout material as a filling material through an injection part formed on the surface of the sheet material, and the filling state of the filling material A method for repairing cracks in an underwater portion for confirming through the light-transmitting sheet material is disclosed.

JP, 2017-008718, A

If a heavy mold made of wood or the like is used, it becomes difficult to fix the mold. Therefore, it is considered to use a rubber sheet as the mold material. However, in the case of repairing cracks of a concrete structure as in Patent Document 1, it is possible to fix the sheet material with a concrete nail, but in the case of a stone structure, since the stone material is hard, the concrete nail should be fixed. Cannot be used. For this reason, when repairing defects detected on the surface of a stone structure such as a masonry revetment by injecting and filling the filling material, an elastic sheet material is used as a formwork for preventing the leakage of the filling material. In this case, the method of fixing and installing the sheet material becomes an issue.

In addition, when a light-transmissive silicone rubber sheet is used as a sheet material to confirm the degree of filling of the filling material, such a sheet material has poor adhesiveness with an underwater curing type adhesive, and a simple adhesive Another problem is that it is difficult to fix.

In view of the above-mentioned problems of the prior art, the present invention uses a sheet material used as a form material with an adhesive when repairing defects detected on the surface of a stone structure made of stone by filling with a filling material. An object of the present invention is to provide a method for repairing a stone structure that can be securely fixed and installed on the surface of the structure.

The method for repairing a stone structure for achieving the above object is a method for repairing a defect detected on the surface of a stone structure made of stone, in which a light transmissive sheet material made of an elastic material is repaired. Fixing the surface of the defective stone structure with an adhesive, filling the defect with the plastic grout material by injecting a plastic grout material through an injection part formed on the surface of the sheet material, Confirming the filling state of the plastic grout material through the light-transmissive sheet material,
At least one end region and the other end region of the back surface of the sheet material facing each other, an adhesion auxiliary sheet having a better adhesiveness with the adhesive than the sheet material is attached, and the sheet material, The stone structure is fixed by interposing the adhesive between the surface of the stone structure and the adhesion auxiliary sheet.

According to this stone structure repairing method, the sheet material is fixed to the surface of the stone structure, the plastic grout material is injected from the injection portion of the surface of the sheet material to fill the defect to be repaired, and the filling state is set. It can be confirmed through a light-transmissive sheet material.

In addition, a sheet material in which an adhesion auxiliary sheet having a better adhesiveness than the sheet material is attached to at least one end region and the other end region of the back surface (front surface side of the stone structure) of the sheet material that face each other. Is fixed by interposing an adhesive between the surface of the stone structure and the adhesion auxiliary sheet. Even if the adhesiveness between the sheet material and the adhesive is poor, the sheet material and the adhesive can be reliably attached by interposing the attachment auxiliary sheet between the sheet material and the adhesive. Therefore, the sheet material can be surely adhered to the surface of the stone structure with the adhesive, and the sheet material can be reliably fixed and installed on the surface of the stone structure. In addition, since the adhesion auxiliary sheet is attached to the one end area and the other end area of the back surface of the sheet material which face each other, and the adhesion auxiliary sheet does not exist in the other portions, the adhesion auxiliary sheet does not transmit light. Even with the above, there is no problem in confirming the filling state through the light-transmissive sheet material.

In the method for repairing a stone structure, the adhesion assisting sheet is attached to the surface of the sheet material in at least one of the one end region and the other end region, and the adhesive is the surface of the sheet member. By being applied so as to reach the adhesion auxiliary sheet on the side, the fixing of the sheet material by the adhesive becomes more reliable.

Further, the adhesion assisting sheet on the back surface side of the sheet material has a two-layer structure with a net material sandwiched therebetween, and the net material is deformable following elastic deformation of the sheet material. Of the net material on the surface of the stone structure, the adhesive is applied to the protruding portion of the net material, so that the adhesive property of the sheet material to the stone structure is improved. Is further improved, and the fixing of the sheet material becomes even more reliable. Further, the net material can be deformed following the elastic deformation of the sheet material and can be deformed following the irregularities of the surface of the stone structure, so that the net material can be easily adhered to the surface of the stone structure. The net material is preferably made of, for example, a resin material, and the adhesion auxiliary sheet is preferably made of a material that easily adheres to the resin net material.

