JP5262276B2 - How to repair cracks in concrete structures - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve injection work of a repairing agent into a cracked part generated in the surface of a concrete structure using an injection implement, to facilitate the removal of the injection implement and to reduce the repair work of the surface of the concrete structure after removing the injection implement. <P>SOLUTION: A masking tape 4 is stuck to the surface 2 of the concrete structure 1 to cross the cracked part 3 to thereby cover an injection port arranged part 20, and a sealing compound 5 is applied from the top of the masking tape 4 to cover the cracked part 3. The masking tape 4 is then removed to expose the injection port arranged part 20. After applying the sealing compound 5 to an injection implement installed part 21 around the injection port arranged part 20, an injection port 11 is adjusted to the injection port arranged part 20, and the injection implement 10 is bonded to the injection implement installed part 21 with an adhesive 8. In this state, the repairing agent 7 is injected into the cracked part 3 from an injection port 11 of the injection implement 10. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a crack repairing method for repairing a cracked portion generated on the surface of a concrete structure such as a foundation of a house or an outer wall.

  Conventionally, when repairing a cracked portion generated on the surface of a concrete structure such as a foundation or outer wall of a house, for example, repairing the cracked portion using various injection tools as disclosed in Patent Documents 1 and 2 Methods for injecting agents are known.

  In the repair method using such an injection tool, first, a sealant is applied to the surface of the concrete structure along the cracked part, and the cracked part is covered except for the part where the injection tool is installed. Adhere to the injection device installation site on the surface of the object with an adhesive. Then, an injection gun or a pump that supplies a repair agent to the injection device is connected, and the repair agent is injected into the cracked portion from the injection port formed in the center of the injection device installation surface, thus completing the injection operation. When the repair agent is cured, the sealing agent and the injection tool are removed from the surface of the concrete structure.

JP 2004-360329 A Japanese Utility Model Publication No. 5-75348

  In the above repair method, when the repair agent is injected from the injection port of the injection tool, the injection tool is installed so that the repair agent does not leak from between the installation surface of the injection tool and the surface of the concrete structure. Adhesive is applied to the surface so as to surround the injection port, and the installation surface of the injection device is pressed against the injection device installation site, but the adhesive is crushed along the installation surface. May spread and block the injection port of the injection device.

  For this reason, the adhesive is applied only to the peripheral edge of the installation surface of the injection device, and the adhesive is separated from the injection port as much as possible.If the injection device is adhered to the injection device installation site in this state, An exposed area that is not covered by the adhesive is generated at the injection tool installation site. When the repair agent is injected from the injection port of the injection tool into the cracked portion, the repair agent wraps around and directly adheres to the exposed region of the injection tool installation site, thereby When the bonding area between the installation surface and the surface of the concrete structure is increased and the repair agent is hardened, the injection tool is firmly bonded to the surface of the concrete structure via the repair agent. There was a problem that it was difficult to remove.

  Further, when the injection tool is forcibly removed, the surface of the concrete structure is often damaged, and in this case, there is a problem that a repair work is required. In particular, when the surface of the concrete structure has a concavo-convex pattern, removal of the injection tool becomes even more difficult, and when the surface of the concrete structure is damaged, troublesome repair work accompanied by the reproduction of the concavo-convex pattern is required. It was necessary.

  In addition, in the injection tool currently disclosed by patent documents 1 and 2, by projecting an annular projecting wall around the injection port on the installation surface, the injection port is not blocked by the adhesive applied to the installation surface. In addition, it is considered that the repair agent injected from the injection port does not enter the gap between the installation surface and the surface of the concrete structure. However, especially when the surface of the concrete structure is not smooth, the protruding wall of the installation surface cannot be pressed against the surface of the concrete structure without a gap, and the space between the protruding wall of the installation surface and the surface of the concrete structure cannot be pressed. The adhesive and the repair agent may flow through the generated gap, and the above-described problems may still occur.

  On the other hand, in the foundations and outer walls of houses, some have straight joints (concave grooves) on the surface, but such concave groove parts have a thinner cross section than other parts, In particular, cracks are likely to occur along the groove bottom. When repairing a cracked place generated in the groove bottom of such a groove, since the installation surface of the injection tool is generally larger than the groove width of the groove, the injection tool is installed so as to straddle the groove, The concrete around the groove is scraped to the depth of the groove bottom, and an injection tool is installed in the shaved portion.

