DE3618412A1 - METHOD AND DEVICE FOR TREATING OBJECTS TO GENERATE CHEMICAL OR PHYSICAL CHANGES OF GASES, LIQUIDS, PASTS OR SOLIDS - Google Patents

Abstract

Process and device for treating objects by using electrical high-voltage discharges in a gaseous medium, in particular oxygen. It is the task of the invention to provide a technically simple method of producing, for example, ozone and/or other chemical or physical changes to gases, liquids, pastes or solids - including also ionized gases - in an open discharge path, which is safe to handle and can be used, even on the bodies of humans and animals, for medical and cosmetic purposes, as well as for destroying bacteria, viruses and similar. In addition, the invention makes it possible to bring about chemical reactions initiated by oriented discharge, on and in surfaces, which can be used, for example, for forgery-proof identification. The invention consists in effecting high-frequency discharges in rapid succession with a high-frequency electric a.c. or pulsed current, in allowing the spark discharges to move in only one direction and in accelerating, during the spark discharge, the gas and/or gas components or other particles, preferably ions, produced during spark discharge, in accordance with the direction of the electric field and moving these on or over the surface of the target object.

Description

The invention relates to a method and a device for the treatment of objects using elec trical high voltage discharges in a gaseous Medium, especially oxygen.

The purpose of the invention is to treat objects under Generation of chemical or physical changes in Solids, liquids, pastes or gases, in particular Ozone, using high-frequency currents at high Tensions in a gaseous medium. This medium ent holds oxygen, for example, which is converted into ozone becomes. Basically, this procedure and this before direction also for chemical and / or physical conversion conversion of others in different aggregate states materials are used. The following is each but exemplary in particular on the generation of ozone received.  

The production of ozone is used today for medical purposes as well as predominantly for technical and cosmetic purposes through so-called "silent discharges" in one with air or acid fabric-filled room. This room is mostly as one Chamber formed in which high-voltage discharge tubes are accommodated. Air or oxygen is left on these swipe past. The flow of this gas is then Ver forwarded to the place of application. In this way, part of the generated ozone already lost because of the decay time for Ozone is quite short and since the flow rate of the Gases may only be low, so in the discharge chamber sufficient ozone is formed in the gas.

The state of the art in medical apparatus construction ver To this day, the so-called. "silent discharge" according to Siemens. Medical oxygen is led past discharge tubes and via a line system supplied to the application site. These tubes work with AC voltages from 3000 to 12 000 volts. This tension Discharges are life-threatening for humans and animals must be kept carefully separate from these.

In medicine, the importance of introducing gas is increasing particles, e.g. B. ozone or electrolytically processed pharmaceuticals, more and more recently. The effect of ozone is medium meanwhile in the medical as well as technical sector uncontested. The so-called ozone therapy has thera therapeutic treatments. The spectrum of Applications range from ozone treatment to blood exchange through fumigation of wounds to psychological treatment with ozone. The findings of germ killing play as well of medically positive cell stimulations play a role.

This is why ozone is such an important gas for medicine, since it is in human immediately after its intended use  and animal harmless connections disintegrates. The decay time of ozone is very short and begins immediately after it Generation. With every inch of distance between inserts The place and place of production take the share of the gas required mixed off.

A great difficulty lies in the use of ozone in the problem of exact dosing. The concentration of the The ozone content is determined by the device after the brushing of the oxygen along, rarely across, to the direction of flow once determined and remains as a fixed setting without return view of tube changes or environmental influences on the device set. The dosage of the ozone used is however one of the most important factors in ozone treatment.

In addition to the possibility of generating ozone using the There are also a number of "silent discharges" according to Siemens Ways of using electrical energy in other ways, esp especially over spark gaps. Here too ozone is formed, but in most cases at the same time such a high proportion of by-products that the open elec trical discharge is not suitable for ozone production.

Also known is the open discharge from in a Tesla Transformer in different couplings - e.g. B. galvanic - generated high-frequency alternating current. The primary coil of the Tesla transformers are those of high-frequency change current-flowing coil of a damped oscillation circuit ses. The secondary coil forms together with the one to be charged Capacitor a resonant circuit whose frequency matches that of the Generator matches. Often serves as a power source Resonance transformer. The vibration frequency at the Ent charge distance lies z. B. in the order of 100 kHz. At  such frequencies are those over the discharge path flowing currents low. Therefore the use of the a Tesla transformer fed open discharge path not for the generation of ozone and ionized gases in the technology received.

