DE3106182A1 - Arrangement for generating a biologically effective electric field - Google Patents

Abstract

In order to generate a biologically effective electric field, provision is made of a high-voltage generator which generates at a first high-voltage terminal (1) a unipolar positive high voltage, and at a second high-voltage terminal (3) a unipolar negative high voltage. Electrodes (9) which run out to form an exposed tip (7) are connected to the high-voltage terminals (1, 3). The high voltages are modulated periodically in a phase-shifted fashion and can be set with respect to their amplitude ratio. <IMAGE>

Description

Arrangement for producing a biological

effective electric field.

The invention relates to an arrangement for generating a biological effective electric field.

Scientific experiments have shown that biological processes to a considerable extent by magnetic and electric fields, by ionizing Radiation or ionized environment, influenced by gravitational fields and much more will.

Long-term exposure with unfavorable influencing factors can affect humans and animals lead to diseases of a physical or mental nature. On the other hand has it has been shown that by suitable countermeasures, for example by shielding such fields and rays whose influence can be neutralized. To track down the often locally very limited geopathogenic zones become dowsers because of their sensitivity to changes in field and radiation conditions at address the geopathogenic zones, as for example in the book by Herbert L. König "Invisible Environment", Verlag Herbert L. König, Munich, 1977, described is.

The object of the invention is to provide a structurally simple arrangement to indicate the generation of a biologically effective electric field, with their It is also possible for inexperienced users to control the influence of electric fields and in particular to control the influence of ion fields on biological processes.

This object is achieved according to the invention in that a high-voltage connection one generating the high voltage based on the zero potential of its device ground High-voltage generator at least one tapering to an exposed tip Electrode is connected. Such an arrangement not only creates a high voltage field, but also ions, which surprisingly ionizing over longer periods of time Can positively influence radiation and ion fields of the geopathogenic zones. try have shown that prior to using the inventive arrangement of dowsers reproducibly proven geopathogenic zones after application over longer periods of time away were no longer detectable.

The high voltage potential applied to the electrode is preferably at positive polarity. It has been found to be harmful to humans Influences are essentially caused by negative ionizing radiation.

Such radiation can be caused by positive high voltage potentials and the ion fields generated thereby are neutralized.

The conditions under which living things thrive vary. It has been shown that the majority of insects, especially pests respond to opposing circumstances. With the help of the invention arrangement generated positive fields inhibit the growth and reproduction of the harmful or the vermin.

Finally it has been found that when choosing positive high voltage the growth of a number of plants can be promoted.

Embodiments in which about separate electrodes both positive and negative high voltage potentials different amplitudes are superimposed on each other, but in each case the positive high voltage must predominate. This does not need to be DC voltages to act. The unipolar high voltages are preferably modulated, in particular modulated with the same frequency but out of phase.

Each of the high voltage electrodes are preferably auxiliary electrodes assigned to a lower, but in the same direction high voltage potential lie. The auxiliary electrodes are adjacent to and improve the main electrodes Ionizing capacity. Finally, the main electrodes and the auxiliary electrodes be arranged within a metal ring, which has a certain lateral shielding permitted.

Especially for combating vermin and promoting plant growth Elongated electrode arrangements are advantageous in which electrodes are different Alternate polarity. Such electrodes can be directed towards the ground Tips are attached stationary at a distance above the ground.

In a preferred, structurally particularly simple embodiment the high-voltage generator of the arrangement has two oppositely polarized diode voltage multiplier stages on, each connected to the outputs of a pulse generator by means of a transformer are where phase-shifted, periodic signal sequences issued will. The pulse generator preferably has an oscillator with a control stage controllable frequency as well as two signal converter stages connected to the oscillator on which the time-shifted periodic signal sequences each with adjustable Generate amplitude. The output signal of the control stage determines the frequency of the Oscillator and thus the input frequency of the particular in cascade connection switched diode voltage multiplier stages. A sawtooth shape is preferred Frequency control of the oscillator, resulting in a high frequency modulation of the high voltage potential leads.

While it is useful for a wide variety of use cases, particularly the Neutralization of the influences harmful to humans is sufficient if the one to be neutralized Area covered with an electrode arrangement carried in the hand can be used in pest control and plant growth more or less continuous use may be an advantage. Appropriately a timer is provided which periodically switches the arrangement on and off. In order to facilitate the application, they are preferably portable for the power supply Power sources, in particular batteries, accumulators or solar cells are provided.

