KR20250015294A - Photon Oxygen Therapy System - Google Patents

Abstract

The present invention is a device that continuously delivers photons, the most important factor in photon (photon) therapy, to the human body through respiration using oxygen molecules in the air as a medium. When photons enter the human body, they can be expected to have the effect of enhancing blood circulation and immunity, allowing the human body to treat related diseases and imbalances on its own. This device has the advantage of eliminating the need for patients to go through the cumbersome process of having blood drawn in person at a hospital for UBI (Ultraviolet Blood Irradiation) photon therapy. In addition, treatment can be conveniently performed at home or in the office at any desired time and as much as desired. In addition, the photon lamp used here is mainly a UV (Ultra Violet) lamp, and since the UV lamp sterilizes air contaminated with viruses and bacteria, it can also be used as an air sterilizer.

Description

{Photon Oxygen Therapy System}

The present invention relates to a system for continuously delivering photons to the human body through respiration, wherein the air outside the equipment is introduced into a photon irradiation section composed of a reflective wall, and ultraviolet photons are irradiated inside the photon irradiation section using a UV (Ultra Violet) lamp to electrically excite oxygen molecules in the air, sterilize various bacteria and viruses, and expel them, thereby providing a therapeutic effect to patients suffering from diseases or difficulties related to immunity or blood circulation, etc.

UBI(Ultraviolet Blood Irradiation) Photon therapy is a treatment using ultraviolet rays that began in the United States in the 1930s. It is a treatment method in which a portion of blood (approximately 50 to 500 cc) is collected from a person, irradiated with photons (ultraviolet rays, especially UV-C is used a lot), and then put back into the body. At this time, oxygen is added to the collected blood to increase the treatment effect. After treatment, patients show treatment effects such as enhanced blood circulation, enhanced immunity, detoxification, and antibacterial and antiviral effects.

UBI photon therapy has a dramatic effect, especially in terms of enhancing blood circulation. The amount of oxygen in the veins increases by 58% after 10 minutes of treatment, and this effect lasts for about 30 days. In addition, blood viscosity decreases by about 50%, peripheral blood vessels expand, and fibrin dissolution in the blood is stimulated, improving blood circulation (especially microcirculation). UBI photon therapy also destroys bacteria in the human body and enhances immunity. Photons administered through photon therapy cause a chemical reaction that penetrates the membranes of viruses or bacteria cells in the collected blood, killing them and recognizing them at the same time. This stimulates the immune system, and the autologous vaccines stimulated and strengthened in this way fight against pathogens. Accordingly, photon therapy is known to be effective in treating about 80 incurable diseases. These incurable diseases are mostly caused by immune imbalances, and photon therapy is effective in treating these incurable diseases by improving the immune imbalance. Photon therapy also has a detoxification effect on toxins, such as snakebites, rabies, or sepsis. When there are toxins in the blood, small fat particles called chylomicrons become entangled with each other. When photon therapy is performed, these entanglements are released, and Brownian motion occurs smoothly, which leads to detoxification of toxins. In addition, photon therapy is also showing good therapeutic effects on viral diseases that do not respond well to antibiotics (chronic hepatitis, herpes, AIDS) and diseases related to super bacteria that have become resistant to antibiotics.

All cells in the human body undergo chemical reactions up to about 100,000 times per second, and these chemical reactions can only occur when cells are stimulated by photons. In photon therapy, a very small amount of blood, approximately 1-5% of the total blood, is first irradiated with photons (ultraviolet rays), and this blood is then injected back into the body and travels throughout the body, where secondary irradiation occurs. This secondary irradiation maximizes the therapeutic effect. At this time, the light that is secondarily irradiated has a longer and more diverse wavelength than the light that was first irradiated. Therefore, even if a short, single-wavelength ultraviolet ray is irradiated, various, long-wavelength lights are secondarily irradiated after entering the body.

When short-wavelength UV rays are irradiated to oxygen molecules in the air, they become electrically excited, which is comparable to the primary UV irradiation of blood in UBI photon therapy. These electrically excited oxygen molecules enter the body through breathing, and these oxygen molecules bind to red blood cells and travel throughout the body, performing secondary irradiation.

