RU2071366C1 - Radiation protection apparatus - Google Patents

Abstract

FIELD: medical engineering, means for protecting personnel working under conditions of exposure to effects of electromagnetic radiation by forming local compensatory zone or biological shield. SUBSTANCE: apparatus comprises body made of non-magnetic material, such as, e.g. plastic. Silver plate is fixed by means of compound inside body. One half of face side of silver plate carries, secured with help of compound, spring-like electroconductive spiral, while other half carries, embedded in compound layer, two light-emitting diodes whose unlike-polarity outputs are interconnected and connected to spiral ends, thereby forming compensating electromagnetic radiation source. Connecting leadouts are disposed on underside of silver plate. and for this purpose plate is provided with openings located at connection points of light-emitting diodes and at points of spiral ends. Spiral acts as receiving aerial and as radiator, and it can be made to be not only planar, but also to be bulky, for instance, conically shaped with its tip facing metal plate surface. Diameter and spiral pitch of said spiral-like electroconductive spiral decrease monotonously as spiral center becomes nearer. Apparatus makes it possible to receive incident radiative energy field and to convert its negative component for subsequent radiation to neutralize this component. Said spring-like electrocoductive spiral arranged above metal plate serves for dual purpose viz.: it acts as receiver of added-up incident electromagnetic flux, and as compensatory electromagnetic flux radiator. Light-emitting diodes arranged on metal plate serve to discharge excessive portion of radiative energy being converted, thereby converting energy of negative component of main incident flux into harmonizing field component. EFFECT: better protection for people working under conditions of exposure to harmful effects of electromagnetic radiation. 10 cl, 4 dwg

Description

 The invention relates to medical equipment that protects personnel working in the area of electromagnetic radiation by forming a local compensation zone or bioenergy screen.

 The widespread use of technology and instruments with environmentally harmful electromagnetic radiation and negative interlayer fields makes the development of human protection means and ecological cleansing of space especially relevant.

 A device for balancing the surrounding electromagnetic field, the sources of which can be screens of cathode ray tubes, as well as vehicles with engines, which can also be used as a pathogen for the physiological balance of a person, is known (see USSR patent N 1718710, 1992).

 The device comprises a source of compensating electromagnetic radiation, made in the form of a permanent magnet and a rod of carbon, graphite or magnesium, placed in the area of influence of the field of a permanent magnet, and a closed case of non-magnetic material, which contains a magnet and a rod, fixed, for example, using a compound .

 The device can be installed inside or outside the machine or device with glue. It is advisable, for example, to install three such devices at the vertices of a triangle, in the center of which a source of electromagnetic radiation is placed. A variant of the device, designed to protect a person from ambient electromagnetic radiation, contains three modules, including a magnet and a rod, in one housing and means for suspending the device.

 A device for protection against radiation, designed to create a biological screen that protects against various radiation, to neutralize geopathic zones and for the treatment of biological objects (see RF patent N 2033200,1995), which is the closest analogue.

 The device contains non-magnetic metal, for example, aluminum, which is grounded and inside the closed cavity of which a high-frequency arc gas-discharge device is placed, including a gas-discharge lamp with coaxially mounted electrodes, which is a source of compensating electromagnetic radiation, a power source, an adjustable low-frequency generator, and a high-frequency discharge generator.

 The device forms a volume bio-energy screen around itself, the protective and healing properties of which are determined by the extrasensory method.

 The disadvantage of such a device is its complexity, the need to connect it to the network, the use of a transformer and a rectifier to obtain high voltage, the difficulty of setting up a high-frequency arc gas-discharge device.

 The aim of the invention is to protect against radiation in a wide frequency range of electromagnetic fields without using a network and a multi-element electronic circuit.

 This is achieved by the fact that in the device for radiation protection, comprising a housing of non-magnetic material and a source of compensating electromagnetic radiation, a metal plate is placed in the housing, and the source of compensating electromagnetic radiation is made in the form of a spiral from a spring-like conductor located over one half of the metal plate, and two LEDs located above the other half of the metal plate, the bipolar leads of which are connected to each other and to the ends of the spiral.

