RU2255866C1 - Material for protection against an action of electromagnetic fields of the radio frequency range - Google Patents

Abstract

FIELD: production of the materials intended to protect people in industrial, administrative and living premises against action of electromagnetic fields of the radio-frequency range.

SUBSTANCE: the invention is pertaining to production of materials intended to protect people in industrial, administrative and living premises against action of electromagnetic fields of the radio-frequency range generated by operation of electrical circuits, electric appliances, mobile and radio telephones, and also for protection of the people against a geopathogenic environmental activity. The material based on schungite mineral represents a three-layered material, two exterior layers of which consist of a carton or a plastic sheet, on each side of which a printing ink containing fragments of a schungite mineral is applied, and in the capacity of the middle layer the aluminum foil is used. At that the layers are connected by a glue. To increase the strength of the three-layered material it is drawn for example through rollers or placed under a press. The printing ink contains particles of the schungite mineral, these particles have dimensions of 5-10 microns and make 90 % of the mass of the printing ink, in which they are dispersed. The printing ink containing the particles of the schungite mineral makes 6-7 % of the mass of the board or 3-3.5 % of the mass of the plastic material. The layer of the carton has a depth of 0.3 mm, and the layer of plastic material has the depth of 0.6 mm. The technical result of the invention is production of the material from the accessible raw being an effective and low-cost material for protection of people against action of electromagnetic fields of the radio-frequency range generated in the process of the operation of electric appliances, electrical circuits, at exploitation mobile and radiophones, and also from a geopathogenic action of the environment.

EFFECT: the invention ensures production from an accessible raw material of an effective and low-cost material for protection of people against action of the radio-frequency range electromagnetic fields generated during operation by different electrical appliances, circuits and telephones.

5 cl, 4 ex, 1 tbl

Description

The invention relates to materials designed to protect a person in industrial, administrative and residential premises, from the effects of electromagnetic fields of the radio frequency range arising from the operation of electrical networks and electrical appliances, in the operation of mobile and cordless telephones, as well as to protect a person from geopathic environmental influences.

Electromagnetic fields arise from the operation of power networks, household and other electrical appliances, personal computers, and are also formed during the operation of mobile and cordless phones. Sources of geopathic effects of electromagnetic radiation can be underground water flows and intersections of water flows at different depths, geological faults, etc.

Electromagnetic radiation of the radio frequency range negatively affects the human body and, above all, on his brain and nervous system.

According to the degree of pathogenic effect on humans, it is necessary to put in the first place a mobile and radiotelephone brought directly to the head. Frequent use of these phones worsens short-term memory, sometimes it causes a headache, a feeling of fatigue.

Various materials are known for absorbing electromagnetic radiation. One of these materials consists of graphite. Geometrical figures are made from it in the form of cylinders and cones of various sizes.

(Yu.K. Kavneristy, I.Yu. Lazareva, A.A. Ravaev. Materials Absorbing Microwave Radiation. M: Nauka, 1982, p. 85).

The disadvantage of this material is its low efficiency, as well as the large volume of absorbing devices. They are used for absorption only indoors, fixing on walls and ceilings. These materials are not suitable for protection against electromagnetic radiation from mobile and cordless telephones.

Woven or film materials with a metal mesh are also used as radar absorbing materials. The material is used mainly for shielding any surfaces and for protecting biological objects.

(Ya. A. Schneiderman. Foreign Radio Electronics, 1972, No. 7: 1975, No. 3).

The disadvantage of this material is its low efficiency, as well as unsuitability for protection against electromagnetic radiation from mobile and cordless phones.

Also known is a radio-absorbing material consisting of a liquid polymer binder with a dispersed absorbent filler, which is used as graphite, soot, ferrite, ferroelectrics, metal alloys. The material is obtained by mixing the components in a mechanical mixer, after which it is applied to the surface of the protected object.

(Yu.K. Kavneristy, I.Yu. Lazareva, A.A. Ravaev. Materials Absorbing Microwave Radiation. M: Nauka, 1982, p. 46, p. 88).

However, this material also has a low absorption capacity. To achieve a satisfactory absorption, a thick layer is required. This material is also not suitable for protection against electromagnetic radiation from mobile and cordless telephones.

Known radar absorbing material in which powdered ferrite or iron is used as a filler, and “Elaton” synthetic glue is used as a binder, with the following ratio of components, wt.%:

Powdered Ferrite or Iron 20-80

Synthetic adhesive "Elaton" 80-20

The material is applied to the surface to be protected in several layers with intermediate drying between the layers (Pat. RF No. 2107705, class. 09 D 5/32, 1996).

The disadvantage of this material is the low level of absorption in thin layers and unsuitability for protection against electromagnetic radiation from mobile and cordless phones.

Known radar absorbing material, which contains ultrafine powder of niobium carbide with a particle size of 10-100 nm and an alkyd binder. The preparation of this material includes sequential loading of the binder and filler into the mixer and their mixing, and before introducing into the binder the ultrafine powder is treated with a surfactant, hydrophobizing liquids in an organic solvent using ultrasound for at least 30 minutes (Pat. RF No. 2200749, cl. C 09 D 5/32, 2003).

