KR101558457B1 - Rooftop waterproof method using carbon fiber - Google Patents

Abstract

The roof waterproofing method according to the present invention comprises a first step of arranging a plurality of floor sheets on a rooftop floor successively; A second step of covering the top surface of the mutually abutting bottom sheets with urethane seal and carbon fiber; A third step of applying a silica sand layer mixed with silica and urethane onto the bottom sheet and carbon fiber; A fourth step of applying a urethane coating layer on the silica layer; And a fifth step of applying a top coat on the urethane coating layer. By using the roof waterproofing method according to the present invention, it is possible to prevent the leakage of water between the bottom sheets by filling the gap between the adjacent bottom sheets, to improve the strength between the bottom sheets, It is possible to reduce the construction cost by preventing the occurrence of defective joint between the bottom sheets.

Description

Rooftop waterproof method using carbon fiber [

The present invention relates to a roof waterproofing method for forming a waterproof layer by laminating a floor sheet and urethane on a roof top floor, and more particularly, The present invention relates to a rooftop waterproofing method.

Generally, a roof of a building made of reinforced concrete can cause rainwater to penetrate into the building and aging the building. Therefore, it is further provided with a waterproof layer formed by applying a waterproof layer made of an asphalt-based sheet or a synthetic polymer based sheet or a coating film waterproofing material such as a rubber asphalt-based, acrylic-based, polyurethane or the like.

In the case of forming the waterproof layer by applying the coating material waterproofing material, after applying the primer, curing for about 2 hours or more, applying the waterproofing agent twice twice, curing for 2 hours or more for about 24 hours or applying the urethane layer and top- And the time required for formation of the waterproof layer such as curing for at least 24 hours is at least 4 days.

Particularly, when the waterproof layer is desired to be thicker, the waterproof layer and the urethane layer must be repeatedly applied over a plurality of times, so that the roof waterproofing construction period becomes longer.

Therefore, in order to solve such a problem, a rooftop waterproofing method in which a plurality of ready-made floor sheets are successively arranged on the floor of a roof, and urethane and a top coat are applied on the floor sheet is utilized. However, when such a roof waterproofing method is used, the bottom sheets can easily be spread by the external force, and damage such as tearing of the urethane and the top coat at the relevant portion can easily occur. There is a risk of occurrence.

Of course, there has been proposed a method of filling joints between two neighboring floor sheets. However, when a person walks on the roof or pulls the object on the roof, the bottom sheet is pushed up horizontally or the joint is damaged. .

KR 10-1177341 B1

The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to improve the strength of clearance between neighboring floor sheets to prevent cracking of the corresponding portions, The purpose of this study is to provide a rooftop waterproofing method.

According to an aspect of the present invention, there is provided a rooftop waterproofing method comprising: a first step of sequentially arranging a plurality of floor sheets on a roof top; A second step of covering the top surface of the mutually abutting bottom sheets with urethane seal and carbon fiber; A third step of applying a silica sand layer mixed with silica and urethane onto the bottom sheet and carbon fiber; A fourth step of applying a urethane coating layer on the silica layer; And a fifth step of applying a top coat on the urethane coating layer.

In the first step,

And sequentially arranging a urethane primer and a base floor urethane on a portion of the roof top corresponding to a point where the bottom sheet abuts, and arranging the bottom sheet.

The second step comprises:

After the urethane seal is applied to the upper surface of the portion where the bottom sheet abuts, the carbon fiber is seated on the urethane seal.

The second step comprises:

A urethane seal is applied to an upper surface of a portion where the bottom sheet abuts, a carbon fiber is seated on the upper surface of the urethane seal, and then a urethane seal is further coated to cover the carbon fiber.

The second step further includes placing a carbon fiber on the urethane seal, and then attaching the adhesive tape to the urethane seal so that the carbon fiber is covered.

The second step comprises:

Placing a carbon fiber on an upper surface of a portion where the bottom sheet abuts, attaching a mesh tape on the carbon fiber, and applying a urethane seal on the mesh tape.

By using the roof waterproofing method according to the present invention, it is possible to prevent the leakage of water between the bottom sheets by filling the gap between the adjacent bottom sheets, to improve the strength between the bottom sheets, It is possible to reduce the construction cost by preventing the occurrence of defective joint between the bottom sheets.

