KR20170040914A - Outside insulation panel unit and its construction method - Google Patents

Abstract

The present invention relates to an outer insulation panel unit and a construction method thereof. According to an embodiment of the present invention, the outer insulation panel unit comprises: a first insulator disposed on a front of an outer wall of a structure to exhibit insulation performance; a lower limb member supported by a support disposed in the first insulator and mounted on a fixing member to fix the first insulator on the structure; a second insulator disposed on a front of the first insulator to exhibit insulation performance; a first support plate disposed on a front of the second insulator and provided with a plurality of protrusions formed on one surface thereof to block dew condensation of the structure; a second support plate disposed on a rear of the second insulator and provided with a plurality of protrusions formed on one surface thereof to block dew condensation of the structure; a third support plate which is disposed on an upper and a lower portion of the first support plate and the second insulator, and allows air and water to pass therethrough to fix and support the second insulator and block dew condensation of the structure; and a sheet which is coupled to the first insulator, encloses the first, the second, and the third support plate, and has a through hole to open the inside of the second support plate.

Description

[0001] Exterior insulation panel unit and its construction method [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an external heat insulating panel unit and a method of manufacturing the same. More particularly, the present invention relates to an external heat insulating panel unit and a method of manufacturing the same.

In general, a building is provided with a thermal insulation material on its wall surface for insulation, and a thermal insulation method in which a glass material such as glass wool is filled in a cavity between the outer wall and the inner wall. Such an insulation method requires additional space for internal insulation, which results in a reduction in the area of the interior of the house, which is not only complicated but also deteriorates the insulation effect due to incomplete filling of the insulation or breakage due to internal impact .

As an approach for solving such a problem, an outer insulation method such as "Korean Registered Patent No. 10-1265280 (2013.05.10)" is being studied, because the insulation material after the foundation is installed outside the wall, And shortening of the air.

On the other hand, on the outside wall of a building, the condensation phenomenon occurs due to the difference in temperature between the indoor and outdoor areas. Condensation phenomenon is a phenomenon in which moisture contained in the air condenses on the surface of a cold object, This occurs when the temperature of the object in contact with the air is lower than the dew point temperature of the air, and when the surface temperature of the object is below 0 ° C, it becomes iced. Condensation causes stains on the walls and structures, discoloration, fungus formation and corrosion, and deterioration of the strength of the structure and heat insulation due to repeated freezing and thawing of the structure.

In addition to solving such problems, it is required to develop a structure of an external heat insulating panel which is easy to assemble and install while maintaining a heat insulating effect.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide an external thermal insulation panel unit which can maintain a heat insulation effect and prevent condensation, and a method of constructing the same.

It is another object of the present invention to provide an external heat insulating panel unit and a method of constructing the same, which can facilitate construction of a large diameter through systemization.

According to an aspect of the present invention, there is provided an external heat insulating panel unit, comprising: a first heat insulating material disposed in front of an outer wall of a structural body to exhibit heat insulating performance; A supporting member supported by a supporting support provided in the first insulating material and coupled with the fixing member to fix the first insulating material to the structure; A second heat insulator provided in front of the first heat insulator to exhibit heat insulation performance; A first support plate provided at the front of the second insulation and formed with a plurality of protrusions on one surface thereof to prevent condensation from occurring in the structure; A second support plate provided at the rear of the second insulation and having a plurality of protrusions formed on one surface thereof to block condensation of the structure; A third support plate provided at upper and lower portions of the second insulation and the first support plate and capable of venting and permeating to fix and support the second insulation and to prevent condensation from occurring in the structure; And a sheet which is coupled to the first heat insulator and surrounds the first support plate, the second support plate and the third support plate, and has a through hole formed therein for opening the inside of the second support plate.

Wherein said sheet has a first surface located on a front surface of said first support plate, a second surface extending from said first surface and abutting against said third support plate and having an inclined surface, and a second surface extending from said second surface, A third surface located at upper and lower portions of the support plate and having the through holes formed therein, and a fourth surface extending from the third surface and coupled with the first insulation.

A space portion is formed between the second upper surface of the sheet and the second lower surface and the third surface of another sheet adjacent to the third surface in an upward direction with respect to the upper surface, A hermetic member provided between the first surface and the second surface on the lower side so as to make the space part airtight and to smooth the flow of condensation water or air, A protective member may be provided to protect the airtight member and to smooth the flow of air.

