KR101004750B1 - Reinforced insulation panels and exposure type adiabatic waterproof construction method using the same - Google Patents

Abstract

PURPOSE: A reinforced insulating panel for protecting a film and an exposure type outer heat-insulation water proof method using the same are provided to facilitate exposure type outer heat-insulation waterproof construction. CONSTITUTION: A reinforced insulating panel(100) for protecting a film comprises a PE solid grid(110), PE expanding foam(120), an aluminum film(130), and a PET film(140). In the PE solid grid, the upper and lower plane grids are vertically connected through an intersection point by a vertical member(114). The PE solid grid is manufactured of the high intensity PE. The empty space of the grid is filled with the PE expanding foam. The aluminum film is attached to the bottom surface of the solid grid with a filling of the PE expanding foam. The PE film is attached to the top surface of 'the solid grid with a filling of the PE expanding foam.

Description

Reinforced insulation panels and exposure type adiabatic waterproof construction method using the same}

The present invention relates to a thermal insulation panel for use in the thermal insulation work of buildings, and to a preferred use thereof, more specifically, a film-protective reinforced thermal insulation panel advantageous in compression resistance and moisture barrier, and the thermal insulation of the roof top floor The present invention relates to a method of preferably applying to the waterproof waterproof construction.

In general, on the roof of a building, insulation work is carried out to reduce the damage caused by temperature changes in the outside air, and waterproof work is performed to prevent leakage. Insulation work is divided into heat insulation, break heat, and heat insulation according to the installation position of the heat insulator. In the heat insulation effect, the heat insulation is most advantageous.

Normally, in the case of the roof of the building, the external thermal protection works are performed in a non-exposure manner. In other words, waterproof construction, insulation is installed, and then pressed concrete finish. Because the insulation is usually a porous foam is used a lot because the foam is formed in the pores because the compression deformation is large and absorbent large.

In other words, if the external heat-resistant construction is carried out by the exposure method of installing the foam foam insulation and finishing the waterproofing work, the load on the waterproof layer is immediately transferred to the foam foam insulation, causing the foam foam insulation to compressively deform and foam foam insulation According to the compressive deformation of the waterproofing layer, the waterproof layer is also easy to crack, while the waterproofing layer is not installed after the foam foam insulation is installed, and the pressed concrete is not applied, so the insulation absorbs the excellent and so does not exhibit the thermal insulation effect. In order to protect the foam and the insulation of the foam foam is to be carried out by the external heat-resistant waterproof construction. However, in the non-exposure method, construction of pressed concrete leads to an increase in workload and fixed load of the building.

On the other hand, when the existing building is aging, the durability of various materials is reduced, so reinforcement or repair work is performed to compensate for this. Insulation and waterproofing repair work is carried out.In the case of the existing building where external insulation and waterproofing work has already been carried out, after removing old concrete of pressed concrete and insulation and waterproof layer, a new series of materials such as waterproof construction, insulation installation, and pressed concrete construction are removed. You must go through the process again. However, this work is quite cumbersome and the construction period is long, and it causes various complaints about noise, vibration, waste materials, etc.

The present invention was developed to improve the problem that the conventional external heat-resistant waterproof should be constructed in a non-exposure method, a film protection type reinforced thermal insulation panel advantageous to compressive resistance and moisture blocking, and the heat insulation panel exposed to the roof insulation There is a technical problem in providing a method of applying preferably to waterproof construction.

In order to solve the above technical problem, the present invention, the three-dimensional grid made of high-strength PE in the form that the upper and lower planar grid is vertically connected by the vertical material through the intersection; PE foam foam filled in the empty space inside the three-dimensional grid; An aluminum film film attached to the lower surface of the three-dimensional grid filled with the PE foam; It provides a film protective type reinforced thermal insulation panel, characterized in that consisting of; PET film film attached to the upper surface of the three-dimensional grid filled with the PE foam.

In another aspect, the present invention comprises the first step of cleaning the rooftop; A second step of attaching and installing the above-described protective film-reinforced thermal insulation panel on the rooftop using the aluminum film as a lower surface; Provides an exposed external heat-resistant waterproofing method comprising: a third step of performing waterproofing by any one of sheet waterproofing, waterproofing film, waterproofing sheet and composite film on the PET film of the protective film-type reinforced thermal insulation panel .

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

First, it is possible to provide an insulation panel which is advantageous in compressive resistance and moisture barrier, and such an insulation panel can be advantageously used for exposed type heat insulation waterproof construction.

