KR102211667B1 - Waterproof system using double-separated overlapping composite sheet - Google Patents

Abstract

The present invention relates to a waterproof system using double-separated overlapping type composite sheets, which allows a compound layer and a wing part of a reinforcement layer to be connected in an overlapping shape so as to be doubly separated and overlap each other by self-adhesive sheets, thereby highly improving bonding strength and waterproof properties of a joint and fundamentally preventing plant roots from penetrating by a root-proof copper thread mesh exposed between overlapping parts of the compound layer. To this end, the waterproof system includes an adhesive seal layer (10), a compound layer (20), a reinforcement layer (30), a urethane layer (40), a finishing layer (100), and upward and downward self-adhesive sheets (200, 200′).

Description

Waterproof system using double-separated overlapping composite sheet}

The present invention relates to a waterproof system using a double-separated overlapping type composite sheet, and more specifically, the wing portions of the compound layer and the reinforcing layer are separated in double and connected in an overlapping type so that they are overlapped with each other by a self-adhesive sheet, so that the joint strength of the connection part And it relates to a waterproof system using a double-separated overlapping composite sheet in which the waterproofing property is highly improved, and in particular, the penetration of plant roots is fundamentally blocked by the anti-fog mesh exposed between the overlapping portions of the compound layer.

In general, waterproofing accounts for a larger proportion in the construction field than in the civil engineering field, and most of the waterproofing work in the construction field in particular places weight on the exposed part of the roof. Such waterproofing is an important process that directly affects the durability and service life of the building in the field of construction and civil engineering, but in practice, there is a tendency that awareness of its role is very low due to the cost aspect.

For example, the exposed waterproofing method including rooftop waterproofing and the non-exposed waterproofing method used for rooftop greening must take into account that the waterproof layer is directly exposed to the external environment and leakage occurs due to different behaviors due to temperature differences, so the construction method is gradually complicated. Construction costs and construction costs increase significantly as they are built.

Accordingly, in Patent Publication No. 10-2010-0066335 disclosed in the prior art, a waterproof sheet for waterproofing the surface by bonding to a base surface, comprising: a conventional waterproofing layer having a predetermined area and preventing water penetration; A technology including an adhesive layer that is provided on the lower surface of the waterproof layer and generates heat by high frequency is mixed and distributed as a whole to gel when heating the heating element to enhance adhesion has been previously proposed.

However, the prior art has a structural characteristic in which a heating element that generates heat by a high frequency inside the adhesive layer or a waterproof sheet consisting of a heating layer is adhered to the base surface, so when it is overlapped on an existing waterproof layer, it is easily separated with the existing waterproof layer. It had to be applied after demolition, and this delayed the construction period.In particular, partial repair was not possible in the event of leakage due to some poor adhesion of the waterproof sheet connection after construction, resulting in the obstruction of reconstruction of a wide range of areas.

Accordingly, the present invention was conceived to solve the above problems, and as the wing portions of the compound layer and the reinforcing layer are double-separated and connected in an overlapping manner so as to be overlapped with each other by a self-adhesive sheet, the bonding strength and waterproofness of the connection portions are highly improved. In particular, its purpose is to provide a waterproof system using a double-separated overlapping composite sheet in which the penetration of plant roots is fundamentally blocked by the anti-fog mesh exposed between the overlapping portions of the compound layer.

In order to achieve this object, a characteristic of the present invention is an adhesive seal layer 10 applied to a concrete base surface 1 to form an adhesive line; A compound layer (20) formed of at least one or more sheets of a butyl rubber sheet, an asphalt sheet, an asphalt mixed butyl sheet, and a fiber mixed butyl chic, and the adhesive seal layer 10 is bonded at both ends thereof; A reinforcing layer 30 bonded on the compound layer 20 and formed of at least one of a PE sheet, a PVC sheet, and a nonwoven fabric; A finishing layer 100 coated on the upper surface of the reinforcing layer 30 and formed of at least one of a urethane layer 40, a top coating layer 42, and a mortar layer 50; The reinforcing layer 30 includes wing portions 32 formed open in a non-adhesive state at both ends of the compound layer 20; And upper and downward self-adhesive adhesive sheets 200 and 200 ′ formed on the bottom surface of the reinforcing layer 30 and the upper surface of the compound layer 30 corresponding to the wing part 32.

