CN113818031A - Method for manufacturing medical high-concentration ozone water generator capable of prolonging retention time of ozone water - Google Patents

Abstract

The invention relates to the technical field of medical equipment, in particular to a manufacturing method of a medical high-concentration ozone water generating device capable of prolonging the retention time of ozone water. Ozone therapy has been extensively studied by scientists and medical professionals for over 150 years. However, the preparation of the medical ozone water at present has the following problems: 1. the ozone water has low concentration and can not meet the clinical requirement. 2. The half-life period of ozone in water is only about 30 minutes, and the storage time of ozone water is short. In order to achieve the purpose, the invention mainly comprises a water-gas mixing tank A, a water-gas mixing tank B, a water pump, an ozone generator, an air pump, a booster pump, a porous water-permeable isolation plate, a stabilized voltage power supply, an ultrasonic generator, a water-gas connecting pipe, a pressure gauge, a tail gas destructor, an ozone water concentration detector, a one-way valve, an air valve, a drain valve and the like. The ozone water produced by the equipment has high ozone concentration and can be preserved for one week or more.

Description

Method for manufacturing medical high-concentration ozone water generator capable of prolonging retention time of ozone water

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of medical equipment, in particular to a manufacturing method of a medical high-concentration ozone water generating device capable of prolonging the retention time of ozone water

[ background of the invention ]

Ozone and ozone water are two completely different substances, and the ozone contains the following components: o3, O-, O2. The ozone water contains the following components: o3, O-, O2, OH-, H2O. After ozone is passed into the water, a portion of the O3 molecules dissolve in the water, and a portion of the O3 molecules decompose and combine with H2O to form the more oxidizing OH, which is the most reactive of the known oxidizing agents that occur in water and which readily react to oxidize almost all types of organic and various inorganic solutes. Because of containing active [ OH ] group and O3 molecule, the water solution of ozone can generate oxidation reaction with various biological macromolecules such as polysaccharide, fatty acid, amino acid, protein, nucleic acid and the like, but not generate sterilization effect with a specific bacterial structure. Therefore, the sterilization effect of the ozone water solution has the characteristics of broad spectrum and no drug resistance, and is no exception to antibiotic-resistant bacteria. The ozone water can delay the dissociation speed of O3 to the maximum extent, so that O3 can better play the roles of diminishing inflammation, easing pain and the like. It has been reported that ozone water is highly biocompatible with fibroblasts, cementocytes and epithelial cells, indicating that ozone water will be useful for treating oral infectious diseases such as periodontal disease, periapical periodontitis and periimplantitis, among others.

The use of ozone water for treating chronic ulcers, contaminated exposed wounds, infected wounds, burns, mosquito bites, herpetic skin lesions, fungal infections, etc. is more convenient than the use of ozone gas, without the risk of breathing ozone gas. At present, the technology for preparing ozone water is mature and widely applied to clinic.

However, the preparation of the medical ozone water at present has the following problems:

1. the ozone water has low concentration and can not meet the clinical requirement.

2. The half-life period of ozone in water is only about 30 minutes, and the storage time of ozone water is short.

[ technical implementation factors ]

The invention aims to solve the problem of insufficient preparation of medical ozone water, in particular to the problems of low concentration and short storage time of the ozone water. The invention provides a method for manufacturing a device capable of manufacturing high-concentration ozone water and prolonging the storage time of the ozone water. The invention has the following beneficial effects that the micro-nano ozone bubble water can be generated, and the micro-nano ozone bubble water is stimulated by electrochemical and physical means, so that the retention time of the micro-nano ozone bubbles in a water body is prolonged. When ozone exists in the form of microbubbles, the smaller the size of the bubbles, the higher the dissolution efficiency of ozone. The present invention applies a physical stimulus to ozone microbubbles to instantaneously collapse the bubbles. When an aqueous solution containing ozone microbubbles is electrolyzed, the conductivity of the aqueous solution will reach 200uS/cm or more, and the electrostatic repulsion generated between these ions will suppress the contraction of the bubbles. The electrostatic repulsive force is that when the surface curvature of the bubble increases in the process of shrinking the spherical micro-bubble, electrostatic force of the same polarity is generated around the bubble due to electrolysis. The ozone micro-bubble is pressurized in the contraction process, so that the contraction trend of the micro-bubble becomes stronger along with the contraction of the micro-bubble, when the diameter of the bubble is less than 100-200 nm, the electrostatic repulsion is generated, and the contraction of the bubble is stopped. When electrolyte ions such as aluminum enter the aqueous solution, the electrostatic repulsive force described above will sufficiently act to balance the tendency of the bubbles to contract and the repulsive force to stabilize the bubbles. The diameter of the stable bubble (i.e., the diameter of the generated nanobubble) varies depending on the concentration and the type of the electrolytic ion, and is about 100 to 200nm in size. The ozone nanobubbles have the characteristic that ozone is retained in the nanobubbles under the action of pressure, and also have the characteristic that a very strong electric field is formed by concentrated surface charges. The strong electric field can obviously change the ozone in the bubbles and the aqueous solution around the bubbles, the ozone microbubbles are hardly influenced by buoyancy in the water, so the ozone escaping speed is slower, and therefore the ozone water produced by the device can be stored for a longer time, so the existence time of the ozone in the water is prolonged by one week or more.