 The proposed device allows you to take the acting energy field and convert its negative component for subsequent radiation in order to neutralize this component. A spiral of a spring-like conductor mounted above a metal plate in the device functions as a receiver of the total incident flux and a radiator of compensating electromagnetic flux. The energy of the negative component of the main incident flux is converted to the harmonizing component of the field due to the selected geometry, location and mutual influence of the spiral antenna, silver plate and its coating, and the properties of the selected materials. A part of the peak load of excess energy is discharged on the LEDs mounted on the plate in the specified special way.

 Optimal parameters, geometry, and a set of elements were determined using extrasensory methods. To enhance the functions of the receiving antenna and radiator, the spiral can be made not flat but three-dimensional, for example, conical (parabolic, spherical, etc.) in shape and with a narrow end facing the surface of the metal plate, and the diameter and pitch of the spiral from a spring-like conductor should be monotonous decrease as you approach the center of the spiral.

 To enhance the screening and reflection functions of the harmonizing energy flux, the metal plate on which the elements of the source of compensating radiation are mounted can be made of silver.

 To protect against technical electromagnetic radiation, it is advisable to use LEDs in the ultraviolet range of radiation.

 The surface of the metal plate, with the exception of its part located under the spiral, and the sections separated from the edges of the plate by less than its thickness, is coated with a layer of a compound based on rosin or rosin with the addition of salts, in particular sodium chloride or barium salt, and serves as an energy storage device . The content of salt additives may be 5-50% of the total mass.

 To fix the spatial shape of the spring-like spiral conductor, the latter is placed in the compound. Rosin was used as a compound.

 In order to exclude the influence of the connecting conductors on the operation of the device, holes are made in the metal plate under the beginning and end of the spiral and under the connection points of the LEDs, and the connecting conductors pass through the holes and are placed under the plate along the shortest path.

 The device of the proposed design allows you to absorb harmful to human health components of the radiation produced by household and industrial equipment, converting them to safe.

 The invention is illustrated by drawings, where figure 1 shows a cross section of a device for protection against radiation; in FIG. 2 is a top view of FIG. 1; figure 3 the location of the device to protect the operator from harmful radiation from the screen of the cathode ray tube; in FIG. 4 device with thread for wearing around the neck.

 The device for protection against radiation comprises a housing 1 of non-magnetic material, in which is placed a metal plate 2 made, for example, of silver. The dimensions of the metal plate are selected from the ratio T: L: H = 1: 5: 10 where T is the thickness of the plate, L is the width of the plate. H is the length of the plate. The source of compensating electromagnetic radiation is made in the form of a spiral 3 of a spring-like conductor, which is mounted over one half of the front surface of the silver plate 2, and two LEDs 4, the bipolar leads of which are connected to each other and to the ends of the spiral 3.

 Spiral 3 can be made flat or three-dimensional: parabolic, spherical, etc. and in this example, the execution of a conical shape, and faces a narrow end to the surface of the metal plate 2. The diameter and pitch of the spiral 3 monotonously decrease as you approach the center of the spiral. The space in which the spiral 3 is located is filled with compound 5, for which rosin is selected.

 The front surface of the silver plate 2, with the exception of its part located under the spiral 3, and sections spaced from the edges of the plate 2 by less than the size of its thickness, is covered with a layer of compound 6 of rosin with the addition of sodium chloride or other salt in an amount of 5-50% of total weight of the compound.

 Above the second half of the metal plate 2, two LEDs 4 are installed, the bipolar leads of which are interconnected. In the metal plate 2, two holes are made under the beginning and end of the spiral 3 and two holes under the connection points of the LEDs 4. Through the holes pass the conductors 7, which are connected from the bottom side of the plate 2 to the connection points of the LEDs 4 with the beginning and end of the spiral 3 along the shortest path.

 The plate 2 with the elements mounted on it is fixed in the housing 1 with its lower part using the compound 8.

