WO1998006453A1

WO1998006453A1 - Inductive absorber for protection against microwave radiation

Info

Publication number: WO1998006453A1
Application number: PCT/YU1997/000007
Authority: WO
Inventors: Svetislav Jordovic
Original assignee: Svetislav Jordovic
Priority date: 1996-08-09
Filing date: 1997-07-31
Publication date: 1998-02-19
Also published as: YU48657B; YU45996A; AU3603897A

Abstract

Inductive absorber for removal of microwave radiation comprises wire (1) with two crossed windings (2, 3) of wire conductor (1a) in the form of standard coil, from lacquer insulated copper wire, whereupon the windings referred are wire connected (6) at its ends. The windings (2, 3) are wound in counter directions around the same central axis and are placed on insulated hollow supports in the form of a tube, most preferably made from thermoplastic material, inside which by the whole length of winding (2, 3) there is 'V' bent conductor (5) of the same wire, with free ends. The present invention covers four other variations of the solution with the wire inserts.

Description

INDUCTIVE ABSORBER FOR PROTECTION AGAINST MICROWAVE RADIATION

TECHNICAL FIELD

The present invention belongs to the field of environmental protection in general and the field of basic electric construction elements and components of instruments and electric apparatus for protection and neutralization of harmful effects of cosmic or earth radiation, for absorption of radiation and refers to inductive absorber for protection against microwave radiation of household electric installation and electric devices connected to it.

According to IPC this patent is classified under :

A 61N 1/16; H 01 F 5/00; H 01F 27/36; G 12B 17/02 and A 61 N 1/40.

The invention resolves the problem of designing a small device which would efficiently neutralize or remove and thus protect human organism from microwave radiation from household electric installation and electric appliances connected to it.

BACKGROUND ART

Device for elimination of electromagnetic waves, as the carriers of various natural or artificially induced radiations, especially the radiations of the so called geopathogen zones and various other electric fields, is described in

German application for patent DE 40 14 118 A1 and its supplementary application DE 41 03 297 A1. The device itself comprises two different coils made up in different arrangements, for elimination of electromagnetic waves, with left and right windings most favorably set up in parallel and electrically and inductively they are connected to the object whose radiation they receive. In another type of arrangement, there is only one coil and also several coils only with right windings, with inductive connection made by means of the two condensator plates, of which one is placed above and the other under the coil.

In German application for patent DE 34 16 157A1 a known device for elimination of harmful radiations from earth, comprising two inductively connected windings, made from silvercoated copper wire of a relatively large spiral diameter, drawn out in length and passed through the coating and acting therein as antenna is presented. Here one of the windings acts upon concentration of electric and magnetic field that the other winding is absorbing.

In the European application for patent EP 0 131 636 A1, a known device for protection from harmful earth radiations is presented. The device comprises cylindrical iron made body, with minimum two coils with windings made from insulated copper wire. Here some of the turns of the first winding are set longitudinally to the cylindrical body, between its cylindrical surfaces at both ends and the turns of the other winding are set up so as to encompass around this body, whereupon both windings make up a coil in the form of a cage made from copper insulated wire.

In German application for patent DE 33 04 155 A1 , there is another device for elimination of harmful earthly radiations, both natural and artificial originating from earth, most frequently emanating from changing electromagnetic fields. The device comprises coils set up in one line in series, placed separately at mutually specified distances. The coils are made from conductive material, primarily insulated copper wire with different number of windings, cylindrical and/or cone like in form. They are placed on full or hollow supports of round cross section made from various materials.

In German application for patent DE 32 20 565 A1 a known device is described which produces counter electromagnetic field to pathogen electromagnetic field, requiring voltage supply from household electric installation.

In German application for patent DE 32 20 567 A1 a known device intended for neutralization of harmful earth radiation is described, consisted from coils with double closed inductive field made in the form of figure eight. For an efficient performance of this inductive loop, due to their surface arrangement they have to be applied over a large area.

In another German application for patent DE 33 41 756 A1 a description of a known device is presented, in the form of a covering made with metal fibers, for protection from outside radiation. This covering protects only the bed area.

All the above mentioned known devices from the technical state of the art, consist as a rule from several inductive coils set up separately against each other and inductively and/or electrically they are connected by means of condensator plates.

Deficiencies of these devices, as a rule, reflect in their insufficient protection from certain harmful radiations , so that they have to be considerably increased in number and placed on points specifically designated by diviners. Further deficiencies of the majority of the devices described come from their relatively large dimensions, which together with the requirement for an increased number, add to the relatively high cost price. Also, with some of the devices herein described after some time they become saturated, when the protection effect from certain or all the harmful effects is decreased or terminated. Another shortage of the devices depicted is that they have to be connected to public electrical network for their electric supply.

DISCLOSURE OF THE INVENTION

It is a known characteristic of micro waves to reflect from obstacles they come across in their straight-line propagation, especially if the latter are massive in their composition, that being the principle on which radars as radiolocation devices are based.