Further, it is preferable that the sheet material is made of silicone rubber, the adhesion auxiliary sheet is made of butyl rubber, and is attached to the sheet material by heat welding. A sheet material made of silicone rubber is suitable as the above sheet material because it is an elastic material and has a light-transmitting property, but as a measure against the poor adhesiveness with an adhesive, the adhesiveness with an adhesive is By using a relatively good butyl rubber sheet as the adhesion auxiliary sheet and attaching it to the sheet material by heat welding, the adhesiveness between the sheet material and the adhesive can be improved.

Further, since the above-mentioned method for repairing a stone structure can be applied in water or in the air, it is possible to repair the underwater portion and the air portion of the stone structure.

According to the method for repairing a stone structure of the present invention, when repairing a defect detected on the surface of a stone structure made of stone by filling with a filling material, the sheet material used as a formwork is bonded to the stone structure by an adhesive. It can be securely fixed and installed on the surface of.

In the stone structure repairing method according to the first embodiment, a front view (a) of a main part schematically showing the installation state of a sheet material on the surface of the stone structure and a top view (b) of the main part viewed from above. is there It is a flow chart for explaining each step S01-S09 of the repair method of the stone structure by a 1st embodiment. It is a principal part side sectional view which shows schematically a mode that the filler which fills the joint which is the repair object between the stones of FIG. 1 is filled. It is an expansion top view which shows schematically the installation state of the sheet|seat material on the stone material surface by the modification of 1st Embodiment. In the method of repairing a stone structure according to the second embodiment, a front view (a) of a main part schematically showing a state of installing a sheet material on a surface of the stone structure and a top view (b) of the main part viewed from above. is there. FIG. 6 is an enlarged view in which the installation state of the sheet material of FIG. 5 is enlarged.

Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. FIG. 1 is a front view (a) of a main part schematically showing a state of installation of a sheet material on the surface of the stone structure in the method for repairing a stone structure according to the first embodiment (a) and a top view of the main part viewed from above ( b).

First, a method of fixing and installing a sheet material as a formwork on the surface of a stone structure in the first embodiment will be described with reference to FIG.

As shown in FIGS. 1( a) and 1 (b ), an excessively opened joint (gap) 3 extending in the longitudinal direction between the stone materials 1 and 2 constituting the stone structure is a repair target, and the sheet material 11 covers the joint 3. Is fixed to the surface S of the stone materials 1 and 2 and installed.

The sheet material 11 has a rectangular shape adapted to the length of the joint 3 in the vertical direction, and has opposite end portions 11a of the left and right end portions of the back surface of the sheet material 11 (the front surface S side of the stone materials 1 and 2) and the like. Adhesion assisting sheets 12 and 13 each having an elongated shape adapted to the longitudinal length of the sheet material 11 are attached to the end region 11b. Further, similar attachment auxiliary sheets 14 and 15 are attached to one end region 11a and the other end region 11b on the surface of the sheet material 11.

As shown in FIG. 1A, a plurality of injection parts 21 to 24, which are cross-shaped cuts for injecting the filling material into the joint 3, are provided at equal intervals in the central longitudinal direction of the sheet material 11. ing.

The sheet material 11 is made of an elastic material and is a semitransparent silicone rubber sheet. The adhesion auxiliary sheets 12 to 15 are made of a butyl rubber sheet, and are attached to both surfaces of the one end region 11a and the other end region 11b of the sheet material 11 by being heated by an external heat source and heat-welded. Moreover, you may make it pressure-bond with heat-welding as needed. The silicone rubber sheet has poor adhesiveness with the adhesive, but the interposition of the butyl rubber sheet between the two improves the adhesiveness with the adhesive. The sheet material 11 may be durable for a period (about 10 days) until the filling material is sufficiently solidified.

The sheet material 11 on which the adhesion auxiliary sheets 12 to 15 are heat-welded is adhered to the surfaces S of the stone materials 1 and 2 with an adhesive. That is, an adhesive is applied to the adhesion auxiliary sheets 12 and 13 on the back surface side of the sheet material 11, and the sheet material 11 is attached to the front surface S of the stone materials 1 and 2. Thereafter, an adhesive is further applied so that each end of the sheet material 11 reaches the adhesion auxiliary sheets 14 and 15 on the front surface side of the sheet material 11. By applying such an adhesive, the left and right ends of the sheet material 11 are wrapped with the adhesive, and slightly inward of the attachment auxiliary sheets 14 and 15 of the sheet material 11 through the lower and left ends of the surface S of the stone materials 1 and 2 and the upper ends. Adhesive layers 16 and 17 (shown by broken lines in FIG. 1A) extending up to and having a substantially U-shaped cross section are formed.

