JPH03207936A - Oxygen generator and air-conditioning system - Google Patents

Abstract

PURPOSE:To reduce the quantity of CO2 in view of the air pollution, to produce and supply oxygen, though in a very small quantity, for natural environment, on the other side, and thereby to conserve an ecological system of natural society by providing a system apparatus wherein water vapor is turned to be vapor of high temperature and separated into oxygen ions and hydrogen ions and oxygen molecules are produced by subjecting an ionized gas separated into the ions to electrolysis. CONSTITUTION:In order to remove CO2 in the air, the air is purified by a water solution 2 of a calcium oxide. An oxygen producing apparatus 3 ionizing water vapor H2O and producing oxygen by subjecting a gas of the ionized vapor to electrolysis is incorporated. It is integrated with an air-conditioning system which takes in air from air holes 4 in the lower part, makes it pass through activated carbon and sends the air outside from a fan 49 in the upper part. In other words, a purifier of CO2 and the oxygen producing apparatus are systematized as a total arrangement in an air-conditioner.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an air conditioning system that combines the generation of oxygen in atmospheric air, the purification of air in the purification of carbon dioxide concentration, etc., and an oxygen generator.

In air conditioning, which controls the atmospheric pressure by dividing it into a certain spatial unit, the atmospheric air is controlled within the structure of a building or within a room that has a certain level of functionality for human labor. Conventional air conditioners have focused on temperature, which is the optimum temperature for humans to live in. Such air-conditioning, heating, and air-conditioning systems have been able to produce air at an appropriate temperature so that human labor can be carried out conveniently through temperature control such as heating and cooling of the air.

The problem of optimal temperature for human life has long been a dream of humankind. Most of humans have survived against nature, and it was enough considering that we migrated for the purpose of finding a comfortable natural environment, but this air conditioning system for heating and cooling depends on the method of air conditioning. However, there were structural problems that could lead to air pollution. This is about the combustion of oxygen in relation to atmospheric energy conversion for heating and cooling at appropriate temperatures.

In order to survive, living organisms convert energy by burning oxygen, and it is an undeniable fact that living organisms require oxygen as well as an appropriate temperature in their living environment. Instead of achieving a comfortable temperature, humans oxidize much of the air and produce carbon dioxide (CO2).
Today's air pollution creates large amounts of oxygen, destroys the living environment, and threatens to reduce the amount of oxygen needed by living organisms. Changes in the amount of oxygen in nature are also a problem concerning the ecosystem of living organisms in the natural world, and an increase in the concentration of carbon dioxide will disrupt the harmony of the natural world and threaten to exceed the permissible limit of the ecosystem. It's also a question of quantity.

This invention can reduce carbon dioxide consumption in response to such air pollution, and at the same time generate and co-supply oxygen to the natural environment, albeit in a small amount, and play a role in maintaining the ecosystem of natural society. It will also happen. It is a law of conservation of the natural environment, and by incorporating the conversion of necessary molecules from plants to animals into a single air conditioning system, a clean living environment of nature can be obtained for a certain unit amount of space. It can be done by bubbling air into a solution of quicklime to remove carbon dioxide, CO2, etc., vaporizing water H2O to water vapor at a high temperature, and then separating it into oxygen ions and hydrogen ions. The purpose of this system was to create oxygen molecules through electrolysis.

This invention will be explained based on the drawings as shown in Fig. 1(a).
(b) shows the sun shining brightly in space, and (b) shows the sun's rays shining almost horizontally onto the earth.
The intensity of sunlight differs in winter and summer due to the angle of Earth's revolution according to Kepler's law. (c) shows the sunny area where the sun's rays shine and the shaded area on the opposite side, with the earth's axis of rotation 0° as the axis of rotation, and the position where the earth illuminates is (d), water H2O evaporates from the sunny areas, creating moisture and oxygen in the atmosphere. (e) shows the revolution around the sun in the solar system, and is a diagram that makes one revolution every 365 days. (F) Summer solstice, (J) Vernal equinox, Autumn equinox, (H) Winter solstice. This is because the positional relationship between the earth and the sun in Kepler's law is a matter of sunlight on the earth's surface, and the strength of sunlight is closely related to the amount of water H2O evaporated from the earth's surface. The strength of sunlight depends on the orbit angle of the Earth's revolution, and the amount of water vapor and H2O evaporation is generally proportional to each other.However, the amount of sunlight rays is the amount of heat from the sun on the earth, and is the amount of secondary radiation heat that repeats. It is the amount of infrared rays. If the closest month to the sun is January and it is 1, then the furthest month is July, which is 1.0.
The amount of sunlight in winter is about twice that in summer (for example in the Tokyo area), and the amount of infrared rays, which includes secondary radiation from the sun, is more important than the distance relationship in the sun's revolution. The maximum amount of moisture evaporates on the Earth's surface near the equator, and the amount of secondary heat radiation in the ocean is smaller than that in the land. These things are reflected in the existence of the South Pole and the North Pole on Earth.

