JP2002026573A - Electromagnetic shielding material and method of manufacturing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a light-weight electromagnetic shielding material which can sufficiently shield electromagnetic waves and can be manufactured at a low cost, and also provide a method of manufacturing the same. SOLUTION: The electromagnetic shielding material is made by first applying a coal composition, which comprises powdery coal, metal powder, and binder, on cloth or paper, and then pressing it with a pressure of 1-10 kg/cm2 by a roller. As for an amount of the coal composition to be applied on the cloth or paper, 1-10 mg/cm2 is preferable.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electromagnetic wave shielding material containing a charcoal composition containing charcoal as a main component and a method for producing the same.

[0002]

2. Description of the Related Art In recent years, it has been known that electromagnetic waves emitted from electronic devices such as personal computers, mobile phones, various home appliances, and high-voltage lines adversely affect health. In order to prevent the influence of such electromagnetic waves, various electromagnetic wave shielding materials have been developed. For example, there are a low-resistance metal foil provided on an electronic device main body, an electrostatic shield formed by vapor deposition of a metal oxide, and the like. Specifically, indium-tin oxide, gold, copper,
It is known that silver, tin oxide, indium oxide, or the like is formed into a thin film by vapor deposition.

[0003]

However, these have a problem that the manufacturing process is complicated and the cost is high. Further, a mixture of powder or fiber of a metal such as silver, copper, nickel or the like in a resin is known. These are easy to manufacture and low in cost, but have insufficient electromagnetic wave shielding effects. Conversely, if a large amount of metal is contained so that the electromagnetic wave shielding effect is sufficient, it becomes heavy, and it is difficult to use it in recent electronic devices and the like that are becoming lighter.

An object of the present invention is to provide an electromagnetic wave shielding material which is lightweight, sufficiently shields electromagnetic waves, and can be manufactured at low cost, and a method of manufacturing the same.

[0005]

Means for Solving the Problems In order to solve the above-mentioned problems, the invention according to claim 1 provides a base material that can be processed into a predetermined shape by applying a charcoal composition mainly containing powdered charcoal to a base material. An electromagnetic wave shielding material characterized by comprising:

According to the first aspect of the present invention, there is provided an electromagnetic wave shield comprising a charcoal composition which is excellent in conductivity and is mainly composed of charcoal, which is lighter than a metal, in a base material which can be processed into a predetermined shape. Since it is a material, it is lightweight and can sufficiently shield electromagnetic waves. Here, charcoal includes charcoal, bamboo charcoal, rice husk charcoal, natural carbon, and the like, and the particle size of the powder is preferably 0.5 to 30 μm. The charcoal composition contains charcoal powder in a weight ratio of at least half.

The base material of the electromagnetic wave shielding material according to the first aspect may be any material as long as it can be processed into a predetermined shape. For example, a resin may be used. If it is a resin, it can be formed into any shape by molding or the like. Further, as in the invention described in claim 2, the charcoal composition may contain a binder, and the base material may be cloth or paper. In the case of cloth or paper as in claim 2, the sheet can be cut, compressed, bent, etc., and becomes a sheet-like electromagnetic wave shielding material applicable to various electronic devices. In addition, since the charcoal composition contains a binder, it can be sufficiently adhered to cloth or paper. here,
Various pastes and adhesives can be used as the binder.

According to a third aspect of the present invention, there is provided the electromagnetic wave shielding material according to the second aspect, wherein the charcoal composition comprises a cloth or paper.
It is characterized by containing 1 to 10 mg per cm ² . If it is less than 1 mg, the above effects of the present invention cannot be obtained, and if it exceeds 10 mg, the cost will increase.

[0009] In the electromagnetic wave shielding material according to any one of the first to third aspects, the carbon composition may contain metal powder as in the invention according to the fourth aspect. According to the fourth aspect of the invention, the effect of shielding electromagnetic waves is further enhanced. Here, as the metal powder, silver, aluminum,
Copper, nickel and the like are preferably used.

According to a fifth aspect of the present invention, a charcoal composition containing powdered charcoal as a main component and further containing a binder is adhered to cloth or paper, and then 1 to 10 kg / cm to the cloth or paper. ^Two
A method for producing an electromagnetic wave shielding material, characterized by applying a pressure of In claim 5, for charcoal, claim 1
Similarly, the binder is the same as in claim 2.

