RU2170112C1 - High-energy aeroionizer - Google Patents

Abstract

FIELD: medical equipment, applicable for air ionization for prophylaxis and treatment of diseases. SUBSTANCE: the high- energy aeroionizer has a high-voltage negative voltage source a double-stage ionizing element. The element is made in the form of a volumetric electrode of the high0energy stage accommodating the needle electrode of the low-energy stage. A dielectric screen and a grid of passive needle electrodes, directed in the axis of radiation of aeroions, are installed in the cavity of the volumetric electrode. The three-dimensional grid is made with a cell depth equal to or exceeding the cell linear dimensions. The aeroionizer provides for production of high-energy (Ei=34eV) oxygen aerons and subsequent formation of associations of aerons. EFFECT: enhanced treatment-and-sanitary effect. 3 dwg

Description

 The invention relates to medical equipment and can be used for electrical ionization of oxygen in the air for the prevention and treatment of diseases in a hospital, office and living conditions.

Known (see A. L. Chizhevsky. "Guidelines for the use of ionized air." Gosplanizdat, M., 1959, S. 49-52) a generator of negative hydroxy-oxygen ions containing a source of high voltage voltage and an ionization chamber built into a centralized containing long ducts, ventilation system. A glass tube electrode connected to a high voltage source and a water tank is installed inside the ionization chamber, as well as a glass tube with holes connected to an oxygen cylinder. The heavy hydroxy oxygen ions generated by this device are microdroplets of water that carry on their surface one thousand and lighter negative oxygen ions of oxygen O ₂ ^1- and O ₂ ^2- . The surface tension forces of microdroplets of water protect the air ions located on their surface from degradation, i.e. transition from a high-energy excited state to a low-energy one under the influence of Brownian collisions of a heavy hydroxy oxygen ion with single neutral air molecules. This increases the life time of light air ions that are part of the heavy air ion carrying them, thereby achieving an increase in the range of distribution of air ions through the ducts. In addition, this increases the therapeutic effect of the device by increasing the safety of air ions as they pass through the respiratory tract of the human bronchopulmonary system.

The disadvantage of this generator is the formation, along with oxygen ions of a large number of hydroxyl radicals OH ^- , which are produced due to the high voltage directly on the molecules of the supplied water H ₂ O. The radicals OH ^- do not replace the O ₂ ^1- and O ₂ ^2- ions in the metabolism and therefore, they are a kind of pseudo-aeroions that do not have a therapeutic effect.

Also known is the "Oxygen ionizer" selected as a prototype (see RF patent N 2126277, MKI ⁶ A 61 N 1/44, 1999), which generates high-energy O ₂ ^2- aero ions. The ionizing electrodes of this device are made of two stages and consist of a high-energy stage electrode containing an electrically closed cavity formed by the input and output metal grids (a Faraday cage), inside which a low-energy stage needle electrode is installed.

This ensures the formation inside the said cavity of initially low-energy oxygen ions O ₂ ^1- , with an ionization energy E _and = 12 eV and their subsequent conversion to high-energy air ions O ₂ ^2- , having an ionization energy E _and = 34 eV. Such air ions have an increased chemical potential, which allows to achieve a high therapeutic and healing effect by improving the completeness and timeliness of metabolism in the body.

The disadvantage of this device is the short lifetime of the generated single high-energy aero ions O ₂ ^2- , which upon collision with neutral air molecules in 1-2 seconds pass into the low-energy state O ₂ ^1- . This significantly reduces the number of high-energy air ions reaching the lung alveoli. Energy degradation, i.e. the conversion of O ₂ ^2- to O ₂ ^1- continues even after the absorption of single aero ions O ₂ ^{2 by} blood erythrocytes, which also reduces the therapeutic effect.

 The objective of the invention is to increase the therapeutic effect of the generator of high-energy aeroions by forming groups of aeroions that are resistant to energy degradation when exposed to Brownian collisions with single air molecules.

