The protection device from electromagnetic radiation

 

The invention relates to electronics, in particular to the protection device from electromagnetic radiation. The technical result consists in creation device protection from electromagnetic radiation of a wide range of electrical appliances. The technical result is achieved in that the device consists of a first substrate on which is formed a square matrix. The matrix consists of a set of identical squares, each of which represents a Central, symmetrical relative to the center part of the fractal structure with the level of fractalization M not less than three. Under the first substrate placed second substrate. It formed a structure containing eight equal circles passing through the location of the center of the matrix with equal distances between the centers of every two adjacent circles, four of which are located at the points of intersection of the sides of the matrix. On a substrate formed by a set of squares, the first of which coincide with the sides of the matrix side of the second pass through the corners of the first and the third through the corners of the second and the combination of equal squares with the same center, each of which is rotated as material with a crystal lattice and are electrically isolated from each other. 12 C.p. f-crystals, 9 Il.

The invention relates to medicine, industrial sanitation and hygiene and is intended for use as a means for protection against electromagnetic radiation of a person using various electromagnetic emitters - phones, computers, televisions, microwave ovens, etc.,

Typically, to protect the operator from exposure to electromagnetic radiation is used, the shielding of electronic equipment. But this type of protection can not be applied for the operator of the transmitting radio devices, in particular of the person using the phone, as the transmitting antenna can not be placed in a protective shield, and it is located in the immediate vicinity of a person.

It is known (1) use as a protective device of any wearable by a human subject, which acts as a generator protective field. To do this, carry on for a pre-weakened wave characteristics of the emitter. This can be a watch, keychain, keys, etc., Studies on a method of electropunctural diagnostics by R. Voll showed the effectiveness of such protection.

But this protection is effective against electromagnetic radiation one is a great device is ineffective.

It is known (2) protection device from the energy impact of the radiotelephone. By construction, it is closest to the offer. It contains a substrate on which are placed one above the other geometric shapes in the form of stars, made of magnetic and nonmagnetic materials, and under the substrate is an electromagnet. The known device solves the problem of the generation of spin-torsion fields, the quenching of spin-torsion field of the phone.

But the design of the phone is a powerful local source and the electromagnetic field from the negative influence which the known device does not provide protection.

The problem solved by the invention is the development of a protection device against electromagnetic radiation of a wide range of electrical appliances.

The basis of the invention is the use of the phenomenon of fractals. Fractal structure - a structure in which all internal components are similar to the General form and the General form is derived analogous to its basic fundamentals. The mathematical concept of fractal combines structural forms of various scales, reflecting the hierarchical principle of their organization (3). The concept of fractals in physics appeared against the ligature between, seemingly completely different physical phenomena and objects. But theory of the impact of fractal structures on the objects is under development, accumulated experimental material.

The problem is solved due to the fact that, as is known, the proposed device comprises a first substrate, but in contrast to the first substrate formed of a square matrix consisting of a set of identical squares. Each square represents a Central, symmetrical relative to the center part of the fractal structure with the level of fractalization M not less than three, which is formed as follows. The module of the first level of fractalization consists of 1+N circles of radius R0where N is greater than two, and the centers of the N circles are located on the first circle at equal distances on it, and a circle of radius 2R0whose center coincides with the center of the first circle, and the circle with radius 2R0is the first circle of the second module level fractalization. At points it mates with the circumferences of the first level are the centers of the modules of the first level, and the resulting structure covers a circle of radius 4R0, which is the first module of the third level, the level, and the resulting structure covers a circle with a radius 8R0and further, the structure is formed in the same way. Under the first substrate placed second, on which is formed a structure containing eight equal circles passing through the location of the center of the matrix, with equal distances between the centers of every two adjacent circles, four of which are located at the points of intersection of the sides of the matrix, and the sum of squares, the first of which coincide with the sides of the matrix side of the second pass through the corners of the first and the third through the corners of the second and aggregate equal respectively squares with the same center, each of which is rotated relatively equal square 45. Patterns on both substrates formed by the lines, the material which has the crystal lattice, and the lines on the first substrate electrically isolated from the lines on the second substrate.