In order to achieve the above purpose, the invention patent uses the following technology

A method for manufacturing a medical high-concentration ozone water generating device capable of prolonging the retention time of ozone water mainly comprises a water-gas mixing tank A, a water-gas mixing tank B, a water pump, an ozone generator, an air pump, a booster pump, a porous water-permeable isolating plate, a stabilized voltage power supply, an ultrasonic generator, a water-gas connecting pipe, a pressure gauge, a tail gas destructor, an ozone water concentration detector, a one-way valve, an air valve, a drain valve and the like.

And a pressure gauge is arranged at the top of the water-gas mixing tank A and used for measuring the pressure in the tank. There is the water pump to pass through the inlet tube and links to each other with aqueous vapor blending tank A, the ejector is installed at the inlet tube top, the ejector is inside aqueous vapor blending tank A.

In any of the above technical solutions, further, the ozone generator is connected to the water-gas mixing tank a through an air pump and an air inlet pipe.

In any of the above technical solutions, further, the ozone generator is composed of a discharge body, an oxygen source, a tail gas destructor, and the like.

In any of the above technical solutions, further, an ozone inlet valve is installed at the lower part of the water-gas mixing tank a, and is connected with an ozone generator device through an ozone gas one-way valve to prevent water in the ozone water generating tank from flowing back to the ozone gas generating device;

in any of the above technical solutions, further, the water-gas mixing tank a and the water-gas mixing tank B are communicated through a booster pump and a water-gas connecting pipe.

In any of the above technical solutions, further, a porous water-permeable partition plate is arranged inside one side of the water-gas mixing tank B.

In any of the above technical solutions, further, a positive electrode and a negative electrode are arranged inside the water-gas mixing tank B, and the positive electrode and the negative electrode are connected with a regulated power supply through a lead.

In any of the above technical solutions, further, an ultrasonic generator is arranged outside one side of the water-gas mixing tank, and an emitter of the ultrasonic generator is installed inside the water-gas mixing tank B for performing physical stimulation on the micro-ozone water bubbles.

In any of the above technical solutions, further, a pressure gauge is disposed at the top of the water-gas mixing tank B for measuring the pressure in the tank.

In any of the above technical solutions, further, an ozone water drain valve and an ozone water concentration detector are installed at the lower portion of the water-gas mixing tank B to drain the prepared high-concentration ozone water for utilization, and the concentration of the prepared ozone water is detected on line.

The device for preparing the ozone water comprises the following specific implementation steps:

the first step of ozone preparation is preferably carried out by using an ozone generator, wherein the ozone generation principle is that the ozone is obtained by adopting a corona discharge method, the ozone generator is used for generating corona discharge by oxygen-containing gas under the action of an alternating high-voltage electric field under normal pressure to generate ozone, and the ozone concentration is 100 mg/L.

Preferably, the ozone gas produced in the second step is introduced into the water-gas mixing tank A through an air pump and an air inlet pipe. The other end of the water-gas mixing tank A is provided with a water pump which sprays water into the water-gas mixing tank A at high speed through a water inlet pipe and an ejector. The water mist is fully mixed with the ozone gas in the water-gas mixing tank A.