The amount of evaporation of 3 mm of water in 24 hours (for example, in the Tokyo area) is 150,000 tKg, assuming the earth's surface area S = 500 million km2.

Figure 2 (a) shows that when the amount of heat received from the sun falls on the earth, the property of the amount of heat is infrared 1, which travels straight and is reflected 2. The infrared rays that travel straight through are reflected heat rays from the Earth, which has a large mass. (b) shows the effect of infrared rays from the sun as infrared rays that are reflected by the earth's surface 2 and reach the atmosphere, and infrared rays that reach the interior of the earth and become secondary radiant heat 4 that reach the same atmosphere. shows the infrared rays. There is a synergistic effect in terms of heat quantity, but the amount of evaporation of water vapor H2O also increases, and the heat of vaporization acts between the humid air in the atmosphere and the cold air, causing the warm air to cool down, causing rain to snow during the winter solstice. A freezing point phenomenon occurs, which actually cools the atmosphere. The atmosphere cools in inverse proportion to the synergistic effect of the amount of heat, reducing the amount of water vapor that evaporates, resulting in an inversion phenomenon. This indicates that the electrostatic charge E in the atmosphere is electrically charged to the earth, and a current flows to the earth's ground. The ozone layer O36 is water vapor 7, oxygen 8, and carbon dioxide gas 9 in the atmosphere. short wavelength ultraviolet light,
This is blue light 10 visualized as a spectrum.

Therefore, Figure 3 (a) shows that the axis on which the Earth rotates is tilted by 23° 27' to the plane on which it revolves, indicating that there is a large amount of water vapor, and the size of the atmosphere surrounding the Earth is large at the summer solstice. In addition to electrolysis in the atmosphere, which is also an electrostatic space, water vapor also exists, leading to hot and humid seasons. (b) shows the vernal and autumnal equinoxes, and shows the relationship between day and night. Oxygen is also produced by electrolysis caused by static electricity at night, but as dawn approaches, the amount of oxygen decreases. (c) is the winter solstice, which is inversely proportional to the synergistic effect of heat of vaporization due to water vapor in the air, and the amount of water evaporated is small, so the layer of air that makes up the atmosphere is small.

Figure 4 is a three-dimensional depiction of the formation process of nature's atmosphere, including the sun. The sun's rays consist of three elements: heat rays that make you feel warm, rays that cause objects to emit color, and ultraviolet rays that have chemical effects. When analyzed using a spectrum, it appears as a difference in wavelength. It is not the spatial distance from the sun to the earth in space, but the height of the temperature that reaches the atmosphere as secondary heat from the earth, and it is also a condition that there is a large amount of water vapor evaporated from the earth's surface. but,
What is absolute is the temperature difference between space and Earth, that is, the stratosphere. This temperature difference becomes the heat of vaporization of water vapor, creating an anti-synergistic effect, and the winter solstice, when there is a large temperature difference, is the season of winter on Earth. On the other hand, the summer solstice is the season when the Earth is at its furthest distance from the sun, and the temperature difference due to secondary heat radiation on the Earth is small. Secondary heat radiation is higher on land than in the ocean, but the amount of water vapor generated is greater in the ocean than on land. This is due to a lack of absolute moisture on land. The sea has low secondary heat radiation, so there is little water evaporation and the temperature is low. This means that the rate of evaporation of water due to side radiation is also different, and what evaporates slowly at the sea surface becomes water vapor in mountainous areas due to the size of the mountain's mass side radiation. The amount of evaporation is large. This is why the weather in the mountains is so changeable. If the amount of water vapor from the ground is expressed graphically, if the ocean is constant, then the amount of water vapor on land,
This shows that there are differences between mountainous areas and shady areas. Changes in the density of water vapor appear in the form of gas clouds that form depending on the density. Clouds are water vapor gases with supersaturated density;
It cools down and becomes small droplets. Since wind is also caused by temperature differences in gases, the difference in temperature between the cold and temperate zones appears in the airflow due to the influence of side radiation heat, and water vapor droplets become larger, resulting in the phenomenon of rain.

