KR20050056306A - Non-exposure complex waterproofing system of insulating partial block type and construction structure using embossing polyvinyl sheet porous ceramic-thermoplastic resin-asphalt membrane waterproofing material - Google Patents

Abstract

The present invention relates to a partially insulated block-type unexposed composite waterproof layer structure and a composite waterproofing method using an embossed polyvinyl sheet and a porous ceramic thermoplastic resin-based asphalt waterproofing material. The object of the present invention is to intermittently increase the waterproof layer so that the durability of the waterproof layer can be innovatively increased. It is to provide a partially insulating block-type unexposed composite waterproof layer structure and a composite waterproofing method using an embossed polyvinyl sheet that can be partially insulated and a porous ceramic thermoplastic resin-based waterproofing layer.

In order to achieve the above object, the present invention is an asphalt primer layer for adhesion enhancement applied on a concrete slab; An embossed polyvinyl insulating sheet layer which is continuously arranged on the primer layer and has one side overlapped; A string adhesive joint layer made of a porous ceramic thermoplastic resin-based asphalt continuously applied from a portion of the asphalt primer layer to a portion of the overlapping polyvinyl insulating sheets; A first porous ceramic thermoplastic resin asphalt layer which is a coating waterproof layer coated on the polyvinyl insulating sheet layer on the front; A reinforcement layer made of a nonwoven fabric attached to the first porous ceramic thermoplastic resin asphalt layer; A second porous ceramic thermoplastic resin-based asphalt layer which is a coating waterproof layer formed on the reinforcing material layer; The present invention provides a partially insulating block-type unexposed composite waterproof layer structure and a composite waterproof method, which are laminated with a polyvinyl film layer for insulation attached to an upper portion of the second porous ceramic thermoplastic resin-based asphalt layer.

Description

Non-exposure complex waterproofing system of insulating partial block type and construction structure using embossing polyvinyl sheet porous ceramic-thermoplastic resin non-exposure complex waterproofing system of insulating partial block type and construction structure using embossing polyvinyl sheet porous ceramic-thermoplastic resin -asphalt membrane waterproofing material}

The present invention relates to a partially insulated block-type unexposed composite waterproof layer structure and a composite waterproofing method using an embossed polyvinyl sheet and a porous ceramic thermoplastic resin-based asphalt waterproofing material. A method of partially insulating block-type unexposed composite waterproof layer structure using embossed polyvinyl sheet and porous ceramic thermoplastic resin waterproofing material to maintain intermittent waterproofness by fixing sheet-to-sheet joints in a block shape, and its composite waterproofing method will be.

Generally, the sheet waterproofing method is widely used on the roof or underground waterproofing of concrete structures. The sheet waterproofing method is a method that requires tensile and weather resistance by constructing a roll (waterproof sheet) mixed with rubber and asphalt. There is a non-exposed waterproofing method for placing a protective pressed concrete layer, and an exposed waterproofing method for forming an exposed waterproofing layer on a floor concrete layer, and a double and non-exposed waterproofing method is mainly used. The non-exposure waterproofing method is a kind of Menblen waterproofing such as asphalt waterproofing which forms a waterproof layer by pasting synthetic rubber or synthetic resin sheet laminated and molded using synthetic resin as a main raw material using an adhesive of the same system. Such a sheet waterproofing method has a small number of processes, so that construction is simple and uniform quality can be obtained.

However, the sheet waterproofing method is difficult to construct the joint part, so there are many peeling accidents at the joints and ends, and the adhesive is applied as much as the width of the waterproof sheet, resulting in the breakage of the waterproof layer due to cracking or behavior of the base concrete. As a result, there is a problem of leakage or shortening of lifespan, thereby reducing the long-term durability of the structure and increasing the maintenance cost, thereby increasing the economic burden.

The present invention is to solve the above problems, the object is to use an embossed polyvinyl sheet and porous ceramic thermoplastic resin-based asphalt coating waterproofing material which can intermittently partially insulating the waterproof layer to innovatively increase the durability of the waterproof layer. It is to provide a partially insulating block type unexposed composite waterproof layer structure and a composite waterproof technique.