The optimized primary ozone water prepared by the third step of the water-gas mixing tank A enters the water-gas mixing tank B through the booster pump and the water-gas connecting pipe, the primary ozone water enters the water-gas mixing tank B under the pressure provided by the booster pump and then firstly passes through the three porous water-permeable partition plates, a plurality of tiny small holes are formed in the porous water-permeable partition plates, more tiny bubbles can be generated when the ozone water passes through the porous water-permeable partition plates, and microbubble ozone water is generated under the vortex action

And an ultrasonic generator generating head is arranged in the preferable fourth step water-gas mixing tank B, and the ultrasonic generator is started to act on the ozone water to generate a large amount of micro ozone bubbles. Due to the cavitation effect of the ultrasonic wave, a large amount of small bubbles can be generated when the ultrasonic wave emitted by the ultrasonic generator acts on the ozone water. One reason is that a tensile stress locally occurs in the liquid to form a negative pressure, and the reduction in pressure supersaturates the gas originally dissolved in the liquid to escape from the liquid as small bubbles. The discharged ozone water is physically stimulated by an ultrasonic generator, an audio frequency electric signal which is higher than 28KHZ and is generated by the ultrasonic generator is converted into mechanical oscillation with the same frequency by the piezoelectric inverse effect of a transducer, and the mechanical oscillation is radiated in ozone bubble water in the form of ultrasonic longitudinal waves. Due to the alternating action of positive pressure and negative pressure of the ultrasonic longitudinal wave propagation. Under the action of the ultrasonic generator, a great amount of micro bubbles are generated.

Preferably, in the fifth step, a positive electrode and a negative electrode are placed in the water-gas mixing tank B, wherein the positive electrode can be an aluminum electrode plate with the aluminum content of more than 99%. One end of the positive electrode and the negative electrode is soaked in the microbubble ozone water of the water-gas mixing tank B, and the other end of the positive electrode and the negative electrode is connected with a stabilized voltage power supply through a lead. The stabilized voltage power supply discharges high-voltage direct current to the microbubble ozone water, a large number of electric ions are released through the aluminum electrode, a very strong electric field is formed around the ozone bubbles, hydrogen ions and hydroxide ions exist on a gas-liquid interface of the ozone bubbles under the action of the electric field, the conductivity of the ozone water solution is more than 200uS/cm, the ozone bubbles are adsorbed and surrounded by the electric ions, and therefore dissipation of the ozone bubbles is inhibited, and stability of ozone in water is improved. It should be noted that the ultrasonic wave and the regulated power supply can be turned on simultaneously or alternately, and both can be controlled by the control system.

Additional aspects and advantages of the present patent will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the present patent.

[ description of the drawings ]

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings needed for the detailed description or the prior art description will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the invention patent, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic structural view showing a method for manufacturing a medical high-concentration ozone water generator capable of prolonging a retention time of ozone water according to the present invention.

The technical solutions in the present embodiment will be clearly and completely described below with reference to the drawings in the present embodiment, which should not be construed as limiting the present invention to specific embodiments, but merely as explaining and understanding:

as shown in the figure, the embodiment provides a method for manufacturing a medical high-concentration ozone water generator capable of prolonging the retention time of ozone water, which includes a water-gas mixing tank a 1, a 1.1 pressure gauge, a 2 water pump, a 2.1 water inlet pipe, a 2.2 ejector, a 3 ozone generator, a 3.1 discharge body, a 3.2 oxygen source, a 3.3 tail gas destructor, a 4 air pump, a 4.1 air inlet pipe, a 5 booster pump, a 5.1 water-gas connecting pipe, a 6 water-gas mixing tank B, a 6.1 porous water-permeable isolation plate, a 6.2 pressure gauge, a 6.3 drain valve, a 6.4 ozone water concentration detector, a 7 voltage-stabilized power supply, a 7.1 anode, a 7.2 cathode, and an 8 ultrasonic generator.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to fig. 1, and it is obvious that the described embodiments are a part of the embodiments of the present invention, but not all of them. All other embodiments obtained by a person skilled in the art based on the embodiments in the patent of the invention without any inventive work belong to the protection scope of the patent of the invention. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict. In the description of the present patent, it is to be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present patent and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present patent. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present patent application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present patent can be understood in a specific case by those skilled in the art. The invention is further explained below with reference to specific embodiments. FIG. 1 is a schematic structural view of a method for manufacturing a medical high concentration ozone water generator capable of prolonging a retention time of ozone water according to the present invention