The disadvantages of this material are its high cost due to the use of niobium carbide as a binder ultrafine powder, as well as the complexity and multistage of its manufacture.

It is known that the natural mineral shungite has specific unique properties, in particular shungite is a strong diamagnet with the ability to shield and absorb electromagnetic radiation of various vibration frequencies (Yu. Doronina. Shungite is a stone savior. St. Petersburg, publ. Company "Nevsky Prospect", 2003, p. 71-78).

Shungite mineral - a rock mined in the Karelian Prionega region, has an aluminosilicate framework filled with the so-called “shungite carbon”, which occupies an intermediate place between amorphous (soot, anthracite, etc.) and crystalline (graphite, diamond) forms of carbon and has unique properties, providing a wide range of its possible applications, including for protection against various types of radiation (S.E. Glebashev. Mineral raw materials. Shungit. Reference book. M .: Geoinformmark CJSC, 1999).

To protect against electromagnetic radiation of various nature, the use of shungite pyramids that are placed between a person and a radiation source (computer, television, fax, etc.) is described. It is also proposed to place special shungite rugs or plastic bags filled with shungite gravel in the house (Yu. Doronina. Shungit is a stone savior. St. Petersburg, published by Nevsky Prospekt Company, 2003, pp. 71-78).

To protect humans from geopathic environmental influences, it is also proposed to use shredded mineral shungite type III A, which is placed in bags. These bags are laid tightly to each other, the thickness of the schungite layer is 3-5 cm (Pat RF No. 2157256, class A 61 N 1/16, 2000).

However, these tools are not effective enough, are not convenient in operation and are not at all suitable for protection against electromagnetic radiation from mobile and cordless telephones.

The objective of the invention is the development of an effective and cheap material based on the natural mineral shungite to protect a person from exposure to electromagnetic fields of the radio frequency range arising from the operation of various electrical appliances, mobile and cordless phones, as well as from geopathic environmental effects.

The problem is solved by the proposed material for protection against electromagnetic fields of the radio frequency range, which is a three-layer material, the two outer layers of which are cardboard or plastic, on each side of which is printed ink containing particles of shungite mineral, and aluminum foil is used as the middle layer moreover, the layers are connected with glue. For strength, a three-layer material is passed, for example, between the rollers, or placed under a press.

The proposed material uses printing ink brand V-maxx company Sicolor Gmbh (Germany) based on vegetable and mineral oils and containing organic and inorganic pigments, black coal and resin. Particles of shungite mineral with a size of 5-10 microns, which make up 90% of the mass of printing ink, are dispersed in the printing ink. To prepare this paint, shungite mineral is used according to TU 9648-007-49933708-02. Paint is applied to a sheet of cardboard having a thickness of 0.3 mm, or to a sheet of plastic having a thickness of 0.6 mm. Ink containing particles of shungite mineral is applied in an amount of 6-7% by weight of cardboard or 3-3.5% by weight of plastic.

Coated cardboard is used as cardboard according to TU 5438-016-00253497-2001.

As plastic, polypropylene sheet plastic is used to cover tables, imported, manufactured by Eleganfe, England.

For durable bonding of layers, “Super” adhesive for domestic use based on polyvinyl acetate (TU 2395-015-45539771-99) is used.

For the middle layer of the proposed material using aluminum foil with a thickness of 40 microns.

The material using cardboard is used to protect against electromagnetic radiation in dry rooms, using plastic - it is suitable in any room, including rooms with high humidity.

For practical use, the developed material is proposed to be produced in the form of solid or elastic sheet-plates or strips rolled into a roll. Sheets-plates or strips are mounted on the walls of the premises, on the ceiling or on the floor to create shielding surfaces that protect the person in the room from the adverse effects of electromagnetic fields of the radio frequency range, including from geopathic environmental influences. A decorative layer of paint, wallpaper or color film may be applied to the outside of the plates or strips.

For cellular radiotelephones, plates of the proposed material are cut out plates of 9-11 cm long, 3-4 cm wide, or plates shaped like telephones that are inserted from the back of the phone into its case or glued to this side with a double-sided “tape” for creating a shielding surface that protects the phone user from the adverse effects of electromagnetic fields in the radio frequency range.

The effectiveness of the proposed material was studied at the State institution “Scientific Research Institute of Occupational Medicine”.

Studies have shown that plate sheets and strips of the proposed material are able to reflect and absorb up to 90% of electromagnetic radiation, and plates for cellular radiotelephones can localize up to 77% of these emissions.

Comparative tests were also conducted with the available on the market means of protection against electromagnetic radiation from cellular and cordless telephones - the Clean Wavetm device (manufactured by Dominex, USA, and the Octopus device manufactured in Russia).

The “Clean Wavetm” device (www.cleanwave.ru website) is a crystalline material with energy-transforming properties that neutralizes the harmful effects of electromagnetic, electrostatic and induction fields. The device has the form of a volumetric sticker in the form of a rhombus in red and black. The reverse side of the device is made using self-adhesive material.

