DE4326461A1 - Electronic focussing device for electrophoretic tomography studies of liquids - comprising electrolyte strips moistened with liquid under examination - Google Patents

Abstract

Electronic focussing device is claimed for electrophoretic tomograph in the study of aqueous fluids and production of coloured representation carries on/at electrodes. The novelty is that electrolyte strips moistened with the liquid under examination, or layered bundles of these, are arranged on/at electrodes, where the visible contrast is increased for the luminescence of colours and outlines generated, and where the liquid under examination is enclosed by a composite or similar material. USE - Enhancement of electrophoretic/endorsmotic effect by an electronic lens arrangement.

Description

The invention relates to the areas
Laboratory technology,
Laboratory chemistry.
- water technology -
- Pharmacy / Medicine -.
Electron lens for electrophoresis tomography for examining aqueous liquids and imaging their energy fields and structures.

Are known, for example

• * Paper electrophoresis and electroendosmosis / electroosmosis.
• * It is also known that there is a catalysis on the cathode Hydrogen, separate gaseous oxygen at the anode.
• * It is also known that oxygen, especially in connection with Hydrogen (including air), life energy carrier or mediator ler is where oxygen is the energetic potential and water substance that has catalyst properties.
• * It is known how the water molecule is composed and is fine magnetic dipolar, as well as at a certain temperature partially formed clusters that act as information carriers - comparable to a magnetic tape - apply.
• * The angle ratio of ideally 105 ° is known, in which the hydrogen atoms join the oxygen atom to form the H ₂ O molecule through strongly convex bonds (homeopolar forces).
• * Known in the narrow circles of science are considered abnormal designated properties of water, compared to otherwise applicable physical laws and rules; This includes Possibilities of magnetizing this medium and magneti c or electromagnetic influences of its content fabrics.  
• - The latent crystal structure of water is not known in the understanding of practical evidence, although theoretically-hypothetically it is known that there must be one.
  The figure of this latent water "crystal"("crystalline energy potential") is assumed to be the "core" in the form of an equilateral triangle, at the corner points of which three atoms are arranged.
• - An analogous spatial shape is not known and has not yet been developed theoretically.
  However, reference is made to the fact that the hydrogen chains were formed molecularly by additions to the sides of the aforementioned triangle.
• - There is also no evidence of technology from which a technical process would allow something to be seen do that beyond nuclear physics and behind quantum theory regions: for example the sources of the Life, the life energy.
• * According to Dr. Rudolf Steiner (* Kraljevic ′, Croatia, February 27, 1861,! Dornach b. Basel March 30, 1925) and his students, such as Dr. Hauschka, Dr. Wegemann et al. - have known so-called "risers" and crystallization processes for decades, which illustrate the potencies of substances dissolved in water and their energy potential, from which the principles of order of the living can be deduced.
  The thoughts leading to these methods of investigation come from the humanities. It captures the possibilities of natural science less analytically than looking at it as a whole.
  It is therefore at best associated with benevolently accepted areas of frontier science, but not those of physics or chemistry, biology - in general.
• - Furthermore, no methods and are known Process, especially in water, life potential, i.e. life-promoting changing integrations of certain (determinable!) energies to be able to determine.
• * Again, it is known that oxygen is essential for transfer of life energy in connection with the catalyst (cf. how before) and the pulsator is light. The indicator is called coals known substance, the implicator: nitrogen - etc.

*) "sbz" - sanitary, heating and air conditioning technology Official specialist body of state associations and the Central verbandes SHK, Genter Verlag Stuttgart, Issue 11, June 1993. Pages 21, EXPLANATION, Pages 84 to 87 ARTICLE: Crystallization. . .

It is known, as mentioned, that on a cathode (+) hydrogen, Separate catalytic gaseous oxygen from an anode (-). Known, but controversial, is that oxygen binding through coal acid in water e.g. B. Calcium (bi) carbonate implies, on the other hand by emitting carbon dioxide or carbonic acid by physical Water treatment is successful and yet irreversible in water pipes exist.