 The problem is solved in that in the well-known two-stage high-energy aero ionizer containing a source of high-voltage negative voltage and a two-stage ionizing element, consisting of a low-energy stage needle electrode connected to a high-voltage source, installed inside a high-energy stage volume electrode made in the form of an air-permeable electrically closed electrically closed cavity connected input and output metal nets, in the inner cavity of the aforementioned volume electrode of the high-energy stage, an additional dielectric screen and a lattice of needle electrodes mounted on its surface directed along the radiation axis of the aero ions are mounted on the surface, while the input grid is made in the form of a system of holes in the dielectric screen, and the output one is in the form of a metal three-dimensional honeycomb structure, the cell depth of which is equal to or more than the linear dimensions of the cell.

An additional dielectric screen and a lattice made of needle electrodes, which are additionally introduced into the internal cavity of the high-energy stage volume electrode, create a uniform linear electrostatic field in the internal cavity, which polarizes O ₂ ^2- , O ₂ ^1- ions and neutral oxygen molecules O ₂ ⁰ and rigidly orientates them in space. This, firstly, creates the conditions for the secondary ionization of O ₂ ^1- aero ions and their transformation into O ₂ ^2- aero ions, and, secondly, provides the appearance of intermolecular forces of dipole-dipole Coulomb attraction, which combine single high-energy O ₂ ² aero ions ^- and neutral oxygen molecules O ₂ ⁰ , due to their electron affinity, into stable multi-link associations of the form (2 O ₂ ^2- + 4 O ₂ ⁰ ) n, classified as “medium” and “heavy” air ions.

 The forces of the Coulomb interaction of the total charge of the associated aero ions with the electrostatic field formed in the space between the points of the passive needle electrodes and the inner side of the output three-dimensional honeycomb network create kinetic acceleration of the associated aero ions, which, due to the significant kinetic energy of their total mass, overcome the energy barrier of the outer side of the output three-dimensional honeycomb network and go into the outer space in the form of a directed flow.

Associations of O ₂ ^2- aero ions with neutral oxygen preserve high-energy O ₂ ² aero ions from energy degradation during Brownian collisions with air molecules, which significantly increases the lifetime of O ₂ ² aero ions not only in room air, but also under conditions of moisture from the bronchopulmonary system .

In the associated stable form, O ₂ ^2– aeroions are absorbed by blood red blood cells during pulmonary gas exchange and enter the body cells with the conservation of energy potential to participate in intracellular molecular metabolic processes.

The high energy potential of O ₂ ^2- molecules provides a significant improvement in the completeness and timeliness of metabolic processes, which creates the achieved increase in the therapeutic effect of the device.

 In FIG. 1 shows a diagram of the construction of a generator of high-energy aeroions of air oxygen.

 In FIG. 2 shows a simplified view of the configuration of the associated air ions.

 In FIG. 3 shows a horizontal diagram of the propagation and decay of associated air ions in indoor air.

 The high-energy aero ionizer (Fig. 1) contains a high-energy step volume electrode made in the form of a “Faraday cage” containing an internal cavity 2, an input grid made in the form of a system of openings 3 for air intake, and an output three-dimensional honeycomb grid 4. In the internal cavity 2 volume electrode 1 is installed a dielectric screen 5 with a lattice of passive needle electrodes 6 mounted on its surface, made in the form of points directed along the axis of radiation of aero ions. An active needle electrode 7 of a low-energy stage connected to the negative output of the high-voltage voltage source 8 is also installed in the inner cavity 2. The housing of the high-energy electrode 1 is connected to the grounded positive output of the high-voltage voltage source 8 by means of a resistor 9.

 The body of the volume electrode 1 of the high-energy stage is made of metal, or can be made of plastic with metallization of the inner surface.

 The output three-dimensional honeycomb grid 4 has a depth h whose value is greater than or equal to the linear dimensions a, b of the cells.

