KR101285560B1 - Transparent complex panel for defense industry having electromagnetic wave absorption and shield properties - Google Patents

Abstract

Electromagnetic wave absorption shielding functional transparent composite panel of the present invention is a wire mesh layer 10 made of a flat plate, PET or PI film layer 20 laminated on the front of the wire mesh layer 10, and the wire mesh layer Polyurethane film layer 30 to be laminated on the back of the (10) and the PET or PI film layer 20, respectively, and a glass (glass) layer (laminated on the upper and lower portions of the polyurethane film layer 30, respectively) And 40).
Accordingly, the present invention can block the electromagnetic waves as the panel itself without a filter or other additional devices, and excellent electromagnetic shielding characteristics can effectively shield the electromagnetic waves, so that various panels having transparency and electromagnetic shielding function are used, It can be usefully applied to the defense industry such as airplanes.

Description

TRANSPARENT COMPLEX PANEL FOR DEFENSE INDUSTRY HAVING ELECTROMAGNETIC WAVE ABSORPTION AND SHIELD PROPERTIES}

The present invention relates to an electromagnetic wave shielding functional transparent composite panel for defense industry, and more particularly, to an electromagnetic wave shielding functional transparent composite panel for defense industry which is excellent in electromagnetic wave shielding characteristics and applicable to various panels used for the defense industry.

Unnecessary electromagnetic waves among the electromagnetic waves are called noises, and include electric signals such as electromagnetic waves, voltages, and currents affecting other equipments, thereby causing malfunctions, communication failures, noises, and the like, thereby preventing the operation of the equipments.

Electromagnetic shielding removes these noises to facilitate the operation of the equipment.a) A method for shielding to occur in a circuit inside the enclosure, b) to reflect electromagnetic waves transmitted from other external devices by hitting the surface of the enclosure, or Various methods such as the method of flowing to ground, c) the use of electromagnetic shielding filters such as filters, capacitors, inductors and choke coils, and d) the use of electromagnetic shielding materials such as metals, polymers and shielding paints to shield the generated noise. Is using.

In particular, since a variety of panels having transparency and electromagnetic shielding function are widely used in the defense industry such as ships and airplanes, there is an urgent need for a panel manufacturing technology that can effectively shield electromagnetic waves by improving the electromagnetic shielding function as the panel itself.

Korean Patent Publication No. 10-2010-0062242 (Published: 2010.06.10) Korean Patent Publication No. 10-2004-0092165 (published: 2004.11.03) Korean Patent Publication No. 10-2010-0117978 (Published: 2010.11.04) Korean Patent Publication No. 10-2003-0051394 (published: 2003.06.25)

The present invention has been made to solve the above problems, the object of the present invention is to improve the electromagnetic shielding function as a panel itself to provide an electromagnetic wave absorption shielding functional transparent composite panel for shielding the electromagnetic waves efficiently. It is.

The electromagnetic wave absorption shielding functional transparent composite panel for the defense industry of the present invention for achieving the above object is a wire mesh layer 10 made of a flat plate and a PET or PI film layer 20 laminated on the front surface of the wire mesh layer 10. ), A polyurethane film layer 30 laminated on the back surface of the wire mesh layer 10 and the PET or PI film layer 20, respectively, and the polyurethane film layer 30 on the upper and lower portions, respectively. It characterized in that it comprises a glass (glass) layer 40 to be.

In this case, a bonding layer 50 is further included between the wire mesh layer 10, the polyurethane film layer 30, the PET or PI film layer 20, and the glass layer 40 that are stacked. It is done.

In addition, the wire mesh layer 10 has a mesh of any one type selected from squares, rectangles, and rhombuses, and a long side constituting the upper and lower sides of the glass layer 40 and the mesh of the wire mesh layer 10. Characterized in that the angle to form 20 to 30 degrees.

In addition, the PET or PI film layer 20 is characterized in that the heat-resistant polarizing film.

In addition, the wire mesh layer 10 is characterized in that the coating by sputtering with Fe ₂ O ₃ .

In addition, the mesh size of the wire mesh layer 10 is characterized in that 100 ~ 130mesh.

The thickness ratio of the wire mesh layer 10 is 0.10 to 0.15, the thickness of the PET or PI film layer 20 is 0.03 to 0.05, and the polyurethane film layer 30 with respect to the thickness of the glass layer 40. ), The thickness ratio is 0.2 to 0.3.