On the other hand, in the atmosphere up to the atmosphere, it is an atmospheric electrostatic phenomenon in which electrostatic pressure generates electricity in the atmosphere due to ionizing ultraviolet rays, etc., but if the upper atmosphere is positive electricity,
The earth is negative and current is flowing towards the earth. These short wavelength ultraviolet rays are charged with electrolysis that generates oxygen in an atmospheric space containing an electrostatic body. Above the atmosphere, an O3 ozone layer is formed, and due to the specific gravity of oxygen, the closer to the ground the higher the density of the atmosphere.

FIG. 5(a) shows that water molecules are evaporating from the container, and the rate changes and the amount of evaporation varies depending on the temperature of the water and the temperature of the air in contact with it. The evaporation of water in (b) is colorless and transparent, but the figure shows that it is a collection of some water molecules H2O1. What we see as water vapor is not a collection of H2O, but a collection of cooled water molecules. This shows that current 2 is flowing with respect to the earth ground.

Figure 6 shows the spectrum of sunlight, and when it comes to wavelengths shorter than ultraviolet rays (a), blue-tinged short waves represent the nature of ionization. This shows that short-wave sunlight is an electromagnetic wave whose direction is constant, and a sine wave whose direction of flow changes is an electromagnetic wave that has an ionizing effect and has a constant direction. The constant flow direction of the current means a direct current (b) of electricity, and this direct current charges the air above the electrostatic space. The charged DC voltage passes through the atmosphere, which is an electrostatic space, and a DC current flows from the ozone O3 layer to the earth's earth, that is, from positive to negative. (c) In the figure, if the wave of one sun ray is n1, its charge is expressed as En1, and the charge due to the sun ray is En1.
Since it is expressed as the sum Σ, it is ENn. The atmosphere containing water vapor is a molecular gas space, and the atmospheric space containing gas is an electrostatic space. The movement of air due to temperature differences alone causes friction between the molecules that make up the air, and this movement also generates electricity. When an electric current is passed through partially ionized water vapor, the water vapor is electrically decomposed. This is the production of oxygen through the so-called electrolysis of water. The theory is that an electrostatic band is charged with ENn, and a current flows from the positive side of the sky toward the negative pole of the earth, causing electrolysis of high-temperature water vapor and separating the water vapor into oxygen and hydrogen. Although air is an insulator, it is thought that the electric energy in electrostatic space has a photoelectron movement that causes ionization due to the wave nature of photons of ultraviolet light and other light. The water molecules illustrated in (b)) The days are shorter in winter and longer in summer. The time at which the sun rises and sets on Earth represents the amount of sunlight, seasonal temperature changes are the angle of the Earth's revolution, and the angle of sunlight relative to the Earth is the synergy between the amount of infrared rays from the sun and the amount of secondary radiation on the earth. The amount of heat in the effect, and the gas containing water vapor evaporated from the earth is
The temperature of the atmosphere containing water vapor heated by the combined infrared radiation. Strictly speaking, air itself is an object that conducts heat, and infrared rays and their reflected radiation are a gas that enhances the heat retention of the entire Earth, including the atmosphere. The heat of vaporization of the highly heat-retaining gas cools the air, and the resulting freezing point makes the air even colder. The winter solstice is the angle of sunlight in this orbit. In the end, the synergistic effect is that the air becomes colder, has less heat retention, and the wave of photons becomes relatively high, increasing the amount of static electricity.However, in cold winters, the amount of water vapor surrounding the earth decreases, and the small air It becomes layers.

