KR100707284B1 - Waterproof construction method and waterproof layer structure - Google Patents

Abstract

The present invention is applied to waterproof work on the roof of a building and discloses a waterproof construction method that is advantageous for waterproofing exposure. In the waterproof construction method of the present invention, the step of installing an induction furnace capable of discharging air and moisture on the waterproofing surface, after the step of installing the induction furnace, smoothing the waterproofing surface with a background adjustment material, the smoothing Applying an adhesive after the treating step, attaching a soft fiber reinforced plastic sheet after applying the adhesive, attaching a connection of the soft fiber reinforced plastic sheet, and connecting a connection of the soft fiber reinforced plastic sheet Coating the waterproofing material after the attaching step. Therefore, in the present invention, the soft fiber-reinforced plastic sheet is constructed while maintaining a certain height with the waterproof surface, thereby improving the responsiveness (behavioral responsiveness) and crack responsiveness to vibration or earthquake of construction or civil engineering structures, and poor construction. It is possible to obtain a good waterproof effect by reducing. In addition, the construction can be performed regardless of the wet content of the winter season can improve the workability.

Waterproof, Floating, Moisture, Waterproof, Soft, Fiber Reinforced Plastic

Description

Waterproofing method and structure

1 is a flowchart illustrating a waterproof construction method according to the present invention.

Figure 2 is a flow chart for explaining in detail the waterproofing coating step that can be applied to the present invention.

3 is a plan view showing a part of the waterproof construction to explain the embodiment according to the present invention.

4 is a partial cross-sectional view for explaining the main part of the embodiment according to the present invention.

5 is a cross-sectional view taken along the line A-A of FIG. 3.

The present invention relates to a waterproof construction method, and more particularly, to a waterproof construction method that is applied to waterproof work on the roof of a building, etc. and is advantageous for waterproofing exposure.

Generally, among the waterproofing methods, there are urethane waterproofing methods, hard sheet waterproofing methods, and asphalt sheets and unsaturated polyester resin composite methods. The urethane waterproofing method is to construct a polyurethane resin having elasticity and watertightness as the organic solvent type by mixing the main material and the curing agent. This urethane waterproofing method has a disadvantage that there is some moisture on the base surface or difficult to install in winter and the bubble generation rate is high. In addition, the urethane waterproofing method is a self-leveling type (Self-leveling type) has a disadvantage that the thickness of the coating film is not uniform even if there is a slight inclination on the base surface, and can be applied only when the wet content is about 10% or less, stirring There is a problem of high construction failure due to misuse and misuse of the diluent.

Therefore, the present invention has been proposed to solve the above problems, and an object of the present invention is to provide a waterproof construction method that can be applied regardless of the wet content of the winter season.

In addition, the present invention is to provide a waterproof construction method that can increase the responsiveness (behavioral responsiveness) and crack responsiveness to the vibration or earthquake of the building, civil structure, and maximize the waterproofing effect by reducing construction failure.

In addition, the present invention is to provide a waterproof construction method that can prevent the bubbles caused by moisture in the structure to maintain a good construction state.

In order to achieve the above object, the present invention, the base adjustment material disposed on the upper surface of the waterproofing surface, the adhesive disposed at a predetermined interval on the top of the base adjustment material, while maintaining a predetermined interval with the base adjustment material and adhere to the adhesive A waterproof layer structure including a soft fiber reinforced plastic sheet, a connection part attachment layer attached to the connection surface of the soft fiber reinforced plastic sheets, and a waterproof material layer coated on the soft fiber reinforced plastic sheets and the connection part attachment layer. to provide.

The waterproof surface further includes an induction furnace capable of discharging air and moisture.

Preferably, the induction furnace is provided with an ejector capable of discharging moisture.

The connection part adhesion layer may be made of glass fiber tape provided with an adhesive layer.

The fiber-reinforced plastic sheet enhances the waterproof layer structure which is disposed to face each other with adjacent sheets.

In another aspect, the present invention is the step of installing the induction furnace capable of discharging air, moisture on the waterproofing surface, after the step of installing the induction furnace, smoothing the waterproofing surface with a background adjustment material, the adhesive after the smoothing step After applying the adhesive, attaching the soft fiber-reinforced plastic sheet after applying the adhesive, attaching the connection part of the soft fiber-reinforced plastic sheet, and attaching the connection part of the soft fiber-reinforced plastic sheet It provides a waterproof construction method comprising the step of coating.