  In the former case, a space corresponding to the depth of the concave groove is created between the injection port of the injection tool and the cracked part, and when a repair agent is injected from the injection port of the injection tool, the space is repaired into this groove. A troublesome repair work is required in which the agent wraps around and the hardened repair agent is scraped from the groove over a wide range. For this reason, covering the cracked part while filling the groove with the sealant prevents the repair agent from entering the groove, but in this case, the injection of the repair agent is caused by the flow of the sealant. Even the above-mentioned space that is the route was blocked, which sometimes hindered the injection of the repair agent.

  In the latter case, the installation surface of the injection tool comes into contact with the cracked portion of the groove bottom of the concave groove, so that the repair agent from the injection port can be directly injected into the cracked portion. There is no wraparound into the groove. However, in order to install the injection tool, the concrete around the concave groove is scraped off, so that a troublesome repair work such as backfilling the shaved portion and returning the surface to the original state is necessary.

  The present invention eliminates the above-mentioned problems, makes it possible to satisfactorily perform the operation of injecting the repair agent with the injection tool to the cracked portion generated on the surface of the concrete structure, and facilitates the removal of the injection tool. Provide a method for repairing cracks in concrete structures that can reduce the repair work on the surface of the concrete structure after removal of the filling tool and can easily and reliably repair cracks in the groove bottom With the goal.

In order to solve the above-mentioned problem, the crack repairing method for a concrete structure according to the present invention is applied to the cracked portion 3 generated in the groove bottom 31 of the groove 30 formed on the surface 2 of the concrete structure 1. A repair agent 7 is injected from an injection port 11 of an injection tool 10 installed on a surface 2 of 1 to repair a cracked portion 3, and crosses the groove 30 to the surface 2 of the concrete structure 1. While affixing the masking tape 4 in this manner, the filling material 32 is filled into the concave groove 30 from above the masking tape 4 to cover the injection port arrangement site 20 located on the concave groove 30, A sealing agent 5 is applied to the surface 2 of the concrete structure 1 along the concave groove 30 from above the masking tape 4 and the filler 32, and the sealing agent 5 is applied to the front surface of the concrete structure 1. After covering the cracked portion 3 while filling the groove 30, the masking tape 4 is removed from the surface 2 of the concrete structure 1 together with the filler 32 to expose the inlet placement site 20, and After applying the sealing agent 5 to the injection tool installation site 21 around the injection port arrangement site 20 on the surface 2 of the concrete structure 1, the injection port 11 is aligned with the injection site arrangement site 20, and the injection The tool 10 is bonded to the injection tool installation site 21 with the adhesive 8, and the repair agent 7 is injected into the cracked portion 3 from the injection port 11 of the injection tool 10 in this state.

  In the above crack repairing method, the injection tool 10 has an installation surface 14 in which the injection port 11 is formed at a substantially central portion, and the adhesive is attached to a peripheral end portion of the installation surface 14 away from the injection port 11. In a state where the agent 8 is applied, the installation surface 14 of the injection device 10 is bonded to the injection device installation site 21.

According to cracking repair method of this invention, to expose the inlet arrangement site on the surface of the concrete structure, so it covers the injecting tool installation portion around the inlet arrangement site by sealant, injecting tool installation When the repair agent is injected from the injection port of the injection tool adhered to the site to the cracked part generated in the groove bottom of the concave groove, the portion where the repair agent directly adheres to the surface of the concrete structure is the injection site location Therefore, the adhesion range between the installation surface of the injection tool and the surface of the concrete structure through the repair agent can be minimized. In this way, the adhesive is applied only to the peripheral end away from the injection port so as not to block the injection port on the installation surface of the injection device, and the installation surface of the injection device is adhered to the injection device installation site. Therefore, even if it does not hinder the work of injecting the repairing agent, the injecting tool is not firmly bonded to the surface of the concrete structure by the repairing agent, and the injecting tool can be easily removed from the surface of the concrete structure Can be removed.

  In addition, since the injection tool is installed so as to straddle the groove without scraping the concrete around the groove to the depth of the groove bottom, there is no groove between the inlet of the injection tool and the cracked portion. A space will be created as the injection path for the repair agent for the depth, but since the injection port placement site, i.e., the space part, is covered with the masking tape and the filler in advance, the groove is filled with cracks. When the masking tape and the filler are removed, the injection port placement site can be exposed accurately and reliably when the sealing agent for covering does not block the injection port placement site. The application | coating operation | work of a sealing agent becomes easy and the injection | pouring operation | work of a repair agent can also be performed favorably.

  For this reason, the troublesome repair work after removal of the injection tool is unnecessary, and the repair can be easily and reliably performed on the cracked portion generated in the groove bottom of the concave groove.

