DE3839852A1 - Method and apparatus for the electromagnetic influencing of liquid, electrically conducting substances - Google Patents

Abstract

The present invention relates to a method for the electromagnetic influencing of liquid substances, in particular of liquid vehicles for medicinal products or product solutions, wherein a current flow of 5 to 100 mu A is generated in the liquid with the aid of electrodes, and a monopolar magnetic field with a strength of at least 0.01 tesla is maintained in the region between the electrodes.

Description

The present invention relates to a method and a device device for electromagnetic influencing of liquid, elec trically conductive substances, especially carrier liquids for medical preparations or preparation solutions.

The present invention is based on the knowledge that the Effectiveness of medication through an electromagnetic leg flow increased or the effect of which can be changed.

This finding is surprising since such an action does not chemically change the active molecule. It is also surprising that, particularly in the case of homeopathic preparations, an electromechanical pretreatment of a carrier liquid - usually alcoholic solutions - has a positive effect on the diluate.

The method according to the invention consists in such electrically conductive liquid with the help of electrodes To generate current flow from 5 to 100 microamps and at the same time a monopolar magnetic field in the area between the electrodes a field strength of at least 0.01 Tesla.

The magnetic field strength is limited, for example it was found that field strengths above 0.7 Tesla enzymes too damage property.

Gold electrodes are preferably used because they are special are inert. This also results in the upper limit for the current strength, as an undesirably high level above 100 microamps Ion emission of the electrodes begins.  

In a particularly simple and elegant way, they are easy to handle delenden liquids passed through a flow tube in which the electrodes are. Outside are around the flow tube in pairs opposite on the line between the electrodes Arranged magnets. The medium is in a flowing state and with a suitable flow rate or thrust treated wisely to meet individual exposure times to be able to.

With a cross section of the flow tube, for example from one square centimeter, the flow rate is said to be four Do not exceed meters per second.

The use of several magnet pairs in a row allows the Varying the field strength, for example too steep in the direction of flow gladly. The use of more than three pairs of magnets increases the However, the effect is no longer significant. The action on the Liquid can be increased and individualized by Superposition of frequencies or frequency pulses on the preferred wise monopolar magnetic fields and / or on the direct current. Here the magnet pairs can also be arranged crosswise to each other the.

When passing the plant, the liquid is passed through a monopola res static or pulsating field forced in its area still a galvanic current flows, so that here too charge carrier manipulations happen. Depending on the task of the medication and properties of the substances can have different polarities and field densities are selected, as are the currents of the galvanic current. The control generators for both hold sizes can run synchronously or unsynchronized, especially can resonances and beats in the treatment section be fathered.  

Experiments with the double slit experiment with macrophsical Particles confirm the influence with regard to the interference opportunities. The fact that changing overlaps mutually unaffected waveforms depending on the size of the Difference shows a reinforcement or weakening shows themselves in the interference fringes clearly after the inequality

I ₁₂ ≠ I ₁ + I ₂.

Result at the same time with the different generator frequency in addition to the effects just described for rectangular swing abrupt erasure and rocking phenomena, which in turn are very harmonic due to the steep flank and a have high energy density, so that there is always for the wavelength microphysical particles gives the appropriate resonance frequency. The controls are calculated using the formula:

According to the invention, great importance is attached to the homogeneity of the monopo laren fields.

The one created to perform the above procedure Direction thus consists of a flow tube with in this ordered electrodes (preferably gold electrodes) and outside sensitive magnet pairs. Since the magnets have field strengths of up to 0.7 Tesla must be able to produce their induction coils with a suitable cooling.

A direct current source for current strengths is attached to the electrodes connected between 5 and 100 microamps, between DC power source and electrodes can preferably be a frequency generator be interposed to cause DC pulses ken.  

The magnet pairs generate monopolar DC fields and are in particular special also controlled by frequency generators.

The device used is shown in an accompanying Fig. 1 Darge. G 1 and G 2 mean gold electrodes and S the flow tube. The distance between the electrodes is 15 cm. The cross section of the flow tube is 1 cm ² . L ₁ to L ₆ are the magnets with the induction coils I.

The experiments described below are carried out using a High frequency analyzer "REDEM" according to published patent application message P 37 09 665.6 carried out. Frequencies of 250 to 930 kHz and their resonance in the preparations recorded.

With the REDEM 2 preparations were compared to Seradest (WZ Serol Reinstwassersysteme, Ransbach-Baumbach) as base water tested.

Served as an investigational drug

• 1. 0.9% physiological sodium chloride solution
• 2. 100 ml of Seradest (WZ from Serol Reinst water systems, Ransbach-Baumbach) 50 µl 0.0% NaCl solution. as a test given specimen.

