DE19717766A1 - Measurement device for objective measurement and evaluation of electrical parameters and their characteristics - Google Patents

Abstract

The measurement device uses a measurement circuit which automatically measures electrical values such as voltage, current and the product of these, power, without external physical aid. The measured values are simultaneously indicated on displays (10, 11, 12). The measurement can be initiated by a pressure/voltage transducer and a trigger circuit when a measurement pressure of between 100-1000 pond has been reached preset by a controller. On renewed application of the measurement probe to an acupuncture point the values displayed can be reset to zero. The contact material for the counter electrodes can be gold plated brass

Description

State of the art

In 1953 the German doctor Dr. med. Reinhold Voll one electrically measurable acupuncture in humans. Every single one Acupuncture point could be located precisely because it was opposite its skin environment a significantly lower resistance for the had electric current. Can be used to measure acupuncture points you can use a conventional ohmmeter in principle, but not makes sense because the measuring scale is logarithmic. Thus, for the practical use the scale is linearized and not calibrated in ohms, but in scale divisions (Skt.) from 0-100. For the measurement a DC current needs between 8-11 microamps and a voltage of approx. 1 V with a resistance of 100 KOhm. In the middle position of the measuring device will be displayed 50 seconds if this is related to acupuncture belonging organ or part of the organ is free from disturbances. Readings above 50 Skt. (60-90) show an inflammatory situation. Readings below 50 Skt. (40-20) indicate a degenerative process.

The disadvantage of the above-mentioned measuring device is the subjective influencing of the measured value depending on:

• 1. Measuring pressure on the acupuncture point.
• 2. Measuring speed with which one drives into the acupuncture point (Acceleration).
• 3. Measuring surface of the acupuncture point such as wet or dry Skin that falsify the measurement result enormously.
• 4. Reproducibility of the measured values in general. Furthermore from Great disadvantage that an auxiliary current is required for measuring the physiology of the electro acupuncture point is enormously impaired, because this current is a biological system human, respectively that Organ that can force counter-regulation.

Due to the power parts mentioned under points 1-4, one was physical effects of medication on humans often only subjectively demonstrable conditional.

Fig. 1 shows schematically the principle of the above-mentioned measuring device.

In Fig. 1 the principle of conventional conductivity measurement is displayed on acupuncture points.

Subject ( 1 ) holds the brass electrode ( 3 ) of the measuring device ( 4 ) in his hand.

The acupuncture points are measured with the stylus ( 2 ), which represents the positive pole of the measuring circuit.

description

The present invention sets itself the task without a technical Auxiliary variable such as voltage, current, frequency and those already mentioned Disadvantages under point 1-4 to create a possibility according to the same criteria as in the EAV = Electro-Acupuncture Full - measurement technology organs related to electro acupuncture points Statement about normal ranges, inflammatory or also degenerative To make illnesses, as well as the physical impact on humans and / or animal.

The following explanations based on the salamander show in Fig. 6 the discovery of the "perineural direct current system", which is the basis of the new measuring method described.

POTENTIAL PATTERN AND NERVOUS SYSTEM AT SALAMANDER

Arrangement of the main elements of the nervous system ( 1 ): brain, spine and the nerve fibers running to the limbs. The pattern of direct electrical currents found by Becker ( 2 ): A connection with the nervous system seemed to exist in that each cluster of nerve cells has a positive electrical polarity, whereas the nerve endings have a negative one. Scheme ( 3 ) shows the changes in the electrical potential pattern that occurred under general chemical anesthesia. (From RO Becker 1991)

On the basis of these representations, a tension potential can in principle be measured on the surface of the human skin. A millivolt meter with a very high-impedance input resistance (10 MOhm, 10 × 10 ⁶ Ohm) is required.

It is measured against a large-area electrode, ideally against the left or right foot as negative pole of the measuring device. The positive pole of the The measuring device is designed as a point measuring pen and closes primarily at an acupuncture point, the measuring circuit over another area of the Skin. A voltage potential of approx. 70-300 mV can be measured. The observations of the measurements over the are interesting Acupuncture points. Here there was consistently a constant Potential between 150 mV and 320 mV. And that with dry skin and largely independent of pressure. The acupuncture point shines here too, as with resistance measurement, a summation potential of To be nerve endpoints and nerve fibers.  