When the Earth, which contains a certain amount of water vapor and maintains a certain temperature, moves through space at sub-zero temperatures, the atmosphere on the Earth's surface, which contains a large amount of water vapor, collides with the cold zone, or the temperature difference between it and outer space increases. When they become large, the water vapor in the atmosphere cools and the water droplets expand until they reach a certain size. Rain is caused by water vapor becoming smaller droplets, unable to withstand the weight of floating water droplets, and falling due to the earth's gravitational pull. Snow is water vapor that has cooled down to below freezing due to a large temperature difference. In this way, the magnitude of the angle of sunlight relative to the earth causes a difference in the amount of heat added to the amount of infrared rays in the atmosphere that makes up the stratosphere and the amount of secondary radiation, resulting in cold winters and warm summers. In addition, the air layer expands and contracts, changing seasonally as a result of the total amount of temperature-retaining substances that the atmosphere itself has.

In FIG. 7(1), the voltage E is charged, the current i flows from the positive direction to the negative direction, and the electrons are directed in the opposite direction. At this time, hydrogen ions are generated at the (-) electrode, and (
+) Oxygen is generated at the electrode. The solution uses basic potassium chloride. Salt in seawater has the effect of ionizing water vapor, and the water vapor gas floating on the sea surface becomes OH-
and H+ ionized atoms. In order to electrolyze an aqueous solution of potassium chloride, water H2O is separated into hydrogen ions and oxygen ions, and when a DC current is applied to the solution,
Ions move relative to the electrode rod. Electrons transfer and electrical action begins, causing current to flow. At the electrode rod, oxygen molecules O2 and hydrogen molecules H2 are combined and generated. In seawater, water vapor is separated into ionization and an electrostatic current flows due to the wave motion of photons, so this is the theory of electrolysis due to ionization of water vapor. Therefore, more oxygen molecules are produced at sea. However, the evaporation rate of water vapor is faster on land where side radiation heat is higher than in the sea, but the amount of water vapor is greater than on the sea because it does not ionize water vapor, so supersaturated water vapor in the air is When it becomes water droplets in the weather and accumulates, it becomes a factor in the formation of rain clouds, and due to conservation of mass in nature, water vapor is returned to the ground. The amount of water evaporation and the heat of vaporization in the generation and reduction of water H2O are a natural system that creates an appropriate temperature for the survival of living things, and the temperature difference due to climate and the foldback of supersaturation are also the sources of the ecosystem. Since the weather in inland areas is less favorable than at sea, the amount of oxygen produced is less efficient than at sea, as it is less ionized.

At the winter solstice, temperature changes occur due to synergistic heat of vaporization, and the temperature drops, reducing the amount of water vapor evaporated and drying the air. As a result, the amount of electrostatic charge increases, the evaporation density of water vapor is low, and the electrolysis of the water vapor is also accompanied by a strong current, that is, the solar rays increase due to the proximity to the sun, but the time decreases. This means that static electricity is more efficient than in the summer. On the other hand, on the Earth during the summer solstice, the amount of sunlight per unit is large, but the amount of static electricity is low. Humidity due to water vapor becomes high, and the weak electrostatic current causes the evaporated water vapor to be electrolyzed inefficiently, resulting in a continued period of steaming. The inefficiency of electrolysis means that there is less oxygen than in winter, and Japan's hot and humid climate means that there is no balance between the amount of water vapor evaporated and the amount of electricity used. In weak sunlight, the energy of the photon waves is low, so the amount of infrared rays irradiated is less than the amount of evaporation of water vapor, and the electrostatic charge is reduced.

The fact that the atmosphere is an electrostatic space means that even when the sun has set and the atmosphere is no longer charged, electrostatic currents flow from the electrostatic space to the Earth's ground. Water vapor causes electrolysis for a certain period of time. This is the theory behind the production of oxygen on the rotating Earth at night when there is no sunlight. It is natural for oxygen to be irregular compared to during the day.

(2) The short-wavelength ultraviolet rays, etc., are not simply a sine wave from a fixed direction of current, but the photon waves in ultraviolet rays, etc. are the amount of solar radiation with a certain energy that can be quantified, and the ionizing effect is It is an electromagnetic wave that exhibits a waveform close to that of a direct current. In the electromagnetic band of photon waves, decomposition of oxygen O2 occurs, which means that it is polarized, and this hypothesis shows that the polarization of electrolysis in electrostatic space generates ozone O3. Ta. The generation of a direct current, which is a constant direction in response to electrostatic pressure in the electromagnetic wave band of photon waves, causes the current to flow toward the earth through the electroded layer.

