KR102187006B1 - Structure for insulating building and method for forming same - Google Patents

Abstract

The insulation structure of a building according to the present invention includes a wall, a first surface reinforced insulation panel installed on one side of the wall to block heat, and the first surface reinforced insulation panel continuously installed on the wall to block heat. The second surface reinforced thermal insulation panel and the first surface reinforced thermal insulation panel and the second surface reinforced thermal insulation panel are filled between contact surfaces in contact with each other to form an end portion of the first surface reinforced thermal insulation panel and the second surface reinforced thermal insulation panel. Foamed urethane foam adhering to each other, a finished surface reinforced mortar layer filled between the first surface reinforced insulating panel and the second surface reinforced insulating panel to finish the foamed urethane foam, the first surface reinforced insulating panel, the It includes a second surface reinforced thermal insulation panel and a coating layer coated on the finished surface reinforced mortar layer.

Description

Structure for insulating building and method for forming same}

The present invention relates to an insulation structure of a building using a cement-based surface reinforced insulation panel and a method of forming the same, and more particularly, to an insulation structure of a building using a cement-based surface-reinforced insulation panel that does not require the installation of a material separator at the joint, and its formation. It's about the method.

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

Insulation materials used in buildings include styrofoam, urethane foam, glass wool, rock wool, and polyester foam. These insulating materials are mainly manufactured in a plate shape, and are used by being attached to a wall or the like. In fact, the use of such insulation can prevent significant heat losses.

On the other hand, in recent years, a composite insulation panel in which a finishing material is integrated with an insulation material has been widely used without installing a separate finishing material on the insulation material.

Types of such composite insulation panels include CRC board (Cellulose Reinforced Cement Board: asbestos-free high-density fiber reinforced cement board), MG board (Magnesium Board: magnetum board), and PP board (polypropylene board).

When such composite insulation panels are continuously installed, joint bead is installed in the joint part as a material separator concept because joint cracks occur due to expansion and contraction of the board in the joint part where the composite insulation panels are in contact with each other. Joint beads are largely divided into'I' type and'T'.

When'I' type joint bead is installed in the joint part, it is not possible to perform precise construction depending on the thickness of the material, so it is easy to create a gap in the joint part.

When installing a'T'-type joint bead on the joint, adhesive should be applied when installing the bead to reduce the risk of falling off in the future.

On the other hand, the cement-based surface reinforced thermal insulation panel has the advantage of being able to finish with putty after attaching a fiber mesh because there are few joint cracks due to expansion and contraction. However, an additional process is required to finish using putty on the cement-based surface reinforced insulation panel joint.

Korean Patent Registration No. 10-1665662 (announced on October 13, 2016)

The present invention provides a thermal insulation structure of a building and a method of forming the same, which has strong resistance to bending and can enhance adhesion to a wall to achieve the above object.

In addition, it provides a building insulation structure and a method of forming the insulation panel capable of fast construction.

In addition, it is possible to reduce the work process in the field, it provides a thermal insulation structure and a method of forming the building that can reduce the construction period and construction cost.

The thermal insulation structure of a building according to an aspect of the present invention for achieving the above object includes a wall, a first surface reinforced thermal insulation panel installed on one side of the wall and blocking heat, and the first surface reinforced thermal insulation on the wall. A second surface reinforced thermal insulation panel that is continuously installed with the panel and blocks heat, and the first surface reinforced thermal insulation panel and the first surface reinforced thermal insulation panel are filled between the contact surfaces of the first and second surface reinforced thermal insulation panels in contact with each other. A foamed urethane foam for adhering the ends of the second surface reinforced insulating panel to each other, and a finished surface reinforced mortar layer filled between the first surface reinforced insulating panel and the second surface reinforced insulating panel to finish the foamed urethane foam , The first surface reinforced thermal insulation panel, the second surface reinforced thermal insulation panel, and a coating layer coated on the finished surface reinforced mortar layer may be provided.