A diagnostic correlation to conductance or resistance measurement could not be clearly identified and assigned.

Another attempt was made to measure the current. These measurements show enormous dynamics in the micro-ampere range. It flow consistently constant currents between 100 pA (pico-Ampére) and 1.5 uA (micro ampere).

The current measurement is of course dependent on the current one Resistance value of the electro acupuncture point (EAP).

This is based on the simple ohmic relationship between current and voltage divided by the resistance. The current measurement shows itself exactly Comparable evaluations as with the resistance measurement however without the influencing factors presented previously.

We even get from the mathematical product voltage times current a real physical performance evaluation of the acupuncture point in Connection with the corresponding organ.

The following description clarifies the invention in detail in FIG. 2.

The measuring object ( 1 ) can be a human being but also an animal, on which the measurement is carried out using the measuring stylus ( 2 ) as the input electrode. A foot electrode ( 3 ) or a hand electrode serves as the counter electrode for the measurement. The material of the foot or hand electrode ( 3 ) consists of gold-plated brass. The measuring tip of the measuring stylus ( 2 ), however, made of brass, MS42.

As soon as the measuring stylus ( 2 ) touches the subject's acupuncture point to be measured, all the displays ( 10 ) ( 11 ) ( 12 ) are automatically set to the 0 position via the microprocessor (MP) ( 13 ). The measuring stylus ( 2 ) is moved with constantly increasing pressure into the acupuncture point to be measured until the measuring pressure preset between 200 and 1000 pond is reached via the setting regulator ( 15 ) in connection with MP ( 14 ). The pressure / voltage converter ( 4 ) generates a voltage proportional to the pressure, which is fed to the comparator and trigger (trigger) ( 5 ).

When the target pressure is reached, the trigger ( 5 ) triggers an acoustic signal ( 6 ) and at the same time the voltage measurement is triggered and carried out via the measuring amplifier ( 7 ). If the measured value in mV (milli-volt) is set on the display ( 10 ), the microprocessor (MP) ( 13 ) automatically switches to the current measuring amplifier ( 12 ). If this measured value is also displayed, the power P is calculated in pW (pico-Watt) via MP ( 13 ) and the product of this calculation is fed to the display ( 11 ) for display via amplifier ( 8 ).

All three measured values are stored in MP ( 13 ) or transmitted serially to a personal computer (PC) via the RS 232 ( 16 ) interface for evaluation.

The requirement for the measuring amplifier ( 7 ) relates primarily to the input resistance. This should not fall below 10 MOhm (mega Ohm). The requirement for the measuring amplifier ( 12 ) also relates to the input resistance. This should be as small as possible.

Table in Figure 3 shows the electro acupuncture readings measured on one hand. The nail fold points ( 2 ) were measured on the fingers ( 1 ) of the right hand of a test person in comparison to the conventional conductance measurement, measured in scale parts (SK) from 0-100 points, and with the method described according to the invention.

The table in Fig. 3 shows ( 3 ) the designation of the acupuncture points from the thumb to the little finger.
Column 1 (4) shows the conductance in Skt.
Column 2 (5) shows the voltage in mV
Column 3 (6) shows the current in pA
Column 4 (7) shows the product of mV × pA in pW
Column 8 (8) shows the comparison and the partial agreement between column 1 (4) and column 4 (7). Column 4 (7) shows a greater significance than column 1 (4). So z. For example, a conductance measurement in column 1 (4) shows a conductance measurement without any findings. At the same point, a performance measurement shows a degenerative tendency, which also corresponds to the patient's symptoms.

With this arrangement, electronically measure electro-acupuncture meridians without any physical intervention it is now possible Effects of medication or influencing the meridians by suitable medication and therefore also corresponding medication Organs to measure physically.

