KR20200060814A - System for reinforcement of exterior insulation and construction method thereof - Google Patents

Abstract

According to the present invention, an external insulation reinforcing system comprises: a fire retardant waterproof tape attached to an existing external wall applied with the external insulation system in which an insulating material is attached to an external side of the wall; a vacuum insulating material attached to the fire retardant waterproof tape; and a finishing layer for finishing the vacuum insulating material. Therefore, the external insulation reinforcing system can be constructed in the winter by using a dry construction method.

Description

External insulation reinforcement system and construction method {SYSTEM FOR REINFORCEMENT OF EXTERIOR INSULATION AND CONSTRUCTION METHOD THEREOF}

The present invention relates to an external insulation reinforcement system and a construction method, and more particularly, to an external insulation reinforcement system and construction method capable of improving waterproof, thermal insulation reinforcement and fire response and aesthetics by reinforcing an aged external insulation system.

The largest portion of the energy consumption of buildings is heat loss through windows and exterior walls. Among them, an insulating material is generally used to prevent heat loss through the outer wall.

Thus, according to the location where the insulation is used, it is divided into an external insulation method and an internal insulation method. The double heat insulation method is a method of constructing an insulating material on the outer peripheral surface of the wall.

The external insulation method has advantages and disadvantages, and as an advantage, it forms an effective heat insulation layer directly inside the exterior material, so it is not affected by cooling by sunlight and cold, so there is less heat loss, and it maintains the indoor environment on the floor, wall, or roof. As it can be used as a heat storage body, it takes less energy to maintain the room temperature properly. In addition, since the building structure serves as a heat storage body for maintaining the indoor environment, it is difficult to generate an extreme temperature difference in the room and there is little concern about condensation in winter.

On the other hand, in the case of a proper temperature by air conditioning, such as an air conditioner, a structure that is not used for a long period of time takes a long time to maintain the temperature because heat is transferred to structures other than the internal space. In addition, there is a disadvantage in that it takes a long time and a lot of labor costs depending on the shape of the building.

One of these external insulation methods is a dry bit method. The dry-bit method is a finishing method in which a combustible material such as styrofoam is attached to the outer wall of a building, a mesh is attached to it, and then plaster or cement is added to the mesh.

Such a dry bit method has an advantage of being inexpensive and simple to construct, but as time passes, cement or the like attached to the mesh ages, and when water penetrates between the cement, there is a problem in that water resistance and insulation are inferior. In addition, when a combustible material is used as a heat insulating material, there is a problem that the fire spreads rapidly during a fire and there is a great fear of human life by emitting toxic gases.

Therefore, the development of a reinforcement system capable of reinforcing an external insulation system that ages over time is being sought.

Republic of Korea Registered Patent Publication No. 10-1444253 (announced on September 26, 2014)

The present invention is to solve the above problems, and an object of the present invention is to provide an external insulation reinforcement system and a construction method capable of responding to waterproofing, thermal bridges and fires by reinforcing an aging external insulation system.

In addition, it is possible to use in addition to the existing external insulation system without having to dismantle the existing external insulation system, thereby providing an external insulation reinforcement system and construction method that can prevent waste generated when dismantling the existing external insulation system. Is to do.

In addition, by using a dry construction method to provide an external insulation reinforcement system and construction method that can be constructed even in winter.

The outer insulation reinforcement system according to an aspect of the present invention is a flame retardant waterproof tape attached to an existing outer wall to which an outer insulation system with an insulation material attached to the outside of the wall is applied, a vacuum insulation material attached to the flame retardant waterproof tape, and the vacuum insulation material. A finishing layer for finishing may be provided.

In addition, a flame retardant coating layer formed by coating a flame retardant material on the vacuum insulating material may be further provided.

In addition, the flame-retardant waterproof tape is formed on both sides of the adhesive layer so as to be attached to the existing outer wall and the vacuum insulating material, respectively, may be formed of a flame-retardant butyl tape.

In addition, between the flame-retardant waterproof tape and the vacuum insulating material, a fixture that is inserted into and coupled to the existing outer wall may be installed.