UV-C sterilization is a method of sterilization using ultraviolet rays. Ultraviolet rays are light with a wavelength range of 10 to 400 nm (energy range of 3 eV to 124 eV), and are a general term for electromagnetic waves with a wavelength shorter than visible light and longer than X-rays. Among the above ultraviolet rays, UV-C with a wavelength range of 100 to 280 nm and energy range of 4.43 to 12.4 eV has a sterilizing effect.

As for the prior art related to photon (photon) oxygen therapy through air breathing as mentioned above, it is believed that there is no similar public patent in Korea, and information on related technology has not been found yet in foreign countries. In particular, in Korea, the introduction history of photon therapy (mid-2000s) is not long, and the spread is slow due to the expensive treatment equipment problem, and since 'photon therapy' usually refers to the UBI method, it is not yet well known that photons can be delivered through oxygen in the air.

‘Healing Photons’, Kenneth J. Dillon Ph.D., Scientia Press, 1998. ‘Healing Photon, Light Saves People.’ Written by Kenneth Dillon, translated by Woo-ryong Kim, Booker Books, 2012.

The present invention is a safe treatment that shows excellent therapeutic effects in various aspects of UBI photon therapy and has almost no side effects caused by drugs, etc. However, this treatment has several problems in use, and this invention was created to supplement these problems. The first problem in using UBI photon therapy is that this treatment is very expensive, because the treatment device itself is a very expensive imported device, which leads to an increase in treatment costs. In addition, for this treatment, the patient must visit a hospital and go through the cumbersome process of having a licensed medical professional draw the patient's blood, irradiate it with ultraviolet rays, and then inject it back into the body. Therefore, the purpose is to provide a photon oxygen treatment system through air breathing that can easily supply photons to mild patients and the general public at any time and place they want.

The photon oxygen therapy system for achieving the above purpose is configured with an air intake port (150) that draws in air from outside the equipment, a photon irradiation unit (40) that is exposed to a photon lamp light source, a main body air outlet port (28) that discharges air containing photons to the outside of the equipment, and a control unit (50) that turns on the photon lamps (31, 32, 33, 34) and drives a blower fan (170).

The air intake (150) forms a passage that draws air from outside the equipment into the inside, and a filter (11) is configured inside to filter out dust in the air.

The photon irradiation unit (40) forms a wall using an object such as metal that can act as a reflector, thereby reflecting the lamp light source. The interior of the photon irradiation unit (40) is composed of photon lamps (31, 32, 33, 34) and air flow guide walls (41, 42, 43), so that air entering the interior passes through the first photon irradiation zone (22), the second photon irradiation zone (23), the third photon irradiation zone (24), and the fourth photon irradiation zone (25) in sequence, and in this process, is irradiated with photons from the photon lamps (31, 32, 33, 34).

The main body air outlet (28) is the final passage for discharging air containing photons to the outside of the system (1), and is discharged using the pressure of a blower fan (170) formed on one side of the photon irradiation unit air outlet (26).

The control unit (50) is composed of a lamp ballast circuit (61) that lights up the photon lamps (31, 32, 33, 34), a UV sensor (51) that measures the amount of light from the photon lamps (31, 32, 33, 34), a wind speed sensor (52) that measures the wind speed within the photon irradiation unit (40), a blower fan drive circuit (62) that receives an electric signal to drive the blower fan (170), and a microprocessor (63) that controls the entire circuit.

The above photon lamp can be used by selecting any one of UV-A, UV-B, or UV-C lamps, and can also be used as a simple air sterilizer if the user does not need a photon supply.

Before the air passing through the above air intake port (150) enters the photon irradiation unit air intake port (21), oxygen generated from an oxygen generator is added to increase the oxygen concentration in the air and maximize photon transmission.