The method may further include washing the waterproof surface before or after installing the induction furnace.

In the step of applying the adhesive, the adhesive is preferably coated with a fiber-reinforced plastic adhesive.

In the step of applying the adhesive, it is preferable that a plurality of adhesives are disposed at positions spaced apart from each other.

In the step of adhering the soft fiber-reinforced plastic sheet, the soft fiber-reinforced plastic sheet is preferably bonded in a state where the gap is maintained with the waterproof construction surface.

Coating the waterproofing material preferably further includes applying at least one layer of soft fiber reinforced plastic resin.

The method may further include laminating glass fibers after applying the soft fiber reinforced plastic resin.

In the step of attaching the connecting portion of the soft fiber reinforced plastic sheet, the connecting portion of the soft fiber reinforced plastic sheet is preferably attached with a glass fiber tape sheet.

After coating the waterproofing material, the method may further include applying a waterproof coating layer of another material.

The coating layer may be formed by applying one or more layers of silicone, acrylic, urethane, acrylic urethane, unsaturated polyester, and fluorine.

After installing the induction furnace on the waterproofing surface may further comprise the step of installing a discharger for discharging moisture in the induction furnace.

After the coating of the waterproofing material, it is preferable to further include filling a sealant at an end portion of the waterproofing layer.

The sealant may be any one of silicone, urethane, modified silicone, acrylic, and butyl rubber.

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

1 is a flow chart for explaining an embodiment according to the present invention, Figure 2 is a flow chart for explaining in detail the main part of Figure 1, showing a waterproof construction method. 3 is a plan view showing a state of construction by the waterproof construction method of the present invention, Figure 4 is a partial cross-sectional view cut along the A-A portion of Figure 3, Figure 5 is a cross-sectional view cut along the B-B portion of FIG.

In the waterproof construction method of the present invention, the waterproofing surface (for example, the top surface of C in FIGS. 4 and 5 to the bottom surface such as a rooftop) is washed with water or a cleaning agent (S1). This cleaning operation is to maximize the workability and the effect of the waterproof construction, such as removing the foreign matter so that the adhesive to be described later to make good adhesion. And install an induction furnace (R, shown in Figures 4 and 5) that can discharge air, moisture (S3). The induction furnace (R) serves as a kind of passage so that the moisture or air that may be present or generated inside the waterproofing layer after the construction of the waterproofing layer may be discharged through the ejector (shown in FIG. 4). . The induction furnace R forms a long groove at predetermined intervals and inserts a water absorbing material (B, commonly called a back-up) such as polyethylene foam material therein, and may include urethane, acrylic, silicone, Filling the sealant (S) made of any one or more such as silica sand can be finished with a tape (T, shown in Figures 4 and 5) in the open portion of the top. Such an induction furnace (R) can be applied to a conventional structure, the present invention has been described only one example for convenience, in the present invention can be applied to the structure of the various induction furnace (R).

Unlike the above description, the washing of the waterproof surface (S1) may be performed after installing the induction furnace R for discharging air or moisture (S3).

Then, after the induction furnace (R) is installed, the discharger (1) capable of discharging the moisture and air collected in the induction furnace (R) to the outside is installed at regular intervals (S4).

Subsequently, the waterproofing surface (the upper surface of C in FIGS. 4 and 5) is smoothed using the background adjuster 3 (shown in FIGS. 4 and 5) (S5).

The smoothing treatment of the waterproofing surface by using the background adjuster 3 is to prevent the poor adhesion of the waterproof sheets to be described later and to make the waterproofing layer uniformly. In the above description, the background adjuster 3 may be conventional materials.

Then, a fiber reinforced plastic (FRP) adhesive (shown in FIGS. 4 and 5) is applied onto the layer formed by the base adjuster 3 (S7). The adhesive 5 may be arranged to form a dot at regular intervals rather than to apply to the entire surface of the base adjuster (3). The adhesive 5 is preferably applied with a suitable height to form a space d (shown in FIG. 5) between the base adjuster 3 and the fiber reinforced plastic (FRP) sheet 7 adhered thereon. .

