JP6145399B2 - Tile repair method and filler - Google Patents

Description

  The present invention relates to a tile repair method and an injection, and more particularly to a tile repair method for tiles arranged on an underlying wall via an adhesive member and an injection used for the tile repair method.

  In the outer wall, the inner wall, the floor, and the like of the building where the tiles are arranged on the base wall via the adhesive member, the tiles are lifted by peeling the adhesive member from the base wall. As repairs of such tiles, anchor pinning epoxy resin injection method disclosed in Japanese Patent No. 5127945 (Patent Document 1), tile replacement method disclosed in Japanese Patent No. 3799034 (Patent Document 2), Patent No. 4435792 (Patent Document) The method of inject | pouring inorganic alkaline aqueous solution into the hole part disclosed to 3) etc. is mentioned.

  Specifically, in Patent Document 1, an anchor pin insertion hole is formed in a joint, the fixing resin is filled in the anchor pin insertion hole, and the anchor pin is inserted. Is disclosed. Patent Document 2 discloses a method for repairing a formwork-attached exterior tile wall surface, in which a tile to be collected is removed, a new tile is attached to the removed portion with a one-component epoxy-modified silicone resin adhesive, and the tile is cured. ing. Patent Document 3 includes a step of forming a hole in a joint around a defective tile to be repaired, and a mixture of silicates and active water modified by reducing molecules in this hole. A tile repairing method comprising a step of injecting an inorganic alkaline aqueous solution is disclosed.

Japanese Patent No. 5127945 Japanese Patent No. 3799034 Japanese Patent No. 4435792

  However, in the above-mentioned Patent Document 1, although the floating of the portion where the anchor pin is inserted can be repaired, when the floating is generated in a wide range, many anchor pin insertion holes are formed, It is necessary to insert an epoxy resin and an anchor pin into the anchor pin insertion hole. For this reason, the anchor pinning epoxy resin injection method disclosed in Patent Document 1 has a problem in that the efficiency of repair is poor.

  In the above-mentioned Patent Document 2, it is necessary to remove the tile in which the float has occurred and attach a new tile, which is troublesome. In addition, when a tile is newly baked in order to prepare a tile similar to the conventional color tone, it takes time to bake up. For this reason, the tile replacement method of Patent Document 2 has a problem that repair efficiency is poor.

  In the above-mentioned Patent Document 3, since the injecting agent is injected into the inside of the hole, when floating is generated in a wide range, many holes are formed, and an inorganic alkaline aqueous solution is formed in each hole. Need to be injected. For this reason, the tile repair method in Patent Document 3 has a problem that repair efficiency is poor.

  This invention makes it a subject to provide the repair method and injection agent of the tile which can improve the efficiency of repair in view of the said problem.

  The tile repair method of the present invention is a repair method for tiles arranged on an underlying wall via an adhesive member, and adheres to joints formed around the tile in a state where the adhesive member floats from the underlying wall. A step of forming a hole penetrating the member, and an injection agent is injected into the hole portion, and the injection agent is diffused into a region wider than the hole portion around the hole portion in the gap between the base wall and the adhesive member. Thus, a step of bonding the base wall and the adhesive member is provided.

  Preferably, in the tile repairing method of the present invention, the injecting agent contains a two-part adhesive having a soft and medium viscosity main agent and a viscosity modifier.

  In the tile repair method of the present invention, preferably, the viscosity modifier is silica powder.

  Preferably, in the tile repair method of the present invention, the injecting agent contains 2.0% or more and 4.5% or less of the silica powder on a mass basis.

  In the tile repair method of the present invention, the main agent is preferably an epoxy resin.

  The injecting agent of the present invention is used for repairing tiles arranged on the base wall via an adhesive member, and is injected from a hole formed in the adhesive member in a state where the adhesive member floats from the base wall. An infusate that adheres the base wall and the adhesive member by being diffused in a gap between the wall and the adhesive member around the hole and wider than the hole, and is a soft and medium viscosity main agent. A two-component adhesive having a viscosity adjusting agent.

  In the injection agent of the present invention, the viscosity modifier is preferably silica powder.

  The injection agent of the present invention preferably contains 2.0% or more and 4.5% or less of the silica powder on a mass basis.

