KR101005542B1 - Multi functional composite sheet for building and waterproofing structure using the same - Google Patents

Abstract

PURPOSE: A multifunctional adiabatic waterproof composite sheet and a complex waterproofing structure using the same are provided to improve waterproof and adiabatic properties. CONSTITUTION: An aluminum foil(110), a PET(Poly-ethylene-terephthalate) film(120), and a PE(Poly-Ethylene) expanded sheet(130), an adiabatic reinforcement film made of high-density polyethylene or glass fiber(140), a PVC(Polyvinyl chloride) expanded sheet(150), a PVC waterproof sheet(160), a non-woven fabric(170) are successively laminated and unitarily manufactured.

Description

Multi functional composite sheet for building and waterproofing structure using the same}

The present invention relates to a building insulation waterproof composite sheet used in the roof or roof finishing of buildings and a method of using the same. The present invention relates to a composite sheet and a composite waterproof structure which is preferably used for rooftop and roof waterproofing.

In general, waterproof construction is performed on the roof or roof of a building to prevent leakage, and insulation is performed to reduce the damage caused by temperature changes in the outside air. In addition, recently, greening works are carried out for urban greening, and rooting works are performed together to prevent plant roots from growing and invading the building structure.

Usually waterproofing, heat insulation and waterproofing work have been carried out separately. In other words, the waterproofing sheet to the waterproofing work is carried out with a waterproof film, the thermal insulation work is carried out with a heat insulating material, and the waterproofing work is carried out with a waterproof sheet. However, this division has a lot of field work, which leads to problems such as poor workability and long construction period.

The present invention was developed in order to solve the problem according to the above-described implementation of the conventional waterproof, heat insulation, and waterproofing construction, a composite waterproof waterproof insulation sheet and a composite waterproof structure using the same preferably exhibits a composite effect on waterproof and heat insulation and waterproofing There is a technical challenge to providing.

In order to solve the above technical problem, the present invention provides a multifunctional building insulation waterproof composite sheet and composite waterproof method.

Multifunctional building insulation waterproof composite sheet according to the present invention, aluminum silver foil; Polyethylene-terephthalate (PET) films; PE (Poly-ethylene) foam sheet; Insulation reinforcement film by high density PE or glass fiber; PVC foam sheet; PVC waterproof sheet; Non-woven fabric; is laminated sequentially characterized in that it is produced integrally.

The composite waterproof structure according to the present invention is characterized in that the insulating waterproof composite sheets are spaced apart from each other by a joint tape, and the thermal insulation composite sheet and the coating waterproof material are integrally constructed. Install the waterproof composite sheet first, and then install the laminated structure to apply the coating waterproofing material, and in order to effectively insulate the inclined roof, apply the coating waterproofing material first and then install the laminated waterproofing sheet to install the insulating waterproof composite sheet.

According to the present invention, the following effects can be expected.

First, it is possible to provide a heat-insulating waterproof composite sheet showing the heat insulation, waterproof, waterproof effect at the same time, such a heat-resistant waterproof composite sheet can be advantageously used for the waterproof structure and roof waterproof structure for rooftop greening.

Second, it is possible to perform waterproof construction while smoothly finishing the surface by horizontally jointing the waterproof sheets.

1 and 2 show a heat insulating waterproof composite sheet according to the present invention.
Figure 3 shows the form of the foam sheet is applied in the heat insulating waterproof composite sheet according to the present invention.
4 illustrates a waterproof structure in which the insulating waterproof composite sheet of FIG. 2 is applied to a rooftop floor.
FIG. 5 illustrates a waterproof structure in which the insulating waterproof composite sheet of FIG. 2 is applied to an inclined roof.

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

1 and 2 show a heat insulating waterproof composite sheet 100 according to the present invention, Figure 3 shows the shape of the foam sheet (130, 150) in the heat insulating waterproof composite sheet 100 of the present invention.