The problem was outlined, for example, in the speech cited below on physical water treatment and is, among other things, in one kind. *) which is also described in the trade journal "sbz" *) appeared in June 1, 1993:

"In a questioning session of the German Bundestag on March 3, 1993 ... State Secretary Dr. Bergmann-Pohl declared on behalf of the federal government:
"All studies carried out so far have shown that devices that work with magnetic or electromagnetic fields are ineffective under reproducible laboratory tests."

Previously known and usual methods of investigation in good laboratories torias are not able to provide reasons for calcite or To discover magnesite converters because they are the result of that latent semi-crystalline medium water in a corresponding range of temperatures can not yet define which is in the Express the term "cluster".

Therefore, "reproducible laboratory tests" are a priori inconclusive if you want to differentiate: more or less magneti ce / electromagnetic influence of water - yes or no, and: does the energy potential change? Yes or no ? Has any - or certain - magnetic influence changing Effect - and so on.

- Technologies to objectify energy boots are lacking watery liquids in water engineering, as well as in Pharmacy and medicine, biology!

Reproducible laboratory tests of an aqueous liquid, specifically for questions of an investigation whether any magneti influences have any effect, one is absolutely necessary new investigation method, technology!

The task arises from this.

The task is a simple technology for objecti crossing of energy fields and structures of aqueous liquids for investigation and documentation found on other known procedures and findings, such as wise:

Luminances of electrolytes,
Redox reactions in / on a line carrier,
Electrophoresis (electrokinetic phenomena),
Electron optics, electron lens,
Tomography and photography.

solution

The task is solved according to patent claims 1. and 2. for example, according to the innovation according to the invention a good of the aqueous liquid to be examined moistened universal indicator paper as cable carrier split according to claim 2.2. on the axis of Elek brought down by excitation in the electrolyte luminis draw lines, redox reactions, in colors and shapes, which, among other things, draws conclusions about emissions from kapil larem suction effect according to claim 2.3. the too under seeking liquid - from oxygen (anode) and water Allow substance (cathode).

Repeated attempts under reproducible conditions gave comparable results, from which controls through parallel laboratory tests of the same liquid, for example Oxygenium (oxygen) test according to Winkler der E. MERCK, 11 107 - u. a. - Let parameters develop.

When a line carrier is constructed according to the invention according to patent claims 1. with 2., especially 2.3., a lot number of hydrogen bonds capillary one on top of the other, caused by the electrodes are excited, radial and spectral reagents because of and filtering layers of energy potential in Fel and make structures more visible in color and document.

According to the invention, this makes it possible, two - dimensional in one, three - dimensional in several, of separable layers of the line carrier, aqueous Liquids on their energy potentials - delayed - to be examined and recorded, for example as Slides, to document.  

Advantages and industrial applicability of the invention Innovation according to patent claims 1. with 2

The economic benefit from using the invention Procedure is for the first time Energy potential of a liquid, especially one below seeking water, visible, comparable and documentable close; Secondly, To get crystal structures recorded immediately that show new paths in crystallography, because in the simplest (!) way with millions of magnifications made visible, theories confirmed and new ones accordingly develop, according to which markets are accessible:

The main advantage over known ones is that that the innovation is a task-oriented improvement, as above thinks, represents, so far impossible in a comparably simple way Lich appearing energy potentials of aqueous liquids to be able to provide what generally recognized techniques and knowledge applied, developed, led to new progress.

In addition to inventing science and research areas opening up according to the invention, which is not only lets develop a lot in water technology, but also on the Areas: medicine, biology, botany, crystallogy, offers economic benefits in the fields of apparatus engineering, laboratory tech nik and laboratory chemistry, trade.

The people developable from the innovation according to the invention prospects are not yet foreseeable.  