And a parapet cover provided at an upper portion of the structural body and coupled with the external thermal insulation panel unit located at the uppermost end of the structural body to improve dew condensation prevention and insulation performance through the upper portion of the structural body.

Wherein the parapet cover includes the first insulation material, the second insulation material, the first support plate, the second support plate, the third support plate, and the sheet, and between the first support plate and the second insulation, And an inclined plate may be provided so that the cover is inclined toward the structure.

And a rubber plate material provided between the structural body and the first thermal insulation to planarize an outer wall of the structural body.

The fixing member may include an anchor that penetrates the base member and has one end inserted into the structure, and a joint fixture that is inserted and fixed to another external heat insulating panel unit coupled to the upper side by being fastened to the anchor.

According to another aspect of the present invention, there is provided a method of constructing an outer panel panel unit, the panel panel assembly including a plurality of outer panel units, The method comprising the steps of: attaching a fixing member for fixing the outer heat insulating panel unit to the structure on the base member; drilling a hole into which the fixing member is inserted into the structure; Fixing the panel group to the structure by inserting the fixing member coupled to the unit, and fixing another panel group to the structure on the panel group.

And a step of installing a parapet cover on the upper portion of the structural body to improve dew condensation prevention and insulation performance through the upper portion of the structural body after the step of fixing another panel group to the structural body on the panel group have.

The step of joining the plurality of outer heat insulating panel units having the support members therein to form one panel group may include the step of installing the rubber plate material on one surface of the outer thermal insulating panel unit which is in contact with the structure body have.

INDUSTRIAL APPLICABILITY According to the outer heat insulating panel unit and the method of applying the same according to the present invention, it is possible to maintain the adiabatic effect and to prevent condensation from occurring.

In addition, it is possible to facilitate the construction of large diameters through systemization.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a state in which an external thermal insulation panel unit according to an embodiment of the present invention is installed in a structure. FIG.
2 is an exploded perspective view of an external heat insulating panel unit according to an embodiment of the present invention;
3 is a horizontal sectional view of the outer heat insulating panel unit shown in Fig.
4 is a vertical sectional view of the external heat insulating panel unit shown in Fig.
5 is a cross-sectional view showing a state where the outer heat insulating panel unit shown in FIG.
6 is a view showing a parapet cover coupled to an external heat insulating panel unit according to an embodiment of the present invention.
7 is a flowchart of a method of constructing an outer insulation panel unit according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing a state in which an external heat insulating panel unit according to an embodiment of the present invention is installed in a structure.

1, the external heat insulating panel unit 10 according to an embodiment of the present invention is combined with another external heat insulating panel unit 10 which is vertically or horizontally adjacent to one panel group A, Can be formed.

In the panel group A, a plurality of external heat-insulating panel units 10 are pre-assembled at the factory or a plurality of external heat-insulating panel units 10 are installed at the construction site after the external heat- . A plurality of panel groups A formed by the combination of the plurality of external heat-insulating panel units 10 may be provided on the structure 20.

A method of constructing the panel assembly A on the structure 20 will be described later in detail.

As described above, by applying the external heat insulating panel unit 10 to the structure 20 through the plurality of panel groups A, it is possible to quickly construct a large-area large-diameter space, so that it can be easily applied to remodeling work in a city center .

The external heat insulating panel unit 10 and the panel group A are assembled or disassembled quickly and easily by joining through the method of screw connection or anchor fastening instead of welding or the like, So that the heat insulating performance can be improved.

Next, the external heat insulating panel unit 10 forming the panel group A will be described in detail.

FIG. 2 is an exploded perspective view of an outer thermal insulating panel unit according to an embodiment of the present invention, and FIG. 3 is a horizontal sectional view of the outer thermal insulating panel unit shown in FIG.

2 and 3, the external heat insulating panel unit 10 according to an embodiment of the present invention includes a first heat insulating member 100, a lower member 200, a second heat insulating member 300, A second support plate 500, a third support plate 600, and a sheet 700. The first support plate 400, the second support plate 500, the third support plate 600,

The first insulating material 100 may be a hard insulating material and may be provided in front of the outer wall of the structure 20 to exhibit heat insulating performance to prevent the outside air from entering the structure 20.