1 shows a structure of a roof waterproofing layer applied by a roof waterproofing method according to the present invention.
Fig. 2 shows the structure of the roof waterproofing layer applied by the second embodiment of the roof waterproofing method according to the present invention.
Fig. 3 shows the structure of the roof waterproofing layer applied by the third embodiment of the roof waterproofing method according to the present invention.
4 shows the structure of the roof waterproofing layer applied by the fourth embodiment of the roof waterproofing method according to the present invention.

Hereinafter, embodiments of the roof waterproofing method according to the present invention will be described in detail with reference to the accompanying drawings.

1 shows a structure of a roof waterproofing layer applied by a roof waterproofing method according to the present invention.

The roof waterproofing method according to the present invention is a waterproofing method in which a plurality of floor sheets 200 are laid on the roof top floor 10 and urethane is applied on the floor sheet 200, A Urethane seal 300 is applied to a portion corresponding to a gap between the bottom sheets 200 so as to prevent leakage of water between the bottom sheets 200. The Urethane seal 300 is made of carbon fiber The urethane seal 300 can be prevented from being broken due to the breakage of the urethane seal 300 and the neighboring bottom sheets 200 can be prevented from being opened.

That is, the roof waterproofing method according to the present invention includes a first step of arranging a plurality of floor sheets 200 in a row on a roof top 10 and a second step of arranging a urethane seal (not shown) on a top surface of a portion where neighboring floor sheets 200 are in contact with each other A third step of covering the topsheet 200 and the carbon fibers 400 with a sandblasting layer 510 in which silica and urethane are mixed with each other; A fourth step of applying a urethane coating layer 520 on the layer 510 and a fifth step of applying a top coat 530 on the urethane coating layer 520.

Generally, when the roof top floor 10 is waterproofed in such a manner that a plurality of floor sheets 200 are successively laid, an external force in the horizontal direction is applied to the floor sheet 200 when a person walks on the roof top or moves an object So that a phenomenon such as spreading or overlapping between the adjacent two bottom sheets 200 may occur. As described above, when the gap between the bottom sheets 200 is widened, there is a serious problem that the urethane layer in the corresponding region is cracked, thereby causing leakage of water between the bottom sheets 200. Although the urethane seal 300 functions to connect the two bottom sheets 200 so that the urethane seal 300 does not spread between the bottom sheets 200, Widening can not be prevented.

However, when the carbon fiber 400 is further laminated on the urethane seal 300 as in the roof waterproofing method according to the present invention, the tensile strength of the urethane seal 300 is reinforced. Even if a horizontal external force is applied, There is an advantage that the seal 300 is not easily broken and thus the phenomenon that the two adjacent bottom sheets 200 are opened or overlapped does not occur.

At this time, since the carbon fiber 400 has a high non-elasticity (a scale of tensile strength divided by density, a measure of light and strong property) and a non-elasticity (a measure of tensile elasticity divided by density, The urethane seal 300 can be reinforced without significantly increasing the overall weight of the waterproof layer, so that the neighboring floor sheets 200 do not spread apart or the spacing between the ribs does not increase. That is, when the roof bottom 10 is waterproofed by the roof waterproofing method according to the present invention, no leakage occurs through the gap between the two bottom sheets 200, It is possible to obtain an effect that cracks are not generated in the urethane coating layer 520 and the top coat 530 at the portion corresponding to the point where they abut. Further, since the carbon fiber 400 is a material having high chemical resistance, heat resistance and impact resistance, it can be expected that the durability of the roof waterproof layer can be improved as the carbon fiber 400 is not easily corroded or burned.

At this time, although the urethane seal 300 and the carbon fiber 400 may be laminated over the entire upper surface of the bottom sheet 200, in such a case, the construction cost becomes very high, And the carbon fibers 400 may be laminated only on a portion where two neighboring bottom sheets 200 are in contact with each other as shown in this embodiment. The width of the urethane seal 300 and the carbon fiber 400 may be varied according to various conditions such as the size of the bottom sheet 200 and the adhesion between the urethane seal 300 and the bottom sheet 200. However, It is generally preferable to set it within about 50 mm.