The adhesive is preferably an underwater curable adhesive, and for example, an underwater curable epoxy resin adhesive can be used. Specific examples include Bond E380 (trade name), which is an underwater curable epoxy resin-based putty adhesive manufactured by Konishi Co., Ltd., and Esdyne Joiner W (trade name), which is an epoxy resin-based filler joint material manufactured by Sekisui Fuller Co., Ltd. However, the present invention is not limited to these, and other products can be used. According to these adhesives, the sheet material can be adhered to the surface of the stone through the adhesion auxiliary sheet regardless of whether the repair target is the underwater portion or the air portion of the stone structure.

Since the adhesion-assisting sheets 12 and 13 on the back surface side of the sheet material 11 have better adhesiveness to the adhesive than the sheet material 11, by adhering to the sheet material 11, the adhesiveness to the adhesive is improved and the sheet material 11 Even if the adhesiveness between the adhesive and the adhesive is poor, the adhesive can be reliably attached to the sheet material 11 via the attachment auxiliary sheets 12 and 13. Therefore, the sheet material 11 can be reliably adhered to the surfaces S of the stone materials 1 and 2 by the adhesive layers 16 and 17 made of an adhesive agent.

Similarly, the adhesion-assisting sheets 14 and 15 on the front surface side of the sheet material 11 have improved adhesiveness with the adhesive agent by being attached to the sheet material 11, so that the adhesive agent can be securely applied to the front surface side of the sheet material 11. Can be glued to. In this way, by providing the adhesion auxiliary sheets 12 to 15 on both sides of the sheet material 11, the adhesiveness of the adhesive layers 16 and 17 on both sides of the sheet material 11 is improved, so that the fixing of the sheet material 11 by the adhesive is more effective. Be certain.

As described above, in the case of a stone structure, the sheet material cannot be fixed with concrete nails like the concrete structure, and even if the silicone rubber sheet is used as the sheet material, the adhesiveness with the adhesive is poor. Therefore, the sheet material 11 can be securely fixed and installed on the surfaces S of the stone materials 1 and 2.

Next, the filling material with which the joint to be repaired is filled will be described. A water-separable plastic grout material is used as the filling material. The plastic grout material has fluidity when pressure is applied, but loses fluidity when pressure is removed. The plastic grout material is suitable for use in the present embodiment because it does not flow out from the gap or the like because the pressure is lost and the fluidity is lost in the gap or the like of the mold or the like. As the water inseparable plastic grout material, for example, swelling bentonite with water and kneading it with water, cement, sand and water inseparable mortar using an admixture such as water inseparator or water reducing agent The plastic grout thus obtained can be used.

In addition, as a plastic grout material that is inseparable in water, a plasticizer is added to air mortar that uses a special foaming agent, and the air mortar is instantly solidified to confine the air in the grout. There is a plastic cavity filling material obtained by the two-liquid injection method. Such a construction method is known as an air pack construction method (registered trademark) (Pamphlet “Air pack construction method”, Plasticity Grout Association, October 2007, see Japanese Patent No. 3618275).

Furthermore, as an underwater non-separable plastic grout material, the main material cement contained in the cement milk material is low heat Portland cement, and the fly ash contained in the cement milk material is a high quality fly ash equivalent to JIS standard II. As a modified fly ash, there is a plastic grout material in which an inseparable admixture in water contained in a cement milk material is an acrylamido-2-methylpropanesulfonic acid-based thickener (JP-A-2016-175803). reference).

According to the experiment of the inventor, when a non-plastic grout material was used as the filling material, the filling material leaked out between the sheet material and the concrete surface in the underwater part, and filling was impossible. On the other hand, it has been confirmed that the use of the underwater non-separable plastic grout material as the filling material can prevent the filling material from leaking between the surface of the stone material and the sheet material in the underwater portion. The underwater non-separable plastic grout material is suitable as a filling material for cracks in the underwater part because it is resistant to water and is plastic.