The invention avoids the disadvantages shown. It is the object of the invention, a technically simple way the generation of e.g. B. ozone and / or other chemical or physical changes of gases, liquids, pastes or solids - also ionized gases - in an open To create discharge route that can be handled safely and can be measured even on the human and animal body medical and cosmetic purposes and for destruction of bacteria, viruses, bacteria and the like is applicable.

In addition, the possibility exists with the help of this invention chemical discharge initiated by directional discharge To cause reactions on and in surfaces that z. B. for counterfeit-proof labeling can serve.

The invention is that one briefly one another following high frequency spark discharges with a high frequency electrical alternating or pulse current, that the spark discharges run only in one direction allows that products created during spark discharge and / or product parts, preferably ions, in the Rich acceleration of the electric field and on or over the surface of the target moves out.

It is preferred to use these spark discharges a spark from a Tesla transformer route. Since the sparks are only in one direction can run surfaces of Ob to be treated  projects with the generated ozone or other gases or Treat steaming immediately. Despite the high tensions but the process is harmless to humans, because the flowing currents are very low and the frequency very is high.

This procedure enables exact dosing of the feed ten ozone or gas produced by the fact that after the switching on of the high-frequency alternating or pulse current mes the individual discharges z. B. counts electronically and after a certain number of times the power supply to the discharge route switches off.

The process is experienced by an adjustable and poleable on DC voltage to be attached to the object is an additional we and target influence, being the DC power source can also be external.

The present invention realizes all from practice upcoming demands:

With the help of suitable electronic circuits, e.g. B. the of a Tesla transformer, becomes harmless high voltage generated between 10,000 and about 50,000 volts. About suitable electrical or electronic circuits, e.g. B. High voltage directional spark discharge is reached. In the Space of spark discharge (flat or spikes) becomes one suitable gas, e.g. B. oxygen brought. The volume will coordinated with the number of discharges. An oxygen Oversupply is not critical since the amount of the emerging Ozone depends on the number of discharges that exactly depended true and can be counted. The distribution of spark charges regulates themselves because the discharges are always looking for new ways. Depending on the application, there are peak discharges or choose area discharges.  

So far, ozone dosing has been practically without the need to consider the decay time acts. The special effect lies in the Kombina tion of ozone formation and the introduction of gas particles Aid directed Tesla discharge. The directed discharge tion accelerates the gas particles towards a target jektes. The accelerated gas particles, mainly ions, accumulate in the surface area of the target object and / or penetrate in the surface area due to the interaction kung from parts of kinetic energy and / or diffusion a. The effect of the penetration flow itself is determined by the Design of the device and possibly another one accordingly applied DC voltage influenced.

The device according to the invention for treating objects is characterized in that the device for generating chemical or physical changes in gases, Liquids, pastes or solids from one made of induc activity and capacity of a high-frequency resonant circuit, a spark gap assigned to it and from one into the Inductance of electrical energy via a second inductance feeding supply controlled by a switch circle exists that the spark gap current only in one direction device flowing switching elements are assigned and that the one electrode of the spark gap on the object to be treated ject or as potential of the object, the other sparking Electrode is arranged directly next to the object.

This device thus essentially consists of an in Voltage and / or current adjustable Tesla transformer and from electrical or electronic circuits to Er Generation of special directional voltage or current pulses various characteristics with or without DC voltage proportion of. The DC voltage component can also be increased  Electrodes on the object by an external voltage source or Circuit can be built. The electrodes can the spark gap and the direct current source according to the Object specially trained and in the immediate vicinity of the Object can be arranged.

The material of the electrode (carrier) can be of various types Materials exist depending on the application, e.g. B. gold, silver, Platinum, or other conductive or non-conductive Fabrics, e.g. B. Pharmaceuticals u. Ä.

Likewise, the electrode can be designed such that in Interior of the casing is also a solid, liquid Ges or gaseous medium is located, for. B. Argon.

The electrode can be designed so that it is in a Mechanical or mechanical pencil-like holder sits and after Can be extended, extended and pushed at will can.

Depending on the desired impact on an object and depending According to the object to be treated, it is useful if the Sparking and / or receiving electrode in the form of a Lace, a grid, a braid, a ring or a preferably earthed Be to be attached to the object contact electrode is formed.

For the treatment of very small objects, such as. B. for the medical or cosmetic treatment of main points, can be an electrode structure in which the sparks giving electrode a tube carrying oxygen is preferably centrally arranged tip electrode. Also In this version, a print or turn is recommended pencil-like electrode design.  