A rubber plate material 30 may be provided between the first insulating material 100 and the structure 20. [ The rubber plate 30 may be manufactured by EDPM (Ethylen-propylen-Dien-rubber) system. The rubber plate 30 may be provided between the first heat insulating material 100 and the structure 20, It can play a role of flattening. For example, when the external heat insulating panel unit 10 is used for remodeling, the outer wall surface of the structure 20 may be rugged due to the remnants of the heat insulating material, the exterior material, or the finishing material. If the external heat insulating panel unit 10 is installed in such a state, a gap is formed between the structure 20 and the external heat insulating panel unit 10, and the effect of the external heat insulating panel unit 10 can not be exhibited properly. Also, since the external heat insulating panel unit 10 can not be installed perpendicularly to the ground, there may be a problem in the structural safety or a fear of restarting. However, when the rubber plate 30 is provided between the first insulating material 100 and the structure 20 as described above, even if the outer wall surface of the structure 20 is rugged, 100 and the structural body 20 can be prevented from being generated, so that the external heat insulating panel unit 10 can be installed perpendicularly to the ground.

The lower member 200 is coupled to a fixing member 800 provided on the inside and the outside of the first heat insulating member 100 and fixed to the structure body 20 so that the first heat insulating member 100 is fixed to the structure 20 . The bottom member 200 may be provided not only in the longitudinal direction but also in the width direction of the first heat insulating member 100 and may be provided in various numbers depending on the size or the weight of the first heat insulating member 100. In this embodiment, the bottom member 200 has a rectangular pipe shape. However, the bottom member 200 may be provided in various polygonal shapes such as' a ',' c ', and' .

The lower member 200 is provided so as to face the support support 210 provided inside the first heat insulating member 100 and can be fixed to the structure 20 by the fixing member 800. Here, the support support 210 is provided inside the first heat insulating material 100 to prevent the first heat insulating material 100 from being pressed by the fixing member 800 and to maintain the overall shape of the external heat insulating panel unit 10 Can play a role. In this embodiment, the support supporter 210 has a T shape, but the support supporter 210 may have various shapes.

The fixing member 800 may include an anchor 810 and a bonding and fixing member 820. The anchor 810 may have one end inserted into the structure 20 and the other end inserted through the supporting member 200 . The lower member 200 is fixed to the structure body 20 by the anchor 810 and the first heat insulating member 100 in which the lower member 200 is embedded is also fixed to the structure body 20, 10) may be fixed to the structure 20. The panel assembly (A) The description of the joint fixture 820 will be described later in detail.

The second insulation material 300 may be a vacuum insulation material, a thermal reflective insulation material or a vacuum packaging insulation material. The second insulation material 300 may be disposed in front of the first insulation material 100 of the structure 20, It is possible to exhibit the heat insulation performance for blocking the entrance of the inside.

The outer heat insulating panel unit 10 according to the present invention is constructed such that the first heat insulating material 100 provided in front of the structure 20 and the second thermal insulating material 300 provided in front of the first heat insulating material 100 It is possible to more effectively prevent the outside air from penetrating into the inside of the structure 20 through the outer wall of the structure 20 by forming the heat insulating structure.

The first and second support plates 400 and 500 may be provided on the front and rear sides of the second insulation member 300, respectively. The first support plate 400 and the second support plate 500 may have a plurality of protrusions 400a and 500a protruding toward the opposite direction of the structure 20, respectively. The first support plate 400 is disposed in front of the second insulation member 300 and is located between the second insulation member 300 and a sheet 700 to be described later and is supported by the plurality of protrusions 400a, And the sheet 700 can be formed. The second support plate 500 is disposed behind the second insulation member 300 and positioned between the first insulation member 100 and the second insulation member 300 so that the first insulation member 100 And the second insulating member 300 may be formed.

As described above, the external heat insulating panel unit 10 ventilates through the spaces of the first support plate 400 and the second support plate 500, and condensation occurs according to the temperature difference between the exterior of the structure and the exterior during the summer or winter. It can play a role of draining the number of condensation. At this time, since the condensation water is drained from the inside of the external heat insulating panel unit 10, the effect of preventing condensation water from damaging the appearance of the external heat insulating panel unit 10 can be exhibited.

In addition, the heat insulating performance can be further improved since the heat insulating member 100 is provided with the double heat insulating structure by the first heat insulating member 100 and the second heat insulating member 300, and the heat insulating member 200 is positioned inside the first heat insulating member 100 It is possible to prevent deterioration and deterioration of performance due to corrosion that may occur when the bottom member 200 is exposed to the outside. At the same time, the effect of preventing the appearance of the outer heat insulating panel unit 10 from being deteriorated due to the exposure of the bottom member 200 to the outside can be exerted.