Electromagnetic wave absorption shielding functional transparent composite panel of the present invention according to the configuration as described above can block the electromagnetic waves as the panel itself without a filter or other additional device, and excellent electromagnetic shielding characteristics can effectively shield the electromagnetic waves transparency And it can be usefully applied to the defense industry, such as ships, airplanes are used a variety of panels having an electromagnetic shielding function.

In addition, it also has a self-absorption function, so that the device can be protected from magnetism.

1 is an exploded perspective view showing the electromagnetic wave absorption shielding functional transparent composite panel for the defense industry according to the present invention.
Figure 2 is a cross-sectional view showing the electromagnetic wave absorption shielding functional transparent composite panel for the defense industry according to the present invention.
Figure 3 is a perspective view of the electromagnetic wave absorption shielding functional transparent composite panel for the defense industry according to the present invention.

Hereinafter, the electromagnetic wave shielding functional transparent composite panel for the defense industry of the present invention will be described in detail with reference to the drawings.

1 is an exploded perspective view showing the electromagnetic wave absorption shielding functional transparent composite panel for the defense industry according to the present invention, Figure 2 is a cross-sectional view showing the electromagnetic wave absorption shielding functional transparent composite panel for the defense industry according to the present invention, Figure 3 is A perspective view showing a transparent electromagnetic wave shield functional defense composite panel for the defense industry.

As shown, the electromagnetic wave shielding functional transparent composite panel 100 for the defense industry of the present invention is a wire mesh layer 10, and the PET or PI film layer 20 laminated on the front of the wire mesh layer 10 and The back surface of the wire mesh layer 10 and the polyurethane film layer 30 laminated on the PET or PI film layer 20 respectively, and the glass laminated on the upper and lower portions of the polyurethane film layer 30, respectively. and a glass layer 40.

The wire mesh layer 10 is composed of Fe-Cr-Ni, Cu-Co-Ag alloy wire, and used by a known method for producing a wire mesh. It is already known to use wire meshes for efficient shielding.

In this case, the wire mesh layer 10 has a mesh of any one type selected from square, rectangle, and rhombus, and the upper and lower sides of the glass layer 40 and the wire mesh layer 10 as shown in FIG. 3. It is preferable that the angle formed by the long sides forming the mesh of 20 to 30 degrees. According to the angle formed between the upper and lower sides of the glass layer 40 and the long sides forming the mesh of the wire mesh layer 10, the electromagnetic wave shielding property is hardly changed, but when the angle is 20 to 30 degrees, the transmittance is improved. And the rumble caused by the diffuse reflection is reduced.

In addition, the wire mesh layer 10 is preferably coated by sputtering with Fe ₂ O ₃ . When the wire mesh layer 10 is coated with Fe ₂ O ₃ has a self-absorbing function to protect the device from magnetism to prevent malfunction due to magnetism.

In addition, the mesh size of the wire mesh layer 10 is preferably 100 ~ 130mesh. If the size of one mesh of the wire mesh layer 10 is too large or too small, the electromagnetic shielding efficiency is lowered so as to have an appropriate size.

The PET or PI film layer 20 is resistant to cracks, and has excellent chemical resistance, dimensional stability, weather resistance, and stress cracking property.

At this time, the PET or PI film layer 20 is preferably a polarizing film.

When the PET or PI film layer 20 is a polarizing film, it is possible to reduce spherical aberration, so that the image of the object can be clearly seen without distorting when viewing the object through the panel.

The polyurethane film layer 30 has a high elasticity, impact resistance is high, the shock-absorbing action, high mechanical strength and excellent wear resistance.

A bonding layer 50 is further included between the wire mesh layer 10, the polyurethane film layer 30, the PET or PI film layer 20, and the glass layer 40 that are stacked.

The layers are sequentially laminated, laminated with a constant pressure, and then subjected to UV curing.

At this time, the wire mesh layer 10 is laminated so as to have a size that protrudes outward compared to the other layers, if the UV curing process after lamination, the curing liquid is buried as a protruding wire during the UV curing process Jig for masking the curing liquid should be applied. To this end, the protruding wire is wrapped with aluminum foil and grounded.