In (3), water vapor H2O does not exist as a single substance, but the mass of the molecule has a certain bonding force, which is stronger than the covalent bonding force of oxygen O2 hydrogen H, and ionized water molecules (OH-, H+) will have a similar effect on high temperature steamed gases. An increase in the temperature of a molecule imparts momentum within the molecule, weakening the binding force of molecules with high energy. Activity as an atomic mass is increasing. When electrical energy generated by photon waves is applied to this activated high-energy molecule, the covalent bond strength is weakened and the bond is broken by electrical energy in a certain direction, as shown in (4). Atomized oxygen O and hydrogen H are unstable by themselves and move from atoms to molecular bonds.

Furthermore, in a magnetic electrostatic space, in addition to the separation of covalent bonds due to the movement of electrons due to the electrical energy applied to atoms, there is also ionization electrolysis.

(5) Water vapor for salt at sea exists as ionized gases, OH- and H+, and water vapor containing salt increases the efficiency of electrolysis and generates more oxygen. . Ionization has better oxygen production efficiency.

(6) shows the oxygen density; due to the Earth's gravitational pull, the oxygen concentration is higher at the bottom than at the top, and the oxygen is thinner at the top. Oxygen O2 is decomposed in the ionosphere in the electromagnetic wave band of photon waves, and ozone O3 is generated. This means that there is a negative charge of 2 on the inside with respect to the earth, and a positive charge of 1 on the outer space. Ozone O3 forms a layer in the charged band that stabilizes the direction of photon waves.

As living organisms as an ecosystem, humans breathe oxygen in three ways: (1) breathing through the lungs, (2) breathing through the skin, and (3) ingesting water from the stomach and intestines. During breathing through the lungs and skin, the body takes in oxygen contained in the air, but through the stomach and intestines, oxygen is absorbed from the water H2O taken into the body. As living organisms, humans require oxygen from combustion for energy conversion.

There are two problems with the energy conversion that requires human oxygen. One is the amount of energy we burn as animals to maintain our bodies, and the other is the amount of energy we use internally in our heads as intelligent beings for intellectual activities. Energy conversion through combustion, which is a product of intellectual activity, requires an amount of oxygen for oxidation. For humans who engage in spiritual and intellectual activities, oxygen is taken in from the air by animals as part of an ecosystem that breathes through their lungs, and as a result of animals placed in a certain environment.

Human beings who engage in mental and intellectual activities mainly ingest oxygen from the air through lung breathing, and as living organisms, they secondarily absorb water H2O from their stomachs and intestines.

Therefore, the way in which oxygen is ingested in the natural environment has a great influence on intellectual activities, which in turn is influenced by the way individuals behave.

Especially for modern people, there is a tendency for mental activities to increase and oxygen consumption to increase. Oxygen is absorbed from the air and from water in the body, but the human ecosystem is said to have a large influence on the human ecosystem because oxygen intake through lung breathing is direct and the reaction speed is fast. There must be. On the other hand, the intake from the stomach and intestines is indirect and is not always taken into the body, but tends to accumulate in the body as a stock amount. This absorption of oxygen from water H2O in the body is involved in the amount of energy conversion that sustains the life of living things. Even though there is a mutual compensatory relationship between whether the oxygen contained in the blood in the body comes from breathing through the lungs or from absorption from water, there is a large proportion of oxygen that comes from breathing through the lungs, and the method of oxygen intake and oxygen production are closely related. The problem is different. Human beings, as living animals, have different amounts of oxygen consumption and requirements, which is also a problem related to the ecosystem, and changes depending on the ecosystem historically, culturally, and naturally. The living environment of modern people is not so much about the adaptation of the body to the extent of changes in the ecosystem, but rather the need for human mental and intellectual activities, so it is necessary to compensate for the dominance of the ecosystem. There is a need to move forward. Modern human life requires a lot of oxygen from mental activities. In order to improve the efficiency of lung breathing, we either increase the amount of oxygen in the air or increase the rate of breathing. The breathing rate is controlled by the number of breaths as the amount of exercise. Pulmonary respiration is a variable amount, and absorption from water is quantified.

