KR102382543B1 - Multiple insulation structure of building exterior wall and construction method - Google Patents

Abstract

The present invention relates to a method of constructing multiple insulation after completing the basic concrete exterior wall surface of the building and its construction structure, and more specifically, to construct a contact insulation material on the exterior concrete wall surface of the building first, and anchor the contact insulation material while penetrating the contact insulation material After installing the bolts on the concrete wall, fix the fixed hardware using anchor bolts, laminate the insulating finishing material in which the insulating material and the stone are integrated on the upper part of the fixed hardware, and fix the fixed hardware on the upper part of the insulating finishing material. This is a method of fixing the direct connection piece so that it penetrates the insert reinforcement joined to the insulation finishing material using the fixing hole of the hardware. It is characterized by making it possible.

Description

Multiple insulation structure of building exterior wall and construction method

The present invention relates to a thermal insulation structure and a method for constructing a finishing stone at the same time as insulation while performing multiple stages of effective thermal insulation construction on the basic concrete exterior wall surface of a building, and more specifically, a heat reflective insulation sheet on the exterior wall surface By constructing first, then placing a space at regular intervals on top of it, and installing an integrated finishing material in which the finishing stone is integrated, not only excellent insulation effect due to multiple insulation, but also improvement of work convenience and cost reduction, reduction of time and manpower, weight reduction, etc. This is to provide an improved insulation structure and construction method.

When finishing the exterior walls, most buildings are constructed to block the transfer of heat to improve the quality of housing and to save energy. to complete the exterior.

In general, there are internal and external insulation for insulation of buildings, but unless the construction is to reinforce the insulation of a building that is already used, external insulation with many advantages such as high insulation performance and no thermal bridges and prevention of concrete deterioration is widely used. do.

On the other hand, on the outer wall of the building, after the external insulation work is done, the work of installing the finishing material must be done. Although various types of finishing materials are being constructed, in consideration of the superiority of the exterior and the robustness of the finish, stone materials such as granite or marble are used. Closing is a typical example.

As described above, looking at an example of a conventional construction process in the case of finishing using stone and exterior insulation of a building through FIG. Insulation is performed, and after the insulation construction, the fixing hardware (4-1) for installing the exterior stone must be fixed to the wall surface. The method of fixing the fixing hardware 4-1 to 1) is taken, and then the stones 2-1 are piled up on the protruding fixing hardware 4-1.

According to the above construction method, since the hole 3-2 must be formed in the insulator 3-1 to fix the fixing hardware 4-1, it leads to waste of time and manpower for drilling the hole. The hole 3-2 formed in the insulator 3-1 must be formed fairly large so as to have room for the installation of the fixing hardware 4-1 on the concrete wall surface 50-1. 1) There was a problem that the insulation effect was greatly reduced by the part.

To fill these holes (3-2), spray-type foamed urethane foam is sometimes sprayed, but this operation also takes a lot of time and money, and even if the hole (3-2) once drilled is filled with difficulty, the same insulation performance as the first is expected. Of course, urethane foam has a short lifespan, and thermal insulation performance deteriorates rapidly.

In addition, since the thickness of a typical finishing stone is 30 mm during the work of fixing the stone 2-1 in the prior art, the area of the supported surface is insufficient for the stone 2-1 to be stably installed on the fixing hardware 4-1. Since it is not enough, just applying the adhesive to the surface where the stone (2-1) and the fixing hardware (4-1) is in contact was insufficient. of the adhesive (10-1) was applied, such a backside coating operation was very difficult and time consuming to apply to the backside of the stone material (2-1), and had disadvantages in that an excessive amount of adhesive was used.

In addition, the reason for using an epoxy adhesive is that it is applied to the back of the fixed hardware and stone, so it needs to be cured quickly. If the building moves due to an accident or the stone is subjected to an impact, the adhesive in the hardened state will be damaged, so it is expected that the laminated finishing stone will collapse easily.