On the other hand, the explanation for penetration of microwave radiation is in the fact that the carrier wave i.e. the transmitter of these microwave radiations, is the standard frequency 50 Hz electric field in the transmission electric network used for electric supply of household electric appliances and devices connected to it, with wave length of this frequency 6 000 km. This large wavelength causes high penetration of electric and magnetic field 50 Hz frequency as well as parasitic frequencies that it carries along. It is known as well that the large length waves, due to their penetration are widely applied in subwater communications, e.g. in submarine communications. Here the frequencies of 300 Hz - wave length 1000 km are used, enabling communications with objects at distances of several thousand kilometers, submerged in water at depths of up to 200 m and higher.

Similarly, the system of public electric network for power supply with its lowvoltage and highvoltage lines, the length of which is practically several hundred thousand kilometers, behaves not only as the carrier of electric energy but also as antenna that receives natural noises, earth radiation, and radiations of large number of radar, television and radio transmitters, satellite transmitters, mobile telephones and pagers, navigation equipment and other similar devices. All these devices operate on UHF, SHF and EHF frequency bands, with the majority of them connected to public electric network for direct power supply.

The influence of the above described electromagnetic waves on electric power in public electric network, could be recorded by observing the voltage sinusoidal pattern on oscilloscope. We can see that the curve plotted is not smooth since the tops thereof are modulated with parasitic signals in contrast with fully smooth voltage sinusoid of "clean" electric energy generated in a proper motor-generator. It can be concluded, that microwave radiation enters into offices and dwelling premises by means of electric energy which is not "clean" energy but the carrier of harmful to human organism microwave radiation. Consequent to the above, the aim of the invention was to design. a new device small in size, with no deficiencies of the similar inventions known from the state of the art, which would efficiently neutralize or discharge, and thus make the microwave radiation from household electric installation and electric appliances connected to it safe for human organism.

This aim was achieved by the invention of inductive absorber for removal of microwave radiation with windings of standard or compressed spiral form, preferably lacquer coated with single or twisted copper wires. The wire conductors are wound in one direction around the same central axis and are set up in parallel or crossed with their ends free or interconnected with connective wires.

From reasons of construction, the windings in the form of a standard coil are placed on cylindrical hollow supports, in the form of a tube made from thermoplastic material, with windings like a compressed spiral, inserted like a cluster inside the hollow supports made from the same material.

This design of inductive absorber for removal of microwave radiation compared to other familiar devices of the same designation, is simple, small in size and of low prime cost. It does not require power supply for its operation and with its unlimited life realizes high performance.

SHORT DESCRIPTION OF FIGURES

The invention is described in details in figures set out as examples where:

Figure no. 1 - represents inductive absorber for removing microwave radiation in basic design, with intercrossed wires of the two windings;

Figure no. 2 - represents the same absorber in the first derived version of the design, with parallel wound wires of the two windings;

Figure no. 3 - represents the same absorber in the second derived version of the design, with parallel wound wire of one winding;

Figure no. 4 - represents the same absorber in the third derived version of the design, with wire like compressed spiral; and

Figure no. 5 - represents the same absorber in the fourth derived version of the design, with parallel wound twisted wires of the two windings. DETAILED DESCRIPTION OF THE INVENTION

Inductive absorber for removal of microwave radiation by referring to the figure no.1 , consists from wire 1 with two crossed windings 2 and 3 in the form of a standard coil conductor 1a set up one on top of the other. Therewith the windings 2 and 3 are wound around the same central axis in counter direction and free ends are connected with conductor wire 6. Inside the windings 2 and 3 along its length, there is "V" bent wire 5 inserted, with its ends free.

From reasons of construction, the windings 2 and 3 are placed on hollow cylindrical support 4 (shown as dotted line in Figure no. 1) with wire 5 inserted.

Inductive absorber 10, by referring to Figure no. 2, in the first derived version of the subject invention, comprises two windings 12 and 13 in the form of a standard coil wire 11 , set up in parallel. The windings 12 and 13 are wound around the same axis and in the same direction, and their free ends are connected with conductor wires 16. At the same time, inside the windings 12 and 13, along its length there is "V" bent wire 15 inserted, with its ends free.

From reasons of construction, the windings 12 and 13 are placed on hollow plastic tube 14 (shown as dotted line in Figure no. 3) with wire 15 inserted.

Inductive absorber 20, by referring to Figure no. 3, in the second derived version of the subject invention, comprises one winding 22 in the form of a standard coil of wire 21 with free ends connected with conductor wire 26. Inside the winding 22, along its length, there is "V" bent wire 25 inserted, with its ends free.

From reasons of construction, the winding 22 is placed on hollow cylindrical support 24 (shown as dotted line in Figure no. 3) with wire 25 inserted.

Inductive absorber 30, by referring to Figure no. 4, in the third derived version of the invention, comprises one winding 32 in the form of a compressed coil of wire 31 , formed like a cluster with free ends 32a of the winding 32.