According to the invention, the invention is achieved according to FIG. 5 in that with the measuring device ( 1 ), as already described above, the medication information ( 12 ) in the cup ( 11 ) is an electronic amplifier ( 9 ) with a variable gain up to 10,000 times via potentiometer ( 10 ) is supplied. The amplified medication information after amplifier ( 4 ) is fed to a broadband noise generator ( 8 ) which generates a broadband noise with a frequency of 0 Hz - ∞ for modulation. The additive mixture of drug information and noise information is fed to a steep-sided Fourier analysis filter ( 7 ). The electronic filter ( 7 ) is able to filter out very specific frequency components from the noise information and thus also from the medication information. The noise and medication information remaining at the outlet of this filter ( 7 ) is placed on the human body ( 5 ) via an adhesive electrode ( 6 ), primarily in the vicinity of the navel.

If the medication ( 12 ) has a therapeutic relationship with a diseased organ, this effect can be measured physically reproducibly with the measuring arrangement ( 1 ). The information output ( 6 ) can also be optionally connected to the hand or foot electrode ( 3 ) of the measuring device ( 1 ) and thus brought into contact with the person ( 5 ). The common ground ( 13 ) is the opposite pole to the information-carrying conductor.

The literature under consideration

[IV] Leonhard, H .: "Basics of electro acupuncture according to Voll". ML-Yerlag-Uelzen.

[II] Bishop Marco: "The light in our cells". Publisher two thousand one.

[III] P. C. Endler and J. Schulte (ed.): "Homeopathy Bioresonance therapy " Mandrich Publishing House: Vienna-Munich-Bern.

[I] Hoppe-Lohmann-Markl-Ziegler (ed.) "Biophysics a textbook". Springer publishing house.

[V] Smith W. C. Cyril: "Weak Electromagnetic Effects in biomedical Systems ". University of Salford England.

Claims (9)

1. Measuring device for the objective measurement and evaluation of electrical quantities and their dynamic behavior which are measured on body surfaces and / or body points, such as. Example: on biological systems, on acupuncture points on humans, animals or plants, characterized in that with the help of a measuring circuit Fig. 2. electrical quantities without external physical influence, such as voltage, current and the product of voltage and current, the power, automatically are measured and the measured values are shown together on displays ( 10 ), ( 11 ) and ( 12 ). 2. Measuring device according to claim 1, characterized in that the measuring process is reached after the preset measuring pressure in the value range between 100-1000 pond via the pressure / voltage converter ( 4 ) and the trigger ( 5 ) is triggered by the setting regulator ( 15 ). 3. Measuring device according to one of the preceding claims, characterized in that when the measuring stylus ( 2 ) is reattached to an acupuncture point, the previously determined measured values in the displays ( 10 ) ( 11 ) and ( 12 ) are reset to "0". 4. Measuring device according to one of the preceding claims, characterized in that the contact materials of the counter electrodes ( 3 ) hand or foot electrodes made of brass - gold-plated. 5. Measuring device according to one of the preceding claims, characterized in that the measuring electrode ( 17 ), screwed to the measuring stylus, is made of brass and the mechanical properties correspond to the illustration in FIG. 4. 6. Measuring device according to one of the preceding claims, characterized in that according to in Fig. 5 a medicament ( 12 ) via a cup receiving electrode ( 11 ) an amplifier ( 9 ) is supplied and the medicament signal with potentiometer ( 10 ) to max. Can be reinforced 10,000 times. 7. Measuring device according to one of the preceding claims, characterized in that according to in Fig. 5, the output signal from amplifier ( 9 ) with an artificially generated broadband noise signal ( 8 ) is superimposed. 8. Measuring device according to one of the preceding claims, characterized in that according to in Fig. 5 the common output signals noise and medication information is fed to a steep-sided electronic filter for Fourrier analysis and its output in turn a human and / or animal ( 5 ) via an adhesive electrode ( 6 ) is brought into conductive contact. 9. Measuring device according to one of the preceding claims, characterized in that the physical effect of the medicament ( 12 ) shown in FIG. 5 on humans ( 5 ) according to the arrangement ( 6-11 ) with the measuring arrangement ( 1 ) can be detected by measurement .