JP2018131838A - Repairing method of catch basin - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a repair liquid which preferably repairs a damaged portion in a joint portion of a catch basin and a sewage pipe made of a material different from a material of the catch basin, and a repairing method using the repair liquid.SOLUTION: The repairing method of a joint portion 13 of a catch basin 11 and a sewage pipe 21 composed of a material different from a material of the catch basin 11 comprises a step of providing a repair liquid including at least methyl methacrylate, a polymerization initiator and thixotropy giving powder to the joint portion 13 from a drain access port 15 above the catch basin 11, to form a repairing structure 31, and making it solidify with time. A repaired catch basin repaired by using the repairing method, and the repair liquid for the repairing method are also provided.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a method for repairing a drainage basin having a step of applying a specific repair liquid.

  The drainage basin is provided for checking the flow of wastewater such as sewage and sewage, the presence or absence of blockage, and cleaning of drainage pipes such as sewage pipes. Generally, it is installed on the site of a building, and it is usually fixed to remove clogging at locations where multiple drain pipes meet or where the direction of water flow changes. Installed at intervals.

The drainage basin also serves as a relay base for the drainage pipe. When the drainage pipe is clogged, the water level of the drainage basin on the upstream side rises or water overflows from the drainage basin.
The drainage basin has one or more reservoirs such as square pillars, cylinders, etc. that have been pulled down from the top (no top or bottom surface), and the bottom basin (bottom basin) is underground The drainage pipes are connected from the left and right. On the other hand, the top of the drainage basin is normally exposed to the ground and functions as a drainage inspection port. The drainage inspection port is normally covered with a manhole cover when it is not inspected, clogged, or repaired. It is.

  In the adhesion around the drainage basin, and thus the adhesion when repairing the drainage basin and the sewer pipe, most of the epoxy adhesive containing an epoxy compound, a mortar mixed with a waterproofing admixture, and the like are used. The ring-opening polymerization of the epoxy ring when the adhesive is bonded is hardly affected by water, the effect speed is moderate, the polymerization is not inhibited by air (oxygen), and the epoxy resin obtained by curing is in close contact with the adhesive. It is because it is excellent in property.

Patent Document 1 describes a drainage basin whose vertical and horizontal lengths are defined, but an adhesive rubber-containing mortar or an epoxy adhesive is used for the bonding portion (paragraph of Patent Document 1). Number [0039]).
Patent Document 2 describes a method for producing a drainage pipe characterized by the shape of the connecting pipe, but the adhesive portion uses an epoxy-based adhesive (paragraph number [0051] of Patent Document 2). .

Patent Document 3 describes an outflow side socket for connecting a drain pipe (sewage pipe) and a paddle, but an epoxy-based adhesive is used for an adhesive portion (Patent Document 3). Paragraph numbers [0058], [0061]).
Patent Document 4 describes a connection structure between a drain pipe (sewage pipe) and a relay structure, but an epoxy-based adhesive is used for an adhesive portion (paragraph number [0035] of Patent Document 4). .

  Patent Documents 1 to 4 are all at the time of manufacture and are not at the time of repairing a drainage basin, but Patent Document 5 describes an invention relating to a method for rehabilitating a sewer installation pipe, and is attached to an adhesive part. Uses an epoxy acrylate resin liquid (paragraph number [0023] in Patent Document 5). Here, epoxy acrylate is a kind of epoxy adhesive because it is polymerized by ring-opening polymerization of an epoxy ring and exhibits adhesiveness.

Thus, the epoxy adhesive is used for the connection between the drainage basin and the sewage pipe, and for the "repair of the joint portion between the basin and the sewage pipe" when the drainage basin is repaired.
On the other hand, an acrylic adhesive that utilizes radical polymerization of a carbon-carbon double bond of (meth) acrylate has polymerization inhibition due to air (oxygen), has an ineffective speed, and is inferior in adhesion. It was thought. In particular, it was considered that methyl methacrylate (MMA) monomer has the above-described performance and is easily affected by water.

On the other hand, even if the building itself has a service life of about 70 years, it is said that the service life of drainage pipes and sewage pipes is about 1/6 to 1/2. More and more cases of wrinkles have deteriorated.
At that time, excavating and exchanging the drainage basin is costly, and the period of cessation of use of sewage is prolonged, resulting in inconvenience for the residents.

  Furthermore, even if repairs are made, the drainage sewage pipes and sewer pipes must be repaired in a short time, and in addition, the different materials must be bonded in a durable manner. However, conventional epoxy adhesives have low flexibility and poor adhesion, and have been repaired for only 2 to 3 years, for example.

Japanese Patent Laid-Open No. 7-150618 JP 2001-132083 A JP 2008-277772 A JP2013-040477A JP-A-11-107360

  The present invention has been made in view of the above-described background art, and the problem is that even if the joint portion between the drainage basin and "the sewage pipe composed of a material different from the material of the drainage basin" is damaged, An object of the present invention is to provide a repair solution for repairing a damaged portion satisfactorily and a repair method using the repair solution.

