KR200405264Y1 - Light-transmitting Multi-layer Panel - Google Patents

Abstract

The present invention relates to a translucent multilayer panel installed on a roof and an outer wall of an outdoor structure such as a mall or a building, and configured to pass light, the upper plate and the lower plate installed at predetermined intervals to form a hollow layer; A plurality of intermediate partitions interposed between the upper plate and the lower plate and installed in one direction to support the two plates, and at least one surface of the upper plate or the lower plate to extend in one direction so as to speculate transmitted light. It characterized in that the formed serrated upper bent portion. Thereby, a translucent multilayer board capable of adjusting the amount of sunlight transmitted according to the season is provided.

Laminate, Floodlight, Polycarbonate, Spectroscopic Structure, Heat Control

Description

 Light-transmitting Multi-layer Panel

1 is a perspective view of a translucent panel according to the present invention,

2 is a cross-sectional view showing a cross section of FIG.

3 is a simplified diagram showing the south and middle altitude of the summer and winter,

Figure 4 is a schematic diagram showing a structure for transmitting the sunlight of the translucent multilayer panel according to the present invention according to the position of the sun in summer and winter shown in Figure 3,

5 is a graph showing year-round solar energy transmission of the roof on which the translucent multilayer panel according to the present invention is installed;

FIG. 6 is a graph showing the daily light energy transmittance of glass, a general multilayer board, and a translucent multilayer board according to the present invention in summer and winter.

♣ Explanation of symbols for the main parts of the drawing

                10: upper plate 15: upper bent portion

                20: lower plate 25: lower bend

                30: bulkhead 40: intermediate plate

The present invention relates to a translucent multilayer panel that is installed on the roof and the outer wall of an outdoor structure such as a mall or a building to pass light, and relates to a translucent multilayer panel that can control the transmission of sunlight according to the season.

Generally, a translucent panel is installed on the ceiling or the outer wall of a shopping mall or a building to pass natural light. In particular, recently, the trend is that the ceiling structure is installed in the passage of the traditional market so that passers-by can pass freely regardless of rain or snow. As these ceiling structures, the translucent panel is supported by a predetermined support structure disclosed in Utility Model Registration No. 20-0238568, filed and filed by the present applicant, and serves to prevent light or rain. Translucent multi-layer panel used in these ceiling structures have the advantage of passing the natural light while having a certain intensity has the advantage that no separate lighting device is required during the day.

However, the translucent panel transmits too much light in the summer when the solar altitude is high, and the interior space covered by the ceiling structure in which the translucent panel is installed increases in temperature rapidly and transmits too little light in the winter where the solar altitude is low. There has been a problem that does not allow the light to pass through the indoor space to maintain a temperature suitable for human activity.

Accordingly, an object of the present invention is to solve such a conventional problem, and to provide a translucent multilayer panel that can control the amount of sunlight transmitted as the season changes.

According to the present invention, a translucent multi-layer panel installed in the roof and the outer wall of the outdoor structure, such as a mall or building, to pass the light, the upper plate and the lower plate provided at predetermined intervals to form a hollow layer; A plurality of intermediate partitions interposed between the upper plate and the lower plate to support the two plates, and at least one lower surface of the upper plate or the lower plate has a sawtooth shape formed along the longitudinal direction to speculate transmitted light; It is achieved by a light-transmissive multilayer panel characterized in that the bent portion is formed.

Here, the bent portion is preferably formed in each of the upper plate and the lower plate can be transmitted through the sunlight selectively more efficiently.

On the other hand, the upper plate and the lower plate is a polycarbonate material, and may further include an intermediate plate installed in parallel with the upper plate and the lower plate between the upper plate and the lower plate.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the translucent multilayer plate according to the present invention. 1 is a perspective view showing a translucent panel according to the present invention, Figure 2 is a cross-sectional view showing a cross-section of FIG. As shown in the figure, the translucent multilayer panel has an upper plate 10 and a lower plate 20 installed at predetermined intervals so as to form a hollow layer 30 in the center, the upper plate 10 and the lower plate 20. It is composed of a plurality of partition walls 40 installed between the two supporting plates and the intermediate plate 50 installed between the upper plate 10 and the lower plate 20.

The upper plate 10 is provided with a polycarbonate sheet, and the lower surface is formed with a serrated upper bent portion 15 formed in the longitudinal direction. The upper bent portion 15 has the shape of an inverted triangle in cross section, and the upper bent portion 15 reflects the sunlight in the summer at high altitude of the sun, and passes the sun in the winter at low altitude. .

The lower plate 20 is formed of a polycarbonate sheet like the upper plate, and has a lower bent portion 25 protruding upward from the plate surface. The lower bent portion 25 is smaller in size than the above-described upper bent portion 15, and serves to scatter light transmitted through the upper plate 10. Therefore, even if light enters the room has a function to prevent glare.

The upper plate 10 and the lower plate 20 are installed to be spaced apart by a predetermined distance by a plurality of partition walls 40, the outside and by the hollow layer 30 formed between the upper plate 10 and the lower plate 20 It can have an adiabatic effect. That is, the air located in the hollow layer 30 can prevent the heat loss and heat inflow to the outside can be cooled and heating effect in summer and winter.

In addition, the intermediate plate 50 is installed between the upper plate 10 and the lower plate 20, the hollow layer 30 by the intermediate plate 50, the partition 40, the upper plate 10, the lower plate 20. ) Are divided into a number of sections, and the partitioned sections have a sealed structure to prevent heat loss or heat inflow more effectively. In addition, the intermediate plate 50 can disperse the external force acting on the upper plate 10 and the lower plate 20 to form a stronger structure.