  In the injection agent of the present invention, preferably, the main agent is an epoxy resin.

  According to the tile repair method and the injection agent of the present invention, the repair efficiency can be improved.

It is sectional drawing which shows roughly the repair method of the tile in embodiment of this invention. It is a top view which shows roughly the repair method of the tile in embodiment of this invention. It is sectional drawing which shows roughly the tile repaired in embodiment of this invention. It is a figure which shows the effect which suppresses the dripping of an injection in Example 2. FIG. It is a figure which shows the distortion | strain of the tile with respect to the displacement of an extrusion-molded cement board in Example 3. FIG.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following drawings, the same or corresponding parts are denoted by the same reference numerals, and description thereof will not be repeated.

  With reference to FIGS. 1-3, the tile repair method and injection agent of one Embodiment of this invention are demonstrated.

  First, the injection agent in the embodiment of the present invention will be described. As shown in FIGS. 1 and 2, the injection 11 is used for repairing the tile 14 disposed on the base wall 12 via the adhesive member 13, and the adhesive member 13 floats from the base wall 12. The base wall 12 is injected from the hole 15 formed in the adhesive member 13 and diffused in a gap 16 between the base wall 12 and the adhesive member 13 to a region wider than the hole 15 around the hole 15. This is an injecting agent that adheres the adhesive member 13 to the adhesive.

  The injection 11 includes a two-component adhesive and a viscosity modifier. In the present embodiment, the infusate 11 adheres the base wall 12 and the adhesive member 13 and suppresses the dripping of the infusate 11 with the two-component adhesive for following the behavior of the base wall 12. And a viscosity modifier.

  The two-component adhesive has a main agent and a curing agent, and preferably comprises a main agent and a curing agent. The main agent, curing agent and viscosity modifier are mixed immediately before use. The main agent is a soft and medium viscosity form.

  The soft form has a tensile fracture elongation of 50% or more. The tensile breaking elongation is a value measured based on, for example, JIS K 6251.

  The medium viscosity type has a viscosity of 5000 mPa · s or more and 20000 mPa · s or less. The viscosity is a value measured based on, for example, JIS K 6833.

  The main agent is not particularly limited as long as it is a soft and medium viscosity type. For example, an epoxy resin, an acrylic resin, a cement slurry, or the like can be used, and an epoxy resin is preferably used. When the main agent is an epoxy resin, the soft and medium viscosity epoxy resin is specified based on JIS A 6024.

  The curing agent is also called a curing accelerator and is preferably liquid. Although a hardening | curing agent is not specifically limited, For example, an amine, polyamide, aromatic sulfonic acid etc. can be used.

  A viscosity modifier adjusts the viscosity of an injection agent. In the present embodiment, since the injection agent 11 is disposed in the gap 16 between the base wall 12 extending in the vertical direction and the adhesive member 13 bonded to the tile 14, the injection agent 11 is diffused in the vertically downward direction. In order to suppress dripping of the injection 11, the viscosity of the injection 11 is increased by adding a thickener as a viscosity modifier.

  The viscosity modifier is not particularly limited as long as it is a material that can adjust the viscosity of the injection agent. For example, silica powder, synthetic resin systems such as polyacrylic acid and polyacrylamide, cellulose systems, and the like can be used. It is preferable to use it. Silica powder is advantageous in terms of cost and hardly inhibits the reaction of the two-component adhesive.

Silica powder preferably has the following specific surface area ^{65 m} 2 / g or more ^{95 m} 2 / g. The silica powder preferably has an apparent specific gravity of 40 g / l or more and 60 g / l or less, and more preferably has an apparent specific gravity of about 50 g / l. These silica powders can easily adjust the viscosity of the injection agent.

  The ratio of the silica powder based on the mass (the mass of the silica powder / the mass of the injection agent) is preferably 2.0% or more and 4.5% or less, and preferably 2.6% or more and 3.8% or less. Is more preferable. In the case of 2.0% or more, as shown in FIG. 1, when the injection 11 is injected into the gap between the base wall 12 extending in the vertical direction and the adhesive member 13 bonded to the tile 14, the injection 11 is vertical. It is possible to effectively suppress the drooping downward in the direction. In the case of 4.5% or less, the silica powder and the main agent can be easily mixed. From this viewpoint, it is preferable that the ratio ((mass of silica powder) / (mass of main agent)) based on the mass of silica powder with respect to the main agent is 4.0% or more and 6.0% or less.