At this time, the compound layer 20 is overlapped so that the ends are overlapped and adhered to each other by an upward self-adhesive adhesive sheet 200, and the upper wing 32 is overlap-connected to overlap each other and a downward self-adhesive adhesive sheet ( 200').

In addition, the wing portion 32 at one end of the compound layer 20 is formed shorter than the compound layer 20, and the wing portion 32 at the other end is formed longer than the compound layer 20, and the compound layer 20 ) Is connected so that the ends overlap each other and is adhered by an upward self-adhesive adhesive sheet 200, and a downward self-adhesive adhesive sheet 200 ′ of the wing portion 32 formed longer than the compound layer 20 on the upper side is adjacent The wing portion is adhered to the upward self-adhesive adhesive sheet 200 of the compound layer 20, and the downward self-adhesive adhesive sheet 200 ′ of the wing portion 32 formed shorter than the compound layer 20 on the upper portion thereof is adjacent (32) It characterized in that it is provided to be adhered to the upper surface.

In addition, when the reinforcing layer 30 is formed of any one or more of a PE sheet and a PVC sheet, a heat insulating layer 34 made of bubbles or voids is formed therein.

In addition, it is characterized in that the heat insulating particles 35 including carbonized rice husk powder and slag powder are filled in the heat insulating layer 34 of the reinforcing layer 30.

In addition, the reinforcing layer 30 is formed of upper and lower film papers 30A and 30B, and a reinforcing mesh 31 is integrally provided between the upper and lower film papers 30A and 30B, and the reinforcing mesh 31 ) Is characterized in that it is formed of a synthetic resin yarn or a verb for room roots.

In addition, the reinforcing mesh 31 is characterized in that the heat insulating particles 35 including carbonized rice husk powder and slag powder are impregnated or adhesively coated on the outer peripheral surface of the reinforcing mesh 31.

In addition, when the reinforcing layer 30 is formed including a nonwoven fabric, it is characterized in that it is provided so that the brushed protrusion is formed on the surface of the nonwoven fabric.

In addition, when the upper portion of the reinforcing layer 30 is finished with the urethane layer 40, a barrier sheet 39 is installed between the reinforcing layer 30 and the urethane layer 40, and the barrier sheet 39 is a reinforcing layer adjacent to each other. (30) It characterized in that it is provided to close the end locally.

In addition, the compound layer 20 is provided with a verb mesh 70 for rooting, and the verb mesh 70 for rooting is exposed to both ends of the compound layer 20 so that the first and second extension parts 70a and 70b And the first extension part 70a is bent in a'b' shape so as to be interviewed on the upper surface of the compound layer 20, and the second extension part 70b is'b' so as to be interviewed on the bottom surface of the compound layer 20 It is bent in a shape and is constructed so that the first and second extension parts 70a and 70b contact each other when the end of the compound layer 20 is overlapped and connected.

In addition, the compound layer 20 is provided with a verb mesh 70 for root prevention, and the root root mesh 70 is exposed to the top at a position adjacent to one end of the compound layer 20 to extend horizontally. An extension part 70a and a second extension part 70b extending horizontally by being exposed downward at a position adjacent to the other end of the compound layer 20 are formed, and when overlapping the end of the compound layer 20 It is characterized in that the construction is constructed so that the first and second extension parts 70a and 70b are in contact with each other.

In addition, the anti-barbe mesh 70 is woven in a network structure using a metal wire (T) made up of a bundle of a plurality of wires (T1), and a part of the wire (T1) of the metal wire (T) is cut to form a mesh eye. It is characterized in that it is provided so that the verb strands (T1) are distributed and arranged in the inner space.

In addition, a (+) electrode is connected to the root-proof verb mesh 70 of the adjacent one side compound layer 20, and a (-) electrode is connected to the root-proof verb mesh 70 of the other compound layer 20. By connecting, it is characterized in that it is provided to join the portions in which the first and second extension portions 70a and 70b are in contact with each other by arc welding.