On the other hand, polycarbonate sheets are generally excellent in impact resistance, transparency, heat resistance, flame resistance, and the like, and usually, polycarbonate sheets are produced by extrusion molding in many cases.

The operation of the above-mentioned transparent multilayer panel will now be described with reference to the accompanying drawings. The translucent multilayer panel according to the present invention is installed on the roof structure, and is installed on the roof structure by a predetermined support structure. When the translucent multilayer panel according to the present invention is bent and used by the support structure, it can be used by bending in a direction perpendicular to the direction in which the partition wall 40 is installed, wherein the bending stress acting on the transparent multilayer panel by the partition wall 40 is used. I can endure it. On the other hand, the translucent multilayer panel according to the present invention may be installed on a transparent wall as well as a roof, in which case it may be used without bending by a separate support structure.

Next, when the transparent multi-layer panel according to the present invention is used for the roof structure, the transmission of light according to the position of the sun will be described. Figure 3 is a simplified diagram showing the south and middle altitude of the summer and winter, Figure 4 is a schematic diagram showing the structure of transmitting the tandem light of the translucent multilayer panel according to the present invention according to the position of the sun in the summer and winter shown in FIG. . As shown in FIG. 4, in general, the south middle altitude of the sun is high in summer, and the south middle altitude of the sun is low in winter.

Therefore, as shown in FIG. 4, since most of the sun's mid-high altitude is high in summer, most of the sun is caused by the upper bent portion 15 formed on the upper plate 10 because it is incident in a substantially vertical direction to the translucent multilayer panel according to the present invention. Light is reflected. In addition, because the south mid-high altitude of the sun is low in winter, sunlight is incident on the transparent multilayer panel while having a predetermined angle, so that it is refracted and transmitted by the upper bent portion 15.

Therefore, the sun reflects the sunlight in summer, so the room formed by the translucent multi-layer panel according to the present invention does not pass solar heat due to sunlight, so the temperature of the room is not higher than the outdoors, and in the winter, sunlight passes accordingly. The temperature of the room may be higher than the outside by the energy. On the other hand, the lower bent portion 25 formed in the lower plate 20 can prevent the glare by scattering the light passing through the upper plate 10, can maximize the lighting effect can increase the aesthetic effect of the room.

Such characteristics can be confirmed by the attached FIGS. 5 and 6. 5 is a graph showing the year-round solar energy transmission of the roof on which the translucent multilayer panel according to the present invention is installed, and FIG. 6 is the daily light energy transmittance of the glass, the general multilayer plate and the translucent multilayer plate according to the present invention in summer and winter. This is a graph showing the comparison. As shown in Figure 5, when using the transparent glass panel according to the present invention and the general glass, it shows the solar energy transmission throughout the year, especially in the summer solar energy transmission can be confirmed a large difference. In the case of general glass, the solar energy is transmitted in summer, while the translucent multilayer panel according to the present invention can be seen that the transmission of solar energy does not increase much compared to spring or autumn even in summer. Meanwhile, in the graph of FIG. 6, the value of the Y axis is the daily solar heat gain value (J / M ² ), which represents the solar energy (J) obtained per square meter (M ² ) daily, and the X axis represents the month (month). will be.

On the other hand, as shown in Figure 6, in the case of using a general glass, a general laminated plate, a light-transmissive laminate according to the present invention, when looking at the solar energy transmittance by time period of summer and winter, the summer is the most at around noon Although it transmits solar energy, it can be seen that the amount of transmission is considerably smaller than that of ordinary glass and ordinary laminate. Therefore, even in summer, the temperature of the interior of the structure using the light-transmissive multilayer panel according to the present invention may be lower than that of the structure of the structure using the common glass and the general multilayer board. In addition, in the case of winter, although the amount of solar energy transmission is small compared to the case of using a common glass and a general laminated sheet, it can be seen that the difference is not large. Therefore, even in winter, it can be seen that the temperature of the room is not much different from that of ordinary glass and ordinary laminate. In addition, the Y-axis value of FIG. 6 shows the acquired value Watt of solar heat per square meter, and the X-axis shows time.

On the other hand, the scope of the present invention is not limited to the above embodiments can be implemented in various forms of embodiments within the appended utility model claims. Without departing from the gist of the subject innovation claimed in the utility model claims, anyone of ordinary skill in the art to the present invention is considered to be within the scope of the claims described in the present invention to the extent possible to vary.

As described above, according to the present invention, there is provided a light-transmissive multilayer panel that can adjust the amount of sunlight transmitted as the season changes.

Claims (5)

In the translucent multi-layer panel installed in the roof and the outer wall of the outdoor structure such as a shopping mall or a building to pass light, An upper plate and a lower plate disposed at predetermined intervals to form a hollow layer;  A plurality of intermediate partitions interposed between the upper plate and the lower plate and installed in one direction to support two plates; Transmissive multilayer panel, characterized in that the lower surface of at least one of the upper plate or the lower plate is formed with a serrated bent portion elongated in one direction so as to spectroscopic transmitted light. The method of claim 1, The upper panel is a translucent multilayer panel, characterized in that it comprises an upper curved portion protruding downward from the plate surface, The method according to claim 1 or 2, The lower panel is a multilayer panel, characterized in that it comprises a lower curved portion protruding upward from the plate surface. The method of claim 1, The upper panel and the lower panel is a translucent multilayer panel, characterized in that the polycarbonate material. The method of claim 1, And a middle plate disposed between the upper plate and the lower plate in parallel with the upper plate and the lower plate.

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