According to the manufacturing method of the fifth aspect, the electromagnetic wave shielding material of the second aspect can be suitably manufactured. That is, in the manufacturing method of claim 5, 1 to 10 kg
By applying a pressure of / cm ² , the charcoal composition can be spread sufficiently and uniformly on the cloth or paper. Pressure is 1kg
/ cm uniformly coal composition unevenness occurs not spread if less than ^2, since the greater than 1 to 10 kg / cm ² is cloth or paper or broken undesirable. Moreover, by controlling the pressure to this level, an electromagnetic wave shielding material containing 1 to 10 mg of the carbon composition per 1 cm ² of cloth or paper can be obtained.

Further, in comparison with the conventional high-cost electromagnetic wave shielding material of vapor deposition or thin film, the method of manufacturing according to the fifth aspect is characterized in that a charcoal composition containing powdered charcoal and a binder is adhered to cloth or paper. Since the process is the main process, it can be manufactured at low cost.

[0013]

Embodiments of the present invention will be described below in detail. The electromagnetic wave shielding material of the present invention is characterized in that a base material that can be processed into a predetermined shape contains a charcoal composition mainly composed of powdered charcoal. Examples of the substrate of the present invention include cloth and paper. The cloth may be made of various synthetic fibers such as polyester fibers and acrylic fibers, or natural fibers such as cotton and hemp, or a blend of these fibers. The weaving method may be appropriately selected according to the required flexibility and rigidity, and a woven fabric or a nonwoven fabric can be used. As the paper, not only paper made of general plant pulp but also various kinds of paper such as synthetic paper can be used. Further, various resins such as an acrylic resin, a polystyrene resin, a polyurethane resin, and an epoxy resin may be used as the base material.

The charcoal composition of the present invention contains at least powdered charcoal as a main component. As the charcoal, charcoal such as Bincho charcoal, bamboo charcoal, rice husk charcoal, natural carbon (for example, black silica produced in Hiyama-gun, Hokkaido) and the like may be used, and two or more of these may be included. Among them, charcoal obtained by artificial sintering such as charcoal and bamboo charcoal is 80
50 ° C at a high temperature of 0 ° C or more, preferably 1000 ° C or more
It is preferable to sinter and carbonize for about 100 hours, especially about 70 hours. Also, the size of the grains is 0.5 to 3
Preferably, the diameter is 0 μm. If the particle size is smaller than 0.5 μm, it is inconvenient to handle.
If the particles are larger, the feel of the surface of the electromagnetic wave shielding material is not good because the particles are too large.

It is preferable that the charcoal composition of the present invention further contains a metal powder. Examples of the metal powder include silver, aluminum, copper, nickel and the like, and a mixture thereof may be used. The size of the metal powder is preferably 0.5 to 30 μm for the same reason as for charcoal. The ratio of the metal powder to charcoal is appropriately 0.1 to 20 parts by weight, preferably 3 to 1 parts by weight, based on 100 parts by weight of the carbon powder.
5 parts by weight.

In the case where cloth or paper is used as the base material in the present invention, it is preferable that the charcoal composition further contains various binders. As the binder, starch-based paste, vinyl acetate, Various adhesives such as a polypropylene-based adhesive can be used.

Further, the charcoal composition may contain a fine fiber substance. Examples of the fibrous substance include carbon fiber, rush, and the like. The inclusion of these materials can impart strength to the electromagnetic wave shielding material. The length of the fiber is preferably 0.5 to 30 μm. in addition,
The charcoal composition of the present invention may contain components other than those described above, if necessary, and water, liquids such as wood vinegar and bamboo vinegar, and powders produced by firing resins and the like. It may contain carbon, various ceramic powders and the like. When using a cloth or paper as a base material, the amount of the charcoal composition is 1 cm of cloth or paper.
1 to 10 mg, preferably 2 to 4 mg per ² If it is less than 1 mg, a desired shielding effect cannot be obtained, and if it exceeds 10 mg, the cost will increase.