The ingested oxygen is dissolved in the blood, combined with hemoglobin in the blood, and transported, where it is biochemically burned as energy conversion in the body.

(7) The figure shows how water H2O (a) is absorbed from the stomach and intestines.The water H2O in the stomach and intestines (b) is ionized by gastric acid as oxygen in the stomach and intestines. Moisture H2O is ionized into OH- and H+ and differentiated into molecular bonds and atoms. Ionized OH- and H+ permeate through the cell membrane (d) and combine with unstable oxygen atoms to form oxygen molecules (c), which combine with heme of hemoglobin in the blood to form oxyhemoglobin. .

This invention was based on the law of conservation of nature, which states that oxygen and carbon dioxide gas are converted in the natural environment. In order to increase the concentration of oxygen in the natural world, thereby improving intellectual life, which is human mental activity, and to cover the increase in oxygen consumption, oxygen generation is required to generate oxygen independently of the conservation laws of nature. It is intended for air conditioning systems in equipment.

To explain this invention based on the drawings, Fig. 8 shows an easy-to-use indoor plant, a cactus is shown here as an oxygen-producing plant, and b is an egg-shaped animal that is an oxygen consumer. The c that supports it means the total platform. In FIG. 9, first of all, the air is purified with an aqueous solution of quicklime 2 to remove carbon dioxide from the air, and an oxygen generator 3 that ionizes water vapor H2O and generates oxygen by electrolyzing the gas. Incorporating the lower pore 4
It is integrated with an air conditioning system that takes in air from the air conditioner, passes it through activated carbon, and sends the air out from the fan 49 at the top.The carbon dioxide purifier and oxygen generator are integrated into the air conditioner. It is systematized as a thing.

Fig. 10(a) shows quicklime as an aqueous solution in a reaction tank 2, a vinyl pipe 5 spirally fixed to the inner wall of the tank, and a similarly small inner diameter connected to the output part of the air pump 8 with the lower part of the pipe as an inlet. A certain vinyl pipe 6 is inserted, and air bubbles sent from an air pump are passed through the spiral pipe fixed in an aqueous solution of quicklime. At the upper part of the pipe, which is the outlet, air purified of carbon dioxide gas is discharged to the outside. The outlet for the purified gas is equipped with a number of floating plastic balls 7 to prevent the aqueous solution from spilling in the reaction tank, and if necessary, the cover (b) can be used to save the liquid from spilling out. I can go.

FIG. 11(a) shows that water is boiled in a water tank 39 with a heater 41, and the steam to be sent out is passed through the pipe 40 between this tank and the electrode tank 9 at the bottom of the oxygen generator, and is sent to the electrode tank. The water vapor is reheated by a preheating heater 42 to raise the temperature to a high temperature, and is sent from the upper part of the electrode tank to the lower intake port of the first layer tank 10. Electrode tank 9 and first layer tank 1
0 can be freely attached and detached using screws 38. Further, the electrode tank has a positive electrode and a negative electrode by an electrode support 37, and due to the temperature difference between the temperature inside the oxygen generating device and the water vapor outside the device, water vapor becomes water droplets due to the heat of vaporization and returns to the electrode tank. Supersaturated water vapor in the oxygen generator also turns into water H2O and backs up into the electrode tank. This folded back water H2O is electrolyzed by a positive electrode and a negative electrode in the electrode tank, and the amount of oxygen generated in the oxygen generator is small in this part. The two electrodes of the electrode cell are connected to terminals 35 outside the first layer cell. The reaction formula for water vapor at this stage is 2K
CLO3→2KCL+O3 using manganese MNO as a catalyst. The manganese here is mixed in from the second layer tank.

In the first layer tank, there is a synthetic grid 15 which is tapered such that it is high in the center and becomes lower as it goes away from the center. This composite lattice is a composite of three lattice materials, with the roughness of the lattice arranged in order from the bottom to the bottom, and is designed to prevent pure potassium chloride 34 from falling out. Since the composite grid is tapered, water vapor from the electrode bath passes through the potassium chloride in the first layer bath. This liberates water vapor H2O into ionized gases of oxygen ions OH- and hydrogen ions H+ by means of potassium chloride. It is the production of an ionized gas of water vapor by potassium chloride. Further, the second layer tank and the first layer tank are also fixed by a packing 33 so that they can be easily attached and detached.