The water-gas mixing tank A top of 1 is equipped with the manometer, and 2 water pumps link to each other with 1 water-gas mixing tank through 2.1 inlet tubes, and 2.2 ejectors are installed to 2.1 inlet tube one end, and inside 2.2 ejectors deepened 1 water-gas mixing tank, 2 water pump during operation, water passed through 2 water pumps, 2.1 inlet tubes, 2.2 ejectors spray into 1 water-gas mixing tank and form the water smoke and spray, the ozone gas intensive mixing that produces with 3 ozone generator.

The 3 ozone generator mainly structurally comprises a 3.1 discharge body, a 3.2 oxygen source, a 3.3 tail gas destructor and the like, and the ozone generator is a mature general product, so that details are not described here, but an oxygen source is used for producing ozone instead of an air source for improving the concentration and purity of ozone, wherein the purity of the oxygen is required to be more than 93%.

An ozone 4.2 air inlet valve is arranged at the lower part of the water-gas mixing tank A of the 1, and is connected with the 3 ozone generator device through a 4.1 air inlet pipe and a 4.3 one-way valve so as to prevent water in the water-gas mixing tank A of the 1 from flowing back to the 3 ozone generator device;

the 4-air pump pushes the high-concentration ozone gas produced by the 3-ozone generator into the 1-water-gas mixing tank A through the 4.1-air inlet pipe, the 4.2-one-way valve and the 4.3-air inlet valve.

And the water-gas mixing tank A and the water-gas mixing tank B are communicated through a 5 booster pump and a 5.1 water-gas connecting pipe.

6 porous division board that permeates water of 6.1 is equipped with in one side inside of aqueous vapor blending tank B, and 6.1 porous division board that permeates water surface is the densely covered aperture, and water can produce a large amount of eddies and bubbles when passing through under the pressure effect.

The 6 aqueous vapor blending tank B is internally provided with a 7.1 anode and a 7.2 cathode, and the 7.1 anode and the 7.2 cathode are connected with a 7 voltage-stabilized power supply through leads. The voltage-stabilized power supply can work intermittently, a large number of electric ions are generated in water, and the electric ions adsorb and wrap the nano-scale ozone small bubbles under the action of an electric field. Thereby increasing the stability of ozone in water.

6 aqueous vapor mixing tank one side outside is equipped with 8 supersonic generator, and 8 supersonic generator's emitter is installed inside 6 aqueous vapor mixing tank for carry out physical stimulation to the ozone water bubble. An ultrasonic generator generating head is arranged in the water-gas mixing tank B, and the ultrasonic generator is started to act on ozone water to generate a large amount of tiny ozone bubbles. Due to the cavitation effect of the ultrasonic wave, a large amount of small bubbles can be generated when the ultrasonic wave emitted by the ultrasonic generator acts on the ozone water. One reason is that a tensile stress locally occurs in the liquid to form a negative pressure, and the reduction in pressure supersaturates the gas originally dissolved in the liquid to escape from the liquid as small bubbles. The discharged ozone water is physically stimulated by an ultrasonic generator, an audio frequency electric signal which is higher than 28KHZ and is generated by the ultrasonic generator is converted into mechanical oscillation with the same frequency by the piezoelectric inverse effect of a transducer, and the mechanical oscillation is radiated in ozone bubble water in the form of ultrasonic longitudinal waves. Due to the alternating action of positive pressure and negative pressure of the ultrasonic longitudinal wave propagation. Under the action of the ultrasonic generator, a great amount of micro bubbles are generated.

The micro ozone bubbles in the 6 water-gas mixing tank B are under the comprehensive action of an 8 ultrasonic generator and a 7 stabilized voltage power supply (a 7.1 positive electrode and a 7.2 negative electrode). The micro-ozone bubbles in the water shrink instantaneously to the nanometer scale and the ions and hydroxide ions exist around the bubbles, thereby forming a 'protective shell' around the bubbles, which can inhibit the natural escape of ozone in the water bubbles. The ozone nano bubbles are very tiny bubbles, the diameter of the bubbles is about equal to 100-200 nanometers, so the bubbles are hardly influenced by buoyancy in water, the escape speed of ozone is slower, and the ozone water manufactured by the device can be stored for one week or longer. And a 6.2 pressure gauge is arranged at the top of the 6 water-gas mixing tank B and used for measuring the vacuum degree and the gauge pressure in the tank.