Insulation waterproof composite sheet 100 according to the present invention, aluminum silver foil (110); Polyethylene-terephthalate (PET) film 120; PE (Poly-ethylene) foam sheet 130; Insulation reinforcement film 140 by high density PE (HDPE, High Density Polyethylene) or glass fiber; Polyvinyl chloride (PVC) foam sheet 150; PVC waterproof sheet 160; Non-woven fabric 170; is sequentially laminated and characterized in that it is produced integrally. Insulation waterproof composite sheet 100 of such a laminated structure has been proposed as a structure that satisfies the function of heat insulation, waterproof as well as waterproof while having a thin thickness. In particular, PET, PE, and PVC series are used in combination to maximize each other's unique properties.

In the present invention, the aluminum silver foil 110 is formed of aluminum oxide as a thin film to be configured for heat insulation and moisture proof, and the PET film 120 is formed of a film film of PET having excellent mechanical properties, chemical resistance, and the like. Attached to (110) to protect the aluminum silver foil (110) while the configuration for the root. The PET film 120 may be applied to the PET film 120 reinforced with glass fibers. The aluminum silver foil 110 and the PET film 120 may be bonded by a deposition method or bonded by an adhesive resin. The PET film 120 and the aluminum silver foil 110 is bonded sheet is suitable if the thickness of about 0.01 ~ 0.5mm.

In the present invention, the PE foam sheet 130, the insulation reinforcement film 140, PVC foam sheet 150 is configured for insulation, wherein the insulation reinforcement film 140 is a high density PE (HDPE, High Density Polyethylene) or glass It is provided with fibers. Foam sheet 130, 150 is a foam material is foamed to form a foam having a predetermined thickness, the air layer is naturally formed by foaming to exhibit a heat insulating performance. In particular, if the foam sheet (130, 150) is a corrugated shape as shown in Figure 3 (a) or the convex embossing is formed as shown in Figure 3 (b), the foam sheet (130, 150) is a heat insulating waterproof composite sheet (100) As it is located in the middle of the air layer can be formed more effectively to improve the thermal insulation performance.

Meanwhile, in the present invention, PE and PVC-based foam sheets 130 and 150 are used at the same time, because PE is light and excellent in heat insulation, and PVC is excellent in strength and elongation, so as to supplement the properties of these two materials. . However, in the present invention, the thermal insulation reinforcement film 140 by high density PE or glass fiber is further laminated between the PE foam sheet 130 and the PVC foam sheet 150, and the thermal insulation reinforcement film 140 adds heat insulation. At the same time it serves as a medium for laminating the PE foam sheet 130 and PVC foam sheet 150 to a predetermined thickness. PE foam sheet and PVC foam material of the state before foaming is coated on both sides of the insulation reinforcement film 140 and then foamed into a PE foam sheet 130, insulation film reinforcement by glass fiber (140), PVC foam sheet 150 is completed in a laminated and laminated structure, and in particular, in the case of adopting high density PE as the thermal insulation reinforcement film 140, the PE sheet and the PVC sheet of the state before foaming may be fused and foamed onto both sides of the high density PE film. have. PE foam sheet 130 and the PVC foam sheet 150 in the completed laminated structure is suitable if the thickness of 0.5 ~ 1mm, respectively, and the heat insulating reinforcement film 140 is suitable if the thickness of 0.01 ~ 0.5mm. The PE foam sheet 130 may be sequentially laminated by fusion or adhesion with the PET film 120.

In the present invention, the PVC waterproof sheet 160 is made of a PVC waterproof material to a predetermined thickness, and serves to exhibit substantially waterproof performance, and a thickness of about 1 to 2 mm is appropriate. The PVC waterproof sheet 160 may exhibit a function of waterproofing due to the characteristics of the PVC material. The PVC waterproof sheet 160 has a large elongation, but because the materials having a small elongation are stacked below the PVC waterproof sheet 160, the insulation waterproof composite sheet 100 can secure dimensional stability. In particular, the present invention proposes a PVC waterproof sheet 160, which is composed of a laminate of carbon-added bottom sheet 161 made of recycled PVC; and a top sheet 162 made of newborn PVC. This is the result of both resource recycling and quality assurance. The lower sheet 161 having uncertain physical properties due to the use of recycled PVC is added with carbon to reinforce heat resistance, strength, and the like, and the upper sheet 162 which is in close proximity to the outside is secured by using new PVC. Furthermore, the top sheet 162 is preferably configured with high elasticity and high strength PVC to add a sunscreen as a base material to prepare more excellent physical properties.