In the air flow within the above photon irradiation section (40), vortex and countercurrent phenomena occur. First, with regard to the vortex phenomenon, the hook-shaped primary vortex generating plate (44) causes the air to flow out and touch the left side of the primary vortex generating plate (44) as it passes from the primary photon irradiation zone (22) to the secondary photon irradiation zone (23), thereby causing a vortex phenomenon and mixing the air. The secondary vortex generating plate (45) and the tertiary vortex generating plate (46) also cause vortex phenomena and mix the air. With regard to the countercurrent phenomenon, there are three air return plates (47, 48, 49), which are characterized by having the function of countercurrently flowing air with relatively insufficient photon irradiation from the tertiary photon irradiation zone (24) to the secondary photon irradiation zone (23).

The photon oxygen therapy system through air breathing of the present invention purifies air containing dust and various bacteria and viruses with a photon lamp and non-woven fabric, and supplies air in which photons have been sufficiently irradiated on oxygen molecules in the air using a UV lamp, thereby supplying the photons necessary for the patient, thereby allowing the patient to conveniently experience similar treatment effects at a desired location instead of receiving expensive UBI photon therapy at a hospital.

Figure 1 is a configuration diagram of the photon oxygen therapy system of the present invention.
Figure 2 is a cross-sectional view and air flow diagram of the photon oxygen therapy system of the present invention.
Figure 3 is a diagram showing the configuration of an air vortex and countercurrent generating device of the photon oxygen therapy system of the present invention.
Figure 4 is a control unit configuration diagram of the photon oxygen therapy system of the present invention.
Figure 5 is a configuration diagram of the photon oxygen therapy system of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the attached drawings. In describing the present invention below, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description is omitted.

And the terms described below are terms defined in consideration of their functions in the present invention, and may vary depending on the intention or custom of the user or operator. Therefore, their definitions should be made based on the contents throughout this specification.

Figure 1 is a configuration diagram of a photon oxygen therapy system through air breathing, Figure 2 is a cross-sectional diagram and air flow diagram of a photon oxygen therapy system, Figure 3 is a configuration diagram showing an air vortex and countercurrent generating device during photon irradiation of a photon oxygen therapy system, Figure 4 is a configuration diagram of a photon oxygen therapy system control unit, and Figure 5 is a layout diagram of a photon oxygen therapy system.

Referring to Figures 1 to 3, a detailed explanation is given.

The system (1) of the present invention is configured by forming an outer case with a material such as plastic and forming an oxygen generator (180), a photon irradiation unit (40), a photon air outlet unit (27), and a control unit (50) inside.

The above system (1) forms an air intake (150) on the upper rear side to draw in external air, and a filter (11) is formed inside the air intake (150), the photon irradiation unit (40) is formed of a metal such as aluminum with light reflection characteristics, and the inside of the photon irradiation unit (40) is formed with a photon lamp (31, 32, 33, 34), an air flow guide wall (41, 42, 43), a vortex generating plate (44, 45, 46), an air return plate (47, 48, 49), a UV sensor (51), and a wind speed sensor (52), and a blower fan (170) is formed on one side of the photon irradiation unit air outlet (26), and a photon air outlet (27) for discharging photon air and a main body air outlet (28) are formed, and a photon irradiation unit (40) is formed on one side. It is composed of a control unit (50).

The air intake (150) through which outside air is drawn in is positioned at the upper rear end of the system (1) so that air with relatively less contamination such as dust is drawn in, and the main body air outlet (28) is positioned at the upper front end of the system (1) so as to be close to the user's nose and mouth. On the other hand, the air intake (21) and air outlet (26) of the photon irradiation unit (40) inside the system (1) are positioned at the bottom so that the photon beam emitted through the air intake (21) and air outlet (26) of the photon irradiation unit (40) is not directly irradiated outside the system (1).

When outside air enters the interior of the system (1) through the air intake (150), the air first passes through a filter (11) using non-woven fabric or the like, and dust in the air is removed during this process.

The air that has passed through the above filter (11) enters the photon irradiation unit (40) together with the oxygen generated from the oxygen generator (180).

