KR20080000695A - Medical irrigating system and antimicrobial substance used therein - Google Patents

Abstract

A medical irrigating system and an antimicrobial substance used for the same are provided to manufacture sterilizing water or salt water that removes virus and germs and is not harmful for a body at a low cost. A medical irrigating system includes a vessel(110), an electrode portion(130), a power supply portion(120), and a sprayer. The vessel includes a water receiving portion that receives water. The electrode portion includes a negative electrode portion and a positive electrode portion installed inside the water receiving portion. The power supply portion supplies power to the negative electrode portion and the positive electrode portion. The sprayer is fixed on a piping that extends from the vessel and selectively sprays water from the vessel. The water received into the water receiving portion is salt water.

Description

MEDICAL IRRIGATING SYSTEM AND ANTIMICROBIAL SUBSTANCE USED THEREIN

1 is a view showing the configuration of the injection system of a conventional irrigation system

2 is a view showing the configuration of a suction system of a conventional irrigation system;

Figure 3 is a perspective view showing the configuration of the sprayer of Figure 1

4 is a perspective view of the inhaler of FIG.

5 is a view showing the configuration of the irrigation system according to an embodiment of the present invention

6 is a perspective view showing the configuration of the irrigation cycle of the irrigation system of FIG.

Figure 7 is a perspective view showing the configuration of the sprayer of the tube cycle of Figure 6

8 is a perspective view showing the configuration of the inhaler of the tube cycle of FIG.

9 is a schematic diagram showing the configuration inside the water holding part of FIG.

Fig. 10 is a perspective view showing the structure of the electrode portion of Fig. 9

Figure 11 is an exploded perspective view of Figure 10

12 is a cross-sectional view taken along the cutting line V-V of FIG. 10.

FIG. 13 is a wiring diagram of an electrode portion inside the water receiving portion of FIG. 5; FIG.

14 is a sectional view of another form of electrode portion applicable to the electrode portion of FIG.

15 is a diagram showing the configuration of an irrigation system according to another embodiment of the present invention.

Fig. 16 is a perspective view showing the structure of the tube period of Fig. 15

FIG. 17 is a sectional perspective view taken along the line VII-VII of FIG. 16

18 is an experimental data graph showing the increase in the amount of chlorine ions due to the electrolysis of brine

FIG. 19 is a graph showing the relationship between the form of free chlorine in water and pH at 100 ° C. and dissolved substance at 20 ° C.

20 is experimental data showing measurement data of residual chlorine for each operating time.

21 is experimental data for measuring the production and residual concentration of hypochlorous acid during operation of the electrode unit

22 is an experimental data measuring the degree to remove the E. coli 0157 bacteria by spraying the physiological saline generated by Figure 21

** Description of symbols for the main parts of the drawing **

100,200: irrigation system 110: water holding part

111: tap water 120: power supply

121,321: cathode power line 122,322: anode power line

130: electrode portion 130: electrode portion

131: negative electrode plate 131a: cathode projection

132: positive electrode plate 132a: anode projection

133: support 1331: negative electrode plate connection slot

1332: positive electrode plate connection slot 134: fixing screw

140, 210: sterilization water supply unit 141: water pipe

142: tap water control valve 143: sterile water supply pump

150: sterilizing water distribution unit 151: sterilizing water branch pipe

252: sterile water supply pipe 153: sterile water control valve

166, 260: control panel 169a: sterile water adjustment button

169b: inhaler adjustment button 170: compressor

170a: suction pressure indicator 171: suction piping

173: suction reservoir 180,270: suction pressure distribution

181,271: suction pressure branch pipe 182,272: suction pipe

182a, 272a: intake fastener 190: tube cycle

190a: sprayer 191a: sterile water discharge hole

196a: atomizer fitting 190b: inhaler

191b: suction part 192b: nebulizer accommodation part

193b: through hole 194b: body

195b: rubber pad 231: negative electrode plate

2311: positive electrode branch plate 2311a: anode projection

232: positive electrode plate 2321: negative electrode branch plate

2321a: anode projection 240: compressor

241: suction pipe 243: suction liquid reservoir

280, 290: tube cycle 280: inhaler

281: suction part 282: suction pressure valve adjustment button

290: atomizer 291: nozzle

292: sprayer fastener 310: sprayer case

331: negative electrode portion 332: positive electrode portion

331a: cathode projection 332a: anode projection

331b: cathode projection side 332b: anode projection side

The present invention relates to a medical irrigation system and a method thereof, and in particular, sterilizing and disinfecting the site in the process of treating a related disease by applying a sterile water that is harmless to the human body in the nose, throat, teeth or gums, and the uterus. Rather, the present invention relates to a medical irrigation system and method thereof, including a dental treatment, which enables treatment of related diseases.

In general, the dental irrigating system (irrigating system) is used for rinsing by spraying the water filtered by the water filter on the teeth or gums during the treatment of the gums or teeth at the dentist. In addition, in the otolaryngology department, two to four nebulizers and one inhaler for sucking the injected drug are installed in one office to spray two or four kinds of drugs to each application.

Such conventional irrigation systems 1 and 2 have an injection mechanism 1 for applying a drug or a rinse water, and a suction mechanism 2 for sucking up bodily fluids such as sprayed water or drugs or saliva as needed. It is installed separately and used independently.

The injection mechanism 1 of the conventional irrigation system (1, 2) widely used in the dentist, as shown in Figures 1 and 3, the tap water supply unit 10 for supplying the raw water and the supplied tap water (10) Filtration unit 20 for filtering foreign matter inside the tap water, the pump 30 for pumping purified water having a lower supply pressure as the filtration unit 20 is filtered, and the filtered purified water. Dispensing unit 40 for dispensing to each treatment room or treatment according to the location of each patient, and spray 50 for spraying the purified water supplied in the patient's mouth as needed.

The tap water supply unit 10 is controlled to supply the tap water by the tap water control valve 11, and supplies the tap water to the filtration unit 20 through the water pipe (12).

The filtration unit 20 sequentially passes the tap water through seven water filters 21-27 to remove foreign substances of the tap water supplied from the tap water supply unit 10, and the filtered foreign substances flow in the x direction in the wastewater. It is collected in the barrel 28.

The pump 30 pumps purified water filtered by the filtration unit 20 and flows in the y direction to supply purified water to the distributor 40 at a sufficient pressure.

The distribution unit 40 connects the sprayer 50 with a flexible material from each outlet of the dispenser 41 and a dispenser 41 for dividing and supplying the purified water so that the purified water can be supplied to various treatment rooms or treatment rooms. It is composed of a purified water supply pipe 42 and a purified water control valve 43 for adjusting the amount of purified water supplied to the sprayer 50 through the purified water supply pipe 42.

The sprayer 50 is connected to the fastening portion 42 and the inlet end 52 of the end of the purified water supply pipe 42 by screw coupling, the purified water adjusted through the purified water control valve 43 to the injection hole 51a Is configured to discharge. At this time, the purified water control valve 43 may not be located on the purified water supply pipe 42, but may be mounted on the sprayer 50 in a button manner and opened only when the button is pressed to spray purified water.

