NL7811096A - Treatment of disease with negative ions - associated with air containing peroxide(s) prepd. by high-temperature cracking of hydrocarbon(s), e.g. for hard cholesterol elimination - Google Patents

Abstract

Treatment of live organisms with negative ions combined with treatment with an electrostatic field is effected by supplying air charged with negative ions to a subject in an electrostatic field created a plate at a negative potential to which are attached points directed towards the head of the subject, and a plate at a positive potential in contact with the body of the subject, the ionized air being charged with peroxides which were produced at a temp. >=2000 degrees C. Used for treatment of bodily diorders, e.g. elimination of hard cholesterol from the body. Presence of peroxides increase efficiency of treatment.

Description

> Λ r Ν.Ο. 26,948

Antoine Prioré, in Floirac, France

Method and device for treating living organisms with negative ions. ____

The invention relates to a method and device for treating living organisms (humans and animals) with negative ions.

It is known that the treatment with negative ions of the air, called anionotherapy, has beneficial effects. It is known that the ionized air that reaches the alveoli during inhalation exerts a specific influence on the blood, which is manifested at the end of a treatment of a certain duration by: 10 - increasing the hemoglobin and increasing the stabilization of the blood; - tolerating the deposition of red blood cells; - stimulating the growth of the organism; - stimulating the activity of cardio-vascular systems, nervous systems and neuro-psychic systems; - improvement of the general metabolism; - increasing the motor activity again; - tissue regeneration and wound closure; - the partial and total regression of diseases such as: human pulmonary tuberculosis; bronchial asthma; arrhythmic breathing; respiratory catarrh; neurosis; Endocrine disorders; neuralgia; allergy; skin disorders (eczema 781 1 0 96 * 2 'flu disorders; post-contagious polyarthrites; and swamp disorders.

This list is not exhaustive, but illustrates the "importance of the potential effects of negative ions on humans and animals.

The object of the invention is to improve the treatment with negative ions.

On the other hand, it is known to use an electrostatic field treatment as a remedy for various diseases such as paralysis, rheumatism, neuralgia, hysteria, etc.

According to the invention, these two treatment methods are combined, in which negative ion-charged air is generated by a being, which is subjected to an electrostatic field of a direction, which is generated between a plate to which a negative potential is connected and which is provided is of points pointed towards the creature's head, and a plate placed on a positive potential in contact with the creature's body. Unexpectedly, the electrostatic field of one direction very clearly accelerates and enhances the effects of the negative ion treatment. With this, for example, it has been successful to eliminate hard cholesterol artificially produced in a guinea pig. 25

According to a particular embodiment of the invention, the effectiveness of the treatment is further increased by adding peroxides to the ionized air, which are obtained, for example, by cracking hydrocarbons at a high temperature, in particular a mixture of turpentine resin and terpene.

The invention also has for its object to provide a device, consisting of an inhalation chamber which in the lower part is provided with a conductive floor which is connected to ground and in its upper part of a ceiling formed by a conductive plate 78 1 1 0 9 6 5 * from a large number of points, from a static electricity generator, the negative pole of which is connected to the ceiling and the positive pole to the ground, and from a negative ion generator with an input for pressurized air, a output connected to the inhalation chamber 5, a conductive grid having a number of points facing outwards and with a second static electricity generator whose negative pole is connected to said grid and the positive pole to ground. 10

According to an embodiment of the invention, the pressurized air supplied to the negative ion generator is provided with peroxides by means of an apparatus consisting of bubbling the air into a hydrocarbon or a mixture of liquid hydrocarbons and a means for supplying the air thus charged with vaporous hydrocarbons to a burner to act as a combustion sustaining agent for a stream of hydrogen, the combustion of which achieves an ambient temperature of more than 2000 ° C, thereby cracking these vapors are improved.