In order to achieve the above object, the present invention insulates and bonds an embossed polyvinyl sheet reinforced with a nonwoven fabric to an asphalt primer on the upper surface of the concrete slab, and clamps the bottom of the sheet by fixing the joint between the base concrete and the sheets in a block shape. Maintaining the water-resistant, the sheet upper surface is reinforced with a porous ceramic thermoplastic resin-based asphalt coating waterproofing coating twice with a polyester non-woven fabric, and then to install an insulating PE film on the top.

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

1 is a conceptual view showing a waterproof layer configuration according to the present invention, Figure 2 is an exemplary view showing a configuration of the embossed polyvinyl sheet according to the present invention, Figure 3 is a conceptual diagram showing the construction of the embossed polyvinyl sheet according to the present invention 4 is a planar view showing a construction state of the embossed polyvinyl sheet according to the present invention, the present invention is an asphalt primer layer (1) for adhesion enhancement applied on a concrete slab, continuous on the primer layer An embossed polyvinyl insulating sheet layer (2) arranged on one side and overlapping with each other, a string adhesive joint layer made of a porous ceramic thermoplastic resin-based asphalt continuously applied from a section of the asphalt primer layer to a section between the overlapping polyvinyl insulating sheets ( 3), a first porous ceramic thermoplastic resin which is a coating film waterproofing layer applied to the entire surface of the polyvinyl insulating sheet layer Asphalt layer 4, a reinforcement layer 5 made of a nonwoven fabric attached to the first porous ceramic thermoplastic resin-based asphalt layer, and a second porous ceramic thermoplastic resin-based asphalt layer 6 which is a coating waterproof layer formed on the reinforcement layer. And a composite waterproof layer structure laminated with the insulating polyvinyl film layer 7 attached to the second porous ceramic thermoplastic resin-based asphalt layer.

The embossed polyvinyl sheet layer 2 is provided with a plurality of polyvinyl sheets 21 having excellent durability in a continuous arrangement. The embossed polyvinyl sheet layer 2 has a thickness of 0.6 to 0.8 mm, and a polyester nonwoven fabric is formed on the upper portion to increase adhesion to asphalt. As shown in Fig. 2, the φ15 mm embossing 22 maintains a 5 mm interval and a plurality of continuous arrays are arranged so that air in the ground is dispersed.

The string adhesive layer 3 connects one side of the embossed polyvinyl sheet and another embossed polyvinyl sheet adjacent thereto, and connects the embossed polyvinyl sheet to the base surface, and the overlapping portion of the embossed polyvinyl sheet and connected thereto. It is formed by continuous coating a porous ceramic thermoplastic resin asphalt on the base surface.

In addition, the embossed polyvinyl sheet layer is coated with a porous ceramic thermoplastic resin asphalt between the central portion and the base surface of the embossed polyvinyl sheet to form a central string adhesive layer 31, the central portion of the embossed polyvinyl sheet by the central string adhesive layer Can be bonded.

The porous ceramic thermoplastic resin-based asphalt is composed of styrene butadiene styrene resin (SBS), a thermoplastic resin, a porous ceramic and straight asphalt, and a rubber plasticizer, coumarone indene resin, an antioxidant, an antioxidant, and the like are added thereto.

The styrene butadiene styrene resin is a synthetic rubber obtained by copolymerizing butadiene and styrene, and has excellent chemical resistance, aging resistance, weather resistance, abrasion resistance, and heat resistance as compared with natural rubber.

The porous ceramic enhances the thermal insulation effect, and has a specific gravity of 0.6-0.8, and has excellent flowability and low oil absorption, excellent electrical properties, and high melting point (1200-1600 ° C).

The insulation polyvinyl film (PE) is the stress caused by the temperature difference of the pressed concrete layer or the cracking caused by the concentrated stress and the dynamic part by the movement of the vehicle by dispersing and mitigating stress when the load is directly or indirectly transferred to the waterproof layer It serves to reduce the fatigue of the water-proof coating layer and to extend the service life, and has a thickness of about 0.1 mm, and is installed on the secondary porous ceramic thermoplastic resin-based asphalt to insulate the pressed concrete.

