RU2117497C1 - Method for protection of man from electromagnetic radiation - Google Patents

Abstract

FIELD: medicine, industrial and sanitary hygiene. SUBSTANCE: method is realized by generation of protective field with use of generator of protective field in the form of article carried by man to which weakened wave characteristic of radiator is transferred. Best results are obtained when transferred wave characteristic is attenuated by a factor of 1000-10000. EFFECT: reliable protection from electromagnetic radiation of man using various radiators - radiophones, TV sets, transmitters, computers, SHF-ovens, etc. 2 cl

Description

 The invention relates to medicine, industrial and sanitary hygiene and is intended for use as a means to protect a person from electromagnetic radiation.

 A known method of protection against electromagnetic radiation by shielding electronic equipment [2].

 A disadvantage of the known tool is that it does not protect the operator of the transmitting radio device, in particular the person using the radiotelephone, because The transmitting antenna cannot be placed in a protective shield, but it is located in the immediate vicinity of a person.

 Known means for protection against electromagnetic radiation, made in the form of a housing for a high-frequency electronic unit [1].

 A disadvantage of the known means is that it protects only from the radiation of the high-frequency unit, while the antenna of the radiotelephone cannot be shielded by it and its radiation adversely affects a person.

 Closest to the claimed in its technical essence is a known method of protecting a person from artificial electromagnetic radiation by generating a protective field, which is implemented using a device containing a rectangular pulse generator and a transmitting antenna [3].

 The disadvantage of this method is its low reliability and the impossibility of use by a person using a radiotelephone or other radiating device.

 The inventive method is aimed at providing reliable protection against electromagnetic radiation from a person using various electromagnetic emitters - radiotelephones, transmitters, computers, televisions, microwave ovens, etc.

 The specified result is achieved in that the person is protected from electromagnetic radiation by generating a protective field using an object carried by a person as a protective field generator, onto which a “weakened” wave characteristic of the emitter is transferred.

The indicated result is also achieved by the fact that the transferred wave characteristic of the emitter is attenuated by 10 ³ - 10 ⁴ times.

The difference of the proposed method of protection is that
- register the wave characteristic of the emitter;
- attenuate radiation (wave response) from the emitter;
- transfer the attenuated wave characteristic of the emitter to an object worn by a person (watches, jewelry, etc.);
- use an object as a generator of the protective field on which the wave characteristic of the emitter is transferred;
- weaken the wave characteristic of the emitter transferred to the material object by 10 ³ - 10 ⁴ times.

 It was experimentally established that if the recorded wave characteristic of an electromagnetic emitter is “weakened” and transferred (“recorded”) to any material object and to ensure that a person is in contact with this object, for example, carry it on the body (jewelry, watch) or in a pocket, then completely the effect of the emitter on a person is compensated by the generation of a protective field (radiation) from a wearable object.

 The attenuation of the wave characteristics of the emitter, transferred to the object, in 1000 - 10000 times, as shown by experiments, to a greater extent normalize the parameters determined at the control points. Attenuation is less than 1000 times and more than 10000 times reduces the degree of normalization of controlled indicators.

 The essence of the proposed method is illustrated by examples of its implementation.

 Example 1. In the General case, the method is implemented as follows. The emitter (radio telephone, transmitter, walkie-talkie, computer, television) of electromagnetic radiation is connected to the input of the Lady type energy-information converter (reprinter), which is commercially available from the EMET enterprise (Moscow), and on the output window of the reinterporter, on which receives the radiation of the reprinter, place an object carried by a person, such as a watch. After that, turn on the source in the operating mode, and the reprinter - in the recording mode. The reprinter registers the wave characteristic of the emitter, attenuates it by the required number of times (1000-10000) and "writes" it to the object located on the output window.

 After that, check the effectiveness of protecting a person from electromagnetic radiation of a particular emitter. To do this, use the method of electropuncture diagnostics according to R. Voll.

 First, an examination of electropuncture points by quadrants or meridians is carried out using an instrument for electropuncture diagnostics and the readings of the device are recorded at each point. Then, a working radiation source is introduced into contact with a person, from which radiation is prepared to be protected, and control points are re-examined using an instrument for electropuncture diagnostics, recording indicators that, as a rule, decrease, which indicates a harmful effect of radiation on a person. Then, leaving the radiation source turned on, an object is introduced into contact with the person on which the wave characteristic of the radiation source has been recorded (for example, a watch is put on your hand) and an electropuncture examination is carried out again. If the indicators returned to normal (initial), then effective protection is provided. If the indicators, despite the increase in values, have not returned to their original state, it is necessary either to change the medium on which the wave characteristic of the emitter is recorded, or to change the attenuation coefficient in the reprinter.

