JP2003198176A - Electromagnetic wave absorbing panel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electromagnetic wave absorbing panel whose electromagnetic absorbing material in the form of a flat plate can be reliably prevented from being deformed in an undesired way with the relatively small number of parts and whose weight can be relatively saved. <P>SOLUTION: The electromagnetic wave absorbing panel is provided with an electromagnetic wave absorbing material in the form of a flat plate, and a reinforcing frame member which has a plate part in the form of a flat plate and guide extending on the plate and on its sides oppositely and with an L- shaped cross section. The electromagnetic wave absorbing material is engaged in the guide in such a way that its back having no intention of receiving electromagnetic wave is covered with at least the reinforcing frame member. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electromagnetic wave absorbing panel formed by reinforcing an electromagnetic wave absorber with a reinforcing frame member.

[0002]

2. Description of the Related Art In recent years, due to the remarkable spread of electronic information devices such as mobile phones and personal computers and the diversification of communication technology,
The suppression of unwanted electromagnetic waves is becoming an increasingly important issue in social life. In addition, the band of electromagnetic waves used is expanding, and it is expected that electromagnetic waves with extremely short wavelengths, such as millimeter waves, which have been conventionally used only for special purposes, will be used in the future. This trend is expected to become more prominent with the development of ITS (Intelligent Transport Systems), which is currently being promoted.

Generally, the characteristics required of an electromagnetic wave absorber include excellent electromagnetic wave absorbing ability and a wide absorbable frequency band. Further, from the viewpoint of practicality, it is required that there is a high degree of freedom in selection of shape and size, excellent workability, and low cost. In addition, the electromagnetic wave absorber for outdoor installation has further weather resistance. In recent years, an electromagnetic wave absorber that is lightweight and thin and satisfies the above characteristics has been developed.

However, if the above-mentioned lightweight and thin electromagnetic wave absorber is realized in the form of a flat plate (panel), undesired deformation such as bending tends to occur. The bent electromagnetic wave absorber is poor in workability at the time of installation and looks bad.

In order to prevent such undesired deformation, for example, a reinforcing frame member such as a hat-type steel plate is fixed by screwing or the like to the side (back side) of the electromagnetic wave absorber where the electromagnetic wave is not intended to enter. It is conceivable to form an electromagnetic wave absorption panel that is reinforced by the above, but in the electromagnetic wave absorption panel thus realized, the weight per unit area becomes about 165 ± 30 N / m ² , In addition, the number of parts may increase, and the workability and transportability were poor. Further, in such an electromagnetic wave absorption panel, when the size is relatively large (for example, the surface area on the side intended to be incident is 1 m ² or more), the electromagnetic wave absorber tends to be easily peeled off from the frame member. The undesired deformation of is also likely to occur.

[0006]

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a plate-like electromagnetic wave absorber with a relatively small number of parts. An object of the present invention is to provide an electromagnetic wave absorbing panel that can reliably prevent deformation and can be made relatively lightweight.

[0007]

