KR20200041088A - Waterway for maintenance and repair method using polymer mortar - Google Patents

Abstract

A method for repairing and constructing a waterway using polymer mortar is disclosed. The method for repairing a waterway using polymer mortar according to the present invention is provided to repair a waterway formed by connecting a plurality of waterway blocks through joints. The method includes the steps of: covering the inner surface of the waterway including the joints with a fabric member; applying a polymer mortar composition toward the inner surface of the waterway covered with the fabric member; and curing the polymer mortar composition.

Description

Waterway repair and construction method using polymer mortar {WATERWAY FOR MAINTENANCE AND REPAIR METHOD USING POLYMER MORTAR}

The present invention relates to a waterway repair method and a construction method using a polymer mortar, and more specifically, a waterway repair method using a polymer mortar capable of repairing damaged parts such as cracks or cracks in a waterway or a waterway constructed and It is about a construction method.

In general, drainage facilities are provided on roads, agricultural sites, or related facilities to smoothly drain water and to use drained water when necessary. Such drainage facilities are constructed by continuously arranging a plurality of waterway pipes or waterway blocks.

Here, the water channel block required to form the water channel is difficult to produce and transport as a concrete product, and there is a problem in that a high manufacturing cost and a high installation cost are required due to its large size.

On the other hand, a waterway formed of a concrete material has a phenomenon in which a gap is formed in a joint of a plurality of waterways forming a waterway as the construction time elapses, and damages such as cracks or cracks are generated in the waterway itself, and water flowing into the waterway leaks. Occurs.

Accordingly, the waterway needs regular maintenance once every few years. However, there are a lot of costs to repair the water channel, and there is a cumbersome problem because the water channel needs to be repaired regularly.

On the other hand, conventionally, to fill gaps or cracks generated between the joints of a plurality of water channel blocks, a mortar, sealant, or the like is filled, or a joint member such as a joint or bracket is used. However, in the winter season when the temperature is low, there is a problem that the joint or bracket freezes and leaks, and the mortar or sealant filled by the freeze-melting action is broken and separated from the water channel.

In addition, since such repair work is not permanent, it is necessary to periodically perform repair work, and thus there is a problem in that inconvenience is required for repair work and a high cost is required.

Accordingly, the present applicant has proposed the present invention in order to solve the above problems, and related prior art documents include Republic of Korea Patent Publication No. 10-1709237 (Invention name: waterway structure joint repair device and There is a method of repairing waterway structures used, registration date: 2017.02.16.).

An object of the present invention is to repair a waterway by connecting a plurality of waterway blocks and repairing a waterway using a polymer mortar that can prevent water from leaking by filling a gap generated in a joint of a plurality of waterway blocks. And to provide a construction method.

In addition, another object of the present invention is to use a polymer mortar that can prevent the joints of the waterway block from being distorted or separated even when the waterway is used for a long period of time by firmly fixing the joints between the plurality of waterway blocks during construction of the waterway. It is to provide a waterway repair method and a construction method.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

The above object is, according to the present invention, a method of repairing a water channel formed by connecting a plurality of water channel blocks through a joint, covering the inner surface of the water channel including the joint with a fabric member; Applying a polymer mortar composition toward the inner surface of the waterway where the fabric member is covered; And curing the polymer mortar composition. It can be achieved by a method of repairing a water channel using a polymer mortar comprising a.

In the step of covering with the fabric member, the fabric member has a predetermined elastic force and a plurality of through holes may be formed.

The fabric member may be provided with an elastic nonwoven fabric.

The elastic nonwoven fabric may have a thickness in the range of 2 to 30 mm.

In the step of applying the polymer mortar composition, a part of the polymer mortar composition penetrates into the inside of the fabric member through the plurality of through holes and is interposed between the inner surface of the waterway and the fabric member, and the polymer mortar composition is In the curing step, the inner surface of the waterway, the fabric member and the polymer mortar composition may be formed as an integrated structure.

In the step of covering with the fabric member, the fabric member may be disposed to cover the left and right inner and bottom surfaces of the water channel, and the position of the fabric member with respect to the water channel may be fixed using positioning means.

