JP3053430U - Electromagnetic wave shielding sheet, film and electromagnetic wave shielding body - Google Patents

Abstract

(57) [Summary] The present invention provides an electromagnetic wave shielding sheet capable of accurately blocking irradiation of various objects with electromagnetic waves and avoiding the occurrence of various electromagnetic waves. An electromagnetic wave shielding sheet according to the present invention is formed by forming a synthetic resin fiber, a natural fiber, or a non-combustible fiber having an outer periphery coated or adhered with a conductive metal in a mesh shape. According to the electromagnetic wave shielding sheet 2, various objects are coated with the electromagnetic wave shielding sheet 1 formed by forming a synthetic resin fiber or a natural fiber 2 formed by coating or adhering the conductive metal on the outer periphery in a mesh shape. By doing so, the irradiation of the electromagnetic waves from the external electromagnetic wave generation source to the various objects can be accurately cut off, and the occurrence of various electromagnetic wave harmful effects can be avoided.

Description

[Detailed description of the invention] [Technical field to which the invention belongs]

 The present invention relates to an electromagnetic wave shielding sheet, a film, and an electromagnetic wave shielding body.

[Prior art]

 As the theory reveals, magnetism occurs as the current changes, and when the current fluctuates like a wave, magnetism also occurs in the same wave form. In other words, electromagnetic waves have the property of transmitting waves having two characteristics: electricity and magnetism. This electromagnetic wave travels in a vacuum at the same speed as light in one second and almost passes through both concrete and iron. Electromagnetic waves have energy, and there are two types of intensity, the magnetic component is mG (milligauss), and the electric component is mV / cm 2, and is usually expressed in mG. The energy of the electromagnetic wave becomes weaker as the distance from the source increases. As a source of such electromagnetic waves, for example, portable telephones (including PHS telephones), which have become widespread in recent years, have attracted attention.

[Problems to be solved by the invention]

 By the way, paying attention to various industrial fields, for example, in a pachinko machine which is a kind of a game machine, a ROM (read only memory) storing an advanced and complicated program is mounted in the machine of the pachinko machine. When an electromagnetic wave of a predetermined frequency is transmitted from a mobile phone in the vicinity of such a pachinko machine, the electromagnetic wave from the mobile phone is radiated to the ROM mounted in the machine, and as a result, one of the programs stored in the ROM is read. All or part of the pachinko machine will be destroyed, causing a malfunction of the pachinko machine, leading to a serious situation where wrongdoing is performed. Also, in the case of a mobile phone, a source of electromagnetic waves of a predetermined frequency is integrated with the mobile phone body. In order to use this near the temporal region, the user's brain and surrounding human tissues and organs are used. There is concern about the impact on the environment. In other words, electromagnetic waves have the property of gathering at the center of a sphere, and when electromagnetic waves are absorbed by the brain, a heat concentration point is generated near the center of the brain (pineal, an important organ that secretes neurohormones). Medical problems such as the decrease of important hormones secreted from melatonin, etc., problems that cannot be overlooked medically such as causing malfunctions of pacemakers used in the medical field, and transmission from CRT displays Various problems, such as the problem of electromagnetic wave damage to operators of computer equipment and the like caused by electromagnetic waves, are accumulating, and it is the fact that Japan is not yet fully prepared to take countermeasures against various adverse effects caused by such electromagnetic waves. The present invention has been developed in view of the above-mentioned conventional circumstances, and can appropriately prevent electromagnetic waves from being irradiated to various objects, prevent various electromagnetic waves from occurring, and prevent the generation of static electricity on various objects. An object is to provide an electromagnetic wave shielding sheet, a film, and an electromagnetic wave shielding body having a function.