That is, when the present invention is to be installed on the concrete slab base surface of the rooftop or underground, first remove the foreign matter on the concrete slab base surface, and apply the asphalt primer to the waterproof base surface to form an asphalt primer layer, the formed asphalt primer Embossed polyvinyl sheet layers are formed by installing a plurality of embossed polyvinyl sheets by the porous ceramic thermoplastic resin asphalt for jointing so as to be positioned above the layer, and the first porous by applying the ceramic thermoplastic resin asphalt to the formed embossed polyvinyl sheet layer in front. A ceramic thermoplastic resin asphalt layer is formed. The non-woven fabric is formed on the first porous ceramic thermoplastic resin-based asphalt layer formed as described above to form a reinforcement layer, and the second porous ceramic thermoplastic resin-based asphalt layer is formed by applying the porous ceramic thermoplastic resin-based asphalt layer on the formed reinforcement layer again. After that, the insulating polyvinyl (PE) film is formed on the second porous ceramic thermoplastic resin-based asphalt layer formed thereon.

As shown in FIGS. 3 and 4, the plurality of embossed polyvinyl sheets have one side of the embossed polyvinyl sheet and another embossed polyvinyl sheet adjacent thereto while maintaining a constant width of about 5 to 10 cm and one side of each other overlapping each other. To be installed. That is, the embossed polyvinyl sheet layer is provided with a plurality of embossed polyvinyl sheets overlapping with a width of 5 to 10 cm. A nonwoven fabric is attached to the upper surface of the insulating embossed polyvinyl sheet by thermal fusion.

In addition, the embossed polyvinyl sheet layers provided to overlap each other with the width of 5 to 10 cm are bonded to each other by thermoplastic resin-based asphalt. The embossed polyvinyl sheet layers are roughly applied to the asphalt primer layer to improve the adhesive force between the embossed polyvinyl sheet layer and the asphalt primer layer. The thermoplastic resin-based asphalt is applied to a width of 5 to 10 cm to thereby bond the embossed polyvinyl sheet layer. That is, the embossed polyvinyl sheet is connected / installed to the neighboring polyvinyl sheet and the base surface by the connection portion of the string adhesive joint layer, and the connection portion of the string adhesive joint layer is one polyvinyl sheet and the neighboring polyvinyl sheet. It consists of a thermoplastic resin asphalt applied to the overlapped portion (about 5 to 10 cm) and a thermoplastic resin asphalt applied to the asphalt primer layer connected to about 5 to 10 cm in width, It is preferable that the width (sum of the overlapping portion of one side of the embossed polyvinyl sheet and the portion applied to the asphalt primer layer connected thereto) is 14 to 16 cm.

In addition, it is preferable that the first and second porous ceramic thermoplastic resin asphalt layers each have a thickness of about 1 to 2 mm.

Hereinafter, a preferred embodiment of the composite waterproof method for constructing a composite waterproof layer structure according to the present invention will be described for each step.

When using the present invention configured as described above to form a waterproof layer on the building roof or basement,

First, the first step of checking the concrete slab base surface condition, cleaning foreign matters, etc. to clean up the base surface;

A second step of applying an adhesion-enhancing asphalt primer to a waterproof base surface using a brush or a roller (0.3 L / m 2);

A third step of applying a porous ceramic thermoplastic resin-based asphalt for joints at a portion of 1 to 3 mm in a portion of the asphalt primer layer when the solvent of the adhesion-enhancing asphalt primer is volatilized;

A fourth step of cutting the lower insulating embossed polyvinyl sheet having a thickness of 0.7 mm and installing it on the porous ceramic thermoplastic resin-based asphalt surface applied to the base surface and a part section in a state where the nonwoven fabric surface is visible on the upper side;

The porous ceramic thermoplastic resin asphalt is spread on the both ends of the installed embossed polyvinyl sheet to maintain a width of 7 cm on both sides, and another neighboring embossed polyvinyl sheet is overlapped by the width coated with the porous ceramic thermoplastic resin asphalt. A fifth step of installing;

