KR20140012571A - Structure of exterior insulation and waterproof and constructing method thereof - Google Patents

Abstract

The present invention relates to a construction structure and a construction method for outside heat-insulation and outside waterproofing capable of having sufficient performances of an insulation layer and a waterproofing layer by leveling the heights of an insulation panels so that the insulation panels installed on a base concrete having concaved or convex part are not stepped although the surface of the base concrete is uneven. Because the insulation layer is not damaged although the waterproofing is performed on the insulation layer and then the base concrete is poured when an insulation layer is installed on a slab structure. According to the present invention, the construction structure for outside heat-insulation and outside waterproofing includes: a concrete slab to be a base; an insulation panel located on the concrete slab and forming an insulation layer; and a waterproofing layer formed on the insulation panel. A pedestal is inserted into the lower parts of four edges of the insulation panel to level the heights of the insulation panels, such that the ends of the closely installed insulation panels have the same height and the upper part of the insulation layer can be flat.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waterproof construction method,

The present invention relates to an external heat insulating and waterproof construction, and more particularly, to a heat insulating structure and a waterproof layer provided on a slab structure, in which even if there is bending or irregularities in a base concrete surface, So that it is possible to prevent the water from penetrating into the cracked portion due to rainfall and snowfall due to the waterproofing layer and the waterproofing layer to the cracked portion even if the concrete is cracked for a long time after the waterproof layer is formed on the upper surface of the heat insulating layer, And thus the performance of the insulating layer and the waterproof layer is sufficiently exhibited because the insulating layer is not damaged or damaged due to the blocking of the insulating layer.

In the insulation of buildings, insulation is classified into internal insulation and external insulation depending on whether the insulation is installed on the indoor side of the matrix (roof slab structure) or on the outdoor side. In most buildings, have. 1, a waterproofing layer 2 is formed on a concrete slab 1 on the roof of a building, a heat insulating panel 3 is provided on a waterproofing layer, Press concrete (4) is installed and expansion joint (5) is installed on the pressed concrete to cope with expansion and contraction according to temperature change.

However, in the above-mentioned construction method, when concrete is poured, the water of the concrete is impregnated into the heat insulating panel and the heat insulating panel, so that the heat insulating panel is not only lost its heat insulating function, but also water penetrated by the rain water and snow- There is a problem that the waterproof layer is broken due to repeated contraction, expansion, freezing and melting repeatedly due to the change of the outside air temperature because there is always water between the pressed concrete, and there is a problem that water leakage occurs. It is difficult to find the cause of leaking water and the defective part of the waterproof layer in case of leaking, and it is necessary to repair both the insulating layer and the waterproof layer both at the time of repairing and not at partial repair. .

On the other hand, when concrete is laid, bending or irregularities are generated on the surface of the base concrete 6 regardless of how well the construction is performed, and when the heat insulating panel 7 is installed thereon as shown in Fig. 2, The height of the adjacent heat-insulating panels is not matched with each other, so that the step-difference between the ends of the heat-insulating panel and the concrete base surface Because of the curvature, even if the corner of one side of the insulating panel is adjusted so that there is no step, the step is severely generated at the other corner - and waterproofing construction can not be performed thereon. In addition, since the space between the insulating panel and the substrate is very irregular due to the bent surface of the concrete poured by the concrete, when the operator moves on the insulating panel during the construction, the insulating panel moves severely, It is possible to consider fixing the insulating panel to the base surface by screwing or nailing it to fix the step of the edge of the insulating panel, but it is not realistic and it is a drawback that causes the original defect of the roof waterproofing .

In order to solve this problem, the present applicant has been patented for patent No. 734921 (flexible insulation structure) and patent No. 925418 (integrated flexible insulation structure) after many researches and developments, A large-sized insulating panel is cut to a portion where the nonwoven fabric is small, or a portion of the nonwoven fabric is left with about 1 cm of the heat insulating panel so that the insulating panel follows the curvature of the substrate surface, Is added to the insulating panel structure.