A primer layer formed by applying a primer between the existing outer wall and the flame-retardant waterproof tape may be further provided.

In addition, a fire diffusion prevention panel may be inserted to prevent the fire from spreading at certain sections of the existing outer wall.

Construction method of the external insulation reinforcement system according to an aspect of the present invention comprises the steps of attaching a flame retardant waterproof tape to an existing outer wall to which the external insulation system is applied, attaching a vacuum insulation material to the outside of the flame retardant waterproof tape, and the vacuum insulation material It may include the step of forming a finishing layer by finishing on the outside.

In addition, after the step of attaching the vacuum insulating material, the step of coating a flame retardant on the outside of the vacuum insulating material may further include forming a flame retardant coating layer.

In addition, prior to the step of attaching the flame-retardant waterproof tape, it may further include the step of inserting a fire diffusion prevention panel at regular intervals to the existing outer wall to which the outer heat insulation system is applied.

In addition, prior to the step of attaching the flame-retardant waterproof tape, may further include the step of installing a fixture that is inserted into the existing outer wall and coupled.

According to the external insulation reinforcement system and construction method according to an aspect of the present invention, it is possible to improve the performance of waterproof, heat insulation, fire resistance, fire prevention, appearance improvement, etc. by improving the weakness of the existing aging exterior insulation.

In addition, since the existing external insulation can be reinforced by using the dry method, the external insulation reinforcement method can be performed even in cold weather, such as in winter.

In addition, while minimizing the thickness of the outer wall, it is possible to improve performance such as waterproofing, heat insulation, fire resistance, fire prevention, and appearance improvement.

In addition, it is possible to prevent waste generated when dismantling the existing external insulation system.

1 is a cross-sectional view showing the concept of the outer insulation reinforcement system according to an embodiment of the present invention.
Figure 2 is a cross-sectional view showing a combined state of the outer insulation reinforcement system according to Figure 1;
Figure 3 is a cross-sectional view showing an external insulation reinforcement system according to another embodiment of the present invention.
Figure 4 is a cross-sectional view showing a combined state of the outer insulation reinforcement system according to Figure 3;
Figure 5 is a cross-sectional view showing an outer insulation reinforcement system according to another embodiment of the present invention.
Figure 6 is a cross-sectional view showing a combined state of the external insulation reinforcement system according to Figure 5;
Figure 7 is a cross-sectional view showing an external insulation reinforcement system according to another embodiment of the present invention.
Figure 8 is a flow chart showing the construction method of the outer insulation reinforcement system according to an embodiment of the present invention.

Hereinafter, an external insulation reinforcement system and a construction method according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing the concept of an external insulation reinforcement system according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view showing a combined state of the external insulation reinforcement system according to FIG. 1.

1 and 2, the outer insulation reinforcement system according to an embodiment of the present invention is a flame retardant waterproof attached to an existing outer wall 10 to which an outer insulation system with an insulation 2 attached to the outside of the wall 1 is applied. A tape 110, a vacuum insulating material 120 attached to the flame-retardant waterproof tape 120, and a finishing layer 130 for closing the vacuum insulating material 120 are provided.

In this embodiment, the existing outer wall showed that an outer heat insulating system with a heat insulating material attached to the outside of the wall 1 as a structure was applied. In the external insulation system, the heat insulating material 2 is installed on the outside of the wall (structure), and the heat insulating material 2 may be made of a heat insulating material manufactured by a bead method such as expanded polystyrene (EPS).

On the other hand, in the present embodiment, it was shown that the existing outer wall 10 was performed by a dry bit method. Therefore, a mesh 3 or the like was attached to the outside of the heat insulating material 2, and the mortar layer 4 was formed on the mesh 3, and the outer wall was seen to be closed. However, the existing outer wall 10 may be applied to an outer wall in which various finishes, such as stone, aluminum panels, masonry, etc., are performed, as well as a dry bit method.

Such an existing external insulation system ages over time, and when it ages, the mortar layer 4 splits and moisture penetrates through the cracks, and the insulating material 2 may be damaged by the moisture penetrated. In addition, since the heat insulator 2 is vulnerable to fire, a fire may spread to the upper layer by the heat insulator 2 when a fire occurs.

