KR101971423B1 - Apparatus for manufacturing medical hypochlorous acid using electrolysis cell - Google Patents

Abstract

The present invention relates to an apparatus for producing slightly acidic hypochlorous acid solution for medical use using an electrolysis device. More particularly, the present invention relates to an apparatus for producing slightly acidic hypochlorous acid solution using an electrolysis device which can control micro-concentration of hypochlorous acid solution by precisely controlling the generation concentration of the electrolysis device in the generator for producing slightly acidic hypochlorous acid solution, can realize a safe production system through real-time monitoring during the operation of the generator, can monitor in real time through a smartphone by linking the generator and the smartphone, and can prevent accidents in advance by integrally manufacturing a case of the electrolysis device.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for producing hypochlorous acid,

The present invention relates to an apparatus for producing hypoxic hypochlorous acid for medical use using an electrolyzer, and more particularly, to a hypoxic hypochlorous acid water producing apparatus for medical use, It is possible to realize a safe manufacturing system through real-time monitoring during the operation of the generator, real-time monitoring through the smartphone by linking the generator and the smartphone, Acidic hypochlorous acid water producing apparatus using an electrolytic device capable of preventing electrolysis.

In general, utensils, food processing apparatuses, cooking utensils, food factory manufacturing equipment, and group feeding facilities are disinfected using sterilized water because hygiene is very important.

Such disinfection methods include chlorine disinfection methods. When disinfection using chlorine disinfection method, substances that can cause cancer induction may occur, which is very harmful to the human body, and the working environment is poor due to the characteristic odor of chlorine .

Meanwhile, as a method for replacing the chlorine disinfecting method as described above, there is a disinfection method using ozone, ultraviolet rays, chlorine dioxide, hypochlorous acid water, or the like.

Since the hypochlorous acid water has excellent sterilizing power and is harmless to the human body, the hypochlorous acid water is used for disinfecting various instruments as well as fruits and vegetables.

Such hypochlorous acid water is produced by electrolysis of electrolyte when supplied with electrolyte and raw water which are hydrochloric acid diluted in the electrolytic apparatus. At this time, hypochlorous acid water is hypochlorous acid water. Therefore, the pH of the hypochlorous acid water produced in the electrolytic tank should be 5.0 to 6.5 and the effective chlorine concentration should be 10 ppm to 80 ppm.

In order to generate hypochlorous acid water, it is important to set the initial value. It is cumbersome for the operator to manually perform the operation, and there is a problem that an error may occur.

In the conventional hypochlorous acid hypochlorous acid water producing device, there is a problem that the electrolytic device installed therein is operated so that the case of the electrolytic cell can not catch the internal pressure and is damaged, or a safety accident such as explosion occurs when it is severe.

Korean Registered Patent No. 0794106 (Registered on Jan. 04, 2008) Korean Patent Publication No. 10-2012-0019636 (published on Mar. 07, 2012)

An object of the present invention is to provide a medical micro-acidic hypochlorous acid water producing device capable of precisely controlling the concentration of the electrolyzer in the micro-acidic hypochlorous acid water generator to control the micro concentration of the hypochlorous acid water .

It is another object of the present invention to provide a medical hygienic hypochlorous acid water producing apparatus capable of realizing a safe manufacturing system through real-time monitoring during operation of a generator.

Another object of the present invention is to provide a medical hygienic hypochlorous acid water producing apparatus capable of real-time monitoring through a smart phone in cooperation with a generator and a smartphone.

Another object of the present invention is to provide an apparatus for producing hypochlorous acid hypohalous acid for medical use using an electrolytic device, which is capable of integrally manufacturing a case of an electrolytic device and preventing a safety accident due to internal heat and pressure in advance.

According to an aspect of the present invention, there is provided a plasma generator comprising: a main body 100 having a rectangular parallelepiped shape;

A manipulation panel 200 provided with a manipulation and operation of a generator and a display unit on the front surface of the generator body 100;

An electrolyzer (300) provided in the generator body (100) and supplied with raw water to electrolyze electrolytes mixed with raw water to produce hypochlorous acid water;

A raw water supply pipe 400 provided at the rear of the generator main body 100 for supplying raw water to the electrolyzer 300;

An electrolyte supply pipe 500 provided at the rear of the generator body 100 to supply an electrolyte to the electrolysis device 300;

And a hypoxic hypochlorous acid water supply pipe 600 provided at the rear of the generator body 100 to discharge the hypochlorous acid water generated in the electrolyzer 300.