  In addition, although an injection agent may contain another component further, it is preferable to consist of a two-component adhesive agent and a viscosity modifier.

  Next, a tile repair method according to the present embodiment will be described with reference to FIGS. The tile repairing method according to the present embodiment is a repairing method for a tile 14 disposed on the base wall 12 via an adhesive member 13 as shown in FIGS. 1 and 3. The base wall 12 is, for example, a cement board, specifically, an extrusion-molded cement board, and the adhesive member 13 is, for example, mortar. The tile 14 includes brick, tile, stone, and the like.

  First, as shown in FIG. 3, the part where the tile 14 is lifted, that is, the position of the gap 16 generated between the base wall 12 and the adhesive member 13 when the adhesive member 13 floats from the base wall 12. Check. The distance between the base wall 12 and the adhesive member 13 is, for example, 2 mm or less.

  Next, in a state where the adhesive member 13 is lifted from the base wall 12, a hole portion 15 penetrating the adhesive member 13 is formed in the joint formed around the tile 14. When the joint material 17 is filled in the joint material, the hole 15 penetrating the joint material 17 and the adhesive member 13 is formed.

  The method for forming the hole 15 is not particularly limited, and for example, the hole 15 is drilled in the joint using an impact driver or the like.

  Next, as shown in FIGS. 1 and 2, the above-described injection 11 is injected into the hole 15, and the gap 16 between the adhesive member 13 and the base wall 12 is centered on the hole 15 from the hole 15. In addition, the base wall 12 and the adhesive member 13 are bonded to each other by diffusing the injection 11 over a wider area. “Diffusion of the infusate 11 in a region wider than the hole 15 in the gap 16” means that the cross-sectional area of the infusate 11 spreading in the gap 16 is larger than the cross-sectional area of the hole 15. The cross-sectional area of the infusate 11 spreading in the gap 16 with respect to the cross-sectional area is preferably 2 times or more, and more preferably 5 times or more. That is, in this embodiment, the injection 11 is not spread and spread, but the injection 11 is intentionally spread over a wide range.

  Further, “with the hole 15 as the center” means that the area when the hole 15 is projected into the gap 16 is the center.

  In this step, the above-mentioned injection is used. That is, the injection agent preferably contains a two-part adhesive having a soft and medium viscosity main agent and a viscosity modifier. The viscosity modifier is preferably silica powder. The injecting agent preferably contains 2.0% to 4.5% silica powder. The main agent is preferably an epoxy resin.

  This step is performed as follows, for example. Specifically, the main component and viscosity modifier of the two-component adhesive in a predetermined blending amount are stirred. Then, the hardening | curing agent of the two component adhesive agent of a predetermined | prescribed compounding quantity is added to the liquid mixture of a main ingredient and a viscosity modifier, and is stirred. The stirring method is not particularly limited, and for example, it is carried out by hand. Thereby, the injection 11 can be produced. Note that the injection 11 is prepared immediately before injection. A predetermined pressure is applied to the injection 11 produced in this way and injected from the hole 15. A method for injecting the injection 11 is not particularly limited, and for example, a grease gun 18 (see FIG. 3) or the like is used.

  As shown in FIG. 1, when the injection 11 is injected into the gap 16 between the base wall 12 and the adhesive member 13, the injection 11 is diffused into the gap 16 in a substantially circular shape with the hole 15 as the center. When the injection 11 contains a soft and medium viscosity main agent, the effect of diffusion of the injection 11 is enhanced. Further, when the injecting agent 11 is adjusted to a predetermined viscosity by the viscosity adjusting agent, the injecting agent 11 is injected downward in the vertical direction even when the base wall 12 extends in a direction intersecting from the horizontal direction (for example, the vertical direction). The dripping of the agent 11 can be suppressed. Further, when the injection 11 is adjusted to a predetermined viscosity, it stays between the base wall 12 and the adhesive member 13 until the injection 11 is cured. Can be increased. In addition, by using such an injecting agent 11, the tile 14 can be repaired because the adhesive member 13 can be easily lifted and repaired without using a special tool or equipment.