In the step of covering with the fabric member, the position of the fabric member may be fixed with respect to the waterway while the fabric member is pulled taut.

The fabric member may be arranged to cover the upper left and right upper surfaces of the waterway.

After curing the polymer mortar composition, performing a UV coating to block ultraviolet rays on the water channel in which the polymer mortar composition is integrated; It may further include.

The polymer mortar composition, cement; First silica sand; A second silica sand having an average particle diameter different from that of the first silica sand; A first polymer; And a second polymer having a different glass transition temperature from the first polymer. It may include.

The first silica sand may have an average particle diameter in the range of 0.15 to 0.3 mm, and the second silica sand may have an average particle diameter in the range of 0.05 to 0.14 mm.

The first polymer may have a glass transition temperature in the range of -60 to -10 ° C, and the second polymer may have a glass transition temperature in the range of +10 to + 60 ° C.

Further, according to another field of the present invention, the step of arranging a plurality of channel blocks adjacent to each other continuously; Covering the inner surface of the waterway block with a fabric member; Applying a polymer mortar composition toward the inner surface of the collecting block covered with the fabric member; And curing the polymer mortar composition. It can be achieved by the construction method of the water channel using a polymer mortar comprising a.

In the step of covering with the fabric member, the fabric member has a predetermined elastic force and a plurality of through holes may be formed.

In the step of applying the polymer mortar composition, a part of the polymer mortar composition penetrates into the inside of the fabric member through the plurality of through holes and is interposed between the inner surface of the waterway block and the fabric member, and the polymer mortar composition In the curing step, the inner surface of the waterway block, the fabric member and the polymer mortar composition may be formed as an integrated structure.

The step of covering the fabric member may include positioning the fabric member to cover the left and right inner and bottom surfaces of the waterway block and positioning the fabric member with respect to the waterway block in a state in which the fabric member is pulled tightly. Can be fixed using.

In the method of repairing a water channel using a polymer mortar of the present invention, a leak formed in a water channel can be prevented by filling a gap formed in a joint between a plurality of water channel blocks using a fabric member and a polymer mortar composition. Moreover, as the inner surface of the waterway block becomes smooth, it is possible to improve the fluidity of the water inside the waterway block and increase the amount of flowing water.

On the other hand, the construction method of the waterway using the polymer mortar of the present invention, by using the fabric member and the polymer mortar composition can prevent the phenomenon that the waterway is distorted or separated even if used for a long time. Accordingly, the hassle due to the regular maintenance of the water channel is eliminated, and the maintenance cost can be reduced accordingly.

In addition, in the method of repairing and constructing a waterway using the polymer mortar of the present invention, unlike a conventional mortar, it is possible to improve the resistance to freezing and thawing of the waterway as a high-molecular weight polymer is applied to the blended polymer mortar composition. You can.

1 is a flowchart illustrating a method of repairing a water channel using a polymer mortar according to an embodiment of the present invention.
FIG. 2 is a view showing a procedure of a waterway repair method illustrated in FIG. 1.
3 is a view showing a repaired waterway using a repair method of a waterway according to an embodiment of the present invention shown in FIG. 1.
FIG. 4 is a cross-sectional view and partial enlarged view of a portion AA shown in FIG. 3.
5 is a view for explaining a modification of the fabric member shown in FIG.
6 is a flow chart for explaining a method of constructing a water channel using a polymer mortar according to an embodiment of the present invention.
FIG. 7 is a view showing a waterway constructed using the waterway construction method illustrated in FIG. 6.
8 is a view for explaining a modification of the construction method of the water channel of FIG. 6.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily practice. The present invention can be implemented in many different forms and is not limited to the embodiments described herein.

It is noted that the drawings are schematic and not drawn to scale. The relative dimensions and proportions of the parts in the figures are shown exaggerated or reduced in size for clarity and convenience in the drawings, and any dimensions are merely illustrative and not limiting. And the same reference numerals are used to indicate similar features in the same structures, elements, or parts appearing in two or more drawings.

The embodiments of the present invention specifically represent ideal embodiments of the present invention. As a result, various modifications of the drawings are expected. Therefore, the embodiment is not limited to a specific form of the illustrated area, and includes, for example, modification of the form by manufacturing.