In addition, the second surface reinforced thermal insulation panel and the second surface reinforced thermal insulation panel have a flat mortar layer formed by impregnating mortar into a glass fiber mesh attached to one surface of a flat insulation material, and a flat mortar layer attached to the other surface of the flat insulation material. A flat surface-reinforced mortar layer formed by impregnating a surface-reinforced mortar on a glass fiber mesh, and a flat-plate finished mortar layer formed by applying mortar to the flat surface-reinforced mortar layer may be provided.

In addition, a corner surface-reinforced mortar layer formed by applying the surface-reinforced mortar on the surface of the corner insulating material and the corner insulating material having an a-shape at the corners where the first and second surface-reinforced insulating panels meet each other. It may be provided with a surface reinforced thermal insulation panel for a corner having.

In addition, the surface-reinforced mortar may be formed in a weight ratio of 40: 25: 10: 12 to Portland cement, acrylic polymer resin, silica sand, and water in the total weight.

A method of forming a thermal insulation structure for a building according to an aspect of the present invention includes attaching a first surface reinforced thermal insulation panel to block heat on one surface of a wall, and foaming a foamed urethane foam at the end of the first surface reinforced thermal insulation panel. Step, and continuously installing a second surface-reinforced heat-insulating panel at an end of the first surface-reinforced heat-insulating panel; and a surface-reinforced mortar between the first and second surface-reinforced heat-insulating panels. Filling to form a finished surface reinforced mortar layer, and coating the first surface reinforced thermal insulation panel, the second surface reinforced thermal insulation panel, and the finished surface reinforced mortar layer to form a coating layer.

In addition, the first surface reinforced thermal insulation panel and the second surface reinforced thermal insulation panel have a flat mortar layer formed by impregnating mortar in a glass fiber mesh attached to one surface of a flat insulation material, and a flat mortar layer attached to the other surface of the flat insulation material. A flat surface-reinforced mortar layer formed by impregnating the surface-reinforced mortar on the glass fiber mesh, and a flat-plate finished mortar layer for forming a finish by applying the flat surface-reinforced mortar layer may be provided.

In addition, at the corners where the first surface reinforced thermal insulation panel and the second surface reinforced thermal insulation panel meet each other, a surface reinforced thermal insulation panel for corners having a corner surface reinforced mortar layer formed by applying the surface reinforced mortar is installed. Thereafter, the end of the first surface reinforced heat insulating panel and the end of the second surface reinforced heat insulating panel are adhered to the end of the edge surface reinforced heat insulating panel, respectively, and then the first surface reinforced heat insulating panel, the surface reinforced for the edge Insulation panel, the second surface reinforced insulation panel may be painted.

According to the heat insulation structure of a building and its formation method of the present invention, since both sides of the heat insulation panel are mortared, resistance to bending is strong, and adhesion to the wall can be strengthened.

In addition, because the insulation panel can be painted and finished, quick construction is possible.

In addition, by using foamed urethane foam and finish surface reinforced mortar at the joint of the insulation panel, it is possible to perform construction without putty, so it is possible to perform fast construction.

In addition, it is possible to reduce the heterogeneity of the joint by applying a thin layer of surface reinforced mortar, which is the same as the finishing material of the insulating panel, to the joint of the insulating panel.

In addition, it is possible to perform fast construction because the insulation panels are constructed using surface-reinforced insulation panels for corners at the corners where they meet each other.

In addition, it is possible to reduce the work process in the field by using a surface reinforced insulation panel for corners, it is possible to reduce the construction cost.

1 is a plan view of a balcony in which an insulating structure of a building is formed according to an embodiment of the present invention.
Figure 2 is an enlarged view showing a portion A in Figure 1;
Figure 3 is an enlarged view of the surface reinforced insulation panel used in the portion A of Figure 2;
4 is an enlarged view of part B in FIG. 1.
5 is a flow chart showing a method of forming a thermal insulation structure of a building according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, it goes without saying that the present invention is not limited to these embodiments and may be modified in various forms.