In addition, the suction mechanism 2 used together with the injection mechanism 1 shown in FIG. 1 is connected to the suction pipe 62 by discharging the compressed air to the outside as shown in FIGS. Compression unit 60 for generating a suction force, suction liquid reservoir 70 for sucking and filtering sprinkled purified water, drugs, and body fluids, and suction pressure generated by the compressor 60 to be used in various offices or treatment tables. A suction pressure distribution unit (80) for dividing the water, and an inhaler (90) for sucking a liquid or the like into the patient's mouth by using the suction pressure from the suction pressure distribution unit (80).

The compression unit 60 is composed of a compressor 61 for sucking and compressing air through the suction pipe 62. At this time, the compression unit 60 maintains a constant pressure state, and when the suction pressure opening and closing valve 83 around the inhaler 90 is opened, it provides an environment in which liquid and the like can be sucked through the inhaler 90.

The suction liquid reservoir 70 is installed between the compressor 60 and the suction pressure distribution unit 80 to prevent the sucked suction liquid from flowing into the compressor 60. The liquid 70a collected in the suction liquid reservoir 70 is periodically discarded.

The suction pressure distributor 80 is a suction pressure distributor 81 for distributing the suction pressure generated through the compression unit 60, and the inhaler 50 from each outlet of the suction pressure distributor 81 with a flexible material. It consists of a suction pressure distribution pipe 82 to be connected, and a suction pressure on / off valve 83 that opens and closes so that suction pressure is generated at an outlet end of the inhaler 90.

The inhaler 90 is connected to the fastening portion 82a of the end of the inhaler distribution pipe 82 and one end 92 is screw-connected to the mouth by using the suction pressure opened through the suction pressure opening and closing valve 83 Inhaled purified water and saliva.

However, in order to manufacture purified water supplied to the human body through such a conventional irrigation system, the filter 21-27 necessary to remove the foreign matter inside the tap water is excessively large, and thus the filter 21-27. Purification water sprayed on the mouth of the patient is limited because the facilities required for the installation are not only large, the cost required for the filtration process is increased, and there is a limit in removing viruses, bacteria, etc. in the tap water when the filtration means 20 is used. There was a risk of contamination by itself.

In order to solve this problem, commercially available saline solution may be replaced with tap water, but the saline solution prepared by the high pressure and high temperature process is relatively expensive and is only applied intermittently in the case of surgery to incise the affected part. The risk of contamination of the patient's affected area still exists, and preservatives are mixed in saline solution, which can cause side effects when applied to people who cause allergic reactions to preservatives. After a while, the saline solution may be contaminated again.If a large amount of saline solution is purchased at one time and the saline solution is not used within a certain period of time, then the brine is more likely to pose a greater risk to the patient. Was still there.

The present invention has been made to solve the above problems, it is harmless to the human body, but at a low cost to produce a sterile water or saline solution to kill more thoroughly viruses, bacteria, etc. during treatment, treatment, surgery during operation, fresh sterilized water or saline solution to the human body The purpose of the present invention is to provide a medical or dental irrigation system in which supply immediately after manufacture prevents secondary infection, reduces the cost of saline purchase, and ensures reliability and safety at the same time.

In addition, the present invention in the production of sterilized water for supplying the human body, by producing a large amount of oxidant in a short time by more intense electrolysis to enable sterilization of bacteria or bacteria in a short time, fresh sterilized water or saline solution Another object of the present invention is to be able to manufacture the product immediately without using it for a long time.

And the present invention by disinfecting and disinfecting using sterilized water prepared without using a separate chemical in the amygdala and rhinitis, the antibacterial agent to treat the amygdala and rhinitis without causing side effects to the human body; It is an object of the present invention to provide an antiviral agent and an irrigation system using the same.

Another object of the present invention is the discovery that OH radicals, ozone, and hypochlorite components of sterile water obtained through electrolysis are effective in treating infections of HPV (human papillomavirus), which causes cervical cancer. Based on the above, the present invention provides an antibacterial to antiviral agent useful for gynecological treatment and an irrigation system using the same.

Further, by immediately producing cleaning water for disinfecting syringes, endoscopes, dialysis apparatuses, and the like using the irrigation system according to the present invention, by providing an environment for disinfecting and disinfecting medical parts at any time, the safety of a variety of medical equipment more easily. It is for other purposes to secure it.

The present invention, in order to achieve the object described above, a container having a water receiving portion for receiving water; An electrode part including a negative electrode part and a positive electrode part installed in the water receiving part; A power supply unit supplying power to the negative electrode unit and the positive electrode unit; A spray fixed to a tubing extending from the vessel to selectively spray water from the vessel; It provides a medical irrigation system, characterized in that configured to include.

This makes it cheaper to produce sterilized water that is harmless to the human body and more thoroughly kills viruses and bacteria, and produces fresh sterilized water immediately during medical treatment, treatment and surgery, and prevents secondary infection by supplying it to the human body immediately after production. In order to supply the sterilized water, which ensures reliability and safety at the same time.

Here, the negative electrode portion and the positive electrode portion are formed with a plurality of negative electrode projections and a plurality of positive electrode projections to face each other, so that more charge is concentrated on the negative electrode projection and the positive electrode projection, so that the negative electrode projection and the positive electrode projection facing each other Induces more intense electrolysis between. Through this, it is possible to generate more oxidant having the effect of disinfection sterilization in a shorter time, it is possible to minimize the power consumption required for electrolysis.

That is, when power is applied to the cathode projection and the anode projection that are spaced apart by a predetermined distance, the water between the cathode projection and the anode projection is electrolyzed. At this time, oxidants such as ozone (O ₃ ), hydrogen peroxide (H ₂ O ₂ ), OH radicals, and HOCl are generated, and microorganisms, bacteria, bacteria, etc. are killed and sterilized by the oxidants. The production and sterilization of the oxidant by electrolysis is carried out by the following steps (1) to (5).

(1) Ozone is generated by electrolysis of water (H ₂ O) and finally ozone is formed through the following process where O and O ₂ are combined.

^{_{H 2 O -> H + +}} (OH) ads + e -

_{(OH) ads -> (O} ) ads + H + + e -

_{2 (OH) ads -> O} 2 + 2H + + 2e -

2 (O) _ads- > O ₂

(O) _ads + O _2- > O ₃

(2) Hydrogen peroxide is produced by the direct route by the electrolysis of oxygen and the indirect route produced by the combination of OH radicals, an intermediate product produced by ozone decomposition. In other words,

O _{2 ^{+ E - -> O 2 ·}} -

_{^{O 2 + 2H + + 2e -}} -> H 2 O 2

With a direct path such as

OH + OH-> H ₂ O ₂

Is generated by an indirect path such as

(3) HOCl reacts with H ₂ O to form HOCl after Cl ⁻ ions in water bind with Cl ₂ . In other words,

_{^{2Cl - -> Cl 2 + 2e}} -

^{_{2H 2 O + 2e - ->}} H 2 + 2OH ^-

_{Cl 2 + H 2 O ->} HOCl + H + + Cl -

(4) OH radicals are instantaneously produced and disappeared, so they cannot be measured directly, but when ozone is present in water, they react with OH ^- or a counterbase of hydrogen peroxide to form a radical chain cycle. Produces OH radicals.