Hereinafter, a repair method and a construction method of a water channel using a polymer mortar according to an embodiment of the present invention will be described with reference to the accompanying drawings.

First, referring to FIGS. 1 to 5, a method of repairing a water channel using a polymer mortar according to an embodiment of the present invention will be described.

As illustrated in FIG. 2, the water channel 100 is formed by connecting a plurality of water channel blocks 110. In other words, the plurality of water channel blocks 110 are formed by continuously connecting through the joint portion 112. At this time, the plurality of water channel blocks 110 are connected using a joint member 114 such as a joint, a bracket, and the like provided separately.

For reference, the joint 112 shown in FIG. 2 is schematically illustrated, and may be modified into various members such as joints and brackets as described above.

On the other hand, as shown in (a) of FIG. 2, when a plurality of water channel blocks 110 are connected to use the water channel 100 formed for a long time, damages such as cracks or cracks in the water channel 100 (c) has no choice but to occur. Accordingly, the flow of water flowing into the waterway 100 becomes poor and water leaks from the waterway 100.

In order to repair the damaged portion (c) of the waterway 100, as shown in Figure 2 (b), the inner surface of the waterway 100, including the joint 112 of the plurality of waterway block 110 Covered with a fabric member 120 (S110).

When covering the inner surface of the waterway 100 using the fabric member 120, the fabric member 120 covers the left and right inner and bottom surfaces of the waterway 100, that is, the waterway block 110. 120). Here, the fabric member 120 covers the inner surface of the water channel 100 in a state of being pulled taut to both sides. After the fabric member 120 is pulled taut on both sides, it is fixed to the waterway block 110 using a positioning means (not shown), such as a positioning pin, a concrete taka pin, and the like. As described above, when the fabric member 120 is pulled tightly, the inner surface of the waterway block 110, that is, the waterway 100 must be covered, as well as the waterway block 110, as well as the seam 112 of the waterway block 110. This is because it can reliably fill the damaged portion 114 formed in the. Moreover, as the fabric member 120 is covered with the water channel 100, freezing of water flowing into the water channel 100 can be prevented.

On the other hand, as shown in FIG. 5, when covering the inner surface of the waterway 100, that is, the waterway block 110 using the fabric member 120, the fabric member to cover up to the left and right upper surfaces of the waterway 100 ( 120-1). In particular, by folding both sides of the fabric member 120-1 at the edges of the upper left and right surfaces of the fabric member 12001, it is possible to prevent the outer surface of the waterway block 110 from being exposed to the outside.

The channel member 100, that is, the fabric member 120 covering the inner surface of the channel block 110 has a predetermined elastic force and a plurality of through holes may be formed. At this time, the size of the through hole of the fabric member 120 is preferably provided within the range of 0.05 ~ 5mm. In addition, the elastic force of the fabric member 120, that is, the elongation is preferably provided to have a range of 5 to 500%.

To this end, the fabric member 120 is made of a non-woven fabric material, in particular an elastic non-woven fabric. For example, the fabric member 120 made of an elastic nonwoven material may be provided as any one of polypropylene resin (PP resin), polyethylene resin (PE resin), and polyurethane resin (PU resin). It may, and is not necessarily limited to this.

For reference, the fabric member 120 made of an elastic nonwoven material is preferably provided with a thickness in the range of 2 to 30 mm. For reference, the thickness of the fabric member 120 is formed to be thinner than the waterway block 110 and is formed to a thickness thinner than the thickness of the polymer mortar composition 130 applied to the fabric member 120 to be described later.

As shown in FIG. 2 (c), the polymer mortar composition 130 is applied toward the inner surface of the channel 100 in which the fabric member 120 is covered (S120). The waterway 100, that is, the polymer mortar composition 130 applied toward the fabric member 120 covered on the inner surface of the waterway block 110 is sprayed by a spray method.