From reasons of construction, winding 32 is placed in the form of a cluster of wire 31 inside the cylindrical support (shown as dotted line in Figure no. 4).

Inductive absorber 40, by referring to Figure no. 5, in the fourth derived version of the invention, comprises two facing windings 42 and 43 in the form of a standard coil of wires 41a and 41b previously twisted. The windings 42 and 43 are wound around the same axis in counter direction, with free ends connected with a tin ball 46.

From reasons of construction, the windings 42 and 43 are placed on hollow cylindrical support 44 (shown as dotted line in Figure no. 5). Inductive absorber wires 1 , 10, 20, 30, 40 are made out from windings 2, 3, 12, 13, 22, 32, 42, 43 of the conductor 1a, 11 , 21 , 31 , 41a, 41b preferably from lacquer coated copper wire of specified diameter, with specified spacing between the turns of the windings referred. Therewith, the windings 2, 3, 12, 13, 22, 42, 43 are placed on hollow cylindrical supports 4, 14, 24, 44 primarily in the form of a tube of specified outer diameter and length, from an insulating material, like some thermoplastic material. At the same time the winding 32 of the same conductor - wire 31 is placed in the form of a cluster inside the hollow cylindrical support 34 primarily of a tube of specified inner diameter and length, from insulating, thermoplastic material.

Conductor - wires 5, 15, 25, like "V" bent wires are also made from lacquer insulated copper wire lengths thereof corresponding to insulating hollow cylindrical supports 4, 14, 24.

Inductive absorbers for removal of microwave radiation by their windings absorb the energy of microwave electric and magnetic field. The current induced in one winding equals the current in the other winding whereupon these currents are of counter directions and are neutralized, and as the final result of the influence of the inductive absorber the energy of microwave electric and magnetic field is consumed.

It is considered that the examples of derived versions of the subject invention are in no way a limitation to the invention, and they include all the variations that are derived.

Claims

1. Inductive absorber for removal of microwave radiations, small in size and simple in design with unlimited life, that does not require connection for voltage supply from household electric installation and provides for efficient and safe protection from microwave radiation from household electric installation and electric appliances connected to it, characterized b y the inductive absorber wire (1, 10, 20, 30, 40) for removal of microwave radiation consists from at least one winding (2, 3, 12, 13, 22, 42, 43) in the form of standard or compressed coil of conductor wire (1a, 11, 21, 31, 41a, 41b) placed in parallel or crossed, whereupon the windings (2, 3, 12, 13, 22, 32, 42, 43) are wound in the same or opposite direction, around the same axis with free ends (32a) or ends wire connected (6, 16, 26, 46).

2. Inductive absorber, according to claim 1, characte rized by the wire (1) consists from two crossed windings (2, 3) in the form of a standard coil of conductor wire (1a), whereupon the windings (2, 3) are wound around the same axis in counter dirrections with the ends of conductors (1a) wire (6) connected.

3. Inductive absorber, according to claim 1 and Variation I, characterize d b y the wire (10) consists trom two facing windings (12, 13), in the form of a standard coil of connector wire (11) set up in parallel, whereupon the windings (12, 13) are wound around the same axis in the same direction with their conductor ends (11) wire connected (16).

4. Inductive absorber, according to claim 1 and Variation II, characterize d b y the wire (20) consists from one winding (22) in the form of a standard coil of conductor wire (21) set up in parallel, with free ends wire connected (26).

5. Inductive absorber, according to claim 1 and Variation III, characteriz e d b y the wire (30) consists from one winding (32) in the form of a compressed coil of wire (31) in the form of a cluster with free ends (32a) of winding.

6. Inductive absorber, according to claim 1 and Variation IV, characteri ze d b y the wire (40) consists from two windings (42, 43) in the form of standard coil, previously mutually twisted conductors (41a, 41b) set up in parallel, whereupon the windings (42, 43) ar wound around the same axis in counter directions, with conductor ends (41a, 41b) wire connected (46).

7. Inductive absorber, according to claims from 1 to6, characterized b y the wires (1, 10, 20, 30, 40) made with windings (2, 3, 12, 13, 22, 22, 42, 43) of conductors (1a, 11, 21, 31, 41a, 41b) preferably with lacquer coated copper wire of specified diameter with specified spacing of turns.

8. Inductive absorber, according to claims from 1 to7, characterized b y the windings ( 2, 3, 12, 13, 22, 42, 43) are set up on hollow insulated cylindrical tubes (4, 14, 24, 44), preferably like a tube of specified dimensions of outer diameter and length, made from thermoplastic material, with winding (32) placed inside the hollow insulated cylindrical tube (34) referably in the form of a tube of specified dimensions of inner diameter and length, from the same material.

9. Inductive absorber, according to claims from 1 to4, characterized b y that inside the wires (1, 10, 20) along the whole length of their windings (2, 3, 12, 13, 22) there are conductors (5, 15, 25) inserted, preferably from lacquer insulated "V" bent copper wire of the same thickness, with free ends.