KR100926584B1 - Medical treatment system having a glass lamp contained nano metal - Google Patents

Abstract

PURPOSE: A treatment apparatus equipped with a glass lamp is provided, which can produce oxygen conductive materials with sterilizing power on the end of a probe under the low current environment. CONSTITUTION: A treatment apparatus equipped with a glass lamp comprises a power supply unit(110) which supplies the power to the treatment apparatus; a stabilizer(120) which converts power supplied from the power supply unit into voltage of 1500-30000V or frequency of 450-1280Hz; a controller(130) which is connected to a stabilizer and controls the whole system while selecting and controlling output frequency according to treatment site; a ground(140) which is contacted to the portion of a patient body and is connected to the controller; a user interface(150) including an output intensity control switch timer, a speaker, and a display unit; and a handpiece(160) which is connected to a stabilizer and is comprised of various contact ends.

Description

Medical treatment system having a glass lamp contained nano metal

The present invention relates to a treatment device equipped with a glass lamp containing a nano-metal, and more particularly to contact the inflammation and wound site to more effectively treat inflammation and wounds caused in various body parts by bacteria and viruses. The cold cathode fluorescent lamp constituting the probe of the treatment device and the glass tube surrounding the outside are mixed with nano metals (platinum, silver) to generate a large amount of oxygen conductors that are bactericidal to bacteria and viruses, thereby providing a therapeutic effect in a low current environment. The present invention relates to a therapeutic apparatus including a glass lamp containing a nano-metal capable of irradiating oxygen conductors effectively to inflammation and wounds occurring in various body parts by constructing a contacting end of the probe in a suitable shape suitable for treatment purposes. will be.

Metal nanotechnology is applied in various ways in daily life, and nano metal is harmless to human body and has strong sterilization function, and coating or compounding it on the surface of product can prevent habitat of bacteria or mold.

The biggest advantage of nano metal is that it has superior antimicrobial effect than any organic antimicrobial agent, and gold, platinum and silver nano powders have their own properties such as catalytic, conductivity, antimicrobial, deodorization, and far infrared emission as the particles get smaller. The effect is very small.

Due to such characteristics, nano metals are used for various applications such as home appliances, antibacterial cosmetics, antibacterial fibers, and antibacterial plastics.

For example, Nucryst Phamaceuticals, Inc. (US 6,692,773), for the treatment of hyperproliferative skin diseases and diseases, discloses the use of metals of silver, gold, platinum, palladium, alloys or compounds thereof in nanocrystalline form of 100 nm or less, It provides a coating material having an antiproliferative effect.

 In addition, KINKI PIPE GIKEN (Japanese Patent Application Laid-Open No. Hei 1-313531) discloses a synthetic resin molded article in which the powder particles of water-soluble glass containing monovalent silver in a resin are supported on a synthetic resin molded article. Disclosed is a synthetic resin molded article comprising a borosilicate antimicrobial glass that elutes antimicrobial silver ions while dissolving the glass upon contact.

However, the above prior arts only provide a passive effect that is destroyed only when the bacteria and viruses are in direct contact with the nano metal, and are not developed as therapeutic medical devices.

Therefore, there is a need for the development of a suitable treatment device for actively treating inflammation and wounds of various body parts caused by bacteria and viruses.

The present invention is prepared by combining nano metals (platinum, silver) in the cold cathode fluorescent lamp of the probe and the glass tube surrounding the outside thereof, so that oxygen conductors that are bactericidal to bacteria and viruses inherent to inflammation and wounds, etc. It is an object of the present invention to provide a treatment device equipped with a glass lamp containing a nano metal that can be produced in a large amount even in a low current environment at the contact end.

In addition, the contact ends of the probes can be shaped in various ways so as to be in close contact with various body parts that cause inflammation and wounds, so that oxygen conductors that are bactericidal can be investigated more effectively against bacteria and viruses in the inflammation and wound areas. Another object is to provide a treatment device equipped with a glass lamp containing a nano metal.