In the case where cloth or paper is used as the base material, the electromagnetic wave shielding material of the present invention adheres the above-mentioned charcoal composition to the cloth or paper by applying or spraying.
It is manufactured by pressing and compressing using a roller or a press. In this case, the pressure, 1 to 10 kg / cm ² (a where ^{1kg / cm 2 = 9.8 × 10} 4 Pa) is preferable,
Particularly preferably 2~5kg / cm ² when deposited by coating, preferably 5 to 10 kg / cm ² when deposited by spraying. When the pressure is less than 1 kg / cm ² , the charcoal composition does not spread evenly on the cloth or paper, causing unevenness, and 1 to 10 kg / cm ²
If it is larger than that, the cloth or paper breaks, which is not preferable. Moreover, by controlling to this pressure, the amount of the charcoal composition is 1 to 10 mg per 1 cm ^{2 of the} above-mentioned cloth or paper.
Becomes

It is preferable to apply heat during the pressing and compression. The temperature may be appropriately selected according to the type of the binder contained in the charcoal composition. For example, if the binder is starch-based glue, it is 100 to 140 degrees, if it is a vinyl acetate resin emulsion-based adhesive, it is 140 to 180 degrees, and if it is a polypropylene-based hot melt adhesive, it is 13 to 13.
0 to 180 degrees. When a polypropylene-based hot-melt solid binder is used, a step of heating and melting beforehand is required before mixing with the charcoal composition. In order to simultaneously perform pressing / compression and heating, a heating roller or a high-frequency press may be used. In addition, pressing as needed,
It may be dried after compression. According to the method of manufacturing using cloth or paper as a base as described above, a sheet-like electromagnetic wave shielding material can be obtained. The thickness of the entire sheet greatly varies depending on the thickness of the cloth or paper used, but is usually about 1 mm to several mm.

FIG. 1 shows an example of a method of manufacturing the electromagnetic wave shielding material of the present invention. In FIG. 1, 1 is a receiving plate of a belt conveyor, 2 is a lower paper roller, 5 is a raw material tank, 7 is a raw material feed roller, 8 is an upper paper roller, 10 is an upper pressing roller, 11 is a lower pressing roller, and 12 is a drying roller. The tank 4 is a take-up roller, 3a, 3b, 3c, 3d, 3e, 3f
Is an auxiliary roller. In FIG. 1, a belt conveyor (not shown) is provided on the receiving plates 1, 1, 1.

The lower sheet roller 2 has a roll-shaped lower sheet P1.
Is attached, from which the under sheet P1 is pulled out and sent to the right by a belt conveyor. In the raw material tank 5, 80 parts by weight of bamboo charcoal powder (30 microns), 10 parts by weight of nickel powder (30 microns), 10 parts by weight of a vinyl acetate resin emulsion as a binder, 5 parts by weight of bamboo vinegar, 5 parts by weight of water
The mud-like charcoal composition Q obtained by mixing parts by weight is stored. The bamboo charcoal and nickel powder have a particle size adjusted through 240 mesh. The carbon composition Q is sent from the raw material tank 5 to the raw material feed roller 7, and a predetermined amount of the carbon composition Q is applied to the base paper P <b> 1 passing through the place where the raw material feed roller 7 is installed.

On the other hand, a roll-shaped upper paper P2 is attached to the upper paper roller 8, from which the upper paper P2 is pulled out and overlaps the lower paper P1 coated with the charcoal composition Q. With the charcoal composition Q sandwiched between the upper paper P1 and the lower paper P2, it passes between the upper pressing roller 10 and the lower pressing roller 11, where the upper paper P1 and the lower paper P2 are pressed at a pressure of 4 kg / cm ^2.
The space is compressed. Then, it is sent into the drying tank 12 in a compressed state, where it is heated to remove moisture,
The sheet-like electromagnetic wave shielding material S of the present invention is obtained, and is taken up by the take-up roller 4.

When manufacturing with a press machine, for example, the manufacturing is performed as follows. 65 parts by weight of bamboo charcoal powder, 15 parts by weight of carbon powder, 10 parts by weight of ceramic powder mainly composed of tourmaline, and 10 parts by weight of a binder which is a phenolic resin adhesive are mixed well to obtain a charcoal composition. Here, bamboo charcoal powder, carbon powder, and ceramic powder are 3
It is adjusted through a 240 mesh so as to have a diameter of about 0 μm. This charcoal composition is applied to a nonwoven fabric, and then pressed by a press at a pressure of 3 to 5 kg / cm ² , and then dried at 110 ° C. for 3 minutes to obtain an electromagnetic wave shielding material.

