KR101347399B1 - Block type panel frame for exterior insulation - Google Patents

Abstract

The present invention relates to a dry outside insulation panel. The blocked outside insulation system according to the present invention is manufactured in advance and can be constructed with only assembly in a construction site. Therefore, construction of constant quality is possible regardless of skills of a worker, and processes are simplified. The present invention is also constructed in a large building or a high-rise building and is easily replaced or repaired so that life of the building can be extended, and a thermal bridge phenomenon can be reduced due to the shape of a frame.

Description

Block type panel frame for exterior insulation

TECHNICAL FIELD The present invention relates to a block type outer heat insulating panel frame, and to an outer heat insulating wall system that simplifies the process and improves durability as an integrated finish.

Recently, due to the rapid increase in energy consumption, effective management of energy has emerged as a common issue in countries around the world, including Korea. In particular, a large amount of energy in the total energy consumption is consumed in the building part due to the problem of thermal management and energy conservation method of the building and lack of alternative energy utilization technology. You can do it.

The envelope of the building is one of the largest energy loss pathways among the various elements that make up the building. In order to reduce heat loss through the building envelope, not only developed countries but also Korea are contributing to energy saving by mandating construction by region and by part of building. However, energy saving through the insulation of buildings cannot achieve the effect only by the legal insulation standard value, and research on the insulation design, construction technology, and insulation method for each building structure has been conducted steadily.

As a heat insulating material currently used in building walls, many materials such as polystyrene foam, glass wool, rock wool, urethane foam, perlite, vermiculite and foam concrete are used. As a general construction method using these heat insulating materials, there is a heat-resistant heat insulating method for filling a heat insulating material such as glass wool in the cavity between the outer wall and the inner wall.

Conventionally, most buildings give heat insulation to the walls of buildings by the above heat-resistant method. In the case of heat-resistant insulation, the construction is easier than the external heat insulation, and the construction cost is low, and the insulation is easily protected from external shocks. There is this. On the other hand, it is less effective in terms of insulation than the form of outer insulation surrounding the outer shell, and if a thermal bridge occurs, condensation may occur inside.

For this reason, external insulation systems are used, but most existing insulation systems are wet construction methods, and defects of finishing materials and insulation are likely to occur. In addition, construction quality tends to depend on the proficiency of the on-site contractor, and existing external insulation dry systems are supported by the insulation itself in the form of L-shaped hangers or barbs. Have

The present invention provides a dry external heat insulation panel that can be built in a certain quality regardless of the proficiency of the builder by simplifying the process by pre-fabricated block external heat insulation system to enable construction in the field only.

The present invention also provides a dry outer heat insulating panel having a shape of a frame that can reduce the thermal bridge phenomenon.

Insulation panel provided on the outside of the building structure, Dry external insulation panel according to the present invention is the first and second fiber reinforced cement board; A first heat insulating material provided between the first and second fiber reinforced cement boards; And a main body provided on at least two side surfaces including two opposite sides of the first heat insulating material, the main body accommodating a part of side surfaces of the first fiber reinforced cement board, the first heat insulating material and the second fiber reinforced cement board, and the main body. And an outer frame including an extension extending from the building structure in a direction.

In addition, the outer frame may be formed of a non-flammable reinforced plastic.

Further, the outer frame may be formed of fiber reinforced plastics (FRP) material.

In addition, the first and second fiber reinforced cement board may be a carbon fiber reinforced cement board (CRC) panel.

In addition, the second fiber reinforced cement board may further include an exterior material fixed.

In addition, a second heat insulating material and a third fiber reinforced cement board may be sequentially provided between the second fiber reinforced cement board and the exterior member.

Further, the second heat insulating material and the third fiber reinforced cement board may be provided to have a width corresponding to the sum of the widths of the at least two second fiber reinforced cement boards provided in the transverse direction.

In addition, the second heat insulator may have a protrusion or groove formed at an upper end thereof in a longitudinal direction, and a groove or a protrusion corresponding to the protrusion or groove may be formed at a lower end thereof.

In addition, the outer frame may be formed with an incision in which at least a portion of the other side facing the opening surface is cut.

Furthermore, the outer frame is provided on all four sides of the first fiber reinforced cement board, the first heat insulator and the second fiber reinforced cement board, so that the first fiber reinforced cement board, the first heat insulator and the second fiber reinforced cement board You can surround it.

The extension may also function as a fixing angle for connection to the structural frame of the building structure.

According to the present invention, since the block external insulation system is pre-fabricated and can be constructed by assembly only, construction of a certain quality is possible regardless of the skill of the contractor and the process is simplified.

  In addition, according to the present invention can be installed in large, high-rise buildings, and easy to repair and replace has the effect of extending the life of the building.

In addition, according to the present invention it is possible to obtain an effect that the thermal bridge phenomenon is reduced by the shape of the frame.