The combination of features set forth in paragraph 2 claims, characterized by the protection device from electromagnetic radiation, in a fractal structure through which the point of intersection of N circles of the same radius in each module pass the invention, describes the security device from electromagnetic radiation, in a fractal structure through which the point of intersection of N circles of the first module through at least one additional circumference and these points are the centers of circles with radius equal to the radius of the extra circle that covers a circle with a radius equal to two times the radius of the extra circumference, and further formed additional modules of the second, ...n levels, where n does not exceed M

Additional circumference entered in paragraphs 2 and 3 of the claims, are the radii values are different from the radii of the remaining circles in the fractional number of times, and it allows to increase the protective action of the device. Construction of additional fractal patterns introduced p. 3 formula significantly increases the density of lines and enhances the protective properties of the device, but the technology of its production is complicated.

The combination of features set forth in paragraph 4 claims, characterized by the protection device from electromagnetic radiation, in a fractal structure through which the point of intersection of N circles module last level takes place at least what they are in the same points, and their centers located on a circle with radius Rd/2, the center of which coincides with the center of the circle, and each circle of this module is the final module with the same structure with circles with radii Rd/4, and the structure fractalized in the same way to fractalization not exceeding M

This method of “reverse” fractalization additional circle is used when pre-set the size of the external circuit module and you want to get a higher density saturation lines, which increases the protective properties of the device.

The combination of features set forth in paragraph 5 claims, characterized by the protection device from electromagnetic radiation, in a fractal structure, which is the number of circles N equal to 4.

The combination of features set forth in paragraph 6 claims, characterized by the protection device from electromagnetic radiation, in a fractal structure, which is the number of circles N is 8.

Fractal structure with the number of circles N equal to 8, has a very high density of lines, which increases the protective properties of the device in comparison with N equal to 4, but it is more difficult of izgotavlivatsya from electromagnetic radiation, in which the second substrate is additionally formed line, which is a continuation of the sides of least squares and ending at the points of their intersection with each other.

The combination of features set forth in paragraph 8 claims, characterized by the protection device from electromagnetic radiation, in which the second substrate is additionally formed a circle that describes the least squares.

The combination of features set forth in paragraph 9 claims, characterized by the protection device from electromagnetic radiation, in which the second substrate is additionally formed a circle describing the most squares.

The experiment shows that all additional lines and circles formed on the second substrate in accordance with paragraphs 7-9 of the claims extend the frequency range that is subject to the protective properties of the device.

The combination of features set forth in paragraph 10 claims, characterized by the protection device from electromagnetic radiation, in which the material of the first substrate is silicon, the material of the second substrate is paper, and the lines formed on both po, describes the security device from electromagnetic radiation, in which the second substrate is made of polyvinyl, and the lines on it are made of graphite.

The execution of the second substrate from materials such as paper or polyvinyl reduces the cost of the device.

The combination of features set forth in paragraph 12 claims, characterized by the protection device from electromagnetic radiation, in which the height of the forming structure lines on both substrates is equal to or a multiple of their width.

This is the optimal ratio for the efficient operation of the device.

The combination of features set forth in paragraph 13 claims, characterized by the protection device from electromagnetic radiation, which on its surface marked with a sealing coating, for example a compound.

The coating should be applied to increase service life.

One of the hypotheses explaining the impact of the fractal structure and the radiation of the phone, is this. When interacting device protection from electromagnetic radiation from the phone, located directly next to a human head, the distance between the emitter phone is therefore in this zone can be considered as quasi-static, the structure of which does not depend on wavelength, but only from the above distances. This is the resulting quasi-static field will be modulated formed spatial structure of the device protecting the more, the closer the observation point (the point of the brain) to the emitter-protection device.