O ₃ + OH-> Radial Chain Reaction-> OH

O ₃ + HO ^{₂ -} (H ² conjugate base of O ₂₎ -> radical chain reaction -> OH ·

(5) Microorganisms (microorganisms) present in water are inactivated or removed by the oxidants produced, and the following microorganisms are removed by electrosorption, and the following microorganics are e- and It is removed by direct electrolysis reaction.

In other words, for Microorgainsm

M (Microorganism)-> Electrosorption-> Inactivation

Also,

M (Microorganism) + O _3- > Inactivation

M + OH ·-> Inactivation

M + HOCl-> Inactivation.

And about Microorganics,

M (Microorganics) + e--> M-

Also,

M (Microorganics) + O _3- > Product

M + OH

M + HOCl-> Product

That is, during the electrolysis, the oxidation and sterilization is performed smoothly by the mixed oxidants (O ₃ , H ₂ O ₂ , HOCl, OH radicals) generated in the process of (1) to (5), After the electrolysis, antibacterial or antiviral agents are prepared in which high bactericidal power is maintained by high residual HOCl.

Hydrogen peroxide (H ₂ O ₂ ), which is produced during electrolysis, also has the ability to produce free radicals (HO · + O ·), which can convert proteins into low molecular weight peptides and amino acids. It breaks down into a water-soluble substance, and flocks to the double bond site to produce epoxides. More specifically, the free radicals produced in hydrogen peroxide are very reactive, oxidizing hydrogen peroxide by attacking other organic molecules such as proteins to achieve their stability. As a result, the protein is broken down into amino acids and made into a water-soluble substance, which effectively removes the protein that causes allergy. In other words, the oxidant can remove allergen-causing proteins by destroying the double bond between the carbon and nitrogen atoms of the amino acids that make up the protein, in addition to killing algae, bacteria, fungi, protozoa and viruses. Can be. Through this, if the oxidant prepared as described above is used for allergic diseases such as rhinitis, atopic dermatitis, it can be used for the treatment of allergic symptoms by modifying the protein that is the cause of allergy. It is also effective in treating infections of human papillomavirus (HPV), which causes cervical cancer.

In particular, when the water is electrolyzed brine prepared from weakly acidic to neutral water having a pH of 5.0 to pH 7.5, as shown in Figure 16, while excellent sterilization power from sodium chloride of the brine among the oxidants generated by the electrolysis Maximizes the amount of hypochlorous acid (HOCl) that is harmless to the human body. As shown in Fig. 16, hypochlorous acid, the most efficient pathogen control agent produced when chlorine is added to water, is hypochlorous acid when brine prepared from weakly acidic to neutral water of pH 5.0 to pH 7.5 is electrolyzed. Since the ratio of the component exceeds 50%, a high sterilization effect can be obtained. However, when using a water lower than pH 5.0, since it is a high acidic water to be applied to the human body, it is preferable to maintain the pH value of the water to produce a brine greater than 5.0.

Therefore, first of all, even if the antimicrobial agent or antiviral agent according to the present invention contains a small amount of chlorine with a chlorine content of 5ppm to 100ppm, since most chlorine exists in the form of hypochlorous acid with excellent sterilizing power, high disinfection and sterilizing power It has the advantage of being able to secure. In addition, tap water or ground water which can be easily obtained anywhere is about pH acid range of about 6.0 to 7.0, so it corresponds to weakly acidic to neutral water. Viral agents (hereinafter referred to simply as `` sterilized water '') are prepared immediately and can be used immediately before the produced sterile water is contaminated.

On the other hand, since the pH value of the body fluids of the human body is in the range of 6.5 to 7.5, to wash the inside of the nose of patients with rhinitis, to apply to the throat of a patient with swollen throat, to wash the treatment area during dental treatment, cervical cancer In order to inject into the uterus in order to remove the HPV causing, or to apply to the wound site, it is preferable to maintain the pH value of the water to 6.5 to 7.5 in the same manner as the body fluid of the human body.

As a result, as soon as the antimicrobial agent or antiviral agent is manufactured, it is possible to spray it on a part of the human body such as a wound or the inside of the nose. It is possible to disinfect or clean the wound or the inside of the nose, and the advantage of being able to disinfect or clean with fresh sterilized water not contaminated by outside air.

The nebulizer is connected to the tubing and formed in plurality. Through this, sterilized water such as the antimicrobial agent or antiviral agent as described above can be quickly and cheaply produced in a container installed at one or a few places in a hospital, and the office or treatment of each department requiring such an antimicrobial agent or antiviral agent is required. Pipes can be supplied via pipes to be used for a variety of applications. Therefore, it is burdensome to purchase and disinfect expensive physiological saline in the past, and hospitals which used only water to purify tap water use the medical irrigation system according to the present invention to easily remove fresh sterilized water from which viruses and bacteria are killed. By manufacturing and spraying directly on the treatment site or disinfection site of the patient, not only the cost of treating the patient can be reduced, but also the possibility of side effects can be fundamentally eliminated.

At this time, the water accommodated in the water receiving portion may be formed of brine may be electrolyzed. Since the brine itself contains chlorine, it is not only necessary to administer a separate chlorine to generate hypochlorous acid (HOCl), but is also preferable to induce a more intense electrolysis reaction as shown in FIG. .

And, the brine is maintained at a salinity of 0.5% to 3%. When administered to the human body, in order to reduce side effects, it is preferable to adjust the salinity of the brine to the range of 0.5% to 1.5%, more preferably about 0.9%, which is the same category as the body fluids of the human body. In addition, if the same salinity of the human body depending on the part of the human body may not be absorbed rather well, by preparing in a range of 1.5% to 3.0% rather than the salinity of the body fluids of the human body, the antimicrobial agent to antiviral agent produced by the osmotic phenomenon Phosphorus sterilized water can also be induced to be absorbed more quickly by the human body.

The irrigation system further includes an inhaler connected to the compressor and having a suction force to suck the surroundings. This is to inhale saliva or sprayed sterilized water from the affected part of the patient through the inhaler even if the patient does not directly discharge the sterilized water sprayed during the treatment. For convenience of treatment, a switch is formed in the inhaler to selectively inhale.

At this time, the inhaler and the nebulizer are used in a combined form, the inhaler is formed in the suction hole is wrapped around the spray hole of the sprayer and retreat from the position of the spray hole. This allows inhalation and nebulization using a single inhaler and nebulizer, even if there is no assistant who operates the inhaler separately (e.g., the operation of the inhaler during treatment at the dentist is in charge of a nurse other than the primary care physician). Can be performed simultaneously. In addition, since the suction hole of the inhaler is formed to surround the circumference of the spray hole, the sprayed sterilized water can be easily sucked even without paying attention to the inserting direction of the sprayer for resorption of the sterilized water.

In order to generate more oxidants in a narrower space, branch portions protrude from one surface of the negative electrode plate and the positive electrode plate, and the branch portions of the negative electrode plate and the branch portions of the positive electrode plate are arranged to face each other. A cathode projection and a cathode projection may be formed on the surfaces of the branch portions, respectively.