The invention will be explained in more detail below with reference to a drawing, in which:

Fig. 1 shows a diagram of a device according to the invention; fig. 2 represents a view of a bubbling device; Fig. 5 illustrates a section of the hydrogen burner; Fig. 4 shows the generator of negative ions in cross-section and on an enlarged scale; and fig. 5 shows a view according to the arrow V of fig. 4,

The device schematically shown in fig. 1 consists of a generator 1 of pressurized air, which is connected via a pipe 2 via 78 1 1 0 96 f 4 *% to a bubbler 3 »from which the air charged with vaporous hydrogen is transported via a pipe 4 to a cracking device 5 in which the combustion of a stream of hydrogen gas causes the partial cracking of these hydrocarbon vapors. · The gases leaving the burner and thus charged with peroxides are diluted in a new air stream and reach via a line 6 a device 7 which pushes it up via line 8 to the generator 9 of negative ions. The air from this generator 9 10 is conveyed through a conduit 10 to the inhalation chamber 11, slightly below Jet level of the creature's nose 12. Reference numeral 13 denotes a static electricity generator, the negative pole of which is through a conductor 14 is connected to the ceiling 11a of the chamber and the positive pole of which is grounded. The negative pole of another static electricity generator 15 is connected via a conductor 16 to the grid of the negative ion generator provided with points 9a, while its positive pole is connected to ground.

The pressurized air generator 1 consists of an electric motor 1a which drives a fan 1b which draws air from an orifice 1c through a filter 1d and pushes it up into the pipe 2. The filter 1d is of the type which ensures that the air which is introduced into the bubbler 3 via this conduit is practically without oil, without pressure and carbon. The device 3 comprises three bubble devices 3a, 3b and 3c, which are identical and shown in an enlarged scale in Fig. 2. The device shown in Fig. 2 comprises a glass balloon 17 which in the lower part is provided with a hollow vertical needle 18 provided with a number of holes. 18a of decreasing diameter from bottom to top, terminating in a connection 19 which communicates with an air inlet pipe 19a and a liquid pipe 19b controlled by a filling 78 1 1 0 9 6 * 5 * valve 19c, and its lower part is equipped with a drain valve 19d. Above the balloon 17, a sphere 20, also of glass, is arranged, into which a tube 17a from the balloon 17 penetrates. The bottom side of the balloon 20 is connected via a tube 20a to the liquid tube 19b and the top side of this bulb 20 is provided with an air discharge tube 20b. In the described embodiment, the balloon 17, the bulb 20 and the respective glass tubes are of the "Pyrex" quality (registered trademark).

As can be seen from Fig. 1, devices 5a, 10 3b, 3c are cascaded, the air inlet tube 19a of the first being connected to the conduit 2, the air inlet tube 19a of each of the other two being connected to the air outlet tube 20b of the preceding device, and wherein the exhaust air pipe 20b of the last device 3c is connected to the pipe 4. The filling valves 19c of the three devices are connected to a tube 21 from the bottom of a reservoir 22 filled with a mixture of liquid hydrocarbons 23, which mixture in the described embodiment is a mixture of turpentine resin and terpene.

During operation, the fill valves 19c are operated in such a way that in each of the three balloons 17 a constant level of the liquid 23 is maintained slightly above the end of the needle 18. The one of the guide 25.

Pressurized air 2 enters the hollow needle 18 of the first device 3a, flows out through the holes 18a and forms bubbles that bubble up through the liquid 23 and burst at the surface thereof, escaping air that releases vapors and droplets of hydrocarbon. 30 substances. This air exits the balloon through the tube 17a and hits the wall of the bulb 20 such that the liquid droplets separate and fall back through the tube 20a to the bottom of the balloon. The air containing hydrocarbon vapors escapes through tube 20b 35 and bubbles up in the second device, etc. The air leaving 78 1 1 0 96 6 4 "biO 4 the last device 3c is thus saturated with hydrocarbon vapors · The motor 1a of the fan 1b is a variable speed motor, the speed of which is controlled (by known means not shown), so that the air at 4 flows out under a suitable pressure. line 4 discharged at a flow rate of 9 m3 / h and under a pressure of 900 mm water column.

The cracking device 5 consists in principle of a burner 5a which is supplied with flammable air via the line 4 and with hydrogen which is contained in a bottle 5c via line 5b. The burner 5a, shown in an enlarged scale in Fig. 3, consists of a central conduit 24 connected to a conduit 4 and provided near its end with a calibrated ejection tube 24a 15 surrounded by an annular conduit 25, in which the pipe 5¾ opens and the output 25a of which is also calibrated. In the described embodiment, the opening 24b of the channel 24a has a diameter of 2 mm and the outlet 25a of the outer pipe 25 is provided with eight holes of 0.8 mm diameter. The burner 5a is housed in a chamber 5d which communicates with an inlet 5e for new air, which communicates with the atmosphere through a large opening, and the outlet of which is connected to the conduit 6. bottle 5c of hydrogen present is very pure (of a quality called "Medicinal" or "hydrogen N", supplied by "l'Air Liquide") and is reduced to the pressure of 1.5 bar in a regulator 5f · De combustion of hydrogen produces an ambient temperature of more than 2000 ° C, such that the air vapors of hydrocarbons from the installation 3 are subjected to a cracking process in the peroxide generator; this temperature is high enough to avoid the risk of ozone formation, which could adversely affect the creature 12.