The invention is illustrated by drawings, where:

Fig. 1 - General view of the device;

Fig. 2-5 schematic of the formation of a fractal structure;

Fig. 6-7 schematic of unit squares matrix;

Fig. 8 - the first substrate;

Fig. 9 - the second substrate with the added lines.

The protection device from electromagnetic radiation consists (Fig. 1) of the first substrate 1, on which is formed a square matrix. The matrix consists of a set of identical squares (Fig. 6, 7), each of which represents a Central, symmetrical relative to the center part of the fractal structure with the level of fractalization M not less than three. It is formed as follows: the module of the first level of fractalization (Fig. 2) consists of 1+N circles of radius R0where N is greater than two (Fig. 2 shows a module with N=4), and centers (1-4) N circles are located on a first circle centered at the point O through equal the Sam Construction of the first module completed but the circle with radius 2R0is the first circumference of the module of the second level (Fig. 3). On this circle at points it mates with circles of radius R0the centers of the modules of the first level. Building module of the second level ends with a circle of radius 4R0with the center at the point O, which, in turn, is the first circumference of the module of the third level (Fig. 6). Next build is going the same way, i.e., the junction points of the circle of radius 4R0with circles of radius 2R0are the centers of the modules of the second level and then there is the circle with center at the point On the radius 8R0and so on In Fig. 4 shows the module of the first level with fractalization additional circle that passes through the points of intersection of N circles with each other (11, 21, 31, 41), and the centers of its fractalization are located at these points. When N=4 each circle overlaps with two adjacent and through their intersection point passes 1 extra circle. When N=8 each circle intersects with six neighboring and through their intersection point can draw three more circles.

In the case where advance to a different kind: through the point of intersection of N circles module last level passes at least one additional circle with radius Rd, which covers the N circles with radius Rd/2, suprakash with them in the same points as their centers located on a circle with radius Rd/2, the center of which coincides with the center of the circle, and each circle of this module is the final module with the same structure with circles with radius Rd/4, and the structure fractalized in the same way to fractalization not greater than M. In this case, the minimum additional circle can be located inside a circle of radius R0. This method of fractalization additional circle is illustrated in Fig. 5. For clarity, shows the module of the first level of fractalization, where N is 8. Through the point of intersection of the circles with radius R0passes additional circle with radius Rd, and at these points it mates with the circles with radius Rd/2.

In the manufacture of devices on the first substrate matrix is formed (Fig. 8) consisting of a set of identical squares. Each square represents a Central part of one of the above fractal structures (Fig. 6 and 7). The optimal value L of the side of the square is 2R0(M+1), when the location of the center of the circle with radius R0(M+1) used line modules at all levels and the density of lines in the square is quite uniform. When the location in the centre of the square of the center of the circle with radius R0the resulting symmetric, and therefore, stable structure. Under the first substrate placed second substrate 2 (Fig. 1). It formed a structure containing eight identical circles. Circle pass through the location of the center of the matrix with equal distances between the centers of every two adjacent circles, four of which are located at the points of intersection of the sides of the matrix. Also formed on the substrate, the set of squares, the first of which coincide with the contours of the matrix side of the second pass through the corners of the first and the third through the corners of the second, and set them equal respectively squares with the same center, each of which is rotated relatively equal square 45. Patterns on both substrates formed by the lines, the material which has the crystal lattice, and the lines on the first on the magnetic radiation, to which extend the protective properties of the device structure on the second substrate further comprises a line is a continuation of the sides of least squares and ending at the points of their intersection with each other (Fig. 9). For the same purpose on the second substrate additionally formed a circle describing the matrix, and the circle describing the most squares. In Fig. 9 these additional lines and circles shown thicker lines.

It is established that the greatest impact have fractal structure of the spherical shape. But their production is not practicable at the present time. In the proposed device uses a planar section of a sphere. But due to the fact that line made of a material having a crystal lattice, we can assume that the fractal structure is not flat, but is volumetric. The increase in the volume fractal patterns contribute to the height of the lines, and the substrate material with a crystal lattice, for example silicon. Each of these factors increases the protective properties of the device.