The correct, meaningful measurement dilution for preparation 1 was 400 ml at 50 µl, this is shown in writing 2 b . Conductance 201 nS / cm ² .
This mixture was then flowed through for 2 minutes with 50 μA current and exposed to a south field of statically 0.12 Tesla, conductance 213 n S / cm ² .

The enclosed records were made with the following frequencies drive through:

Target frequency REDEM:

1 250 kHz
2,260 kHz
3,270 kHz
4,280 kHz
5,290 kHz
6 300 kHz
7 310 kHz
8 320 kHz
9 320 kHz
10 340 kHz
11,350 kHz
12 360 kHz
13 370 kHz
14 380 kHz
15 390 kHz
16 400 kHz
17 410 kHz
18 420 kHz
19 430 kHz
20 440 kHz
21 450 kHz
22 455 / II kHz
23 460 kHz
24 465 / II kHz
25 470 kHz
26 475 / II kHz
27 480 kHz
28 485 / II kHz
29 490 kHz
30 495 / II kHz
31,500 kHz
32 505 / II kHz
33 510 kHz
34 515 / II kHz
35 520 kHz
36 525 / II kHz
37 530 kHz
38 535 / II kHz
39 540 kHz
40 545 / II kHz
41 550 kHz
42 570 kHz
43 590 kHz
44 610 kHz
45 630 kHz
46 650 kHz
47 670 kHz
48 690 kHz
49 710 kHz
50 730 kHz
51 750 kHz
52 770 kHz
53 790 kHz
54 810 kHz
55 830 kHz
56 850 kHz
57 870 kHz
58 890 kHz
59 910 kHz
60 930 kHz

the change is visible in letter 2 c . (Changes in the resonance damping value up to 4 mV). The change in conductance is 12 nS / cm ² .

The letter 3 a then shows the mixture of 200 ml Seradest to 50 ul Arnica
D 15 conductance 91 nS / cm ²

After applying this mixture with 50 µA for 2 minutes and 0.12 Tesla South, the resulting changes can be seen in letter 5 .

The conductance is 90 nS / cm ² , the change is dynamic with approx. 1 nS per 40 seconds to 86 nS / cm ² starting from the initial value 90. The conductance change is very small with 5 nS.

In contrast, the resonance damping record shows changes up to 5 mV as Peak value and in the frequencies 45-60 mean value changes up to 2 mV.

This clearly shows that the process-specific influence is clear. The spin changes are also different depending on the admixed preparation.

For the evaluation of the measurements it should be noted that after the Peculiarity of the REDEM system results unreinforced, directly in mV are available. These can of course be done as needed be reinforced. But it is an unamplified amplifier error free signal in the range of greater than 2 mV cheaper than one amplified uV signal with noise components. The signal changes are tapped directly at the oscillator transistor.

Claims (13)

1. A method for the electromagnetic influencing of liquid, electrically conductive substances with conductivities 40 nS, in particular carrier liquids for medicinal preparations or preparation solutions, characterized in that a current flow of 5 to 100 μA is generated in the liquid with the aid of electrodes and maintains a preferably monopolar magnetic field with a strength of at least 0.01 Tesla in the area between the electrodes. 2. The method according to claim 1, characterized in that one Enzyme-containing substances with magnetic field strengths of 0.7 Tesla treated. 3. The method according to claim 1 or 2, characterized in that gold electrodes are used as electrodes. 4. The method according to at least one of claims 1-3, characterized characterized in that the electromagnetic treatment in performs a flow tube, the electrodes in the Pipe and the magnets in pairs preferably against each other are arranged on the outside. 5. The method according to claim 4, characterized in that more re magnet pairs can be used. 6. The method according to at least one of claims 1-5, characterized characterized in that the monopolar magnetic fields and / or frequencies or frequency pulses superimposed on the direct current will.   7. The method according to at least one of claims 1-6, characterized characterized in that the magnet pairs different intensi show offenses. 8. Device for performing the method according to claims 1-8, characterized by the following features:

• a) electrodes are arranged at a distance in a vessel and connected to a direct current source,
• b) between the electrodes are outside of the Ge vessel magnetic pairs.

9. The device according to claim 8, characterized in that several magnets lying opposite each other in pairs behind each other in a row on the line between the elec trodes are arranged. 10. The device according to claim 8 or 9, characterized in that that the electrodes have a current through a direct current source of at least 5 µA and the magnets have intensities of generate at least 0.01 Tesla. 11. The device according to at least one of claims 8-10, thereby characterized in that the magnets cooled induction coils Generation of a magnetic field intensity of up to 0.7 Tesla exhibit. 12. The device according to at least one of claims 8-11, characterized characterized in that the electrodes and the magnets for generating alternating fields connected to frequency generators are. 13. The device according to at least one of claims 8-12, characterized characterized in that the vessel is a flow tube.