The device "Octopus" manufactured in Russia (website www.clubkit.narod.ru). is an oval of foil on a paper substrate.

Also, for comparison, a block of shungite mineral 20 × 20 × 5 cm in size was tested.

The table shows the comparative tests carried out by the aforementioned institute of materials that protect against electromagnetic radiation from cellular radio telephones.

Table Product name The degree of decrease in the levels of electromagnetic fields,% A sheet product of the proposed three-layer material based on schungite according to example 3 (“Magralit”) 77.4 Octopus, Russia 37.6 “Clean Wavetm”, USA 22.8 Mineral shungite, bar 20 × 20 × 5 cm 4,5

The following are examples of the manufacture of the proposed material.

Example 1

On two sheets of cardboard (according to TU 5438-016-00253497-2001) with a size of 50 × 30 cm and a thickness of 0.3 mm, a pre-prepared printing ink containing particles of shungite mineral (90% dispersed shungite powder according to TU is applied by the printing method on each side) 9648-007-49933708-02, dispersed in printing ink of the V-maxx brand from Sicolor Gmbh, Germany) in an amount of 6-7% by weight of cardboard. After drying, one side of each sheet painted with this paint is applied with a thin layer of Super glue based on polyvinyl acetate (according to TU 2395-015-45539771-99), then a sheet of aluminum foil (household, 40 thick microns) of the same size and covered with a second sheet of cardboard also with the side smeared with glue. To securely connect the layers, the resulting three-layer material is passed, for example, between the rollers.

Assessment of the degree of decrease in the levels of electromagnetic fields (EMF) of the radio frequency range (frequency 460-2375 MHz) is carried out according to the method “Measurement of the energy flux density of the electromagnetic field” according to SanPin 2.2.4.1191-03 “Electromagnetic fields in industrial conditions”.

Tests of the obtained material show a degree of reduction in the level of EMF on average 89.9%.

The product complies with TU 9648-011-49933708-04.

Example 2

The material is made analogously to example 1, with the exception of the material used for printing ink containing shungite particles: using polypropylene sheet plastic (imported, company "Eleganfe", England) with a thickness of 0.6 mm, and the amount of applied ink is 3-3.5 % by weight of plastic. Assessment of the degree of decrease in the levels of electromagnetic fields (EMF) of the radio frequency range (frequency 460-2375 MHz) is carried out according to the method “Measurement of the energy flux density of the electromagnetic field” according to SanPin 2.2.4.1191-03 “Electromagnetic fields in industrial conditions”.

Tests of the obtained material show a degree of reduction in the level of EMF on average 86.6%.

The product complies with TU 9648-011-49933708-04.

Example 3

A plate (product) 10 cm long and 3.5 cm wide is cut from a sheet of three-layer material based on schungite, made according to example 1 (using cardboard). The plate is inserted from the back of the cellular telephone into its cover to create a screening surface.

Assessment of the degree of reduction in the EMF levels created by the samples of cellular radiotelephones in accordance with the GSM 900/1800 MHz standard is carried out according to the method “Measurement of the electromagnetic field energy flux density” according to SanPin 2.1.8./2.2.4.1190-03 “Hygiene requirements for placement and operation of land mobile radio communications. ”

Tests of the obtained product show the degree of reduction in the level of EMF on average 77.4%.

The product complies with TU 9648-012-49933708-04.

Example 4

Similar to example 3, except that using the product from a material made according to example 2 (using plastic).

The assessment of the degree of reduction in the EMF levels created by the samples of cellular radiotelephones in accordance with the GSM 900/1800 MHz standard is carried out according to the method “Measurement of the electromagnetic field energy flux density” according to SanPin 2.1.8./2.2.4.1190-03 “Hygiene requirements for placement and operation of land mobile radio communications. ”

Tests of the obtained product show the degree of reduction in the level of EMF on average 75.1%.

The product complies with TU 9648-012-49933708-04.

Thus, the proposed three-layer material based on shungite mineral is made from available raw materials, it is an inexpensive and effective material for protecting a person from exposure to electromagnetic fields of the radio frequency range of various nature, which significantly exceeds the effectiveness of materials known for this purpose.

Claims (5)

1. Material for protection against exposure to electromagnetic fields of the radio frequency range, characterized in that it is a three-layer material, the two outer layers of which are made of cardboard or plastic, on each side of which a printing ink containing particles of shungite mineral is applied, and use as the middle layer aluminum foil, and the layers are connected with glue. 2. The material according to claim 1, characterized in that in a printing ink containing particles of shungite mineral, these particles have a size of 5-10 μm and comprise 90% of the mass of the printing ink in which they are dispersed. 3. The material according to claims 1 and 2, characterized in that the printing ink containing particles of shungite mineral is 6-7% by weight of cardboard or 3-3.5% by weight of plastic. 4. The material according to claims 1 and 2, characterized in that the cardboard layer has a thickness of 0.3 mm. 5. The material according to claims 1 and 2, characterized in that the plastic layer has a thickness of 0.6 mm.