The ionized water vapor gas sent to the second layer tank 11 is further electrolyzed in the second layer tank. The substance in the second layer tank is a mixed chemical 30 of potassium chloride KCL and manganese MNO. The use of manganese increases the rate of chemical reactions, increases the electrolytic action of ionized water vapor, and improves efficiency. Electrode 29 in the second layer tank
The electrode is vertical and has a tapered tip for the potassium chloride chemical from above to below.
are connected by a conductor 28, and the electrode is weighted by a vertical electrode weight 27 on the top of the conductor, making it a movable electrode that can move up and down. This means that even if the water vapor H2O passes through the potassium chloride and manganese chemicals and the amount of the chemicals is reduced, the electrodes are still loaded, so the electrodes are constantly in contact with the chemicals and electrolysis occurs. . The electrodes are made with a volume of 30 for the positive and negative electrodes, and the chemical formula is KCL+3H2O→KCLO3+
3H2, the chemical is a mixture of potassium chloride KCL and the catalyst manganese MNO, and the reaction rate changes depending on the mixing ratio and the chemical equivalent changes. KCLO3 is the electrode with positive volume, KCLO3 is the electrode with negative volume.
However, 3H2+ accumulates on the electrode with negative volume. Here too, the synthetic grid 1
6 is used. The packing 33 also facilitates attachment and detachment. On the outside of the device there is a terminal 31 from which a line 35 leads to a conductor 28 inside the device and an electrode in the reaction vessel.

Since the amount of water vapor H2O sent from the first layer tank and the second layer tank is large, that is, the amount of ionized gas of OH- and H+ passing through is high and large, the electrodes of the second layer tank are not enough. Electrolysis does not take place and ionized gas rises, creating ionized air. Electrolysis of ionized water vapor does not electrolyze water H2O to generate O2, but the gasified ions themselves are high-temperature moving bodies, and because they are ionized, electrical electron movement is performed. Because it is easy to carry out, the chemical equivalent of the reaction is high. It is the electrolysis of ionized gases and is intended to facilitate molecular bonding.

The collective electrode 22 is not a single unit, but is a collection of multiple units. This collective electrode
This is to molecularize H- and H+ into O2 and H2 at the collective electrode, and in Figure (b), there is a collective electrode 1 and water vapor 2. The collective electrode is also composed of two layers, with the positive electrode A in the first layer electrode.
and negative electrode B, and the ions OH- and H+ are formed into O2 and H2 as molecular bonds. A conductor leading to the electrode is attached to the outside via a terminal 24 and connected to the electrode via a power distribution 23. The plus and minus electrodes are separated by a partition 25, and the collective electrodes are fixed by insulating grids 17 and 50.

Also, the packing 26 makes it easy to attach and detach.

In the second layer electrode, the positions of the first layer electrode, the positive electrode, and the negative electrode are opposite in polarity 23 due to the power distribution 23. Ionized OH- and H of rising water vapor
This is because + is mixed, and ions that are not decomposed by one layer of electrodes remain, and the remaining ions are made into molecular bonds by the inverted electrode layer 12.

In this way, by incorporating an oxygen generator and an air purifier into an air conditioner, a total system is formed in which oxygen generation and the natural environment are harmonized. Most of the energy is used for high-temperature steam vaporization, and less energy is required for electrolysis of high-temperature steam.

Figure 12 is a cross-sectional plane (a) and (b) showing an embodiment in which an air conditioning system-based oxygen generator and an air purifier are installed in the egg mold 1. 2. In the oxygen generator 3, water vapor is sent from the water tank 43 to the generator through a pipe 44, and from the water tank 39 with the heater 41 through the pipe 40 to the electrode tank of the oxygen generator. The temperature is controlled, and some of it becomes water and undergoes electrolysis, and much of it rises as high-temperature steam. The ionized water vapor is electrolyzed and released as oxygen O2. FIG. 13 shows the pores 46 of the egg mold 1, which is activated carbon 47 packaged in a ventilated bag, and air is blown out by a blower 49.