The present inventors have completed the present invention as a result of intensive research to solve the above problems. That is, the present invention is as follows. (1) Electromagnetic wave including a flat plate-shaped electromagnetic wave absorber, and a reinforcing frame member having a flat plate-shaped portion and guide portions that bend and extend in an L-shaped cross section so as to face each other on both sides of the plate-shaped portion An electromagnetic wave absorber, wherein the electromagnetic wave absorber is fitted into the guide portion such that at least the back side of the electromagnetic wave that is not intended to be incident is covered with the reinforcing frame member. (2) The electromagnetic wave absorption panel according to (1) above, wherein the surface material is further fitted into the reinforcing frame member so as to cover the surface side of the electromagnetic wave absorber intended to enter the electromagnetic wave. (3) The above-mentioned (1) or (wherein the second frame member having a U-shaped cross section is further fitted into the reinforcing frame member so as to cover both sides of the electromagnetic wave absorber which are not covered by the guide portion. The electromagnetic wave absorption panel described in 2). (4) The reinforcing frame member and the second frame member are fixed to each other via a corner reinforcing member, (3)
The electromagnetic wave absorption panel described in. (5) Weight per unit area is 95 N / m ^{2 to} 155 N
/ M < ² >, The electromagnetic wave absorption panel in any one of said (1)-(4) characterized by the above-mentioned.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be described in detail below.
FIG. 1 is a simplified perspective view showing an electromagnetic wave absorbing panel 1 of a preferred example of the present invention, and FIG. 2 is an exploded perspective view showing a simplified structure of the electromagnetic wave absorbing panel 1 of FIG. The electromagnetic wave absorption panel 1 of the present invention includes a flat plate-shaped electromagnetic wave absorber 2.
And a reinforcing frame member 3 provided so as to cover at least a back surface side of the electromagnetic wave absorber 2 that is not intended to enter electromagnetic waves (the other Z2 side in the thickness direction of the electromagnetic wave absorber described later).
Basically prepare.

The electromagnetic wave absorber according to the present invention has a flat plate shape, in other words, has a thickness smaller than the lengths of other portions and has two main surfaces substantially perpendicular to the thickness direction. A shape is used. The electromagnetic wave absorber is
Although the shape of the main surface is not particularly limited as long as it is a flat plate, it is easy to manufacture, easy to install and install, and easy to cover with a reinforcing frame member. It is preferable that the electromagnetic wave absorber 2 shown in FIG. 2 is realized as a flat plate having a rectangular cross section.

The size of the electromagnetic wave absorber is not particularly limited, and may be appropriately selected according to the purpose. In the electromagnetic wave absorber 2 of the example shown in FIGS. 1 and 2, for example, the length (first width) along the first width direction X is 0.5 m to
2m, the length along the second width direction Y (second width) is 0.5m
~ 4 m, the length (thickness) along the thickness direction Z is 2 cm ~ 1
It is 0 cm. Here, the first width direction X refers to a direction substantially along either one of the two sides perpendicular to each other in the rectangular cross section, and the second width direction Y refers to the two sides. A direction that is generally along one of the other sides. The first width direction X, the second width direction Y, and the thickness direction Z are directions along the three axes perpendicular to each other. In the electromagnetic wave absorber 2 shown in FIG. 1 and FIG. 2, one side Z1 in the thickness direction is the front surface side where the electromagnetic wave is intended to enter, and the other Z2 side in the thickness direction is the back surface side where the electromagnetic wave is not intended to enter.

The reinforcing frame member (also referred to as the main body frame) in the present invention includes a flat plate-shaped portion and guide portions that are bent and extend in an L-shaped cross section so as to face each other on both sides of the plate-shaped portion. Have. Here, "bending and extending in an L-shaped cross section" means that the guide portion projects from the plate-like portion so as to extend in an arbitrary direction, and bends in the middle when viewed in a cross section perpendicular to the arbitrary direction. It means having a shape that makes an L-shape. In the present invention, such a guide portion,
It is formed on both sides of the reinforcing frame member so as to be opposed to each other, in other words, to be bent in a direction in which they are close to each other, and the electromagnetic wave absorber is gripped and reinforced by the bent end portions of this guide portion. The guide portion may extend continuously in any of the above directions or may extend intermittently as long as it can hold the electromagnetic wave absorber. Figure 1
The reinforcing frame member 3 of the example shown in (1) has a rectangular main surface corresponding to the main surface shape of the electromagnetic wave absorber 2 realized by, for example, a flat plate having a rectangular cross section, and has the first width described above. On both sides in the direction X, the second width direction Y is entirely (continuously) projected to one side in the thickness direction Z1 side (continuously), and is bent substantially perpendicularly in the direction in which it approaches each other in the middle, so that the sections L are opposed to each other. The guide portions 4 and 5 are formed so as to bend and extend in a letter shape.