And, as described above, the thickness of the finishing stone is usually 30mm, which is the minimum thickness for stacking and fixing the finishing stone in an erected state using a fixed hardware. am.

In this way, just because the finishing stone (2-1) is 30mm thick, it becomes a huge weight. It is a self-evident fact that stone installation work takes a lot of money, manpower, and time.

Another problem in the conventional construction structure is that the insulation material is attached to the wall with an adhesive or poured into a formwork when concrete is poured so that it is integrated with the concrete. It is not only impossible, but there was also an important problem in that it had to be disposed of as mixed waste.

On the other hand, in the recently revised regulations on the insulation of buildings, it is a regulation in the case of the outer wall of the living room directly facing the outside air. In the central region 1, it is stipulated that the thermal transmittance must be 0.015 or less. In the central region 2, the thermal transmittance rate is 0.170 or less, and insulators of 190 mm or more must be used.

Thermal transmittance table of building parts by region (Unit: W/㎡·K) area
part of the building Central 1 region ¹⁾ Central 2 region ²⁾ Southern region ³⁾ Jeju Island living room wall When facing the outside air directly apartment house 0.150 or less 0.170 or less 0.220 or less 0.290 or less other than apartment houses 0.170 or less 0.240 or less 0.320 or less 0.410 or less In case of indirect exposure to outside air apartment house 0.210 or less 0.240 or less 0.310 or less 0.410 or less other than apartment houses 0.240 or less 0.340 or less 0.450 or less 0.560 or less Banja or roof in the living room on the top floor When facing the outside air directly 0.150 or less 0.180 or less 0.250 or less In case of indirect exposure to outside air 0.210 or less 0.260 or less 0.350 or less living room floor on the lowest floor When facing the outside air directly In case of underfloor heating 0.150 or less 0.170 or less 0.220 or less 0.290 or less No underfloor heating 0.170 or less 0.200 or less 0.250 or less 0.330 or less In case of indirect exposure to outside air In case of underfloor heating 0.210 or less 0.240 or less 0.310 or less 0.410 or less No underfloor heating 0.240 or less 0.290 or less 0.350 or less 0.470 or less underfloor heating 0.810 or less windows and doors When facing the outside air directly apartment house 0.900 or less 1.000 or less 1.200 or less 1.600 or less other than apartment houses window 1.300 or less 1.500 or less 1.800 or less 2.200 or less door 1.500 or less In case of indirect exposure to outside air apartment house 1.300 or less 1.500 or less 1.700 or less 2.000 or less other than apartment houses window 1.600 or less 1.900 or less 2.200 or less 2.800 or less door 1.900 or less Apartment house household entrance door and fire door Directly facing the outside air and fire doors in the living room 1.400 or less In case of indirect exposure to outside air 1.800 or less
note 1) Central 1 region: Gangwon-do (Excluding Goseong, Sokcho, Yangyang, Gangneung, Donghae, Samcheok), Gyeonggi-do (Yeoncheon, Pocheon, Gapyeong, Namyangju, Uijeongbu, Yangju, Dongducheon, Paju), Chungcheongbuk-do (Jecheon), Gyeongsangbuk-do (Bonghwa, Cheongsong)

2) Central 2 regions: Seoul Metropolitan City, Daejeon Metropolitan City, Sejong Special Self-Governing City, Incheon Metropolitan City, Gangwon-do (Goseong, Sokcho, Yangyang, Gangneung, Donghae, Samcheok), Gyeonggi-do (Yeoncheon, Pocheon, Gapyeong, Namyangju, Uijeongbu, Yangju, Dongducheon) , Paju), Chungcheongbuk-do (excluding Jecheon), Chungcheongnam-do, Gyeongsangbuk-do (excluding Bonghwa, Cheongsong, Uljin, Yeongdeok, Pohang, Gyeongju, Cheongdo, Gyeongsan), Jeollabuk-do, Gyeongsangnam-do (Geochang, Hamyang)