In order to reinforce the existing external insulation system, the external insulation reinforcement system according to an embodiment of the present invention is a flame-retardant waterproof tape 110 attached to the existing outer wall 10 and a vacuum attached to the flame-retardant waterproof tape 110 An insulating material 120 and a finishing layer 130 for closing the vacuum insulating material 120 are provided.

First, the flame retardant waterproof tape 110 is attached to the existing outer wall 10, the flame retardant waterproof tape 110 is installed to improve the waterproof performance of the existing outer wall (10). In addition, it will also function to attach the vacuum insulating material 120 to be described later to the existing outer wall (10).

The flame-retardant waterproof tape 110 has a waterproof function to prevent moisture from penetrating into the existing outer wall 10 side. The flame retardant waterproof tape 110 may be formed by having an adhesive layer on a butyl rubber or PET sheet. On the other hand, the flame-retardant waterproof tape 110 can be formed on the adhesive layer on both sides so that the vacuum insulating material 120 can be attached while being attached to the existing outer wall 10.

Meanwhile, a vacuum insulating material 120 is attached to the outside of the flame-retardant waterproof tape 110. Vacuum insulation panel (120, VIP: Vacuum Insulation Panel) is an insulation material vacuum-treated by putting a core material in an aluminum multi-film. Since the vacuum insulating material 120 does not conduct heat or conduct convection in a vacuum state, and radiant heat is reflected by the aluminum multi-film, it has an insulation performance of approximately 10 to 15 times as compared with a general foam foam. Although this thermal performance is superior to that of ordinary foamed Styrofoam, the thickness is only about 1/10 of that of normal foamed Styrofoam insulation.

In addition, since the vacuum insulating material 120 uses an inorganic material such as glass wool, fume the silica, and the like as a core material, it has a non-combustible or semi-combustible performance.

In one embodiment of the present invention, the existing outer wall 10 is not dismantled, but is intended to reinforce various functions such as waterproofness and heat insulation, and is characterized by being constructed in addition to the existing outer wall 10. However, when a general insulating material is used to add to the existing outer wall 10, the thickness of the outer wall becomes too thick and it is difficult to secure the fire resistance of the insulating material.

However, in one embodiment of the present invention, by using the vacuum insulating material 120, in addition to the fire resistance performance of the existing outer wall 10, semi-non-combustible or non-combustible performance may also be added.

Therefore, in one embodiment of the present invention, a vacuum insulating material 120 is added to the outside of the flame-retardant waterproof tape 110 to ensure sufficient heat insulation while preventing the new outer wall from becoming thicker than the existing outer wall 10. have.

On the other hand, since the vacuum insulation material 120 is damaged when the outer shell is damaged and the vacuum is destroyed, the performance of the vacuum insulation material 120 is remarkably deteriorated, so that the flame-retardant waterproof tape 110 is used without fixing it through a hardware such as a fastener. It can be fixed while maintaining the performance of the vacuum insulating material 120.

The vacuum insulating material 120 is provided with a finishing layer 130 on the outside of the vacuum insulating material 120. The finishing layer 130 may be formed in various forms, for example, finishing spraying may be used. In this embodiment, although the finishing spray was used as the finishing layer 130, the finishing layer may be formed using other materials.

On the other hand, the external insulation reinforcement system according to the above-described embodiment may be implemented in a modified manner. Hereinafter, a modified embodiment of the external insulation reinforcement system according to the above-described embodiment will be described. In describing the modified embodiments below, the same reference numerals are used for the same configuration as the above-described embodiments, and detailed descriptions thereof will be omitted.

3 is a cross-sectional view showing an outer heat insulation reinforcement system according to another embodiment of the present invention, and FIG. 4 is a cross-sectional view showing a combined state of the outer heat insulation reinforcement system according to FIG. 3.

3 and 4, the outer insulation reinforcement system according to another embodiment of the present invention may form a primer layer 105 by applying a primer between the existing outer wall 10 and the flame-retardant waterproof tape 110. . Since the existing outer wall 10 is dusty, and the existing outer wall 10 cannot be completely flat, applying the primer to the existing outer wall 10 to form a primer layer 105 can even the existing outer wall 10. Not only that, it can also be helpful in attaching the flame retardant waterproof tape 110 to an existing outer wall.