Second, the exposure type heat insulation waterproofing method according to the present invention can be preferably applied as a heat insulation waterproofing repair method without removing the pressed concrete to the aging existing building.

1A and 1B show a protective film type reinforced insulation panel according to the present invention.
Figures 2a to 2f shows the exposed thermal insulation waterproof method according to the invention in order.

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

Figure 1a shows a protective film type reinforced thermal insulation panel 100 according to the present invention, as shown, the insulating panel 100 according to the present invention is a PE solid grid 110, PE foam foam 120, an aluminum film film ( 130), the PET film film 140.

The three-dimensional grid 110 is a configuration in which the upper and lower planar grids (111, 112) are made of high strength polyethylene (PE) in the form of vertically connected by the vertical member 114 through the intersection, as shown in Figure 1a This results in a three-dimensional lattice reinforcement structure of a predetermined height. Since the three-dimensional grid 110 is made of high-strength PE, the three-dimensional grid 110 becomes a central core that substantially performs the compression resistance and the bending resistance in the insulation panel 100. Since PE is light and excellent in heat resistance, heat retention, and impact resistance, high strength PE is suitable as a core core material constituting the insulation panel 100. The three-dimensional grid 110 is preferably made of recycled PE in terms of resource recycling.

Furthermore, the three-dimensional grid 110 may be manufactured such that the intermediate flat grid 113 is further provided between the upper and lower flat grids 111 and 112 as shown in FIGS. 1A and 1B. Strengthen the reinforcement structure of the grid 110. The intermediate flat grid 113 may be appropriately provided in consideration of the required performance according to the installation position of the insulation panel 100 according to the present invention.

PE foam foam 120 is a configuration that is formed according to the foamed PE foaming agent in the empty space inside the three-dimensional grid (110). Since the PE foam foam 120 is a material of the same series as the high-strength PE solid grid 110, the PE foam foam 120 is integrated while being attached to the three-dimensional grid 110 in the foaming process. The PE foam foam 120 is configured to substantially exert the thermal insulation performance in the insulation panel 100 by the inherent properties of the PE and pores formed during the foaming process. In order to secure a predetermined insulation performance, the PE foam foam 120 is preferably formed by foaming at a foaming ratio of 15 to 40 times. However, the insulation panel 100 according to the present invention is exposed to a rooftop floor by an exposure-type insulation waterproof method. In case of application to 210), it is desirable to form hardly at low foaming ratio of 15 to 20 times because of continuous load loading.

The aluminum film layer 130 is formed of aluminum as a thin film, and is attached to the lower surface of the three-dimensional grid 110 filled with the PE foam foam 120 to form a lower film to protect the PE foam foam 120. Since the aluminum film film 130 is effective for heat insulation and moistureproof, the heat insulation panel 100 according to the present invention complements the heat insulation performance by the PE foam foam 120 and blocks moisture inflow to the PE foam foam 120. Play a role.

The PET film 140 is formed of PET (Polyethylene Terephthalate) as a film film, PE foam foam 120 is attached to the upper surface of the three-dimensional grid 110 filled with the PE foam foam 120 to protect the upper film. PET is light and has excellent mechanical properties, chemical resistance and moisture resistance, and is finished with the upper surface of the heat insulation panel 100 according to the present invention to be an upper film protecting the PE foam foam 120.

FIG. 1B is a cross-sectional view of the insulation panel 100 of FIG. 1A. As shown, the three-dimensional grid 110 and the PE foam foam 120 form the same surface, and the aluminum film film ( 130 and PET film film 140 is attached. The thermal insulation panel 100 is made of a three-dimensional grid 110 with a high-strength PE, foamed PE foaming agent inside the three-dimensional grid 110 to form a PE foam foam 120, the conventional method on the lower surface and the upper surface What is necessary is just to produce it by attaching the aluminum film 130 and the PET film 140 by (deposition, fusion, hot melt adhesion, etc.). On the other hand, if you want to apply the insulation panel 100 according to the present invention to the rooftop floor 210 by the exposed thermal insulation waterproof method, 1m × by a linear member of 2mm thickness in a structure having an intermediate planar grid as shown in Figure 1a and 1b A square three-dimensional grid 110 of 2m × 13mm standard is produced, and the PE foam foam 120 having a foaming ratio of about 20 times to the square three-dimensional grid 110, an aluminum film film 130 and a PET film film having a thickness of 0.05 to 0.1 mm. It is suitable to form 140.