Referring to FIGS. 3 and 4, when the polymer mortar composition 130 is sprayed toward the inner surface of the channel 100 covered with the fabric member 120, that is, the channel block 110, the polymer mortar composition 130 Some of them penetrate into the fabric member 120 and are interposed between the waterway 100, that is, the inner surface of the waterway block 110 and the fabric member 120. In addition, the polymer mortar composition 130 sprayed toward the inner surface of the water channel 100 may smooth the inner surface of the water channel 100 by covering the fabric member 120. Accordingly, it is possible to improve the flow of water flowing inside the water channel 100. Furthermore, it is possible to send a large amount of water to the water channel 100 compared to the same time.

On the other hand, the polymer mortar composition 130 according to an embodiment of the present invention is cement, a first silica sand, a second silica sand having a different average particle diameter from the first silica sand, a first polymer, and a second glass transition temperature different from the first polymer It can be prepared by blending a polymer.

The cement blended in the polymer mortar composition 130 may be usually ordinary portland cement, but is not limited thereto.

The first silica sand compounded in the polymer mortar composition 130 has an average particle diameter in the range of 0.15 to 0.30 mm, and the second silica sand has an average particle diameter in the range of 0.05 to 0.14 mm. In other words, the average particle diameter of the first silica sand is formed larger than that of the second silica sand.

At this time, the particle diameter of the first silica sand and the second silica sand is the polymer mortar composition 130 in which the first silica sand and the second silica sand are blended, the fabric member 120 and the waterway 100 through a plurality of through holes of the fabric member 120 In order to be penetrated between the inner surface of the channel, that is, the waterway block 110 and interposed therebetween, it should be formed to be smaller than the average particle diameter of the fabric member 120, 0.3 mm. In other words, the average particle diameter of the first silica sand and the second silica sand is preferably formed smaller than the average particle diameter of the fabric member 120.

If, when the average particle diameter of the first silica sand and the second silica sand is formed larger than the average particle diameter of the fabric member 120, the polymer mortar composition 120 including the first silica sand and the second silica sand as the fabric member 120 The space between the fabric member 120 and the inner surface of the waterway block 110 is generated by not being interposed between the fabric member 120 and the waterway 100, that is, the inner surface of the waterway block 110. . For reference, since one surface of the fabric member 120 is formed unevenly, it is inevitable to form a space and an inner surface of the waterway block 110 formed flat on one surface.

Therefore, it is preferable that the average particle diameter of the fabric member 120 is formed to have an average particle diameter in the range of 0.3 to 0.5 mm so that the first silica sand and the second silica sand can pass through the fabric member 120.

Meanwhile, the first polymer and the second polymer blended in the polymer mortar composition 130 have different glass transition temperatures. For reference, the glass transition temperature refers to an optimal temperature at which the first polymer and the second polymer can best exhibit the performance required.

In other words, the glass transition temperature of the first polymer may range from -60 to -10 ° C, and the glass transition temperature of the second polymer may range from +10 to + 60 ° C. The glass transition temperature of the first polymer according to an embodiment of the present invention is preferably -60 ℃, the glass transition temperature of the second polymer has a range of +60 ℃.

As described above, the first polymer means a polymer formulated to have a low glass transition temperature, and the second polymer means a polymer formulated to have a high glass transition temperature.

On the other hand, the first polymer and the second polymer are VAE resin (Vynil Acetate Ethylene resin), acrylic resin (acrylic resin), polyurethane resin (polyurethane resin), polyethylene terephthalate resin (polyethylene terephthalate resin), water-soluble resin and water-dispersible resin It can be made of at least one of .

The first polymer and the second polymer according to an embodiment of the present invention may preferably be made of VAE resin.

Here, the first polymer lowers the glass transition temperature by increasing the vinyl (vynil) component content of the VAE resin, and the first polymer increases the glass transition temperature by increasing the ethylene component content of the VAE resin.

The water channel 100 is very vulnerable to temperature changes because it is exposed to the outside. Accordingly, the waterway 100 coated with the polymer mortar composition 120 can be prepared for the winter season, which is a low temperature by the first polymer, and can be prepared for the summer season, which is a high temperature by the second polymer. ) Can be prevented as much as possible.