  As shown in FIG. 2, the diameter R of the region where the infusate 11 diffuses around the hole 15 which is the injection position of the infusate 11 is, for example, 15 cm or more, and preferably 18 cm or more. For this reason, when the floating of the tile 14 occurs in a wide range, a plurality of hole portions 15 are preferably formed at intervals L1 and L2 of 15 cm or less, and the injection agent 11 is placed in each of the hole portions 15. inject. Thus, by determining the injection intervals L1 and L2 in accordance with the diffusion range of the injecting agent 11, the entire region where the tile 14 is lifted can be efficiently repaired.

  The injection interval L1 in the vertical direction and the injection interval L2 in the horizontal direction of the injection may be the same or different. However, the distances L1 and L2 are preferably 15 cm or less. When the injection 11 contains a viscosity adjusting agent and can suppress dripping, the injection interval L1 in the vertical direction and the injection interval L2 in the horizontal direction can be made equal. The injection intervals L1 and L2 mean the distance between the adjacent hole portions 15.

  Next, the hole 15 into which the injection agent 11 has been injected is filled with the joint material 17. The joint material 17 is preferably an epoxy resin mortar. Note that this step may be omitted.

  By performing the above-described steps, the base wall 12 and the adhesive member 13 of the tile 14 can be bonded by the injecting agent 11, so that the tile 14 in which the floating has occurred can be repaired.

  As described above, the tile repair method of the present embodiment is a repair method of the tile 14 arranged on the base wall 12 via the adhesive member 13, and the adhesive member 13 is lifted from the base wall 12. In the state, a step of forming a hole 15 penetrating the adhesive member 13 in a joint formed around the tile 14, and a gap between the base wall 12 and the adhesive member 13 by injecting an injection 11 into the hole 15. 16 includes a step of adhering the base wall 12 and the adhesive member 13 by diffusing the infusate 11 in a region wider than the hole 15 around the hole 15.

  The injection 11 according to the present embodiment is used for repairing the tile 14 disposed on the base wall 12 via the adhesive member 13, and is formed on the adhesive member 13 in a state where the adhesive member 13 is lifted from the base wall 12. In the gap between the base wall 12 and the adhesive member 13, the base wall 12 and the adhesive member 13 are diffused into a region wider than the hole 15 around the hole 15 in the gap between the base wall 12 and the adhesive member 13. An injecting agent to be bonded, which includes a two-part adhesive having a soft and medium viscosity main agent, and a viscosity modifier.

  According to the tile repair method and the injection agent 11 of the present embodiment, the base wall 12 and the adhesive member are diffused in the gap 16 by diffusing the injection agent 11 into a region wider than the hole portion 15 around the hole portion 15. 13 is bonded. For this reason, the injection | pouring space | interval of the injection 11 can be enlarged according to the range which the injection 11 diffuses. Moreover, in this Embodiment, since the removal of the tile 14 and the preparation of the new tile 14 are unnecessary, effort and time can be shortened. Therefore, the tile repair method and the injection 11 according to the present embodiment can improve repair efficiency.

  As described above, the tile repair method and the injecting agent 11 according to the present embodiment can improve the efficiency of repair, and are therefore preferably used for repair in which the floating of the tile 14 occurs in a wide range.

  In addition, the tile repair method of the present embodiment has the following effects. In the present embodiment, it is not necessary to replace the tile 14. For this reason, the vibration and noise accompanying tile replacement can be prevented. Moreover, generation | occurrence | production of wastes, such as a tile before replacement, can be reduced. Furthermore, in order to replace the tile 14 efficiently, there is a problem in that the appearance is impaired when a part of the floating tiles is replaced with a commercial tile having a similar color tone. Therefore, it is possible to reduce the problem of deteriorating the appearance.

  Preferably, in the tile repair method of the present embodiment, the injection 11 includes a two-part adhesive having a soft and medium viscosity main agent and a viscosity modifier. The injection 11 according to the present embodiment includes a two-part adhesive having a soft and medium viscosity main agent and a viscosity modifier.