3) Southern regions: Busan Metropolitan City, Daegu Metropolitan City, Ulsan Metropolitan City, Gwangju Metropolitan City, Jeollanam-Do, Gyeongsangbuk-Do (Uljin, Yeongdeok, Pohang, Gyeongju, Cheongdo, Gyeongsan), Gyeongsangnam-Do (Except Geochang and Hamyang)

Insulation thickness of central region 1 Grade of insulation

part of the building Permissible thickness by insulation grade go me all La living room wall When facing the outside air directly apartment house 220 255 295 325 other than apartment houses 190 225 260 285 In case of indirect exposure to outside air apartment house 150 180 205 225 other than apartment houses 130 155 175 195 Banja or roof in the living room on the top floor When facing the outside air directly 220 260 295 330 In case of indirect exposure to outside air 155 180 205 230 living room floor on the lowest floor directly to the outside air
if facing In case of underfloor heating 215 250 290 320 No underfloor heating 195 230 265 290 indirect to the outside air
if facing In case of underfloor heating 145 170 195 220 No underfloor heating 135 155 180 200 underfloor heating 30 35 45 50

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Insulation thickness in the central region 2 Grade of insulation

part of the building Permissible thickness by insulation grade go me all La living room wall When facing the outside air directly apartment house 190 225 260 285 other than apartment houses 135 155 180 200 In case of indirect exposure to outside air apartment house 130 155 175 195 other than apartment houses 90 105 120 135 Banja or roof in the living room on the top floor When facing the outside air directly 220 260 295 330 In case of indirect exposure to outside air 155 180 205 230 living room floor on the lowest floor directly to the outside air
if facing In case of underfloor heating 190 220 255 280 No underfloor heating 165 195 220 245 indirect to the outside air
if facing In case of underfloor heating 125 150 170 185 No underfloor heating 110 125 145 160 underfloor heating 30 35 45 50

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In order to perform insulation construction while meeting the above regulations, the thickness of the insulation material of the outer wall insulation is a whopping 220mm to 190mm. Since a lot of time and manpower is wasted due to the inconvenient thickness that cannot be held with one hand even during construction, many problems in construction follow, such as an increase in labor costs, excessive construction period, and difficulty in work.

In addition, deflection often occurs due to the excessive weight of the insulation material even after construction, and the insulation construction portion often collapses due to earthquakes or other impacts, leading to disadvantages in that repair work costs a lot of money.

Utility model registration No. 20-0451121 (Notice on November 26, 2010)

The present invention devised in view of the above problems is to use an integrated insulation material in which the insulation material and the finishing stone material are integrated so that the insulation work of the exterior wall surface and the construction work of the finishing material are simultaneously constructed, and the insulation material and the finishing stone material are integrated while constructing the exterior wall insulation, An object of the present invention is to provide a construction method and construction structure that can obtain a more excellent thermal insulation effect through four-stage insulation while minimizing the thickness of the insulation material by first constructing the contact insulation material in direct contact with the wall surface.

In addition, it is possible to provide an excellent construction method and construction structure in various aspects such as convenience in the construction process, the ease of recycling insulation materials, and the robustness of construction.

The present invention for achieving the above object is to construct a contact insulating material (heat reflective insulating material) on the external concrete wall surface of a building using a taka, and construct an anchor bolt on the concrete wall while penetrating the contact insulating material, and then use the anchor bolt. fasten fixtures

Thereafter, a thermal insulation finishing material in which the insulating material and the stone are integrated are laminated on the upper part of the fixed hardware, and an adhesive is applied to the upper surface of the fixed hardware, allowing the fixed hardware to support only a part of the stone, and a space between the contact insulation material and the insulating finishing material. Then, fix the fixing hardware on the top of the insulating finishing material again, apply adhesive to the upper surface of the insulating finishing material on which the fixing hardware will be seated, fix the fixing hardware, and then use the fixing hole of the fixing hardware to penetrate the insert reinforcement bonded to the insulating finishing material The direct connection piece was fixed to do so.