[Means for Solving the Problems]

 The electromagnetic wave shielding sheet or film according to the present invention is characterized in that a synthetic resin fiber or a natural fiber or a non-combustible fiber formed by coating or adhering a conductive metal on the outer periphery is formed in a mesh shape. . In the present invention, the conductive metal is selected from copper, copper and nickel, gold, and silver, and the synthetic resin fiber is a nylon fiber. In the present invention, the non-combustible fibers are glass fibers or carbon fibers. Furthermore, both surfaces of an electromagnetic wave shielding sheet material or a film material formed by forming a synthetic resin fiber or a natural fiber or a non-combustible fiber formed by coating or adhering the conductive metal on the outer periphery are sandwiched by insulating materials. Such a coating may be used to form an electromagnetic wave shielding sheet or film. According to the electromagnetic wave shielding sheet or film of the present invention, an electromagnetic wave shielding formed by forming meshes of synthetic resin fibers or natural fibers or non-combustible fibers formed by coating or adhering the conductive metal on the outer periphery. By coating the sheet or film on various objects, it is possible to accurately block the irradiation of the electromagnetic waves from the external electromagnetic wave source to the various objects, and to avoid the occurrence of various types of electromagnetic wave harm. Even when the object has heat, it has good air permeability and excellent heat radiation characteristics. In addition, the conductive metal of the electromagnetic wave shielding sheet or film is made of copper or copper and nickel, and the synthetic resin fiber is made of nylon fiber, so that it can be cut into a desired shape and used. It is possible to widen the applicable range. In addition, by using nonflammable fibers made of glass fiber or carbon-based fiber for the electromagnetic wave shielding sheet or film, the electromagnetic wave shielding sheet or film can be handled more safely against fire. Further, by forming the electromagnetic wave shielding sheet by coating both sides of the electromagnetic wave shielding sheet or film material so as to be sandwiched by insulating materials, carelessness such as a so-called short phenomenon with respect to the outer surface of the electromagnetic wave shielding sheet or the film is provided. It can insulate and cut off electrical conductivity. The electromagnetic wave shield according to the present invention has a cover made of a transparent material, a translucent material, or an opaque material that covers the shielded object so as to surround the shielded object, and a conductive metal is coated or adhered to the outer periphery. An electromagnetic wave shielding sheet or an electromagnetic wave shielding film formed of a mesh made of synthetic resin fiber, natural fiber, or noncombustible fiber, and attached to a cover surface of the cover body with respect to the shielded object. It is. According to the electromagnetic wave shield according to the present invention, the cover surface of the cover made of a transparent material, a translucent material, or an opaque material surrounding the shield so as to surround the shield is provided with a conductive surface. Since an electromagnetic wave shielding sheet or an electromagnetic wave shielding film formed by forming a synthetic resin fiber or a natural fiber or a non-combustible fiber formed by coating or adhering a metal on the outer periphery into a mesh shape is attached, the electromagnetic wave shielding is performed. By covering the ROM, which stores an advanced and complicated program, which is a shielded object mounted in the machine of a pachinko machine, for example, by a body, it is possible to irradiate the ROM with electromagnetic waves from an external electromagnetic wave source such as a mobile phone. It is possible to prevent the adverse effects of destruction of part or all of the program, etc., beforehand, by properly shutting off the program. In this case, the heat dissipated by the ROM does not hinder the heat dissipation because the mesh-shaped electromagnetic wave shielding sheet has excellent air permeability. Furthermore, the electromagnetic wave shield according to the present invention includes a cover made of a transparent material, a translucent material, or an opaque material surrounding the shield so as to surround the shield, and a conductive metal covering or adhering to the outer periphery. An electromagnetic wave shielding sheet or an electromagnetic wave shielding film formed of synthetic resin fibers, natural fibers, or incombustible fibers in a mesh shape and attached to a cover surface of the cover body with respect to the shielded object; A grounding member for grounding the conductive metal portion of the sheet or the electromagnetic wave shielding film. According to this invention, in addition to the above-described operation of the electromagnetic wave shield, a grounding member is provided for grounding the conductive metal portion of the electromagnetic wave shielding sheet or the electromagnetic wave shielding film. Even when the shield is a charged body, the shield can be prevented from being charged. In the above-described electromagnetic wave shield according to the present invention, the conductive