According to the above configuration and operation, the present invention is a compound layer and the reinforcing layer wing portions are separated in double and connected in an overlapping type so that they are overlapped with each other by a self-adhesive adhesive sheet, the bonding strength and waterproofness of the connecting portion are highly improved, and in particular, the compound layer overlapping It has the effect of fundamentally blocking the penetration of plant roots by the root-proof verb mesh that is exposed through the part.

1 is a block diagram showing an overall waterproof system using a double-separated overlapping composite sheet according to an embodiment of the present invention.
2 is a block diagram showing an exposed waterproof construction state of a waterproof system using a double-separated overlapping composite sheet according to an embodiment of the present invention.
3 is a block diagram showing a non-exposed waterproof construction state of a waterproof system using a double-separated overlapping composite sheet according to an embodiment of the present invention.
4 is a block diagram showing a reinforcing layer of a waterproof system using a double-separated overlapping composite sheet according to an embodiment of the present invention.
5 to 6 are configuration diagrams showing the connection structure of a waterproof system using a double-separated overlapping composite sheet according to an embodiment of the present invention.
7 is a block diagram showing the verb strands of the verb mesh for the waterproof system using a double-separated overlapping composite sheet according to an embodiment of the present invention.

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

1 is a block diagram showing a waterproof system using a double-separated overlapping composite sheet according to an embodiment of the present invention.

The present invention relates to a waterproof system using a double-separated overlapping type composite sheet, which is connected in an overlapping type so that the wing portions of the compound layer and the reinforcing layer are double separated and bonded to each other by a self-adhesive sheet. It is highly improved, and in particular, an adhesive seal layer 10, a compound layer 20, a reinforcing layer 30, and a urethane layer 40 so that the penetration of plant roots can be fundamentally blocked by the anti-root mesh exposed between the overlapping portions of the compound layer. The finishing layer 100, the upper and lower self-adhesive adhesive sheets 200, 200' consists of the main components.

The adhesive seal layer 10 according to the present invention is applied to the concrete base surface 1 to form an adhesive line. The adhesive seal layer 10 is applied in a strip shape at a position corresponding to the end of the compound layer 20 to be described later.

In addition, the compound layer 20 according to the present invention is formed of at least one of a butyl rubber sheet, an asphalt sheet, an asphalt mixed butyl sheet, and a fibrous mixed butyl sheet, and both ends are bonded to the adhesive seal layer 10. . The compound layer 20 covers the base surface 1 in a fixed state by the adhesive seal layer 10.

In addition, the compound layer 20 is connected so as to have overlapping portions (connection portions) with each other in the width direction, wherein the overlapping portion is interlocked so that the compound layer 20 and the reinforcing layer 30 to be described later are alternately interlocked to each other, 20) The unity between them is improved.

In addition, the reinforcing layer 30 according to the present invention is bonded on the compound layer 20 and formed of at least one or more sheets of PE and PVC. The reinforcing layer 30 is integrally bonded to the compound layer 20 and reinforces the durability of the compound layer 20 and protects the base surface 1 from the external environment.

On the other hand, when the reinforcing layer 30 is formed of PE, it may be formed by mixing recycled PE powder or recycled PE powder.

At this time, the reinforcing layer 30 is formed of at least one sheet of a general PE or PVC film as shown in FIG. 4 (a), or an insulating layer 34 made of bubbles or voids inside the reinforcing layer 30 as shown in FIG. 4 (b). ) Is formed, or the heat insulating particles 35 made of at least one of carbonized rice husk powder and slag powder are filled inside the heat insulating layer 34 of the reinforcing layer 30 as shown in FIG. 4 (c), or FIG. 4 (d) ), the reinforcing layer 30 is formed of upper and lower film papers 30A and 30B, and a reinforcing mesh 31 is integrally provided between the upper and lower film papers 30A and 30B, and the reinforcing mesh 31 Is formed of synthetic resin yarn or anti-corrosive verb, or heat-insulating particles 35 including carbonized rice husk powder and slag powder are impregnated or adhesively coated on the outer circumferential surface of the reinforcing mesh 31 as shown in FIG. 4 (e).