1 is a perspective view showing a state of a dry outer insulation panel according to an embodiment of the present invention.
2 and 3 are rear perspective views showing the appearance of the dry outer insulation panel according to an embodiment.
Figure 4 is an exploded perspective view showing the appearance of the dry outer insulation panel according to an embodiment.
5 is a perspective view showing a state of the outer frame provided in the dry outer heat insulating panel according to the second embodiment.
6 is a longitudinal cross-sectional view showing a state of a dry outer insulation panel according to an embodiment.
7 is a cross-sectional view showing a state of the dry outer insulation panel according to an embodiment.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the absence of special definitions or references, the terms used in this description are based on the conditions indicated in the drawings. The same reference numerals denote the same members throughout the embodiments. For the sake of convenience, the thicknesses and dimensions of the structures shown in the drawings may be exaggerated, and they do not mean that the dimensions and the proportions of the structures should be actually set.

1 and 3 will be described a dry external insulation panel according to an embodiment of the present invention. 1 is a perspective view showing a state of a dry outer insulation panel according to an embodiment of the present invention. 2 and 3 are rear perspective views showing the appearance of the dry outer insulation panel according to an embodiment.

Dry outer insulation panel 100 according to the present embodiment is fixed to the structural frame 20 provided on the outside of the slab 10 as shown in FIG.

Referring to Fig. 2, a structure such as a building in the present embodiment will be described taking a slab structure as an example. The structure of the slab structure is composed of a slab 10 and the structural frame 20 (back frame).

The dry outer insulation panel 100 according to the present embodiment is provided with an outer frame 121 having a shape protruding toward the structure side. The dry outer insulation panel 100 is fixed to the structure by coupling a portion of the outer frame 121 and the structural frame 20 using a coupling member such as an L-shaped angle 21. That is, as shown in FIG. 3, the dry outer insulation panel 100 is fixed to the structural frame 20 to form an outer wall of the structure.

Hereinafter, a specific structure of the dry outer insulation panel 100 according to the present embodiment will be described.

A dry outer heat insulating panel according to an embodiment of the present invention will be described in detail with reference to FIGS. 4 to 7. 4 is an exploded perspective view illustrating a dry outer insulation panel according to an embodiment, and FIG. 5 is a perspective view illustrating an outer frame provided in the dry outer insulation panel according to the second embodiment. 6 is a longitudinal cross-sectional view showing a state of the dry outer insulation panel according to an embodiment, Figure 7 is a cross-sectional view showing a state of the dry outer insulation panel according to an embodiment.

The layers 110 of the dry outer insulation panel 100 according to the present embodiment include at least one fiber-reinforced cement board, at least one heat insulator and a face material. Referring to FIG. 4, the fiber-reinforced first fiber-reinforced cement board 111a, the first heat insulator 112a, and the second fiber-reinforced cement board 111b are sequentially provided from the inside, that is, the structure direction. The second heat insulating material 112b and the third fiber reinforced cement board 111c are further provided on the outer side of the second fiber reinforced cement board 111b. The exterior member 113 is provided outside the third fiber reinforced cement board 111c.

In this case, the first to third fiber reinforced cement boards may use carbon fiber reinforced cement boards (CRC, CFRC, carbon fiber reinforced concrete). Carbon fiber-reinforced cement board is a concrete mixed with pitch-based carbon fiber manufactured from the pitch of petroleum or coal, and its tensile strength and flexural strength are 5 to 10 times and the toughness of bending is 200 to 300 times that of conventional concrete. Have As the 1st heat insulating material 112a and the 2nd heat insulating material 112b, the extrusion method or the bead method 2 type heat insulating material, etc. can be used.

Meanwhile, the second heat insulating material 112b, the third fiber reinforced cement board 111c, and the exterior material 113 may be formed to have different widths from the other layers described above. That is, the second heat insulating material 112b, the third fiber reinforced cement board 111c, and the exterior material 113 are widths corresponding to the sum of the widths of the plurality of second fiber reinforced cement boards 111b continuously provided in the transverse direction. It may be provided to have.

The second heat insulator 112b may have a protrusion 1122b formed at the upper end thereof in the longitudinal direction, and a groove 1121b formed at the lower end thereof so that the above-described protrusion 1122b may be inserted therein. Can be. The protrusion part 1122b and the groove part 1121b may change a formation position. Each of the second heat insulating members 112b adjacent to each other in the upper and lower positions may further improve the bonding force by coupling the protrusion and the groove.

The outer frames 121a and 121b are provided around the first fiber reinforced cement board 111a, the first heat insulator 112a and the second fiber reinforced cement board 111b. The outer frame may be formed of a non-combustible reinforced plastic, and particularly preferably formed of a non-combustible fiber reinforced plastics (FRP) material.