In the following, embodiments of the invention will be based on Drawings are explained in more detail. 1 shows a schematic block diagram an arrangement for generating a biologically effective electric field; Fig. 2A-D are timing diagrams of appearing at various points in the circuit of FIG Tensions; 3 shows a plan view of a first electrode arrangement; Fig. 4 a Cross section through the electrode arrangement according to FIG. 3; Fig. 5 a Top view of a second electrode arrangement and FIG. 6 shows a cross section through the electrode arrangement according to FIG. 5.

Fig. 1 shows the block diagram of a modulatable high-voltage generator, a modulated positive high voltage at a first high-voltage output 1 and a modulated negative high voltage at a second high-voltage output 3 in each case based on the zero potential of its device ground 5 emits. At both high voltage outputs 1, 3 are tapering to an exposed tip 7, in particular conical Main electrodes 9 connected. Auxiliary electrodes are spaced from the main electrodes 9 11 arranged, which are directed towards one of the associated main electrodes 9 Taper the tip. The auxiliary electrodes 11 are at a lower high voltage potential than the associated main electrodes 9 which have the same polarity. The distance the main electrodes 9 of unequal polarity is chosen so large that it is not too Flashovers can occur between the main electrodes 9.

For the separate generation of the differently polarized high voltages are two diode voltage multiplier stages with the same structure except for the polarity of their diodes 13 and 15 provided, the transformers 17 and 19 from a modulatable Pulse generator 21 are fed.

The diode voltage multiplier stages 13, 15 can, as shown in FIG Fig. 1 is given as a preferred example, constructed in Greinacher cascade connection be whose alternately interconnected shunt branches are alternately polarized Diodes 23 included, while between the common connection points of the diodes 23 charging capacitors 25 are provided in the series branches. Fig. 1 shows the example a voltage doubler circuit, in which the auxiliary electrode 11 to the output the first stage and the main electrode 9 connected to the output of the second stage is. If the discharge current of the main electrode 9 or the auxiliary electrode 11 is not sufficient, about the modulation of the modulatable pulse generator 21 on the high-voltage side of the voltage multiplier stages 13, 15 can be transmitted between the high-voltage outputs 1, 3 and the device ground 5 additional load resistors 27 must be connected, as shown in dashed lines in FIG.

The transformers 17, 19 are on the primary side at voltage converter stages 29, 31 connected, the output amplitude ratio of which by means of an input-side Voltage divider circuit 33 can be set. The voltage converter stages 29, 31 give, based on the common to them from a square pulse generator 35 supplied square-wave pulses by 1800 mutually phase-shifted output pulses with an amplitude ratio determined in accordance with the voltage divider circuit 33 away. The frequency of the square-wave pulse generator 35 is determined by a at a control input 37 supplied frequency control voltage is determined. The frequency control voltage determines the change in frequency based on a basic frequency that can be set on an adjusting element 39.

The high voltage generator can be operated in two operating modes, which can be set on a switch 41. In a first position it connects the changeover switch 41 connects the control input 37 to a manually adjustable reference voltage source 43, via which a fixed output frequency of the square-wave pulse generator 35 can be set is. In the second position, the switch 41 connects the control input 37 with a relaxation oscillation generator 45, which generates a sawtooth-like signal with relatively slow rising leading edge and rapidly falling trailing edge. The oscillating oscillation generator 45 comprises a square-wave pulse generator 47 with adjustable on an adjusting member 49 Pulse frequency and one the square-wave pulses of the square-wave pulse generator 47 integrating integrator 51, the maximum output amplitude at which the Trailing edge begins on one Adjusting member 53 is adjustable.

2A shows the course of the output voltage of the integrator 51 depending on the time t, with Umax which can be set on the setting member 53 maximum output voltage is designated.

2B shows the output signal of the square-wave voltage generator 35 with frequency control by the relaxation oscillation generator 45. With increasing, the Control input 37 supplied control voltage takes the output frequency of the square-wave generator 35 to. Fig. 2C shows the in-phase with the output pulses of the square-wave pulse generator 35, but with increased amplitude output pulses of the voltage converter stage 29. Fig. 2D shows the output pulses of the voltage converter stage 31, which is a smaller one Have amplitude than the output pulses of the voltage converter stage 29 and to these Output pulses are in phase opposition. The lower output voltage of the voltage converter stage 31 leads to a lower high voltage at the negative high voltage output 3.