The present invention as a technical idea for achieving the above object, the power supply for making a field voltage from the alternating current; A ballast capable of converting a commercial voltage supplied from the power supply unit into a high voltage and a high frequency using an electronic circuit; A control unit connected to the ballast for selecting and controlling a control frequency according to the treatment purpose and site, and controlling the entire system; A ground electrode connected to the control unit and in contact with a part of the body of the patient; A user interface including a power supply, an output intensity control switch, a timer, a speaker, and a display of the system; Provided is a treatment device provided with a glass lamp containing a nano-metal, characterized in that the handpiece is connected to the ballast and comprises a handpiece consisting of a contact portion of various shapes to meet the treatment purpose.

As described above, the treatment device equipped with a glass lamp containing a nano-metal according to the present invention is sterilizing power by the catalytic action of the nano-metal (platinum, silver) compounded in the cold cathode fluorescent lamp of the probe and the glass tube surrounding the outside By generating a large amount of oxygen conductors, the bactericidal power and therapeutic ability of the treatment device are effectively increased, and there is an effect of directly killing bacteria and viruses by silver ions generated from silver nanoparticles incorporated into the probe.

In addition, since the contact ends of the probes having various shapes are usefully contacted with various body parts caused by bacteria and viruses, there is also an effect that the oxygen conductors with sterilizing power can be more effectively investigated for inflammation and wounds.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the overall appearance of a treatment device equipped with a glass lamp containing a nano-metal according to an embodiment of the present invention.

The treatment apparatus of the present invention is a cold electrode that generates a sterilizing oxygen conductor from the ground electrode 140 in contact with a part of the body of the patient connected to the connector on one side of the solid and non-conductive body 170, and ozone and oxygen in the atmosphere A probe composed of a cathode fluorescent lamp and a glass tube surrounding the outside thereof is detachable and attachable, and the handpiece 160 connected to the control panel panel 180 by a spiral cable as a connector, on / off and output of the system The control panel includes a control panel 180 including a knob for adjusting the intensity, a mode selection switch including a timer, a display unit capable of displaying an output intensity and monitoring a patient current and an operation state.

In addition, the treatment device is attached to a plurality of casters are movable, and is located on the top of the table 190 having a drawer that can accommodate a plurality of probes and other medical equipment required for treatment, so as to add convenience to the treatment. Can be.

Figure 2 is a block diagram showing the configuration of a treatment device equipped with a glass lamp containing a nano metal according to an embodiment of the present invention.

The treatment apparatus provided with a glass lamp containing a nano metal according to an embodiment of the present invention uses a power supply unit 110 for supplying power required for the entire system and a commercial voltage supplied from the power supply unit 110 using an electronic circuit. Field voltage of 1500V to 30000V and high frequency of several tens of kHz for discharging the cold cathode fluorescent lamp of the probe, and a control frequency connected to the ballast 120 for selecting and outputting a control frequency for each treatment site; At the same time, the control unit 130 for controlling the entire system, such as turning off the system automatically when the excess current flows to the patient, the ground electrode 140 connected to the control unit and in contact with the part of the patient, the on / User interface including a display for checking off, power intensity control switch, timer, speaker, patient current monitoring and operation status (1) 50) and a handpiece 160 which generates an oxygen conductor from ozone or oxygen in the atmosphere and has a probe having various shaped contact ends for treatment purposes, and a handle to which the probe is mounted.

The control unit 130 for selecting and outputting a control frequency suitable for treatment purposes has an average output frequency of 1200 Hz, in particular, a frequency of 450 Hz to 1280 Hz is useful for treating skin ulcers, and a frequency of 1120 Hz to 1240 Hz is used for treating caries. useful.

The probe of the handpiece 160 is composed of an electrode for transmitting a high voltage to the cold cathode fluorescent lamp, a cold cathode fluorescent lamp and a glass tube surrounding the outside thereof, and the cold cathode fluorescent lamp is inflamed with a double structure having a hollow interior. And a contact end for irradiating the oxygen conductor to the wound site.

In addition, the cold cathode fluorescent lamp and the glass tube surrounding the outside are made of the same material, the composition of the composition consists of 80 to 90 volume percent glass, 5 to 10 volume percent nano platinum and 5 to 10 volume percent silver nano. Or, it is preferably configured so that the glass is 90 to 95 volume percent and nano platinum or silver nano is 5 to 10 volume percent.