FRP is a plastic composite material reinforced with glass and carbon fiber, and is a high-performance, high-performance material having excellent light weight, corrosion resistance, and moldability. A generic term for resins that improve the mechanical strength by incorporating a fiber base into a synthetic resin. It is used for a wide range of applications such as bathtubs, yachts, golf clubs, and industrial insulation materials, taking advantage of its long lifespan, light weight, strong strength, and anti-corruption.

Referring to FIG. 5, the outer frames 121a and 121b include a first body 1211, a second body 1212a, a third body 1212b, and an extension 1214. The first main body 1211, the second main body 1212a, and the third main body 1212b are provided to have a U-shaped cross section to form a constant space inside thereof with one side open.

At least one cutout 1213 is formed in the first body 1211.

On the other hand, the extension part 1214 which extends from the 1st main body 1211 from the boundary line of the 1st main body 1211 and the 2nd main body 1212a is formed. The extension part 1214 may function as a coupling member such as an iron angle for connection with another member.

As shown in the longitudinal cross-sectional view of FIG. 6, the inner space portions formed by the main bodies 1211, 1212a, and 1212b of the outer frame 121b include a first fiber-reinforced cement board 111a, a first heat insulator 112a, and The end of the second fiber reinforced cement board 111b is inserted. The extension is also provided to face the structural frame 20 side. The extension part 1214 is fixed to the structural frame 20 fixed to the slab 10 using the L-shaped angle 21 or the like. The L-shaped angle 21 may be fixed in a state provided between adjacent outer frames 121b.

Meanwhile, the panel connection pad 140 may be further provided between the outer frame 120 and the other outer frame adjacent to the outer frame 120. The panel connection pads 140 are provided between adjacent outer frames 120 to reduce thermal bridges.

As shown in the cross-sectional view of FIG. 7, the outer frames 121a are also provided in the vertical direction. Similarly, end portions of the first fiber reinforced cement board 111a, the first heat insulator 112a, and the second fiber reinforced cement board 111b are inserted into the inner space portion of the outer frame 121a, and the extension part of the structural frame 20 is provided. It is provided to face to the side. The extension part 1214 is fixed to the structural frame 20 fixed to the slab 10 using the L-shaped angle 21 or the like.

As illustrated in FIGS. 6 and 7, the outer frames 121a and 121b are provided such that the opening faces the first heat insulating material 112a. The first fiber reinforced cement board 111a and the outer frames 121a and 121b and the second fiber reinforced cement board 111b and the outer frames 121a and 121b may be fixed with bolts 126 or the like, respectively.

Meanwhile, the panel connection pad 140 may be further provided between the outer frame 120 and the other outer frame adjacent to the outer frame 120. The panel connection pads 140 are provided between adjacent outer frames 120 to reduce thermal bridges.

Although the preferred embodiments of the present invention have been described above, the technical spirit of the present invention is not limited to the above-described preferred embodiments, and various dry external insulation panels in a range that does not depart from the technical spirit of the present invention specified in the claims. It can be implemented as.

100: dry outer insulation panel (system) 110: layers
111: fiber reinforced cement board 112: insulation
121a, 121b: outer frame

Claims (10)

In the dry outer insulation panel provided in plurality to form the outer shell of the building,
First and second fiber reinforced cement boards;
A first heat insulating material provided between the first and second fiber reinforced cement boards; And
A main body provided on at least two side surfaces including two opposite sides of the first heat insulating material, the main body accommodating the entire side surfaces of the first fiber reinforced cement board, the first heat insulating material and the second fiber reinforced cement board, and from the main body; An outer frame formed integrally extending in the direction of the building structure and including an extension part serving as a fixing angle for being connected to the structural frame of the building structure; And
On the outside of the second fiber-reinforced cement board sequentially includes a second heat insulating material, a third fiber-reinforced cement board and exterior material,
The second insulation and the third fiber reinforced cement board is provided to have a width corresponding to the sum of the widths of at least two or more second fiber reinforced cement boards provided in the transverse direction,
The outer frame is a dry outer heat insulating panel having a panel connection pad for reducing the thermal bridge phenomenon between the outer frame included in the other dry outer heat insulating panel.
The method of claim 1,
The outer frame is a dry outer heat insulating panel formed of a non-combustible fiber reinforced plastics (FRP) material.
The method of claim 1,
Wherein the first and second fiber reinforced cement board is a carbon fiber reinforced cement board (CRC) panel dry external insulation panel.
delete delete delete The method of claim 1,
The second heat insulating material is a dry outer heat insulation panel is formed in the upper end is formed with a protrusion or groove formed in the longitudinal direction, the lower end is formed with a groove or a protrusion corresponding to the protrusion or groove.
delete The method of claim 1,
The outer frame is provided on all four sides of the first fiber reinforced cement board, the first heat insulator and the second fiber reinforced cement board, so that the periphery of the first fiber reinforced cement board, the first heat insulator and the second fiber reinforced cement board Dry outer insulation panel enclosing.
delete

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