On the other hand, between the flame-retardant waterproof tape 110 and the vacuum insulating material 120, a fixture 115 inserted into and coupled to the existing outer wall 10 may be installed. The fixture 115 is installed at predetermined intervals to prevent the flame-retardant waterproof tape 110 from falling off the existing outer wall 10 and at the same time to prevent the existing external insulation system from falling off, and the flame-retardant waterproof tape 110 and the existing external insulation system Can support. Since the flame-retardant waterproof tape 110 is coupled to the existing outer wall 10, it is possible to prevent the existing aging mortar layer 4 and the existing heat insulating material 2 from being detached from the wall 1.

The fastener 115 may be inserted into the wall 1 or the like, and a fastener or the like that may be combined may be used. In order to block a thermal bridge through the fastener, a fastener having an insulating function may be used.

Meanwhile, a flame retardant coating layer 125 formed by coating a flame retardant material on the vacuum insulating material 120 may be further provided. As described above, the vacuum insulating material 120 may have a flame retardant coating layer 125 formed by coating a flame retardant material to enhance flame retardancy, although having a non-combustible or semi-non-combustible performance. By further providing such a flame-retardant coating layer 125, it is possible to further prevent the spread of fire through the heat insulating material 2 in the external insulation structure.

5 is a cross-sectional view showing an outer heat insulation reinforcement system according to another embodiment of the present invention, and FIG. 6 is a cross-sectional view showing a combined shape of the outer heat insulation reinforcement system according to FIG. 5.

5 and 6, the outer heat insulation reinforcement system according to another embodiment of the present invention is installed with a fire diffusion prevention panel (7) to prevent the spread of fire in a certain section of the existing outer wall (10) Can be.

To this end, the insulation material (2), the mesh (3), and the cement layer (4) forming the existing outer wall (10) are dug at regular intervals, and then the fire diffusion prevention panel (7) is inserted into the formed groove to be installed. have. As the fire diffusion prevention panel 7, a cement panel or the like formed by compression molding may be used.

If the structure for reinforcing the outer heat insulation described above is formed after the fire diffusion prevention panel 7 is installed in this way, the fire spreads through the heat insulating material 2 because the heat insulating materials 2 are separated from each other. Can be prevented.

7 is a cross-sectional view showing an external insulation reinforcement system according to another embodiment of the present invention.

The outer thermal insulation reinforcement system according to another embodiment of the present invention shown in Figure 7 in the outer thermal insulation reinforcement system shown in Figure 3 is encapsulated (encapsule) form of the vacuum insulating material 120 is wrapped with a protective material 121 of the thin film Insulators of can be used. Since the heat insulating property of the vacuum insulating material 120 is deteriorated when the vacuum is broken, an insulating material in a form of wrapping the vacuum insulating material with a protective material 121 of a flame retardant thin film is used to protect the vacuum insulating material 120.

By using this type of encapsule (encapsule) insulation, the adhesion of the finishing layer 130 for finishing the insulation can also be improved compared to when using the vacuum insulation material 120.

Meanwhile, the external insulation reinforcement system described above may be performed in the following manner.

Hereinafter, a construction method of the above-described external insulation reinforcement system will be described.

8 is a flow chart showing a construction method of the outer insulation reinforcement system according to an embodiment of the present invention.

8, the construction method of the outer insulation reinforcement system according to an embodiment of the present invention is a step (S100) of attaching a flame-retardant waterproof tape 110 to the existing outer wall 10 to which the outer insulation system is applied (S100), and flame-retardant waterproofing It includes a step (S200) of attaching the vacuum insulating material 120 to the outside of the tape 110, and forming a finishing layer 130 by finishing the outside of the vacuum insulating material 120 (S300).

By going through these steps, it is possible to improve the waterproofing, insulation reinforcement, fire response and aesthetics by reinforcing the aging external insulation system.