In addition, the negative electrode support jaw fixed to the negative electrode portion and the positive electrode support jaw is fixed to the positive electrode, and the negative electrode of the power supplied from the power supply unit connected to the negative electrode support jaw, and received from the power supply And a support configured to connect the anode of the power supply with the anode support jaw. Through this, the electrode part can be easily installed in the container, and the electrode part can be easily replaced by simply attaching and detaching the electrode part to the support jaw of the support. It is also possible to replace the electrode plate itself.

The negative electrode portion and the positive electrode portion, and the negative electrode projections and the positive electrode projections may be formed of or plated with platinum (Pt), titanium (Ti), graphite, or the like, which can actively react with electrolysis. In addition, the thickness of the plating layer of the cathode projection and the anode projection is more thick than the plating layer thickness of the other portion is effective in terms of increasing the reaction life.

By applying the sterilized water prepared as described above to allergic diseases such as rhinitis and atopic dermatitis within 1 minute, it is possible to treat rhinitis and atopic diseases by modifying the protein, which is the causative agent of allergy, and to apply to the throat of the human mouth You can also disinfect your throat and sterilize your mouth. In addition, by applying the sterilized water prepared as described above to the athlete's foot disease site or inflamed mucosa or wound within one minute can be effectively removed athlete's foot. At this time, the application of the sterilized water within 1 minute is generally the maximum amount of residual chlorine after 30 seconds to 1 minute after the electrolysis, after which time may elapse. This is because the more rapidly decreases. This can be confirmed through the accompanying drawings that show experimental data graphically.

On the other hand, the present invention, the pipe and the water passing through; An electrode portion formed in the pipe and having a negative electrode portion having a plurality of cathode protrusions, and a positive electrode portion having a plurality of anode protrusions facing the cathode protrusion; A power supply unit supplying power to the negative electrode unit and the positive electrode unit; A sprayer (spray) connected to the pipe or the pipe communicating with the pipe for selectively spraying water passing through the pipe; It provides a medical irrigation system, characterized in that configured to include.

This means that the water can be sterilized as the water flowing in the pipe is electrolyzed at the electrode part in the pipe while the water flowing in the pipe passes through the pipe just by flowing water while the power is applied to the negative electrode part and the positive electrode part. To do this. To this end, the negative electrode portion and the positive electrode portion are formed long enough along the longitudinal direction of the pipe so that the water can be sterilized sufficiently.

On the other hand, the present invention, the pipe and the water passing through; An electrode portion formed in the pipe and comprising a plurality of negative electrode plates and a positive electrode plate facing the negative electrode plate; A power supply unit supplying power to the negative electrode unit and the positive electrode unit; And a sprayer connected to the pipe or a pipe communicating with the pipe to selectively spray water passing through the pipe, wherein the negative electrode plate and the negative electrode plate face a plurality of cathode protrusions and a plurality of anode protrusions to face each other. It provides a medical irrigation system, characterized in that formed.

This is to allow more protrusions to be formed in the minimum volume to induce more intense electrolysis inside the pipe. This makes it possible to shorten the length of the electrode portion in producing the same amount of oxidant. In addition, as compared with the irrigation system for producing sterilizing water in the above-described container, has the advantage that can be used immediately sterilizing water, such as antibacterial to antiviral agent produced in real time.

At this time, as the water passes through the pipe, the negative electrode portion and the positive electrode portion is formed in a spiral form so that the water rotates in the pipe, it may be a projection formed on the opposite surface. Through this, it is possible to more stably ensure contact between the electrode portion and water.

In this case, for the more intense reaction, the water may be applied brine, and in consideration of the application to the human body to set the salinity of the brine in the range of 0.5% to 3%. And a compressor for sucking and discarding the injected sterilized water or body fluid; An inhaler connected to the compressor and having a suction force to suck the surroundings; Further, the inhaler is formed with a switch for selectively inhaling.

Here, the inhaler and the nebulizer are used in a combined form, the inhaler is formed in the suction hole in the position retreating from the position of the spray hole in the form of wrapping around the spray hole of the nebulizer.

On the other hand, the electrode unit may be formed on the sprayer or just before being connected to the sprayer. This makes it possible to apply fresher sterilized water directly. In addition, since the electrode is made just before the injection, it is possible to maximize the amount of ozone (O ₃ ) and OH radicals in the above (1) to (5) process. In this case, by minimizing the time required to prepare the sterilized water, not only maximizes the whitening effect of the teeth, but also can effectively treat the infection of HPV (human papillomavirus, human papillomavirus) that causes cervical cancer. According to experiments conducted by the inventors of the present application, ozone and OH radicals were produced in a sufficient amount to only pass through the tube with electrolysis for about 10 to 30 seconds and to effectively treat infection of HPV in the uterus. At this time, it was more effective when the pressure was applied so hard that the pain was not greatly felt.

And, before being discharged through the sprayer, it may be further provided with a filter for filtering foreign matter of the tap water. Through this, not only to remove the possibility of introducing impurities into the human body, but also to maintain a positive pressure so that the water stays for a sufficient time inside the electrolysis. Thus, the electrolyzed solution that has passed through the filter can reach the mucosa site. In this regard, the filter can be replaced with a small hole. In this case, it is possible to shock the mass of warts and the like. Of course, it is also possible to install a hole and a filter together.

Such irrigation systems can be used for the treatment of cervical cancer. Conventionally, the HPV infection that causes cervical cancer does not take any action, and simply waits for whether it grows into cervical cancer according to the constitution and habits of a person, and if it grows to a certain extent, a strong acid having a pH or 1.5 Although limited to a treatment method that can be performed only once a week by dissolving flesh with trichloro acetic, using an irrigation system according to the present invention, using an antiviral agent containing an oxidant produced by electrolysis, HPV infection can be effectively treated.

The irrigation system can be effectively used for treating athlete's foot. That is, since the oxidant produced by electrolysis has excellent antibacterial properties, it has an excellent effect in removing bacteria such as athlete's foot. In particular, since the sterilized water produced by electrolyzing weakly acidic to neutral water has a very high component ratio of hypochlorous acid, it is not only harmful to the human body but also has excellent disinfectant disinfection power.

In addition, the irrigation system may be used for cleaning the teeth or gums in the dentist, wherein the generated chloramination between the chlorine and the amino group (NH) interferes with the metabolism of cells, the reaction of chlorine as a strong oxidant Breaking the SH group, it can be used for teeth whitening or bad breath removal.

In addition, when the oxidant prepared as described above is used for allergic diseases such as rhinitis and atopic dermatitis, the irrigation system can be used for the treatment of nasal rhinitis in otorhinolaryngology, since it can be used for the treatment of allergic symptoms by modifying the protein that is the cause of allergy. Can be.

In addition, the irrigation system may be used for disinfection of the neck area in the otolaryngology using sterilized water having a high component ratio of hypochlorous acid.

That is, the sterilized water prepared as described above is made of water including an oxidant including hypochlorous acid (HOCl) and OH radicals generated by electrolysis by applying power to the negative electrode part and the positive electrode part installed in the water. It is an antibacterial agent. At this time, the water is prepared from weakly acidic to neutral water, and the antimicrobial agent preferably has a component ratio of hypochlorous acid of 50% or more. In addition, it is not necessary to add a separate chlorine, it is effective to produce a brine in order to induce a more violent reaction.