Next, each step of the method for repairing a stone structure according to the first embodiment will be described with reference to FIGS. FIG. 2 is a flowchart for explaining each step S01 to S09 of the method for repairing a stone structure according to the first embodiment. FIG. 3 is a side cross-sectional view of a main part schematically showing a state of filling the joint material, which is a repair target between the stone materials of FIG. 1, with the filler material.

This will be described with reference to FIG. First, a diver or the like visually inspects the underwater portion of a masonry revetment constructed by stacking a large number of stone materials (S01), and between the stone materials 1 and 2 of the underwater portion as shown in FIGS. Since the joint 3 is too opened, it is detected as a defect (S02), and when the joint 3 is determined to be a repair target, the repair process is executed by a diver or the like as follows.

As described above, the light-transmissive sheet material 11 made of a silicone rubber sheet is covered with the underwater curing adhesive so as to cover the joint 3 between the stone materials 1 and 2 of FIGS. It is fixed to the surface S of No. 2 (S03).

Next, as shown in FIG. 3, a hand gun type injector 20 is filled with the above-mentioned filling material, and a tip portion 20c formed in a knife shape at the tip of a small diameter pipe 20b provided on the injection side of the injector 20. 1 is inserted into the cross-shaped injection portion 21 formed at the bottom of the sheet material 11 of FIG. 1A, and the injector 20 is set (S04).

Next, by pushing the push-in portion 20a provided on the rear end side of the injector 20 to the front end side, the filling material inside the injector 20 is sent out to fill the joint 3 as shown in FIG. 4(a). The plastic grout material G of the material is injected (S05).

By the above-described injection step S05, the plastic grout material G is filled from the lower part of the joint 3, and in the middle of that, it is determined whether the injection is continued or interrupted (S06). Such a determination can be easily made by visually observing the filling state of the plastic grout material G in the joint 3 through the light transmissive sheet material 11.

Further, when the plastic grout material G is filled in the joint 3, the plastic grout material G is discharged to the outside through the injection portions 22 to 24 made of other cuts.

For example, as shown in FIG. 3, when it is determined that the plastic grout material G has been filled up to the height at which the injector 20 is set (the height of the injection portion 21), the injection of the filling material is interrupted (S06), and then, First, it is determined whether or not the injection position is changed (S07). The change of the injection position can be easily determined by visually observing the filling state of the plastic grout material G in the joint 3 through the light transmissive sheet material 11.

When it is determined that the injection position is to be changed (S07), the injector 20 is pulled out from the injection part 21 of the sheet material 11, the process returns to step S04, and the injection part 20 above the injection part 21, for example, the injection part 22 is injected into the injector 20. Is set and the filling material is injected in the same manner as in step S05. By such injection, the plastic grout material G is continuously filled in the joint 3.

By repeating the above steps S04 to S07, the plastic grout material G is filled in the joint 3, but by visually observing the filled state of the plastic grout material G in the joint 3 through the light-transmissive sheet material 11, When it is judged that the plastic grout material G is sufficiently filled in the joint 3, the injection of the plastic grout material G is completed (S08). Next, the removal of the sheet material 11 and the post-treatment of the surface filled with the plastic grout material G are performed if necessary (S09).

As described above, according to the method for repairing an underwater structure according to the present embodiment, the light-transmissive sheet material 11 made of a silicone rubber sheet is covered with the underwater curable adhesive so as to cover the joint 3 to be repaired. By fixing to the surface S of the stone materials 1 and 2 in the underwater part, a simple formwork can be installed in the underwater part and the filling material can be filled. Since the filling material filled in the joint 3 can be visually recognized through the light-transmissive sheet material 11, the filling state of the filling material can be easily confirmed.

Further, as shown in FIGS. 1A and 1B, the adhesion auxiliary sheets 12 to 15 are attached to the one end portion area 11a and the other end portion area 11b of the sheet material 11 which face each other, and the area 11a of the sheet material 11 is Since the adhesion auxiliary sheet does not exist in the portion other than 11b, even if the adhesion auxiliary sheet is not light-transmissive, there is no problem in confirming the filling state through the light-transmissive sheet material 11.

Next, another example of the method for fixing and installing the sheet material on the stone surface will be described with reference to FIG. FIG. 4 is an enlarged top view schematically showing an installation state of the sheet material on the surface of the stone material according to the modification of the first embodiment.

