KR101054925B1 - Dry outer insulation wall system - Google Patents

Abstract

The present invention forms a single outer heat insulation panel unit by integrally processing a thin plate material having a rigidity such as a CRC board and a lightweight concrete panel and a heat insulator, and connects the unit to the connection structure of the wall to connect the interior of the building to the inside. It relates to a dry outer skin panel system that can be constructed without reducing the area.

The present invention includes a heat insulating material provided inside, a thin plate wrapped around both ends of the heat insulating material so that the outside of the heat insulating material can be protected, and a coupling member for coupling the thin plate and the heat insulating material, these are unitized First and second outer skin panels connected to each other continuously; Is installed in the connection portion between the first and the second shell panel, the water supply means for preventing the ingress of rainwater or foreign matter; Support means installed at upper and lower slab ends to support the first and second skin panels on one surface thereof; And a clamp for supporting the support means on the slab.

Insulation, Jacketed Panel, CRC Board, Unit, Insulation, Slab, Connecting Frame, Shading Cap

Description

Dry Wall with exterior Insulation finish system

The present invention relates to an outer insulation system used for the insulation of the outer wall of the building, and more particularly to construct the outer panel by uniting the stiff plate-like material and heat insulator and construct it as an outer finishing material to build without reducing the inner area. The present invention relates to a dry external heat insulation wall system having excellent thermal insulation effect.

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 achieve 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, as shown in FIG. 1A, a heat-resistant heat insulating method for filling a heat insulating material 104 such as glass wool in a cavity between the outer wall 102 and the inner wall is mentioned.

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 the thermal bridge occurs (condensation) may occur inside such damage.

In the case of the external heat insulation method, as a dry bit method, as shown in FIG. 1B, a heat insulating material (stripe foam, etc.) 104 is placed inside, and a thin outer sheath 106 of about 5 mm is applied to the outside, and then dried and cured That's how.

While the thermal insulation method has a good thermal performance, problems such as deterioration in workability, increase in construction cost, and breakage caused by external insulation are generated.

Figure 2a shows the temperature distribution for the heat insulation method, Figure 2b shows the temperature distribution for the outer insulation method. As can be seen from the comparison of the temperature distribution in the figure, it can be seen that the heat insulating method of the external heat insulating method is superior to the existing heat insulating method.

In addition, the external insulation method has a disadvantage of high risk of damage because the thin layer of the heat insulating material is weak, and because the finish between the heat insulating material unit and the unit is integrated, a thin sheath coated on the heat insulating material is passed between the units. Cracks may also occur in. At this time, there are problems such as leakage, condensation, difficulty in repair. In addition, the dry bit itself has a small rigidity, so a separate concrete structure must be erected to form a wall, which increases the thickness of the entire wall, thereby implying another problem of decreasing the inner area.

Accordingly, the present invention has been proposed to solve the above problems, and integrally processed a thin-walled material and insulation having rigidity such as a CRC (Cellulose fiber Reinforced Cement) board and a lightweight concrete panel to form a single outer insulation panel unit. It is an object of the present invention to provide a dry outer insulation wall system that can be formed, but by connecting the unit continuously to the connecting structure of the wall to build the outer shell of the building without reducing the inner area.

In order to achieve the above object, the present invention provides a heat insulating material provided therein, and a thin plate made of a rigid material and a coupling member for bonding the thin plate and the heat insulating material to surround both ends thereof to protect the outside of the heat insulating material. Including, but the unit and the first and second skin panel which is connected in series unit by unit; Is installed in the connection portion between the first and the second shell panel, the water supply means for preventing the ingress of rainwater or foreign matter; Support means installed at upper and lower slab ends and supporting the first and second sheath panels on one surface thereof; And a clamp for supporting the support means on the slab.

According to the features of the present invention as described above, by forming a structure wrapped with a rigid lightweight panel to protect the outside of the heat insulating material has a requirement and strength to configure the outer wall, a wall made of a separate concrete structure There is no need to configure, and since the heat insulating material can be installed as much as the thickness of the wall, the final heat insulation thickness is increased compared to the existing external heat insulation method.

In addition, the present invention is not only a whole building wall is constructed as one, but because it is composed of one generation, or a smaller unit, there is another effect that can be easily repaired in case of damage, contamination, etc. that may occur.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to FIGS.

Dry exterior heat insulation wall system according to the present invention by connecting the outer panel united with a heat insulating material and a lightweight panel that can protect the unit to the mounting structure installed on the slab, the construction is simple, the implementation can be implemented without reducing the internal area It is.

Figure 3 is a cross-sectional view showing the configuration of the dry outer heat insulating wall system according to the present invention, Figure 4 is a perspective view showing the structure of the wall surface assembly structure for installing the dry outer heat insulating wall system according to the present invention, Figure 5 It is a perspective view showing the detailed structure of the state which clamped the assembly structure to the slab shown in FIG.

In the general heat insulation system, the part of the outer wall is installed using concrete, and then the heat insulating material is attached to the outside thereof. Since the water enters in the process of pouring concrete, it is called a wet construction. Dry construction, on the other hand, means that everything is assembled at the factory and brought to the site.

Dry outer heat insulation system of the present invention, as shown in the figure, the heat insulating material 22 provided therein; A thin board 24 made of a lightweight and rigid material wrapped around both sides thereof to protect the heat insulating material 22; And a coupling member 5 for coupling the thin board 24 and the heat insulator 22, and uniting these heat insulators 22, the thin board 24 and the coupling member 5 in a unit-by-unit connection. And first and second skin panels 2 and 4, which are provided.