Such an antimicrobial agent may be used for disinfecting the throat of a human body, for cleaning teeth or gums during a dental treatment process, for treating cervical cancer, or for disinfecting the throat or nose in an otolaryngologist. This antimicrobial effect is 20 seconds to remove as much as 99.99% E. coli 0157 bacteria as shown in Figure 21 using sterilized water prepared for 20 seconds with brine having a concentration of 0.9% as shown in Figure 20 It can be seen that it only takes.

On the other hand, the sterilized water prepared as described above, characterized in that made of water containing an oxidant including hypochlorous acid (HOCl), OH radicals generated by electrolysis by applying power to the negative electrode portion and the positive electrode portion installed in the water. It is an antiviral agent. At this time, the water is prepared from weakly acidic to neutral water, and the antiviral agent preferably has a component ratio of hypochlorous acid of 50% or more. In addition, it is not necessary to add a separate chlorine, it is effective to produce a brine in order to induce a more violent reaction.

Such antiviral agents may be used for disinfecting the throat of a human body, for cleaning teeth or gums during a dental treatment process, for treating cervical cancer, or for disinfecting the throat or nose in an otolaryngologist. In order to test the effect of such an antiviral agent, the following experiment was done.

That is, a pair of negative electrode plates and positive electrode plates are arranged side by side so that 36 small projections face each other, and the battery 160 voltage is applied at 3.0 V, and for 10%, 20 seconds, and 30 seconds for 0.9% saline solution. After the electrolysis reaction, the amount of hypochlorous acid remaining was measured. As a result, as shown in FIG. 20, immediately after the electrolysis reaction, the concentration of the instantaneous hypochlorous acid increases, but as the time passes, the concentration of hypochlorous acid decreases, and after about 5 minutes, the remaining hypochlorous acid (HOCl) remains. The concentrations of were 0.6mg / L, 0.8mg / L, and 0.95mg / L for 10, 20, and 30 seconds electrolyzed sterilized water, respectively. In other words, when the sterilized water is prepared according to the present invention, sterilized water having a high component ratio of hypochlorous acid can be obtained, but since about 1 minute elapses immediately after the electrolysis, the amount of hypochlorous acid starts to decrease rapidly. It can be seen that the sterilization effect can be maximized by applying to a desired site within 1 minute after the preparation.

In addition, the CT value of free chlorine required to remove 99% of viruses in water is known to be 0.13 mg / L / min. Here, the CT value (concentration * time) is obtained by multiplying the concentration (mg / L) of free chlorine by the contact time (min). In order to remove a certain amount of virus, chlorine having a certain concentration (at this time, weakly acidic to neutral If water is used, most free chlorine means hypochlorous acid), which means that it must remain in contact for some time. Therefore, if the concentration of hypochlorous acid is high, this means that the contact time with hypochlorous acid may be shorter. As a result of the experiment under the above conditions, the following CT values were obtained for residual chlorine.

That is, in the antiviral agent that was electrolyzed for 10 seconds, 20 seconds, and 30 seconds with the sterilizing water producing apparatus according to an embodiment of the present invention, all of the time required to remove 99% of the viruses would not take 10 seconds. It can be seen that it has an excellent disinfectant disinfection power.

Similarly, the results of testing the sterilization performance of the sterilized water prepared according to the present invention for a specific virus are as follows. Similarly, a power source of about 3 V was applied to 0.9% of 30 mL of brine in a state where the electrode plates on which projections were formed were provided at intervals of 1 mm. Then, the degree of inactivation of the virus of interest was observed during electrolysis and after 20 seconds of electrolysis, and the results shown in Tables 2 and 3 were obtained.

Where CFU / mL represents the population of live Escherichia coli. (E.coli) virus per mL, No is the first active population, N is the active population over time, and log is an index of 10 Mean commercial log. As shown in Table 2, in the case of Escherichia coli. (E. coli) virus, by electrolysis for about 30 seconds, only less than 1/100 of the total virus remained active. In other words, the remaining 99% showed inactivation. (Ie log (N / No) is less than -2, so we can see that more than 99% is inactive)

In addition, as shown in Table 3, 99.9% of MS2 phage virus was inactivated during about 15 seconds of electrolysis, and after 4 minutes of 30 seconds of electrolysis, more than 99.99% of the virus was inactivated. You can see that it is activated.

As such, when a pair of small electrode plates are arranged side by side to induce violent electrolysis in the projections formed to face each other on each electrode plate, and a power supply having a battery capacity level of about 3 V is provided, a maximum of 99.99% is achieved within 35 seconds. In addition to removing the virus, it is possible to easily prepare a sterilizing water having a high sterilizing power. Moreover, the sterilized water prepared in this way can not only directly use water which is easy to obtain such as tap water or ground water, but also the component ratio of hypochlorous acid having excellent sterilizing power is much higher than in the related art.

In addition, since the sterilized water prepared as described above has a high sterilizing effect, it can be used as the water for disinfection of a syringe or the cleaning of medical equipment, and can also be used as the water for cleaning and disinfection of a dialysis apparatus and endoscope. In addition, it is effective in bird flu virus, and also excellent in deodorizing effects such as tobacco.

In addition, if the cathode projection and the anode projection are formed of platinum and formed to a certain size or more, only the projections may be replaced by a method such as screwing. Meanwhile, in order to reduce cost, the cathode protrusion and the anode protrusion may be titanium plated or formed of titanium.

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

However, in describing the present invention, a detailed description of known functions or configurations will be omitted to clarify the gist of the present invention.

As shown in Figs. 5 to 14, the present invention allows the positive electrode portion 131 and the negative electrode portion 132 to be spaced apart from each other in the water 111 in the container 110 by a predetermined distance from the power supply 120. Antibacterial or antiviral agent which induces electrolysis in water 111 by applying power through the power supply lines 121 and 122, and sterilizes bacteria and viruses by using oxidants such as ozone and OH radicals in the reaction of electrolysis. It relates to an irrigation system for supplying a plurality of treatment tables or offices.

Medical irrigation system 100 according to an embodiment of the present invention, as shown in Figure 5, the container 110 having a water receiving portion for receiving the water 111, and the negative electrode portion installed in the container 110 131 and the electrode unit 132 consisting of a positive electrode unit 132, a power supply unit 120 for supplying power to the electrode unit 130, the tap water supply unit 140 for supplying tap water to the container 110 and And the sterilizing water distribution unit 150 formed to supply the sterilizing water from the container 110 to various treatment rooms or treatment tables, the compression unit 170 for sucking the suction pipe 171, and the compression unit 170. Inhalation pressure distribution unit 180 for dividing the suction pressure so that the suction pressure can be used in various offices or treatment tables, and sterilization water supplied from the sterilization water distribution unit 150 by spraying the switch selectively and suction Disinfection of the sterilizing water to suck the liquid and the like by using the suction pressure from the pressure distribution unit 180 Consists of a tube period 190 is connected to 150 and the suction pressure distributor (180).

The container 110 may be installed in only one place of the hospital, and its capacity is determined in consideration of the amount of sterilizing water used in the treatment room or treatment table.