metal is copper, copper and nickel, gold, and silver. The synthetic resin fiber is a nylon fiber. In the present invention, the non-combustible fibers are glass fibers or carbon fibers. Furthermore, both surfaces of an electromagnetic wave shielding sheet material or a film material formed by forming a synthetic resin fiber or a natural fiber or a non-combustible fiber formed by coating or adhering the conductive metal on the outer periphery are sandwiched by insulating materials. Such a coating may be used to form an electromagnetic wave shielding sheet or film. According to the electromagnetic wave shield according to the present invention, the conductive metal effectively exerts an electromagnetic wave shielding operation, and the flexibility of the nylon fiber and the good processing make it possible to adapt the shape of the cover surface of the cover body. It exerts excellent effects such as cutting into a desired shape. Further, by using non-combustible fibers made of glass fiber or carbon-based fiber for the electromagnetic wave shielding sheet or film, the electromagnetic wave shielding sheet or film can be handled more safely against fire. Furthermore, by coating both sides of the electromagnetic wave shielding sheet material or the film material so as to be sandwiched between insulating materials to form an electromagnetic wave shielding sheet, carelessness such as a so-called short-circuit phenomenon on the outer surface of the electromagnetic wave shielding sheet or the film can be obtained. It can insulate and cut off electrical conductivity.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail. FIG. 1A shows the electromagnetic wave shielding sheet 1 according to the embodiment of the present invention, and FIG. 1C shows the electromagnetic wave shielding film 1 'according to the embodiment of the present invention. The electromagnetic wave shielding sheet 1 or the electromagnetic wave film 1 ′ of the present embodiment is made of synthetic resin fiber or natural fiber or non-combustible fiber 2 formed by coating or adhering a conductive metal on the outer periphery. It is formed in a mesh shape having a gap of, for example, about 0.5 to 1 mm as shown in FIG. The conductive metal is made of copper or copper and nickel as raw materials, and the synthetic resin fiber is a nylon fiber. When silver is used as the conductive material of the electromagnetic wave shielding sheet 1 or the electromagnetic wave film 1 ', various devices and various objects to be shielded can be always kept clean due to the antibacterial effect of silver. . Gold can also be used as the conductive material of the electromagnetic wave shielding sheet 1 or the electromagnetic wave film 1 '. FIG. 2 shows a state in which the electromagnetic wave shielding sheet 1 is cut and attached to, for example, a cover surface (outer peripheral surface) of a cover 3 of a mobile phone. FIG. 3 shows the attenuation (total reflection and absorption) characteristics (dB) of the electromagnetic wave shielding sheet 1 or the electromagnetic wave film 1 'with respect to a change in frequency (Hz) from 0 to 1000 MHz. FIG. 3 shows the shielding effect of the electromagnetic wave shielding sheet, the film and the electromagnetic wave shielding body according to the present invention with respect to the electromagnetic wave of the frequency radiated by, for example, a mobile phone, and measurement data of the shielding effect. This measurement data was measured by the so-called KEC (Kansai Electronics Industry Promotion Center) method. As is clear from FIG. 3, the electromagnetic wave shielding sheet, film and electromagnetic wave shielding body according to the present invention have an excellent shielding effect and shielding effect against electromagnetic waves of a frequency radiated by, for example, mobile phones. It has been found. The frequency-shielding characteristics shown in FIG. 3 were measured using "RF Field Analyzer U4342" manufactured by Advanced Corporation. In addition, the conductive metal of the electromagnetic wave shielding sheet 1 or the electromagnetic wave film 1 ′ may be cut into a desired shape by using copper or copper and nickel and the synthetic resin fiber as nylon fiber, It is excellent in workability, and can broaden the applicable range as described later. In the present invention, the non-combustible fibers are glass fibers or carbon fibers. By using a non-combustible fiber made of glass fiber or carbon fiber for the electromagnetic wave shielding sheet or film, the electromagnetic wave shielding sheet or film can be handled more safely against fire. As shown in FIG. 1 (b), in the present invention, an electromagnetic wave formed by forming a synthetic resin fiber or a natural fiber or a non-combustible fiber formed by coating or adhering the conductive metal on the outer periphery in a mesh shape. The electromagnetic shielding sheet may be formed by coating both sides of the shielding sheet material so as to be sandwiched between the sheet-shaped insulating materials 2 ′ and 2 ′. In this case, careless electrical conductivity such as a so-called short phenomenon with respect to the outer surface of the electromagnetic wave shielding sheet can be insulated or cut off. As the insulating materials 2 'and 2', for example, polypropylene or PET (PET) is used. Furthermore, as shown in FIG. 1 (d), in the present invention, a synthetic resin