In this embodiment, the heat insulating material 22 may be styrofoam, sound pole, neo pole, energy pole, etc., the thin board 24 is a high density fiber reinforced cement board (hereinafter referred to as 'CRC board') Or lightweight concrete panels.

The coupling member 5 includes a bracket 28 embedded in each of the upper and lower sides of the heat insulating material 22, and a fixing bolt 30 for penetrating through the inside of the bracket 28 from the thin board 24. .

A connection strip between the first and second skin panels 2 and 4 is provided with a weather strip gasket 6 for a sealing function to continuously connect the first and second skin panels 2 and 4. It reliably prevents the ingress of rainwater or foreign matter that may occur during the connection or after installation is completed.

Both ends of the weather strip gasket 6 are provided with an aluminum sheet 8 which is in close contact with the side surface of the heat insulating material 22, and the weather strip gasket 6 and the aluminum sheet 8 are also coupled by fixing bolts 30. do.

A heat cross spacer 10 is installed between the aluminum sheet 8 and the bracket 28. The thermal barrier spacer is to completely block the transfer of heat to the inner wall between the first and second skin panels 2 and 4 and the weather strip gasket 6.

On the other hand, at the ends of the upper and lower slab 12 is provided with a connecting frame 14 for holding the first and second shell panels 2, 4, the connecting frame 14 is a clamp 16 It is fixed to the slab 12 through the.

The connecting frame 14 may be made of a shaped steel or a lightweight, rigid engineering plastic.

In addition, the anchor 18 is embedded in the slab 12 in order to maintain the firmness of the first and second skin panels (2, 4), the protrusion of the buried anchor (18) inside the heat insulating material (22) It is purchased by.

Figure 6 is a cross-sectional view showing a state in which the dry external insulation system according to the present invention is installed on the wall.

As shown in the figure, the first and second skin panels 2, 4 unitized with the heat insulating material 22 and the thin board 24 are fixed by bolts or the like in a state spanning the connecting frame 14, The outer insulation wall is completed by installing the weather strip gasket 6 at the boundary between the first and second skin panels 2 and 4.

A sunshade cap 20 may be further installed at the lower end of the outer insulation wall made up of the combination of the first and second outer skin panels 24 in the outer insulation wall. The awning cap 20 is fixed to the thin board 24 that forms the first and second shell panels (2, 4) via a bolt.

The outer insulation wall is completed by continuous connection of the first and second skin panels 2 and 4 of the unit, so that even if partial breakage or defects occur, repair is easily possible.

In the dry external insulation wall system installed as described above, since the thin board 24 surrounds the heat insulating material 22, the heat insulating material 22 is protected from the external environment. In addition, since the thin board 24 itself is utilized as a lightweight and rigid finish board, there is no need for the construction of a finishing wall made of a separate concrete structure that was carried out in the existing heat insulation method, as much as the thickness of the separate concrete structure More insulation can be installed to increase the final insulation thickness.

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The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

Figure 1a is a schematic diagram showing a heat-resistant insulating method according to the prior art.

Figure 1b is a schematic diagram showing an outer insulation method according to the prior art.

Figure 2a is a temperature distribution diagram of a conventional heat-insulation method.

Figure 2b is a temperature distribution diagram of a conventional outer heat insulation method.

Figure 3 is a cross-sectional view showing the configuration of one embodiment of a dry external thermal insulation system according to the present invention.

Figure 4 is a perspective view showing the configuration of the wall surface assembly structure for installing a dry external insulation system according to the present invention.

5 is a perspective view showing a detailed configuration of a state in which the assembly structure is clamped to the slab shown in FIG.

Figure 6 is a cross-sectional view showing the installation of the dry external insulation system according to the present invention.

* Explanation of symbols for the main parts of the drawings

2, 4: first and second skin panels 5: coupling member

6: weatherstrip gasket 8: aluminum sheet

10: thermal barrier spacer 12: slab

14: connecting frame 16: clamp

18: Anchor 20: Sunshade Cap

22: heat insulating material 24: sheet board

28: Bracket 30: Fixing bolt

Claims (7)

delete It includes a heat insulating material, a thin board wrapped around both ends of the heat insulating material so as to protect the outside of the heat insulating material and a coupling member for coupling the thin board and the heat insulating material, the first unit is connected to each other unit And a second outer panel; A metal sheet fixed to side ends of the first and second skin panels, and a weather strip gasket positioned on an outer surface of the metal sheet to perform a sealing function; And a fixing member connecting the metal sheet and the weather strip gasket, the index means for preventing rainwater or foreign matter from penetrating into the connection portion between the first and second skin panels; Support means installed at upper and lower slab ends and supporting the first and second sheath panels on one surface thereof; A clamp for supporting said support means on a slab; And A heat crossover spacer installed between the water stop means and the coupling member to block the heat bridge Dry outer insulation system comprising a. The method of claim 2, Dry outer heat insulating system further comprising a sunshade cap installed on the lower end of the continuous surface connected to the first and second skin panels continuously. delete The method of claim 2, Dry outer insulation system, characterized in that the thin board is a high-density fiber-reinforced cement board. The method of claim 2, Dry outer insulation system, characterized in that the thin board is a lightweight concrete panel. The method of claim 2, The coupling member And a bracket fixed to both sides of the insulation, and a bolt connecting the bracket and the thin board.

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