The power supply unit 120 may use a DC power received by converting an external AC power, or may be a DC power by a charger charged with AC power. The negative power line 121 from the power supply 120 is connected to the negative electrode plate 131, and the positive power line 122 from the power supply 120 is connected to the positive electrode plate 132.

As shown in FIGS. 10 to 13, the electrode unit 130 includes a negative electrode plate 131 having a plurality of negative electrode protrusions 131 a formed on a surface thereof, and a positive electrode plate having a plurality of positive electrode protrusions 132 a formed on a surface thereof. 132, the negative electrode plate 131 and the positive electrode plate 132 is fixed to the bottom of the container 110, the support 133 and the fixing hole 133a of the support 133 through the container It is configured to include a fixing screw 134 for fixing to the bottom surface of (110).

Here, the negative electrode plate 131 and the positive electrode plate 132 are spaced apart by a predetermined interval d2 and fixed to the support 132, spaced apart by a predetermined interval d1 and faced to each other so as to face each other. Conical cathode projections 131a and anode projections 132a protruding from each other are provided, and the electric charges applied to the electrode plates 131 and 132 are concentrated on the tip portions B of the projections 131a and 132a. Therefore, the electrolysis of water between the cathode protrusion 131a and the anode protrusion 132 can be further promoted as compared with the case where the same power is applied. In addition, the cathode protrusion 131a and the anode protrusion 132a are thickly plated with platinum so that active electrolysis occurs.

And, as shown in Fig. 11, the support 133 is connected to the negative electrode plate connecting slot 1331, which is recessed to insert and fix the negative electrode plate 131, and the positive electrode plate connection to be recessed to sandwich the positive electrode plate 132. Slot 1332 is formed. 6, the cathode power line 121 is connected to the negative electrode plate connection slot 1331, and the anode power line 122 is connected to the positive electrode plate connection slot 1332 inside the support 133. It is configured to be connected, so as to simply insert the electrode plate (131,132) in the slots (1331, 1332) of the support 133, the power is configured to be supplied to the electrode plate (131,132). Therefore, when the platinum of the electrode plates 131 and 132 is consumed, the replacement is completed by simply removing the consumed electrode plates 131 and 132 from the slots 1331 and 1332 and inserting the new electrode plates 131 and 132 into the slots. Therefore, the sterilizing water production apparatus 100 configured as described above can be used semi-permanently.

The tap water supply unit 140 adjusts a supply flow rate of the tap water introduced into the container 110 through the water pipe 141 and the water pipe 141. At the same time, the sterilizing water supply pump 143 is installed between the sterilizing water distribution unit 150 and the container 110 to increase the supply pressure of the sterilizing water produced in the container 110.

The sterilizing water distributor 150 may be configured to supply sterilizing water dispenser 151 and sterilizing water divided by the sterilizing water distributor 151 formed to supply the sterilizing water manufactured in one container 110 to a plurality of medical offices or treatment tables. Sterilization water supply pipe 152 formed of a flexible material to supply to the tube period 190, and the control valve 153 for controlling the amount of sterilization water supplied to the tube period 190 through the sterilization water supply pipe 152 It is composed.

The compression unit 170 is composed of a compressor 170a for sucking and compressing air through the suction pipe 171. At this time, the compression unit 170 maintains a constant pressure state, and when the suction pressure opening / closing valve 183 around the inhaler 190b is opened, it provides an environment in which liquid and the like can be sucked through the inhaler 190b. In addition, a suction liquid reservoir 173 is installed between the compressor 170a and the inhaler 190b to prevent the sucked suction liquid from flowing into the compressor 60. The liquid 173a collected in the suction liquid reservoir 173 is periodically discarded.

The suction pressure distribution unit 180 is a suction pressure distributor 181 for distributing the suction pressure generated through the compression unit 170, and the suction inlet 190b from each outlet of the suction pressure distributor 181 as a flexible material. It consists of a suction pressure distribution pipe 182 to be connected, and a suction pressure on / off valve 183 for opening and closing so that suction pressure is generated at an outlet end of the inhaler 190b. At this time, the suction pressure distributor 180 is arranged in parallel with the sterilizing water distributor 150, so that two different pipes (152, 182) can be smoothly connected to one tube period 190.

The tube period 190, as shown in Figures 6 to 8, the injector 190a for spraying the sterilized water supplied by coupling through the connection portion 152a in communication with the sterilizing water supply pipe 152, and the suction pipe It is composed of an inhaler 190b for sucking a portion of the sterilized water and the surrounding liquid and the like coupled through the connecting portion 182a in communication with the 182.

The injector 190a controls the degree of opening and closing of the sterilizing water control valve 153 by using the sterilizing water adjusting button 169a of the control panel 169 installed at each treatment table or treatment room, thereby providing a spray hole of the spraying machine 190a ( The amount of sterile water sprayed through 191a) is controlled.

The inhaler 190b is formed with a receiving hole 193b for accommodating a portion of the injector 190a so that the injector 190a passes through the hole indicated by reference numeral 192b, as shown in FIG. 6. ) In addition, the suction port 191b of the inhaler 190b surrounds the circumference of the spray hole 191a and is formed with the suction port 191b at a position retreating from the position of the spray hole 191a. Through this, the doctor or nurse operating the tube period 190 can easily suck the liquid in any direction irrespective of the position of the suction port 191b. Then, a thin rubber pad 195b is coated on the contact surface between the nebulizer 190a and the inhaler 190b. Therefore, the coupling form between the nebulizer 190a and the inhaler 190b is not a fastening form, but the coupling force is maintained so as not to be separated to use the tube period 190 even when fitted.

At this time, the inhaler 190b is maintained so that a constant pressure is always applied in the compression unit 170, it is possible to operate the inhaler 190b by opening and closing the inlet pressure control valve 183. Therefore, by operating the inhaler adjustment button 169b of the control panel 169, the intake pressure regulating valve 183 can be opened and closed, and the inhaler 190b can be used simply.

The operating principle of the medical irrigation system 100 configured as described above will be described in detail.

When tap water having a pH of about 6.5 is filled in the container 110 through the water pipe 141, the amount of water in the container 111 is sensed, and salt is sprayed so that the water in the container becomes salt water having a salinity of about 0.9%. Convert the water in the brine.

Then, when power is applied from the power supply unit 120 to the electrode unit 130, the power is supplied to the negative electrode plate connection slot 1331 and the positive electrode plate connection slot 1332 of the support 133. Then, through each of the connection slots 1331 and 1332, the negative power is supplied to the negative electrode plate 131 and the positive power is supplied to the positive electrode plate 132. At this time, power is applied to the negative electrode plate 131 and the positive electrode plate 132, but charges are concentrated on the negative electrode protrusions 131 a and the positive electrode protrusions 132 a formed on opposite surfaces of the respective electrode plates 131 and 132. . Therefore, electrolysis occurs violently between the projections 131a and 132a, and oxidants such as ozone, hydrogen peroxide, HOCl, and OH radicals, which are generated in a large amount through intense electrolysis, sterilize bacteria and bacteria in a short time. As a result, sterilized water can be easily prepared.