In addition, with respect to the thickness of the glass layer 40, the thickness ratio of the wire mesh layer 10 is 0.10 ~ 0.15, the thickness of the PET or PI film layer 20 is 0.03 ~ 0.05, the polyurethane film layer It is preferable that the thickness ratio of (30) is 0.2-0.3.

Although the thickness of the PET or PI film layer 20 does not change significantly in the electromagnetic wave characteristics, it is preferable to set the minimum thickness to undergo a UV curing process.

In addition, the thickness of the polyurethane film layer 30 laminated inside the glass layer 40 has a range of 0.2 to 0.4 t, which is 0.2 to 0.3 times the thickness of the glass layer 40, which is located at the front side. In order to minimize the shear stress during UV absorption during the impact absorption and laminating process of the glass layer 40 to maintain the thickness for maintaining the glass transmittance.

Figure 4 is a view showing an apparatus for electromagnetic compatibility experiment using the electromagnetic wave shielding functional transparent composite panel for the defense industry prepared by the present invention, Figure 5 is a electromagnetic wave shielding functional transparent composite panel for the defense industry manufactured by the present invention This is a picture with the device for the experiment of electromagnetic compatibility.

A noise generator is installed inside the shield box, and the electromagnetic wave absorption shielding functional transparent composite panel (Mesh) is installed in front of the shield box to seal the shield box and absorb the electromagnetic wave for the defense industry. A receiving antenna was installed in front of the shielding transparent composite panel to measure the electromagnetic wave passing through the shielding transparent transparent panel for the defense industry.

Figure 6 is a graph showing the electromagnetic compatibility test results of the electromagnetic wave absorption shielding functional transparent composite panel manufactured by the present invention.

In the case of (a) shows the results obtained without the use of the defense industry electromagnetic wave shielding functional transparent composite panel manufactured by the present invention, (b) the defense industry electromagnetic wave shielding prepared by the present invention The result measured in the state using the functional transparent composite panel is shown.

As a result of using the electromagnetic wave shielding functional transparent composite panel for the defense industry, the noise is reduced in all frequency ranges.

The technical idea should not be construed as being limited to the above-described embodiment of the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, such improvements and modifications fall within the protection scope of the present invention as long as it will be apparent to those skilled in the art.

10: wire mesh layer
20: PET or PI film layer
30: polyurethane film layer
40: glass layer
50: bonding layer
100: panel

Claims (7)

A wire mesh layer 10 made of a flat plate, a PET or PI film layer 20 laminated on the front surface of the wire mesh layer 10, a back surface of the wire mesh layer 10 and the PET or PI film layer ( 20) a polyurethane film layer 30 laminated on top of each other, and a glass (glass) layer 40 is laminated on top and bottom of the polyurethane film layer 30, respectively,
The wire mesh layer 10 has a mesh of any one type selected from squares, rectangles, and rhombuses, and a long side constituting the upper and lower sides of the glass layer 40 and the mesh of the wire mesh layer 10. The angle is between 20 and 30 degrees,
The wire mesh layer 10 is a shielding functional transparent composite panel for the electromagnetic wave shielding industry, characterized in that consisting of an alloy of Fe-Cr-Ni or Cu-Co-Ag.
The method of claim 1,
Bonding layer 50 is further included between the wire mesh layer 10 and the polyurethane film layer 30 and the PET or PI film layer 20 and the glass layer 40 to be laminated. Functional transparent composite panel for electromagnetic wave shielding for defense industry.
delete The method of claim 1,
The PET or PI film layer 20 is a polarizing film, the electromagnetic wave shielding functional transparent composite panel for the defense industry.
The method of claim 1,
The wire mesh layer 10 is a shielding functional transparent composite panel for the defense industry, characterized in that the coating by sputtering with Fe ₂ O ₃ .
The method of claim 1,
The electromagnetic wave absorption shielding functional transparent composite panel for the defense industry, characterized in that the particle size of the wire mesh layer 10 is 100 ~ 130mesh.
The method of claim 1,
The thickness ratio of the wire mesh layer 10 is 0.10 to 0.15, the thickness of the PET or PI film layer 20 is 0.03 to 0.05, and the polyurethane film layer 30 with respect to the thickness of the glass layer 40. ) Is a thickness ratio of 0.2 ~ 0.3 electromagnetic shielding shielding functional transparent composite panel for the defense industry.

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