The spark-absorbing electrode can be human Be body, at some point, but not should be too far from the area to be treated te, a touch electrode is applied. However, this is not absolutely necessary, as the counter electrode too the whole body can be with its potential.

An advantageous electrode design for a flat Treatment where the electrode can be moved, be is that the electrode is made of several in parallel arranged from a dielectric material with their ends emerging or enclosed wires or rod-shaped Conductors exist and that in the dielectric material in parallel channels leading to the electrodes are provided.

For other treatment purposes, it can be advantageous if the electrode consists of a grid or wire mesh, which on the side facing away from the counter electrode a dielectric material, preferably a deformed one ed material such. B. supported a pillow or cushion is. With such a device that is like a pillow skin fungi can be quickly and easily destroy.

In order to have a suitable width of the spark gap, it is advantageous if the electrode is on the counter electrode facing side of an air permeable object, preferably a textile, a perforated, preferred as soft and / or elastic material is covered.

For easy handling during treatment it can be useful if the air-permeable object the side facing away from the electrode is preferably a Touch electrode trained electrode carries.  

It is also advantageous if the supporting dielek tric material channels for the passage of Has oxygen.

It can be used for technical or medical applications be moderate if an electrode at least partially in one wise surrounding dielectric material is arranged which under the influence of electrical discharges in the gas migen state, the dielectric material is a solid that is brought into the gaseous state, Is able to exert healing effects. The same applies to the design of the electrode itself as electrically conductive or non-conductive solid, from or via which the discharge Take solid, gas or liquid particles with you and transport according to the desired process.

If you want liquids in the influence of electrical discharge bring them around by the electrical charges in to bring or close the vapor or gaseous state ionize, it is useful if the electrode has a drop dispenser or atomizer.

This method also allows for special applications the procedural treatment of on the counter electrode applied solid, pasty or liquid substances.

The essence of the invention is based on in the Drawing schematically illustrated embodiments explained in more detail. It shows

Fig. 1 is a Tesla transformer is switched with spark route for the generation of ozone,

Fig. 2 is an electrode arrangement for the treatment of skin points, at the same time can be applied with direct voltage electrode,

Fig. 3 is a Elktrode for treatment with flowing oxygen / ozone mixture,

Fig. 4 in front view,

Fig. 5 is a side view of a device for area treatment,

Fig. 6 is a applied to a foil electrode,

Fig. 7 in front view,

Fig. 8 in side view a treatment pad,

Fig. 9 in front view,

Fig. 10 in side view a device for area treatment, in which the electrodes are completely surrounded by insulating material,

Fig. 11 in front view,

Fig. 12 in side view an embodiment of the device for area treatment, wherein the course of passing through the radio channels oxygen,

Fig. 13 is a section through an electrode through which a paste-like mass is performed, the manure is decomposed in the Funkenentla,

Fig. 14 is an extensible from the handle electrode section,

Fig. 15 is an electrode having a feeding possibility of liquid into the spark gap,

Fig. 16 is an isolated top electrode.

In the device of FIG. 1, a generator 1 is used to generate vibrations which are fed to a resonant circuit which consists of a capacitor 2 and an inductor in the form of the coil 3 . The generator 1 can consist of a low-frequency transformer 4 , which is preceded by a choke 5 . The coil 3 serves as the primary winding of the Tesla transformer, to whose secondary winding 6 the discharge or spark gap 7 is connected. High-voltage diodes 9 are installed in the lines 8 leading to the spark gap 7 . This ensures that the spark discharge is always only in one direction. In the spark gap 7 , the electrode 10 is the spark-emitting electrode, the electrode 11 is the spark-receiving electrode. In the resonant circuit, a switch 12 is installed, with which the system can be put out of operation by closing the switch in operation, by opening the switch.

This switch 12 is expediently designed as an electronic switch. It is switched on via the button 13 and switched off again via the circuit 14 , which switches off the switch-off process after a certain set number of oscillations due to the oscillations counted with the oscillation detector 16 in the oscillation counter 15 .

In the exemplary embodiment in FIG. 2, a skin point on a human hand is to be treated with the aid of the sparking electrode 10 . For this purpose, a touch electrode 11 is placed on the wrist. To further influence the effect, the electrodes of an external direct current power source are applied in accordance with the desired polarity.