  As a result of intensive studies to solve the above problems, the present inventor has found that the use of a repair liquid mainly composed of methyl methacrylate (MMA) results in a “drainage” and a “material different from the material of the drainage”. When repairing the joint portion with the sewage pipe composed of the above and the breakage in the vicinity of the joint portion, it was found that the adhesiveness was good and the temporal stability of the adhesive portion could be repaired, leading to the present invention. .

That is, the present invention is a method of repairing a joint portion between a drainage basin and a sewer pipe made of a material different from the material of the drainage basin,
A repair liquid containing at least methyl methacrylate, a polymerization initiator, and a thixotropy-imparting powder is applied to the joint from the drainage inspection port at the top of the drainage basin to form a repair structure, and then The present invention provides a repair method characterized by including a solidifying step.

The present invention also provides a repair drainage basin that is repaired using the repair method described above.
Moreover, this invention provides the repair liquid for said repair method.

  The present invention solves the above-described conventional problems and problems, and when the joint portion between the drainage sewage pipe and the sewer pipe connected thereto is peeled or the vicinity of the joint portion is damaged, If a specific repair solution is applied, the portion can be repaired satisfactorily.

Methyl methacrylate (hereinafter sometimes abbreviated as “MMA”), which is the main component of the repair liquid in the present invention, is liquid at room temperature, has a carbon-carbon double bond, and initiates thermal polymerization or photopolymerization. Polymerization (mainly radical polymerization) is performed with heat or light in the presence of an agent to form polymethyl methacrylate.
Adhesion is expressed by the polymerization reaction at that time, but since the radical polymerization reaction is generally inhibited by oxygen in the air, it is said that it is difficult to polymerize in the air, especially in the case of a thin film, depending on the polymerization conditions. In some cases, the polymerization reaction does not proceed at all.
However, when trying to repair the joint between the drainage sewage pipe and the sewer pipe, the thin film is inevitably insufficient from the viewpoint of mechanical strength and waterproofing performance. This also contributes to the fact that the repair liquid containing at least methyl methacrylate, a polymerization initiator, and a thixotropy-imparted powder is hardly affected by air (oxygen), and MMA is polymerized and exhibits adhesiveness.

  Depending on the composition of the repair liquid (amount of polymerization initiator, etc.) and the curing conditions (air blowing and air temperature) after applying the repair liquid, a thin film-like surface is formed on the surface of the repair liquid immediately after application (hereinafter referred to as “paraffin phenomenon”). Sometimes say). Due to this paraffin phenomenon (although not limited to the principle of action, it is considered that oxygen intrusion or diffusion is inhibited), a subsequent curing reaction (radical polymerization) proceeds, and a repair structure with good adhesion is obtained. Complete.

Further, a repair structure obtained by curing the repair liquid of the present invention, that is, “a repair structure mainly composed of polymethyl methacrylate formed by polymerizing MMA” is flexible, and a material having different drainage sewage pipes and sewer pipes. Even if it is made of, it follows each material and has strong adhesiveness.
Using the repair liquid of the present invention, when repairing the breakage of the joint between the drainage sewage pipe and the sewer pipe, even when the relative position of the drainage sewage pipe and the sewage pipe has shifted over the years after repair, The joint between the drainage basin and the sewer pipe is not peeled off. For example, the sewer pipe does not come off from the drain.

  On the other hand, a repaired structure obtained by curing a widely used epoxy adhesive, that is, an epoxy resin after curing obtained by ring-opening polymerization of an epoxy ring has no flexibility and poor adhesion. The adhesion is particularly poor when the drainage and sewer pipes are made of different materials. Furthermore, it deteriorates particularly remarkably when the drainage sewage pipe and the sewage pipe are displaced over time (for example, due to an earthquake or the like). In general, epoxy-based materials may have a repair portion of only about 2 to 3 years, but according to the present invention, the repair portion has a semi-permanent portion.

The material of the drainage basin is usually concrete (or mortar), the drainage pipe (sewage pipe) is usually a polyvinyl chloride pipe or a ceramic pipe (casting pipe), and the materials of both are different.
The repair liquid of the present invention is particularly excellent in adhesiveness between concrete (mortar) and polyvinyl chloride, and retains the adhesiveness even during repair and after repair. On the other hand, in the case of epoxy type, if the material of the drainage basin and the sewage pipe are different, in particular, if the material of the sewage basin is concrete and the material of the sewage pipe is polyvinyl chloride, the repair part (for example, 2 to 3 years) May only maintain the function as a repair.

  In addition, since MMA loses its curability in the presence of a small amount of water, an adhesive mainly composed of MMA is actually not suitable for use in a place where water exists. However, when repairing a drainage basin, the interior of the basin is usually washed, then dried with a blower or the like, and further dried with a torch burner. Therefore, if it is sufficiently dried in the first place (assuming that is the case), in the present invention, the weakness of the repair liquid mainly composed of MMA to water is not an obstacle at all. The polymethyl methacrylate after curing (polymerization) has no problem with water and has high water resistance.