The urethane seal 300 and the carbon fibers 400 may also be laminated to a portion where the roof walls and side edges of the floor sheet 200 are in contact with each other when there is a risk of water leakage or cracks between the roof wall and the floor sheet 200 . The cross section of the urethane seal 300 and the carbon fibers 400 stacked on the portions where the roof walls and the side of the floor sheet 200 are in contact with each other are formed in a shape of 'Lt; / RTI >

On the other hand, in order to more reliably prevent leakage between the adjacent two bottom sheets 200, it is preferable that the bottom sheet 200 is provided with a point where the bottom sheets 200 are in contact with each other before the bottom sheet 200 is laid on the roof top floor 10 The urethane primer 110 may be applied to the area where the base urethane 120 is applied, and then the base bottom urethane 120 may be applied on the urethane primer 110. At this time, even if the base floor urethane 120 is applied directly to the roof top 10, the application of the urethane primer 110 may be omitted if the base floor urethane 120 can be firmly adhered to the roof top 10, The rooftop bottom 10 does not have a surface condition for stably adhering the urethane so that the urethane primer 110 is applied first as shown in the present embodiment and then the base bottom urethane 120 is coated thereon .

When the urethane primer 110 and the base floor urethane 120 are applied as described above, since the adjacent two bottom sheets 200 are sealed to the bottom surface as well as the top surface of the mutual abutting portion, It is possible to more effectively prevent a phenomenon in which leakage of water occurs.

Fig. 2 shows the structure of the roof waterproofing layer applied by the second embodiment of the roof waterproofing method according to the present invention.

The carbon fiber 400 is laminated on the upper surface of the urethane seal 300 so that the carbon fiber 400 can be stably held in the urethane seal 300 when the silica sand layer 510 is applied, An adhesive tape 420 for attaching the carbon fibers 400 to the urethane seal 300 may be additionally provided. The adhesive tape 420 is formed such that the edge of the adhesive tape 420 is covered with the carbon fiber 400 and adhered to the upper surface of the urethane seal 300. The carbon fiber 400 is attached to the upper surface of the urethane seal 300 The fixed state can be maintained.

At this time, the adhesive tape 420 can be applied to any kind of tape as long as the carbon fiber 400 can be fixed to the urethane seal 300. However, it is preferable that the adhesive tape 420 is applied as a waterproof tape for higher water resistance.

Fig. 3 shows the structure of the roof waterproofing layer applied by the third embodiment of the roof waterproofing method according to the present invention.

The carbon fibers 400 are not seated on the upper surface of the urethane seal 300 so that the carbon fibers 400 can be fixed to the urethane seal 300 without the separate adhesive tape 420 shown in FIG. (Not shown).

That is, the urethane seal 300 is applied to the upper surface of the mutually abutting bottom sheet 200, the carbon fiber 400 is placed on the upper surface of the urethane seal 300, and then the carbon fiber 400 is covered The carbon fiber 400 can be fixed to the urethane seal 300 as shown in FIG. 3 by further applying the urethane seal 300 so that the urethane seal 300 is attached. When the carbon fiber 400 and the urethane seal 300 are integrally joined together in the process of applying the silica layer 510 or the urethane coating layer 520 or the top coat 530, So that the coupling strength between the two neighboring bottom sheets 200 can be stably secured.

4 shows the structure of the roof waterproofing layer applied by the fourth embodiment of the roof waterproofing method according to the present invention.

When the urethane seal 300 and the carbon fiber 400 are laminated on the upper surface of the adjacent floor sheets 200, the urethane seal 300 is first applied as shown in FIG. 1, The carbon fibers 400 may be laminated on the substrate 300, or the urethane seal 300 may be applied after the carbon fibers 400 are laminated first.

At this time, if the urethane seal 300 is applied while the carbon fiber 400 is simply placed on the bottom sheet 200, there is a possibility that the position of the carbon fiber 400 is changed during the application of the urethane seal 300 The carbon fiber 400 is attached to the bottom sheet 200 by a separate netting tape 410 as shown in FIG. 4 and then the urethane seal 300 is applied on the netting tape 410 Preferably set.

If the tape for attaching the carbon fiber 400 to the bottom sheet 200 is applied as a general tape, the urethane seal 300 may not be stably fixed on the tape. Therefore, The tape to be attached to the tape 200 is preferably applied to the netting tape 410 as shown in this embodiment.

When the carbon fiber 400 is configured to be adhered to the bottom sheet 200 by the netting tape 410, the urethane seal 300 applied on the netting tape 410 penetrates the netting tape 410, The rigidity between the carbon fibers 400 and the netting tape 410 and the urethane seal 300 can be more firmly integrated so that the rigidity between the adjacent two bottom sheets 200 is further improved There is an advantage that it can be.