If the oxygen in the air that surrounds the object is not sufficient for ozone formation, the electrode arrangement of FIG. 3 is used. B. sheathed electrode 10 inside half of a tube 18 made of an insulator in which chem electrode 10 with spacers 19 at a distance keep ge. Oxygen is passed through the tube and is led out of the opening 20 , from which the tip of the electrode 10 looks out.

In the embodiment of FIGS. 4 and 5, a series of parallel wires in or on a dielectric material are arranged as an electrode, which are connected to each other by a wire 23 which is connected to the one end of the secondary winding 6 . A series of channels 24 extend through the dielectric material, through which oxygen is guided into the intermediate space between the wires 21 serving as electrodes.

In the exemplary embodiment in FIG. 6, an electrode 10 in the form of a loop or dash line is placed on a film 25 . In special applications, this arrangement can also be spiral.

In the exemplary embodiment of FIGS . 7 and 8, a wire mesh 27 is applied as a spark-emitting electrode to a foam pad 26 penetrated by channels 24 and is covered by a perforated cover 28 made of insulating material. At the edge, the foam pad 26 carries a touch electrode 29 , which rests on the human skin, even if the perforated cover 28 rests on the human skin. The foam pad 26 is attached to the front open end of a chamber 30 into which oxygen is continuously supplied. This electrode device is used for the cosmetic treatment of human skin, it destroys bacteria, viruses, but also fungi and others.

In the embodiment of FIG. 9, the tips of the electrodes are completely surrounded by the insulating material 34 , in which the electrodes 21 and the channels 24 are embedded. The discharges take place here through the insulating material 34 .

In the embodiment of FIGS. 11 and 12, the electrodes are hook-shaped at their tips 35 21, wherein the hook th at intermediate electrodes 21 to both sides, rich. These hooks can be completely surrounded by the insulating material 34th The sparking occurs here in the ends of the channels 24 , so that strong ozone formation occurs immediately at the end of the channels 24 and the sparks run through the channels 24 onto the external object.

The electrode 10 of FIG. 13 is net in a handle 36 , which consists of insulating material. The electrode 10 is hollow. The cavity widens at the end facing away from the tip 33 to a chamber 36 which is filled with a pasty mass which can be expressed by the piston 37 . This pasty mass is pressed out by the thumb pressure on the displaceable piston 37 from the tip 33 , where this pasty mass comes under the influence of the sparks and is physically or chemically changed by this and is carried on the spark-receiving object.

In the exemplary embodiment in FIG. 14, a solid electrode 40 is displaceably arranged in the handle 36 in the central channel 39 . It receives 42 current from the Tesla transformer through the supply cable 42 . The sliding mechanism 41 is pushed by thumb pressure on the protruding pin 43 of the sliding mechanism to the outside. The solid of the solid electrode 40 is gradually broken down under the influence of the sparks generated at the tip, and the broken down particles are guided to the spark receiving object.

In the embodiment of FIG. 15, a hollow electrode 43 is accommodated in the handle 36 made of insulating material, which electrode is expanded at its end to the chamber 44 , in which a liquid is located. The chamber 44 is closed by the cover 45 . This is expediently made of a soft material such as rubber or the like and allows it to be deformed by pressure. By pressing on this cover 45 , liquid is brought out of the chamber 44 through the hollow electrode 43 formed in the form of a tube. This liquid is atomized, ionized or otherwise chemically or physically treated under the influence of the spark formation at the tip of the electrode 43 and carried by the sparks onto the spark-receiving object.

In the exemplary embodiment in FIG. 16, the handle 36 completely surrounds the electrode 10 . Here the discharge takes place through the tip of the handle 36 .

• List of reference numbers
  1 generator
  2 capacitor
  3 coil
  4 low frequency transformer
  5 choke
  6 secondary winding
  7 spark gap
  8 lines
  9 Electronic switching elements for controlling the current shape and direction
  10 sparking electrodes
  11 spark-receiving electrodes
  12 switches
  13 buttons
  14 circuit
  15 vibration counters
  16 vibration detector
  17 touch electrode
  18 pipe
  19 spacers
  20 opening
  21 wire
  22 dielectric material
  23 wire
  24 channel
  25 slide
  26 foam pads
  27 wire mesh
  28 perforated cover
  29 touch electrode
  30 chamber
  31 electrode
  32 electrode
  33 peaks
  34 insulating material
  35 tips
  36 handle
  37 pistons
  38 chamber
  39 channel
  40 solid electrode
  41 sliding mechanism
  42 supply cables
  43 hollow electrode
  44 chamber
  45 lids

Claims (21)