As described above, the “repair solution containing methyl methacrylate, a polymerization initiator and a thixotropy-imparted powder” used in the repair method of the present invention is hardly affected by oxygen (air) and has an effect of water. It is hard to receive. In particular, when repairing a drainage basin, it is possible to make such a condition (rather, it is normal).
Therefore, according to the present invention, the weakness said to be possessed by MMA does not appear, and the advantage that it has high flexibility appears, and it is generally superior to general-purpose epoxy repair liquid.

It is a schematic perspective view which shows the structure of a drainage basin (it is piled up in the order of (c), (b), and (a) from the bottom, is buried in the ground, and becomes a drainage basin). (A) Schematic perspective view showing an example of one basin (b) Schematic perspective view showing an example of the second basin from the bottom (c) Schematic showing an example of the bottom basin (bottom basin) Perspective view It is a schematic perspective view which shows positions (relationships), such as "the joint part of a drain pipe and a sewer pipe" etc. which are the object of the repair method of this invention. It is an example of the photograph which shows the state which the seam part of the drainage drain and the sewer pipe damaged, Comprising: It is a photograph which shows the part which provides repair liquid and repairs in the repair method of this invention. It is a cut part end view of "the joint part of a drainage drain and a sewer pipe" after providing repair liquid and forming a repair structure.

  Hereinafter, the present invention will be described, but the present invention is not limited to the following specific embodiments, and can be arbitrarily modified within the scope of the technical idea.

The repair method of the present invention is a repair method for a joint portion between a drainage basin and a sewer pipe made of a material different from the material of the drainage basin,
A repair liquid containing at least methyl methacrylate, a polymerization initiator, and a thixotropy-imparting powder is applied to the joint from the drainage inspection port at the top of the drainage basin to form a repair structure, and then It is characterized by including the process to solidify.

<Drainage>
“Drainage basin 11” is in the vicinity of the building (for example, in the site), and checks the flow of sewage, sewage, rainwater, etc., whether there is a blockage, etc., or cleans drain pipe 21 such as sewage pipe. It is provided for repairing and is usually formed by vertically stacking one or more reservoirs 11a, 11b, 11c and filling them in the underground 41.
The bottom basin is also called a bottom basin 11c and is provided with a sewage passage recess 12 through which drainage flows, as shown in FIG. In FIG. 1, they are provided to the left and right (laterally).

Holes 14 are provided on the left and right sides of the basin 11b at the bottom of the drainage basin 11, or holes 14 are provided at the overlapping portion of the bottom basin 11c and the second basin 11b from the bottom as shown in FIG. Or
A sewer pipe 21 is normally inserted into the hole 14, and the sewer pipe 21 is connected to a basin (drainage basin) (FIGS. 1A, 1B, and 1C).

As shown in FIG. 2, the “joint portion 13” that is a connection point between the drainage basin 11 and the sewage pipe 21 is a small movement of the underground 41 or the ground 42, an earthquake, “the heat of the basin 11 and the sewage pipe 21. It may be damaged over time due to “difference in expansion rate” or the like (see FIG. 3).
In the present invention, the damage is repaired by forming a repair structure 31 by applying a repair liquid to the damaged seam portion 13.

<Repair solution>
The repair liquid in the present invention contains at least methyl methacrylate (hereinafter sometimes abbreviated as “MMA”), a polymerization initiator, and thixotropic powder.

<< Methyl methacrylate (MMA) >>
The purity of MMA to be used is not particularly limited, and general-purpose products (commercially available products) can be used.
MMA has a double bond between carbons, and in the present invention, the double bond is polymerized to polymethylmethacrylate, but for the reason described above, oxygen (air) is not shut off, that is, open. In such a situation, the polymer is rarely used as an adhesive, a repair material, a filler (sealant) or the like.
In the present invention, although it is in an open state that is in the drainage basin 11, the joint portion 13 between the drainage basin 11 and the sewage pipe 21 is bonded mainly by a polymerization reaction of MMA.
The repair structure 31 is formed and cured by adjusting the composition and composition ratio of the repair liquid, the applied amount (thickness of the repair structure 31), and the curing conditions (air temperature, presence / absence of wind, etc.). Can be bonded and repaired. It is preferable to set the above conditions so that a good repair structure 31 is formed and the paraffin phenomenon described above occurs.

The compound having a polymerizable double bond may be contained in addition to MMA, but the MMA is preferably 70% by mass or more, more preferably 85% by mass or more with respect to the entire “compound having a polymerizable double bond”. Is more preferable, 95% by mass or more is further preferable, and substantially all (for example, 98% by mass or more) is particularly preferable.
Examples of the “compound having a polymerizable double bond other than MMA” (hereinafter, the parentheses may be abbreviated as “other polymerizable compound”) include (meth) acrylic acid, (meth) acrylic acid alkyl ester ( And alkyl group having 6 or less carbon atoms), polyfunctional (meth) acrylic acid ester, and the like.