Accordingly, the stone material of the insulation finishing material provides primary insulation from outside air, the insulation material integrated with the stone material is responsible for the secondary insulation, and the space between the insulation material of the insulation finishing material and the close insulation material is responsible for the third insulation, and is in close contact with the wall. It is characterized in that the constructed close insulation material is configured to take charge of the final insulation.

According to the present invention, a simple process of attaching a heat-reflecting insulating material to a concrete wall surface is performed first, and then, a four-step external insulation is achieved by simply constructing an insulating finishing material in which the insulating material and the stone are integrated with a space thereafter. In addition to the thermal insulation finishing material that realizes both insulation and finishing, the thermal insulation effect of the heat-reflecting insulation material that is in direct contact with

In addition, since the heat-reflecting insulating material is fixed by anchor bolts and fixing hardware in addition to the taka, it is possible to maintain strong adhesion and to be easily removed at the time of re-construction or disposal in the future.

In addition, by reducing the thickness of the insulating finishing material, it is convenient for transportation and storage while reducing manufacturing costs. , it has the advantage of maintaining a stable construction state even after construction and resisting earthquakes and shocks well.

In addition, since the fixed hardware as a whole is easily fixed to the anchor bolt and the fixed hardware and the insulating finishing material are fixed by the insert reinforcement, the fixing of the insulating finishing material is very stable and a neat construction condition can be obtained, and the load on the building as a whole is reduced, etc. It is a useful invention that can dramatically improve the process of insulation and finishing of exterior walls of buildings.

1 is a construction state diagram of a contact insulation material of the present invention;
Figure 2 is a state diagram of the fixed hardware construction of the present invention;
3 is a construction state diagram of the insulation finishing material of the present invention;
4 is a cross-sectional view showing the construction state of the insulating finishing material of the present invention;
5 is a cross-sectional view of the insulation finishing material construction state of the present invention;
Figure 6 is a perspective view of the construction completed state of the present invention;
7 is an exemplary view illustrating a conventional construction method

Hereinafter, an example and configuration of a construction method for implementing the present invention will be described in detail based on the accompanying drawings.

First, look at the construction method of the present invention.

Preparation of contact insulation

The present invention prepares a heat reflective insulating material, which is one of semi-incombustible materials, as a contact insulating material (10) in direct contact with the concrete wall surface (1) constituting the building.

Contact insulation construction

The contact insulating material 10 as described above is attached to the concrete wall 1 to be constructed by using a taka (air or electricity). At this time, there is no need to do the tack work in many parts because the work of more completely fixing the contact insulating material 10 is additionally added later.

Insulation finish preparation

Insulation finishing material 20 is a stone 21 of a natural material used for the exterior of a building, such as granite or marble, which has a constant horizontal and vertical standard, and also has an excellent thermal insulation function, such as styrofoam, and maintains a solid shape as much as possible. Insulation material 22 Prepare a unified one by bonding.

In particular, the insulation finishing material 20 of the present invention is coupled with the fixing hardware 30 after inserting the metal insert reinforcement 50 on the upper part, and the insert reinforcement material 50 includes a fastening part 51 and an inserting part 52. It was constructed in the form of a cross-section in the form of an L with a

This insert reinforcing material 50 is press-fitted between the upper stone material 21 and the heat insulating material 22 before construction of the integrated finishing material. The insertion part 52 is forcibly inserted between the stone material 21 and the heat insulating material 22 .

In the process of inserting the insertion reinforcement 50, the entire insertion portion 52 is firmly attached to the stone 21 while receiving the force pushing the insertion reinforcement 50 toward the stone 21 by the inclined surface 53 of the insertion portion 52. It is inserted in a close contact form to maintain a solid insertion state, and the fastening part 51 of the insert reinforcement 50 is also compressed to the same height as the stone material 21 while compressing the heat insulating material 22 .