Meanwhile, the polymer mortar composition 130 may further include a surfactant and an antifoaming agent. The surfactant is for the polymer mortar composition 130 to mix well, and the antifoaming agent is for suppressing the decrease in strength due to the over-occurrence of bubbles when the polymer mortar composition 130 is mixed.

At this time, the cement, the first silica, the second silica, the first polymer, the polymer mortar composition 130 further comprising a surfactant and an antifoaming agent in the second polymer is 8 to 27% by weight of the cement relative to the total weight of the polymer mortar composition , 19 to 29 wt% of the first silica sand, 19 to 29 wt% of the second silica sand, 16.5 to 24.5 wt% of the first polymer, 16.5 to 24.5 wt% of the second polymer, 0.4 to 0.6 wt% of the surfactant, and The anti-foaming agent may be blended at 0.4 to 0.6% by weight.

Here, the cement blended in the polymer mortar composition 130 according to an embodiment of the present invention preferably contains 8 to 12% by weight.

For reference, in the case of a typical mortar, the polymer content is included within 10% of the total weight of the mortar. However, as described above, in the case of the polymer mortar composition 130 according to an embodiment of the present invention, the total content of the polymer to be blended is about 50% based on the total weight of the polymer mortar composition 130. It can contain. As described above, as the polymer mortar composition 130 containing a high content of the polymer is applied to the waterway 100, the resistance to freezing and thawing of the waterway 100 can be improved.

In addition, the polymer mortar composition 130 may further include fumed silica. Fumed silica has a large surface area and particles are very small because the particles have a specific surface area value of 400,000 to 800,000 cm ² / g. Moreover, since fumed silica has a water repellent effect, it is possible to improve the water repellency of the water channel 100 to improve the flowability of flowing water. The fumed silica may be blended with 0.8 to 1.2% by weight relative to the total weight of the polymer mortar composition (130).

For reference, silica fume, similar to fumed silica, has a specific surface area value of 200,000 cm ² / g, and thus has larger particles than fumed silica. At this time, the silica fume is located in the voids formed between the aggregates contained in the concrete, so that the structure can make dense high-strength concrete.

That is, the fumed silica is to improve the water flow by increasing the water repellent effect of the water channel 100 on the inner surface of the water channel 100, and the silica fume differs in that it is intended to compact the structure of concrete when forming concrete. .

Meanwhile, the polymer mortar composition 130 may further include a fluidizing agent. The fluidizing agent is to ensure that the cement, the first silica sand, the second silica sand, the first polymer, and the second polymer are mixed well. The fluidizing agent may be blended in an amount of 0.4 to 0.6% by weight based on the total weight of the polymer mortar composition 130.

The waterway 100 coated with the polymer mortar composition 130 is cured for a predetermined time (S130).

When curing the waterway 100 coated with the polymer mortar composition 130, the applied polymer mortar composition 130 penetrates through the plurality of through holes of the fabric member 120, as well as the top surface of the fabric member 120. Since the mortar composition is positioned between the fabric member 120 and the waterway block 110, the inner surface of the waterway 100, the fabric member 120, and the polymer mortar composition 130 are formed as an integrated structure. That is, even if no special adhesive or adhesive is used, the fabric member 120 can be attached to the inner surface of the water channel 100 using the polymer mortar composition 130 so that the joint 112 of the plurality of water channel blocks 110 ) Or by filling the damaged portion (c) reliably, it is possible to prevent water from leaking in the water channel 100.

Meanwhile, after curing the waterway 100 coated with the polymer mortar composition 130, UV coating, that is, an acrylic type UV coating, is performed on the waterway 100 integrated with the polymer mortar composition 130 (S140). . The UV coating on the water channel 100 is to block the ultraviolet rays on the water channel 100.

Hereinafter, a construction method of a water channel using a polymer mortar according to an embodiment of the present invention will be described with reference to FIGS. 6 to 8.

For reference, the construction method of the waterway includes all cases where the waterway is newly constructed or newly constructed.

First, the waterway block 110 is formed. At this time, the waterway block 110 is formed in the factory and moved to the site, and then installed in the hole 12 formed in the ground 10.