As shown in FIG. 4, an adhesion auxiliary sheet 12 made of a butyl rubber sheet is attached by heat welding to the back surface side of the one end region 11a of the sheet material 11 made of a silicone rubber sheet. The adhesion auxiliary sheet 12 is adhered to the surface S of the stone material 1 by the adhesive layer 18 made of an underwater curing type adhesive agent, and the sheet material 11 is fixed to the surface of the stone material 1. In the other end region 11b (FIG. 1) of the sheet material 11, the sheet material 11 is similarly fixed to the surface S (FIG. 1) of the stone material 2.

According to the example of FIG. 4, by providing the adhesion auxiliary sheet only on the back surface side of the sheet material, the sheet material can be reliably fixed to the front surface of the stone material with the adhesive. Compared to FIG. 1, the fixing method of FIG. 4 omits the adhesion auxiliary sheet on the front surface side of the sheet material, so that the fixing property of the sheet material is reduced, but, for example, a defect in the aerial part having a better adhesion condition than the underwater part. By applying it to repair, repair can be performed with a simpler configuration and a simpler fixing method.

Next, a method of repairing a stone structure according to the second embodiment will be described. FIG. 5 is a main part front view (a) schematically showing an installation state of the sheet material on the surface of the stone structure in the stone structure repairing method according to the second embodiment (a) and a main part top view (as viewed from above). b). FIG. 6 is an enlarged view of the installed state of the sheet material of FIG.

In the example of FIGS. 5 and 6, the attachment auxiliary sheet on the back surface side of the sheet material 11 has a two-layer structure with the net materials 31 and 32 sandwiched therebetween, and the left and right sides of the sheet material 11 on the front surface S of the stone materials 1 and 2. The adhesive is also applied to the protruding portions 31a and 32b of the net materials 31 and 32 protruding from the ends.

The net materials 31 and 32 are net-like materials made of, for example, a flexible resin material and can be deformed following the elastic deformation of the sheet material 11, and also follow the irregularities of the surfaces S of the stone materials 1 and 2. Can be transformed. In addition, a net material such as a steel wire having a high rigidity is not suitable because it cannot be bent easily and cannot follow irregularities such as a masonry revetment.

Adhesion auxiliary sheets 12a and 13a made of a butyl rubber sheet are heat-welded to one end area 11a and the other end area 11b on the back surface side of the sheet material 11, and the adhesion auxiliary sheets 12a and 13a and another adhesion auxiliary sheet made of a butyl rubber sheet. The net materials 31 and 32 are arranged so as to be sandwiched between 12b and 13b. With such a two-layer structure of the butyl rubber sheet, the resin net materials 31 and 32 can be provided on the left and right ends of the sheet material 11 by the adhesive force of the butyl rubber sheet. Adhesion auxiliary sheets 14 and 15 made of a butyl rubber sheet are also heat-welded to the front surface side of the sheet material 11.

The sheet material 11 provided with the net materials 31 and 32 is adhered to the surfaces S of the stone materials 1 and 2 with an underwater curing type adhesive. That is, an underwater curable adhesive is applied to the adhesion assisting sheets 12b and 13b on the back surface side of the sheet material 11 and the protruding portions 31a and 32a of the net materials 31 and 32, and the sheet material 11 together with the net materials 31 and 32 is applied to the stone material 1 , 2 to the surface S. Thereafter, an underwater curing type adhesive is further applied so that the protruding portions 31a and 32a of the net materials 31 and 32 and the respective ends of the sheet material 11 reach the adhesion auxiliary sheets 14 and 15 on the front surface side of the sheet material 11. .. By applying such an adhesive, the protruding portions 31a and 32a of the net materials 31 and 32 and the left and right ends of the sheet material 11 are wrapped with the adhesive so that the surface S of the stone materials 1 and 2 passes through the left and right lower ends and the upper ends. Adhesive layers 33 and 34 (shown by broken lines in FIG. 5A) that extend over a wide range to the inner side of the attachment auxiliary sheets 14 and 15 of the sheet material 11 are formed.