In the drawings, in order to clearly and briefly describe the present invention, portions not related to the description are omitted, and the same reference numerals are used for identical or extremely similar portions throughout the specification. In addition, in the drawings, the thickness and width are enlarged or reduced in order to clarify the description. However, the thickness and width of the present invention are not limited to those shown in the drawings.

In addition, when a certain part "includes" another part throughout the specification, the other part is not excluded, and other parts may be further included unless specifically stated to the contrary. In addition, when a part such as a layer, film, region, plate, etc. is said to be "on" another part, this includes not only the case where the other part is "directly above" but also the case where the other part is located in the middle. When a part such as a layer, a film, a region, or a plate is "directly over" another part, it means that no other part is located in the middle.

Hereinafter, with reference to the accompanying drawings will be described in detail the insulating structure of the building and a method of forming the same according to an embodiment of the present invention.

1 is a plan view of a balcony in which an insulating structure of a building is formed according to an embodiment of the present invention.

Referring to FIG. 1, the thermal insulation structure of a building according to an embodiment of the present invention is installed in a space that can contact outside air such as a balcony in contact with an outdoor surface or an evacuation space to block a thermal bridge. On the other hand, after being attached to the wall, the resistance to bending is strong and the adhesion to the wall can be strengthened.

FIG. 2 is an enlarged view showing part A in FIG. 1, and FIG. 3 is an enlarged view of a surface-reinforced insulating panel used in part A of FIG. 2.

2 and 3, the insulating structure of the building is a wall 10, and a first surface reinforced thermal insulation panel 110 that is installed on one side of the wall 10 and blocks heat. A second surface reinforced thermal insulation panel 120 that is continuously installed with the first surface reinforced thermal insulation panel 110 and blocks heat on the wall 10, the first surface reinforced thermal insulation panel 110 and the second The foamed urethane foam 130 is filled between the contact surfaces in which the surface reinforced thermal insulation panels 120 are in contact with each other to bond the ends of the first surface reinforced thermal insulation panel 110 and the second surface reinforced thermal insulation panel 120 to each other. , A finish surface reinforced mortar layer 140 filled between the first surface reinforced insulation panel 110 and the second surface reinforced insulation panel 120 to finish the foamed urethane foam 130, and the first surface It includes a reinforced thermal insulation panel 110, the second surface reinforced thermal insulation panel 120, and a coating layer 150 coated on the finished surface reinforced mortar layer 140.

The first surface reinforced thermal insulation panel 110 and the second surface reinforced thermal insulation panel 120 are surface reinforced thermal insulation panels formed by curing after mortar is applied to the surface of the flat insulation material 210, and have the same structure.

The surface reinforced insulation panels 110 and 120 are formed by impregnating a glass fiber mesh 221 attached to one surface of the flat insulation material 210 with mortar, and the other side of the flat insulation material 210 A flat surface-reinforced mortar layer 230 formed by impregnating a surface-reinforced mortar on the glass fiber mesh 231 attached to the surface, and a flat-plate finish mortar in which a mortar is applied to the flat surface-reinforced mortar layer 230 to form a finish A layer 240 is provided.

In this embodiment, a foamed polystyrene plate manufactured by foaming polystyrene is used as the flat plate insulation material 210, and in particular, a bead-shaped raw material is heated and compressed and melted, and then foamed at atmospheric pressure to form a plate. An example of using expanded polystyrene, which is produced by aging the resulting material at room temperature and cutting it to a desired thickness, was used. As described above, it can be seen that the extrusion method expanded polystyrene plate has better insulation performance than Styrofoam, which is usually used as a heat insulation plate material, does not cause particles to fall off, is easy to process, and has good adhesion.

Such expanded polystyrene boards can be used directly, but unprocessed expanded polystyrene boards are weak in strength and are easily broken and deformed, and interior materials such as wallpaper do not easily adhere to the surface of expanded polystyrene. Surface reinforced insulation panels 110 and 120 reinforced with cement mortar are used.