A sixth step of pressing the joint using a pressing roller before the porous ceramic thermoplastic resin-based asphalt for joints positioned between the embossed polyvinyl sheets is cured;

The embossed polyvinyl sheet positioned at the upper side was rolled in the longitudinal direction and connected to the porous ceramic thermoplastic resin-based asphalt for joints of 7 cm, and the porous ceramic thermoplastic resin-based asphalt was applied to the base surface such that the total coating width was 15 cm. A seventh step of returning the folded sheet to its original position and pressing it with a pressing roller;

An eighth step of forming the embossed polyvinyl sheet layer by repeating the fifth and sixth steps successively;

A ninth step of forming a first porous ceramic thermoplastic resin asphalt layer having a thickness of 1 to 2 mm by completely applying the porous ceramic thermoplastic resin asphalt from an edge of the formed embossed polyvinyl sheet layer;

A tenth step of installing a reinforcement layer made of a nonwoven fabric on the formed first porous ceramic thermoplastic resin-based asphalt layer;

An eleventh step of forming a second porous ceramic thermoplastic resin-based asphalt layer having a thickness of 1 to 2 mm by completely applying the porous ceramic thermoplastic resin-based asphalt again on the installed reinforcement layer;

By installing an insulating PE film on top of the formed secondary porous ceramic thermoplastic resin-based asphalt layer, the composite waterproof layer structure is formed through a twelfth step of insulating the pressed concrete.

As described above, the present invention is to partially bond the polyvinyl sheet designed with the reinforced embossing pattern having excellent durability and heat resistance by the porous ceramic thermoplastic resin asphalt, so as to secure the thickness of the coating waterproofing material, reinforce the physical strength, and manage the field quality. It is easy to prevent the destruction of the waterproof layer by mitigating the influence of the base layer, and increasing the response to the behavior of the base layer.

In addition, a reinforcing material (non-woven fabric) is installed to improve tensile tear strength and crack followability, and effectively compensate for the joint fracture problem, which is a problem of sheet waterproofing.

In addition, a plurality of polyvinyl sheet is a joint seal sealing process and the line adhesion with the base, it is possible to partially repair in case of water leakage accident, thereby maintaining intermittent waterproofness, there are many effects.

1 is a conceptual view showing a waterproof layer configuration according to the present invention

Figure 2 is an exemplary view showing the configuration of an embossed polyvinyl sheet according to the present invention

3 is a conceptual view showing the construction of the embossed polyvinyl sheet according to the present invention

Figure 4 is a plan view showing a construction state of the embossed polyvinyl sheet according to the present invention

* Explanation of symbols for main parts of the drawings

(1): asphalt primer layer (2): embossed polyvinyl sheet layer

(3): file adhesive layer 31: center file adhesive layer

(4): first porous ceramic thermoplastic resin asphalt layer

(5): reinforcement layer

(6): second porous ceramic thermoplastic resin asphalt layer

(7): polyvinyl film layer for insulation (100): concrete slab base surface

(200): insulation (300): pressed concrete

400: overlap processing unit 500: block seal processing method

Claims (10)