The source of high voltage voltage 8 can be performed, for example, according to the patent of the Russian Federation N 2014851, MKI ⁵ A 61 N 1/44, for 1994

High-energy aeroionizer works as follows. When applying a high-voltage negative voltage to the needle electrode 7 of the low-energy stage, the internal cavity 2 of the volume electrode 1 of the high-energy stage is filled with primary low-energy ions of the form O ₂ ^1- , O ₂ ^(1-) , as well as free electrons e ^- .

Air ions O ₂ ^1- are oxygen molecules (see N. S. Akhmerov "General and Inorganic Chemistry": Textbook for high schools. - M .: Higher School, 1981, p. 314), which, due to the introduction of P _p orbitals ^discharge with one excess electron ionization energy E = ¹ _and 12 eV are enlarged relative to the released state (r _yy ⁰ = 120,7 • 10 ^-9 m, E _q = ⁰ 494 kJ / mol) internuclear distance r _nn ^1- = 132 • 10 ^-9 m, (Δr _nn = 11.3 • 10 ^-9 m), a reduced value of the dissociation energy E _q ^1- = 394 kJ / mol, respectively, and increased chemical activity A _- ^1- = (E _q ⁰ / E _q ⁰ -1) • 100 = 25%.

High energy air ions O ₂ ^2- represent oxygen molecules, which, because of the introduction of the ^discharge _EXAMPLE orbitals two excess electrons that achieved when the ionization energy _and E ² = 34 eV are enlarged internuclear distance r _nn ^2- = 149 • 10 ^{- 9} m, a reduced value of dissociation energy E _q ^2- = 210 kJ / mol and, accordingly, increased chemical activity A ^2- = 130%.

The pseudo-aeroion O ₂ ^(1-) is a complex of a neutral oxygen molecule and an electron not included in its composition, attached due to its affinity for the electron, with a decrease in the total energy of the complex by E _and = -0.8 eV. In this case, the internuclear distance r _n ⁰ and the chemical activity of the oxygen molecule remain unchanged. In Brownian collisions, an electron easily transfers from one molecule to another, which ensures high relay mobility of pseudo-aeroions in an electrostatic field.

Primary low-energy air ions O ₂ ^1- , O ₂ ^(1-) , e ^- form in the inner cavity 2 a highly concentrated negative volume charge Q ₁ . Part of this charge is deposited on the surface of the dielectric screen 5 and forms a surface charge Q ₂ .

Free electrons e ^- and pseudo-aeroions O ₂ ^(1-) are also deposited on the lattice of passive needle electrodes 6, and on the inner surface of the volume electrode 1 of the high-energy stage, including the output three-dimensional honeycomb grid 4, the inner side of which is according to the properties of the "Faraday cage" has zero potential. On the outer surface of the volume electrode 1, and accordingly, on the outside of the output three-dimensional honeycomb grid 4, a surface charge Q _{3 is formed} , which flows through the resistor 9 to the grounded positive output of the high voltage voltage source 8.

The surface charge Q ₂ creates a uniform electrostatic field E ₁ directed from the surface of the dielectric screen 5 to the inner side of the output three-dimensional honeycomb grid 4 having zero potential. The electric field E ₁ polarizes neutral oxygen molecules O ₂ ⁰ , as well as primary primary ions O ₂ ¹ and doubly charged air ions O ₂ ² , which acquire a stable spatial orientation and receive and accumulate kinetic energy of motion in the electrostatic field and thermal impacts direction of field lines E ₁ . In this case, free electrons e ^- under the action of an electrostatic field E ₁ receive kinetic energy sufficient for secondary ionization of O ₂ ^1– ions and their quantum conversion into O ₂ ^2– ions with ionization energy E _and = 34 eV.

In the process of movement and mutual collisions of polarized and spatially oriented molecules, dipole-dipole Coulomb attraction forces arise between them, as a result of which stable complexes of the form (2O ₂ ^2- + 4O ₂ ⁰ ) n are formed. (Fig. 2), in which the intermolecular distances are comparable with the size of the molecules, and the total energy of the excited state of the two O ₂ ^2– ions combined into a group decreases by 0.8 eV • 4 = 3.2 eV, which ensures the stability of the association. The most probable number of O ₂ ^2- aero ions in the group is in the range from n = 3 to n = 10 and does not exceed n = 100.