Meanwhile, after the step (S200) of attaching the vacuum insulating material 120, the method may further include forming a flame-retardant coating layer 125 by coating the flame-retardant material on the outside of the vacuum insulating material 120.

As described above, when the flame retardant material is coated on the outside of the vacuum insulating material 120 to pass through the step of forming the flame retardant coating layer 125, the fire can be further prevented from spreading through the heat insulating material 2 in the outer heat insulating structure.

In addition, prior to the step (S100) of attaching the flame-retardant waterproof tape 110, the step of inserting the fire diffusion prevention panel 7 into the existing outer wall 10 to which the existing outer insulation system is applied at regular intervals may be further included. have.

Fire through the insulating material (2) because the insulating material (2) in the existing outer wall (10) is separated from each other without being continuously installed by going through the step of inserting the fire diffusion prevention panel (7) into the existing outer wall (10) at regular intervals Can prevent smearing.

After the step of attaching the flame-retardant waterproof tape 110, may further include the step of installing a fixture 115 which is inserted into the existing outer wall 10 and connects the flame-retardant waterproof tape 110 to the existing outer wall 10. have.

As such, when the step of installing the fixture 115 inserted into and coupled to the existing outer wall 10 is performed, the fixture 115 is coupled to the existing outer wall 10 so that the old aging mortar layer 4 and the existing heat insulating material ( 2) It is possible to prevent the back from falling off the wall 1.

In the above, the external insulation reinforcement system and the construction method according to the embodiment of the present invention have been described, but the spirit of the present invention is not limited to the embodiments presented herein. In addition, those skilled in the art who understand the spirit of the present invention may easily propose other embodiments by adding, changing, deleting, or adding elements within the scope of the same spirit, but this also falls within the spirit of the present invention. something to do.

1: Wall 2: Insulation
3: mesh 4: mortar layer
7: Fire diffusion prevention panel 10: Existing exterior wall
110: flame retardant waterproof tape 115: fixture
120: vacuum insulation material 125: flame-retardant coating layer
130: finishing layer

Claims (10)

Flame-retardant waterproof tape attached to the existing exterior wall with an external insulation system with an insulation material attached to the outside of the wall,
A vacuum insulating material attached to the flame-retardant waterproof tape,
External insulation reinforcement system having a finishing layer for closing the vacuum insulation material. According to claim 1,
External insulation reinforcement system, characterized in that it further comprises a flame retardant coating layer formed by coating a flame retardant on the vacuum insulation material. According to claim 1,
The flame retardant waterproof tape has an adhesive layer formed on both sides so that it can be attached to the existing outer wall and the vacuum insulating material, respectively, and is a flame retardant butyl tape. According to claim 1,
An outer heat insulation reinforcement system, characterized in that between the flame-retardant waterproof tape and the vacuum insulation material, a fixture is inserted and coupled to the existing outer wall. According to claim 1,
An outer insulation reinforcement system further comprising a primer layer formed by applying a primer between the existing outer wall and the flame-retardant waterproof tape. According to claim 1,
External insulation reinforcement system, characterized in that a fire diffusion prevention panel is inserted to prevent the spread of the fire in a certain section of the existing outer wall. Attaching a flame-retardant waterproof tape to the existing exterior wall to which the external insulation system is applied,
Attaching a vacuum insulating material to the outside of the flame-retardant waterproof tape,
Construction method of the external insulation reinforcement system comprising the step of forming a finishing layer by finishing on the outside of the vacuum insulating material. The method of claim 7,
After the step of attaching the vacuum insulation material,
A method of constructing an external insulation reinforcement system further comprising the step of coating a flame retardant on the outside of the vacuum insulation material to form a flame retardant coating layer. The method of claim 7,
Before the step of attaching the flame-retardant waterproof tape,
The method of constructing an external insulation reinforcement system further comprising the step of inserting a fire diffusion prevention panel at regular intervals into an existing external wall to which the external insulation system is applied. The method of claim 7,
Before the step of attaching the flame-retardant waterproof tape,
The installation method of the external insulation reinforcement system further comprising the step of installing a fixture that is inserted and coupled to the existing outer wall.

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