<< Polymerization initiator >>
In the present invention, at least radical polymerization (including living radical polymerization) proceeds mainly in MMA, and the repair liquid is solidified (cured).
The repair liquid in the present invention contains a polymerization initiator as an essential component, and the polymerization initiator is preferably a radical polymerization initiator, and may be either a thermal polymerization initiator or a photopolymerization initiator, From the viewpoint of polymerization efficiency (in particular, since light irradiation is not essential), a thermal polymerization initiator is more preferable from the viewpoint of work efficiency.

Among radical polymerization initiators and thermal polymerization initiators, organic peroxides or organic bisazo compounds are more preferable, and organic peroxides are particularly preferable from the viewpoint of polymerizability (curability).
Among organic peroxides, benzoyl peroxide (hereinafter abbreviated as “BPO”) is most preferable from the viewpoints of polymerizability (curability), cost, versatility, and the like.

<< Curing accelerator >>
The repair liquid in the present invention can contain a curing accelerator in addition to the polymerization initiator. The curing accelerator is not necessary when the temperature is high in summer or the like, but it is preferable to contain a curing accelerator in order to increase the curing rate when the temperature during repair is low. The curing accelerator is not particularly limited, and examples thereof include a compound that promotes radical generation of the polymerization initiator, a RAFT agent, an appropriate chain transfer agent, and a sulfur (S) atom-containing compound.

  The amount of the polymerization initiator and the curing accelerator is determined so that the time from the start of mixing the components of the repair liquid to the time when the repair structure 31 is formed by being applied to the joint portion 13 is within an appropriate range. The time is usually 5 to 15 minutes in summer when the average temperature is 25 ° C or higher, and 20 to 40 minutes in winter when the average temperature is 15 ° C or lower. The liquid may not be cured sufficiently.

<< Thixotropic powder >>
The thixotropy imparting powder, which is an essential component of the repair liquid in the present invention, imparts thixotropy to the repair liquid. Specifically, “the property that the viscosity is low when applying a repair liquid with a high shear rate, and the viscosity increases when the shear rate is zero applied to the joint portion 13”, or “the time after the shear rate becomes zero” "Providing the property of increasing viscosity".
By including the thixotropic powder, good curability can be provided. In addition, as shown in FIGS. 2 and 4, the seam portion 13 and the vicinity thereof often have a surface to which the repair liquid is applied facing downward or sideways, and the thixotropy-imparting powder has the repair liquid there. When applied to the surface, dripping of the repair liquid can be prevented, or the repair structure 31 and the coating film on which the repair structure 31 is solidified can be given thickness.

Examples of the thixotropic powder include fibrous powders, needle-shaped powders, flat powders, fine powders, high oil absorption powders, flame method silica, and the like. Therefore, fibrous powder, needle-shaped powder or flat powder is preferable, and fibrous powder is more preferable in view of the above points and safety. Of these, fibrous powders made from natural fibrous clay minerals are particularly preferred. Specifically, sepiolite (hydrous magnesium silicate, Mg ₈ Si ₁₂ O ₃₀ (OH) _4. (OH ₂ ) ₄ .8H ₂ O) is most preferable from the viewpoints of curability, thixotropy imparting property, safety, and the like. .

<< Inorganic filler >>
The repair liquid in the present invention preferably contains an inorganic filler. Examples of the inorganic filler include, but are not limited to, calcium carbonate, talc, calcium sulfate, silica, glass, ferric oxide, silica sand, kaolin, clay, and titanium oxide. Of these, calcium carbonate, talc, silica, glass, silica sand and the like are preferable.
The average particle size of the inorganic filler is preferably 1 μm to 100 μm, particularly preferably 3 μm to 30 μm. As the inorganic filler, those having a slight thixotropy imparting effect are not excluded, but those having a large thixotropy imparting effect are the above-mentioned `` thixotropy imparting powder '', so the shape of the inorganic filler is not limited, It is preferably substantially spherical, amorphous or the like.
The inclusion of the inorganic filler has effects such as improving the MMA curability, improving the mechanical strength of the repaired structure 31, and improving the adhesiveness of the joint portion 13.

<< Diluted solvent >>
It is preferable that the repair liquid in the present invention contains substantially no diluent solvent. By not containing a diluting solvent, there are effects such as improving the curability of MMA and improving the mechanical strength of the joint portion 13.

<< Colorant (Toner) >>
The repair liquid in the present invention preferably contains a colorant (toner). When the coloring agent (toner) is contained, there is an effect that the location where the repair liquid is applied is easy to understand, increasing the amount makes it difficult to understand sagging and uneven adhesion, and improves the appearance.
A colorant (toner) is not particularly contained, and a known pigment is preferably used. The color is not particularly limited as long as the above effects are achieved.

<< antibacterial agent >>
The repair liquid in the present invention preferably contains an antibacterial agent. By containing an antibacterial agent, slipping and wrinkles can be eliminated. Antibacterial agents are not particularly contained, and known ones are used.