fiber or a natural fiber or a non-combustible fiber formed by coating or adhering the conductive metal on the outer periphery is formed in a mesh shape. It is also possible to form an electromagnetic wave shielding film by coating both sides of the electromagnetic wave shielding film material thus formed so as to be sandwiched between the sheet-shaped insulating materials 2 ′ and 2 ′. As described above, in this case, careless electrical conductivity such as a so-called short phenomenon with respect to the outer surface of the electromagnetic wave shielding film can be insulated or cut off. As the insulating material 2 ', 2', for example, polypropylene or PET (PET) is used. Next, an embodiment of the present invention applied to a ROM 21 storing an advanced and complicated predetermined program, which is a shielded object mounted inside the machine base 11 of the pachinko machine 10 as shown in FIG. The electromagnetic wave shield 20 of the embodiment will be described with reference to FIGS. The electromagnetic wave shield 20 shown in FIG. 6 has a substantially rectangular parallelepiped shape formed so as to surround the ROM 21 which is a shield mounted on the board 12 inside the machine base 11 so as to cover the ROM 21, and the ROM 21 side has an opening. A cover 30 made of a transparent material or a translucent material provided with a mounting piece 31 at the end on the opening side as shown in FIG. 6 and attached to a cover surface of the cover 30 with respect to the ROM 21. And the electromagnetic wave shielding sheet 1. The ROM 21 is surrounded and covered by a cover 30 having the electromagnetic wave shielding sheet 1 and a lid 30 ′ having the electromagnetic wave shielding sheet 1. Reference numeral 30 'in FIG. 5 denotes a lid that surrounds and covers the ROM 21 together with the cover body 30 including the electromagnetic wave shielding sheet 1. The cover body 30 is provided with a hole 32 for heat radiation. 5 and 6 are enlarged perspective views of the cover body of the electromagnetic wave shielding body of the present embodiment. belongs to. According to the electromagnetic wave shield 20, the electromagnetic wave shield sheet 1 is attached to the cover surface of the cover 30 made of a transparent or translucent material that covers the ROM 21. By covering the altitude, which is a shielded object mounted in the machine base, and the ROM 21 storing a complicated program, even when an electromagnetic wave is transmitted from a mobile phone near the pachinko machine 10, for example, In addition, the radiation of the electromagnetic wave from the portable telephone to the ROM 21 can be accurately cut off, and the harmful effect of destruction of part or all of the program can be avoided beforehand, thereby preventing fraud. In this case, the mesh-shaped electromagnetic wave shielding sheet 1 does not disturb the heat radiated from the ROM 21 to the outside through the hole 32 because the mesh-shaped electromagnetic wave shielding sheet 1 is excellent in air permeability. As shown in FIG. 6, a grounding member (grounding wire) 33 is connected to the electromagnetic wave shielding sheet 1 of the electromagnetic wave shielding body 20, and the grounding member 33 is grounded to a fixed metal member or the like of the machine base 11. As a result, electric charges are prevented from staying in the ROM 21 or members around the ROM 21, and these charges can be prevented. 7 to 10 show various usage examples of the electromagnetic wave shielding sheet 1 of the present embodiment. FIG. 7 shows the electromagnetic wave shielding sheet 1 (shaded lines) except for the screen of the computer set 40. 8 shows an example in which the curtain sheet 50 is covered with the electromagnetic wave shielding sheet 1 (shown with diagonal lines), and FIG. 9 shows an example of a suit 60 in an inner pocket or the like. Although not shown, it shows an example in which the above-mentioned electromagnetic wave shielding sheet 1 is used. FIG. 10 shows an example in which the electromagnetic wave shielding sheet 1 is used for the bag / bag 70. In this case, the electromagnetic wave shielding sheet 1 may be attached to the inner surface or the outer surface of the bag / bag 70 or the like. . In addition to the above examples, it is applied to pacemaker users used in the medical field to prevent malfunction of the pacemaker due to the interruption of electromagnetic waves, and to cover the interior and exterior of microwave ovens, OA aprons, various medical devices and electronic control devices. For example, the electromagnetic wave shielding sheet 1 according to the embodiment of the present invention can be used over an extremely wide range. As described above, according to the electromagnetic wave shielding sheet 1 of the embodiment of the present invention, the nylon fiber is coated with a conductive substance (copper). The material is very soft and easy to process. In addition, it is possible to cut off 98 to 99% of electromagnetic waves that block electromagnetic waves and affect the human body. Furthermore, grounding treatment can prevent static electricity from being charged due to the adsorption of charged dust and smoke from cigarettes. In each of the examples using the electromagnetic wave shielding sheet 1 shown in FIGS. 5 to 10, the electromagnetic wave shielding film 1 ′ can be used instead of the electromagnetic wave shielding sheet 1.