Insulation finishing material construction

As shown in FIG. 3 , the anchor bolt 2 is fixed and the fixing hardware 30 is installed while penetrating the contact insulation 10 to the concrete wall surface 1 of the building on which the contact insulation 10 is constructed. Accordingly, the contact insulating material 10 is firmly fixed by the anchor bolts 2 and the fixing hardware 30 together with the taka. This fixed hardware 30 installation work is continuously installed so as to have a certain interval in consideration of the location and height of the insulating finishing material to be constructed, and after the construction of the insulating finishing material 20 is completed on the first row of the fixed hardware 30, it is again The work of constructing the first row of fixed hardware 30 is repeated, and the work is gradually continued upward.

To install the insulating finishing material 20 on the fixed fixed hardware 30, silicone adhesive 40 is applied on the upper surface of the support part 31 of the fixed hardware 30, and then the insulating finishing material 20 is placed thereon for construction. And, the support part 31 supports the entire thickness of the insulating material 22 of the insulating finishing material 20 and the thickness of the stone 21 in a state where a part of the front part is left.

Therefore, the space portion 3 is formed without the heat insulating material 22 in close contact with the concrete wall surface 1, and the insulation finishing material 20 in which the stone material 21 and the heat insulation material 22 are integrated beyond the space portion 3 is 2 It acts as a secondary insulation.

Another fixed hardware 30 is installed at the upper position of the constructed insulating finishing material 20, and a silicone adhesive is applied to the upper surface of the insulating finishing material 20 to which the supporting part 31 of the fixed hardware 30 is to be adhered. After applying (40), the upper fixing hardware 30 is fixed to be in close contact with the part to which the adhesive is applied, and the silicone adhesive 40 is applied again on the fixing hardware 30, and then the insulation finishing material 20 is placed on it for construction. will repeat the process.

In the process of constructing the fixing hardware 30 on the insulating finishing material 20, the direct connection piece 33 is fastened through the fixing hole 32 of the fixing hardware, and the direct connection piece 33 is inserted into the fixing hole 32. The screw is fastened while penetrating the fastening part 51 of the insert reinforcement 50, and at the same time it is also inserted into the insulator 22, so that the integral insulation finishing material 20 and the fixing hardware 30 are firmly fixed as a whole. .

Connection closure

The space between the upper and lower insulating finishing materials 20 between the fixed hardware 30 or between the insulating finishing materials 20 in the vertical direction is filled with urethane foam, a backup material, etc., and finally caulked to finish.

Let's look at the construction structure of the present invention constructed in the same way as above.

In the construction structure according to the present invention, the contact insulating material 10 is in close contact with the concrete wall surface (1) and is constructed, but it maintains the state in close contact with the tack and the anchor bolt (2).

The fixed hardware 30 is fixed to the anchor bolts 2 installed at regular intervals up and down through the contact insulating material 10, and the insulation finishing material 20 is connected between the upper and lower fixed hardware 30. The finishing material 20 is a state in which the stone material 21 and the heat insulating material 22 of the same size are bonded by an adhesive to be integrated.

In the upper and lower portions of the insulating finishing material 20, the supporting part 31 of the fixed hardware 30 is in a state of being adhered to the silicone adhesive 40, and the supporting part 31 is the insulating material 22 of the insulating finishing material 20 as a whole. It is installed to support the thickness and the thickness of the stone 21, leaving a part of the front part.

The direct coupling piece 33 is fastened through the fixing hole 32 of the fixing hardware 30, and the direct coupling piece 33 is inserted into the fixing hole 32 while penetrating the fastening part 51 of the insertion reinforcing material 50 with a screw. is fastened, and is also inserted into the insulator 22 at the same time, so that the integral insulation finishing material 20 and the fixing hardware 30 are firmly fixed as a whole.