In the present invention, an initial value of the hypersaccharide hypochlorous acid water generator is stored in the generator main body 100, and when the generator main body 100 connected to the wired cable 710 is sensed, The initial value of the acidic hypochlorous acid water generator is transmitted through the cable 710 and the status information of the generator main body 100 including the temperature, the voltage and the current of the electrolyzer 300 is received and the received generator main body 100 And a mobile terminal (700) for displaying status information on the operation panel (200).

Further, the electrolyzer (300)

The upper part of the upper part of the upper part is provided with a hypochlorous acid water discharge pipe 308. The upper part of the upper part of the upper part of the water supply pipe 311 is connected to the lower part of the upper part. A disassembly main body 310 having a plurality of reinforcing ribs 314 for reinforcing internal pressure on the outer circumferential surface of the disassembly main body 310;

The electrode body 321 has a cylindrical electrode body 321. The electrode body 321 has a central outer circumferential surface provided with a contact protrusion 322 protruding outward and having an upper portion closely contacting the lower end of the disassembly body 310, An electrode 323 inserted into the decomposer main body 310 is provided on the upper part of the base body 321. A power connection pin 324 for supplying power to the electrode 323 is provided below the electrode body 321. [ An electrode unit 320 having an electrolyte inflow pipe 325 to supply electrolytes to the inside of the decomposer main body 321 at one side of the lower portion of the electrode body 321;

And a lower end portion of the cylindrical body is closely attached to a lower end of the contact protrusion 322 of the electrode unit 320 so as to be connected to the electrode unit 320. [ And a fixing cap 330 for fixing the fixing member 320 to the lower portion of the decomposer main body 310.

In the center of the operation panel 200 of the present invention, an operation setting button 210, a capacity setting button 220, and a concentration setting button 230 are provided, respectively, and a power indicator lamp 240 and a density indicator lamp 250 and a capacity indicating lamp 260. The alarm indication lamp 270 and the operation indicator lamp 280 are provided on the other side.

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As described above, the micro-concentration of the hypochlorous acid water can be controlled by precisely controlling the concentration of the electrolyzer in the hypochlorous acid water generator, so that the micro-hypochlorous acid water having an appropriate concentration can be mass- There is an effect that can be.

The medical hypersaccharic hypochlorous acid water producing apparatus of the present invention has an effect of realizing a safe manufacturing system through real-time monitoring during operation of the generator.

In addition, the present invention enables real-time monitoring through a smart phone in conjunction with a generator and a smartphone, thereby improving the convenience of the operator.

Another advantage of the present invention is that the casing of the electrolysis unit can be integrally manufactured to prevent safety accidents due to internal heat and pressure.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing an apparatus for producing a medical acidic hypochlorous acid solution using an electrolytic apparatus according to the present invention. FIG.
FIG. 2 is an exemplary view showing the back surface of a medical acidic hypochlorous acid water producing apparatus using the electrolytic apparatus according to the present invention
3 is a view showing an example of a front surface of an apparatus for producing hypersaline hypochlorous acid for medical use using the electrolytic apparatus according to the present invention.
4 is a photograph showing an electrolyzer in a medical acidic hypochlorous acid water producing apparatus using the electrolytic apparatus according to the present invention.
5 is a photograph showing a main body of a decomposer of an electrolyzer in an apparatus for producing hypacetic hypochlorous acid for medical use using the electrolytic apparatus according to the present invention.
6 is a photograph showing an electrode unit of an electrolyzer in a medical acidic hypochlorous acid water producing apparatus using the electrolyzer according to the present invention.
FIG. 7 is an exemplary view showing a state where a mobile terminal is connected to a generator body in an apparatus for producing hypersaline hypochlorous acid for medical use using the electrolytic apparatus according to the present invention. FIG.
FIG. 8 is an exemplary view showing a state in which a medical acidic hypochlorous acid water producing apparatus using electrolysis according to the present invention is housed in a single case as a block housing. FIG.
9 is a skin irritation test result of hypochlorous acid water produced by a medical acid hypochlorous acid water producing apparatus using the electrolytic apparatus according to the present invention.
FIG. 10 is a result of an intra-aural stimulation test of hypochlorous acid water produced by a medical acid hypochlorous acid water producing apparatus using the electrolytic apparatus according to the present invention.
11 is an acute toxicity test result of hypochlorous acid water produced by a medical acidic hypochlorous acid water producing apparatus using the electrolytic apparatus according to the present invention.
12 is a cytotoxicity test result of hypoxic hypochlorous acid water produced by a medical acidic hypochlorous acid water producing apparatus using the electrolytic apparatus according to the present invention.
13 is a sterilization test report of hypochlorous acid water produced by a medical acidic hypochlorous acid water producing apparatus using the electrolytic apparatus according to the present invention.
14 is an antiviral test report of hypochlorous acid water produced by a medical acidic hypochlorous acid water producing apparatus using the electrolytic apparatus according to the present invention.
15 is a test report on the removal rate of pesticide herbicidal component of hypochlorous acid water produced by the medical acidic hypochlorous acid water producing apparatus using the electrolytic apparatus according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to achieve them, will be apparent from the following detailed description of embodiments thereof taken in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the exemplary embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete and will fully convey the concept of the invention to those skilled in the art. And the present invention is only defined by the scope of the claims. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 and 2, the apparatus for producing hypersaline hypochlorous acid for medical use according to the present invention comprises a rectangular parallelopipular shaped generator main body 100, Operation and operation, and a control panel 200 provided with a display unit.