The electromagnetic wave shielding material manufactured by the method of FIG. 1 was used for a spectrum analyzer tester (WBL).
The performance of the electromagnetic wave shield was evaluated using a tri-field meter manufactured by EE Corporation. Make a mobile phone call, 10cm
The deflection of the needle of the spectrum analyzer tester was examined depending on the presence or absence of the electromagnetic wave shielding material at a distance of. As a result, 1
It showed a water reduction rate of 45 dbm (99%) or more at 00 MHz. In addition, the band used for mobile phones and televisions is 700 to
50 dbm (99.9%) or more in the 2000 MHz region, and especially 70 dbm in the 1400 to 1700 MHz region
(99.99%) or more.

According to the electromagnetic wave shielding material of the present invention described above, since it is an electromagnetic wave shielding material containing a charcoal composition mainly composed of charcoal having excellent conductivity as a base material, it is lightweight and sufficiently shields electromagnetic waves. be able to. In particular, if cloth or paper is used as the base material, the electromagnetic wave shielding sheet is extremely lightweight, can be cut and bent freely, and has high utility. Furthermore, if the metal powder is mixed with the charcoal composition, the effect of shielding electromagnetic waves is further enhanced. Also,
According to the method for producing an electromagnetic wave shielding material of the present invention, the charcoal composition is applied and adhered to cloth or paper, and a pressure of 1 to 10 kg / cm ² is applied. You can get things around. According to the production method of the present invention, since the main step is to attach a charcoal composition containing charcoal and a binder to cloth or paper, it can be produced at low cost.

Further, since the electromagnetic wave shielding material of the present invention contains a large amount of charcoal, it is a multifunctional electromagnetic wave shielding material which not only shields electromagnetic waves, but also has effects of high deodorizing performance and exerting negative ions which are favorable for the body. Becomes

When a resin is used as the base material,
What is necessary is just to knead and mix the charcoal composition containing the above-mentioned charcoal powder in resin, and to mold and manufacture.

[0028]

According to the first aspect of the invention, a charcoal composition mainly composed of charcoal excellent in conductivity and lighter than metal is contained in a base material that can be processed into a predetermined shape. Since it is an electromagnetic wave shielding material, it is lightweight and can sufficiently shield electromagnetic waves.

If the base material is cloth or paper as in claim 2,
Processing such as cutting, compression, and bending is possible, and the sheet-shaped electromagnetic wave shielding material is applicable to various electronic devices. Further, since the charcoal composition contains a binder, it can be sufficiently adhered to cloth or paper. Claim 4
According to the invention described in (1), since the metal powder is included, the effect of shielding electromagnetic waves is further enhanced.

According to the manufacturing method described in claim 5, the electromagnetic wave shielding material according to claim 2 can be suitably manufactured. That is, in the manufacturing method of claim 5, 1 to 10 kg
By applying a pressure of / cm ² , the charcoal composition can be spread sufficiently and uniformly on the cloth or paper. In addition, by controlling the pressure to this value, cloth or paper 1 cm
^An electromagnetic wave shielding material containing 1 to 10 mg of the charcoal composition per ² can be obtained.

[Brief description of the drawings]

FIG. 1 is a view showing an example of a method for producing an electromagnetic wave shielding material of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Receiving plate of belt conveyor 2 Base paper roller 4 Take-up roller 5 Raw material tank 7 Raw material feed roller 8 Upper paper roller 10 Upper press roller 11 Lower press roller 12 Drying tank P1 Paper P2 Paper Q Charcoal composition

Claims (5)

[Claims] An electromagnetic wave shielding material characterized in that a base material which can be processed into a predetermined shape contains a charcoal composition mainly composed of powdered charcoal. 2. The electromagnetic wave shielding material according to claim 1, wherein the charcoal composition contains a binder, and the base material is cloth or paper. 3. The charcoal composition is used in an amount of 1 to 1 per cm ^{2 of} cloth or paper.
The electromagnetic wave shielding material according to claim 2, wherein 0 mg is contained. 4. The electromagnetic wave shielding material according to claim 1, wherein the charcoal composition contains a metal powder. 5. A method of adhering a charcoal composition containing powdered charcoal as a main component and further comprising a binder to cloth or paper, and then applying a pressure of 1 to 10 kg / cm ² to the cloth or paper. Characteristic method for producing electromagnetic wave shielding material.