However, as a result of the construction with the above-mentioned patented technology, it was possible to maintain the level of the insulation panel so that the upper surface of the insulation panel can be waterproofed by changing the shape along the bending and unevenness of the concrete base surface, There is still a problem that a slight step is generated between the end portions of the adjacent heat insulating panels. To solve this problem, the concrete slab structure (mother body) is separated from the mother body Patent Application No. 2011-81954 (external insulation and waterproofing construction method and construction method) is applied to prevent a space from being formed by applying a foaming adhesive to an open space between insulating panels. On the other hand, a construction method and construction The present invention has been developed while continuing research and development on the structure.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a heat insulating layer and a waterproof layer on an upper surface of a slab structure so that even if there is bending or irregularities on a surface of a base concrete, By forming a waterproof layer on the upper surface of the heat insulating layer and pouring the pressed concrete by pushing it for a long time by aligning the height of the end portion of the adiabatic panel placed and flattening, even if cracks occur in the concrete, the penetration of external moisture due to rainfall and snowfall The present invention is to provide a waterproof external construction structure and a construction method that can maintain the performance of a heat insulating layer and a waterproof layer without damaging or breaking the insulation layer because the waterproof layer blocks the insulation layer, and also can save energy.

In order to solve the above-mentioned problems, the present invention provides a waterproof construction for external waterproofing, comprising: a concrete slab to be a matrix; An insulation panel positioned on the concrete slab and forming an insulation layer; It is configured to include a waterproof layer formed on the upper portion of the heat insulation panel, the lower edge of the heat insulation panel by adjusting the height by inserting a pedestal (pedestal), the height of the end of the heat insulation panel adjacently installed The heat insulating layer is characterized in that the top is formed flat.

Preferably, between the insulation panel and the concrete slab, urethane foam is further sprayed and foamed and cured to the entire lower surface of the insulation panel or the portion where the edge of the insulation panel is located and the inner 2 to 10 concrete slabs. Cured foamed urethane foam serves as a pedestal to fix the insulation panel.

Preferably, the pedestal includes: a main body having an upper surface formed in a plate shape; a protruding portion protruding from the main body so as to divide the entire upper surface of the main body into four quarters; a fixed piece protruding in a cylindrical shape at the center of the upper surface; And a center hole passing through the center of the groove and having a groove formed on a central portion of an upper surface of the lid is formed on the upper portion of the lid, , The washer is inserted into the groove formed in the upper surface of the lid, and the screw is inserted up to the fixing piece to fix the heat insulating panel.

According to the present invention, there is provided an external waterproof exterior waterproofing method comprising the steps of: arranging an insulating panel on an upper surface of a concrete slab to be a matrix; Bonding the pedestal to the upper surface of the concrete slab where each corner of the heat insulating panel is disposed; Lifting the provisional insulation panel and spraying urethane foam on the concrete slab, the insulation panel is placed with each corner of the insulation panel on the pedestal, and then the foaming and curing of the sprayed urethane foam through construction The height of the heat insulating panels arranged adjacent to each other is characterized in that to form a flat top of the heat insulating layer.

Since the concrete mother surface is inevitably bent or uneven due to the fact that it can not be completely flat even if it is well constructed, the outer heat insulating and waterproofing construction according to the present invention can be manufactured into a certain standard (90 cm x 180 cm or 120 cm x A pedestal and a pad are inserted into the four corners of the heat insulating panel having a width of 240 cm and a height of 240 cm so that the height of the end portion of the adjacent heat insulating panel is flattened, Since the foamed and cured urethane foam serves as a support or a pedestal at the bottom of the heat insulating panel, even when the size of the heat insulating panel is large, when the operator is walking on the upper part of the heat insulating panel during operation, The entirety of the heat insulating panel is flattened while the middle portion of the upper surface Waterproofing and pressing Concrete is pushed for a long time. Even if cracks occur in the concrete, the waterproof layer blocks external water infiltration due to rainfall and snowfall in the cracked part. Therefore, the insulation layer is not damaged or damaged. The performance can be sufficiently exhibited.

In addition, in the outer insulation waterproof construction and construction method according to the present invention, a heat insulation layer of a flat surface can be formed by laying an insulation panel thereon irrespective of bending or unevenness of a concrete slab matrix, Moisture can not penetrate into the heat insulating panel because the waterproof layer is provided thereon, so that the energy saving effect is superior to that of the waterproof built-in structure in which the heat insulating material is installed on the lower side of the concrete slab, that is, the indoor side.

1 is a view showing a conventional heat insulating and waterproof structure with external heat insulation construction.
2 is a view showing a general state in which a heat insulating panel is installed on a concrete base body.
3 is a cross-sectional view illustrating one embodiment of an external heat insulating and waterproof construction according to the present invention.
4 is a view showing a pedestal.
5 is a view showing the installation of a heat insulating panel by inserting a pad into the pedestal.
6 is a view showing another embodiment of a pedestal.