In this way, the insulation layer 34 and the insulation particles 35 formed inside the reinforcing layer 30 improves insulation, thereby protecting the base surface 1 from being thermally protected, thereby improving the cooling and heating efficiency inside the building in winter and summer. In addition, by protecting the compound layer 20 from changes in external temperature, changes in physical properties are delayed.

In addition, the finishing layer 100 according to the present invention is coated on the upper surface of the reinforcing layer 30, and is formed of at least one of a urethane layer 40, a top coating layer 42, and a mortar layer 50. At this time, when the finishing layer 100 is constructed in a non-exposed type, a mortar layer 50 is formed on the upper surface, and in the exposed type construction, a urethane layer 40 and a top coating layer 42 are installed on the upper surface.

Herein, the top coating layer 42 is a photocatalytic active layer containing titanium dioxide, and is directly exposed to the external environment while protecting the surface of the waterproof sheet 10, and is a volatile organic compound due to photocatalytic activity by titanium dioxide having an anatase crystal structure. VOCs) and odor purification, hardly degradable pollutants, and environmental hormones are removed, and fine dust is removed and carbon dioxide is oxygenated due to the decomposition of nitrogen compounds.

In addition, in the wing part 32 according to the present invention, the reinforcing layer 30 is formed open in a state where both ends of the compound layer 20 are not adhered. That is, the wing part 32 is formed in partial sections of both ends of the reinforcing layer 30.

In addition, the upper and lower self-adhesive adhesive sheets 200 and 200 ′ according to the present invention are formed on the lower surface of the reinforcing layer 30 and the upper surface of the compound layer 30 corresponding to the wing part 32. At this time, the upward self-adhesive adhesive sheet 200 is formed on the upper surface of the compound layer 30, and the downward self-adhesive adhesive sheet 200 ′ is formed on the lower surface of the wing 32.

In addition, by separating the release paper on the upper and lower self-adhesive adhesive sheets 200 and 200 ′ and joining the wing parts 32 and the compound layer 30 to alternately overlap each other, the field workability is improved, and unskilled workers The bonding process is made quickly.

In FIG. 2, the compound layer 20 is overlapped so that the ends overlap each other and adhered by an upward self-adhesive sheet 200, and the upper wing 32 is overlapped and connected to overlap each other. It is provided to be adhered by the sheet 200'.

In FIG. 3, the wing portion 32 at one end of the compound layer 20 is formed shorter than the compound layer 20, and the wing portion 32 at the other end is formed longer than the compound layer 20, and the compound layer (20) is a downward self-adhesive adhesive sheet 200 ′ of the wing portion 32 formed longer than the compound layer 20, which is overlapped so that the ends are overlapped and bonded by an upward self-adhesive adhesive sheet 200 Is adhered to the upward self-adhesive adhesive sheet 200 of the adjacent compound layer 20, and a downward self-adhesive adhesive sheet 200 ′ of the wing portion 32 formed shorter than the compound layer 20 on the upper side is adjacent It is provided to be adhered to the upper surface of the wing portion 32.

In this way, the compound layer 20 and the reinforcing layer 30 are overlapped and connected to each other so that the adhesive area is enlarged, and the connection part airtightness is improved by a multilayer waterproof structure composed of the compound layer 20, the reinforcing layer 30, and the finishing layer 100. There is a highly improved advantage.

In addition, when the reinforcing layer 30 is formed including a non-woven fabric, it is provided so that the brushing protrudes on the surface of the non-woven fabric. Accordingly, when the finishing layer 100 formed of the urethane layer 40 is installed on the reinforcing layer 30, the bonding strength of the urethane layer 40 is improved by raising the surface of the nonwoven fabric, and the urethane layer 40 is lifted after construction. And tearing is prevented.

In FIG. 3, when the upper part of the reinforcing layer 30 is finished with the urethane layer 40, an anti-corrosion sheet 39 is installed between the reinforcing layer 30 and the urethane layer 40, and the anti-corrosion sheets 39 are adjacent to each other. It is provided to locally close the end of the reinforcing layer 30. In the room-proof sheet 39, when the company is embedded in the interior, the complex system is constructed in a non-exposed manner to create a green space, preventing the penetration of plant roots (return-proof function).