[Effect of the invention]

 According to the present invention, irradiation of electromagnetic waves from external electromagnetic wave sources to various objects can be accurately cut off, and various electromagnetic wave harmful effects can be avoided beforehand.In addition, electromagnetic waves having excellent air permeability and workability can be obtained. A shielding sheet or film can be provided. In addition, according to the present invention, it is possible to accurately block the irradiation of electromagnetic waves from an external electromagnetic wave source such as a mobile phone, thereby avoiding the occurrence of various types of electromagnetic wave harmful effects, and further improving the air permeability or processability. Thus, an excellent electromagnetic wave shield can be provided. Further, according to the present invention, it is possible to provide an electromagnetic wave shield capable of preventing charging of various objects.

[Brief description of the drawings]

FIG. 1A is a perspective view illustrating an electromagnetic wave shielding sheet according to an embodiment of the present invention, and FIG. 1B is a diagram illustrating a state in which both surfaces of the electromagnetic wave shielding sheet material according to the embodiment are coated so as to be sandwiched between insulating materials. The perspective view shown, (c) is a perspective view showing the electromagnetic wave shielding film of the embodiment of the present invention, and (d) is formed by coating both sides of the electromagnetic wave shielding film material of the present embodiment so as to be sandwiched between insulating materials. It is a perspective view showing a state.

FIG. 2 is a perspective view showing an example in which a cover of a mobile phone is covered with the electromagnetic wave shielding sheet of the present embodiment.

FIG. 3 is a graph showing the shielding effect of the electromagnetic wave shielding sheet, the film, and the electromagnetic wave shielding body of the present embodiment on the electromagnetic wave at the frequency, and measurement data of the shielding effect.

FIG. 4 is a perspective view showing a pachinko machine using the electromagnetic wave shield of the present embodiment.

FIG. 5 is an enlarged perspective view showing a cover body of an electromagnetic wave shield of an example used in the pachinko machine of the present embodiment.

FIG. 6 is a perspective view showing an example of an electromagnetic wave shield used in the pachinko machine of the present embodiment.

FIG. 7 is a perspective view showing a computer covered with the electromagnetic wave shielding sheet of the embodiment.

FIG. 8 is a perspective view showing a curtain material covered with the electromagnetic wave shielding sheet of the present embodiment.