There are several ways of forming the proposed fractal structures on the substrate, for example by the methods of screen printing or fotobebe lines of a width of 80-100 microns, and the height of 40-50 microns. Fractal patterns produced by photolithography, for example on a silicon substrate have a width and height of the lines from aluminum, equal to 1 micron.

The maximum exposure device, the substrate which is made of materials with a distinct crystalline structure, such as silicon, aluminum. But if you, for example, on a substrate of silicon wolframmathematica grid lines with a thickness of 0.15 μm using a complex, expensive technology, and therefore protection device, manufactured on such basis rather costly. To reduce the cost of the protection device by performing at least one of the substrate and made of cheap material, on which the fractal structure is formed from graphite. But such devices have less impact than those given above. An important factor in the functional properties of fractal structures formed on the substrate, the barrier is the effect of changing the density of the substance, which changes the boundary lines forming a fractal structure, and "free field". The more pronounced this difference, the greater the effect.

The protection device from electromagnetic radiation, having the of lutera, Microwave ovens, on-hook the phone.

It was established experimentally that the effect of the transmitter of the phone has the most negative impact on people, compared with other consumer electronic devices.

The main research method of the protective properties of the device was electroencephalographic (EEG) that were dictated by a special relation of EEG to the investigated parties complete brain activity. Considered the possibility of recovery of bioelectric activity (BEA), disrupted by the impact of anthropogenic factors when using the device protection from electromagnetic radiation.

When the phone changes (BEA) of the human brain is so pronounced that they can be called electromagnetic storm in the local volume. The results of clinical trials show that the use of protective devices is almost completely negate these changes. Studies have shown that the use of the apparatus is markedly changes the structure of the BEA, causing the disintegration of the initial activation-decontamination balance is violated not only the rhythmic pattern, but the pattern of distribution of rhythms on the surface of the head. In the area raspoliruyte protection asymmetry disappears. When the statistical processing of the EEG changed under the influence of a phone, the most significant change identified in the alpha range. Alpha rhythm can be considered as “coding system” required the brain to the perception of the external world and reactions to irritants are not distorted and is not erased by the constant inflow of sensory stimuli. In the presence of the protective devices is changing the total rhythmic activity and the brain generates alpha-protection.”

The change in the EEG under the influence of radiation from the computer, TV, microwave ovens are not of such a strong character. But it is known that a daily and constant use of a PC monitor for 6-8 years can lead to pathological visual impairment, Central nervous system, cardiovascular and immune systems. But at the location of the electronic device one or more of the proposed protection devices, as shown by EEG, is formed alpha-defense”.

LITERATURE

1. Patent No. 02117497, RU, IPC And 61 N 1/16.

2. Patent No. 2167678, RU, IPC And 61 N 1/16.

3. Peitgen H. O., Richter, P. H. "the Beauty of fractals", M: PEACE. 1993.

Claims

1. Device protection ELA square matrix consisting of a set of identical squares, each of which represents a Central, symmetrical relative to the center part of the fractal structure with the level of fractalization M not less than three, which is formed as follows: the module of the first level of fractalization consists of 1+N circles of radius R0where N is greater than two, and the centers of the N circles are located on the first circle at equal distances on it, and a circle of radius 2R0whose center coincides with the center of the first circle, and the circle with radius 2R0is the first circle of the second module level fractalization, and her pairing with circles module of the first level of fractalization the centers of the modules of the first level of fractalization, and the resulting structure covers a circle with a radius 4R0, which is the first module of the third level of fractalization, and her pairing with circles module of the second level of fractalization the centers of the modules of the second level of fractalization, and the resulting structure covers a circle with a radius 8R0and next fractal structure formed in the same way, under the first substrate placed second substrate on which storeentry square matrix, with equal distances between the centers of every two adjacent circles, four of which are located at the points of intersection of the sides of a square matrix, and the sum of squares, the first of which coincide with the sides of the square matrix a, the sides of the second square pass through the corners of the first square, and the third square through the corners of the second square, and set them equal respectively squares with the same center, each of which is rotated relatively equal square 45and fractal structure formed by lines from a material having a crystal lattice, and the lines on the first substrate electrically isolated from the lines on the second substrate.