( Reference example )
A reference example of a crack repair method for a concrete structure will be described according to the construction procedure.

  First, the masking tape 4 is applied to the surface 2 of the concrete structure 1 such as the foundation or outer wall of the house as shown in FIG. 1 so as to cross the cracked portion 3 as shown in FIG. The injection hole arrangement | positioning site | part 20 located on the crack location 3 is coat | covered. This injection port arrangement | positioning site | part 20 is a part by which the injection port 11 is arrange | positioned when the injection tool 10 mentioned later is installed in the surface 2 of the concrete structure 1. FIG. In addition, as this masking tape 4, the thing with the weak adhesive force with respect to the surface 2 of the concrete structure 1 and favorable peelability is used.

  Next, as shown in FIG. 3, the cracking portion 3 is covered by applying a sealant 5 on the surface 2 of the concrete structure 1 from above the masking tape 4 along the cracking portion 3. In addition, as this sealing agent 5, the adhesive force with respect to the surface 2 of the concrete structure 1 is weak, and the thing with favorable peelability is used.

  And before the sealing agent 5 hardens | cures, as shown in FIG. 4, the masking tape 4 is removed from the surface 2 of the concrete structure 1, and the injection hole arrangement | positioning site | part 20 is exposed. At this time, the sealing agent 5 applied on the masking tape 4 is also peeled off at the same time. In this way, by covering the injection port arrangement site 20 with the masking tape 4 in advance, the injection port arrangement site 20 is not blocked by the sealing agent 5 that covers the cracked portion 3, and when the masking tape 4 is removed. The injection port arrangement site 20 can be accurately and reliably exposed.

  Subsequently, as shown in FIG. 5, a sealing agent 5 is further applied to the injection tool installation site 21 around the injection port arrangement site 20 on the surface 2 of the concrete structure 1. This injection tool installation site 21 is a part where the installation surface 14 is installed when an injection tool 10 described later is installed on the surface 2 of the concrete structure 1.

  Then, when the undercoating of the sealant 5 on the injection device installation site 21 is completed, the injection device 10 is subsequently installed. As shown in FIG. 6, the injection tool 10 includes a base 12 in which an injection port 11 is formed so as to penetrate substantially the center portion, and a cylindrical body 13 projecting from the upper surface side of the base 12. 13 cavities communicate with the inlet 11. The bottom surface of the base 12 is the installation surface 14. In the injection tool 10, when an injection cylinder (not shown) is connected to the upper end portion of the cylindrical body 13 and the repair agent 7 is supplied from the injection cylinder, the repair agent 7 is discharged from the injection port 11. Note that it is not always necessary to use an injection tool 10 having such a structure.

  When the injection tool 10 is installed, as shown in FIGS. 7 and 8, the adhesive 8 is applied to the peripheral end portion of the installation surface 14 away from the injection port 11 so as to surround the injection port 11, as shown in FIGS. The installation surface 14 is bonded to the injection device installation site 21 while pressing the installation surface 14 so that 11 is aligned with the injection port arrangement site 20. At this time, even if the adhesive 8 is crushed and spreads along the installation surface 14, the amount and range of application of the adhesive 8 are set so that the injection port 11 is not blocked by the adhesive 8. ing. The adhesive 8 is preferably made of the same material as that of the sealant 5, but may be made of a different material.

  Thus, after installing the injection tool 10, the injection cylinder is connected to the cylinder 13 of the injection tool 10, and the repair agent 7 is injected into the cracked portion 3 from the injection port 11 of the injection tool 10. In addition, as the repair agent 7, an epoxy resin or the like having a strong adhesive force to the concrete structure 1 is used.

  At this time, since the injection tool installation site 21 on the surface 2 of the concrete structure 1 is covered with the undercoat sealant 5, the portion where the injected repair agent 7 directly adheres to the surface 2 of the concrete structure 1 is Only the injection port placement site 20 is provided, and the adhesion range between the installation surface 14 of the injection tool 10 and the surface 2 of the concrete structure 1 through the repair agent 7 can be minimized. Thereby, even if the repair agent 7 hardens | cures, the injection tool 10 will not be in the state firmly adhere | attached on the surface 2 of the concrete structure 1 by the repair agent 7. FIG.

  Then, after the curing agent 7 is cured and cured, as shown in FIG. 9, the sealing agent 5 and the injection tool 10 are removed from the surface 2 of the concrete structure 1, and the crack repair is completed. At this time, since the injection tool 10 is not firmly bonded to the surface 2 of the concrete structure 1 by the repair agent 7 as described above, the injection tool 10 can be easily removed, and after the removal. The troublesome repair work is no longer necessary.