<< Each component composition of repair liquid >>
The composition of each component of the repair solution is preferably as follows when the temperature of the seam portion (base temperature) is 10 ° C. to 20 ° C.
For 100 parts by mass of MMA
Other polymerizable compounds 0 to 15 parts by weight Polymerization initiator 0.5 to 10 parts by weight Curing accelerator 0 to 10 parts by weight Thixotropic powder 2 to 10 parts by weight Inorganic filler 40 to 160 parts by weight Colorant 0 to 40 parts by weight

When the seam temperature (base temperature) is 10 ° C. to 20 ° C. as described above, the composition of each component of the repair liquid is particularly preferably as follows.
For 100 parts by mass of MMA
Other polymerizable compounds 0 to 10 parts by weight Polymerization initiator 1 to 5 parts by weight Curing accelerator 2 to 8 parts by weight Thixotropic powder 4 to 8 parts by weight Inorganic filler 80 to 150 parts by weight Colorant 15 to 30 parts by weight

When the temperature of the seam portion (base temperature) is 6 ° C. to 10 ° C., the blending amount of the polymerization initiator and / or the curing accelerator is desirably doubled as described above, and when the temperature is less than 6 ° C., the above 3 It is desirable to double.
Further, when the temperature of the seam portion (base temperature) is 20 ° C. to 30 ° C., it is desirable that the blending amount of the polymerization initiator and / or the curing accelerator is 60% as described above.

<< Method for manufacturing repair liquid >>
Each component of the repair liquid is mixed in the mixing container by hand stirring, mixer stirring, or the like. It is preferable to obtain a repair liquid by mixing with a mixer. There is no particular limitation on the order of addition of each component. At that time, taking into account the season, preferably the temperature / liquid temperature, the temperature of the seam part, the base, etc. are measured, and the blending amount of each component (especially the content of the polymerization initiator and curing accelerator) It is preferable to adjust.

<Repair method>
It is preferable that the inside of the drainage basin 11 to be repaired be washed with water prior to application of the repair liquid, and the surface of the base including the joint portion 13 is dried by sending air with a blower or the like.
Although the repair liquid of the present invention is mainly composed of MMA and uses the polymerization reaction of MMA, it is surprisingly found that the presence of a small amount of water (humidity of the ground surface, etc.) does not hinder the repair. It was. However, it is preferable to further increase the dryness with a torch burner or the like in order to ensure more favorable adhesiveness.

  Prior to the repair, it is preferable to insert a balloon or the like from the hole 14 communicating with the drain pipe 21 of the drainage basin 11 to keep the upstream side and the downstream side of the drain pipe 21 blocked. This is to prevent drainage (sewage) from flowing into the drainage basin 11 especially from the upstream side when a resident drains sewage accidentally in the building during repair.

<< Repair structure formed by applying repair liquid >>
The method of applying the repair liquid to the seam portion 13 is not particularly limited, but the method of applying using a brush or a spray device, the method of applying the repair liquid contained in the container toward the seam portion 13 as necessary, etc. Is mentioned.
The repair method of the present invention is preferably a method in which the repair liquid is applied from the drainage inspection port 15 at the top of the drainage basin 11 to the joint portion 13 using a brush or a spray device. Among them, the method of applying using a brush is particularly preferable from the viewpoints that it can be applied in a large amount before curing, it can be applied only to the seam portion 13 and its vicinity, and the thickness and the applied amount can be applied uniformly depending on the location.

The drainage basin 11 may be provided by extending its hand, or when the drainage basin 11 is large, it may be provided by entering the drainage basin 11.
It should be noted that a relatively large deficient portion of the drainage basin (reservoir) may be previously filled with resin. The use of an epoxy resin as the resin is not excluded by the repair method of the present invention.

Since there are various shapes of the seam part 13 where the broken part including the seam part 13 and the drainage basin 11 and the sewage pipe 21 are peeled off, there is a large difference in the amount of application of the part / part / location. The average applied amount including the seam portion 13 and the vicinity thereof is preferably 500 g / m ² or more and 3000 g / m ² or less per unit area. The repairing structure 31 may be formed by applying the application amount in one time, or by applying the application amount in two or more and preferably five or less (preferably three or less). When giving in multiple times, the lower layer may be given first and then the aging (even halfway) may proceed to solidification and then the upper layer may be given, or the upper layer may be added without intentionally aging. It may be given.

In the repair method of the present invention, it is preferable that the repair structure 31 is formed by applying a repair liquid to the surface including the seam portion 13 at 500 g / m ² or more and 3000 g / m ² or less.
Application amount of applied liquid per unit area, 700 g / ^{m 2} or more 2500 g / ^{m 2,} more preferably less, 1000 g / ^{m 2} or more 2000 g / ^{m 2} or less is particularly preferred.
Within this range, even if the drainage basin 11 and the sewage pipe 21 are made of different materials, suitable “repair of the joint portion between the basin and the sewage pipe 21” is possible.

