JP3160841U - Disposable electromagnetic shielding sheet - Google Patents

Abstract

Disclosed is a disposable electromagnetic shielding sheet capable of preventing a part of electromagnetic waves leaking from an electronic device, a cooking device, etc. from reaching a human body at a low cost. A paper or nonwoven fabric is stacked on an aluminum foil having a thickness of 5 to 20 μm, and both are locked by an adhesive means to form a laminate. It is preferable that the shape of the laminated body is an apron shape, a napkin shape or a knee-hook shape. Also, the adhesive means is an adhesive and / or double-sided tape, or a paper or non-woven fabric coated with one or more selected from finely powdered activated carbon, bamboo charcoal and trimanite on its surface Is even better. [Selection] Figure 1

Description

  The present invention relates to a disposable electromagnetic shielding sheet, and more particularly, to a technique for mitigating the influence of electromagnetic waves leaking from an electronic device or a cooking device on a human body.

  With the widespread use of home appliances, personal computers, heating, lighting, communication devices (including mobile phones and car navigation systems), various power sources, etc., a large amount of electromagnetic waves are generated from these electric devices, various power facilities, and control systems. Since such electromagnetic waves are generated everywhere, they enter and fly inside the building. For this reason, current offices, that is, our living environment, are exposed to electromagnetic waves of various frequencies. Further, problems such as malfunctions of electronic devices (for example, cardiac pacemakers) and secret leaks from communication devices are caused. In addition, electromagnetic waves have been said to have an unfavorable effect on the human body, and the “electromagnetic wave syndrome” is a relatively mild phenomenon such as fatigue, malaise, headache, dizziness, cancer, abnormal cell growth, infertility. It is suggested that there is a serious influence such as. For this reason, in Europe and the United States, the generation of electromagnetic waves from electronic devices is quite nervous, and not only are regulations stricter than in Japan, but the public is also interested in preventive measures.

  On the other hand, in Japan, cigarette smoking is becoming increasingly regulated, but with regard to electromagnetic waves, with the exception of some people who are involved in the electrical industry, the general public is indifferent. The reason seems to be that the medical regulations about the effects of electromagnetic waves on the human body are delayed, and the national regulations are not as strict as tobacco smoking.

Even in such a situation, electromagnetic wave countermeasures are not considered at all in Japan, and conventionally, electrical product manufacturers and those involved in electrical work have been taking preventive measures against various electromagnetic waves in the vicinity of the source. Has been given. Specifically, a shield room is provided with a conductive metal, magnetic iron, or the like (see, for example, Patent Document 1), or a plastic casing of an electronic device contains a metal powder such as copper or silver. Is applied, or the metal powder is mixed with plastic and then molded (see, for example, Patent Document 2). In addition, in Japanese Industrial Standard JIS C 9250, the amount of microwave leakage from a microwave oven is regulated to 1.0 mW / cm ² (see, for example, Patent Document 3).

  However, even if such preventive measures are taken, it is inevitable that electromagnetic waves leak from the casing of the electronic device. Therefore, for the general public who uses home appliances, the grounds are not clear, but it is more than 2 meters when the microwave is in operation, 2 meters or more from the TV, and 50 cm or more away from the refrigerator. Is noted. In addition, for those who work or office work near the source or leakage of electromagnetic waves, the cloth or metal mesh coated with metal powder should not be exposed to electromagnetic waves or as a partial precaution. Some companies are obliged to wear work clothes (see Patent Document 4), apron, etc. (see Patent Document 5) manufactured in Japan. In addition, there are an increasing number of hospitals that recommend pregnant women to wear the apron during the period until childbirth.

  However, since the apron uses a relatively expensive metal such as copper, silver, nickel, etc., it is not only expensive but many people do not like to wear it because of its weight. Further, when the apron is soiled, it is made of metal powder or a metal net, so that it has a drawback that it is difficult to wash it with a washing machine. Furthermore, even though wearing an apron is suitable for women, there is a problem that it cannot be adapted to men and infants.

Japanese Patent No. 3033826 Japanese Patent Laid-Open No. 2005-179641 JP 2005-257233 A Japanese Utility Model Publication No. 58-135426 Japanese Utility Model Publication No. 1-61723

  In view of such circumstances, the present invention has a part of electromagnetic waves leaking to our living environment from the housings of electronic devices and cookers used in offices, schools, hospitals, restaurants and general households. The object is to provide a “disposable electromagnetic wave shielding sheet” that can prevent the arrival at low cost.