2. The protection device from electromagnetic radiation under item 1, characterized in that the fractal structure through the points of intersection of N circles of the same radius at each module level fractalization passes at least one additional circle.

3. The protection device from electromagnetic radiation under item 1, characterized in that the fractal structure through the points of intersection of N circles of the first-level module of fractalization passes through extremely is dius additional circumference, which covers a circle with a radius equal to two times the radius of the extra circumference, and further formed additional modules of the second, ...n level fractalization, where n does not exceed M

4. The protection device from electromagnetic radiation under item 1, characterized in that the fractal structure through the points of intersection of N circles module last level fractalization passes at least one additional circle with radius Rdthat covers the N circles with radius Rd/2, suprakash with them in the same points as their centers located on a circle with radius Rd/2, the center of which coincides with the center of the circle, and each circle of the module level fractalization is the final module level fractalization with the same structure with circles with radius Rd/4, and the structure fractalized similarly to module level fractalization not exceeding M

5. The protection device from electromagnetic radiation according to any one of paragraphs.1-4, characterized in that the fractal structure of the number of circles N equal to 4.

6. The protection device from electromagnetic radiation according to any one of paragraphs.1-4, otlichayushiesya radiation according to any one of paragraphs.1-6, characterized in that the structure on the second substrate further comprises a line is a continuation of the sides of least squares and ending at the points of their intersection with each other.

8. The protection device from electromagnetic radiation according to any one of paragraphs.1-7, characterized in that the second substrate is additionally formed a circle describing a square matrix.

9. The protection device from electromagnetic radiation according to any one of paragraphs.1-8, characterized in that the second substrate is additionally formed a circle describing the most squares.

10. The protection device from electromagnetic radiation according to any one of paragraphs.1-9, characterized in that the material of the first substrate is silicon, the material of the second substrate is paper, and the lines formed on both substrates fractal structures made of metal.

11. The protection device from electromagnetic radiation according to any one of paragraphs.1-9, characterized in that the second substrate is made of polyvinyl, and the lines formed on it a fractal structure, made of graphite.

12. The protection device from electromagnetic radiation according to any one of paragraphs.1-11, characterized in that h is istwo protection from electromagnetic radiation according to any one of paragraphs.1-12, characterized in that on its surface marked with a sealing coating, for example the compound.

 

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SUBSTANCE: the device has two skeleton regular pyramids of metal located symmetrically relative to each other and oriented in space according to the parts of the world, horizontal antenna positioned in parallel with the bases of the pyramids, the antenna is provided with receivers at the ends oriented to the opposite sides, and a radiator. Each of the pyramids is made tetrahedral with a truncated vertex by 1/3 of the height, and the radiator is made in the form of a hollow ball and positioned between the pyramids for connection with them. A grid of two groups of vertically installed plates made for connection perpendicularly to each other is positioned inside the radiator. The pyramids with the radiator are positioned inside the cube, whose each face is made with a central hole, the base of the upper pyramid is connected to the upper face of the cube, and the base of the lower pyramid - to the lower face of the cube, the horizontal antenna passes through the holes in the side faces of the cube and is rigidly connected to the grid, the antenna receivers are made in the form of hollow metal balls, a cone truncated by 1/3 of the height with the base diameter equal to the cube side is located on the upper face of the cube coaxially with the pyramids, a hemisphere with additional antennas is installed on top the cone, the cube, radiator and grid are made of metal. The inner surface of the radiator, truncated cone and antenna receivers may be coated with a layer of a mixture of fine-disperse ceramic, organic and metal powders connected by a binding mass.

EFFECT: enhanced efficiency of neutralization of harmful effects of geopathogenic and electromagnetic rays.

3 cl, 5 dwg

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