In the electromagnetic wave absorbing panel of the present invention, the electromagnetic wave absorber as described above is fitted into the guide portion such that at least the back side thereof, which is not intended to enter the electromagnetic wave, is covered with the reinforcing frame member. As a result, unlike a case where a reinforcing frame member such as a hat-type steel plate is fixed by screwing on the side where electromagnetic waves are not intended to enter (back side) for reinforcement, a flat plate shape with a small number of parts is used. Undesirable deformation of the electromagnetic wave absorber can be reliably prevented, and installation work can be easily performed. Even if the electromagnetic wave absorber is relatively large (for example, the surface area on the side intended to be incident is 1 m ² or more), the reinforcing frame member is more advantageous than the electromagnetic wave absorber. It is particularly noticeable because it does not peel off. Further, in the present invention, it is advantageous to reduce the weight of the electromagnetic wave absorbing panel as compared with the case of using the hat-type steel plate or the like, which also improves workability and transportability. Such an electromagnetic wave absorption panel can be suitably used for the purpose of absorbing electromagnetic waves of various frequency bands (in particular, microwaves, millimeter waves, submillimeter waves, etc.), and is particularly suitable for highway tollgates in ITS. It is useful as an electromagnetic wave absorption panel for installation on roofs and roadside structures.

In the electromagnetic wave absorption panel of the present invention, an adhesive may be interposed between the electromagnetic wave absorber and the reinforcing frame member to bond them. The adhesive used in this case is not particularly limited, and examples thereof include elastic adhesives, thermosetting resin adhesives, elastomer adhesives, thermoplastic resin adhesives, instant adhesives, and inorganic adhesives. To be Above all, even after curing, the rubber-like elasticity is maintained for a long time from low temperature to high temperature, and the difference in expansion of vibration and heat due to the rubber-like elasticity (difference in thermal expansion coefficient between the electromagnetic wave absorber and the reinforcing frame member). The elastic adhesive is preferable from the viewpoint of obtaining the effect of absorbing and relieving the strain caused by. As the elastic adhesive, specifically, a main component is a modified silicone polymer or a special silicone-modified polymer,
Examples of the adhesive include a silyl-containing polymer and the like. Among them, the special silicone-modified polymer is preferable because it has a strong adhesive force and the cured product has a large elongation.

1 and 2, the electromagnetic wave absorber 2 is shown.
The reinforcing frame member 3 and the reinforcing frame member 3 are both rectangular in the main surface shape. However, by realizing the electromagnetic wave absorber 2 and the reinforcing frame member 3 in this manner, By sliding along, the electromagnetic wave absorber 2 can be fitted into the reinforcing frame member 3, and the electromagnetic wave absorption panel 1 can be easily manufactured.

In the electromagnetic wave absorbing panel 1 of the present invention, the electromagnetic wave absorber 2 is not particularly limited in its forming material as long as it is formed in a flat plate shape as described above, and various conventionally known in the art. Although materials can be used, among them, from the viewpoint of obtaining excellent electromagnetic wave absorption characteristics, the thickness formed by bonding fibers made of polar polymers of various kinds coated with carbon to each other, its thickness It is preferable to use a mat-like fiber assembly in which the fiber density is changed in the direction. The polar polymer is not particularly limited, polyvinylidene chloride, nylon, polyester,
Acrylic etc. are illustrated. The carbon coating is prepared by dissolving or dispersing carbon and an adhesive such as polyvinyl chloride or polyvinyl acetate as a binder in an appropriate solvent, for example, hydrocarbon such as toluene or xylene, or alcohol such as methanol or ethanol. It is carried out by applying the material by means such as spray application. The entangled fibers may be loosened as they are, so it is necessary to bond them with an adhesive or the like so as not to dissociate them. The method of adhesion is arbitrary, but as a suitable method, for example, a method of spraying a spray adhesive onto the mat body in which the fibers are entangled to achieve adhesion at the polymerized portion of the fibers can be mentioned.