3, the operation panel 200 includes an operation setting button 210, a capacity setting button 220, and a concentration setting button 230 at the center, and a power indicator lamp 240 A concentration indicating lamp 250 and a capacity indicating lamp 260 are respectively provided on the other side of the image forming apparatus 200. The alarm indicating lamp 270 and the operation indicator lamp 280 are provided on the other side.

At this time, the alarm indication lamp 270 is displayed such that the LED lamp for each alarm is turned on due to an electrolyte shortage alarm, a flow abnormality alarm (when water supply flow is abnormal), an overvoltage alarm, an overcurrent alarm,

A raw water supply pipe 400 for supplying raw water to the electrolyzer 300 and an electrolytic water supply pipe 500 for supplying an electrolytic solution to the electrolytic device 300 are provided on the rear surface of the generator body 100, Hypochlorous acid water supply pipe 600 is provided so that the acidic hypochlorous acid water can flow out of the main body 100 of the generator.

Meanwhile, raw water is supplied from the raw water supply pipe 400 to the generator main body 100, and electrolyte is supplied to the inside from the electrolyte supply pipe 500 to electrolyze the electrolyte mixed with the raw water to generate hypersaline hypochlorous acid water As shown in FIGS. 4 to 6, the decomposing device main body 310 of the electrolytic device 300 has a cylindrical shape, the inside of which is hollow, the upper end is closed, the lower end is open, A hypochlorous acid water discharge pipe 312 for discharging the hypochlorous acid water generated in the inside is provided on the other side of the upper part and a thread 313 is provided on the lower outer circumferential surface, A plurality of reinforcing ribs 314 reinforcing the pressure of the reinforcing ribs 314 are provided.

At this time, the decomposer main body 310 is provided with a plurality of reinforcing ribs 314 on the outer circumferential surface thereof and is integrally manufactured with the decomposer main body 310 without a separate lid at the upper end thereof, It is possible to prevent the decomposer main body 310 from being broken or exploded due to internal expansion due to heat and pressure generated when water is generated.

The electrode unit 320 coupled to the lower part of the disassembly body 310 includes a contact protrusion 322 protruding outward from the central outer circumferential surface of the cylindrical electrode body 321 and having an upper surface closely contacting the lower end of the disassembler body 310, And an electrode 323 inserted into the main body 310 of the decomposer is protruded upward from the upper part of the electrode body 321.

A power supply connection pin 324 for supplying power to the electrode 323 is provided at a lower portion of the electrode body 321. The electrolyte supply pipe 500 is vertically passed through one side of the lower portion of the electrode body 321, An electrolyte inflow pipe 325 is provided so that the electrolyte supplied through the electrolytic cell 321 is supplied into the decomposer main body 321.

The inner peripheral surface of the upper portion of the separator body 310 has a female screw thread which is screwed to the thread 313 of the decomposer body 310 and a lower end portion of which is in close contact with the lower end of the contact protrusion 322 of the electrode unit 320, And a fixing cap 330 for fixing the unit 320 to the lower portion of the decomposer main body 310.

At this time, it is preferable to provide a silicone ring (not shown) between the internal thread of the fixed cap 330 and the thread 313 of the disintegrator main body 310 so that the internal electrolyte does not flow out to the outside.

