KR20120086606A - Window for Micro Wave Shied and Anti Fog with CNT Film - Google Patents

Abstract

PURPOSE: A window for shielding electromagnetic waves and preventing dew condensation using a carbon nanotube film is provided to prevent electromagnetic waves from penetrating a glass plate using a carbon nanotube film. CONSTITUTION: A window for shielding electromagnetic waves and preventing dew condensation using a carbon nanotube film is composed as follows. A spacer is arranged between two glass plates(10). The gap between the glass plates is sealed. CNT electromagnetic wave shield films are formed by mixing CNT powder with resin and are attached to the inner surfaces of the glass plates. The CNT electromagnetic wave shield films shield electromagnetic waves and prevent dew condensation using heat generated during the electromagnetic wave shielding process.

Description

Window for Micro Wave Shied and Anti Fog with CNT Film}

The present invention relates to a window of the electromagnetic wave shielding / dew condensation prevention function using a carbon nanotube film, specifically, to a desired form using a film containing carbon nanotubes (hereinafter referred to as "CNT") The present invention relates to a window configured to exhibit a shielding of electromagnetic waves and a condensation prevention function due to heat generation by making a pattern and attaching it to an inner surface of a glass plate forming a double window.

The conventional multilayer glass window has a structure in which the edges of the glass plate 10 are coupled to a window frame (not shown) in a state in which two glass plates 10 are arranged side by side at intervals as shown in FIG. 1. In FIG. 1, reference numeral 11 is a spacer 11 that maintains and seals the gap between the glass plates 10.

In the case of such a conventional multilayer glass window, there is some efficiency in thermal insulation, but there is almost no electromagnetic shielding function, and depending on the coupling method of the window frame, the interior of the window, that is, the inner surface of the glass plate 10 facing each other There is a problem that condensation occurs.

The present invention was developed to solve the above problems of the prior art, specifically, in windows and windows having multiple layers, it is possible to efficiently shield electromagnetic shielding and at the same time that condensation occurs inside the windows. It aims to be able to prevent.

In order to achieve the above object, in the present invention, in a multilayer glass window having a structure in which two glass plates are arranged side by side with a spacer interposed therebetween and sealed between glass plates, CNT powder is mixed and dispersed in a resin to form a thin film. The CNT electromagnetic wave shielding film thus formed is attached to the inner surface of the glass plate so that the electromagnetic wave is shielded by the CNT electromagnetic wave shielding film, and at the same time, the inner surface of the glass plate is prevented from condensation by heat generation in the electromagnetic shielding process of the CNT electromagnetic wave shielding film. Provided is a multi-layered glass window having an electromagnetic shielding and anti-condensation function using a carbon nanotube film having a structure to be.

According to the present invention, since the CNT electromagnetic wave shielding film is attached to the inner surface of the glass plate to construct a multilayer glass window, the CNT contained in the CNT electromagnetic wave shielding film attached to the glass plate prevents electromagnetic waves from penetrating the glass plate and shields the electromagnetic wave. The effect that a performance improves remarkably is exhibited.

In addition, in the present invention, the CNT electromagnetic wave shielding film generates heat in the process of shielding the electromagnetic waves, thereby exhibiting the effect of preventing condensation from occurring on the inner surface of the glass plate.

In particular, in the present invention, since the CNT electromagnetic shielding film can be used in the form of a pattern material, it can be utilized in various forms such as desired patterns, patterns, letters, etc., thereby further improving the aesthetics of windows and windows, ensuring good visibility of windows and windows. There is also an advantage that can be achieved.

1 is a schematic perspective view showing a state in which two glass plates are arranged at intervals in a conventional multilayer glass window.
2 is a conceptual diagram showing the cutting of the pattern material in the CNT electromagnetic shielding film according to the present invention.
3 is a schematic perspective view illustrating a state in which a pattern material made of a CNT electromagnetic shielding film is attached to an inner surface of a glass plate in a multilayer glass window in which two glass plates are disposed at intervals.
4 is a graph showing the electromagnetic shielding performance according to the frequency and thickness of the CNT electromagnetic shielding film according to the present invention.
5 is a conceptual diagram showing a state in which heat generation occurs simultaneously with electromagnetic shielding in a multilayer glass window having a pattern material made of a CNT electromagnetic wave shielding film according to the present invention attached to an inner surface of a glass plate.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby.

In the present invention, a CNT electromagnetic wave shielding film containing CNTs is used. Specifically, the CNT powder is dispersed in a resin such as epoxy, and then dispersed, and then produced as a thin film CNT electromagnetic shielding film.

The CNT electromagnetic wave shielding film may be transparent, but may be opaque due to the nature of the CNT. As described above, when the CNT electromagnetic wave shielding film is not transparent, the CNT electromagnetic wave shielding film is cut into a required pattern, pattern, or frame. 2 is a conceptual diagram showing the cutting of the pattern member 1 in the CNT electromagnetic shielding film.

Thus, when the CNT electromagnetic wave shielding film which disperse | distributes CNT in resin is manufactured, a CNT electromagnetic wave shielding film is adhere | attached on the inner surface of a multilayer glass window. FIG. 3 is a schematic perspective view showing a state in which a pattern material 1 made of a CNT electromagnetic wave shielding film is attached to an inner surface of the glass plate 10 in a multilayer glass window having two glass plates spaced apart from each other. .

