KR920004558Y1 - Duct for cooling and heating - Google Patents

Abstract

No content.

Description

Cooling, heating duct (CUCT)

1 is a perspective view illustrating one unit of the duct for cooling and heating according to the present invention,

2 is an exemplary longitudinal cross-sectional view of an enlarged partial cross section of FIG.

* Explanation of symbols for main parts of the drawings

1: foamed sheet 2: inner aluminum foil layer

3: outer aluminum foil layer embossed into wave shape

4: The wavy shape of the outer aluminum foil layer of 3:

The present invention relates to an improved structure of a gas passage duct (CUCT) for cooling and heating installed in high-rise buildings such as buildings.

Gas passage ducts supplied for cooling or heating in high-rise buildings such as conventional buildings are coated with a glass wool layer on the outer periphery of the tin plate body of rectangular cross section, and then coated with aluminum foil on top of it. Since it is configured by fixing, it is difficult to install because it is relatively heavy, and the construction of such a doc requires a lot of manpower, time and work process, a lot of materials, and manufacturing efficiency is very low, and thus the manufacturing cost is high. The sieve is weak in moisture and corrodes in a short period of time, shortening the life of the duct, and the glass wool layer is inconvenient to handle by hand. There were various problems and defects.

Recently, Japanese Unexamined Utility Model Publication No. 62-117458 discloses a groove having a V-shaped cross section in a planar phenolic resin composite plate containing uniformly dispersed inorganic aggregate particles. Both sides, including the inner surface of the grooved line of the composite plate, are installed parallel to each other and coated with a face film having a corrosion-resistant metal foil layer on the surface side thereof, and bent in the grooved line to form a rectangular hollow. Tact structure "is known, but in the case of such an open proposal, the following problems arise.

First, the plate has to be uniformly sprayed with the inorganic aggregate particles, so that a lot of work and manpower is required for the construction of such a flat plate, there is a problem that the production efficiency is lowered.

Second, on the cross-sectional triangular groove surface of each bend, impurities in the gas for cooling and heating passing through the duct accumulate, and impurities accumulated in the groove during the long-term use are discharged together with the gas, which causes pollution. .

Third, each corner of the duct is bent by using a triangular groove, so that the aluminum foil adhered to the inner wall shrinks and the aluminum foil adhered to the outer wall increases, resulting in easy rupture during use. There is.

Fourth, since only the cross section of each corner portion is made to be a triangle, not only the overall appearance is not good, but also a slip phenomenon occurs in the remaining portion of the outer wall where the cross section does not form a triangle, which causes inconvenience in handling.

In other Japanese Utility Model Publication No. 62-112039, a phenol-resin foam composite plywood containing uniformly dispersed inorganic aggregate particles is composed of a hollow tube phenomenon and has a corrosion-resistant metal foil layer on both sides of the hollow tube body. The duct is known to be integrated by coating a flat film, but in the case of this open plan, the inner wall and the outer wall are both covered with a flat metal foil or film, so that the heat of a part of the gas passing through the inner surface of the hollow tube again becomes aggregate. After passing through, it finally touches the metal foil or film coated on the outer surface, but the metal foil or film covering the outer surface is in a plane shape, and can only show the heat insulation effect corresponding to the plane and also covers the outer surface. The metal foil or the film which has been made is planar as mentioned above, and the atmosphere heat The effect is that the surface area of the plane can be expressed only so that the heat transfer to the gas passing through the hollow part inside the duct becomes inversely large so that the temperature change of the gas passing through the hollow part In addition, there is a problem that affects that much, as well as the outer surface of the duct has a flat surface, there is a defect that the slip phenomenon frequently occurs during handling, resulting in an uncomfortable material for handling or operation.

The present invention is devised to solve the conventional problems as described above, when explaining the structure of the present invention based on the accompanying examples.

In the cold and heating duct formed by adhering aluminum foil to both surfaces of the foam plate, the outer aluminum foil layer is embossed into the wave shape 4 to form the outer aluminum foil layer 3 embossed into the wave shape, but the aluminum foil layer The duct of this invention is comprised by making the surface area of the wave shape 4 of about into about 1.5-2.0 times the outer surface area of the plane of a normal duct.

Unexplained 1 in the drawing 5, 5 ', 5 ", 5 Denotes a junction of a square of a duct composed of a rectangular mirror, which is a known structure.

Referring to the effect of the present invention configured as described above are as follows.

In the present invention, the surface of the outer aluminum foil layer 3 has a wave-like shape 4, and the surface area thereof is configured to be about 1.5-2.0 times the outer surface area of a conventional flat duct. Not only can the effect of cooling and heating gas flowing inside the duct be blocked by 1.5-2.0 times more than that of the conventional plane, but also some of the heat of the gas flowing inside the duct Even though it may pass through the aluminum foil layer 2 and the foam plate body 1, the heat insulation effect can be increased by about 1.5-2.0 times as compared with the conventional outer foil layer having a flat surface. Since the aluminum foil layer 3 is embossed into waves, it is possible to prevent the occurrence of slip during handling or working. By separating ergonomics can improve even have that much.

When the surface area of the wave shape is less than 1.5 times as compared to the plane shape, the wave-shaped irregularities are gentle and the slip phenomenon easily occurs during handling or working, and the heat insulation effect can be reached to the desired degree. In addition, when it is 2.0 times or more, the deformation of the foamed plate body 1 is increased, so that the warning is not only weakened, and the pressure during embossing is excessive, so that the tendency of aluminum foil to rupture tends to occur. It was confirmed that the results of several experiments.

Claims (1)

In the cold and heating duct formed by adhering aluminum foil to both surfaces of the foam plate, the outer aluminum foil layer is embossed into the wave shape 4 to form the outer aluminum foil layer 3 embossed into the wave shape, but the aluminum foil layer A duct for cold and heating, characterized in that the surface area of the corrugated wave 4 is configured to be about 1.5-2.0 times the outer surface area of the plane of a normal duct.