KR0133262B1 - Curtain wall - Google Patents

Abstract

An improved thermal insulation structure and its construction method for an exterior curtain wall for keeping constant temperature and humidity by blocking the thermal radiation through the spandrel is disclosed. The heat resistant insulation layer (50) consists of a metal reflector (51) for reflecting thermal radiation supported a by metal truss (10) and a foam urethane resin layer (52) within the metal reflector (51). Solar radiation is first reflected by the metal reflector (51) and distributed into the space in the exterior wall members (20), and completely blocked by the foam urethane resin layer (52). Thus the room is kept at constant temperature and humidity regardless of the ambient weather.

Description

Exterior curtain wall of building and its construction method

The present invention relates to an exterior curtain wall of a building and a construction method thereof that can completely block a gap through which heat radiation is transmitted to and from a building through a spandrel portion except for a window portion of an exterior wall of the building.

As shown in FIG. 1, the exterior curtain wall of a conventional building is provided with a window structure part 2 between the outer wall boards 20 directly contacting the outside air, and the outer wall boards 20 are The outer wall fixing hardware 21 is supported by the metal trusses 10 vertically erected inside, the metal truss 20 is fixed to the concrete slab (1) as a fixed metal 11 for the metal truss, An interlayer fireproof partition steel plate 30 is installed in the gap between the slab 1 and the outer wall board 20 so that the end part contacts the inner surface of the outer wall board 20, and therebetween, Filled with a non-combustible filler (40) to partition the filling and the heat-resistant urethane resin layer 52 is formed on the inner side of the metal truss (10) to effectively prevent heat conduction to prevent condensation The moisture proof film 53 is arrange | positioned.

As described above, the conventional outer curtain wall has a heat resistant urethane resin layer 52 that effectively prevents heat conduction, so that some heat insulation performance is expected, but heat radiation occupies the largest proportion of the heat transfer paths of the building. Since there was no concept of blocking the wires, it was difficult to expect effective insulation effect.

The reason for this is, first, as shown in FIG. 1, a moisture-proof film 53 packed with aluminum foil for preventing condensation is disposed on the interior side of the heat resistant urethane resin layer 52 to reflect heat radiation. Although it is also performed, since the radiation moved from the outside in the summertime is reflected by the reflective film is converted into heat in the heat-resistant urethane resin layer 52 is conducted to the room through the moisture-proof film 53 is not efficient thermal insulation, second, This is because the heat resistant urethane resin layer 52 performs a function of effectively preventing heat conduction, but does not effectively block thermal radiation.

An object of the present invention is to cut the heat radiation transmitted to the inside and outside of the building through the spandrel (SPANDREL) except the window portion of the outer wall of the building exterior curtain wall of the building to maintain the temperature and humidity of the same conditions at all times And to provide a construction method thereof.

1 is a cross-sectional view showing a conventional outer curtain wall.

2 is a cross-sectional view showing an outer curtain wall of the present invention.

* Explanation of symbols for main parts of the drawings

1: concrete slab 2: window structure

10: metal truss 11: truss fixed hardware

20: outer wall pipe material 21: outer wall fixing hardware

30: interlayer fireproof steel sheet 40: packing material

50: heat resistance insulation layer 51: heat radiation reflecting film body

52: foamed urethane resin layer 53: moisture proof film

Hereinafter, the technical configuration of the present invention will be described.

As shown in FIG. 2, the exterior curtain wall of the present invention building includes: a) a metal truss 10 vertically supported as truss fixing hardwares 11 at an outer end of the concrete slab 1, and b) the metal. An outer wall plate 20 which is vertically fixed as outer wall fixing hardware 21 on the outer side of the truss 10, and c) one side of which is fixed to the lower end of the slab 1 and the other side of which extends outwardly. Non-combustible fillers filled with interlayer fire prevention partition steel plate 30 which is installed to be in contact with the outer wall board 20, and d) a non-combustible material suitable for interlayer fire prevention partition inside the interlayer fire prevention partition steel plate 30 ( 40), and e) a heat resistant heat insulating layer 50 disposed on the inner side of the metal truss 10 so as to effectively prevent heat conduction, wherein the heat resistant heat insulating layer 50 is heat radiated to the entire outer surface thereof. The metal truss 10 while efficiently reflecting lines It is characterized in that the thermal radiation reflecting film 51 of the metal film body disposed to be supported on, and the foamed urethane resin layer 52 is applied integrally over the entire inner surface of the thermal radiation reflecting film 51 and foamed in the field. .

Here, the heat radiation reflecting film body 51 is disposed on the outer surface of the foamed urethane resin layer 52. First, the heat radiation lines are mostly reflected from the reflecting film body 51 to be distributed to the space portion toward the outer wall plate 20. This is to prevent the heat conduction phenomenon in which the heat radiation is transmitted to the interior. Second, even though a portion of the heat radiation passes through the reflecting film body 51 by heat conduction, the entire inner surface of the reflecting film body 51 is integrally formed. This is to prevent the interior of the foam urethane resin layer 52 is formed by foaming the insulating material.