A fluorescent layer is coated on the inner wall surface of the cold cathode fluorescent lamp, and a predetermined amount of mercury and a rare earth gas or rare earth gas of at least one of rare earth gases such as argon, radon, helium, neon, krypton, and xenon are inside the cold cathode fluorescent lamp. Filled with a mixture, when a high voltage is applied to an electrode at one end, electrons in a cold cathode fluorescent lamp move to the electrode at a high speed, and discharge is caused by secondary electrons generated by electron collision with the electrode, and the electric field is continuously discharged through the secondary electrons. Sterilizing ionized oxygen (O ^{2 −} , O ^{2 +} ) and oxygen atoms (O) are produced from ozone and atmospheric oxygen in the atmosphere. Furthermore, the oxygen conductors (O ^{2 −} , O ^{2 +} , O ^{2 +} , O ^{2 +} , O ^{2 +} , from the atmospheric oxygen) are formed by nano platinum and silver nano compounds incorporated into cold cathode fluorescent lamps and glass tubes surrounding the outside thereof. Since the production of O) is accelerated rapidly, the amount of oxygen conductors generated and the sterilizing power are increased in comparison with the probe without nano platinum and / or silver nano on the same current.

In addition, in the case of the blended silver nano, in addition to the catalyst to generate oxygen conductors from ozone and oxygen in the atmosphere, silver ions are generated, so that bacteria and viruses are directly sterilized. Most bacteria and viruses contain substances that bind strongly to silver ions, and silver ions generated from the silver nanoparticles incorporated into the probe bind strongly to the substance to form compounds, thereby producing bacteria and viruses in cells. Interfere with and kill hydrogen transfer necessary for metabolism.

Due to the large amount of oxygen conductors and silver ions generated by the present invention, it is preferable to remove bacteria, to infect wounds, pressure sores, toenail infections, acne, headaches, migraines, psoriasis, neurodermatitis, muscle inflammation To treat common motor injuries, common skin diseases, diseases of the gynecological system, eye diseases, tumors, dermatitis, infectious skin diseases, hair and sebaceous gland diseases, keratinization problems, blisters forming skin diseases, malignant diseases of the skin, warts and dental diseases Especially suitable.

For example, when using a treatment device equipped with a glass lamp containing a nano-metal of the present invention, malignant inflammation of dermatology can be cured when irradiated for about 30 seconds to 2 minutes 30 seconds, and in dental treatment, about 20 seconds to At 60 seconds all bacteria are removed.

It is preferable that the treatment apparatus provided with the glass lamp containing the nano metal of the present invention be used in the following application areas.

Herpes zoster / Decubitus Afphous stomatitis Herpes [Lapialis] Myarthropathies Eczema, Dermatitis / Lichen Wound gealine disorder Bacteria infections Burns / Frost bites Psoriasis Ulcer cruris / External ulcers / Skin lesions Acne / Acne / Boil (Acne / Furuncle) Candidasis / Mykosis Warts Deiseases of the scalp and the hair root Scalp Head Root Disease (Artheroma) Cervical and cervico-encephal pain syndroms Pain along the vertical spine Migraine Neuralgia Enthesiopathias / Insertion tendinoses at shoulders, ellbow, knee joint Infectious Mononucleosis / Herpangina Achillodynias with paratenonitis achillea, etc. Arthrosis (Arthropathias, Osteoarthritis, Gonarthrosis) Arthritis / Gonarthritis Hematoma Rheumatic diseases Hematoma / Perichondrium Treatment after injury of ear and drum membtane Inflammation of the external ear / Otitis Bacterial Eczema (Microbian eczema) Boil / External inflammation External diffuse inflammation Internal inflammation Hardly closing wound / inflammation Bleeding from the nose Stomatitis Inflammation of the tongue Abs on tongue and floor of the mouth Tonsillitis Pharyngitis

3 to 12 are views showing a preferred embodiment of the probe according to an embodiment of the present invention, Figure 13 is a cross-sectional view showing a cross section of the therapeutic probe according to an embodiment of the present invention.