  The inventor conducted intensive studies to achieve the above-mentioned purpose, and the results were embodied in the present invention. That is, the present invention is a disposable electromagnetic wave shielding sheet in which a paper or a nonwoven fabric is stacked on an aluminum foil having a thickness of 5 to 20 μm, and both are locked by an adhesive means to form a laminate. In this case, it is preferable that the laminated body has an apron shape, a napkin shape or a knee-hook shape. Further, the adhesive means is an adhesive and / or double-sided tape, or the paper or nonwoven fabric has one or more kinds selected from finely powdered activated carbon, bamboo charcoal and trimanite on the surface. It is even better if it is applied.

  According to the present invention, it is possible to prevent a part of electromagnetic waves leaking from an electronic device, a cooker, etc. used in an office, a school, a hospital, a restaurant or a general household from reaching the human body at a very low cost. Moreover, even if the apron becomes dirty, it may be disposable, and it is not necessary to put it in a washing machine and wash it. Furthermore, it is possible to provide deodorizing, antibacterial and negative ion generation effects as required. In addition, the napkin shape is easy to use for men and infants, and the “disposable electromagnetic shielding sheet” according to the present invention is a “mask” that protects the respiratory organs from dust and bacteria in the atmosphere, regardless of gender. It can be expected that it will be used easily with the same feeling when worn.

It is a front view which shows the apron type thing among the sheets for disposable electromagnetic wave shields which concern on this invention. It is a figure which shows the napkin type thing among the sheets for disposable electromagnetic wave shielding which concern on this invention, (a) is a perspective view, (b) is a side view. It is a figure which shows the electromagnetic wave shielding performance of aluminum foil.

  Embodiments of the present invention will be described below with reference to the drawings.

  First, the inventor selected aluminum foil as a material that reflects and absorbs electromagnetic waves leaking from the casing of the electronic device and prevents them from reaching the human body. This aluminum foil has a thickness of 10 μm, and the electromagnetic wave shielding performance measured by a general electromagnetic wave evaluation method is 50 to 60 decibels in the frequency range of 100 kHz to 1.5 GHz (see horizontal axis) as shown in FIG. This is because (symbol: dB) is sufficient to prevent electromagnetic waves leaking from, for example, a microwave oven, a computer, a mobile phone, and the like. Here, the decibel, which is the unit of electromagnetic shielding performance on the vertical axis, is obtained by quantifying the strength of electromagnetic waves by the difference between input and output, as is apparent from the following equation. Incidentally, 20 dB means that an electromagnetic wave colliding with the aluminum foil is attenuated to 1/10 of the front surface (input side) on the back surface (output side) of the aluminum foil, and 40 dB is attenuated to 1/100.

dB = −20 · log (input side intensity / output side intensity)
And in this invention, it decided to limit the thickness of this aluminum foil to 5-20 micrometers. If it is less than 5 μm, it is too thin and the shielding performance of electromagnetic waves deteriorates, and if it exceeds 20 μm, it does not meet the inventor's disposable policy (to reduce waste of resources as much as possible). Further, the aluminum foil having the above thickness has a drawback that it is very difficult to handle and process due to its thinness. Therefore, in the present invention, as shown in FIG. 2, the paper 2 or the nonwoven fabric 2 and the aluminum foil 3 are stacked and stacked, and are locked together by the adhesive means 4. By doing so, not only the above disadvantages are eliminated, but also the strength is increased and the life in use can be extended.

  In the present invention, the type of the paper 2 or the nonwoven fabric 2 is not particularly limited. This is because any paper used on a daily basis can be used, and a nonwoven fabric made of chemical fibers such as vinyl chloride can also be used. Further, the thickness of the paper 2 or the nonwoven fabric 2 is not particularly limited, and a thickness comparable to that of the aluminum foil 3 is sufficient. Further, in FIG. 2, the laminated body is shown as two sheets of paper 2 or the nonwoven fabric 2 and the aluminum foil 3, but the paper 2 or the nonwoven fabric 2 may be superimposed on both sides of the aluminum foil 3.

  Next, the shape of the laminate is preferably an apron shape as shown in FIG. 1, for example, similar to an electromagnetic wave shielding apron actually used. This is because there is no sense of incongruity when worn by women. For men and infants, it is recommended to use a rectangular or quadrangular napkin or kneeling shape as shown in FIG. This is because it is easier to attach and detach than the apron type and is likely to be used.