The present invention is mainly applied to roof insulation and waterproofing. The technical feature of the present invention is that, regardless of the bending or irregularities of the surface of the concrete slab structure (matrix), the heat insulation panel The heat insulating layer and the waterproof layer are prevented from being broken by forming a heat insulating layer by planarizing by the pedestal and the foamed urethane foam to form a waterproof layer on the flattened heat insulating layer. In this way, the heat insulating layer is located on the upper part of the slab structure, Since water can not penetrate into the heat insulating panel because it is installed, the waterproof effect and the heat insulating effect are remarkably improved.

The present invention provides a waterproof external construction for waterproofing a waterproof exterior structure comprising a concrete slab 10 as a matrix, an insulation panel 20 located above the concrete slab 10 and forming a heat insulation layer, The technical feature of the present invention is that the height of the pedestal 30 is inserted under the four corners of the heat insulating pad 20 to adjust the height of the heat insulating panel 20, The upper portion of the heat insulating layer is formed flat.

The pedestal 30 is disposed at four corners of the heat insulating panel 20 and the heat insulating panel 20 disposed adjacent to the heat insulating panel 20 has a size of 90 cm x 180 cm or 120 cm x 240 cm, Even if the end portion of the heat insulating panel 20 is aligned with the end portion of the heat insulating panel 20, if the operator touches the heat insulating panel 20 during the construction, the middle portion of the heat insulating panel 20 is free from any pedestal, Or a part of the concrete slab 10 located at the lower portion of the heat insulating panel 20 is pressed against the edge of the heat insulating panel 20, For example, as shown in FIG. 3, urethane foam is further injected into 2 to 10 places, followed by foaming and curing, so that the foamed urethane foam acts as a pedestal 40 to fix the heat insulating panel 20.

When urethane foam is sprayed on the entire lower or edge of the bottom of the heat insulating panel 20, the injected urethane foam is foamed and filled up to the gap between the adjacent heat insulating panels 20. Therefore, before the waterproofing layer is formed, It is not necessary to separately cover the clearance of the light emitting diode. The urethane foam sprayed onto a part of the inner edge of the lower part of the heat insulating panel 20 is foamed and cured and becomes a foamed urethane foam pedestal 40 to support the lower part of the heat insulating panel 20, And the concrete slab 10 also serve as a heat insulating layer filled with air.

When the insulation panel 20 is fixed as described above, the gaps between the heat insulation panels 20 are all covered with the foamed urethane foam. When the insulation layer is finished, waterproofing, waterproof coating or waterproofing Which is a known method for forming a waterproof layer, and thus a detailed description thereof will be omitted.

Since the four corners of the heat insulating panel 20 constructed as described above are supported by the pedestal 30 and the remaining portion is supported by the foamed urethane foam or foamed urethane foam pedestal 40, The upper surface of the entire heat insulating panel constituting the heat insulating layer becomes flat. If the motherboard of the concrete slab 10 is flat so that the heat insulating panel 20 is laid thereon and the heat insulating panel 20 does not move even if the height of the pedestal 30 is adjusted, the foamed urethane foam may not be used.

The pedestal 30 is a kind of support or pedestal for supporting the heat insulating panel 20 and has a main body 31 having an upper surface formed in a plate shape and a pedestal 30 spaced apart from the upper surface of the main body 31 The main body 31 may have a circular or polygonal shape in a plan view. The main body 31 may have a hollow or hollow shape and may have an adhesive or rubber The pedestal 30 is adhered and fixed to the concrete slab 10 while the edge of the heat insulating panel 20 is placed on each of the four quadrants formed on the upper surface of the main body 31. [

If the height of the end portions of the adjacent heat insulating panels 20 do not match with each other, a quadrangular pad 35 is inserted between the lower portion of the corner of the heat insulating panel 20 and the upper surface of the main body 31, It is preferable to fix the pad 35 on the upper surface of the main body 31 with an adhesive or the like so that the pad 35 does not move after the height is adjusted.

6 shows another embodiment of the pedestal. The pedestal 30 'further includes the fixing piece 33 and the lid 36 based on the pedestal 30 described above. The fixing piece 33 is formed in a cylindrical shape at the center of the upper surface of the main body 31. The fixing piece 33 has a through hole 33a formed along the center thereof, It is preferable to form a screw thread on the inner side surface for the fastening of the screw 31 and the screw 31. The through hole 33a may be formed to penetrate the main body 31 '.