78 1 1 0 9 6 * 7

The device 7 comprises a variable speed motor 7a, which drives a fan 7b, which draws combustion products from the pipe 6 which are greatly reduced in the air drawn in from the atmosphere through the chamber 5d and the air inlet 5e, and propels them up via the 5 lead 8 to the negative ion generator 9. The speed of the motor 7a (using known means not shown) is controlled in such a way that the gases from the negative ion generator 9 emitting at 10 are under an appropriate pressure for being 12. In the described embodiment, the properties of the fan 7b and of the air inlet 5e are such that the air is drawn in through this air inlet with a flow rate of 66 mVh, while the pressure of the gas in the pipe 10 is 15 mm water column; the flow 15 of the gases in the pipe 10 is thus 75 m / h. The mixture of air and combustion gas circulating in the pipe 6 is at a relatively high temperature (on the order of 200-250 ° C); the body and rotor of the fan 7b are made of materials resistant to this temperature. The line 8 Φ is sufficiently long that the gases flow into the negative ion generator 9 at a temperature lower than 100 ° C.

The negative ion generator 9 is a tube of insulating material in which the grid provided with points 9a is mounted. In the embodiment shown in Figs. 4 and 5, the glass tube "Pyrex" (registered trademark) is composed of two parts 26, 27 provided with flanges 26a, 27a and assembled by bolts 28. The 50 upstream part 26 has a diameter of about 15 cm, a length in the order of magnitude of 75 cm and is provided with an entrance housing 26b provided with a flange 26c serving for connection to the pipe 8. The downstream part 27 has a diameter equal to 35 that of the upstream part, a length of approximately 78 1 1 0 96 8 r spring JO cm and is provided with an outlet cone 27b which opens into a pipe piece 27c provided with a flange 27d which serves for connection to the pipe 10. The downstream part 27, in addition to its outer flange 27a, is additionally provided with an inner flange 27e to which is attached the 5-point grid 9a. It is made of two metal discs 29, 30 which are provided with large openings 31 arranged in circular arcs to allow the gas flow from 8 to pass to the outlet of the tube. The disc 29 closest to the exit 27c is also pierced through 228 holes 29a in which the metal tips 32 are provided with flat heads 32a. The two disks 29, 30 are abutted in such a way that the heads 32a of the tips between them are immovable and their openings 31 are in line with each other, and are fastened together using screws (not shown) which pass through the holes 29b of the plate 29 and can be screwed into the threaded corresponding holes of the disc 30. The grid thus formed with points 20 is attached to the flange 27e by means of bolts 33 · 2® electrical conductor 16 from the generator 15 of static electricity, penetrates the part 26 of the tube through a passage 34 · and is immovable attached to the disk 30. It is noted that the tube thus formed is easy to disassemble for cleaning, is non-flammable because of the non-flammable parts and can withstand temperatures of hundreds of degrees Celsius.

The inhalation chamber 11 has a height of 2 m, a length of 0.70 m and a depth of 1 m, all this in such a way that the standing creature or a creature sitting on a chair 35 can be accommodated therein. chamber are made of thick glass, are shockproof and heat resistant; because these walls are transparent, visual monitoring of the creature is possible during the treatment.

78 1 1 0 96 9

The walls must be continuous in order to sufficiently isolate the interior space from the outer space, absolute airtightness is not sought, since pressurizing the chamber by the ionized air entering into it is sufficient to prevent entry from the outside - 5 prevent air. An air outlet 36 ensures the removal of the gases returning to the non-ionized state; a pipe (not shown) ensures the flow of these gases to the outside space of the house containing the room * The vertical walls and ceiling of the room are electrically insulated from the ground, but the metal floor 11b is grounded as shown, and the pointed grid 11a is connected by the conductor 14 to the negative pole of the generator 13 of static electricity, as indicated above. A contact device (not shown) automatically stops the generators 13 and 15 as soon as the creature lifts from its seat 35 and an additional safety is provided by a disconnect device 14a of maximum intensity or an equivalent device mounted on the conductor 14. The ceiling 11a is formed by a metal plate with points 37 (200 points per m, diameter 0.4 - 0.7 mm and length 25 - 70 mm).