In this way, an oxygen generator and an air purifier are incorporated into a total air conditioner, creating a gas system that is small, easy to operate, and economically available at low cost.

When an air conditioning system configured as described above is operated indoors in a building or home where pressure is divided into a certain amount of space, it may cause problems in areas where oxygen is insufficient or mental health due to oxygen supplementation for cosmetic reasons. By refreshing or installing it in a workplace where there is a need to improve intelligence, the oxygen concentration improves, carbon dioxide gas decreases, the bond between oxygen and hemoglobin in the blood improves, blood circulation improves, and mental intelligence improves. becomes active and improves work efficiency.

For the above reasons, restoring the amount of oxygen in the air to a certain level will improve the efficiency of work, which is the business of modern people, heal the stressful mental life, improve the efficiency of studying, etc. It is effective in alleviating the lack of oxygen in people's lives.

As explained above, this invention has a simple structure that incorporates an air purifier and an oxygen generator into an air conditioning system, and can remove carbon dioxide gas CO2 from the air and generate new oxygen.
2, restores the amount of oxygen in the atmosphere in the natural environment, supplies oxygen better than the law of conservation of nature, and has the effect of suppressing the destruction of the natural environment and air pollution. There is.

In addition, as shown in Figure 14, if we measure the capacity of the oxygen generator and air purifier's carbon dioxide removal function, as well as the dehumidification, cooling, and high-temperature air conditioning systems, it is possible to The regeneration of the natural environment
1 is a flow chart diagram enabling the production of naturalized air; FIG. It is an efficient and extremely economical device.

[Brief explanation of drawings]

Figure 1 is a diagram showing the existence of sunlight angles in the relationship between the Earth and the sun, and the changes in the Earth's revolution and sunlight angle in the solar system. Figure 2 shows infrared rays that go straight to the earth and infrared rays as secondary heat rays.
A diagram of the ionizing wave band and electrostatic space caused by ultraviolet rays, etc. Figure 3 is an expansion and contraction diagram of the layers of the atmosphere surrounding the earth. Figure 4 is a map of climate events including the sun as seen from the earth. Figure 5 shows the evaporation of water vapor and the electrostatic diagram. Figure 6 shows a waveform model of the photon wave of sunlight, the waveform model of the photon converted into direct current, electric quantization, decomposition of molecules in covalent bonds by photon pulses, and stabilization of molecules. A hypothetical diagram of the formation and polarity of the ozone layer due to ultraviolet rays, etc. in the atmosphere. A diagram of ion permeation and oxygen molecule composition in the cell membrane. Figure 8 is a cross-sectional plan view (a) and a partial cross-sectional plan view (b) of an egg-shaped combination of plants and animals. Figure 9 is a vertical cross-sectional view of the oxygen generator and the air conditioning system. FIG. 10 is a partially enlarged vertical cross-sectional view (a) and an accessory diagram (b) of the air cleaning device. FIG. 11 is a partially enlarged vertical sectional view (a) and a collective electrode view (b) of the oxygen generator. FIG. 12 is a partial cross-sectional view showing an embodiment set in an egg mold. FIG. 13 is a partial cross-sectional view showing an embodiment. FIG. 14 is a flow chart diagram in an engineering scaled air conditioning system.

Claims (1)

[Scope of Claims] 1. In an air conditioning system in which an oxygen generator and an air purifier are integrated into one interconnected function and incorporated into the air conditioning system, and electrolysis of high temperature steam is fixed to the generator of the oxygen generator. , equipment for air conditioning systems equipped with oxygen generators and air purifiers. 2. An air conditioning system having the oxygen generator according to claim 1, which incorporates electrolysis of high-temperature steam into the air conditioning system. 3. An air conditioning system having an air purifying mechanism according to claim 1, wherein a chemical reaction tank is attached to reduce carbon dioxide concentration, etc., and the purifying device is configured by bubbling air. 4 Hydrogenize water vapor H_2O with a substance such as potassium chloride.
2. The oxygen generating device by ionizing water vapor according to claim 1, wherein oxygen molecules are produced by electrolysis by atomizing and ionizing _2O into gas ionization.