The mat-like fiber aggregate is composed of fibers of various thicknesses as described above, and the electromagnetic wave absorption band of the absorber is widened, and the electromagnetic wave absorption rate in each band is good. In that respect, various fibers (fibers of various thicknesses)
Are preferably entangled with each other so that at least 5% by weight is contained. When absorbing electromagnetic waves in a wide band, the number of types of fibers may be increased to form a mat-shaped fiber assembly. The thickness of the carbon coating is usually 5 μm to 50 μm, preferably 10 μm to 30 μm.

In order to obtain an excellent electromagnetic wave absorption characteristic in a wide band, it is necessary to prevent the electromagnetic wave incident on the electromagnetic wave absorber from being reflected on the incident surface of the electromagnetic wave absorber. Therefore, the mat-like fiber assembly can absorb electromagnetic waves in a wide band by changing the fiber density in the thickness direction. That is, by reducing the fiber density of one surface of the mat-like fiber aggregate to be coarse to reduce the attenuation and making the other surface dense to increase the attenuation, and arranging the rough surface in the electromagnetic wave incident direction, the incident surface of the electromagnetic wave can be reduced. The reflection is reduced so that the electromagnetic wave can be easily taken into the electromagnetic wave absorber, and at the same time, the electromagnetic wave can be favorably absorbed. Generally, when an electromagnetic wave propagates in space, when it encounters a point where the conductivity changes abruptly, the electromagnetic wave is likely to be reflected at that point. Since the electromagnetic wave absorber is also a conductor, it is considered that it also has a function of reflecting electromagnetic waves. Moreover, if the absorber has a constant fiber density, the degree of reflection of electromagnetic waves increases. Therefore, in the above-mentioned mat-like fiber assembly, the conductivity of the electromagnetic wave incident surface can be lowered (fiber density is made coarse) to reduce the difference in conductivity with air, and the reflection of electromagnetic waves can be suppressed as much as possible.

As a material for forming the reinforcing frame member 3 in the electromagnetic wave absorbing panel 1 of the present invention, the flat plate electromagnetic wave absorbing body 2 is formed in the reinforcing frame member and the electromagnetic wave absorbing body 2 is fitted therein. There is no particular limitation as long as it has a rigidity that can prevent undesired deformation of, for example, iron such as carbon steel and stainless steel, metal materials such as iron alloys, FRP, plastics and the like are used. You can Above all, it is preferable to use a metal material because it is possible to easily perform the processing for forming the guide portion 4 as described above and it is inexpensive. When the reinforcing frame member is formed of the metal material as described above, the surface thereof is preferably subjected to anticorrosion treatment. As the anticorrosion treatment, anticorrosion treatment with paint such as paint, anticorrosion treatment with plating of zinc, aluminum or the like is applied.

The electromagnetic wave absorption panel of the present invention preferably further comprises a surface material provided so as to cover the surface side of the electromagnetic wave absorber intended to enter the electromagnetic wave. By providing the surface material, it is possible to protect the surface of the electromagnetic wave absorber, which is intended to enter the radio wave, from the outside. Therefore, when installing an electromagnetic wave absorption panel equipped with such a surface material outdoors, unlike the case where the surface is exposed and the electromagnetic wave absorber is installed, water, dust, exhaust gas emitted from the vehicle, etc. Foreign matter is prevented from entering the inside of the electromagnetic wave absorber, and the deterioration of the electromagnetic wave absorbing ability is suppressed. This effect is particularly remarkable when, for example, the electromagnetic wave absorber is made of the above-mentioned mat-like fiber aggregate.