The antibacterial or antiviral agent produced as described above is supplied to the sterilizing water distributor 151 through the sterilizing water supply pipe 144, the sterilizing water distributed from the sterilizing water distributor 151 is a plurality of tube period 190 The nebulizer 190a is used for washing the nose or throat of the rhinitis patients, or is used for the treatment of cervical cancer of obstetrics and gynecology.

 14 is a cross-sectional view of another portion of the electrode. As shown in FIG. 14, the electrode plates 231 and 232 are not formed in only one plate shape, and branch plates branched from the electrode plates 231 and 232. And cathodes 2311a on the branch plates 2311 and 2321 facing each other at a closer distance, without electrode protrusions being formed on the electrode plates 231 and 232, which are largely spaced apart. ) And the anode protrusion 2321a may be formed. Through such a configuration, it is possible to produce sterilized water in a shorter time by securing more areas in which electrolysis occurs violently in the unit volume.

Hereinafter, another embodiment of the present invention will be described in detail.

As shown in Figure 15 to 17, the irrigation system 200 according to another embodiment of the present invention, the water pipe 210 for supplying the tap water and the salt in accordance with the flow rate of the tap water passing through the water pipe 210 A salt supply unit 220 for supplying a salt water having a salinity of about 0.7% to 1.0%, a salt water distribution unit 250 for distributing the supplied salt water, and a compression unit 240 for sucking the suction pipe 241. And, to adjust the flow rate of the brine supplied from the suction pressure distribution unit 270, and the salt water distribution unit 250 to divide the suction pressure to use the suction pressure generated from the compression unit 240 in various offices or treatment tables A sprayer 290 that is made of electrolytically and sprayed with sterilized water, a control unit 260 that controls power such as supplying power to the electrode units 331 and 332 inside the sprayer 290, and a suction pressure distribution unit ( 270) using the suction pressure to suck up liquids It consists of an inhaler (280) connected to the suction pressure distributor (270).

Since the configuration of the salt water distribution unit 250, the compression unit 240, the suction pressure distribution unit 270 is similar to the configuration of the above-described sterilizing water distribution unit 150, a detailed description thereof will be omitted.

As shown in FIGS. 16 and 17, the nebulizer 290 has electrode portions 331 and 332 formed inside the body 310 formed in the shape of a pipe having a rectangular cross section, and is operated by user buttons 393 and 394. The brine control valve 253 is opened and closed, and power is supplied to the electrode portions 331 and 332 along the power supply lines 321 and 322, and the brine is generated by electrolysis while the brine passes through the body 310. Converted to sterile water.

Herein, the electrode parts 331 and 332 may be connected to the negative electrode part 331 which receives the negative power from the power supply part 320 through the negative power line 321, and the anode through the positive power line 322 from the power supply part 320. The positive electrode unit 332 is supplied with power. Here, the negative electrode projections 331a are formed to have different lengths on the negative electrode portion 331, and the positive electrode projections 332a are formed on the positive electrode portions 332 so as to be spaced apart from the negative electrode projections 331a by a predetermined distance. Intense electrolysis is performed at the end of the 331a and the end of the anode projection 332a. In addition, a cathode protrusion (not shown) and an anode protrusion (not shown) are also formed on each of the protrusion side surfaces 331b and 332b facing each other of the cathode protrusion 331a and the anode protrusion 332a, so that charges are formed at the leading end of these protrusions. By concentrating, it is possible to induce more intense electrolysis.

Therefore, as the plurality of cathode protrusions and the anode protrusion electrode portions 331 and 332 are installed along the longitudinal direction of the body 310, when water is supplied while the power is applied to the electrode portions 331 and 332 of the body 310, the body Water flowing through the 310 is generated by eddy currents while being resisted by the electrode parts 331 and 332, resulting in a large contact area with the water and the electrode parts 331 and 332 and a longer contact time. Therefore, the water passing through the body 310 is electrolytically violently generated by the electrode portions 331 and 332, thereby making it possible to generate more oxidants more quickly. Through this, the water passing through the body 310 is converted to sterilized water by the oxidant generated by passing through the body 310.

At this time, the filter 340 is additionally provided to filter foreign matter from the tap water. The filter 340 may be formed on the downstream side of the electrode parts 331 and 331, thereby maintaining a positive pressure in which salt water can stay for a sufficient time inside the electrolysis. Such a filter can be replaced by one or more small holes, and the holes can be sprayed at high pressure to the area to be sprayed by the nozzle effect.

Reference numeral 292 is a fastening part connected to the salt water supply pipe 252, and reference numeral 291 is a sterilization water injection hole.

The inhaler 280 is fastened in communication with the inhaler fastening part 272a to suck the surrounding liquid through the suction hole 281 formed at one side of the nebulizer 290. At this time, only one inhaler 280 is installed in FIG. 16 for convenience, but may be installed on all four surfaces, and as in the configuration of the above-described embodiment 100, it is formed to retreat and surround the injection hole 291. It may be. Here, the suction control valve 273 is opened and closed by a button 282 formed in the inhaler 280.

Through this, it is possible to spray fresher sterilized water, and in this case, the sterilized water sprayed in this case has a high component ratio of ozone and OH radicals, which is more effective when used for the treatment of cervical cancer.

FIG. 18 is a graph showing experimental data showing an increase in the amount of chlorine ions due to electrolysis by flowing a current of 5 V and 2.2 A in brine having a concentration of 0.98% and pH6.39. As shown in the experimental results of FIG. 6, since the more intense electrolysis is performed on the brine, a faster sterilization effect can be obtained. Further, since the electrode plates 131, 132, 331, 332 of the embodiments of the present invention are formed with protrusions 131a, 132a for condensing electric charges, the time required for sterilization is much shorter due to more intense electrolysis than the experimental result of FIG. do. Therefore, the water used in the present invention can be effectively applied not only tap water, distilled water, but also brine.

Although the preferred embodiments of the present invention have been described above by way of example, the scope of the present invention is not limited to these specific embodiments, and may be appropriately changed within the scope described in the claims. That is, in order to implement a device for producing sterilizing water to generate more oxidant with a simple configuration, it is exemplified that including an electrode protrusion for concentrating charge in a pointed or columnar shape, the electrode protrusion of the present invention is pointed or cylindrical It is not limited to being formed as, any shape (for example, protruding rod) protruding from the electrode portion to induce the concentration of charge is included in the scope of the present invention.

As described above, the present invention provides a container having a water holding portion for accommodating water; An electrode part including a negative electrode part and a positive electrode part installed in the water receiving part; A power supply unit supplying power to the negative electrode unit and the positive electrode unit; It is fixed to the pipe extending from the container, including a spray (spray) for selectively spraying water from the container, harmless to the human body at a low cost to manufacture a sterilized water that more thoroughly killed viruses, bacteria, etc. during the treatment or treatment In addition, immediately after the production of fresh sterilized water, immediately after production to the human body to provide a medical irrigation system, characterized in that to prevent the secondary infection, supplying sterilized water to ensure the reliability and safety at the same time.

In addition, the present invention, in the production of sterilized water to be supplied to the human body, by producing a large amount of oxidant in a short time by more intense electrolysis, by allowing sterilization of bacteria or bacteria in a short time, fresh sterilized water or saline solution In using it does not take a long time to be able to manufacture immediately.