In FIG. 5, the compound layer 20 is provided with a verb mesh 70 for root roots, and the verb mesh 70 for root roots is exposed to both ends of the compound layer 20 so that the first and second extension portions 70a ( 70b), and the first extension part 70a is bent in a'b' shape to be interviewed on the upper surface of the compound layer 20, and the second extension part 70b is formed to be interviewed on the bottom surface of the compound layer 20. It is bent in a'b' shape and is constructed so that the first and second extension parts 70a and 70b contact each other when the end of the compound layer 20 is overlapped and connected.

In FIG. 6, the compound layer 20 is provided with a verb mesh 70 for root roots, and the verb mesh 70 for root roots is exposed upward from a position adjacent to one end of the compound layer 20 to extend horizontally. A first extension part 70a and a second extension part 70b extending horizontally by being exposed downward at a position adjacent to the other end of the compound layer 20 are formed, and the ends of the compound layer 20 are overlapped and connected. It is constructed so that the first and second extension parts 70a and 70b are in contact with each other.

Accordingly, as shown in FIGS. 5 to 6, in a section in which the compound layer 20 is overlapped, the first and second extension portions 70a and 70b are in contact with each other in an exposed state, so that the penetration of the root is tightly blocked.

In addition, a (+) electrode is connected to the root-proof verb mesh 70 of the adjacent one side compound layer 20, and a (-) electrode is connected to the root-proof verb mesh 70 of the other compound layer 20. By connecting, the first and second extension portions 70a and 70b are provided to join each other by arc welding.

That is, after the compound layer 20 is overlapped, the (+) electrode of the arc welding machine is connected to the root-proof verb mesh 70 of one compound layer 20, and the other compound layer 20 is used for access. When power is supplied by connecting the negative electrode of the arc welding machine to the verb mesh 70, the first and second extension portions 70a and 70b are melt-bonded.

Accordingly, the bonding strength of the compound layer 20 is highly improved as the compound layer 20 is overlapped and connected to each other by the first and second extension parts 70a and 70b, and the compound layer 20 is a part where the compound layer 20 is overlapped and connected. Infiltration is blocked at the source.

In FIG. 7, the verb mesh 70 is woven in a network structure using a metal wire (T) made of a bundle of a plurality of verb strands (T1), and partially cuts the verb strand (T1) of the metal wire (T). It is provided so that the strands T1 are distributed and arranged in the inner space of the mesh eye.

Therefore, even if the mesh eye is formed by widening the gap between the metal wires (T) constituting the anti-corrosion mesh 70, the mesh eye is closed by the fiber strand (T1), so that the total area of the compound layer 20 It improves the performance of the room.

10: adhesive seal layer 20: compound layer
30: reinforcing layer 40: urethane layer
100: finishing layer 200, 200': top, bottom self-adhesive sheet

Claims (13)