Then, a plurality of formed water channel blocks 110 are continuously and adjacently arranged in the holes 12 formed in the ground 10 (S210). For reference, the hole 12 formed in the ground 10 varies depending on the size of the channel block 110 buried.

Then, the inner surface of the waterway block 110 is covered with the fabric member 120 (S220).

At this time, the fabric member 120 is provided with an elastic nonwoven fabric having a predetermined elastic force and a plurality of through holes are formed. The elastic nonwoven fabric may be formed of polypropylene resin (PP resin), polyethylene resin (PE resin), or polyurethane resin (PU resin).

Here, as illustrated in FIG. 7, a part of the upper end of the waterway block 110 may be buried in the ground or exposed to the outside.

When a part of the upper end of the waterway block 110 is exposed to the outside, the fabric member 120 is arranged to heat up to the left and right inner surfaces, the bottom surface, and the left and right upper surfaces of the waterway block 110. In addition, when the fabric member 120 is fixed to the waterway block 110, the fabric member 120 is pulled taut on both sides, and then fixed to a desired position using a positioning means such as a concrete takah or a takah pin.

Next, the polymer mortar composition 130 is applied toward the inner surface of the channel 100 covered with the fabric member 120 (S230).

The polymer mortar composition 130 is prepared by blending cement, a first silica sand, a second silica sand having a larger particle diameter than the first silica sand, a first polymer, and a second polymer having a higher glass transition temperature than the first polymer. At this time, the polymer mortar composition 130 may further include a surfactant, an antifoaming agent, fume silica, and a fluidizing agent. For reference, the polymer mortar composition 130 used in the waterway construction method is preferably blended with the same components and the same blending ratio as the polymer mortar composition 130 used in the waterway repair method described above.

Meanwhile, when the polymer mortar composition 130 is applied, it is located on the upper surface of the fabric member 120. At this time, a part of the applied polymer mortar composition 130 penetrates through a plurality of through holes of the fabric member 120 and is interposed between the fabric member 120 and the waterway block 110.

Then, the polymer mortar composition 130 is cured (S240).

At this time, in the process of curing the polymer mortar composition 130, the inner surface of the waterway block 110, the fabric member 120 and the polymer mortar composition 130 by the applied polymer mortar composition 130 even if there is no separate adhesive or the like ) Is formed as an integrated structure.

Next, the polymer member mortar composition 130 is coated with the fabric member 120 covered to perform UV coating, that is, acrylic type UV coating to block ultraviolet rays on the cured waterway block 110 (S260). .

For reference, as shown in FIG. 8, it is also possible to form the water channel 100-1 only with the fabric member 120 and the polymer mortar composition 130 without using the water channel block 110 separately.

First, a hole 12 having a size capable of draining is formed in the ground 10.

The fabric member 120 is covered with the hole 12 formed in the ground 10.

At this time, the fabric member 120 to be covered is covered with the hole 12 in a state pulled to both sides after being cut to a certain size to fit the size of the hole 12. Here, when the fabric member 120 is covered with the hole 12, the fabric member 120 is fixed to the ground using positioning means (not shown) such as a positioning pin.

Then, the polymer mortar composition 130 is applied to the hole 12 covered with the fabric member 120.

Then, the polymer mortar composition 130 is cured.

Since it is possible to form the waterway 100-1 with only the fabric member 120 and the polymer mortar composition 130 directly on the ground without separately installing the waterway block as described above, it is possible to reduce the cost required for waterway construction. There is. Moreover, since the fabric member 120 is light, it has an advantage of easy construction. In addition, there is an advantage that can form a waterway (100-1) even in a narrow space difficult to install the waterway block.

As described above, in one embodiment of the present invention, it has been described by specific matters such as specific components and the like, and limited embodiments and drawings, which are provided only to help the overall understanding of the present invention, and the present invention It is not limited, and those skilled in the art to which the present invention pertains can make various modifications and variations from these descriptions. Accordingly, the spirit of the present invention should not be limited to the described embodiments, and should not be determined, and it will be said that not only the claims described below, but also all equivalent or equivalent modifications to the claims fall within the scope of the spirit of the present invention.