The lower part of the 6 water-gas mixing tank B is provided with a 6.3 drain valve and a 6.4 ozone water concentration detector, the newly prepared high-concentration ozone water can be used after the 6.3 drain valve is opened, and the 6.4 ozone water can simultaneously detect the concentration of the prepared ozone water on line. The concentration of the prepared ozone water is 15mg/l to 25 mg/l.

The motor elements present in this embodiment are all electrically connected to 220 v. Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention. Furthermore, those skilled in the art will appreciate that while some embodiments described herein include some features included in other embodiments, not others, combinations of features of different embodiments are meant to be within the scope of the present patent disclosure and form different embodiments. For example, in the claims above, any of the claimed embodiments may be used in any combination. The information disclosed in this background section is only for enhancement of understanding of the general background of the patent, and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Claims (10)

1. A method for manufacturing a medical high-concentration ozone water generating device capable of prolonging the retention time of ozone water is characterized by mainly comprising a water-gas mixing tank A, a water-gas mixing tank B, a water pump, an ozone generator, an air pump, a booster pump, a porous water-permeable isolating plate, a stabilized voltage power supply, an ultrasonic generator, a pressure gauge, a tail gas destructor, an ozone water concentration detector, a one-way valve, an air valve, a drain valve and the like, and the medical high-concentration ozone water generating device is connected through a water-gas pipeline.

2. The apparatus for generating high-concentration ozonated water for medical use according to claim 1, wherein ozone is generated by using an oxygen source instead of an air source in order to increase the concentration and purity of ozone, wherein the oxygen purity is required to be more than 93%.

3. The apparatus for generating high-concentration ozonated water for medical use according to claim 1, wherein a pressure gauge is provided on a top of the water-gas mixing tank A for measuring a pressure in the tank. There is the water pump to link to each other with aqueous vapor blending tank A through the inlet tube, the ejector is installed at the inlet tube top, the ejector is inside aqueous vapor blending tank A.

4. The apparatus as claimed in claim 1, wherein the ozone generator is connected to the aqueous vapor mixing tank A via an air pump and an air inlet pipe.

5. The apparatus as claimed in claim 1, wherein an ozone gas inlet valve is installed at a lower portion of the aqueous vapor mixing tank A, and is connected to the ozone generator unit through an ozone gas check valve to prevent water in the ozone water generating tank from flowing backward to the ozone gas generator unit.

6. The apparatus as claimed in claim 1, wherein the water-gas mixing tank A and the water-gas mixing tank B are connected via a booster pump and a water-gas connection pipe.

7. The apparatus for generating high-concentration ozonated water for medical use according to claim 1, wherein three porous water-permeable partition plates are provided inside the side of the water-gas mixing tank B communicating with the water-gas mixing tank A through a water-gas connecting pipe. The porous water-permeable partitioning plate is not limited to three, and the number may be increased or decreased for the purpose of improving the effect.

8. The apparatus for generating high-concentration ozonated water for medical use according to claim 1, wherein the water-gas mixing tank B is provided therein with an aluminum plate as a positive electrode and a negative electrode, and the positive electrode and the negative electrode of the aluminum plate are connected to a regulated power supply through a lead. The positive and negative electrodes are not limited to aluminum plates and may be made of other electrode materials.

9. The apparatus for generating high concentration ozonated water for medical use according to claim 1, wherein an ultrasonic generator is installed outside one side of the aqueous vapor mixing tank, and a transmitting head of the ultrasonic generator is installed inside the aqueous vapor mixing tank B for physical stimulation of the ozonated water, thereby generating a large amount of minute ozone bubbles in the water.

10. The apparatus for generating high-concentration ozonated water for medical use according to claim 1, wherein a pressure gauge is provided at a top of the water-gas mixing tank B for measuring a pressure in the tank. An ozone water drain valve and an ozone water concentration detector are arranged at the lower part of the water-gas mixing tank B to drain the prepared high-concentration ozone water for utilization, and the concentration of the prepared ozone water is detected on line.

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