  By using a two-component adhesive having a soft and medium-viscosity main agent, elasticity can be maintained even after the injection 11 is injected into the gap 16 and cured, so that the behavior of the base wall 12 can be followed. it can. For this reason, it can suppress that a crack etc. generate | occur | produce in the tile 14 from a repair location. Moreover, the viscosity of the injection 11 can be adjusted by using a viscosity modifier. When the base wall 12 is arranged in a direction crossing the horizontal direction, the viscosity of the injecting agent can be increased as compared with the case where the two-component adhesive is used alone. It can control that it hangs down. For this reason, since the injection 11 can be retained in the gap 16 between the base wall 12 and the adhesive member 13, the adhesiveness between the base wall 12 and the adhesive member 13 can be enhanced. Therefore, the efficiency of repair can be improved, and followability and adhesiveness can be improved.

  In addition, although the one-component adhesive may be used for the injection 11 of the present embodiment, a two-component adhesive is used from the viewpoint of maintaining high adhesiveness even if moisture exists in the gap 16. Is preferred.

  As described above, the tile repair method and the injection agent according to the present embodiment can follow the behavior of the base wall 12 so that the post-curing injection agent can follow, so that the extrusion molding is arranged so as to extend in the vertical direction as the base wall 12. A cement board such as a cement board can be used.

  In the tile repair method and the injecting agent 11 of the present embodiment, preferably, the viscosity modifier is silica powder. Silica hardly inhibits the reaction of the two-part adhesive and is advantageous in terms of cost. Further, from the viewpoint of easily adjusting the viscosity, the silica is preferably a powder, and more preferably a fine powder.

  Preferably, in the tile repair method of the present embodiment, the injecting agent contains 2.0% or more and 4.5% or less of silica powder on a mass basis. Injectable 11 of the present embodiment preferably contains 2.0% to 4.5% silica powder on a mass basis. If the silica powder is 2.0% or more, dripping of the injectable 11 can be effectively suppressed. If it is 4.5% or less, the main agent and the silica powder can be easily stirred.

  In the tile repairing method and the injection 11 of the present embodiment, the main agent is preferably an epoxy resin. Since the epoxy resin has high adhesiveness, it is possible to realize a tile repairing method and an injecting agent that can improve repair efficiency and followability and adhesiveness.

  Here, in the present embodiment, the structure in which the tiles 14 are arranged on the base wall 12 extending in the vertical direction via the adhesive member 13 has been described as an example. However, the base wall 12 extends in the horizontal direction. Or may be inclined. The tile repair method and the injection agent of the present invention can be applied to tiles 14 used in various forms such as an outer wall, an inner wall, and a floor of a building.

[Example 1]
In this example, the effect of injecting the injection agent into the hole and diffusing the injection agent into the gap between the base wall and the adhesive member was examined.

(Invention Example 1)
The injection agent of Example 1 of the present invention was composed of a two-part adhesive having a soft and medium-viscosity epoxy resin specified in JIS A 6024, a curing agent, and silica powder.

Specifically, a fine silica having a specific surface area of 80 ± 15 m ² / g and an apparent specific gravity of about 50 g / l was prepared, and this fine silica was put in a container and adjusted so that the fine silica became 12.0 g. . Next, 200.0 g of epoxy resin (main agent) was put into a container containing finely divided silica and stirred by hand. After confirming that there was no lumps and that the color was smooth and uniform, 100.0 g of the curing agent was added to the container containing the mixed solution. Similarly, there was no lumps and the color was smooth and uniform. Until hand-stirred. This produced the injection agent of Example 1 of the present invention. The injection agent of Invention Example 1 contained 3.8% (= 12.0 g / (200.0 g + 100.0 g + 12.0 g) of silica powder on a mass basis.

(Evaluation method)
Using the injection agent of Example 1 of the present invention, the tile finishing outer wall tile shown in FIGS. 1 to 3 was repaired. Specifically, the base wall 12 was an extruded cement board, and the adhesive member 13 was mortar. A plurality of hole portions 15 penetrating the adhesive member 13 were formed in the joint formed around the tile 14. The diameter of the hole 15 was 4 mm. The distance between the base wall 12 and the adhesive member 13 (depth of the gap 16) was 0.5 mm to 2.0 mm. The injection agent of Inventive Example 1 was injected into each of the plurality of holes 15.