The first and second support plates 400 and 500 may be formed on the front and rear sides of the second insulation member 300. The first support plate 400 and the second support plate 500 The first supporting plate 400 excluding the second supporting plate 500 positioned between the first insulating member 100 and the second insulating member 300 is omitted in consideration of the economic aspect and the structural aspect, (10).

The ventilation and drainage principle through the first support plate 400 and the second support plate 500 will be described later in detail.

Next, the third support plate 600 and the sheet 700 of the external heat insulating panel unit 10 according to the embodiment of the present invention will be described. In the following description, only different parts from the above-described embodiment will be described in detail and the same or similar parts will not be described in detail.

FIG. 4 is a vertical sectional view of the external heat insulating panel unit shown in FIG. 2, and FIG. 5 is a cross-sectional view showing a state in which the external insulating panel unit shown in FIG.

2 to 5, an external heat insulating panel unit 10 according to an embodiment of the present invention includes a first heat insulating material 100 disposed in front of an outer wall of the structure 20 to exhibit heat insulating performance, A supporting member 200 supported by a supporting support 210 provided inside the heat insulating material 100 and fixed to the structure 20 by being coupled with the fixing member 800 to fix the first insulating material 100 to the structure 20, A second heat insulating material 300 provided in front of the heat insulating material 100 and exhibiting thermal insulating performance and a plurality of protrusions 400a formed on the front surface of the second heat insulating material 300 to form a condensation A second supporting plate 500 for blocking the condensation of the structure 20 by forming a plurality of protrusions 500a on one surface of the first supporting plate 400, ).

The outer heat insulating panel unit 10 according to the present invention includes a third support plate 600 provided at the upper and lower portions of the second insulation member 300 and the first support plate 400 and the third support plate 600 coupled to the first insulation member 100 A sheet 700 having a through hole 731 formed to surround the first supporting plate 400, the second supporting plate 500 and the third supporting plate 600 and opening the inside of the second supporting plate 500 can do.

The sheet 700 includes a first surface 710 positioned on the front surface of the first support plate 400 and a second surface 720 extending from the first surface 710 and abutting against the third support plate 600. [ A third surface 730 extending from the second surface 720 and positioned above and below the second support plate 500 and having a through hole 731 formed therein and a third surface 730 extending from the third surface 730, And a fourth surface 740 that engages the thermal insulator 100.

5, when the outer heat insulating panel units 10 adjacent to each other in the up-and-down direction are engaged with each other, a second upper surface (hereinafter referred to as " upper surface " A space portion 700a is formed between the lower second surface 720 and the third surface 730 of the sheet 700 of the external heat insulating panel unit 10 positioned relatively higher than the first surface 720 and the third surface 730 .

At this time, the second surface 720 is provided with a sloped surface 721 formed in a downward direction from the third surface 730 toward the first surface 710 to prevent rainwater from flowing through the space 700a .

The space 700a is a space through which the outside air enters and exits the inside and the outside of the outer heat insulating panel unit 10. The outside air introduced through the space 700a passes through the through hole 730 formed in the third surface 730 of the seat 700, The outer space moved to the space formed by the second support plate 500 can be moved to the space formed by the second support plate 500 through the through hole 731 and discharged to the space 700a through the through hole 731. [ Air can be circulated between the first insulating material 100 and the second insulating material 300. When dew condensation occurs, the dew condensation flows naturally downward and continuously moves down through the through holes 731 formed in the third lower surface 730 of the seat 700. As a result, Through the through hole 731 formed in the lower third surface 730 of the sheet 700. [

The third support plate 600 is provided at the upper and lower portions of the second heat insulation member 300 and the first support plate 400 to support and support the second heat insulation member 300, The air introduced through the holes 731 can be moved to the space formed by the first support plate 400 through the third support plate 600. When condensation water is generated in the space formed by the first support plate 400, The water can easily flow in the direction of the through hole 731 formed in the third lower surface 730 of the seat 700.

As described above, when the external heat insulating panel unit 10 is ventilated and the condensation water is drained when dew condensation occurs, the effect of preventing condensation from occurring in the structure 20 can be exerted in advance.

On the other hand, in the space portion 700a, the outer heat insulating panel unit 10, which is located relatively above the third surface 730 of the sheet 700 of the outer heat insulating panel unit 10, A hermetic member 750 may be provided between the lower third surface 730 of the sheet 700. The airtightness member 750 can function to airtight the space portion 700a and smoothly flow condensation water and air.