1 is an example completed by simply stacking each of the components as a basic embodiment of the heat insulating waterproof composite sheet 100 according to the present invention, such a heat insulating waterproof composite sheet 100 is about 3 ~ 5mm thickness is suitable.

FIG. 2 illustrates an example in which an end crimp unit 160a is further formed after stacking the components. The end pressing portion 160a is a portion formed to have a thickness smaller than that of the center portion by pressing the end of the PVC waterproof sheet 160 in the heat insulating waterproof composite sheet 100 according to the present invention. Contributes to the horizontal joint of the insulation waterproof composite sheet 100 (see FIGS. 4 and 5). Since the end pressing portion 160a is formed by compressing the PVC waterproof sheet 160, the end portion thickness is thinner than the central portion, and retains the same performance as the central portion. The end crimping portion 160a has a width of about 2 cm and a thickness of about half of the center portion, and if the PVC waterproof sheet 160 is 1 mm thick, the end crimping portion 160a is formed to have a thickness of 0.5 mm.

FIG. 4 illustrates a waterproof structure in which the adiabatic waterproof composite sheet 100 of FIG. 2 is applied to a rooftop floor C1, and is completed with a rooftop greening waterproof structure. As shown, the roof waterproofing composite sheet 100 is installed on the rooftop C1, the coating waterproofing material 300 is applied, the drainage plate 410 is laid, the vegetation soil 420 is laid, and when planted, the rooftop greening is waterproof. The structure is completed.

Insulation waterproof composite sheet 100 is a non-woven fabric 170 as an upper surface of the insulation waterproof composite sheet 100 is installed on the rooftop floor (C1) so as to be spaced apart from each other and spaced apart by a joint tape (200) The seats 100 are connected to each other. The joint tape 200 uses aluminum silver foil 210, a protective film 220 made of PET or glass fiber, a high elastic PVC film 260, and a nonwoven fabric 270 sequentially stacked and integrally manufactured. The joint tape 200 of the structure may be referred to as a thin simplification of the heat insulating waterproof composite sheet 100 described above. In the case of attaching and installing the adiabatic waterproof composite sheet 100 provided with the end pressing portion 160a as shown in FIG. 4, the joint tape 200 may be installed at the end pressing portion 160a to plan a horizontal joint. The tape 200 is fixedly installed on the heat insulating waterproof composite sheet 100 by using a waterproof adhesive, a waterproof sealant, or the like as appropriate. In FIG. 4, the joint tape 200 is connected to and installed on the insulation waterproof composite sheet 100.

Since the upper surface of the insulating waterproof composite sheet 100 is a non-woven fabric (170, 270), if the coating waterproofing material 300 is applied thereon, the insulating waterproof composite sheet (100) and the coating waterproofing material 300 is completed in an integrated waterproof structure. . The completed waterproof structure is such that the foam sheet (130, 150) of the insulation waterproof composite sheet exhibits heat insulation performance, and the PVC waterproof sheet 160 and the coating waterproof material (300) of the insulation waterproof composite sheet exhibit basic waterproof performance. On the other hand, the PET film 120 and the aluminum silver foil 110 of the heat insulating waterproof composite sheet exhibits the final waterproof and waterproof performance. In addition, the aluminum silver foil 110 of the heat insulating waterproof composite sheet may also protect the heat insulating waterproof composite sheet 100 by blocking moisture coming from the rooftop C1.

FIG. 5 illustrates a waterproof structure in which the insulating waterproof composite sheet 100 of FIG. 2 is applied to the inclined roof C2. As can be seen by coating the coating waterproofing material 300 to the inclined roof (C2), install a heat-resistant waterproof composite sheet 100, and install the pressing member 430 is completed to the roof waterproof structure. The roof waterproof structure is constructed by inverting the stacking order of the insulating waterproof composite sheet 100 and the coating waterproofing material 300 in the roofing waterproofing structure described above, and installing the pressing member 430 on the insulating waterproof composite sheet 100. do. The pressing member 430 is to prevent the heat-insulating and waterproof composite sheet 100 from lifting, and the roof member may be finished with a tile on the pressing member.