100, 100-1: channel
110: waterway block
112: seam
114: joint member
120, 120-1: no fabric
130: polymer mortar composition

Claims (16)

As a method of repairing a water channel formed by connecting a plurality of water channel blocks through a joint,
Covering an inner surface of the water channel including the joint with a fabric member;
Applying a polymer mortar composition toward the inner surface of the waterway where the fabric member is covered; And
Curing the polymer mortar composition;
Method of repairing a water channel using a polymer mortar containing.
According to claim 1,
In the step of covering with the fabric member,
The fabric member has a predetermined elastic force and a method of repairing a water channel using a polymer mortar, characterized in that a plurality of through holes are formed.
According to claim 2,
The fabric member is a method of repairing a water channel using a polymer mortar, characterized in that it is provided with an elastic nonwoven fabric.
According to claim 3,
The elastic nonwoven fabric has a thickness in the range of 2 ~ 30 mm Method of repairing a water channel using a polymer mortar, characterized in that.
According to claim 2,
In the step of applying the polymer mortar composition,
A part of the polymer mortar composition penetrates into the inside of the fabric member through the plurality of through holes and is interposed between the inside surface of the waterway and the fabric member,
In the step of curing the polymer mortar composition,
A method of repairing a water channel using a polymer mortar, characterized in that the inner surface of the water channel, the fabric member, and the polymer mortar composition are formed of an integral structure.
According to claim 1,
The step of covering with the fabric member,
A method of repairing a water channel using a polymer mortar, wherein the fabric member is arranged to cover the left and right inner and bottom surfaces of the water channel and the position of the fabric member is fixed to the water channel using a positioning means.
The method of claim 6,
In the step of covering with the fabric member,
A method of repairing a water channel using a polymer mortar, wherein the position of the fabric member is fixed with respect to the water channel in a state where the fabric member is pulled taut.
The method of claim 6,
Method of repairing a water channel using a polymer mortar, characterized in that the fabric member is arranged to cover the upper left and right upper surfaces of the water channel.
According to claim 1,
After curing the polymer mortar composition,
Performing a UV coating for blocking the ultraviolet rays on the water channel in which the polymer mortar composition is integrated; Repair method of a water channel using a polymer mortar, characterized in that it further comprises.
According to claim 1,
The polymer mortar composition,
cement;
First silica sand;
A second silica sand having an average particle diameter different from that of the first silica sand;
A first polymer; And
A second polymer having a different glass transition temperature from the first polymer;
Repair method of a water channel using a polymer mortar, characterized in that it comprises a.
The method of claim 10,
The first silica sand has an average particle diameter in the range of 0.15 ~ 0.3 mm,
The second silica sand is a method of repairing a water channel using a polymer mortar, characterized in that it has an average particle diameter in the range of 0.05 to 0.14 mm.
The method of claim 10 or 11,
The first polymer has a glass transition temperature in the range of -60 ~ -10 ℃,
The second polymer has a glass transition temperature in the range of +10 to + 60 ° C. The method of repairing a water channel using a polymer mortar.
Continuously arranging a plurality of waterway blocks adjacently;
Covering the inner surface of the waterway block with a fabric member;
Applying a polymer mortar composition toward the inner surface of the collecting block covered with the fabric member;
Curing the polymer mortar composition;
Construction method of a water channel using a polymer mortar containing.
The method of claim 13,
In the step of covering with the fabric member,
The fabric member has a predetermined elastic force and a method of constructing a water channel using a polymer mortar, characterized in that a plurality of through holes are formed.
The method of claim 14,
In the step of applying the polymer mortar composition,
A part of the polymer mortar composition penetrates into the inside of the fabric member through the plurality of through holes and is interposed between the inside surface of the waterway block and the fabric member,
In the step of curing the polymer mortar composition,
The inner surface of the waterway block, the fabric member and the polymer mortar composition is a method of construction of a water channel using a polymer mortar, characterized in that formed as an integral structure.
The method of claim 15,
The step of covering with the fabric member,
The fabric member is arranged to cover the left and right inner and bottom surfaces of the waterway block, and the position of the fabric member is fixed to the waterway block in a state in which the fabric member is pulled tightly using a positioning means. Construction method of waterway using polymer mortar.

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