(Implementation form)
The crack repair method of Reference Example, the surface 2 of the concrete structure 1 of substantially equal flat housing foundation and facades, had been repaired crack portion 3 produced on the surface 2, the embodiment of the present invention In the crack repairing method, the cracked portion 3 generated on the groove bottom 31 of the concave groove 30 is repaired on the surface 2 of the concrete structure 1 such as the foundation or outer wall of the house having the straight joint portion (concave groove) 30. To do. Hereinafter, the crack repair method according to the implementation embodiments of the present invention will be described in accordance with the construction process.

  First, as shown in FIG. 11, the masking tape 4 is applied to the surface 2 of the concrete structure 1 as shown in FIG. The filler 32 is filled from above 4 to cover the injection port arrangement site 20 located on the concave groove 30. This injection port arrangement | positioning site | part 20 is a part by which the injection port 11 is arrange | positioned when the injection tool 10 mentioned above is installed in the surface 2 of the concrete structure 1. FIG. In addition, as this masking tape 4, the adhesive force with respect to the surface 2 of the concrete structure 1 is weak, and a thing with good peelability is used, and as the filling material 32, the concave groove 30 is filled in the concave groove 30. The clay etc. which are easy to follow the shape of are used.

  Next, as shown in FIG. 12, a sealing agent 5 is applied to the surface 2 of the concrete structure 1 along the concave groove 30 from above the masking tape 4 and the filler 32, and the sealing agent 5 is applied. The crack portion 3 is covered while filling the concave groove 30. The sealing agent 5 has a relatively high fluidity so that it can be filled in the concave groove 30 without any gaps, and has a low adhesive force to the surface 2 of the concrete structure 1 and a good releasability. Is used.

  And before the sealing agent 5 hardens | cures, as shown in FIG. 13, the masking tape 4 is removed from the surface 2 of the concrete structure 1 with the filler 32, and the injection hole arrangement | positioning site | part 20 is exposed. At this time, the sealing agent 5 applied on the masking tape 4 and the filler 32 is also peeled off at the same time. In this way, by covering the injection port arrangement site 20 with the masking tape 4 and the filler 32 in advance, the injection port arrangement site 20 is blocked by the sealing agent 5 that fills the concave groove 30 and covers the cracked portion 3. When the masking tape 4 and the filler 32 are removed, the injection port arrangement site 20 can be accurately and reliably exposed.

  Subsequently, as shown in FIG. 14, the sealant 5 is further primed on the injection tool installation site 21 around the injection port arrangement site 20 on the surface 2 of the concrete structure 1. This injection tool installation site | part 21 is a part in which the installation surface 14 is installed when the injection tool 10 mentioned above is installed in the surface 2 of the concrete structure 1. FIG.

  Then, when the undercoating of the sealant 5 on the injection device installation site 21 is completed, the injection device 10 is subsequently installed. In addition, since the thing of the structure mentioned above is used as the injection tool 10, description is abbreviate | omitted.

  When the injection tool 10 is installed, as shown in FIGS. 15 and 16, the adhesive 8 is applied to the peripheral end portion of the installation surface 14 away from the injection port 11 so as to surround the injection port 11, as shown in FIGS. The installation surface 14 is bonded to the injection device installation site 21 while pressing the installation surface 14 so that 11 is aligned with the injection port arrangement site 20. At this time, even if the adhesive 8 is crushed and spreads along the installation surface 14, the amount and range of application of the adhesive 8 are set so that the injection port 11 is not blocked by the adhesive 8. ing. The adhesive 8 is preferably made of the same material as that of the sealant 5, but may be made of a different material.

  Thus, after installing the injection tool 10, the injection cylinder is connected to the cylinder 13 of the injection tool 10, and the repair agent 7 is injected into the cracked portion 3 from the injection port 11 of the injection tool 10. In addition, as the repair agent 7, an epoxy resin or the like having a strong adhesive force to the concrete structure 1 is used.

  At this time, a space 33 corresponding to the depth of the groove 30 is formed between the injection port 11 and the cracked portion 3 of the injection tool 10, and the repair agent 7 is injected using the space 33 as an injection path. However, since the sealing agent 5 is filled in the concave groove 30 except for the space 33, the repair agent 7 does not enter the concave groove 30 from the space 33. Moreover, since the injection tool installation site 21 on the surface 2 of the concrete structure 1 is covered with the undercoat sealant 5, the portion where the injected repair agent 7 directly adheres to the surface 2 of the concrete structure 1 is Only the entrance arrangement site 20, that is, the space 33 portion is provided, and the adhesion range between the installation surface 14 of the injection tool 10 and the surface 2 of the concrete structure 1 through the repair agent 7 can be minimized. Thereby, even if the repair agent 7 hardens | cures, the injection tool 10 will not be in the state firmly adhere | attached on the surface 2 of the concrete structure 1 by the repair agent 7. FIG.