The above oxygen generator (180) simply generates oxygen using solid powder potassium superoxide (KO ² ) without a complex mechanical device. When potassium superoxide (KO ² ) contained in a container meets carbon dioxide (CO ² ) and water vapor (H ² O) in the air, a chemical reaction occurs to form potassium bicarbonate (KHCO ³ ) and oxygen (O ² ). The principle is that potassium bicarbonate remains in the container and only oxygen is emitted. Since potassium superoxide (KO ² ) rapidly undergoes a chemical reaction when it comes into direct contact with moisture, a membrane with countless microscopic holes is attached to the top of the container containing potassium superoxide (KO ² ) to prevent direct inflow of liquid moisture.

The air that enters the photon irradiation unit (40) through the above photon irradiation unit air intake port (21) passes through the first photon irradiation zone (22), the second photon irradiation zone (23), the third photon irradiation zone (24), and the fourth photon irradiation zone (25) in sequence, and in this process is irradiated with photons from the photon lamps (31, 32, 33, 34), and passes through the photon irradiation unit air outlet port (26), the blower fan (170), the photon air outlet port (27), and the main body air outlet port (28) in sequence, thereby discharging the air containing photons to the outside of the system (1).

The above photon irradiation lamp can use UV-A, UV-B, and UV-C lamps, but UV-C is mainly used because it has the highest energy and can irradiate the widest range of wavelengths in secondary irradiation. (Reference: Healing Photons, Kenneth J. Dillon Ph.D., Scientia Press, 1998.) UV-C lamps are lamps that emit ultraviolet-C rays, and the wavelength of ultraviolet-C is 100 to 280 nm. However, ultraviolet rays with a wavelength less than 200 nm should not be used here, because the energy of ultraviolet rays goes beyond the range that simply electrically excites oxygen molecules, and it generates ozone, which is harmful to the human body, by decomposing oxygen molecules.

In Fig. 2, the flow of air inside the system (1) is indicated by arrows in a cross-sectional view of the system (1).

Fig. 3 shows a part that causes vortex and countercurrent phenomena in the air flow within the photon irradiation section (40). As the air flows from the first photon irradiation zone (22) to the second photon irradiation zone (23), the first vortex generating plate (44) in the shape of a hook causes the air to flow out and touch the left side of the first vortex generating plate (44), thereby causing a vortex phenomenon and mixing the air together. The second vortex generating plate (45) and the third vortex generating plate (46) also cause a vortex phenomenon and evenly mix the air together, which causes the air that has been irradiated with a relatively large amount of photons and the air that has been irradiated with a small amount of photons to mix with each other, thereby ensuring that the entire air is evenly irradiated with photons.

In Fig. 3, there are also three air return plates (47, 48, 49), which serve to reversely flow air with relatively little photon irradiation from the third photon irradiation zone (24) to the second photon irradiation zone (23). That is, air with relatively much photon irradiation in the third photon irradiation zone (24) flows to the fourth photon irradiation zone (25), and air with relatively little photon irradiation flows between the funnel-shaped first air return plate (47) and the second air return plate (48) to the second photon irradiation zone (23). To this end, the third air return plate (49) is installed to increase the air pressure inside the three air return plates.

Referring to Figure 4, a detailed explanation is given.

The above control unit (50) is composed of a lamp ballast circuit (61) that lights up the photon lamps (31, 32, 33, 34), a UV sensor (51) that measures the amount of light from the photon lamps (31, 32, 33, 34), a wind speed sensor (52) that measures the wind speed within the photon irradiation unit (40), a blower fan drive circuit (62) that receives an electric signal to drive the blower fan (170), and a microprocessor (63) that controls the entirety of the circuit.

The above control unit (50) adjusts the wind speed of the blower fan (170) so that the photon irradiation amount of the photon irradiation unit (40) is a certain amount or more based on the amount of light measured by the UV sensor (51).

Referring to Figure 5, a detailed explanation is given.

This system (1) places the main body air outlet (28) close to the nose of the user (or patient) (200) so that the air irradiated with photons is discharged from the respiratory tract of the user (200), thereby allowing the user (200) to breathe before the air irradiated with photons disperses to the surroundings. At this time, in order to maximize the amount of air breathed with photons, a positive pressure mask (201), etc. may be connected to the main body air outlet (28) and used.