As shown in FIG. 7, in the medical hypersaccharide hypochlorous acid water producing apparatus of the present invention, the mobile terminal 700 is connected to the generator main body 100 by a wire cable 710.

The initial value of the hypersaline hypochlorous acid water generator is stored in the mobile terminal 700. When the generator main body 100 connected to the cable 710 is sensed, And receives the state information of the generator main body 100 including the temperature, the voltage and the current of the electrolyzer 300 and transmits the received state information of the generator main body 100 to the operation panel 200 .

In addition, a generator power switch, a USB port, an interface port, an adapter port, and a wall mount (not shown) are provided on the rear surface of the generator main body 100.

A solenoid, a flow meter, and a check valve are preferably installed between the raw water supply pipe 400 and the raw water inflow pipe 311 provided in the electrolyzer 300.

The solenoid is opened or closed so that the raw water is supplied or stopped to the electrolyzer 300. The flow meter measures the flow rate of raw water to be supplied, that is, maintains the generated electrolytic water material constant and measures the amount of electrolytic water to be output Function.

The check valve controls the electrolytic water to prevent the electrolytic water electrolyzed by the electrolytic device 300 from flowing back to the raw water.

A tubing pump is provided between the electrolyte supply pipe 500 and the electrolyte inflow pipe 325 of the electrode unit 320 to supply the electrolyte into the decomposer main body 310 through the electrolyte inflow pipe 325.

A cooling fan (not shown) is installed on one side of the generator main body 100 to prevent the internal temperature from rising by using the cooling fan when the internal temperature of the generator main body 100 rises.

The method of producing hypochlorous acid hypochlorous acid according to the present invention will now be described.

A power supply switch provided at the back of the generator body 100 is turned on to supply power to the generator body 100. The capacity setting button 220 of the operation panel 200 provided on the front surface of the generator body 100, (230) is operated to set the conditions for generating the concentration and the amount of the hypochlorous acid water to be produced.

At this time, the operator visually confirms the concentration indicating lamp 250 to select one of the first or second steps and selects one of 10L, 50L, 100L, 150L, and 200L through the capacity indicating lamp 260.

Then, the generator main body 100 is operated using the operation setting button 210 of the operation panel 200.

When the generator main body 100 is operated as described above, power is supplied to the electrolyzer 300 provided in the generator main body 100, and raw water and electrolyte are supplied to generate a constant concentration and a predetermined amount of hypochlorous acid water.

At this time, the hypochlorous acid water generated in the electrolyzer 300 should be generated as a weak acidic hypochlorous acid water. Accordingly, it is preferable that the pH of the hypochlorous acid water is selected to be in the range of 5.0 to 6.5 and the chlorine concentration is in the range of 10 ppm to 80 ppm, which is the effective chlorine concentration, depending on the selection of the concentration setting button 230.

The hypochlorous acid water generated in the electrolyzer 300 is discharged to the hypochlorous acid water discharge pipe 312 and the hypochlorous acid hypochlorite water discharge pipe 600 of the decomposer main body 310.

As described above, when the amount of the hypochlorous acid to be dispensed to the hypochlorous acid hypochlorite water pipe 600 reaches the predetermined amount, the operation of the electrolytic water purifier 300 is automatically stopped and the hypochlorous acid water production is stopped.

Meanwhile, in order to forcibly stop the generation of the electrolytic water for medical use (the number of hypochlorous acid acid solution) in the electrolyzer 300 during the production, the operation setting button 210 of the operation panel 200 is pressed once again, Stop it.

In this case, if the operation is forcibly stopped as described above, the electrolytic water discharge is not stopped immediately after completion of the electrolytic water generation end / forced stop due to the equalization of the electrolytic water quality and the generator protection function.

On the other hand, the mobile terminal 700 is a terminal implemented by an Android OS, an Apple OS, etc., such as a smart phone, a tablet PC, and the like, and is a terminal capable of performing an APP operation.

In the mobile terminal 700 according to the present invention, initial values of the generator main body 100 are stored, and initial values assigned to the generator main body 100 may be stored differently for each model of the generator main body 100.

The mobile terminal 700 transmits the initial value of the generator main body 100 through the cable 710 when the generator main body 100 connected to the wire cable 710 is detected. Therefore, the operator installing the generator main body 100 can easily set the initial value of the generator main body 100 by connecting the mobile terminal 700 without separately inputting the initial values.