The shape of the surface material is not particularly limited, but it is preferable that the surface material has a sheet shape having substantially the same area as the main surface of the electromagnetic wave absorber because the above effects can be reliably achieved with a light weight. . In the example of FIGS. 1 and 2, for example, the surface material 6 is realized as a sheet having the same area as the main surface of the electromagnetic wave absorber 2, and the sheet-shaped surface material 6 is
The electromagnetic wave absorber 2 is provided on one side Z1 side in the thickness direction so as to cover the entire main surface (the surface material 6 does not appear in FIG. 1). When formed in such a sheet shape, the thickness of the surface material 6 is preferably 0.2 mm to 2.0 mm, and more preferably 0.6 mm to 1.0 mm. This is because if the thickness of the surface material 6 is less than 0.2 mm, the surface material 6 may be easily cracked or damaged, and if the thickness of the surface material 6 exceeds 2.0 mm, electromagnetic waves may be generated. This is because the electromagnetic wave absorption characteristics of the absorption panel tend to deteriorate.

The material for forming the surface material 6 is not particularly limited as long as it does not extremely disturb the electromagnetic wave absorption characteristics of the electromagnetic wave absorption panel, and is a conventionally known material such as unsaturated polyester resin, phenol resin or epoxy resin. A resin material can be used. Above all, it is preferable to use a phenol resin from the viewpoint that the electromagnetic wave absorption characteristics of the electromagnetic wave absorber, especially the oblique incident electromagnetic wave absorption characteristics can be remarkably improved.

When a phenol resin is used for forming the surface material 6, the kind thereof is not particularly limited, and for example, a resole resin, a novolac resin, a xylenol resin, a cresol resin, and a resorcinol resin can be preferably used.

Further, it is preferable that glass fibers are blended with the phenol resin. By blending the glass fiber with the phenol resin, the smoothness and strength of the surface material 6 can be improved, and the surface material can be provided with noncombustibility. Further, there is an advantage that the dielectric constant of the obtained surface material 6 can be adjusted by appropriately changing the compounding amount of the glass fiber. As the glass fiber, those usually blended in glass fiber reinforced plastic (FRP) can be used, and examples thereof include E-glass, C-glass, AR-glass, D-glass, and T-glass. Among them, E-glass is preferable from the viewpoint of electrical conductivity.

The glass fiber has a fiber diameter of 1 μm to 50 μm.
Is preferable, and 10 μm to 20 μm is more preferable. The fiber length is preferably 10 mm to 80 mm, more preferably 50 mm to 70 mm. The fiber diameter is less than 1 μm or 50 μm
If it exceeds, it tends to be difficult to obtain a sufficient reinforcing effect on the surface material. If the length of the fiber is less than 10 mm, it is difficult to obtain a sufficient reinforcing effect on the surface material, and if it exceeds 80 mm, it tends to be difficult to mix with the phenol resin. Instead of using the glass fibers in the fiber form, a woven fabric form, that is, a glass cloth may be used.

The weight ratio of the phenol resin to the glass fiber is preferably 100: 0 to 20:80, more preferably 60:40 to 20:80. When the compounding ratio of the glass fiber is more than 80, there is a tendency that the mixing with the phenol resin cannot be performed well.

When the surface material 6 is provided, the surface material may be adhered to the surface of the electromagnetic wave absorber 2 intended to enter the electromagnetic wave by using an adhesive. The adhesive is not particularly limited, and those exemplified as the adhesive that can be applied when the electromagnetic wave absorber and the reinforcing frame member are bonded to each other can be similarly applied. When the electromagnetic wave absorber and the surface material are bonded with an adhesive, the thickness of the adhesive is 10 μm.
It is preferably m to 100 μm. This is because if the thickness of the adhesive layer is less than 10 μm, it tends to be difficult to obtain good adhesive strength, and the thickness of the adhesive layer is 100 μm.
When it exceeds m, the electromagnetic wave absorption characteristics tend to deteriorate, which is not preferable.