Subsequently, the soft fiber reinforced plastic (FRP) sheet 7 is attached to the upper portion of the adhesive 5 (S9). At this time, the soft fiber-reinforced plastic (FRP) sheet 7 is bonded to each other, and bonded to the upper portion of the glass fiber tape (9, Glass fiber tape (shown in Figures 3 to 5), which is a connection layer attached to the top) (S11). Then, the waterproofing material is coated on the upper portion of the soft fiber reinforced plastic (FRP) sheet 7 and the upper portion of the glass tape 9 (S13).

In the waterproofing material coating step 13, as shown in Figure 2, after applying the soft fiber-reinforced plastic resin (11, shown in Figure 5) (S15), the glass fiber 13, Glass fiber, 5) can be laminated (S17), and the soft fiber-reinforced plastic resin 15 can be applied (S19) again. This waterproof coating step (S13) can also be applied by applying at least one layer of the soft fiber-reinforced plastic resin (reference numeral 11 or 15 in the drawing), and the number of laminated layers may be several layers.

And after the step (S13) of coating the waterproofing material to form a composite waterproofing layer, a coating layer (17, shown in Figure 5) consisting of at least one layer of silicon, acrylic, urethane, acrylic urethane, unsaturated polyester, fluorine, etc. Can be formed (S21). Applying or forming the composite coating layer (S21) is to maximize the waterproof effect and improve the beauty of the appearance in the step of finishing the waterproof layer. That is, reference numeral 17 in FIG. 5 may form a composite waterproof layer, and may be formed of several layers.

On the other hand, by filling the sealant around the end of the waterproof layer and the discharger may further include reducing the occurrence of a short circuit at the end. In the above description, the sealant may be selected from any one or more than one selected from silicone, acrylic, urethane, acrylic urethane, unsaturated polyester, fluorine, and the like.

The waterproof layer constructed in this way is moisture or air in the interior of the waterproof layer is gathered toward the induction furnace (R) side and discharged to the discharger (1), it is possible to waterproof work regardless of the moisture content of the waterproof surface. In addition, even if the construction of the waterproof layer is difficult due to the temperature, such as winter, it can be easily installed by the construction method of the present invention and workability is greatly improved.

Waterproofing layer of the present invention made in this way is made of a waterproof construction in the state where the waterproofing surface and the waterproofing layer is spaced (d) can respond to the crack of the waterproofing surface, and also can easily maintain the waterproof state in response to vibration of the building, etc. There is an advantage to that.

As described above, the present invention is provided with an ejector capable of discharging moisture and air, so that the construction can be performed regardless of the winter content as well as the wet content, thereby improving workability and maintaining a good construction state, thereby obtaining an excellent waterproof effect.

In addition, in the present invention, the soft fiber-reinforced plastic sheet is constructed while maintaining a certain height with the waterproof surface, thereby improving the responsiveness (behavioral responsiveness) and crack responsiveness to vibration or earthquake of construction or civil engineering structures, and construction It has the effect of maximizing waterproof effect by reducing defects.

Claims (18)

Installing an induction furnace capable of discharging air and moisture on the waterproof surface; Installing an ejector for discharging moisture in the induction furnace; Smoothing the waterproof surface with a ground adjustment material after the step of installing the induction furnace; Applying a fiber reinforced plastic adhesive at a plurality of positions spaced apart from each other after the smoothing step; Attaching the soft fiber-reinforced plastic sheet to the adhesive after the step of applying the adhesive, but disposing it in a state where the gap is maintained with the waterproof construction surface; Attaching a connection portion of the soft fiber reinforced plastic sheet to a glass fiber sheet; Coating the waterproofing material by laminating one or more layers of soft fiber reinforced plastic resin and glass fibers after attaching the connection part of the soft fiber reinforced plastic sheet; Filling the sealant at an end portion of the waterproof layer after coating the waterproofing material; Waterproof construction method comprising a. The waterproof construction method according to claim 1, further comprising washing the waterproof surface before or after installing the induction furnace. delete delete delete delete delete delete The method of claim 1, wherein after the coating of the waterproofing material Waterproof construction method further comprising the step of applying a waterproof coating of a different material. The method of claim 9, wherein the coating layer A waterproof construction method wherein at least one layer of silicone, acrylic, urethane, acrylic urethane, unsaturated polyester and fluorine is applied. delete delete The waterproof construction method according to claim 1, wherein the sealant uses any one of silicone, urethane, modified silicone, acrylic, and butyl rubber. delete delete delete delete delete

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