KR101491280B1 - Water-proofing method of concrete structures - Google Patents

Abstract

The present invention relates to a method of manufacturing a concrete structure, comprising: applying a primer to a base surface of a concrete structure; Attaching a reinforcing sheet formed of a glass fiber material to an upper surface of the applied primer; Attaching a fiber sheet made of long-end fibers to an upper surface of the reinforcing sheet; Forming a waterproof layer on an upper surface of the fiber sheet; And applying a top coat to an upper surface of the waterproofing layer. The present invention also provides a composite waterproofing method for a concrete structure.
Therefore, it is possible to extend the life of the waterproof layer by integrating the waterproof layer by impregnating the reinforcing sheet on the bottom surface, and the waterproof construction can be easily performed, and the waterproof construction can be carried out without the special function personnel. .

Description

Water-proofing method of concrete structures

The present invention relates to a composite waterproofing method for a concrete structure, and more particularly, to a combined waterproofing method for a concrete structure capable of extending the life of a waterproofing layer.

In general, as a method for improving the durability of concrete structures, a method of directly applying a waterproof layer to a concrete structure is mainly used, and in this waterproofing method, there is a method using a urethane waterproofing method and a waterproof sheet.

The dual first urethane waterproofing method is a method of arranging a roof top to be applied, drying the primer by impregnating it with a primer, drying a urethane waterproofing agent on the bottom surface, and forming a urethane film with a certain thickness to waterproof it.

On the other hand, the method using a waterproof sheet is a method in which a waterproof sheet having waterproof property is laid on a waterproofing and waterproofing method. As a waterproof sheet, a PVC sheet is widely used, , The edge of the PVA sheet, that is, the portion where the two PVA seats are joined, is important. Examples of such bonding include a bonding solvent method, a sealing bonding method, and a hot air bonding method. On the other hand, a waterproof structure and a waterproofing method using a sheet of a structure have been disclosed in Korean Patent Publication No. 2007-0046509 as an example of the above waterproofing technique.

However, the above urethane and various sheet construction methods have limitations in air permeability and stretchability, and lifetime of the waterproofing method is short due to lifting of the waterproof layer and removal of the sheet joining portion, which leads to rework, resulting in increased cost and difficulty in forming a smooth waterproof layer .

An object of the present invention is to provide a composite waterproofing method of a concrete structure capable of maintaining the life of a waterproof layer for a long time.
The present invention also provides a composite waterproofing material for a concrete structure having a cost saving effect because a waterproofing construction can be easily carried out by using a reinforcing sheet coated with an adhesive on the upper and lower surfaces, The purpose is to provide a method.

The present invention relates to a method of manufacturing a concrete structure, comprising: applying a primer to a base surface of a concrete structure; Attaching a reinforcing sheet formed of a glass fiber material to an upper surface of the applied primer; Attaching a fiber sheet made of long-end fibers to an upper surface of the reinforcing sheet; Forming a waterproof layer on an upper surface of the fiber sheet; And applying a top coat to an upper surface of the waterproofing layer. The present invention also provides a composite waterproofing method for a concrete structure.

Here, it is preferable that the reinforcing sheet is coated with an adhesive on the upper surface and the lower surface, respectively.

In addition, the adhesive is preferably an acrylic-based natural latex adhesive.

Meanwhile, the step of forming the waterproof layer includes the step of impregnating the fiber sheet with a highly elastic inorganic waterproofing agent, and a step of applying an SPP waterproofing agent to the upper surface of the waterproofing agent.

The highly elastic inorganic waterproofing agent is preferably prepared by blending an inorganic powder or cement with a resin and an elastic film waterproofing agent made of latex, EVA, emulsion, ammonia, stone, synthetic polymer, rubber, mineral and other by-products .

The composite waterproofing method of a concrete structure according to the present invention provides the following effects.

First, the life of the waterproof layer can be extended by integrating the waterproof layer by impregnating the reinforcing sheet on the bottom surface.

Second, waterproof construction is easy, workability is good, and waterproof construction can be carried out without special manpower, so that cost reduction can be obtained.

Third, it can facilitate the maintenance of structures such as deterioration, shrinkage, expansion and vibration of concrete structures, and concrete cracks and dropouts.

1 is a cross-sectional view illustrating the structure of a waterproof layer according to a combined waterproofing method of a concrete structure according to an embodiment of the present invention.
2 is a flow chart showing a combined waterproofing method of the concrete structure of FIG.
3 is a cross-sectional view of the concrete structure according to the combined waterproofing method of the concrete structure of FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2, a composite waterproofing method (hereinafter referred to as a 'combined waterproofing method') of a concrete structure 10 according to an embodiment of the present invention includes a step S20 of applying a primer, (S30) of attaching the sheet 200, attaching the fiber sheet 300 (S40), forming the waterproof layer 400 (S50), and applying the top coat (S60) .

In step S20 of applying the primer, the base surface of the concrete structure 10 is first aligned (S10), and then the primer layer 100 is formed by applying a primer to the upper surface of the consolidated concrete base surface. Here, the process of applying the primer is similar to the well-known primer coating process, and thus a detailed description thereof will be omitted.