2a to 2f show the exposed external heat-resistant waterproofing method according to the present invention in order. Exposed external heat-resistant waterproof method according to the present invention relates to a method for performing an external heat-resistant waterproof construction on the rooftop 210, as well as a new building finished with concrete slab, as well as finishing with pressed concrete by conventional heat-resistant waterproof construction It can also be applied to existing buildings. 2a to 2f is a step-by-step look at the exposed external heat-resistant waterproof method according to the present invention with reference to.

(1) Step 1-Clean up the surface (Fig. 2a)

Clean up the rooftop 210. In the case of new buildings, the concrete slabs are cleaned and in the case of existing buildings, the pressed concrete is cleaned. The rooftop 210 cleanup proceeds by removing foreign matters and leveling the floor evenly.

(2) Step 2-Installation of Insulation Panels (FIGS. 2B and 2C)

With the aluminum film film 130 as the lower surface, the protective film-type reinforced insulation panel 100 described above is attached to the rooftop 210. The film-protective reinforced insulation panel 100 will be prepared to be manufactured to a predetermined size, so that mutual joints are formed. Considering the continuity of the material properties and insulation performance, the joints of the film-protective reinforced insulation panel 100 face each other. It is preferable to process with a joint. In addition, in order to smoothly discharge the moisture coming from the rooftop 210, the film-protective reinforced insulation panel 100 is preferably partially bonded to the rooftop 210 and installs a first stripping base 230.

In FIG. 2B, the double-coated tape-type aluminum tape 240 is attached to the butt joint and the partial joint of the film-protective reinforced insulation panel 100, and partially coated with an adhesive 220. The debase 230 is installed.

In FIG. 2C, the protective coating type reinforced thermal insulation panel 100 is partially attached to the rooftop 210 while being butt-jointed, and the aluminum tape 240 is attached to the butt joint, whereby the protective coating type reinforced insulation panel 100 is formed. It is connecting each other. In particular, at the corners of the rooftop parapet, as shown in FIG. 2C, the protective coating-type reinforced insulation panel 100 is spaced apart from the rooftop parapet to be spaced apart and treated with the sealant 250.

(3) 4th step-waterproof construction (FIGS. 2D-2F)

Waterproofing is carried out on the PET film layer 140 of the protective film-reinforced thermal insulation panel 100. Waterproofing work may be carried out by conventional methods such as waterproofing the sheet, waterproofing the coating film, and composite waterproofing by the sheet and the coating film. However, the present invention proposes a composite waterproofing sheet / film using the insulating waterproof composite sheet 310 as a preferred embodiment.

The insulation waterproof composite sheet 310 is made of aluminum film film 311, PE foam foam 312, PVC waterproof sheet 313, nonwoven fabric 314 sequentially stacked, heat insulation and moisture-proof by the aluminum film film 311 The effect, the heat insulation effect by the PE foam foam 312, the waterproof effect by the PVC waterproof sheet 313, the composite effect with the waterproofing of the coating film by the nonwoven fabric 314 is a material that can be expected. PVC waterproof sheet 313 in the heat insulating waterproof composite sheet 310 may be provided in a laminated structure of recycled PVC and newborn PVC. The thermally insulating waterproof composite sheet 310 is partly attached and installed for discharging moisture, and the second base 330 is installed, similar to the protective coating type reinforced thermal insulation panel 100, and the protective coating type reinforced thermal insulation panel 100 is provided. Unlike the spaced joints and the high elastic waterproof tape 340 is connected to the spaced joints for continuity and stretch response of the waterproof performance. Although not shown, the insulation waterproof composite sheet 310 may be manufactured to have an end pressing portion that is thinner than the center portion by pressing the end portion, and by installing the high elastic waterproof tape 340 through the end pressing portion, a horizontal joint may be achieved. .

The high elastic waterproof tape 340 is preferably provided in a PVC series, which is intended to maintain the consistency of waterproof performance by preparing in the same series as the heat insulating waterproof composite sheet 310. Further, the highly elastic waterproof tape 340 is more preferably provided in a laminated form of the aluminum coating film 341, PVC waterproof tape 343, nonwoven fabric 344, the heat insulation and moisture-proof effect by the aluminum coating film 341, PVC waterproof The waterproof effect by the tape 343 and the compounding effect with the waterproofing of the coating film by the nonwoven fabric 344 can be expected. In the high elastic waterproof tape 340, the aluminum coating film 341 is formed on the PVC waterproof tape 343 by deposition to maintain the high elasticity of the PVC waterproof tape 343. The high elastic waterproof tape 340 may be installed at the corner of the rooftop parapet as shown in FIG. 2D. In this case, the sealant 350 is treated thereon to thoroughly finish insulation and waterproofing of the corner.