Further refinements of the innovation according to the invention can be, for example:
Manufacture of a handy test device;
Additional (attachment) lens in front of a lens for microscopic, photographic, projective or electro-magnetic extensions of the procedure according to the invention according to patent claims 1 and 2, following examination and documentation procedures.

A further embodiment of the invention is certainly possible on the medical and biological, biochemical and biophysical level, for example from a corresponding further development according to claim 1, especially 2.3 .:
In a biological line carrier, naturally or artificially given capillary thread lens could make energy fields and structures in a tissue fluid representable.

There is also a small experiment kit for To bring young people to the market, thereby increasing interest in Water quality (environment!) Is promoted as well as playfully -experimental learning and research in the fields of physics and chemistry.

Observing in what vivid colors and contours - or even in flowing transitions, down to the most delicate tones - yourself develop and influence changes in the medium (e.g. with minimal additions of sugar or salt, vinegar or lemons juice - etc.) would become a didactic one according to the methodical structure Given means that are of educational value could.

Embodiments

The embodiment 1 shows the basic structure, but for example with 2 differently designed electrodes; simply layered cable carrier, composed according to the invention in a favorable dimensional ratio (millimeters). It is shown in FIGS. 1 and 2.

However, electrodes should be used in an experimental setup can be used with the same adsorption angles. A slightly more complicated example is chosen as an example; for example, the electrodes can be the same. But then other proportions also change. The same applies to the excitation current. In the example 4.5 V is sufficient.

On 2, preferably in 6 mm wide, tongue-shaped flat and directed towards each other, for example, in a semicircular arc ending electrodes, the contact surface on the cathode (+) e.g. B. 10 mm that the anode (-) z. B. can be 22 mm long Line carrier according to the invention, for example.

In the example according to the invention, the line carrier is axially 44 mm long finely cut and is, for example, according to the invention to the edge of the cable carrier by 5 x 5 mm, flat Material attachments reinforced.

For example, the line carrier can be simple or layered Universal indicator paper (pH 1-10) in the format b 22 (24) mm, 1 56 mm can be used.

This cable carrier selected, for example, becomes compliant well moistened by the aqueous liquid to be examined, placed on the electrodes quickly and exactly in the center and lightly on pressed. The exemplary contact surfaces of the Electrodes each by 6 mm (5 mm edge reinforcement + 1 mm inwards) to be towered over by the ends of the lead frame to form the formation the adsorption droplet important for this innovation according to the invention fen at an angle ("adsorption angle") between the respective To ensure electrodes outside under the edge of the lead frame  and, according to the invention, uniform suction points on the capillary Axial section of the cable carrier.

All handles are always using dry tweezers execute!

After a few seconds in the observation field (top view first reactions to each other of the facing electrode ends visible, which is like being aggressive mostly primarily from the anode (in the example chosen electrolytic conductor carrier) similar to a crescent moon in going out dark blue. Luminiscences develop in Colors and shapes that are particularly evident when examined Side effects provide information when there is hydrogen and "divide apart" by emitting oxygen.

You can dry the cable carrier on the electrodes until it dries Leave it on or take it off a little damp. However, must the adsorption drops are completely sucked off and the pipe Carrier is no longer allowed through a damp layer on an electrode be liable!

Any droplets spoil the sample immediately!

If you take the manager for further investigation or for Documentation purposes (dry tweezers!) Is recommended this first a few minutes with the pad side on absorbent to transfer smooth paper (blotting paper), then vice versa lay and let dry.

Important in all attempts after the innovation according to the invention is the shielding of direct light, in particular Sunlight! The wet lei is during a test run As if magnetically polarized on light: the experiment is in a dark room, in which something through a crack Incident daylight or electric light, this "warps" Reagent image in the direction of the light. Otherwise it is diffuse  Light does not interfere with the experiment as described; Drafts should however, also be avoided.

The sensitivity to light of dry samples can - after the first Months of numerous experiments - best by "Anti-Newton- Glass "can be tempered.

So have the Pro obtained by the inventive method like framed slides, receive significantly more colors than unprotected.