Then, the reinforcing sheet 200 is attached to the top surface of the primer layer 100 (S30). Here, the reinforcing sheet 200 is formed of a lattice type glass fiber material.

On the other hand, the reinforcing sheet 200 is coated with an adhesive 210 on its upper and lower surfaces. The adhesive 210 induces unification with the concrete base surface and acts as an adhesive with the fiber sheet 300 attached on the upper surface to facilitate the alumina and folding and the reinforcement effect of the waterproof layer 400 Can be obtained.

It is preferable to apply the acrylic natural latex adhesive to the adhesive 210, but it is a preferred embodiment that various components are applicable if the component can induce the integration of the reinforcing sheet 200 and the concrete bottom surface after bonding It is possible.

After attaching the reinforcing sheet 200, the fiber sheet 300 is attached to the upper surface of the reinforcing sheet 200 (S40). At this time, the fiber sheet 300 is a SPP fiber sheet 300 having a high strength tensile strength as a long-staple fiber, and is a nonwoven sheet which is fixed by using an adhesive and heat in a state in which long and short fibers are spread thinly.

After attaching the fiber sheet 300, a waterproof layer 400 is formed on the upper surface of the fiber sheet 300 (S50). The step S50 of forming the waterproof layer 400 may include the steps of impregnating the fiber sheet 300 with a highly elastic inorganic waterproofing agent S51 and applying a SPP waterproofing agent to the upper surface of the coercive inorganic waterproofing agent S52, and S53.

At this time, the step of impregnating the highly elastic inorganic waterproofing agent (S51) is a step of forming a layer of a highly elastic inorganic waterproofing agent 410 by mixing a resin and a powder, wherein the powder is a latex, EVA, emulsion, It is preferable that an inorganic filler or cement is prepared by blending an appropriate amount of the inorganic filler or cement according to the site conditions in an acrylic elastic film waterproofing agent made of a synthetic polymer, rubber, mineral and other by-products. However, it is a matter of course that other components other than the above-mentioned ingredients may be included in the present invention as long as the above objects can be achieved.

(S52, S53) of applying the SPP waterproofing agent may include a step S52 of forming a first SPP waterproofing agent layer 420 by applying a first SPP waterproofing agent, a step S52 of applying a second SPP waterproofing agent to form a second SPP waterproofing agent layer 430 (S53). ≪ / RTI >

Here, it is preferable that the first SPP waterproofing agent and the second SPP waterproofing agent are composed of the same components so that they can be easily handled. However, in one embodiment, various components can be used as long as they can achieve the waterproofing purpose. The case where the double coating is applied through the first and second SPP waterproofing agents is shown as an example, but it is needless to say that it can be changed according to the operator such as a triple abnormality.

As described above, since the waterproof layer 400 has a high tensile strength and a predetermined thickness, it is possible to solve problems such as cracks, moisture, and irregularities affecting the waterproof layer 400. In addition to waterproofing, It is possible to provide an excellent effect even in prevention.

Finally, a top coat is applied on the top surface of the waterproof layer 400 (S60) to form a top coating layer 500. Here, the above-mentioned top coating process is a well-known process and its detailed description will be omitted.

As described above, in the combined waterproofing method, the glass fiber reinforced sheet 200 and the fiber sheet 300 are attached to each other to double-deteriorate the concrete structure 10 due to deterioration, shrinkage, expansion, vibration, It is possible to improve the waterproof effect and the tensile strength and the cracking resistance by integrating the concrete bottom surface and the waterproof layer 400 and to improve the life of the waterproof layer 400 It can be extended for a long time.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10 ... concrete structure 100 ... primer layer
200 ... reinforced sheet 210 ... adhesive
300 ... fiber sheet 400 ... waterproof layer
410 ... inorganic waterproofing layer 420 ... first SPP waterproofing layer
430 ... second SPP waterproof layer 500 ... top coating layer

Claims (5)

Applying a primer to the base surface of the concrete structure;
Attaching a reinforcing sheet formed of a glass fiber material having an adhesive on the top and bottom surfaces of the applied primer;
Attaching a fiber sheet made of long-end fibers to an upper surface of the reinforcing sheet;
Forming a waterproof layer on an upper surface of the fiber sheet; And
And applying a top coat to the top surface of the waterproof layer.
delete The method according to claim 1,
The adhesive is a composite waterproofing method of a concrete structure which is an acrylic-based natural latex adhesive. The method according to claim 1,
Wherein forming the waterproof layer comprises:
Impregnating the fiber sheet with a highly elastic inorganic waterproofing agent,
And applying a SPP waterproofing agent to the upper surface of the waterproofing agent. The method of claim 4,
The high elastic mineral water-
Composite waterproofing method of concrete structure made by mixing inorganic resin powder or cement with resin and elastic film waterproofing agent made of latex, EVA, emulsion, ammonia, stone, synthetic polymer, rubber and mineral.

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