Meanwhile, a urethane foam 130 is filled between the contact surfaces of the first surface reinforced thermal insulation panel 110 and the second surface reinforced thermal insulation panel 120 to contact each other, so that the first surface reinforced thermal insulation panel 110 and The ends of the second surface reinforced insulating panel 120 are adhered to each other. In this way, by bonding the first surface reinforced thermal insulation panel 110 and the second surface reinforced thermal insulation panel 120 to each other using the foamed urethane foam 130, the first surface reinforced thermal insulation panel 110 and the second surface reinforced There is an effect of bonding the insulation panels 120 to each other and at the same time filling the gaps, thereby preventing the thermal bridge phenomenon. In addition, since the first surface reinforced thermal insulation panel 110 and the second surface reinforced thermal insulation panel 120 are not bonded by using putty, the speed of operation can be increased.

In addition, a finish surface reinforced mortar layer 140 is provided between the first surface reinforced heat insulating panel 110 and the second surface reinforced heat insulating panel 120 to cover the foamed urethane foam 130 to finish. By forming the finish surface reinforced mortar layer 140 in this way, it is possible to reduce the feeling of heterogeneity in the joint area, and the finish can be made neat.

Finished surface reinforced mortar layer 140 for finishing the foamed urethane foam 130, the first surface reinforced insulation panel 110, the second surface reinforced insulation panel 120, and the finished surface reinforced mortar layer 140 ) Is provided with a coating layer 150 to be painted. Of course, if necessary, a finishing material such as wallpaper may be applied to finish, but in the thermal insulation structure of the building according to this embodiment, since mortar is applied to the surface of the thermal insulation panel 210, a paint such as paint is applied to the first surface reinforced thermal insulation panel. It may be painted on the surface of (110) and the second surface reinforced thermal insulation panel 120 and the finished surface reinforced mortar layer 140.

Therefore, not only can the finish be easy, but it can be neat.

On the other hand, the surface-reinforced mortar 240 impregnated in the glass fiber mesh 231 attached to the other surface of the flat plate insulation 210 has a weight ratio of Portland cement, acrylic polymer resin, silica sand, and water in the total weight of 40: 25: 10 : Can be formed into 12.

The surface reinforced mortar 240 is formed by mixing white portlant cement, acrylic polymer resin, and silica sand in water, and applying it to a thickness of 1 to 3 mm and drying to reinforce the surface to form the surface reinforced insulation panels 110 and 120 Is done.

The surface reinforced insulation panels 110 and 120 as described above have a certain strength by reinforcing the surface of the expanded polystyrene plate with the glass fiber mesh 231 and the surface reinforced mortar 240 and thus are not easily broken or broken, and are not easily bent. Will have. In particular, the surface reinforced insulation panels 110 and 120 are lightweight, easy to handle, and have the advantage that they can be easily cut with a knife or a saw. In addition, the cement mortar surface reinforced with the surface maintains a flat surface, and has the advantage of being able to easily attach wallpaper or interior materials with good adhesion to the adhesive.

Meanwhile, in the above-described building insulation structure, a panel for corner construction is developed and attached at the corner of the balcony, and the connection part with the insulation panel is constructed by the joint finishing method. As a factory-made type, uniform quality control is possible and on-site construction is also simple.

4 is an enlarged view of part B in FIG. 1.

Referring to Figure 4, the first surface reinforced insulation panel 110 and the second surface reinforced insulation panel 120 at a corner where they meet each other, the corner insulation 310 and the edge insulation 310 having a shape A surface reinforced thermal insulation panel 300 for corners having a corner surface reinforced mortar layer 320 formed by applying the surface reinforced mortar on the surface is provided.

In this way, the first surface reinforced insulation panel 110 and the second surface reinforced insulation panel 120 used at the corners where they meet each other, the surface reinforced insulation panel 300 for corners is a factory-made type and provides uniform quality control. Because it is possible, site construction is also simple.

The first surface reinforced thermal insulation panel 110 and the joint of the edge surface reinforced thermal insulation panel 300 and the joint of the edge surface reinforced thermal insulation panel 300 and the second surface reinforced thermal insulation panel 120 Since it is the same as the joint of the panel 110 and the second surface reinforced insulating panel 120, a detailed description will be omitted.