When the carbon fibers 400 are adhered to the bottom sheet 200 by the netting tape 410 as shown in this embodiment, the contact area between the netting tape 410 and the bottom sheet 200 is sufficiently secured The width of the netting tape 410 is preferably set to be twice or more as large as the width of the carbon fiber 400.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the present invention is not limited to the disclosed exemplary embodiments. It will also be appreciated that many modifications and variations will be apparent to those skilled in the art without departing from the scope of the invention.

10: rooftop floor 110: urethane primer
120: Foundation floor Urethane 200: Floor sheet
300: Urethane seal 400: Carbon fiber
410: mesh tape 420: adhesive tape
510: Silica layer 520: Urethane coating layer
530: Top coat

Claims (6)

delete delete delete (a) sequentially arranging a plurality of floor sheets (200) on a rooftop floor (10);
(b) applying the urethane seal 300 to the upper surface of the area where the adjacent bottom sheets 200 abut against each other;
(c) placing the carbon fiber (400) on the upper surface of the urethane seal (300);
(d) further coating a urethane seal 300 on the upper surface of the urethane seal 300 so as to cover the carbon fiber 400;
(e) applying a silica sand layer (510) mixed with silica and urethane on the top surface of the bottom sheet (200) so as to cover the urethane seal (300) formed to cover the carbon fiber (400);
(f) applying a urethane coating layer (520) on the silica layer (510); And
(g) applying a topcoat 530 onto the urethane coating layer 520; , ≪ / RTI &
Before the step (a), the urethane primer 110 is applied to the top surface of the roof top 10 so as to correspond to the mutual abutment portions of the bottom sheets 200, and then the base bottom urethane 0.0 > (120) < / RTI >
The urethane seal 300, the carbon fiber 400, and the urethane seal 300 are formed at portions where the roof wall and the side edge of the bottom sheet 200 are in contact with each other in the steps (b) to (d) ,
The roof waterproofing method.
(a) sequentially arranging a plurality of floor sheets (200) on a rooftop floor (10);
(b) applying the urethane seal 300 to the upper surface of the area where the adjacent bottom sheets 200 abut against each other;
(c) placing the carbon fiber (400) on the upper surface of the urethane seal (300);
(d) attaching an adhesive tape (420) to the upper surface of the urethane seal (300) so as to cover the carbon fiber (400);
(e) applying a sand paper layer (510) mixed with silica and urethane to the top surface of the bottom sheet (200) so as to cover the adhesive tape (420);
(f) applying a urethane coating layer (520) on the silica layer (510); And
(g) applying a topcoat 530 onto the urethane coating layer 520; , ≪ / RTI &
Before the step (a), the urethane primer 110 is applied to the top surface of the roof top 10 so as to correspond to the mutual abutment portions of the bottom sheets 200, and then the base bottom urethane 0.0 > (120) < / RTI >
The urethane seal 300, the carbon fibers 400, and the adhesive tape 420 are formed at the portions where the roof walls and the side edges of the bottom sheet 200 are in contact with each other in the steps (b) to (d) ,
The roof waterproofing method.
(a) sequentially arranging a plurality of floor sheets (200) on a rooftop floor (10);
(b) placing the carbon fibers (400) on the upper surface of the area where the adjacent bottom sheets (200) abut each other;
(c) attaching the mesh tape 410 to the upper surface of the carbon fiber 400;
(d) applying a urethane seal 300 on the mesh tape 410;
(e) applying a silica sand layer (510) mixed with silica and urethane to the upper surface of the bottom sheet (200) so as to cover the urethane seal (300);
(f) applying a urethane coating layer (520) on the silica layer (510); And
(g) applying a topcoat 530 onto the urethane coating layer 520; , ≪ / RTI &
Before the step (a), the urethane primer 110 is applied to the top surface of the roof top 10 so as to correspond to the mutual abutment portions of the bottom sheets 200, and then the base bottom urethane 0.0 > (120) < / RTI >
The carbon fibers 400, the netting tape 410 and the urethane seal 300 are formed at the portions where the roof walls and the side edges of the bottom sheet 200 are in contact with each other in the steps (b) to (d)
The roof waterproofing method.

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