These comments on exemplary embodiments include Explanations added, because they are the evaluation process immediately closer than a further configuration of the Er finding.

In the second embodiment (example 2) this must be possible can be built up.  

Example 2

Basic structure like the first example.

Instead of a simple cable carrier, a combination of several layers is created used.

The capillary cuts must be arranged exactly one above the other and the layers are the same due to the liquid to be examined moderately saturated, remain adhesively bonded.

The tomographic effect is the same as that of the spectral in effect electron lens in that, depending on the, in wel width and height the stratification in relation to all other Ren factors is arranged, spatial energy potential and structure Mark out the fields in fields and lines continuously, but also filter.

For example, in the 26th layer, the filtered, relative highly enlarged image of a point of the lowest, first (on layer), mirrored and reflected in others, more clearly show than in underlying.

In this way, structures appear surrounded by an energy field structures that reveal crystalline radiation angles.

After layer-by-layer removal of the slightly damp parts of the line Carriers (dry tweezers!) can examine all tomographies be, the spatial training of the energy potential demonstrate.

For the interpretation of what is emerging, it is recommended a division into axes like fields

I = to the end of the cathode tongue - inwards -
III = to the end of the anode tongue - inwards - and
II = in between.

Which result from these rough divisions by refinement the parameter of reproducible results cannot be executed are made the subject of this patent application.  

The figures ( FIG. ) Show the basic structure according to patent claims (Claim) 1 with (m) 2 and (u) the exemplary embodiments:

Fig. 1: side view / section to 10
1 electrode (cathode)
2 electrode (anode)
for example flat tongue-shaped, with contact surfaces ( 5 or 6 ) and in the example of different lengths, or curvature ( 1 ) / angle ( 2 )
1 cathode, ideally curved according to "LANGMURSCHR's adsorption curve"
2 anode, angled at 30 ° after its support surface ( 6 ) - alternative to 1
3 wire carriers
4 partial edge reinforcements
5 contact surface on the cathode
6 contact surface on the anode
7 cantilevered portion of the line carrier, reactive zone of the innovation according to the invention: (thread) electron lens
8 Suction point between the lead carrier and electrodes, especially between the capillary axial section ( 10 ) and the adsorption drop / angle (dotted line)
9 adsorption drops / or. Angle (shown in dotted lines)
10 Capillary axial section in the cable carrier ( 3 ).

For this purpose, the invention is carried out as follows with reference to FIGS. 1 and 2, according to the aforementioned sections and the claims:

In Fig. 1 u. 2 are acc. Claim 1. m. 2. the technical devices shown in 2 views, for their handling on pages 10 to 13 with regard to FIGS . 2. is executed, since the part of the invention, the innovation according to the main in accordance with claim. 1. m. 2., an "aqueous liquid to be examined"; is not graphically representable, as is the current belonging to the functionality, which must be assumed to be given or given, since electrodes and "excitation" are assumed.

Fig. U 1. 2 represent in the first side view (section in Fig. 1 between 8 to 8 , in Fig. 2 10 ), in the second plan view as an example of the ner according to the invention. 1. m. 2nd composite innovation.

It is gem. Claim 1 m. 2 formed in that at least one cathode (FIGS . 1 and 2, 1) and an anode ( FIGS. 1 and 2, 2 ) are designed in such a way (Claim 1. m. 2. 1.), stimulating ( Claim 1.) on (Claim 1. m. 2.1.) A (s) (Claim 1. m. 2. / Fig. 1 and 2) brought on / to this (Claim 1. m. 2. / Fig. 1 and 2) .) Conductor carrier (Claim 1. m. 2. / Fig. 1 and 2, 3 ) with the aid of electricity (Claim 1.) and use of a to be used according to the invention by means of the innovation (Claim 1. m. 2.) Medium (aqueous liquid speed) works technically.