Each of the generators 13 and 15 is constituted by an electrostatic machine 38 which is rotated by an electric motor 39 whose electric power supply is controlled by the above-mentioned contactor. Each of the machines 38 is an electrostatic influencing machine of the type Felici et Gartner described in "le cours de physique générale et expéri- mentale" by Pierre Fleury and Jean-Paul Mathieu (Eyrolles 1957) tome 6 - Electrostatique, courants continuous , magnetism, p. 485. In the described embodiment, the hermetic type machines operating under hydrogen pressure are provided by "Société Anonyme de 35

Machines Electrostatiques SAMES, ”in Grenoble (Isère), 781 1 0 96 f 10 which provide a continuous high voltage (ie practical, without ripple), which is variable from 0 to 80,000 volts and which can supply a maximum current of 1 / 10 amps.

During operation, the negative voltage supplied by the generator 15 becomes bait. the pointed grid 9a, adjusted to a value between 10,000 and 80,000 volts, such that the peroxidized air introduced into the tube 9 is ionized by the electronic charge of the space generated near the 10 points 32. The negative ions are directed to the output cone 27b, from where they are introduced into space 11 and inhaled through creature 12. The negative charge supplied by the generator 13 to the ceiling 11a is also supplied at a value above 10,000 volts. 15

The electrostatic field thus generated between the body of the creature 12 (which is in contact with the conductive floor 16b) and the ceiling 11a produces rich electronic emission through points 37, which in turn generate negative ions. These electrons and these negative ions bombard the surface of the creature's body and transfer the electrical charges flowing to the floor 11b such that an electric current flows along the surface of the body. 25

It is clear that the described embodiment is only an example and that it can be modified without departing from the scope of the invention. In particular, instead of supplying air to the bubbler 3, one would supply another gas containing oxygen. In place of hydrocarbon fumes charging, the air or gas supplied to the peroxides generator may contain granular solid particles, such as metals, metalloids, chemical or pharmaceutical agents, with the formation of peroxides in particular is obtained by using 78 1 1 0 9 6

Claims (5)

A method of treating living organisms with negative ions, adding this treatment to an electrostatic field treatment in which air charged with negative ions is inhaled by a being subjected to an electrostatic field of one direction generated between a plate brought to a negative potential and provided with points towards the creature's head, and a plate brought to a positive potential which is in contact with the creature's body the ionized air being charged with peroxides, characterized in that the peroxides are products at a temperature above about 2000 ° C. 2. Process according to claim 1, characterized in that the peroxides are obtained by cracking hydrocarbons, for example a mixture of rosin resin and terpene at a temperature sufficiently high to prevent ozone formation. 5. A method according to claim 1, characterized in that the peroxides are obtained by treating air or an oxygen gas, which contains granular solid particles, by heating the gas to a temperature sufficiently high to form prevent ozone. 4. Device for treating living organisms with negative ions using an electromagnetic field, consisting of an inhalation chamber with insulating walls, which in the lower part is provided with a conductive plate which is connected to mass, and in its upper part in a ceiling formed by a conductive plate provided with a number of points, 35 from a generator of static electricity, of which the 78 1 1 0 96 negative pole is connected to said ceiling and the positive pole with ground, and from a generator of negative ions consisting of an input for pressurized air, an output connected to the inhalation chamber and a conductive grid having a number of 5 points towards the output, and a second generator of electricity, the negative pole of which is said grid is connected and the positive pole to ground, characterized in that the generators of static electricity have a cont generate inue voltage 10, i.e. practically without ripple, which is adjustable between 10,000 and 80,000 volts and has a maximum intensity of the order of 1/10 amperes. 5. Apparatus according to claim 4, characterized in that the pressurized air supplied to the negative ion generator is charged with peroxides by an apparatus consisting of bubbling air into a hydrocarbon or a mixture of liquid hydrocarbons, and from a means for passing the air thus charged with hydrocarbon vapors through a hydrogen burner, the combustion product of which has a temperature higher than 2000 ° C. ******* 781 10 96