As described above, according to the present embodiment, the net materials 31 and 32 which can be deformed following the elastic deformation of the sheet material 11 are provided on the left and right end sides of the sheet material 11, and the sheet material 11 is made into the net materials 31 and 32. By adhering to the surfaces S of the stone materials 1 and 2 by the adhesive layers 33 and 34, the adhesiveness of the sheet material 11 to the surfaces S of the stone materials 1 and 2 by the underwater curing type adhesive is further improved, and the sheet material The fixation of 11 becomes even more reliable. Further, since the net materials 31 and 32 can be deformed following the irregularities of the surfaces S of the stone materials 1 and 2, it is easy to bond them to the surface S of the stone materials 1 and 2.

Further, according to the sheet material fixing method according to the second embodiment, when the repair target portion of the stone structure is present near the water surface, for example, the sheet material 11 as the formwork is affected by the fluctuation of the water surface such as waves. However, by providing the net materials 31 and 32 at the left and right ends of the sheet material 11, the adhesive layers 33 and 34 can be provided in a wide range on the surfaces S of the stone materials 1 and 2, and the adhesiveness of the sheet material 11 can be improved. Can be further improved. Therefore, even if the repair target part exists near the water surface, the sheet material 11 does not easily peel off.

In addition, in the second embodiment, each step of the method for repairing a stone structure can be performed in the same manner as in FIG. 2 except for the fixing step S03 of the sheet material.

Although the embodiments for carrying out the present invention have been described above, the present invention is not limited to these, and various modifications can be made within the scope of the technical idea of the present invention. For example, in the present embodiment, the stone masonry revetment has been described as an example of a stone structure made of stone, but the stone structure repairing method according to the present invention can, of course, be applied to repairing other stone structures. It can also be applied to masonry retaining walls and stone bridges.

Further, in the present embodiment, the joint opening between the stones of the stone structure was targeted for repair as a defect, but the defect to be repaired is not limited to this, and the joint opening at the end of the stone, the joint between the stones and the joint at the end It is possible to repair the missing parts, the cracks of the stone alone, the pinholes, the cracks of the stone, and the restored parts such as peeling. Further, in the present specification, the surface of the stone structure includes the front surface, the left and right side surfaces, and the upper and lower surfaces of the stone material, and also includes the joint portion.

According to the method of repairing a stone structure of the present invention, when repairing a defect detected on the surface of a stone structure made of stone by filling with a filling material, a light-transmissive sheet material made of an elastic material is used as an adhesive. Since it can be securely fixed and installed on the surface of the stone structure, a lightweight and simple structure sheet material can be used as a formwork, filling the defects without leaking the filling material, and confirming the filling state surely it can.

1, 2 Stone material 11 Sheet material 11a One end area 11b Other end area 12-15 Adhesion auxiliary sheets 16, 17, 18 Adhesive layers 21-24 Injection part 31,32 Net material 33,34 Adhesive layer G Plastic grout material (Filling material)
Surface of S stone

Claims (4)

A method for repairing defects detected on the surface of a stone structure made of stone,
A step of fixing an optically transparent sheet material made of an elastic material to the surface of the defective stone structure to be repaired with an adhesive;
Filling the defects with the plastic grout material by injecting a plastic grout material through an injection part formed on the surface of the sheet material,
Confirming the filling state of the plastic grout material through the light-transmissive sheet material,
At least one end region and the other end region of the back surface of the sheet material facing each other, an adhesion auxiliary sheet having good adhesiveness with the adhesive than the sheet material is attached,
A method for repairing a stone structure, wherein the sheet material is fixed by interposing the adhesive between the surface of the stone structure and the adhesion auxiliary sheet. At least one of the one end area and the other end area, the adhesion auxiliary sheet is also attached to the surface of the sheet material,
The method for repairing a stone structure according to claim 1, wherein the adhesive is applied so as to reach the adhesion auxiliary sheet on the front surface side of the sheet material. The attachment auxiliary sheet on the back side of the sheet material has a two-layer structure with a net material sandwiched therebetween,
The net material is deformable following the elastic deformation of the sheet material, and has a portion protruding from the end of the sheet material,
The method for repairing a stone structure according to claim 1 or 2, wherein the adhesive is applied to the protruding portion of the net material on the surface of the stone structure. The sheet material is made of silicone rubber,
The method for repairing a stone structure according to claim 1, wherein the adhesion auxiliary sheet is made of butyl rubber and is attached to the sheet material by heat welding.

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