In FIG. 2D and FIG. 2E, the adhesive 320 is partially applied on the film-protective reinforced insulation panel 100, and the second detachment base 330 is installed while the insulation waterproof composite sheet 310 is spaced apart from each other. It can be confirmed that the high elastic waterproof tape is installed in the spaced joint. Since the protective film-reinforced thermal insulation panel 100 has an upper surface treated with a PET film film 140 having strong chemical resistance, the PE foam foam 120 is protected even when the oil-based adhesive is applied to maintain the thermal insulation performance.

After installing the adiabatic waterproof composite sheet 310, as shown in FIG. 2F, a waterproof film 410 such as urethane is applied thereon, and the top coating 420 is finished. The waterproof film 410 and the top coating 420 may follow the conventional method. This completes the external heat resistance by the exposure method.

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 panel
110: solid grid
111: lower flat grid 112: upper flat grid
113: intermediate flat grid 114: vertical member
120: PE foam foam 130: aluminum film film
140: PET film film
210: rooftop 220, 320: adhesive
230, 330: Debase 240: Aluminum tape
310: insulation waterproof composite sheet
311: aluminum film film 312: PE foam
313: PVC waterproof sheet 314: nonwoven fabric
340: high elastic waterproof tape
341: Aluminum coating film 343: PVC waterproof tape
344: nonwoven
410: waterproof film 420: top coating

Claims (5)

A three-dimensional grid 110 made of high-strength PE in a form in which the upper and lower planar grids 111 and 112 are vertically connected by the vertical member 114 through intersections;
PE foam foam 120 filled in the empty space inside the three-dimensional grid 110;
An aluminum film layer 130 attached to the lower surface of the three-dimensional grid 110 filled with the PE foam foam 120;
PET film film 140 attached to the upper surface of the three-dimensional grid 110 filled with the PE foam foam 120;
Film protection type reinforced thermal insulation panel 100, characterized in that consisting of. In claim 1,
The three-dimensional grid 110, the film protection type reinforced thermal insulation panel 100, characterized in that the intermediate planar grid 113 is made to be provided between the upper and lower planar grid (111,112). A first step of arranging the rooftop 210;
A second step of attaching and installing the film-protective reinforced thermal insulation panel 100 according to claim 1 or 2 on the rooftop 210 with the aluminum film 130 as a lower surface;
A third step of performing waterproofing by any one of sheet waterproofing, coating waterproofing, and sheet / film composite waterproofing on the PET film layer 140 of the film-protective reinforced thermal insulation panel;
Exposed external heat-resistant method characterized in that consisting of. 4. The method of claim 3,
The third step,
An aluminum waterproof film 311, a PE foam foam 312, PVC waterproof sheet 313, a nonwoven fabric 314 is prepared to be laminated in order to prepare a heat insulating waterproof composite sheet 310, the aluminum film film 311 to the lower surface 3A step of attaching the insulating waterproof composite sheet 310 on the PET film layer 140 of the protective coating type reinforced thermal insulation panel;
Step 3B of coating the waterproof film 410 on the nonwoven fabric 314 of the heat insulating waterproof composite sheet;
3C step of performing a top coating (420) on the coating film waterproofing (410); In claim 4,
In the second step, the part is attached to the rooftop 210 with an adhesive 220 while being bonded to the film-protective reinforcement insulation panel 100 manufactured to a predetermined size, but the film-protection type reinforcement is provided through the butt joint. While installing the first detachment base 230 so that the lower side of the insulation panel 100 communicates with the outside, it is made while connecting the butt joint to the aluminum tape 240.
In step 3A, the insulating waterproof composite sheet 310, which is manufactured to a predetermined size, is spaced apart and partially installed on the film-protective reinforced thermal insulation panel 100 with an adhesive 320, but the thermal insulating composite sheet 310 is installed. The second insulation base 330 is installed so that the bottom of the insulation waterproof composite sheet 310 communicates with the outside through the spaces therebetween, while connecting the insulation waterproof composite sheet 310 with the high elastic waterproof tape 340. Exposed external heat dissipation method characterized by the above-mentioned.

Images