The pedestal 30 'also has a lid 36 which is in the form of a disk which is located on the top of the body 31' and which is located between the lid 36 and the upper surface of the body 31 ' The heat insulating panel 20 is positioned. A groove 36a is formed in the upper part of the upper surface of the lid 36 so as to open upward and a center hole 36b is formed through the center of the groove 36a. When the washer 38 is inserted into the formed groove 36a and the screw is inserted into the upper portion of the washer 38 and fastened to the fixing piece 33, the lower surface of the lid 36 presses the upper surface of the heat insulating panel 20, The position of the panel 20 is fixed.

A screw is not formed on the inner side surface of the through hole 33a formed along the center of the fixing piece 33 and the through hole 33a is formed of a knife block 37 made of synthetic resin, And then the cover 36 is covered on the upper surface of the heat insulating panel 20 and the washer 38 is placed on the upper surface of the heat insulating panel 20, And the screw may be fixed to the knife block 37 through the center hole 36b formed in the washer 38 and the lid 36 to fix the position of the insert and heat insulating panel 20. [ At this time, the hole of the concrete slab 10 may be pierced, and the knife block 37 may be inserted into the concrete slab 10 to fix the pedestal 30 '.

The heat insulating panel 20 is a commercially available styrofoam and is made of any one of foamed polystyrene (EPS), polyurethane (PUR) foam, extruded polystyrene (XPS) foam, foamed polypropylene (EPP), and polyethylene will be.

The method for external waterproofing external waterproofing according to the present invention comprises the step (S1) of arranging an insulating panel on the upper surface of a concrete slab to be a mother body. (S2) of attaching a pedestal to the upper surface of the concrete slab where the respective corners of the heat-insulating pad are disposed, lifting one or all of the heat-insulating pads, spraying the urethane foam onto the concrete slab, , Placing each of the corners of the urethane foam on the pedestal, placing the insulating pad on the pedestal, and then foaming and curing the injected urethane foam (S3).

In the step S1 of arranging the heat insulating panel, the position where the pedestal is adhered to the concrete slab is determined. When the position to place the heat insulating panel is determined, the lower part of the pedestal is fixed to the concrete slab, Place the insulation panel on the top to check the height of the edge of the adjacent insulation panel. At this time, if the height of the adjacent end portion of the heat insulating panel does not match, the pads 35 should be further inserted between the pedestal located at the lower side and the heat insulating panel so that their heights are aligned with each other.

When the pedestal is inserted into the four corners of the heat insulating panel, the size of the heat insulating panel is large. Therefore, if the operator walks over the heat insulating panel during the construction work, the heat insulating panel When the panel is not corners, the insulation panel may be detached and the insulation panel may be damaged or cracked. As a result, there is a problem in insulation after the completion of the construction. Therefore, it is necessary to fix the insulation panels so that the insulation panel does not move while it is jarring.

One of the features of the construction structure and the construction method of the present invention is that the urethane foam is sprayed to all the lower part or the edge of the heat insulating panel and 2 to 10 suitable places in order to prevent the slippage of the heat insulating panel and flatten the upper surface of the heat insulating panel. So that the foamed urethane foam serves as a pedestal. At this time, after the urethane foam is injected, the foamed urethane foam is put on the upper part of the heat insulating panel for a time (0.5 to 10 minutes) for hardening the foamed urethane foam to set the height of the heat insulating panel However, since the foaming time is short, the operator may stand on the insulating panel. Once the foamed urethane foam is cured, further deformation does not occur, and it becomes a reliable support in that state.

When the urethane foam is sprayed on the whole or edge of the bottom of the heat insulating panel, the urethane foam fills the gap between the adjacent heat insulating panels, so there is no need to separately fill the gap between the adjacent heat insulating panel and the heat insulating panel. When urethane foam is injected only in a place, it is necessary to waterproof the upper part of the insulation panel after filling the urethane foam in the gap between the adjacent heat insulation panel and the insulation panel after fixing the insulation panel. In order to eliminate such inconvenience, it is desirable to spray urethane foam at the edge of the insulating panel and at a certain place.

The urethane foam may be a one-part polyurethane foam, but it is preferable to use a two-component polyurethane foam in consideration of the curing time and the degree of curing.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the embodiments disclosed in the specification of the present invention are not intended to limit the scope of the present invention but to limit the technical scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as falling within the scope of the present invention.