1. System
11. Filter
21. Photon irradiation unit air intake
22. 1st photon survey area
23. Secondary photon irradiation area
24. 3rd photon survey area
25. 4th photon survey area
26. Photon irradiation unit air exhaust port
27. Photon air outlet
28. Body air outlet
31. 1st photon lamp
32. Secondary photon lamp
33. 3rd photon lamp
34. 4th photon lamp
40. Photon Research Department
41. Primary airflow guide wall
42. Secondary airflow guide wall
43. 3rd airflow guide wall
44. 1st eddy current generating plate
45. Secondary vortex generating plate
46. 3rd eddy current generating plate
47. Primary air return plate
48. Secondary air return plate
49. 3rd Air Return Plate
50. Control Unit
51. UV sensor
52. Wind speed sensor
61. Lamp ballast circuit
62. Blower fan drive circuit
150. Air intake
170. Blower fan
180. Oxygen generator
200. User (or Patient)
201. Pressure Mask

Claims (9)

An air intake (150) that draws air from outside the equipment into the inside; and
A photon irradiation section (40) that is exposed to a photon lamp light source; and
A body air outlet (28) that discharges air containing photons to the outside of the equipment; and
A photon oxygen therapy system characterized by comprising a control unit (50) that lights up photon lamps (31, 32, 33, 34) and drives a blower fan (170).
In paragraph 1,
The air intake (150) is
A photon oxygen therapy system characterized by forming a passage that allows air from outside the equipment to flow inward and configuring a filter (11) inside to filter out dust in the air.
In paragraph 1,
The photon investigation department (40)
A photon oxygen therapy system characterized by reflecting a lamp light source by forming a wall using an object such as metal that can act as a reflector.
In the third paragraph,
A photon oxygen therapy system characterized in that the interior is composed of photon lamps (31, 32, 33, 34) and air flow guide walls (41, 42, 43), so that air entering the interior passes through the first photon irradiation zone (22), the second photon irradiation zone (23), the third photon irradiation zone (24), and the fourth photon irradiation zone (25) in sequence, and is irradiated with photons from the photon lamps (31, 32, 33, 34) during this process.
In paragraph 1,
The main body air outlet (28) is
A photon oxygen therapy system characterized in that it discharges air containing photons by using the pressure of a blower fan (170) formed on one side of an air discharge port (26) of a photon irradiation unit as a final passage for discharging air containing photons to the outside of the system (1).
In paragraph 1,
The control unit (50) is
A photon oxygen therapy system characterized by comprising a lamp ballast circuit (61) that lights up a photon lamp (31, 32, 33, 34), a UV sensor (51) that measures the amount of light of the photon lamp (31, 32, 33, 34), a wind speed sensor (52) that measures the wind speed within a photon irradiation unit (40), a blower fan drive circuit (62) that drives a blower fan (170) and a microprocessor (63) that controls the entire system.
In paragraph 6,
The above photon lamp can be used by selecting any one of UV-A, UV-B, and UV-C lamps, and is a photon oxygen therapy system characterized in that it can also be used as a simple air sterilizer when the user does not need a photon supply.
In claim 1,
A photon oxygen therapy system characterized in that the air passing through the above air intake port (150) is added with oxygen generated from an oxygen generator before entering the photon irradiation unit air intake port (21) to increase the oxygen concentration in the air and maximize photon transmission.
In claim 1,
A photon oxygen therapy system characterized in that it causes vortex and countercurrent phenomena in the air flow within the photon irradiation section (40). First, with regard to the vortex phenomenon, the first vortex generating plate (44) in the shape of a hook causes the air to flow out and touch the left side of the first vortex generating plate (44) as it passes from the first photon irradiation zone (22) to the second photon irradiation zone (23), thereby causing a vortex phenomenon and mixing the air. The second vortex generating plate (45) and the third vortex generating plate (46) also cause vortex phenomena and mix the air. With regard to the countercurrent phenomenon, it has three air return plates (47, 48, 49), which serve to countercurrent air with relatively insufficient photon irradiation from the third photon irradiation zone (24) to the second photon irradiation zone (23).