And the present invention by disinfecting and disinfecting using sterilized water prepared without using a separate chemical in the amygdala and rhinitis, the antibacterial agent to treat the amygdala and rhinitis without causing side effects to the human body; An antiviral agent and an irrigation system using the same are provided.

Another object of the present invention is the discovery that OH radicals, ozone, and hypochlorite components of sterile water obtained through electrolysis are effective in treating infections of HPV (human papillomavirus), which causes cervical cancer. Based on the present invention, antibacterial to antiviral agents useful for gynecological treatment and irrigation system using the same are provided.

Further, by immediately producing cleaning water for disinfecting syringes, endoscopes, dialysis apparatuses, and the like using the irrigation system according to the present invention, by providing an environment for disinfecting and disinfecting medical parts at any time, the safety of a variety of medical equipment more easily. To ensure that it is secured.

In addition, since the sterilizing water is prepared using the charges concentrated on the negative electrode protrusion and the positive electrode protrusion, sufficient sterilizing effect can be obtained even with a power supply having a smaller capacity.

Claims (39)

A container having a water holding portion for receiving water; An electrode part including a negative electrode part and a positive electrode part installed in the water receiving part; A power supply unit supplying power to the negative electrode unit and the positive electrode unit; A spray fixed to a tubing extending from the vessel to selectively spray water from the vessel; Medical irrigation system, characterized in that configured to include The method of claim 1, Medical spray irrigation system, characterized in that the atomizer is connected to the pipe and formed in plurality. The method of claim 2, Medical irrigation system, characterized in that the water accommodated in the water receiving portion is brine. The method of claim 3, wherein Medical salt irrigation system, characterized in that the brine has a salinity of 0.5% to 3%. The method of claim 2, A compressor; An inhaler connected to the compressor and having a suction force to suck the surroundings; The medical irrigation system further comprises a switch for selectively inhaling the inhaler. The method of claim 5, The inhaler and the nebulizer are used in a combined form, the inhaler is a medical irrigation system characterized in that the suction hole is formed in a position that is wrapped around the spray hole of the nebulizer and retracted from the position of the spray hole. The method of claim 1, And the negative electrode portion and the positive electrode portion are formed in a plate shape and arranged side by side. The method of claim 7, wherein And a branching portion protrudes from one surface of the negative electrode portion and the positive electrode portion, and the branching portion of the negative electrode portion and the branching portion of the positive electrode portion are arranged to face each other. The method according to any one of claims 1 to 8, The negative electrode portion and the positive electrode portion medical irrigation system, characterized in that a plurality of cathode projections and a plurality of anode projections formed to face each other. A pipe through which water is supplied; An electrode portion formed in the pipe and having a negative electrode portion having a plurality of cathode protrusions, and a positive electrode portion having a plurality of anode protrusions facing the cathode protrusion; A power supply unit supplying power to the negative electrode unit and the positive electrode unit; A sprayer (spray) connected to the pipe or the pipe communicating with the pipe for selectively spraying water passing through the pipe; Medical irrigation system, characterized in that configured to include A pipe through which water is supplied; An electrode portion formed in the pipe and comprising a plurality of negative electrode plates and a positive electrode plate facing the negative electrode plate; A power supply unit supplying power to the negative electrode unit and the positive electrode unit; A sprayer (spray) connected to the pipe or the pipe communicating with the pipe for selectively spraying water passing through the pipe; And a plurality of cathode protrusions and a plurality of anode protrusions formed on the negative electrode plate and the negative electrode plate to face each other. The method according to claim 10 or 11, wherein Medical spray irrigation system, characterized in that the atomizer is connected to the pipe and formed in plurality. The method according to claim 10 or 11, wherein Medical irrigation system, characterized in that the water accommodated in the water receiving portion is brine. The method of claim 13, Medical salt irrigation system, characterized in that the brine has a salinity of 0.5% to 3%. The method according to claim 10 or 11, wherein A compressor; An inhaler connected to the compressor and having a suction force to suck the surroundings; The medical irrigation system further comprises a switch for selectively inhaling the inhaler. The method of claim 15, The inhaler and the nebulizer are used in a combined form, the inhaler is a medical irrigation system characterized in that the suction hole is formed in a position that is wrapped around the spray hole of the nebulizer and retracted from the position of the spray hole. The method according to claim 10 or 11, wherein Medical electrode irrigation system, characterized in that the electrode portion is formed in the nebulizer or just installed in connection with the nebulizer. The method according to any one of claims 1 to 8 or 10 or 11, The irrigation system is medical irrigation system, characterized in that it is used for the treatment of cervical cancer of obstetrics and gynecology. The method of claim 17, The irrigation system is a medical irrigation system, characterized in that used for treating athlete's foot. The method of claim 17, The irrigation system is a medical irrigation system, characterized in that used for teeth whitening. The method according to any one of claims 1 to 8 or 10 or 11, The irrigation system is a medical irrigation system, characterized in that used in the treatment of rhinitis of the nose in the otolaryngology. The method according to any one of claims 1 to 8 or 10 or 11, The irrigation system is a medical irrigation system, characterized in that it is used for cleaning the teeth or gums in the dentist. The method according to any one of claims 1 to 8 or 10 or 11, The irrigation system is a medical irrigation system, characterized in that it is used for disinfection of the neck area in the otolaryngology. An antimicrobial agent comprising water containing an oxidant including hypochlorous acid (HOCl) and OH radicals generated by electrolysis by applying power to a negative electrode part and a positive electrode part installed in water. The method of claim 24, The antimicrobial agent is characterized in that the component ratio of hypochlorous acid is 50% or more. The method of claim 24, The water is an antimicrobial agent, characterized in that the brine. The method of claim 26, The salt water is an antimicrobial agent, characterized in that the salinity of 0.5% to 3%. The method according to any one of claims 24 to 27, The antimicrobial agent is characterized in that it is used for disinfecting the throat of the human body. The method according to any one of claims 24 to 27, The antimicrobial agent is characterized in that it is used for cleaning teeth or gums during the dental treatment process. The method according to any one of claims 24 to 27, The antimicrobial agent is characterized in that it is used for the treatment of cervical cancer. The method according to any one of claims 24 to 27, The antimicrobial agent is characterized in that it is used for disinfection of the throat or nose. An antiviral agent comprising water containing an oxidant including hypochlorous acid (HOCl) and OH radicals generated by electrolysis by applying power to a negative electrode part and a positive electrode part installed in water. 33. The method of claim 32, The antimicrobial agent is an antiviral agent, characterized in that the component ratio of hypochlorous acid is made from weakly acidic to neutral water is 50% or more. The method of claim 32, The water is an antiviral agent, characterized in that the brine. The method of claim 24, The salt water is an antiviral agent, characterized in that the salinity of 0.5% to 3%. 36. The method of any one of claims 32 to 35, The antiviral agent, characterized in that used for the disinfection of the throat of the human body. 36. The method of any one of claims 32 to 35, The antiviral agent, characterized in that used for cleaning the teeth or gums during the dental treatment process. 36. The method of any one of claims 32 to 35, The antiviral agent, characterized in that used for the treatment of cervical cancer. 36. The method of any one of claims 32 to 35, The antiviral agent is characterized in that it is used for disinfection of the throat or nose.

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