In the embodiment shown in FIG. 3, since the CNT electromagnetic wave shielding film is not transparent, the CNT electromagnetic wave shielding film is made in the form of a pattern material 1 cut into a certain pattern, and the pattern material 1 made of the CNT electromagnetic wave shielding film is easily formed on a glass plate ( It is shown to attach to the glass plate 10 using the transparent film 2 so as to attach to 10. That is, the glass plate 10 in which the pattern material 1 made of the CNT electromagnetic wave shielding film is placed on one surface of the transparent film 2, and the transparent film 2 is arranged in two layers in the direction in which the pattern material 1 is positioned. ) Is attached to the inner surface. In FIG. 3, reference numeral 11 denotes a spacer 11 for maintaining a gap between the two glass plates 10 and sealing a space between the glass plates 10. In other words, the multilayer glass window according to the present invention basically has a structure in which two glass plates 10 are arranged in a state in which a gap is sealed with the spacer 11 therebetween.

If the CNT electromagnetic shielding film is in a transparent state, the transparent CNT electromagnetic shielding film may be directly attached to the inner surface of the glass plate 10 without using a separate transparent film 2. In addition, even if the CNT electromagnetic wave shielding film is in an opaque state, the pattern member 1 may be directly attached to the inner surface of the glass plate 10 without the transparent film 2 as described above. Of course, when it is necessary to make the multilayer glass window opaque state, the opaque CNT electromagnetic shielding film may be directly attached to the inner surface of the glass plate 10.

Thus, in the multilayer glass window in which the two glass plates 10 are arranged at intervals, when the CNT electromagnetic wave shielding film is attached to the inner surface of the glass plate 10 according to the present invention, electromagnetic waves are generated by the glass plate ( 10) can be prevented from penetrating. That is, the electromagnetic wave shielding performance of a multilayer glass window is remarkably improved by presence of a CNT electromagnetic wave shielding film.

FIG. 4 shows the results of experimenting with electromagnetic shielding performance by mixing CNT in 5 wt% based on the total weight of epoxy, curing agent, catalyst, and CNT, and manufacturing a film having a thickness of 0.8 mm, 1.6 mm, 2.4 mm, and 2.6 mm, respectively. It is a graph shown. As can be seen in Figure 4, the electromagnetic wave shielding performance is improved as the frequency and film thickness of the electromagnetic wave increases.

On the other hand, in the conventional double-glazed glass windows, the heat is trapped between the two glass plates to achieve heat insulation, and when the double-glazed glass windows are manufactured, the two glass plates are often not completely sealed, thereby There is a problem that dew condensation occurs on the inner surface of the glass plate.

However, in the present invention, heat is generated in the process of shielding the electromagnetic waves of the CNT electromagnetic wave shielding film as described above, thereby preventing the occurrence of condensation. 5 is a conceptual diagram showing a state in which heat generation occurs simultaneously with electromagnetic shielding in a multilayer glass window attached to the inner surface of the glass plate 10 of the pattern material 1 made of the CNT electromagnetic wave shielding film according to the present invention.

The heat generation of the CNT electromagnetic wave shielding film is caused by the way that the electromagnetic waves absorbed by the film cause the vibration of carbon atoms to transfer thermal energy. Atoms having the same mass are most efficiently transferred by vibration, which is why carbon-only CNTs are very advantageous for heat transfer.

As shown in FIG. 5, in the multilayer glass window of the present invention in which the pattern material 1 made of the CNT electromagnetic wave shielding film is attached to the inner surface of the glass plate 10, the CNT electromagnetic wave shielding film is exposed to electromagnetic waves, and heat generation occurs. Since CNT is made of only carbon atoms, it can efficiently transfer heat and has excellent thermal conductivity. Therefore, the CNT electromagnetic wave shielding film is self-heating while the CNT electromagnetic wave shielding film attached to the inner surface of the glass plate 10 of the multi-layered glass window shields and absorbs electromagnetic waves, and dew is formed on the inner surface of the glass plate through such active heating. Condensation can be prevented.

In implementing a multilayer glass window using the CNT electromagnetic wave shielding film of the present invention, if necessary, the CNT electromagnetic wave shielding film may be laminated and attached in a plurality of layers.

In particular, in the present invention, since the CNT electromagnetic shielding film can be used in the form of a pattern material, it can be utilized in various forms such as desired patterns, patterns, letters, etc., thereby further improving the aesthetics of windows and windows, ensuring good visibility of windows and windows. There is also an advantage that can be achieved.

1: pattern material
2: transparent film
10: glass plate

Claims (1)

In a multilayer glass window structure in which two glass plates 10 are arranged side by side with a spacer 11 therebetween and are sealed between the glass plates 10,
The CNT electromagnetic wave shielding film made by mixing and dispersing the CNT powder in a resin to form a thin film is attached to the inner surface of the glass plate 10, thereby shielding electromagnetic waves by the CNT electromagnetic wave shielding film and simultaneously The multilayer glass window of the electromagnetic shielding and anti-condensation function using a carbon nanotube film, characterized in that the structure to prevent condensation on the inner surface of the glass plate 10 by the heat generated in the electromagnetic shielding process.

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