(Evaluation results)
When the injection agent of Example 1 of the present invention is injected into the hole, the injection agent has a radius of 70 mm or more and 100 mm or less around the hole in the gap between the base wall and the adhesive member (diameter R shown in FIG. 2 is 140 mm or more and 200 mm or less). ) Diffused into a substantially circular shape. That is, the diameter of the injection agent was 35 to 50 times the diameter of the hole. From this result, in the case of using the injection agent of Example 1 of the present invention, when the injection intervals L1 and L2 shown in FIG. 2 are 120 mm or more and 150 mm or less, the injection agent is efficiently applied to a wide area where the tiles are lifted. It was found that repair efficiency can be improved.

  In addition, after the injection was cured, the injection was filled in the gap between the base wall and the adhesive member, and the base wall and the adhesive member were adhered. In order to confirm this adhesiveness, when the adhesiveness test of JIS A6024 was done, it had high adhesiveness. For this reason, it was found that the tile can be repaired without using an anchor pin or the like because it can cope with floating and peeling off due to the adhesive strength of the injection agent of Invention Example 1.

  As described above, according to the present embodiment, the injection agent is injected into the hole, and in the gap between the base wall and the adhesive member, the injection agent is diffused in a region wider than the hole around the hole. It was confirmed that a tile repair method capable of improving repair efficiency can be realized by providing a step of bonding the base wall and the adhesive member. Further, it includes a two-part adhesive having a soft and medium-viscosity base agent, and a viscosity modifier, and in the gap, the base wall is diffused in a region wider than the hole part with the hole part at the center. It was confirmed that an injection capable of improving the repair efficiency can be realized by an injection that adheres the adhesive member.

[Example 2]
In the present Example, the effect by using the injection agent containing a viscosity modifier was investigated.

(Invention Example 1)
An injection was prepared in the same manner as in Example 1 of the present invention in Example 1 described above.

(Invention Example 2)
The injecting agent of Inventive Example 2 was basically produced in the same manner as the injecting agent of Inventive Example 1, but differed in that 8.0 g of silica powder was blended. That is, the injectant contained 2.6% silica powder on a mass basis.

(Invention Example 3)
The injecting agent of Inventive Example 3 was basically produced in the same manner as the injecting agent of Inventive Example 1, but differed in that 5.0 g of silica powder was blended. That is, the injectant contained 1.6% silica powder on a mass basis.

(Evaluation method)
Based on the slump property test of JIS A 6024, an adherend was prepared, and the injections of Examples 1 to 3 of the present invention were injected into the adherend to test the dripping of the injection. However, the assumption of floating was 1 mm. The environmental conditions were standard conditions and the curing temperature was 25 ± 2 ° C. FIG. 4 shows a photograph showing the whole of the injectables of Examples 1 to 3 of the present invention after the test and the vertical downward direction, and the degree of sag in the vertical downward direction.

(Evaluation results)
As shown in FIG. 4, Invention Examples 1 to 3 comprising a two-part adhesive having a soft and medium-viscosity epoxy resin main ingredient defined in JIS A 6024 and a curing agent, and silica powder. It has been found that when the injection agent is injected into the adherend as the base wall, it is diffused widely. From this, if the injection agent of Invention Examples 1 to 3 is injected into the hole, the injection agent can be diffused in a gap between the base wall and the adhesive member in a region wider than the hole centering on the hole. Presumed to be possible.

  Moreover, as shown in FIG. 4, it turned out that the injection of the invention examples 1-3 can suppress dripping vertically downward. In particular, the dripping of the injecting agents of Examples 1 and 2 of the present invention containing 2.0% or more and 4.5% or less silica powder on a mass basis is 5 mm or less, and the dripping of the injecting agent can be effectively suppressed. It was.

  Moreover, the injection agent of the present invention examples 1-3 which contained 4.5% or less of silica powder on the mass basis was easy to mix the main agent and the silica powder.