  Then, after curing and curing the repair agent 7, as shown in FIG. 17, the sealing agent 5 and the injection tool 10 are removed from the surface 2 of the concrete structure 1 and become a small lump in the space 33 portion of the groove 30. The crack repair is completed by scraping off the remaining hardened repair agent 7. At this time, since the injection tool 10 is not firmly bonded to the surface 2 of the concrete structure 1 by the repair agent 7 as described above, the injection tool 10 can be easily removed. Further, the hardened repair agent 7 remaining as a small lump in the space 33 can be easily scraped off because of its small adhesion range with the surface 2 of the concrete structure 1. Thereby, the troublesome repair work after removal becomes unnecessary.

  The present invention is not limited to the above embodiment, and it is needless to say that many modifications and changes can be made to the above embodiment within the scope of the present invention.

In the reference example of the crack repair method , it is a perspective view which shows the state of the crack location before repair. It is a perspective view which shows the state which attached the masking tape. It is a perspective view which shows the state which apply | coated the sealing agent. It is a perspective view which shows the state which removed the masking tape. It is a perspective view which shows the state which undercoated the sealing agent. It is a longitudinal cross-sectional view of an injection tool. It is a perspective view which shows the state which installed the injection tool. It is a longitudinal cross-sectional view which shows the injection | pouring state of a repair agent. It is a perspective view which shows the state after removing a sealing agent and an injection tool. In cracking repair method according to the implementation embodiments of the present invention, it is a perspective view showing a state of a crack point before repair. It is a perspective view which shows the state which attached the masking tape and the filler. It is a perspective view which shows the state which apply | coated the sealing agent. It is a perspective view which shows the state which removed the masking tape and the filler. It is a perspective view which shows the state which undercoated the sealing agent. It is a perspective view which shows the state which installed the injection tool. It is a longitudinal cross-sectional view which shows the injection | pouring state of a repair agent. It is a perspective view which shows the state after removing a sealing agent and an injection tool.

Explanation of symbols

  1 ・ ・ Concrete structure 2 ・ ・ Surface 3 ・ ・ Crack point 4 ・ ・ Masking tape 5 ・ ・ Sealant 7 ・ ・ Repairing agent 8 ・ ・ Adhesive 10 ・ ・ Injection tool 11 ・・ Inlet, 14 .. Installation surface, 20 .. Inlet placement site, 21 .. Injection tool installation site, 30 .. Ditch, 31 .. Groove bottom, 32 .. Filler

Claims (2)

  On the surface (2) of the concrete structure (1) against the cracked part (3) generated in the groove bottom (31) of the groove (30) formed on the surface (2) of the concrete structure (1) A crack repairing method for repairing a cracked portion (3) by injecting a repair agent (7) from an inlet (11) of an installed injection tool (10), the surface of the concrete structure (1) (2 ), The masking tape (4) is applied so as to cross the concave groove (30), and the concave groove (30) is filled with the filler (32) from above the masking tape (4). The masking tape covers the inlet arrangement site (20) located on the concave groove (30) and extends along the concave groove (30) on the surface (2) of the concrete structure (1). (4) and the filler (32) After the coating agent (5) is applied and the cracking portion (3) is covered while the sealing agent (5) is filled in the concave groove (30), the surface of the concrete structure (1) (2 ) To remove the masking tape (4) together with the filler (32) to expose the inlet arrangement part (20), and further to the inlet arrangement part on the surface (2) of the concrete structure (1) (20) After applying the sealing agent (5) to the surrounding injection device installation site (21), the injection device (10) is arranged so that the injection port (11) is aligned with the injection port arrangement site (20). Is bonded to the injection tool installation site (21) with an adhesive (8), and in this state, the repair agent (7) is applied to the cracked part (3) from the injection port (11) of the injection tool (10). Injecting Crack repair method of cleat structure. The injection tool (10) has an installation surface (14) in which the injection port (11) is formed at a substantially central portion, and a peripheral end portion of the installation surface (14) away from the injection port (11). wherein in a state in which adhesive (8) applied, crack repair method of the injection device (10) of the installation surface (14) according to claim 1 Symbol placement of the concrete structure is adhered to said injecting tool installation portion (21) to .