The part of the space charge Q ¹ deposited on the lattice of passive needle electrodes 6 creates an increased electrostatic field strength E ₂ between the ends of the tips and the inner surface of the three-dimensional honeycomb network 4. As a result of the Coulomb interaction of the field E ₂ and the total negative charge of the multi-link associated aeroion (2O ₂ ^{2 -} + 4O ₂ ⁰ ) _n , the latter acquires a significant total kinetic energy, due to which the associated group of aero ions passes through the cells of the output three-dimensional cellular set ki 4, overcoming without changing the trajectory of the electrostatic barrier of the electric field E ₃ created by the electrostatic charge Q ₃ . In this case, single light air ions O ₂ ^1- , O ₂ ^2- , as well as free electrons e ^- and pseudo-aero ions O ₂ ^(1-) , which have a relatively small mass, do not go into outer space, since their kinetic energy is insufficient to overcome the energy field barrier E ₃ . Moving along the lines of force of the field E ₃ , light air ions change the trajectory of motion and settle on the surface of the honeycomb grid 4, replenishing the electrostatic charge Q ₃ . The directional movement of the associated air ions creates an "electronic wind", i.e. general air movement, including neutral nitrogen N ₂ . In this case, instead of the air that has left the cavity 2 and is ionized by high-energy aero ions, the neutral air enters the cavity 2 through a system of holes 3 in the dielectric screen 5.

In FIG. Figure 3 shows a spatial diagram of the propagation and decay of associated aero ions in the air of a room and their energy degradation zone. In the association zone 1 (2O ₂ ^2- + 4O ₂ ⁰ ) _{n, they} move perpendicularly to the plane of the output three-dimensional honeycomb 4 of the high-energy stage volume electrode 1 gradually diverging beam, reaching a distance of 1.5-2 m without energy degradation. At point A at a distance of 0 , 5 m from grid 4, the highest concentration of O ₂ ^2– aeroions associations is created and the maximum therapeutic effect is ensured. In zone II, the associations (2O ₂ ^2- + 4O ₂ ⁰ ) _n decompose and the energy degradation of O ₂ ^2- aero ions occurs, i.e. their transformation into air ions O ₂ ^1- . This zone has a smaller therapeutic effect and is a therapeutic and prophylactic one. In zone III, only O ₂ ^1- air ions are observed, which are neutralized by the positive air ions of the room, as a result of which their concentration decreases to zero values with increasing distance. Zone III is prophylactic with a relatively small therapeutic effect.

 The proposed generator of high-energy aeroions can be used for the prevention and treatment of diseases in combination with other therapeutic measures, as a means of improving metabolism, including increasing the effectiveness of drug therapy. In the mode of permanent individual use, the generator of high-energy aeroions can be used in domestic and office conditions without age restrictions to increase physical and mental performance, for general health promotion and disease prevention, in particular, at high loads, for example, when playing sports, with active entrepreneurial activities during prolonged work with a personal computer, etc.

 In domestic conditions, a generator of high-energy aeroions can be used as an effective tool to improve the environmental characteristics of room air, providing overall health promotion.

Claims (1)

 A high-energy aero ionizer containing a source of high-voltage negative voltage and a two-stage ionizing element consisting of a low-energy stage needle electrode connected to a high-voltage source installed inside a high-energy stage volume electrode made in the form of an air-permeable electrically closed cavity formed by an electrically sealed input and output metal that inside the cavity On the side of the input electrode of the high-energy stage of the emitter, a dielectric screen with a system of air-passing holes and a lattice of passive conductive needle electrodes fixed on its surface directed along the axis of aeronol emission are installed, and the output conductive grid is made in the form of a three-dimensional honeycomb structure with a cell depth equal to or greater their linear dimensions.

Images