 On the housing 1 there is an eyelet 9, into which a thread 10 can be threaded to carry the device around the neck.

The radiation protection device operates as follows. From a radiation source, for example, a computer monitor 11, a stream of electromagnetic radiation Φ is emitted, consisting of a harmonized stream F _o and a negative component ΔΦ harmful to human health, which carries a program (information) about diseases.

F = Φ _o + ΔΦ.
The radiation protection device is installed by the front side of the plate towards the radiation source. In this case, the total energy flux Φ is captured by the helix 3, which acts as an antenna, and with the participation of the shielding and reflective properties of the silver plate 2 and the cumulative properties of the compound coating 6, a negative component (ΔΦ) is extracted from it, this energy is converted into a positive component ( -ΔΦ) by absorbing or discharging the excess part of this component on the LEDs 4. Radiation of the energy flux (-ΔΦ), equal in magnitude to the negative component, by spiral 3 leads to harmonization of the total flux Φ.

 That is, the proposed device operates on the principle of a barrier network that prevents the occurrence of connections between the emitter of negative energy and the human biofield. Negative energy as a result of conversion by the elements of the device made, installed and interconnected in the specified manner, is blocked and converted into safe radiation.

 Based on the proposed design, a prototype of the NABAT device for protecting a person from the negative effects of harmful technical radiation was developed and manufactured. This device is designed to convert radiation components harmful to human health produced by domestic and industrial installations, including computers, televisions, etc., into safe ones.

 The NABAT device can be used to protect a person when he is exposed to harmful effects: operators of computer centers, banks, X-ray units, flight and dispatch personnel in aviation, etc.

 Dimensions of the NABAT device: 56x25x13 mm. Weight 40 g.

 The high efficiency of the NABAT device is confirmed by test reports conducted at Moscow State University and in the microbiological laboratory of military unit 75360-V. So, for example, it was found that “NABAT” fully protects against radiation from a computer monitor screen, in contrast to a protective screen (glass), as well as from radiation from a microwave generator. In normal rooms, where there are no sources of radiation, this device helps to increase the activity of biological objects by 36%. The NABAT protection device is worn directly on the human body or attached to clothes in the area of the heart energy center and, harmonizing the space, prevents destructive energies . In this case, the protection device is constantly energized with the energies of the surrounding space.

Claims (11)

 1. Device for protection against radiation, comprising a housing made of non-magnetic material, in which a compensating electromagnetic radiation source is located, characterized in that a metal plate is placed in the housing, and a compensating electromagnetic radiation source is made in the form of a coil of a spring-like conductor located over one half of the metal plate, and two LEDs located above the other half of the metal plate, the bipolar leads of which are connected to each other and to the ends of the Raley.  2. The device according to claim 1, characterized in that the spiral is conical, parabolic or spherical in shape and has a narrow end facing the surface of the metal plate.  3. The device according to p. 1, characterized in that the metal plate is made of silver.  4. The device according to claim 1, characterized in that the diameter and pitch of the spiral from the spring-like conductor monotonously decrease as it approaches the center of the spiral.  5. The device according to claim 1, characterized in that the LEDs are used in the ultraviolet radiation range.  6. The device according to claim 1, characterized in that the surface of the metal plate, with the exception of its part located under the spiral, and sections spaced from the edges of the plate by less than the size of its thickness, is coated with a layer of compound.  7. The device according to p. 6, characterized in that rosin is used as a compound for coating the surface of the metal plate.  8. The device according to p. 6, characterized in that as a compound for coating the surface of the metal plate used rosin with the addition of salt, comprising 5 to 50% of the total mass.  9. The device according to p. 1, characterized in that the spiral is placed in the compound.  10. The device according to p. 9, characterized in that the rosin is used as the compound in which the spiral is placed.  11. The device according to claim 1, characterized in that the holes in the metal plate are made under the beginning and end of the spiral and under the connection points of the LEDs, and the connecting conductors pass through the holes and are placed under the plate along the shortest path.

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