The space 700a is formed in the outer heat insulating panel unit 10 located relatively above the second upper surface 720 of the sheet 700 of the outer heat insulating panel unit 10 located relatively below A protective member 760 may be provided between the lower second surface 720 of the sheet 700. The protective member 760 may connect the second surface 720 of the mutual sheet 700 positioned in the vertical direction and protect the hermetic member 750 and smooth the flow of air have.

On the other hand, when the outer heat insulating panel units 10 adjacent to each other in the vertical direction are engaged, the fixing member 800 coupled to the lower member 200 positioned on the upper side of the outer heat insulating panel unit 10, The joining fixture 820 is fitted into the coupling groove 120 formed between the lower member 200 positioned below the outer heat insulating panel unit 10 and the first heat insulating member 100 positioned relatively to each other, After the fixing hardware 820 is fitted in the coupling groove 120, the fixing hardware 820, the first heat insulating material 100 and the fourth surface 740 of the sheet 700 are fixed It is possible to fix the outer heat insulating panel unit 10 coupled with the screws 40 in the vertical direction. At this time, a fixing member (not shown) coupled to the lower member 200 located on the upper side of the external heat insulating panel unit 10, which is located relatively below, is provided in the first heat insulating member 100 of the external heat insulating panel unit 10, An anchor insertion hole 110 into which the anchor 810 of the base plate 800 can be inserted can be formed. Therefore, the outer-side heat-insulating panel unit 10 adjacent in the vertical direction can be tightly coupled.

Next, the parapet cover 900 to be combined with the outer heat insulating panel unit 10 of the present invention will be described. In the following description, only different parts from the above-described embodiment will be described in detail and the same or similar parts will not be described in detail.

FIG. 6 is a view showing a parapet cover coupled to an external heat insulating panel unit according to an embodiment of the present invention.

2 to 6, the parapet cover 900 may be coupled to the external heat insulating panel unit 10 according to an embodiment of the present invention.

The parapet cover 900 is provided on the upper portion of the structure body 20 and is combined with the outer heat insulating panel unit 10 located at the uppermost end of the outer wall of the structure body 20 to improve the dew condensation prevention and heat insulation performance through the upper portion of the structure body 20 . The first heat insulator 100, the second heat insulator 300, the first support plate 400, the second support plate 500, the third support plate 600, and the sheet 700, as in the case of the external heat insulating panel unit 10, . Here, the overall shape of the parapet cover 900 is 'A', the first insulation material 100, the second insulation material 300, the first support plate 400, the second support plate 500, Shape so that they can be provided in the same 'A' shape. The third surface 730 and the fourth surface 740 of the sheet 700 are positioned at a position where the space 700a is formed when the fourth surface 740 and the fourth surface 740 of the sheet 700 are engaged with the outer heat insulating panel unit 10, .

A swash plate 910 is provided between the first support plate 400 and the second insulation member 300 of the parapet cover 900 so that the parapet cover 900 is inclined toward the structure 20 . The swash plate 910 may be inclined in the direction of the structure 20 so that the rainwater does not accumulate on the parapet cover 900 and can flow down.

In addition, the parapet cover 900 is provided to surround the outer wall of the structure body 20 without interrupting the heat insulating part through the coupling with the outer heat insulating panel unit 10 located at the uppermost end of the outer wall of the structure body 20, The effect of preventing the phenomenon can be exerted.

Next, a description will be made of a construction method of the external heat insulating panel unit 10 according to an embodiment of the present invention.

7 is a flowchart of a method of constructing an outer insulation panel unit according to an embodiment of the present invention.

Referring to FIGS. 1 to 7, a method of constructing an outer heat insulating panel unit 10 according to an embodiment of the present invention includes a plurality of outer heat insulating panel units 10, A step S110 of forming a single panel group A and a step S120 of joining the fixing member 800 to be fixed to the structural body 20 to the base member 200 with the external heat insulating panel unit 10, A step S130 of drilling a hole in the structure 20 where the fixing member 800 is to be inserted and a fixing member 800 coupled to the outer heat insulating panel unit 10 in the perforated hole, (S140) of fixing the panel assembly A to the structure 20 and fixing the panel assembly A to the structure 20 on the panel assembly A (S150).

Here, the step S110 of forming a single panel group A by joining the plurality of external heat insulating panel units 10 having the supporting members therein may be performed by the external heat insulating panel unit 10, And a step of installing the rubber plate material 30 on one side where the rubber plates 30 are brought into contact with each other.