On the other hand, the surface reinforced thermal insulation panel 300 for corners also has a corner surface reinforced mortar layer 320, which reinforces the flat surface provided in the first surface reinforced thermal insulation panel 110 and the second surface reinforced thermal insulation panel 120 It is continuously installed in contact with the mortar layer 230.

In addition, the surface-reinforced mortar forming the edge surface-reinforced mortar layer 320 may have a weight ratio of Portland cement, acrylic polymer resin, silica sand, and water in the total weight of 40: 25: 10: 12.

In the above, the heat insulation structure of a building according to an embodiment of the present invention has been described.

Hereinafter, a method for forming the insulating structure of the above-described building will be described.

5 is a flow chart showing a method of forming a thermal insulation structure of a building according to an embodiment of the present invention.

Referring to FIG. 5, attaching a first surface reinforced thermal insulation panel 110 to block heat on one surface of the wall 10 (S100), and foamed urethane at the end of the first surface reinforced thermal insulation panel 110. The step of foaming the foam 130 (S200), and the step of continuously installing a second surface reinforced thermal insulation panel 120 at the end of the first surface reinforced thermal insulation panel 110 (S300), and the first surface Filling a surface reinforced mortar between the ends of the reinforced insulation panel 110 and the second surface reinforced insulation panel 120 to form a finished surface reinforced mortar layer 140 (S400), and the first surface reinforced insulation It may include the step (S500) of forming a painting layer 150 by painting the panel 110, the second surface reinforced thermal insulation panel 120 and the finished surface reinforced mortar layer 140.

In the method of forming a thermal insulation structure of a building according to an embodiment of the present invention, after attaching the first surface reinforced thermal insulation panel 110 to the wall 10, the foamed urethane foam 130 at the end of the first surface reinforced thermal insulation panel 110 ) After foaming, the second surface reinforced insulation panel 120 is continuously installed. By sequentially installing the surface reinforced thermal insulation panels 110 and 120 in this way, the finish at the joint portion of the surface reinforced thermal insulation panels 110 and 120 can be neatly processed.

Meanwhile, the first surface reinforced thermal insulation panel 110 and the second surface reinforced thermal insulation panel 120 are formed by impregnating a glass fiber mesh 221 attached to one surface of the flat insulation material 210 with mortar. The layer 220, a flat surface-reinforced mortar layer 230 formed by impregnating a surface-reinforced mortar in the glass fiber mesh 231 attached to the other surface of the flat insulator 210, and the flat surface-reinforced mortar layer ( 230) is applied and a flat plate finish mortar layer 240 to form a finish.

As the surface reinforced insulation panels 110 and 120 are formed in this way, the surface of the cement mortar reinforced with the surface maintains a flat surface, and has the advantage of being able to easily attach wallpaper or interior materials with good adhesion to the adhesive. .

On the other hand, the first surface reinforced thermal insulation panel 110 and the second surface reinforced thermal insulation panel 120 having a corner surface reinforced mortar layer 320 formed by applying the surface reinforced mortar at the corners where they meet each other. After installing the surface reinforced thermal insulation panel 300 for corners, the end of the first surface reinforced thermal insulation panel 110 and the end of the second surface reinforced thermal insulation panel 120 are respectively connected to the surface reinforced thermal insulation panel 300 for corners. ) After bonding to the end, the first surface reinforced insulation panel 110, the edge surface reinforced insulation panel 300, and the second surface reinforced insulation panel 120 are painted.

The surface-reinforced insulation panel 300 for corners used at the corners is a factory-made type, and since uniform quality control is possible, on-site construction is also easy.

In the above, the thermal insulation structure of a building and a method of forming the same according to an embodiment of the present invention have been described.