The probe consisting of a cold cathode fluorescent lamp of the present invention and a glass tube surrounding the outside thereof may be variously shaped according to the treatment purpose and the treatment site.

As shown in FIG. 3, a glass tube 10 having a double tube structure including a cold cathode fluorescent lamp having a hollow interior and a glass tube surrounding the outside thereof is sealed at one end of the cold cathode fluorescent lamp and the outer glass tube. It consists of an electrode 11 to be connected and a contact end portion 12 of a curved shape bent like a bow formed at the other end thereof.

The electrode 11 positioned at one end of the glass tube 10 having a double tube structure is connected to the cup electrode 11A having the conductive cup-shaped electrode 11A and the glass tube 10 having the double tube structure, and connected to the cup electrode 11A. 11B), when a high voltage (high frequency) is applied to the electrode 11, electron emission by an electric field occurs from the electrode 11.

Contact end 12 of the curved, so bent to efficiently be brought into contact with the body with a winding that is not flat, large surface area, the generated oxygen conductor being (O ^{2 -,} O ^{2 +,} O) to the treatment site Effectively, it is possible to temporarily kill germs and viruses in a wide area even with a single irradiation.

In the case of such a therapeutic probe, the surface area of the legs, arms, back, neck, face, etc. is mainly wide, and it is preferable to treat inflammation and wounds of curved areas.

The therapeutic probe shown in FIG. 4 is sealed in a glass tube 10 having a double tube structure consisting of a cold cathode fluorescent lamp having a hollow interior and a glass tube surrounding the outside, and one end of the cold cathode fluorescent lamp and the outer glass tube. The electrode 11 to be connected is the same as that shown in FIG. 3, and is characterized in that the contact end 13 is formed by bending about 15-30 ° formed in the other end in one direction, preferably inflammation. And small diameters for sterilization and treatment as sweeping surfaces such as wounds, or for treating inflammation and wounds in small diameter spaces such as the ear and nasal passages.

The therapeutic probe shown in FIG. 5 is sealed at one end of the glass tube 10 having a double tube structure, the cold cathode fluorescent lamp and the outer glass tube having a hollow cathode and a glass tube surrounding the outside thereof. The electrode 11 to be connected and the contact end 14 formed by bending about 15 to 30 ° in one direction are the same as those shown in FIG. 4, and the diameter of the contact end 14 is increased. It is characterized by further having a small sphere.

In the case of such a therapeutic probe, it can be advantageously applied to local treatment because it is possible to focus on the sterilizing oxygen conductors in a narrow area, especially the inner cheeks of the mouth or the lower part of the tongue and inflammation of the tonsils of the neck. It is preferable to use to treat the.

The therapeutic probe shown in FIG. 6 is sealed in a glass tube 10 having a double tube structure consisting of a cold cathode fluorescent lamp having a hollow interior and a glass tube surrounding the outside, and the cold cathode fluorescent lamp and one end of the outer glass tube. The electrode 11 to be connected is the same as that shown in FIG. 3, and the other end thereof is composed of a bell-shaped contact end portion 15 in which the contact portion is formed concavely, and the curved joint portion of the knee, elbow, shoulder, etc. It is suitable to cure.

 The therapeutic probe shown in FIG. 7 is sealed at one end of the glass tube 10 having a double-tube structure, the cold cathode fluorescent lamp and the outer glass tube having a hollow inside and a glass tube surrounding the outside. The electrode 11 to be connected is the same as that shown in FIG. 3, and the other end is composed of a contact end 16 having a large cylindrical shape and a convex end. Such therapeutic probes are preferably primarily for treating the cervical neck or for treating the eyelids and the eyes.

The therapeutic probe shown in FIG. 8 is a glass tube 10 having a double tube structure consisting of a cold cathode fluorescent lamp having a hollow interior and a glass tube surrounding the outside, and sealed at one end of the cold cathode fluorescent lamp and the outer glass tube. The electrode 11 is connected to the same as shown in Figure 3, characterized in that consisting of the contact end portion 17 is formed at an angle of about 90 ° in one direction from the upper third portion of the other end portion In particular, the angular contact end 17 is composed of two ends in a V-shape, it is useful for treating neck areas, fingers, between the toes and the like.