As the stacking order of the insulation waterproof composite sheet 100 and the coating waterproofing material 300 is reversed, the insulation waterproof composite sheet 100 and the joint tape 200 are installed on the upper surface of the aluminum foil 110 and 210 in the roof waterproof structure. do. As a result of such installation, the aluminum silver foil 110 of the heat insulating waterproof composite sheet contributes to securing heat insulation performance by heat reflection.

In FIG. 5, it can be seen that the joint tape 200 is connected and installed under the insulation waterproof composite sheet 100. Of course, the joint tape 200 may be connected and installed on the insulation waterproof composite sheet 100. In addition, in FIG. 5, it can be seen that the joints between the heat-insulating and waterproof composite sheets 100 are finished with the waterproof sealant (S).

The present invention has been described in detail above with reference to specific embodiments, but the embodiments are only for illustrating the present invention, and thus the embodiments substituted, added, and modified within the scope without departing from the spirit of the present invention are also described below. It will be said to belong to the protection scope of the present invention as defined by the claims appended hereto.

100: insulation waterproof composite sheet
110: aluminum foil
120: PET film
130: PE foam sheet
140: insulation reinforcement film
150: PVC foam sheet
160, 161, 162: PVC waterproof sheet
160a: end section
170: non-woven
200: joint tape
210: aluminum foil
220: protective film
260: high elastic PVC film
270: nonwoven
300: waterproofing film
410: drain plate
420: vegetation soil
430: pressing member
C1: rooftop floor
C2: sloped roof

Claims (6)

Aluminum silver foil 110;
Polyethylene-terephthalate (PET) film 120;
PE (Poly-ethylene) foam sheet 130;
Insulation reinforcement film 140 by high density PE (HDPE, High Density Polyethylene) or glass fiber;
Polyvinyl chloride (PVC) foam sheet 150;
PVC waterproof sheet 160;
Nonwoven fabric 170;
Multi-functional building insulation waterproof composite sheet, characterized in that the sequential laminated is made integrally. In claim 1,
The PE foam sheet 130 or PVC foam sheet 150,
Multi-functional building insulation waterproof composite sheet, characterized in that the corrugated or embossed convex shape is formed. The method of claim 1 or 2,
The PVC waterproof sheet 160,
Bottom sheet 161 made of recycled PVC added with carbon; and
Multi-functional building insulation waterproof composite sheet 100, characterized in that the top sheet 162 by the newborn PVC; The method of claim 1 or 2,
The PVC waterproof sheet 160,
Multi-functional building insulation waterproof composite sheet 100, characterized in that the edge portion is formed by pressing the end portion compressed portion (160a) is thinner than the center portion is compressed. Roof top (C1);
Insulating waterproof composite sheet 100 according to claim 1 is installed on the rooftop floor (C1) so that the non-woven fabric (170) as the upper surface to be spaced apart from the thermal insulating composite sheet (100);
Aluminum silver foil 210, PET or glass fiber protective film 220, high-elastic PVC film 260, non-woven fabric 270 are sequentially laminated and integrally produced, from above or below the heat-resistant waterproof composite sheet 100 Joint tape 200 is attached to be installed so as to connect the non-woven fabric 170 to the upper surface of the thermal insulation waterproof composite sheet 100 is spaced apart;
A coating film waterproofing material 300 coated on the nonwoven fabric 170 of the insulating waterproof composite sheet;
Composite waterproof structure, characterized in that consisting of. Inclined roof C2;
Paint waterproofing material 300 is applied on the inclined roof (C2);
The heat-resistant waterproof composite sheet 100 according to claim 1, wherein the heat-resistant waterproof composite sheet 100 is disposed on the coating waterproofing material 300 so as to be spaced apart from each other.
Aluminum silver foil 210, PET or glass fiber protective film 220, high-elastic PVC film 260, non-woven fabric 270 are sequentially laminated and integrally produced, from above or below the heat-resistant waterproof composite sheet 100 The joint tape 200 is attached to the aluminum silver foil 210 to the upper surface to be installed so as to connect the thermal insulation waterproof composite sheet 100 spaced apart from each other;
A pressing member 430 installed on the insulating waterproof composite sheet 100;
Composite waterproof structure, characterized in that consisting of.

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