FIG. 9 is a schematic diagram showing a suit using the electromagnetic wave shielding sheet of the present embodiment.

FIG. 10 is a schematic diagram showing bags and bags using the electromagnetic wave shielding sheet of the present embodiment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Electromagnetic wave shielding sheet 1 'Electromagnetic wave shielding film 2 Synthetic resin fiber or natural fiber or incombustible fiber 2' Insulating material 3 Cover 10 Pachinko machine 11 Machine stand 12 Substrate 20 Electromagnetic wave shield 21 ROM 30 Cover 30 'Cover 31 Mounting piece 32 Hole 33 Grounding Member 40 Computer Set 50 Curtain 60 Suit Suit 70 Bag / Bag

Claims (15)

[Utility model registration claims] 1. An electromagnetic wave shielding sheet comprising a synthetic resin fiber, a natural fiber, or a non-combustible fiber formed by covering or adhering a conductive metal on the outer periphery in a mesh shape. 2. An electromagnetic shielding sheet made of synthetic resin fibers or natural fibers or non-combustible fibers formed by covering or adhering a conductive metal on the outer periphery in a mesh shape so that both surfaces thereof are sandwiched by insulating materials. An electromagnetic wave shielding sheet characterized by being coated. 3. The conductive metal is copper, copper and nickel,
The electromagnetic wave shielding sheet according to claim 1, wherein the sheet is selected from gold and silver. 4. The electromagnetic wave shielding sheet according to claim 1, wherein the synthetic resin fiber is a nylon fiber. 5. The electromagnetic wave shielding sheet according to claim 1, wherein the non-combustible fibers are glass fibers or carbon fibers. 6. An electromagnetic wave shielding film comprising a synthetic resin fiber or a natural fiber or a non-combustible fiber formed by covering or adhering a conductive metal on the outer periphery in a mesh shape. 7. An electromagnetic wave shielding film formed by forming a synthetic resin fiber or a natural fiber or a non-combustible fiber formed by covering or adhering a conductive metal on the outer periphery in a mesh shape so that both surfaces thereof are sandwiched by insulating materials. An electromagnetic wave shielding film characterized by being coated. 8. The conductive metal is copper, copper and nickel,
8. The electromagnetic wave shielding film according to claim 6, wherein the film is selected from gold and silver. 9. The electromagnetic wave shielding film according to claim 6, wherein the synthetic resin fiber is a nylon fiber. 10. The electromagnetic wave shielding film according to claim 6, wherein the non-combustible fibers are glass fibers or carbon fibers. 11. A cover made of a transparent material, a translucent material or an opaque material covering the shielded object so as to surround the shielded object, a synthetic resin fiber coated or adhered to the outer periphery with a conductive metal or An electromagnetic wave shielding sheet or an electromagnetic wave shielding film formed of a natural fiber or a non-combustible fiber in a mesh shape, and attached to a cover surface of the cover body with respect to the shielded object. 12. A cover body made of a transparent material, a translucent material or an opaque material which covers the shielded object so as to surround the shielded object, a synthetic resin fiber whose outer periphery is coated or adhered with a conductive metal or An electromagnetic wave shielding sheet or an electromagnetic wave shielding film formed of a natural fiber or a non-combustible fiber in a mesh shape and attached to a cover surface of the cover body with respect to the shielded object; and a conductive metal portion of the electromagnetic wave shielding sheet or the electromagnetic wave shielding film An electromagnetic wave shield, comprising: a grounding member that grounds the electromagnetic wave. 13. The conductive metal is copper, copper and nickel,
13. The electromagnetic wave shield according to claim 11, wherein the electromagnetic wave shield is selected from gold and silver. 14. The electromagnetic wave shield according to claim 11, wherein the synthetic resin fiber is a nylon fiber. 15. The electromagnetic wave shield according to claim 11, wherein the non-combustible fibers are glass fibers or carbon fibers.