Adhesion primer asphalt primer layer applied on the concrete slab; An embossed polyvinyl insulating sheet layer which is continuously arranged on the primer layer and has one side overlapped; A string adhesive joint layer made of a porous ceramic thermoplastic resin-based asphalt continuously applied from a portion of the asphalt primer layer to a portion of the overlapping polyvinyl insulating sheets; A first porous ceramic thermoplastic resin asphalt layer which is a coating waterproof layer coated on the polyvinyl insulating sheet layer on the front; A reinforcement layer made of a nonwoven fabric attached to the first porous ceramic thermoplastic resin asphalt layer; A second porous ceramic thermoplastic resin-based asphalt layer which is a coating waterproof layer formed on the reinforcing material layer; Partially insulating block-type unexposed composite waterproof layer structure, characterized in that the stack is formed of an insulating polyvinyl film layer attached on the second porous ceramic thermoplastic resin-based asphalt layer. The method of claim 1; The partially embossed polyvinyl sheet is a partially insulated block-type unexposed composite waterproof layer structure, wherein a plurality of φ 12-18 mm embossings are spaced 3-8 mm apart and arranged in series. The method of claim 1; The partially embossed polyvinyl sheet has a thickness of 0.6 to 0.8 mm. The method of claim 1, further comprising: Partially insulating block-type unexposed composite waterproof layer structure, characterized in that the polyester non-woven fabric is heat-sealed on the embossed polyvinyl sheet. The method of claim 1; The embossed polyvinyl sheet layer is partially insulating block-type unexposed composite waterproof layer structure, characterized in that one side embossed polyvinyl sheet and another neighboring embossed polyvinyl sheet is installed overlapping 5 to 10 cm in width. The method of claim 1; The partially bonded block-type unexposed composite waterproofing layer structure, wherein the string adhesive layer maintains a width of 14 to 16 cm. The method of claim 1; The first and second porous ceramic thermoplastic resin-based asphalt layers each have a thickness of 1 to 2 mm, wherein the partially insulating block type unexposed composite waterproof layer structure. A first step of checking a concrete slab base surface state, cleaning foreign matters, and arranging the base surface; A second step of applying the adhesion primer asphalt primer to the waterproof base surface using a brush or roller; A third step of applying a porous ceramic thermoplastic resin-based asphalt joint for a portion of the asphalt primer layer when the solvent of the adhesion-enhancing asphalt primer is volatilized; A fourth step of cutting the lower insulating embossed polyvinyl sheet and installing it on the porous ceramic thermoplastic resin-based asphalt surface applied to the base surface and a part section in a state where the nonwoven fabric surface is visible on the upper side; Spreading the porous ceramic thermoplastic resin-based asphalt to maintain a predetermined width at the end of the installed embossed polyvinyl sheet, and installing another neighboring embossed polyvinyl sheet overlapped by the width coated with the porous ceramic thermoplastic resin-based asphalt; step; A sixth step of pressing the joint using a pressing roller before the porous ceramic thermoplastic resin-based asphalt for joints located between the embossed polyvinyl sheets is cured; The embossed polyvinyl sheet positioned on the upper side is rolled in the longitudinal direction, and then the porous ceramic thermoplastic resin asphalt is coated on the base surface so as to be connected to the porous ceramic thermoplastic resin asphalt joint applied by the sixth step. A seventh step of pressing the pressing roller; An eighth step of forming the embossed polyvinyl sheet layer by repeating the fifth to seventh steps successively; A ninth step of forming a first porous ceramic thermoplastic resin asphalt layer by completely applying the porous ceramic thermoplastic resin asphalt from an edge of the formed embossed polyvinyl sheet layer; A tenth step of installing a reinforcement layer made of a nonwoven fabric on the formed first porous ceramic thermoplastic resin-based asphalt layer; An eleventh step of forming a second porous ceramic thermoplastic resin-based asphalt layer by completely applying the porous ceramic thermoplastic resin-based asphalt again on the installed reinforcement layer; Partially insulated block-type non-exposure composite waterproof method comprising the twelfth step of insulating the pressed concrete by installing an insulating PE film on top of the secondary porous ceramic thermoplastic resin-based asphalt layer formed. The method of claim 8; The polyvinyl sheet is partially insulated block-type non-exposure composite waterproofing method, characterized in that the adhesive is bonded to another neighboring polyvinyl sheet and the base surface partially by a porous ceramic thermoplastic resin-based asphalt for joint. The method of claim 8; The embossed polyvinyl sheet is coated with a thermoplastic resin asphalt 5-10 cm in the overlapping portion of one side of the polyvinyl sheet and the neighboring polyvinyl sheet, the thermoplastic resin asphalt 5-10 cm to the asphalt primer layer connected thereto. Partial insulating block type, characterized in that the thermoplastic resin-based asphalt is applied so as to have a width, and the width of the overlapped portion of the one-side embossed polyvinyl sheet and the portion applied to the asphalt primer layer connected to the 14-16 cm Non-exposure combined waterproof method.