  As described above, according to the present example, by using an injection containing a two-part adhesive having a soft and medium-viscosity main agent and a viscosity modifier, the injection can be diffused, and at the time of construction It was confirmed that sagging could be suppressed. In addition, the main agent is an epoxy resin, the viscosity modifier is silica powder, and by containing 2.0% to 4.5% silica powder on a mass basis, dripping of the injection can be effectively suppressed, It was confirmed that an injection can be easily prepared.

[Example 3]
In this example, the effect of using an injection containing a soft, medium-viscosity main agent was examined.

(Invention Example 1)
An injection was prepared in the same manner as in Example 1 of the present invention in Example 1 described above.

(Reference Example 1)
As the injection agent of Reference Example 1, a hard and high viscosity epoxy resin specified in JIS A 6024 was used.

(Evaluation method)
Half of each of the injections of Invention Example 1 and Reference Example 1 were applied to the surface of an extruded cement board, and tiles were applied and cured. The strain when the extruded cement board was displaced in this state was measured based on a wire strain gauge. FIG. 5 shows approximate lines of respective strain values until the extruded cement board breaks. FIG. 5 shows approximate lines when the injections of Invention Example 1 and Reference Example 1 are applied to one extruded cement plate and measured twice. In FIG. 5, the results of the injection of Example 1 of the present invention are shown as Experiment 1 and Experiment 2, and the results of the injection of Reference Example 1 are shown as Experiment 3 and Experiment 4.

(Evaluation results)
As shown in FIG. 5, the injecting agent of Experimental Example 1 (Experimental Examples 1 and 2) has the same displacement as that of the injecting agent of Experimental Example 1 (Experimental Examples 3 and 4). The strain can be greatly reduced. For example, when the displacement of the extrusion-molded cement plate is 4.0 cm, a strain of about 30 με is generated in Example 1 of the present invention, whereas a strain of 120 to 150 με is generated in Reference Example 1. From this, the injection of Example 1 of the present invention is more elastic after hardening of the injection than the injection of Reference Example 1, so that the injection absorbs the displacement of the extruded cement board and becomes a tile. Since it is difficult to transmit, it has been found that it has the effect of suppressing tile cracking due to deformation of the extruded cement board after floating repair.

  As described above, according to this example, it was confirmed that the followability with respect to the behavior of the base wall can be improved by using an injection containing a soft and medium viscosity main agent.

  It should be understood that the embodiments and examples disclosed herein are illustrative and non-restrictive in every respect. The scope of the present invention is shown not by the above-described embodiments and examples but by the scope of claims, and is intended to include meanings equivalent to the scope of claims and all modifications within the scope.

  11 Injectant, 12 Base wall, 13 Adhesive member, 14 Tile, 15 Hole, 16 Gap, 17 Joint material, L1, L2 spacing.

Claims (6)

A method of repairing a tile disposed on an extruded cement board as a base wall via an adhesive member,
Forming a hole penetrating the adhesive member in a joint formed around the tile in a state where the adhesive member is floating from the base wall;
Injecting an injectant into the hole, and diffusing the infusate into a region wider than the hole centering on the hole in the gap between the base wall and the adhesive member, A step of bonding the bonding member ,
The method for repairing a tile, wherein the injecting agent includes a two-part adhesive having a soft and medium viscosity main agent and a viscosity modifier . The viscosity modifier is a silica powder, method of repairing a tile according to claim 1. The tile repair method according to claim 2 , wherein the injecting agent contains the silica powder in an amount of 2.0% to 4.5% on a mass basis. The tile repair method according to any one of claims 1 to 3 , wherein the main agent is an epoxy resin. It is used for repairing tiles placed on an extruded cement board as a base wall via an adhesive member, and is injected from a hole formed in the adhesive member in a state where the adhesive member floats from the base wall. In the gap between the base wall and the adhesive member, an infusate that bonds the base wall and the adhesive member by being diffused in a region wider than the hole centered on the hole,
A two-part adhesive having a soft and medium viscosity main agent;
Only contains a viscosity-adjusting agent,
The viscosity modifier is a silica powder having the following specific surface area ^{65 m} 2 / g or more ^{95 m} 2 / g,
An injecting agent comprising the silica powder in an amount of 2.0% to 4.5% on a mass basis . The injection agent according to claim 5 , wherein the main agent is an epoxy resin.