An adhesive seal layer 10 applied to the concrete base surface 1 to form an adhesive line;
A compound layer (20) formed of at least one or more sheets of a butyl rubber sheet, an asphalt sheet, an asphalt mixed butyl sheet, and a fiber mixed butyl chic, and the adhesive seal layer 10 is bonded at both ends thereof;
A reinforcing layer 30 bonded on the compound layer 20 and formed of at least one of a PE sheet, a PVC sheet, and a nonwoven fabric;
A finishing layer 100 coated on the upper surface of the reinforcing layer 30 and formed of at least one of a urethane layer 40, a top coating layer 42, and a mortar layer 50;
The reinforcing layer 30 includes wing portions 32 formed open in a non-adhesive state at both ends of the compound layer 20; And
Including; upper and lower self-adhesive adhesive sheets 200 and 200 ′ formed on the bottom surface of the reinforcing layer 30 and the upper surface of the compound layer 30 corresponding to the wing part 32,
The wing portion 32 at one end of the compound layer 20 is formed shorter than the compound layer 20, and the wing portion 32 at the other end is formed longer than the compound layer 20, and the compound layer 20 is A compound adjacent to the downward self-adhesive adhesive sheet 200 ′ of the wing portion 32 formed longer than the compound layer 20, which is overlapped and connected so that the ends are overlapped with each other and adhered by the upward self-adhesive adhesive sheet 200 It is adhered to the upward self-adhesive adhesive sheet 200 of the layer 20, and a downward self-adhesive adhesive sheet 200 ′ of the wing portion 32 formed shorter than the compound layer 20 on the upper portion thereof is adjacent to the wing portion 32 ) Waterproof system using a double-separated overlapping composite sheet, characterized in that provided to be adhered to the upper surface. delete delete The method of claim 1,
When the reinforcing layer 30 is formed of any one or more of a PE sheet and a PVC sheet, a waterproof system using a double-separated overlapping composite sheet, characterized in that an insulating layer 34 formed of bubbles or voids is formed therein. The method of claim 4,
Waterproof system using a double-separated overlapping type composite sheet, characterized in that the heat-insulating particles (35) including carbonized rice husk powder and slag powder are filled in the heat-insulating layer (34) of the reinforcing layer (30). The method of claim 1,
The reinforcing layer 30 is formed of upper and lower film papers 30A and 30B, and a reinforcing mesh 31 is integrally provided between the upper and lower film papers 30A and 30B, and the reinforcing mesh 31 is A waterproof system using a double-separated overlapping composite sheet, characterized in that it is formed of synthetic resin yarn or anti-corrosive yarn. The method of claim 6,
Waterproof system using a double-separated overlapping type composite sheet, characterized in that the heat insulating particles (35) including carbonized rice husk powder and slag powder are impregnated or adhesively coated on the outer circumference of the reinforcing mesh (31). The method of claim 1,
The reinforcing layer 30 is formed including a non-woven fabric, and a waterproof system using a double-separated overlapping composite sheet, characterized in that it is provided to protrude from the surface layer of the non-woven fabric. The method of claim 1,
When the upper part of the reinforcing layer 30 is finished with the urethane layer 40, a damping sheet 39 is installed between the reinforcing layer 30 and the urethane layer 40, and the damping sheet 39 is a reinforcing layer 30 adjacent to each other. ) Waterproof system using a double separation overlapping type composite sheet, characterized in that provided to close the end locally. The method of claim 1,
The compound layer 20 is provided with a verb mesh 70 for root prevention, and the root root mesh 70 is exposed to both ends of the compound layer 20 to form first and second extension parts 70a and 70b. And, the first extension (70a) is bent in a'b' shape to be interviewed on the upper surface of the compound layer 20, and the second extension (70b) is a'b' shape to be interviewed on the bottom surface of the compound layer 20 A waterproof system using a double-separated overlapping composite sheet, which is bent and constructed so that the first and second extensions (70a) (70b) are in contact with each other when the end of the compound layer (20) is overlapped and connected. The method of claim 1,
The compound layer 20 is provided with a verb mesh 70 for rooting, and the root root mesh 70 is exposed to the top at a position adjacent to one end of the compound layer 20 to extend horizontally. (70a) and a second extension portion (70b) that is exposed downward at a position adjacent to the other end of the compound layer (20) and extends horizontally is formed, and when the end of the compound layer (20) is overlapped and connected, the first, Waterproof system using a double separation overlapping type composite sheet, characterized in that the two extensions (70a) (70b) are constructed to contact each other. The method of claim 10 or 11,
The verb mesh 70 is woven in a network structure using a metal wire (T) made up of a bundle of a plurality of verb strands (T1), and partially cuts the verb strand (T1) of the metal wire (T) to form a mesh inner space. As a waterproof system using a double-separated overlapping composite sheet, characterized in that it is provided so that the company strands (T1) are distributed and arranged. The method of claim 10 or 11,
By connecting the (+) electrode to the verb mesh 70 for rooting of one of the adjacent compound layer 20, and connecting the (-) electrode to the verb mesh 70 for rooting of the other compound layer 20 , Waterproof system using a double-separated overlapping composite sheet, characterized in that the first and second extensions (70a) (70b) are provided to join each other by arc welding.

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