After the step S150 of fixing another group of panels A to the structure 20 on the upper side of the panel group A, the anti-condensation and heat insulation performance through the upper part of the structure 20, A parapet cover 900 may be provided to improve the parapet cover 900.

As described above, by installing the external heat insulating panel unit 10 on the structural body 20 through the panel group A, large-scale interfacial construction can be easily performed, and rapid construction can be performed. Lt; / RTI >

In addition, the outer heat insulating panel unit 10 and the panel group A are combined through a method such as a screw connection or an anchor coupling instead of a method such as welding, so that assembling or disassembly is quick and easy, Can be exercised.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Those skilled in the art, who understands the spirit of the present invention, can readily suggest another embodiment by adding, changing, deleting, or adding elements within the scope of the same idea, but this is also within the spirit of the present invention something to do.

10: Outer Adiabatic Panel Unit 100: First Insulation
200: bottom member 300: secondary insulation
400: first support plate 500: second support plate
600: third supporting plate 700: sheet

Claims (10)

A first heat insulating material disposed in front of an outer wall of the structure to exhibit heat insulating performance;
A bottom member for engaging with a supporting support provided in the first heat insulating material and engaging with the fixing member so that the first heat insulating material is fixed to the structure;
A second heat insulator provided in front of the first heat insulator to exhibit heat insulation performance;
A first support plate provided at the front of the second insulation and formed with a plurality of protrusions on one surface thereof to prevent condensation from occurring in the structure;
A second support plate provided at the rear of the second insulation and having a plurality of protrusions formed on one surface thereof to block condensation of the structure;
A third support plate provided at upper and lower portions of the second insulation and the first support plate and capable of venting and permeating to fix and support the second insulation and to prevent condensation from occurring in the structure; And
And a sheet which is coupled to the first heat insulating material and surrounds the first support plate, the second support plate, and the third support plate, and has a through-hole formed therein for opening the inside of the second support plate.
The method according to claim 1,
Wherein the sheet has a first surface located on the front surface of the first support plate,
A second surface extending from the first surface and abutting against the third support plate and having an inclined surface,
A third surface extending from the second surface and positioned above and below the second support plate, the through-hole being formed,
And a fourth surface extending from the third surface and engaging with the first heat insulating material.
3. The method of claim 2,
A space is formed between the second upper surface of the sheet and the lower second surface and the third surface of another sheet adjacent to the third surface in an upward direction,
A hermetic member provided between the third surface on the upper side and the third surface on the upper side for airtightly sealing the space and smoothing the flow of condensation water or air, And a protection member provided between the second surface and the airtight member to protect the airtight member and smooth the flow of air.
The method according to claim 1,
Further comprising a parapet cover provided on an upper portion of the structure and coupled with the outer thermal insulating panel unit located at a top end of the outer wall of the structure to improve dew condensation prevention and heat insulating performance through the upper portion of the structure. .
5. The method of claim 4,
Wherein the parapet cover includes the first heat insulator, the second heat insulator, the first support plate, the second support plate, the third support plate, and the sheet,
And an inclined plate is provided between the first support plate and the second insulation so that the parapet cover is inclined toward the structure.
The method according to claim 1,
Further comprising a rubber plate material provided between the structure and the first insulation to planarize an outer wall of the structure.
The method according to claim 1,
Wherein the fixing member includes an anchor which penetrates the base member and has one end inserted into the structure,
And a joint fixing hardware inserted into and fixed to another outer heat insulating panel unit fastened to the anchor and coupled to the upper side.
Forming a panel group by joining a plurality of external heat-insulating panel units each having a base member therein,
Attaching a fixing member for fixing the outer heat insulating panel unit to the structural body on the base member;
Drilling a hole through which the fixing member is inserted into the structure,
Inserting the fixing member coupled to the outer heat insulating panel unit into the perforated hole to fix the panel group to the structure;
And fixing another panel group to the structure on the panel group.
9. The method of claim 8,
Further comprising the step of installing a parapet cover on the structure to improve dew condensation prevention and heat insulation performance through the upper part of the structure after the step of securing another panel group to the structure on the panel group Wherein the outer heat insulating panel unit is formed of a resin.
9. The method of claim 8,
The step of joining the plurality of outer heat insulating panel units having the support members therein to form one panel group may include the step of installing the rubber plate material on one surface of the outer thermal insulating panel unit which faces the structure body Wherein the outer heat insulating panel unit is formed of a resin.

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