When giving in multiple times, the number of times of giving and the numerical value are not limited. For example, the first time is given at 200 to 1000 g / m ² , the second time to the fifth time are given at 150 to 600 g / m ² , etc. The said giving method is mentioned as a particularly preferable method. In this case, it is preferable that the total adhesion amount of a plurality of times be in the above range.
At that time, the amount of the thixotropy-imparting powder is within the range of 0/10 to 5/10 of the content because the necessity of thixotropy is reduced because it becomes difficult to sag only when the application amount is reduced. It is also preferable to reduce the amount until

FIG. 4 shows an example of the “joint portion between the drainage basin and the sewage pipe” after applying the repair liquid and forming the repair structure 31 in a cut end view. In FIG. 4, “repair structure 31” can be read as “coating film in which repair structure 31 is solidified”.
Although FIG. 4 shows only the cut portion, it is preferable to apply it to all of the joint portions 13 with the sewer pipe 21, that is, all around the hole 14.
In FIG. 4, the repair liquid is also applied to the sewage passage recess 12 (the entire lower surface thereof). Although it is not limited, even if it hangs down as shown in Fig. 4, it can be applied to the lower surface as it is, repair is complete, it is difficult to give it so that it does not hang, especially for the future It is preferable for reasons such as not having it.

The repair method of the present invention includes a step of applying a repair liquid to the joint portion 13 to form the repair structure 31 and then solidifying with time.
The solidification time after applying the repair liquid to form the repair structure 31 is preferably 5 minutes or more and 20 minutes or less, particularly preferably 7 minutes or more and 15 minutes or less if the base temperature is 22 ° C. or higher. Moreover, if the base temperature is 15 to 22 ° C., it is preferably 7 minutes or more and 25 minutes or less, particularly preferably 10 minutes or more and 20 minutes or less. Further, when the substrate temperature is 15 ° C. or lower, it is preferably 10 minutes or longer and 30 minutes or shorter, and particularly preferably 15 minutes or longer and 25 minutes or shorter.
Here, the “solidification time” means that after the repair liquid is applied to form the repair structure 31 (if the top coat layer is formed, the top coat layer forming liquid is applied) and then the sewage is poured. Say the time until you can start.

The repair method of the present invention is extremely convenient for residents of the building because the solidification time, curing time, and sewage use stop time can be extremely shortened.
Even if repair liquid containing MMA is used for repairing floors of bathrooms, passages, toilets, etc., in that case, in the repair of floors, it is acceptable to residents even if the unavailable period is long. .
However, toilets that drain sewage are extremely problematic if they cannot be used for a long time, and are not acceptable to residents. Therefore, the repair material containing MMA of the present invention particularly exhibits the effect of “the repair time including the solidification time and the curing time is short” when the sewage pipe 21 and the drainage basin 11 are targeted.

<< Primer layer >>
Before forming the repair structure 31 using the repair liquid in the present invention, it is preferable to form a primer layer on a base such as concrete or polyvinyl chloride in order to obtain strong adhesiveness. The primer layer is preferably formed by applying a primer layer forming liquid containing at least methyl methacrylate and a radical polymerization initiator.
The primer layer forming liquid may be the same as the above-described repair liquid, but even if the primer layer is thin, its function is exerted, and if it is thin, it becomes difficult to sag, so a thixotropic powder for preventing sag is included. It does not have to be.

The (preferred) composition of the primer layer forming liquid is the same as that of the repair liquid described above except that the thixotropic powder is not an essential component. In addition, it is less necessary for the colorant (toner) to be contained than the repair liquid.
The application method (preferably method) is also the same as the above-described repair liquid application method.

The primer layer is preferably provided at an average of 100 g / m ² or more and 500 g / m ² , and particularly preferably 150 g / m ² or more and 300 g / m ² at and around the joint portion 13.

<< Topcoat layer >>
After the repair structure 31 is formed using the repair liquid in the present invention, a topcoat layer is formed on the repair structure 31 after the repair structure 31 is solidified (this is simply referred to as “repair structure 31”). Is preferable in order to protect. The top coat layer is preferably formed by applying a top coat layer forming liquid containing at least methyl methacrylate and a radical polymerization initiator.
The topcoat layer forming liquid may be the same as the above-mentioned repair liquid, but the thixotropy for preventing sagging from the point that the topcoat layer exerts its function even when it is thin and the sagging is difficult when it is thin. It is not necessary to contain the applied powder.

The (preferred) composition of the topcoat layer forming liquid is the same as that of the repair liquid described above except that the thixotropic powder is not an essential component.
In addition, coloring (containing a colorant) and flexibility are less necessary than the above-described repair solution, and may be colorless or ticking. Moreover, it is preferable that the topcoat layer forming liquid contains thixotropic powder.
The application method (preferably method) is also the same as the above-described repair liquid application method.

The top coat layer is preferably provided on the repair structure 31 at an average of 300 g / m ² or more and 1000 g / m ² , particularly preferably 400 g / m ² or more and 800 g / m ² . The topcoat layer is preferably formed by applying the topcoat layer forming liquid in one or more portions, and particularly preferably by applying in one or two portions.