  By the way, it is similar to the above-mentioned rectangular or quadrangular napkin-type or knee-pouch-type seats, so that it is used to prevent kitchen wall contamination, house floor contamination, outdoor barbecue, etc. There are sheets. They are affixed on paper or foamed polystyrene base with an aluminum foil processed to form an uneven pattern on the surface. However, according to an investigation by the present inventor's tester, it has been found that these sheets do not have conduction (conductivity) between positions separated from each other, and are not suitable for electromagnetic shielding. Therefore, as the aluminum foil used in the present invention, in order to maintain the electromagnetic wave shielding property, it is necessary to use a product as it is manufactured without applying any special processing to the surface.

  As the bonding means 4 in the present invention, an adhesive and / or a double-sided tape can be used. The adhesive may be of any type, but in view of environmental problems, an innocuous one such as “Yamato Glue” (trade name) is preferable to an organic resin. Further, as a bonding method, both paper and aluminum foil may be bonded to each other over the entire surface, or may be bonded partially. This is because any method may be used as long as there is no problem in use.

  In the present invention, the paper or the non-woven fabric is preferably coated with one or more selected from finely powdered activated carbon, bamboo charcoal, and trimanite (also called tourmaline) on the surface. . Activated charcoal and bamboo charcoal are conductive and not only have electromagnetic shielding performance like aluminum foil, but also have deodorizing and antibacterial performance, so they are effective for more comfortable use of the seat according to the present invention. is there. In addition to the above-mentioned deodorizing and antibacterial effects, the trimanite fine powder also has an effect of generating negative ions, so it is more effective for the human body.

  A disposable electromagnetic wave shielding sheet according to the present invention was produced by applying a double-sided tape around the back of a paper or nonwoven apron having the shape shown in FIG. 1 that is commercially available and laminating an aluminum foil having a thickness of 10 μm. In order to evaluate the electromagnetic wave shielding property of this sheet, one mobile phone was wrapped with the sheet, and radio waves for communication (frequency: 800 MHz to 1.5 GHz) from another mobile phone were sent to check the responsiveness. As a result, it was found that there was no response of the cellular phone wrapped with the sheet, and the sheet had sufficient electromagnetic shielding properties.

A so-called “imitation paper 2” having a square shape as shown in FIG. In order to evaluate the electromagnetic wave shielding property of this sheet, the sheet is arranged like a screen 100 mm away from the front of the microwave oven (frequency: 2.4 GHz), and a measuring device (trade name: trinometer) ) And the intensity of the microwave was measured. As a result, if you did not place a disposable electromagnetic shielding sheet according to the present invention is, 0.2~0.3mW / cm ² at a measurement value, and 0.1 mW / cm ² on the back of the sheet It showed a shielding effect in spite of the presence of electromagnetic waves that wrap around from the surroundings. Moreover, when the paper which apply | coated the fine powder of activated carbon was used instead of the said imitation paper, the said measured value became 0.05 mW / cm < ² > and the increase in the shielding effect was recognized.

  On the other hand, for comparison, the electromagnetic wave shielding property of the kitchen wall dirt prevention sheet was evaluated by the same method as above, but the shielding property could not be confirmed.

  In addition, although the lifetime of the sheet | seat for disposable electromagnetic wave shields which concerns on this invention depends on a user's handling, it became clear that it can be used for one month or more by careful use. Further, it has been found that the effect of shielding the electromagnetic wave is further enhanced when the sheet is grounded. Furthermore, it is preferable to draw a picture, an illustration, or a sticker or the like on the surface of the sheet so as to have a beautiful appearance. In addition, it is preferable to dispose of the sheet by separating the paper or nonwoven fabric and the aluminum foil in cooperation with separation and collection from the viewpoint of resource recycling.

DESCRIPTION OF SYMBOLS 1 Electromagnetic wave shielding sheet 2 Paper or nonwoven fabric 3 Aluminum foil 4 Adhesive means

Claims (4)

  A disposable electromagnetic shielding sheet characterized in that a laminated body is obtained by laminating paper or nonwoven fabric on an aluminum foil having a thickness of 5 to 20 μm and engaging both with an adhesive means.   The disposable electromagnetic shielding sheet according to claim 1, wherein the laminated body has an apron shape, a napkin shape, or a knee-hook shape.   The disposable electromagnetic shielding sheet according to claim 1 or 2, wherein the adhesive means is an adhesive and / or a double-sided tape.   The said paper or nonwoven fabric apply | coats the 1 type (s) or 2 or more types chosen from the fine-powder activated carbon, bamboo charcoal, and a trimanite on the surface. Disposable electromagnetic shielding sheet.

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