The therapeutic probes (A) and (B) shown in FIG. 9 are probes suitable for treating scleroderma myopathies (Artheroma), which are diseases caused by bacteria of the scalp or hair follicles, for example, and include a glass tube 10 having a double tube structure, and The electrode 11 of one end is the same as that shown in Fig. 3, and in the case of (A), the lower end 18A is extended and coupled so that the overall probe shape becomes a 'c' shape at 1/2 of the other end thereof. The upper end 18B and the lower end 18C extend in opposite directions so that the entire probe shape becomes a 'ㅌ' shape at half of the other end in the case of (B). It is characterized in that the end is coupled and the end is a hemispherical contact end.

The therapeutic probe shown in FIG. 10 is sealed in a glass tube 10 having a double tube structure consisting of a cold cathode fluorescent lamp having a hollow interior and a glass tube surrounding the outside, and the cold cathode fluorescent lamp and one end of the outer glass tube. The electrode 11 to be connected is the same as that shown in FIG. 3, and a scale of depth or length in gynecological treatment or insertion where the depth is other than that in a portion of the glass tube 10 of the double tube structure. It is characterized in that a sphere having a diameter of R is additionally configured, and the other end of the glass tube 10 of the double tube structure is composed of a conical contact end 19.

The therapeutic probe shown in FIG. 11 is sealed in a glass tube 10 having a double tube structure consisting of a cold cathode fluorescent lamp having a hollow interior and a glass tube surrounding the outside, and the cold cathode fluorescent lamp and one end of the outer glass tube. The electrode 11 to be connected is the same as that shown in FIG. 3, and the other end is composed of a contact end 20 which is bent in one direction by about 5 to 10 ° and the end is formed in a hemispherical shape.

The therapeutic probe shown in FIG. 12 is sealed in a glass tube 10 having a double tube structure consisting of a cold cathode fluorescent lamp having a hollow interior and a glass tube surrounding the outside, and the cold cathode fluorescent lamp and one end of the outer glass tube. The electrode 11 to be connected is the same as that shown in FIG. 3, and is composed of a contact end 21 having a protrusion shape in which the other end thereof is shifted at a predetermined interval, and is preferably used for medical treatment of a gynecologist. It is useful for treating inflammation and wounds between the fingers and the toes or for minute areas such as nails and toenails.

FIG. 13 is a cross-sectional plan view showing a cross section AA of the probe shown in FIG. 12, wherein a cross-sectional view (A) is a cross-sectional view of a double tube structure glass tube formed in a cylindrical shape, and a cross-sectional view (B) is formed in an uneven shape to form an outer circumferential surface in order to increase the surface area. Sectional view of a double tube structure glass tube. As in (B), the surface area of the double tube structure glass tube in which the nanometal is blended is increased in order to increase the generation of oxygen conductors by forming the unevenness, so that a larger amount of oxygen conductor is formed than the glass tube of the double tube structure of (A). There is an effect that can be created.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

1 is a view showing the overall appearance of a treatment device equipped with a glass lamp containing a nano-metal according to one embodiment of the present invention.

Figure 2 is a block diagram showing the configuration of a treatment device provided with a glass lamp containing a nano-metal according to one embodiment of the present invention.

3 to 12 show a preferred embodiment of a probe according to an embodiment of the present invention.

Figure 13 is a cross-sectional view showing a cross section of the treatment probe according to an embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

110: power supply 120: ballast

130: control unit 140: ground electrode

150: user interface unit 160: handpiece

Claims (16)