Further, in the electromagnetic wave absorbing panel of the present invention, a second frame member (also referred to as a decorative frame) having a U-shaped cross section is further fitted so as to cover both sides of the electromagnetic wave absorbing body which are not covered by the guide portion. It is preferably realized as described above. By further including such a second frame member, it is possible to prevent dust and rainwater from entering even on both sides of the electromagnetic wave absorber that are not covered with the reinforcing frame member. 1, the reinforcing frame member 3 covers the main surface of the electromagnetic wave absorber 2 on the other side Z2 in the thickness direction and both side surfaces in the first width direction X with the reinforcing frame member 3, and An example is shown in which the second frame members 7 each having a U-shaped cross section are fitted on both sides in the two width directions Y to cover both side surfaces of the electromagnetic wave absorber 2 in the second width direction Y. In this example, the two protruding portions 7a, 7a of the second frame member
b is inserted between the reinforcing frame member 3 and the electromagnetic wave absorber 2 (on the back side) and between the surface material 6 and the reinforcing frame member 3 (on the front side), so that It is provided so as to cover both side surfaces in the two-width direction Y.

The material for forming the second frame member 7 in the present invention is not particularly limited, and the same material as the material for forming the reinforcing frame member 3 is exemplified. From the same viewpoint as the case of the reinforcing frame member 3, it is preferable to use a metal material,
Further, it is preferable that the surface is anticorrosive.

In the present invention, the electromagnetic wave absorber is fitted into the reinforcing frame member without the above-mentioned surface material,
Furthermore, it also includes an electromagnetic wave absorbing panel in which the second frame member is fitted into the reinforcing frame member so as to cover both sides of the electromagnetic wave absorber.

Further, in the electromagnetic wave absorption panel 1 of the present invention, it is preferable that the reinforcing frame member and the second frame member are fixed to each other via a corner reinforcing member. As the corner reinforcing member, as long as it has a shape capable of fixing the reinforcing frame member and the second frame member to each other,
Although not particularly limited, a member having an L-shaped cross section as shown in FIG. 2 is exemplified. By fixing the reinforcing frame member and the second frame member through such a corner reinforcing member, the four corner portions (corner portions) of the electromagnetic wave absorber are further used as the corner reinforcing member. Can be covered with
Even at the corner of the electromagnetic wave absorber that is not covered by the reinforcing frame member or the second frame member, it is possible to reliably prevent rainwater and dust from entering. In the electromagnetic wave absorption panel 1 shown in FIG. 1, a member having an L-shaped cross section as described above is provided at four corners of the electromagnetic wave absorption panel 1.
To each of the four corner reinforcing members 8
An example is shown in which the reinforcing frame member 3 and the second frame member 7 are fixed to each other by inserting them between the electromagnetic wave absorber and the frame member and screwing, for example, to form the electromagnetic wave absorbing panel 1. For screwing, for example, a drilling screw made of stainless steel and having a surface subjected to anticorrosion treatment can be used.

The material for forming the corner reinforcing member is not particularly limited, but from the viewpoint of strength, for example, (iron,
It is preferred to use metallic materials such as iron alloys, stainless steel, carbon steel. Of these, iron, iron alloy, stainless steel or carbon steel is preferable. Further, it is preferable that the corner reinforcing member has a surface subjected to anticorrosion treatment.

In the electromagnetic wave absorbing panel of the present invention, the weight per unit area is preferably 95 N / m ² -15.
5 N / m ² and more preferably 95 N / m ^{2 to} 130.
It is realized to be N / m ² . This is because if the weight per unit area is less than 95 N / m ² , the reinforcing effect on the electromagnetic wave absorber may be insufficient, and if the weight per unit area is 155 N / m ² . This is because if the number exceeds the limit, installation work may become difficult. For example,
In the electromagnetic wave absorption panel 1 of the embodiment shown in FIG. 1, the electromagnetic wave absorber 2 is a mat-shaped fiber assembly (FP-1, manufactured by Mitsubishi Cable Industries, Ltd.), the reinforcing frame member 3 and the second frame member 7 are aluminum. Plated steel sheet (weather resistant Ulster, made by Nisshin Steel, thickness: 0.8 mm), surface material is FRP sheet (Firenor, made by Nitto Boseki, phenolic resin: glass cloth = 55:45, thickness: 0. 6 mm) and the corner reinforcing member 8 is made of stainless steel (L-90-50-2.0, made by Nisshin Steel), the weight per unit area is 1
It becomes 25 ± 30 N / m ² .