The embodiments of the present invention described above are merely exemplary, and those of ordinary skill in the art to which the present invention pertains will appreciate that various modifications and other equivalent embodiments are possible. Therefore, it will be appreciated that the present invention is not limited to the form mentioned in the detailed description above. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims. In addition, the present invention is to be understood as including the spirit of the present invention as defined by the appended claims and all modifications, equivalents and substitutes within the scope thereof.

10: wall 110: first surface reinforced insulation panel
120: second surface reinforced insulation panel 130: urethane foam
140: finish surface reinforced mortar layer 150: painting layer
210: glass fiber mesh 220: flat mortar layer
230: flat surface reinforced mortar layer 240: flat finished mortar layer

Claims (7)

Wall,
A first surface reinforced thermal insulation panel installed on one side of the wall and blocking heat,
A second surface-reinforced heat-insulating panel that is continuously installed on the wall and blocks heat,
A foamed urethane foam filled between the contact surfaces of the first surface reinforced thermal insulation panel and the second surface reinforced thermal insulation panel to bond the ends of the first surface reinforced thermal insulation panel and the second surface reinforced thermal insulation panel to each other;
A finished surface reinforced mortar layer filled between the first surface reinforced thermal insulation panel and the second surface reinforced thermal insulation panel to finish the foamed urethane foam,
The first surface reinforced thermal insulation panel, the second surface reinforced thermal insulation panel, and a coating layer coated on the finished surface reinforced mortar layer,
The first surface reinforced thermal insulation panel and the second surface reinforced thermal insulation panel include a flat mortar layer formed by impregnating mortar in a glass fiber mesh attached to one surface of a flat insulation material, and a glass fiber attached to the other surface of the flat insulation material. A flat surface-reinforced mortar layer formed by impregnating the mesh with surface-reinforced mortar, and a flat-plate finished mortar layer formed by applying mortar to the flat surface-reinforced mortar layer,
The surface-reinforced mortar has a weight ratio of Portland cement, acrylic polymer resin, silica sand, and water to the total weight of 40: 25: 10: 12. delete The method of claim 1,
The first surface reinforced thermal insulation panel and the second surface reinforced thermal insulation panel are provided with a corner insulating material having an a-shape and a corner surface reinforced mortar layer formed by applying the surface reinforced mortar on the surface of the corner insulating material at the corners where they meet each other. Insulation structure of a building, characterized in that it is provided with a surface reinforced insulation panel for corners. delete Attaching a first surface reinforced thermal insulation panel to block heat on one side of the wall,
Foaming a foamed urethane foam at an end of the first surface reinforced insulation panel,
Step of continuously installing a second surface reinforced thermal insulation panel at an end of the first surface reinforced thermal insulation panel,
Forming a finished surface-reinforced mortar layer by filling a surface-reinforced mortar between the ends of the first and second surface-reinforced heat-insulating panels; and
Comprising the step of forming a painting layer by painting the first surface reinforced thermal insulation panel, the second surface reinforced thermal insulation panel, and the finished surface reinforced mortar layer,
The first surface reinforced thermal insulation panel and the second surface reinforced thermal insulation panel include a flat mortar layer formed by impregnating mortar in a glass fiber mesh attached to one surface of a flat insulation material, and a glass fiber attached to the other surface of the flat insulation material. A flat surface-reinforced mortar layer formed by impregnating the mesh with surface-reinforced mortar, and a flat-plate finished mortar layer formed by applying mortar to the flat surface-reinforced mortar layer,
The surface-reinforced mortar has a weight ratio of portland cement, acrylic polymer resin, silica sand, and water in the total weight of 40: 25: 10: 12. delete The method of claim 1,
At the corners where the first surface reinforced thermal insulation panel and the second surface reinforced thermal insulation panel meet each other,
After installing a surface reinforced insulation panel for corners having a corner surface reinforced mortar layer formed by applying the surface reinforced mortar, the end of the first surface reinforced insulation panel and the end of the second surface reinforced insulation panel are respectively After bonding to the end of the surface reinforced insulation panel for corners,
The first surface reinforced thermal insulation panel, the edge surface reinforced thermal insulation panel, and the second surface reinforced thermal insulation panel is coated.

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