Overall, the stone material of the insulation finishing material provides primary insulation from outside air, the insulation material integrated with the stone material is responsible for the secondary insulation, and the space between the insulation material of the insulation finishing material and the close insulation material is responsible for the tertiary insulation, and it is installed in close contact with the wall The adhered thermal insulation material is responsible for the final insulation.

According to the present invention as described above, since the contact insulation material 10, which has a primary insulation function and a final insulation function with respect to the external air based on the inner wall surface, achieves efficient insulation, the insulation material 22 and the stone material 21 are integrated While it is possible to significantly reduce the thickness of the insulating finish (20) material, it is possible to satisfy the prescribed thermal transmittance.

According to the research and experimental results of the present inventor, the insulating finish material 20 is composed of a stone 21 thickness of 20 mm and a thickness of the insulating material 22 of 80 mm, and the contact insulating material 10 is 20 mm thick, and the contact insulating material 10 and the thermal insulation When the space portion 3 between the finishing materials 20 was drilled to 30 mm, the thermal transmittance rate was 0.170.

According to these results, it is close to the thermal transmittance required in the central region 1 and satisfies the thermal transmittance required in the central region 2 even with an insulating material having a thickness of 80 mm, which greatly reduces the thickness of the insulating material required for conventional general insulation construction.

After all, since the thickness of the insulating material can be significantly reduced compared to the conventional one, the weight and volume are reduced, thereby reducing production costs, and there is a huge advantage in that it is convenient in all aspects, such as transportation, storage, and construction work, and that construction efficiency can be increased.

In addition, since the insulation material is not directly attached to the concrete wall surface (1) and is not constructed, the insulation finishing material (20) in which the stone material (21) and the insulation material (22) are integrated across the space portion (3) is insulated, so the space portion (3) It is possible to further increase the thermal insulation efficiency.

1: wall
2: Anchor bolt
3: space part
10: contact insulation material
20: insulation finishing material
21: stone
22: insulation material
30: fixed hardware
31: support
32: fixing hole
33: direct connection piece
40: silicone adhesive
50: insert reinforcement
51: fastening part
52: insertion part
53: slope

Claims (3)

A method comprising: constructing a heat reflective insulating material as a contact insulating material on an exterior concrete wall of a building using a taka;
A process of constructing an anchor bolt on the concrete wall while penetrating the contact insulation;
A process of fixing the fixed hardware using an anchor bolt so as to be able to install a thermal insulation finishing material and at the same time fixing the contact insulation material more firmly;
Insulation and finishing materials are laminated on top of the fixed hardware, but adhesive is applied to the upper surface of the fixed hardware and the fixed hardware supports only a part of the stone, and the insulation function is reinforced between the contact insulation material and the insulating finishing material. a process of having a space to be formed;
Fix the fixing hardware on the upper part of the insulation finish material again, fasten the direct connection piece through the fixing hole of the fixing hardware to insert it into the insulation material, apply adhesive to the upper surface of the insulation finish material on which the fixing hardware will be seated, and laminate the insulation finish material By repeating the process,
The stone material of the insulation finishing material provides primary insulation from outside air, the insulating material integrated with the stone material is responsible for the secondary insulation, the space between the insulation material of the insulation finishing material and the contact insulation material is responsible for the tertiary insulation, and the The contact insulation material is responsible for the final insulation,
As for the indoor temperature, the contact insulation material in close contact with the wall performs the primary insulation, the space between the insulation material of the insulation finishing material and the contact insulation material is responsible for the secondary insulation, the insulation material integrated with the stone is responsible for the third insulation, and the insulation finishing material 4 stages of external insulation were achieved so that the stone material of
In addition to the thermal insulation finishing material that realizes both insulation and finishing, the thermal insulation effect of the heat-reflecting insulation material in contact with the building and the space part also play an important role in insulation. A construction method for multiple insulation of exterior walls of buildings. delete delete

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