In a practical embodiment, the maximum output voltage was at the positive high voltage output 1 about 6 KV. The frequency of the voltage controllable Square pulse generator 35 changed at the maximum stroke of the sawtooth signal of the Loose oscillation generator 45 in the range between approximately 0 Hz and 60 KHz. The repetition rate the sawtooth signal was about 100 Hz.

Figures 3 and 4 show an electrode arrangement as it is in particular can be used to neutralize pathogenic zones that are harmful to humans can. The electrode arrangement to be connected to the high-voltage generator of FIG is held in the hand and, for example, meandering over the entire area carried the area to be neutralized. The electrode assembly includes an insulating housing 55, two of its circular base plate 57, to the two high-voltage outputs 1, 3 main electrodes to be connected 59 roughly parallel to after protrude on the same side of the pointed tip. The tips of the main electrodes 59 protrude through openings 61 in the housing 55. Inside the housing 55 are in the area of each of the two electrodes 59 auxiliary electrodes 63 with a plurality provided, for example, to the associated main electrodes 59 pointed to tips.

The auxiliary electrodes 63 are at a distance from the associated main electrode 59 arranged on the side facing away from the other main electrode 59 and extend in an arc shape along the cylindrical inner wall of the housing 55.

A closed metal ring 65 surrounds the main electrodes 59 and the auxiliary electrodes 61. The main electrodes 59, the auxiliary electrodes 63 and the Metal ring 65 consist of a highly conductive material, in particular copper.

Figures 5 and 6 show another electrode arrangement like them especially for pest control and to improve plant growth can be used. On a base plate 67 of an insulating housing 69 are in straight row next to each other conical main electrodes tapering to a point 71 attached. The tips of the main electrodes 71 in turn protrude through openings 73 of the housing 69 out. The electrodes 71 are in alternating order parallel to the high-voltage outputs 1 and 3 of the high-voltage generator Fig. 1 connected. Between two connected to the positive high voltage output 1 Main electrodes 71 are therefore connected to the negative high-voltage output 3 connected main electrode 71 and vice versa. The distance between the main electrodes 71 of each other is chosen so that there are no high voltage flashovers between the main electrodes 71 can come. Inside the housing 69 are on both sides of the Main electrode row auxiliary electrodes 75 arranged in pairs. The auxiliary electrodes 75 have tips directed towards the associated main electrodes and are spaced arranged from the main electrode. Those associated with the main positive electrodes 71 Auxiliary electrodes 75 are connected in parallel to one another. Corresponding is applicable for the auxiliary electrodes 75 assigned to the negative main electrodes 71 Housing 69 is arranged around a metal ring 77, which the main electrodes 71 and the auxiliary electrodes 75 all surrounds. Feet 79 on the housing 69 allow Installation of the electrode arrangement with the tip pointing downwards on the ground, in order to improve the plant growth conditions stationary or vermin or the like to destroy.

The high-voltage generator explained with reference to FIG. 1 can be small and can be set up easily transportable. In order to increase the application possibilities, are as the operating voltage source 81 (Fig. 1) preferably a battery, again A rechargeable battery or solar cells for outdoor applications are provided. Although continuous operation of the high-voltage generator is possible, a timer 83 is preferably provided to protect the operating voltage source, which periodically switches the high-voltage generator on and off. For example, can the high-voltage generator on for 30 to 60 minutes and during one the same be switched off for a long time.

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Claims (26)