1. A method for treating objects using electrical high-voltage discharges in a gaseous medium, in particular oxygen, characterized in that
that short-term successive radio discharges of high frequency are carried out with a high-frequency electrical alternating or pulse current,
that the radio discharges are only allowed to run in one direction,
and that in the radio discharge gas and / or gas parts or other particles, preferably ions, be accelerated in accordance with the direction of the electric field and be moved onto or over the surface of the target object. 2. The method according to claim 1, characterized, that the current and / or Voltage characteristics of the discharges affected. 3. The method according to claim 1, characterized, that after switching on the high-frequency alternating or pulse current counts the individual discharges and after exceeding a certain number the power supply drove to the discharge line turns off. 4. The method according to claim 1, characterized, that the discharges over solid, liquid, pasty or  gaseous media on at least one electrode or the object to be treated takes its path. 5. The method according to claim 1, characterized, that at the same time further electrodes connected to an equal power source are connected to or next to the destination object to be attached. 6. Device for treating objects with electrical discharges and / or with particles generated in electrical discharges, consisting of a device for generating discharges in a gaseous medium, in particular containing oxygen, and electrodes, characterized in that
that the device for generating the discharges from an inductance ( 3 ) and capacitance ( 2 ) constructed high-frequency resonant circuit, a discharge or spark gap associated therewith ( 7 ) and from an inductance ( 6 ) electrical energy via a second inductivity ( 3 ) feeding, from a switch ( 12 ) control th supply circuit is that the discharge or spark gap ( 7 ) current flow in one direction only de and / or the characteristic influencing Schaltelemen te ( 9 ) are assigned ,
and that the one electrode ( 11 ) of the spark gap ( 7 ) on the object to be treated, the other sparking electrode ( 10 ) is arranged directly next to the object. 7. The device according to claim 6, characterized in that the spark receiving electrode ( 11 ) is designed in the form of a tip, a grid, a braid, a ring or a to be attached to the object, preferably grounded Be contact electrode. 8. The device according to claim 6, characterized, that the sparking electrode is one in a sour fabric-carrying pipe preferably arranged centrally Tip electrode is. 9. The device according to claim 6, characterized, that the electrode of several arranged in parallel, in or of a dielectric material with its ends emerging wires or rod-shaped conductors and that in the dielectric material parallel to the elec troden gas and / or liquid leading channels are seen. 10. The device according to claim 6, characterized, that the electrode from a grid or wire mesh which exists on the side facing away from the counter electrode Side by a dielectric material, preferably a deformable, such as. B. a pillow or cushion, is supported. 11. The device according to claim 6 or 10, characterized, that the electrode on the counter electrode facing Side of an air permeable object, preferably as a textile, preferably a perforated soft and / or elastic material is covered. 12. The apparatus of claim 6 or 10, characterized in that the supporting dielectric material ( 34 ) channels ( 24 ) for the passage of gas or liquid speed. 13. The apparatus according to claim 11, characterized in that the air-permeable object ( 28 ) on the side facing away from the electrode ( 27 ) carries an electrode ( 29 ) which is preferably designed as a touch electrode. 14. The apparatus according to claim 6, characterized in that an electrode ( 10 ) in a completely or at least partially surrounding dielectric material is arranged, which preferably passes under the influence of electrical charges in the gaseous state. 15. The apparatus according to claim 6, characterized in that an electrode ( 10 ) itself consists of a conductive material which changes into the gaseous state under the influence of electrical discharges. 16. The apparatus according to claim 6, characterized in that an electrode ( 10 ) is arranged in a completely or at least partially surrounding dielectric material and the space between the electrode and the casing is filled with solid, liquid pasty or gaseous substances, which are influenced electrical discharges change into the gaseous state. 17. The apparatus according to claim 6, characterized in that an electrode ( 10 ) in a completely or at least partially surrounding dielectric material is arranged and solid, liquid or pasty substances are applied to this casing, which are influenced by electrical discharges in the gaseous state pass over. 18. The apparatus according to claim 6, characterized, that the electrode a drop dispenser or atomizer is arranged. 19. The apparatus according to claim 1, characterized in that only a single electrode ( 10 ) is seen for the treatment. 20. The apparatus according to claim 6, characterized, perforated channels run along the electrodes, give off the substances that are influenced by electrical Discharge into the gaseous state. 21. The apparatus according to claim 6, characterized in that the electrode ( 10 ) is designed so that it sits in a mechanical or mechanical pencil-like holder ( 36 ) and can be extended and extended depending on wear or need.