<< Formation of all layers >>
When repair is performed by the repair method of the present invention, a repair structure 31 is finally formed. As described above, a primer layer is further formed under the structure, and / or It is preferable that a top coat layer is further formed thereon.
Particularly preferably, the primer layer, the repair structure 31 and the topcoat layer are formed in order from the bottom. In this case, the total adhesion amount of the primer layer, the repair structure 31 and the topcoat layer is 700 g / m ² or more and 5000 g / m ² or less is preferable. The total adhesion amount of the third layer is more preferably 1000 g / ^{m 2} or more 4000 g / ^{m 2} or less, particularly preferably 1500 g / ^{m 2} or more 3000 g / ^{m 2} or less.

As described above, when three layers of the primer layer, the repair structure 31 and the topcoat layer are formed, when using a conventional liquid that is not the above-described repair liquid in the present invention, it takes time to solidify, so the repair work starts. It could take up to 3 days to complete.
If repair is performed using the repair liquid according to the present invention, even when three layers of the primer layer, the repair structure 31 and the topcoat layer are formed, the solidification time of the repair structure 31 described above (for three layers) About 3 times is sufficient. That is, the sewage unusable period is, for example, about 30 minutes to about 60 minutes.
The time required to prepare the repair liquid by mixing each component at the site, the time to dam the upstream side of the sewer pipe 21 by inserting a balloon, and the other preparation time will be completed in one day. Ideal for repair.

The material of the drainage basin 11 is usually concrete, and the sewage pipe (drainage pipe) 21 is usually a polyvinyl chloride pipe or a ceramic pipe (casting pipe), and the materials of both are usually different. Since the repair liquid of the present invention has flexibility, it is suitable for a method for repairing the joint portion 13 made of different materials.
The repair method of the present invention is particularly effective when the drainage basin 11 is made of concrete and the sewage pipe 21 is made of polyvinyl chloride.
For epoxy resins that are widely used for repairing drainage basins (for epoxy adhesives and sealants), if the drainage basin is made of concrete and the sewage pipe 21 is made of polyvinyl chloride, the seam portion 13 peels off. In some cases, the repair part has only 2 to 3 years.

<Repair drainage basin, repair solution>
The repair drainage drainage that is repaired by using the repair method of the present invention is excellent in the durability of the repaired portion.
Moreover, the repair liquid characterized by being used for the repair method of the present invention is suitable for repairing the joint portion 13 of the drainage basin 11 and the sewer pipe 21 and the vicinity thereof from the above-mentioned point. One or more (including all components) of each component of the repair liquid of the above composition can be sold and transferred separately by itself for mixing on site for the present invention.

  EXAMPLES Hereinafter, the present invention will be described more specifically with reference to examples and comparative examples. However, the present invention is not limited to these examples unless it exceeds the gist.

Example 1
The drainage basin 11 that is a square of 450 mm on one side of the drainage inspection port 15 and has two reservoirs 11a11b having a height of 300 mm and is vertically stacked on the bottom basin 11c and buried in the ground 41 is repaired ( (See FIG. 1). The drainage basin 11 was made of concrete. As shown in FIG. 2, holes 14 are formed on the left and right sides of the drainage basin 11, and a sewage pipe 21 made of polyvinyl chloride and having a diameter of 75 mm is inserted from the left and right.

  As shown in the photograph of FIG. 3, there are cracks and depressions around the sewer pipe 21, and the joint portion 13 of the concrete drainage basin 11 and the polyvinyl chloride sewer pipe 21 is peeled off due to changes in the surrounding soil. There was a gap.

After removing the solid content in the drainage basin 11, high-pressure washing was performed using water. Then, the air was sent with a blower and dried, and further dried with a torch burner.
A balloon was inserted from the sewage pipe 21 connected to the drainage basin 11, the sewage pipe 21 was dammed (ball mounted), and a water stop test was performed to confirm that water did not flow in.
It was 22 degreeC when the temperature of the foundation | substrate which should be repaired was measured.

  Each component of the primer layer forming liquid was put into a container and stirred with a mixer to mix uniformly. The composition of the primer layer forming liquid was a composition in which thixotropy-imparting powder and colorant were removed from the composition of the repair liquid described later, and BPO (polymerization initiator) was doubled.

Immediately after preparing the primer layer forming liquid, from the drainage inspection port 15 at the top of the drainage basin 11, the entire circumference of the round seam part including the seam part 13 in which a gap is formed and the vicinity of the seam part 13 including the cracked part The primer layer was formed by applying with a brush.
The adhesion amount of the primer layer was 200 g / m ² . Although it did not contain thixotropy-imparting powder, it was thin and the liquid did not sag.

  Next, “the components of the repair solution” shown below were put into a container and stirred with a mixer to be uniformly mixed.

<Composition of repair liquid>
MMA 100 parts by weight BPO (polymerization initiator) 2 parts by weight Curing accelerator 2 parts by weight Sepiolite (hydrous magnesium silicate) (thixotropic powder) 5 parts by weight Silica sand (inorganic filler) 100 parts by weight Colorant 15 parts by weight

  Immediately after the preparation of the repair solution, the user leaned out from the drainage inspection port 15 at the top of the drainage basin 11 and put in his hand and applied the primer layer after forming the primer layer with a brush. That is, the repair structure 31 was formed around the entire circumference of the round seam portion including the “seam portion where the gap was generated” and in the vicinity of the seam portion 13 including the “cracked portion”.