Arrangement for generating a biologically effective electric field. Arrangement for producing a biologically active one electric field, which means that it is connected to a high-voltage connection (1) one of the high voltage related to the zero potential of its device ground (5) generating high voltage generator at least one to an exposed tip (7) outgoing electrode (9; 59; 71) is connected. 2. Arrangement according to claim 1, characterized in that g e k e n n z e i c h -n e t that the high voltage generator generates unipolar positive high voltage. 3. Arrangement according to claim 2, characterized in that g e k e n n z e i c h -n e t that the high voltage generator generates periodically modulated high voltage. 4. Arrangement according to claim 3, characterized in that g e k e n n z e i c h -n e t that to a second high-voltage connection (3) via which the high-voltage generator one with the modulation frequency of the positive high voltage but out of phase periodically modulated, based on the zero potential of the device ground (5), unipolar, emits negative high voltage, at least one more, to an exposed tip (7) outgoing electrode (9; 59; 71) is connected. 5. Arrangement according to claim 4, characterized in that g e k e n n z e i c h -n e t that the amplitude ratio of the positive and negative high voltages means an adjusting member (33) is changeable. 6. Arrangement according to claim 3 or 4, characterized in that g e k e n n -z e i c h n e t that the high voltage modulation essentially has a sawtooth waveform a short trailing edge falling time compared to the leading edge rising time Has. 7. Arrangement according to claim 1, characterized in that g e k e n n z e i c h -n e t that all electrodes (9; 59; 71) with tips (7) directed in the same direction are arranged parallel to each other. 8. Arrangement according to claims 4 and 7, characterized g e k e n n -z E i c h n e t that oppositely polarized electrodes (71) alternate one after the other are arranged. 9. An arrangement according to claim 8, characterized in that it is e k e n n z e i c h -n e t that the electrodes (71) are arranged in a row next to one another. 10. The arrangement according to claim 1, characterized in that g e k e n n z e i c h -n e t that at a distance from each electrode (9; 59; 71) at least one to one on the Electrode (9; 59; 71) directed Pointed auxiliary electrode (11; 63; 75) is arranged adjacent, which is connected to a high-voltage connection with a lower, however, the high voltage potential in the same direction as the high voltage of the electrode (9; 59; 71) connected. 11. The arrangement according to claim 10, characterized in that g e k e n n z e i c h -n e t that on diametrically opposite sides of the electrode (71) in the same direction polarized auxiliary electrodes (75) are provided. 12. The arrangement according to claim 11, characterized in that g e k e n n z e i c h -n e t that several co-polarized auxiliary electrodes (63) in an arc um.die Electrode (59) are arranged around. 13. The arrangement according to claim 1, characterized in that g e k e n h z e i c h -n e t that the electrodes (59; 71) inside a closed one of the electrodes (59; 71) insulated metal ring (65; 77) with tips directed transversely to the plane of the ring are arranged. 14. Arrangement according to claims 10 and 13, characterized g e -k e n n z e i c h n e t that the auxiliary electrodes (63; 75) between the metal ring (65; 77) and the electrodes (59; 71) are arranged in an insulated manner. 15. The arrangement according to claim 10, characterized in that g e k e n n z e i c h -n e t that the electrodes (59; 71) and auxiliary electrodes (63; 75) of a common Housing (55; 69) are enclosed, from which the tips of the electrodes (59; 71) protrude. 16. The arrangement according to claim 4, characterized in that it g e k e n n z e i c h -n e t that the high voltage generator has two oppositely polarized diode voltage multiplier stages (13; 15), which are each transformer-related to phase-shifted, periodic Outputs of a pulse generator (21) delivering signal sequences are connected. 17. The arrangement as claimed in claim 16, characterized in that it is e k e n n z e i c h -n e t that the pulse generator (21) has an oscillator (35) through a control stage (41, 43, 45) controllable frequency and two connected to the oscillator (35) Signal converter stages (29, 31), which the temporally phase-shifted periodic Generate signal sequences each with adjustable amplitude. 18. The arrangement according to claim 17, characterized in that it is e k e n n z e i c h -n e t that the control stage (41, 43, 45) generates a sawtooth signal. 19. The arrangement according to claim 18, characterized in that it is e k e n n z e i c h -n e t that the frequency of the sawtooth signals is in the range between about 10 Hz to 1000 Hz, preferably about 100 Hz. 20. Arrangement according to claim 1, characterized in that g e k e n n z e i c h -n e t that the high voltage is at least 1 KV, preferably about 3 KV to 60 KV. 21. The arrangement according to claim 1, characterized in that it is e k e n n z e i c h -n e t that the frequency of the oscillator (35) is in a range between about 10 Hz and 50 KHz. 22. The arrangement as claimed in claim 1, characterized in that it is e k e n n z e i c h -n e t that a timer (83) is provided, which periodically starts the arrangement and turns off. 23. The arrangement according to claim 1, characterized in that it is e k e n n z e i c h -n e t that for power supply a portable power source (81), in particular one Battery, or an accumulator or a solar cell are provided. 24. Use of the arrangement according to one of claims 1 to 23 for Compensation for radiation and / or fields present in geopathogenic zones. 25. Use of the arrangement according to one of claims 1 to 23 for Pest Control. 26. Use of the arrangement according to one of claims 1 to 23 for Promotion of plant growth.