The conductor carrier is in Fig. 1 u. 2 shown in two views as an example and according to the invention according to claim. 1. m. 2. procured and equipped like this:

As before in example 1 (pages 10-12), with example 2 (Page 13), dimensions are not arbitrary; the techni cal parts, from which the innovation according to the invention. Claim 1. m. 2. is composed of electrodes as carriers, and wire carriers ger as a bridging element (electrolyte), in which there is an aqueous Luminous liquid, redox-reactive, etc. can search if there is an electron band in an electrolytic Carrier builds up, as according to the invention in the electron Lens for electrophoresis tomography.

For this purpose, the innovation according to the invention. Claim and becomes Elek called tron lens because electroporous processes (electroendosmosis) according to the laws of electron optics - electron lens radio tion - become more visible.

What is new here is above all that a capillary is not under pressure through osmotic processes in their given environment, the lei tion carrier, is favored in that it ent radiation draws as they are just developing; and the Capillary (capillary axial section) pulls out what is to be examined (!) Energy medium (medium) from limited reserve potential (adsor drops) independently.

From this "part", which is presented in abstract form, a self arises even sustained and substantial dining thread-like liquid lens, therefore so-called "thread lens" (Claim 1. m. 2., esp. 2. 3.).

So further show Fig. 1 u. 2 in the example two differ Lich after their, for example, flat-shaped contact surface from bending ( Fig. 1, 1 ) cathode, or angled ( Fig. 1, 2 ) anode (Claim 1. m. 2. 1.), which is at an angle (so-called "adsorption angle" 9 ) on the outside of the electrodes ( Fig. 1, 9 / Claim 1. m. 2.) let an adsorption drop ( Fig. 1, 9 ) adhere (Claim 1. m. 2 .), which by point / area ( Fig. 1 and 2, 8 ) first into the capillary drawing axial section ( Fig. 2, 10 ) over the electrodes ( Fig. 1 and 2, 1 and 2 ) into the bridging field ( Cable carrier, Fig. 1 and 2, 7 ), expanding in the (middle) cable carrier ( Fig. 1 and 2, 3 ) has an exhausting effect.

In order to give the line carrier (Claim 1. m. 2.), if it has, for example, a capillary axial section, more strength (crosswise stiffening) at its weakest material point, according to the invention (Claim 1. m. 2.), as in Fig. 1 u. 2, 4 shown, a thickening can be attached as a stabilizer.

Another design example (see Example 2, page 13) is not shown in drawings because it is an extension of the executed basic principle, which is in Claim. 1. m. 2., esp. 2. 2. is included.

The vertical structure of several layers over a capillary "Thread lens" means their duplication - and is inventive provided for, but also includes specifications of others Design features that one on this patent application subject to building additional registration.

Claims (4)

1. Electron lens for electrophoresis tomography for examining aqueous liquids and colored images of their energy fields and structures on lead carriers, composed of lead carriers on / on electrodes, liquid, characterized in that electrolyte strips moistened by the aqueous liquid to be examined - or layered, bundled - stimulated as a lead carrier placed on / on electrodes, which creates luminances in colors and shapes that show visible processes in an enlarged manner, from which the composition and the energy potential of the liquid to be examined or corresponding structures can be deduced. 2.1. Electron lens according to claim 1., characterized, that the electrodes can be movable Have contact or contact surfaces, which have suitable edge shapes, to get between these and the leaders at certain points To let adsorption drops adhere, the material of the cable carrier, especially through its design, be sucked off. 2.2. Electron lens according to claim 1. with 2.1., characterized, that the leader from uniform or different Materials, fabrics and layers in thickness, density and shapes can exist, as well as embossing, notches, creases, folds or cuts, especially as a thread-like gutter or cut in the axis of the electrodes, which creates hydrogen bonds as a thread lens (s) in the capillary let effect intensify. 2.3. Electron lens according to claim 1. with 2.1. and 2.2., characterized, that in a cable carrier due to its nature and special design form certain capillaries whose maintaining feeding them even from adsorption drops pull and because of their environment a thread-like lens, a thread lens.