The procedure for producing the electromagnetic wave absorption panel is as follows:
It is not particularly limited. In the case of the electromagnetic wave absorption panel 1 of the example shown in FIG. 1, it may be produced by the following procedures (1) to (3). The surface material 6 is adhered to the surface side of the electromagnetic wave absorber 2 intended to enter the electromagnetic wave with an adhesive. An adhesive is applied to the inner surface side of the reinforcing frame member 3, and the electromagnetic wave absorber 2 with the surface material 6 produced as described above is covered so that the back surface side of the electromagnetic wave absorber 2 that is not intended to enter electromagnetic waves is covered. Fit into the reinforcing frame member 3. The corner reinforcing member 8 is attached to the second frame member 7 by screwing, for example. At this point, do not tighten the screws completely. The second frame member 7 with the corner reinforcing member 8 produced above is fitted into the reinforcing frame member 3 so as to cover both sides of the electromagnetic wave absorber 2 which are not covered with the reinforcing frame member 3. The electromagnetic wave absorption panel 1 is completed by completely tightening the screws while removing the distortion.

[0034]

As is apparent from the above description, according to the present invention, it is possible to reliably prevent undesired deformation of the plate-shaped electromagnetic wave absorber with a relatively small number of parts, and to relatively It is possible to provide an electromagnetic wave absorption panel that is also lightweight.

[Brief description of drawings]

FIG. 1 is a simplified perspective view showing an electromagnetic wave absorption panel 1 of a preferred example of the present invention.

FIG. 2 is an exploded perspective view showing a simplified structure of the electromagnetic wave absorption panel 1 of FIG.

[Explanation of symbols]

1 Electromagnetic wave absorption panel 2 Electromagnetic wave absorber 3 Reinforcing frame member 4,5 guide part 6 surface materials 7 Second frame member 8 corner reinforcement members

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Toshio Kudo             1-8-30, Tenmabashi, Kita-ku, Osaka City, Osaka Prefecture             OAP Tower Mitsubishi Cable Industries, Ltd. Kansai             Branch office (72) Inventor Takayoshi Mitsui             663 Minoshima, Arita-shi, Wakayama Mitsubishi Electric Works             Minoshima Works Co., Ltd. F-term (reference) 5E321 AA04 AA05 AA44 CC01 CC16                       CC21 CC22 GG05

Claims (5)

[Claims] 1. A flat plate-shaped electromagnetic wave absorber, a flat plate-shaped plate portion, and a cross section L facing each other on both sides of the plate-shaped portion.
An electromagnetic wave absorbing panel comprising a reinforcing frame member having a guide portion that bends and extends in a letter shape, wherein the electromagnetic wave absorber guides so that at least the back side where electromagnetic waves do not enter is covered with the reinforcing frame member. Electromagnetic wave absorption panel that is fitted into the part. 2. The electromagnetic wave absorption panel according to claim 1, wherein a surface material is further fitted into the reinforcing frame member so as to cover the surface side of the electromagnetic wave absorber intended to be incident with electromagnetic waves. 3. The reinforcing frame member is further fitted with a second frame member having a U-shaped cross section so as to cover both sides of the electromagnetic wave absorber which are not covered by the guide portion. The electromagnetic wave absorption panel described in 2. 4. The electromagnetic wave absorption panel according to claim 3, wherein the reinforcing frame member and the second frame member are fixed to each other via a corner reinforcing member. 5. The weight per unit area is 95 N / m ² or more.
Characterized in that it is a 155N / m ^2, claims 1 to 4
The electromagnetic wave absorption panel according to any one of 1.