The construction method of the present invention constituted as described above includes a) fixing the metal trusses 10 by holding the truss-fixed metals 11 in a lattice shape and vertically fixing them to the concrete slab 1, and b) an outer wall. A step of fixing the outer wall plate to vertically fix the plate 20 to the outside of the metal truss 10 as the outer wall fixing irons 21, and c) fixing one side to the lower end of the slab 1, and The other side is an installation step of the interlayer fireproof partition steel plate for installing the interlayer fireproof partition steel sheet 30 to contact the outer wall plate 20 to extend to the outside, d) the Filling the non-combustible fillers of the non-combustible fillers filling the layered material 40 of the non-combustible material suitable for the interlayer fireproof compartments within the interlayer fireproof partition steel plate 30, and e) on the inner side of the metal truss 10. In the step of installing a heat resistant heat insulating layer for arranging the heat resistant heat insulating layer 50 for effectively preventing heat conduction, the heat resistant heat insulating layer 50 is a metal that efficiently reflects heat radiation to the entire outer wall thereof. The thermal radiation reflecting film body 51 of the film body is disposed to be supported by the metal truss 10, and the foamed urethane resin layer 52 is sprayed integrally on the whole surface of the thermal radiation reflecting film body 51 in the field. Is completed by forming a.

Here, it is important to apply the foamed urethane resin layer 52 to the inner surface of the heat radiation reflecting film body 51 and to apply the foamed urethane resin integrally throughout the entire surface. This allows the foamed urethane resin to be integrally applied in the field over the entire inner surface of the heat radiation reflecting body 51, thereby preventing the formation of gaps between the structural parts in advance.

That is, when the heat resistance insulation layer 50 is made of panels and assembled in the field, the joints between the panels, the panel, the window structure part 2, and the panel and the filler 40 for interlayer fire protection compartments. Although a gap is inevitably formed, the heat-resisting insulation layer 50 of the present invention is sprayed and applied integrally on the entire surface of the heat radiation reflecting film body 51 in the field, thereby forming gaps between the structural parts. It can be prevented surely.

Therefore, in the present invention, the heat resistant insulation layer 50 is disposed on the outer surface of the heat radiation reflecting film body 51 to block most of the heat radiation in advance, and the inner surface of the foam urethane resin is integrally applied throughout the site By forming the foamed urethane resin layer 52, not only the seam where the gap is likely to be formed from the beginning, but also at the upper part to prevent the gap in contact with the window structure part 2, the lower part thereof Furnace can completely prevent the gap even in contact with the interlayer fire compartment filler 40, it can be prevented from being transmitted to the room to a part of the heat radiation.

As described above, in the heat resistant insulation layer 50 of the present invention, the heat radiation reflecting film body 51 of the metal film body that efficiently reflects the heat radiation lines on the entire outer surface thereof is supported on the metal truss 10, and the heat radiation reflecting film body is supported. By foaming urethane resin integrally over the entire inner surface of the 51 to form the foamed urethane resin layer 52, the heat radiation rays are primarily reflected from the reflective film body 51 to the outer wall plate 20 side. The heat radiation is a part of the heat radiation passing through the reflective film body 51 by heat conduction is completely blocked by the foamed polyurethane resin layer 52 integrally foamed over the entire inner surface of the reflective film body 51. Will have the effect.

As described above, the outer curtain wall of the building of the present invention has a heat-resistant insulation layer disposed on the outer surface thereof to reflect most of the thermal radiation transmitted from the outside, and only a portion of the thermal radiation passing through the thermal radiation reflection film is therein. Since it is completely blocked by a foamed polyurethane resin layer sprayed all over the side, the room is very useful to maintain the same temperature and humidity at all times, despite changes in outside temperature and humidity.

Claims (2)

a) a metal truss 10 fixed vertically to the outer end of the concrete slab 1 as truss fixing hardwares 11; and b) vertically as outer wall fixing hardwares 21 to the outside of the metal truss 10. External wall plate 20 which is fixed and supported, and c) one side is fixedly supported on the lower end of the slab 1 and the other side is extended to the outside to be installed in contact with the outer wall plate (20) interlayer fire compartment partition plate ( 30), and d) a filler 40 filled with a non-combustible material suitable for interlayer fireproof compartments in the interlayer fireproof steel sheet 30, and e) heat conduction inside the metal truss 10. In the heat resistance insulation layer 50 is disposed to prevent effectively, the heat resistance insulation layer 50 is disposed to be supported on the metal truss 10 and reflects the heat radiation efficiently on the entire outer side thereof. The heat radiation reflecting film body 51 of the metal film body, Integrally coating all over the inner surface of the radiation reflection film body 51 and the outer curtain of buildings, characterized by constituted by any number of urethane foam resin layer 52 is foamed in situ March. a) a step of fixing the metal truss for holding the lattice-shaped metal truss 10 vertically as the truss fixed metals 11 to the concrete slab 1, and b) the outer wall plate 20 to the outer wall fixed steels 21. C) fixing the outer wall plate member to be vertically fixed to the outside of the metal truss 10, and c) fixing one side to the lower end of the slab 1 and extending the other side outward to the outer wall plate member ( 20) the installation step of the interlayer fireproof partition steel plate to install the interlayer fireproof partition steel plate 30 in contact with, d) a separate non-combustible material suitable for interlayer fireproof partition inside the interlayer fireproof partition steel plate 30. Filling the filling of filling the filling 40 of the, and e) the heat-resisting insulating layer 50 is disposed in the heat-resisting insulating layer 50 to effectively prevent thermal conduction inside the metal truss (10) In the heat resistance type end The layer 50 arranges the heat radiation reflecting film body 51 of the metal film body to efficiently reflect the heat radiation lines on the entire outer surface thereof so as to be supported by the metal truss 10, and covers the entire inner surface of the heat radiation reflecting film body 51. Construction method of the exterior curtain wall of the building, characterized in that completed by forming a foamed polyurethane resin layer 52 by integrally applying the foamed polyurethane resin in the field.