The repair structure 31 was formed by applying the repair liquid in four portions. Adhesion amount of the first as each coating weight 300 g / ^{m 2} from 400 g ^{/ m} 2, 2 th to 4 th, in total, to form a repair structure 31 of 1300 g / ^{m 2.} Using a brush, it was applied as thickly as possible without sagging.
After applying the repair solution, the paraffin phenomenon described above was observed on the surface of the repair structure 31 during solidification.

  Next, each component of the topcoat layer forming liquid was put into a container and stirred with a mixer to be uniformly mixed. The composition of the top coat layer forming liquid was such that a polyfunctional (meth) acrylic acid ester was added as a polymerizable compound to the composition of the above-described repair liquid so as to become ticked after curing.

The topcoat layer forming solution was applied in two portions to form a topcoat layer. The first and second adhesion amounts were 300 g / m ² , respectively. The second topcoat layer forming liquid did not contain a colorant.

All layers including the repair structure 31 were solidified over time. The time required for solidification (curing time) was 10 minutes since the substrate temperature was 22 ° C. The total adhesion amount of the three layers was 2100 g / m ² . Solidification of the repair structure 31 and the like (polymerization (curing) of MMA) proceeded satisfactorily without being affected by the water in the ground or the influence of oxygen in the air.
Thereafter, the balloon (ball) was removed, a running water test was performed, the side of the drainage basin 11 was repaired with mortar, the drainage inspection port 15 was closed with a manhole cover, and the surrounding crushed stone was backfilled to complete the repair.

  The structure in which MMA is polymerized (the structure in which the repair structure is solidified) has good adhesion to both concrete and polyvinyl chloride, so that the seam portion 13 adheres well, and after repair, many years have passed. No peeling, cracking, depression or the like occurred in the seam portion 13 or the vicinity thereof.

On the other hand, when an epoxy resin was used, the workability was good because the substrate could be easily dried, but the sewage pipe 21 made of polyvinyl chloride was easily removed from the basin (drainage basin) made of concrete. I missed it. In addition, the repair site had only about 3 years, and the repair was only temporary.
When urethane resin is used, it takes 3 days to form the primer layer, main layer (intermediate coating), and topcoat layer, and is suitable for repairing the drainage basin 11 through which the sewage pipe 21 communicates. It wasn't.

The number of old buildings is increasing, and the service life around drainage drains and sewer pipes is shorter than the service life of buildings, so the importance of repair is increasing with the aging of buildings.
The method for repairing drainage of the present invention is widely used in the construction field, sewerage installation / management inspection / repair / cleaning field, the management field of buildings such as apartments, and the manufacture of chemicals such as adhesives and sealants. Is.

11 Drainage basin 11a Reservoir (upper)
11b Reservoir (second from bottom)
11c Bottom bowl (bottom tub)
12 Sewage passage recess 13 Seam portion 14 Hole 15 Drain inspection port 21 Drain pipe (sewage pipe)
31 Repair structure 41 Underground (soil)
42 Ground

Claims (12)

A method for repairing a joint portion between a drainage basin and a sewer pipe made of a material different from the material of the drainage basin,
A repair liquid containing at least methyl methacrylate, a polymerization initiator, and a thixotropy-imparting powder is applied to the joint from the drainage inspection port at the top of the drainage basin to form a repair structure, and then A repair method comprising a solidifying step.   The repair method according to claim 1, wherein a material of the drainage basin is concrete and a material of the sewer pipe is polyvinyl chloride.   The repair method according to claim 1 or 2, wherein the polymerization initiator is an organic peroxide.   The repair method according to any one of claims 1 to 3, wherein the repair liquid further contains an inorganic filler. The repair method according to any one of claims 1 to 4, wherein the repair liquid is substantially free of a diluting solvent.   The repair method according to any one of claims 1 to 5, wherein the repair liquid is applied to the joint portion from a drainage inspection port on an upper portion of the drainage basin using a brush or a spray device. 7. The repair structure according to claim 1, wherein the repair structure is formed by applying the repair liquid to a surface including the seam portion at 500 g / m ² or more and 3000 g / m ² or less. Repair method.   The claim 1 to claim 7, wherein a primer layer is formed by applying a primer layer forming liquid containing at least methyl methacrylate and a radical polymerization initiator before the repair structure is formed. Repair method described in section.   9. The top coat layer is formed by applying a top coat layer forming liquid containing at least methyl methacrylate and a radical polymerization initiator after the repair structure is formed. Repair method described in. The repair method according to claim 9, wherein a total adhesion amount of the primer layer, the repair structure, and the topcoat layer is 700 g / m ² or more and 5000 g / m ² or less.   A repair drainage basin that is repaired by using the repair method according to any one of claims 1 to 10. A repair liquid for use in the repair method according to any one of claims 1 to 10.