 In principle, to ensure the result, the attenuated wave characteristic of the emitter can be transferred to any inanimate material object - wax, sugar, alcohol, water, a piece of plastic, metal, etc. But it is more convenient to carry out the transfer to the usual objects always worn with you - watches, bracelets, keys, key chains, lighters, glasses (if they have enough weight).

 Electropuncture diagnostics can be used before preparation of protection. First, normal values at the control points can be determined, then the harmful effect of the emitter can be determined, and then the protection is prepared and its effectiveness checked.

 Example 2. The experiment was conducted with the participation of a volunteer K., 42 years old, using a mobile phone brand "Ericsson DH 338".

 First, an electropunctural examination was carried out according to the following acupuncture control points: on the meridian of the central nervous system - the autonomic nervous system, the membranes of the brain and spinal cord, degeneration of the brain stem, brain and blood vessels of the brain; on the meridian of the heart - the aortic valve, cardiac plexus. The indicators of all points were close to normal (60 units). Then, a radio telephone operating in the transmission mode was placed in the test subject’s free hand and control points were re-examined. All indicators decreased to 25 - 30 units. After that, the radiotelephone antenna was connected to the input of the Lady reprinter using a standard electrode, and the subject's watch with a steel bracelet was placed on the output window of the reprinter. The reprinter control buttons set the attenuation of the wave characteristic by 1000 times. After exposure for 50 seconds (the time the attenuated wave characteristic was transferred from the operating radiotelephone to the watch), the watch was put on the subject’s hand and when the radiotelephone was turned on, acupuncture control points were re-examined. It was found that all indicators returned to normal (60 units). Thus, the presence of a watch with the wave characteristic of a radiotelephone on the subject’s body neutralizes the negative effect of the latter’s radiation on the subject.

 Example 3. The experiment was conducted with the participation of a volunteer-subject T., 32 years old, using a Nokia 720 cordless telephone. The experiment was carried out in the same way as described in example 2. The difference was that all the indicators in the control points of the subject decreased to 20 - 25 units. The wave characteristic of the radiotelephone was transferred to glasses in a thin metal frame.

 Examination at acupuncture control points with the combined exposure of the test radiation to a radiotelephone and glasses showed that the indicators improved, reaching 50-55 units, but did not return to normal. Then the wave characteristic of the radiotelephone was transferred to a watch with a metal bracelet worn by the subject. Examination of the subject when exposed to radiation from a radiotelephone, glasses and watches showed that the indicators at the control points returned to normal. The incompleteness of radiation protection in the presence of only glasses with a recorded wave characteristic of the emitter can be explained by the insufficient mass of the object (points) on which the wave characteristic was recorded.

 Example 4. The experiment was conducted with the participation of a volunteer subject T., 32 years old, using a personal computer with a Sync Master GLSi monitor. First, a survey was conducted on control points with the computer turned off and their compliance with the norm was established. Then the volunteer was examined again with the computer turned on. In this case, the subject is in the working chair in his usual position, which he took when working with a computer. Indicators at control points were reduced to 35-45 units. After that, a metal conductor was connected to the input of the reprinter, the free end of which, cleaned of insulation, was attached with adhesive tape to the monitor screen.

 The wave characteristic of studying the monitor, weakened by 5,000 times, was transferred to the subject’s watch, on which the wave characteristic of the Nokia 720 radio telephone was transferred (see Example 3).

 After that, the subject was re-examined with the watch on his hand, the computer and the radiotelephone turned on. All indicators were within normal limits.

 Example 5. The experiment was conducted with the participation of the subject K., 36 years old. As a source of radiation used a color television "Electron-714". The experimental conditions and the procedure is similar to that described in example 4.

 The indicators in the control points when the TV is on, located 3 meters from the subject, decreased to 40 units. After transferring the wave characteristics of the emitter weakened by a factor of 1000 to the test driver’s driving license, all indicators remained normal both when the TV was turned off and on.

 Example 6. The experiment was conducted with the participation of test D., 48 years old. A microwave oven manufactured by the ZIL plant in 1989 was used as a radiation source. When exposed to the radiation from a furnace under test, its indices decreased from the norm by an average of 30 units, i.e. ranged from 25-30. After transferring the wave characteristic of the furnace, weakened by a factor of 10,000, to the brooch worn by the test, all indicators were normal when the furnace was working and when it was turned off.

 Thus, using the proposed method, individual protection of a person from electromagnetic radiation of any particular emitter is carried out. If a person uses not one, but several sources of radiation, then the wave characteristics of all sources used must be transferred to objects carried by a person. Moreover, all the wave characteristics of the emitters can be transferred to the same object.

Claims (2)

 1. A method of protecting a person from electromagnetic radiation by generating a protective field, characterized in that as a generator of the protective field, an object worn by a person is used, onto which a weakened wave characteristic of the emitter is transferred.  2. The method according to claim 1, characterized in that the portable wave characteristic of the emitter is attenuated 1,000 to 10,000 times.