10: Concrete slab
20: Insulating panel
30, 30 ': pedestal 31, 31': body
32, 32 ': projecting portion 33:
35: pad 36: lid
37: knife block 38: washer
40: foamed urethane foam base

Claims (11)

In the outer heat insulating and waterproof construction,
In the construction,
A concrete slab to be a matrix;
A heat insulating panel positioned above the concrete slab and forming a heat insulating layer;
A waterproof layer formed on an upper portion of the heat insulating panel;
It is configured to include, the four edges of the heat insulation panel by adjusting the height by inserting a pedestal (pedestal), the height of the end of the heat insulation panel to be installed adjacent to the top of the heat insulation layer is characterized in that the flat formed External insulation waterproof construction.
The method of claim 1,
Between the insulation panel and the concrete slab, the polyurethane foam is further sprayed and cured by spraying urethane foam on the part where the edge of the insulation panel is positioned and the inner 2 to 10 concrete slabs, and the cured foam urethane serves as a pedestal. External insulation waterproof construction, characterized in that the insulation panel is fixed.
The method of claim 1, wherein the pedestal,
A main body having an upper surface formed in a plate shape;
Protrusions spaced apart from each other so as to partition the entire upper surface of the main body into quadrants;
It is configured to include, the lower surface of the main body is bonded to the concrete slab by the adhesive is fixed, the outer insulation is characterized in that the edge of the insulation panel is placed in each of the quadrant formed on the upper surface of the main body Construction structure.
The method of claim 3,
The pedestal is further provided with a cylindrical protruding fixing piece in the center of the upper surface, and further includes a disk-shaped lid which is located on the upper portion of the main body,
The fixing piece has a through hole formed along the center thereof, and a central hole penetrating the center of the lid while a groove is formed at the center of the upper surface of the lid,
The outer insulation waterproof construction, characterized in that the washer is inserted into the groove formed on the upper surface of the lid, the screw is inserted into the fixing piece to fix the heat insulation panel.
The method according to claim 3 or 4,
Wherein a height of the heat insulating panel is adjusted by further inserting a quadrant pad between the lower part of the corner of the heat insulating panel and the upper surface of the main body.
The method of claim 1,
Wherein the heat insulating panel is made of any one of EPS foam, polyurethane foam, extruded polystyrene (XPS) foam, foamed polypropylene (EPP) foam and polyethylene (PE) foam. External waterproof construction.
In the method for external waterproofing external waterproofing,
Placing an insulating panel on the upper surface of a concrete slab to be a matrix;
Bonding the pedestal to the upper surface of the concrete slab where each corner of the heat insulating panel is disposed;
Placing a heat insulating panel on the concrete slab, spraying a urethane foam on a concrete slab, placing each of the edges of the heat insulating panel on a pedestal, placing the heat insulating panel, and foaming and curing the injected urethane foam;
The roof-top exterior insulation construction method, characterized in that the top of the insulation layer is formed flat to match the height of the insulation panels arranged adjacent to each other through the construction.
8. The method of claim 7,
When the pedestal is adhered to the concrete slab and the heat insulating panel is disposed on the pedestal, a step of further inserting pads on the upper part of the pedestal is performed in order to match the height of the heat insulating panel end disposed adjacent to the pedestal. Outer insulation outside waterproofing construction method.
8. The method of claim 7,
The urethane foam is an outer insulation waterproof construction method characterized in that the spraying to the entire lower portion of each insulation panel, or the edge and the inner 2 to 10 places.
The method of claim 7, wherein the pedestal,
A main body having an upper surface formed in a plate shape;
Protrusions spaced apart from each other so as to partition the entire upper surface of the main body into quadrants;
It is configured to include, the lower surface of the main body is bonded to the concrete slab by the adhesive is fixed, the outer insulation is characterized in that the edge of the insulation panel is placed in each of the quadrant formed on the upper surface of the main body Construction method.
11. The method of claim 10,
The pedestal is further provided with a cylindrical protruding fixing piece in the center of the upper surface, and further includes a disk-shaped lid which is located on the upper portion of the main body,
The fixing piece has a through hole formed along the center thereof, and a center hole penetrating the center of the groove is formed while a groove is formed in the center of the upper surface of the lid.
External insulation construction method characterized in that the washer is inserted into the groove formed on the upper surface of the lid, the screw is inserted into the fixing piece to fix the insulation panel.

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