In the treatment device equipped with a glass lamp containing a nano metal, A power supply unit supplying power to the treatment device; A ballast capable of converting the power supplied from the power supply into a voltage of 1500V to 30000V and a frequency of 450Hz to 1280Hz for discharging the lamp using an electronic circuit; A control unit connected to the ballast for selecting and controlling an output frequency according to a treatment purpose and a site, and controlling the entire system; A ground electrode connected to the control unit and in contact with a part of the body of the patient; A user interface including a power supply, an output intensity control switch, a timer, a speaker, and a display of the system; And A handpiece connected to the ballast and composed of contact ends of various shapes suitable for treatment purposes; Treatment device provided with a glass lamp containing a nano-metal, characterized in that comprising a. The method of claim 1, The handpiece, Probes that produce sterilizing oxygen conductors from ozone or oxygen in the atmosphere, and are composed of contact ends of various shapes suitable for therapeutic purposes; And A handle detachable and attachable to the probe; Treatment device provided with a glass lamp containing a nano-metal, characterized in that comprising a. The method of claim 2, The probe, A treatment apparatus provided with a glass lamp containing a nano metal, characterized by consisting of a cold cathode fluorescent lamp containing a nano metal and a glass tube containing a nano metal surrounding the outside thereof. The method of claim 3, wherein The probe, The component combination of the cold cathode fluorescent lamp constituting the probe and the glass tube surrounding the outside thereof, A therapeutic apparatus with a glass lamp containing a nano metal, characterized by consisting of 80 to 90 volume percent glass, 5 to 10 volume percent nano platinum and 5 to 10 volume percent silver nanoparticles. The method of claim 3, wherein The probe, The component combination of the cold cathode fluorescent lamp constituting the probe and the glass tube surrounding the outside thereof, A therapeutic apparatus with a glass lamp containing a nano metal, characterized in that consisting of 90 to 95 volume percent glass and 5 to 10 volume percent of nano platinum or silver nanoparticles. The method according to any one of claims 2 to 5, The probe, Treatment device provided with a glass lamp containing a nano-metal, characterized in that one end has a curved contact end bent like a bow. The method according to any one of claims 2 to 5, The probe, Treatment device provided with a glass lamp containing a nano-metal, characterized in that the one end is composed of a contact end formed by bending in one direction at an angle of 15 ° to 30 °. The method according to any one of claims 2 to 5, The probe, One end portion is bent in one direction at an angle of 15 ° to 30 °, the treatment device with a glass lamp containing a nano-metal, characterized in that consisting of a contact end portion having an additional small sphere at the end of the end. The method according to any one of claims 2 to 5, The probe, Treatment device provided with a glass lamp containing a nano-metal, characterized in that the one end portion is composed of a bell-shaped contact end formed concave so as to be suitable for treating the curved portion. The method according to any one of claims 2 to 5, The probe, Treatment device provided with a glass lamp containing a nano-metal, characterized in that the one end is composed of a large cylindrical and the contact end is formed convex end. The method according to any one of claims 2 to 5, The probe, One end portion is formed in an angle in one direction at an angle of 90 ° in the upper 1/3 area, wherein the contact end portion of the angle containing the nano-metal, characterized in that consisting of the contact end having two ends in the V shape Treatment device equipped with a glass lamp. The method according to any one of claims 2 to 5, The probe, The other end is extended and coupled so that the entire probe shape is 'ㄷ' shaped at one end and the hemispherical contact end or the whole probe shape is 'ㅌ' shaped at half of one end. Treatment device provided with a glass lamp containing a nano-metal, characterized in that the upper end and the lower end is extended and coupled, and the end is composed of a hemispherical contact end. The method according to any one of claims 2 to 5, The probe, The treatment device is provided with a glass lamp containing a nano-metal further comprising a sphere having a diameter R that serves as a scale of depth or length, one end is composed of a contact end of a conical shape. The method according to any one of claims 2 to 5, The probe, Treatment device provided with a glass lamp containing a nano-metal, characterized in that the one end is bent in one direction at an angle of 5 ° to 10 °, the end is formed of a contact end formed in a hemispherical shape. The method according to any one of claims 2 to 5, The probe, Treatment device provided with a glass lamp containing a nano-metal, characterized in that the end of the end is composed of a contact end made of a projection that is shifted at a predetermined interval so as to be suitable for treating a minute gap. The method according to any one of claims 2 to 5, The probe, The glass tube surface area of the double tube structure which consists of the glass tube structure of the double tube structure which consists of a cold-cathode fluorescent lamp which has a hollow inside, and the glass tube surrounding the outside, and a nano metal is mix | blended to increase production | generation of an oxygen conductor. Treatment device provided with a glass lamp containing a nano-metal, characterized in that to form a concave-convex surface so as to widen.

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