For example, the set power consumption is set in advance by the user, and is set such that the pH of the hypochlorous acid water of the hypochlorous acid is weak and the chlorine concentration of the hypochlorous acid water becomes the effective chlorine concentration.

And the set power consumption is increased as the set effective chlorine concentration is higher. For example, the set power consumption can be set to 60W, 100W, and 115W, respectively, when the effective chlorine concentration of the hypochlorous acid aqueous solution is 20 ppm, 30 ppm, and 40 ppm, respectively. Accordingly, the initial value of the set power consumption according to the set effective chlorine concentration can be easily set by the connection of the mobile terminal 700.

7, the mobile terminal 700 receives the status information of the generator main body 100 including the temperature, the voltage, and the current of the electrolytic device 300 through the cable 710, The status information of the mobile terminal 100 can be displayed on the status information screen.

Accordingly, the operator can easily grasp the state of hypersaline hypochlorous acid generation through the mobile terminal 700.

On the other hand, as shown in FIG. 8, the generator main body 100 can be implemented in a compact form in the form of a block, and in this case, a plurality of the generator main bodies 100 can be stored in a single case 800.

That is, the generator main body 100 may be implemented as a block housing implemented as a block-shaped housing, and the generator main body 100 may be vertically stored in a plurality.

Accordingly, since the plurality of generator main bodies 100 are provided in the single case 800 in the form of a small block housing, it is possible to simultaneously generate the hypersaline hypochlorous acid water for various purposes, thereby improving convenience in use.

Meanwhile, as shown in FIG. 9, the number of hypoxic hypochlorous acid generated by the apparatus for producing hypoxic hypochlorous acid for medical use using the electrolytic apparatus according to the present invention and the method for producing hypoxic hypochlorous acid produced by the method are non- And no systemic toxicity change was observed as in Fig.

In the device for producing hypoxic hypochlorous acid for medical use using the electrolyzer according to the present invention and the hypochlorous acid water produced by the method for producing hypoxic acid for medical use, no toxicity is detected in the cytotoxicity test as in FIG. 12, , It can be confirmed that the sterilization effect is 99.999% or more in the sterilization test as shown in FIGS. 14A and 14B, and 99.9% of the antiviral effect is obtained after 15 seconds in the antiviral test as in FIGS. 14A and 14B.

Also, as shown in FIG. 15, the hypochlorous acid water of the present invention has an effect of removing 90.8% of acetic acid herbicide acephate.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to be illustrative, It will be understood that various changes and modifications may be made without departing from the spirit of the invention.

100: Generator body
200: Operation panel
210: Operation setting button 220: Capacity setting button
230: Density setting button 240: Power indicator lamp
250: Concentration Indicator Lamp 260: Capacity Indicator Lamp
270: Alarm indicator lamp 280: Operation status indicator lamp
300: Electrolyzer
310: Disintegrator main body 311: Raw water inflow pipe
312: Acidic hypochlorous acid water discharge pipe 313:
314: reinforcing rib 320: electrode unit
321: Electrode body 322:
323: Electrode 324: Power connection pin
325: Electrolyte inlet tube 330: Fixed cap
400: raw water supply pipe
500: Electrolyte supply pipe
600: Hypochlorous acid water supply pipe
700: Mobile terminal 710: Wired cable
800: Case

Claims (7)

A generator body 100 having a rectangular parallelepiped shape;
A manipulation panel 200 provided with a manipulation and operation of a generator and a display unit on the front surface of the generator body 100;
An electrolyzer (300) provided in the generator main body (100) and supplied with raw water to electrolyze electrolyte mixed with raw water to produce hypochlorous acid water;
A raw water supply pipe 400 provided at the rear of the generator main body 100 for supplying raw water to the electrolyzer 300;
An electrolyte supply pipe 500 provided at the rear of the generator body 100 to supply an electrolyte to the electrolysis device 300;
And a hypoxic hypochlorite water outlet pipe (600) disposed behind the generator body (100) to receive the hypochlorous acid water generated in the electrolyzer (300)
The electrolyzer (300)
The upper part has a raw water inflow pipe 311 through which the raw water is introduced into the inside of the upper part, and a misty acid chlorine water A disassembly main body 310 having a plurality of reinforcing ribs 314 for reinforcing internal pressure on the outer circumferential surface of the disassembly main body 310;
The electrode body 321 has a cylindrical electrode body 321. The electrode body 321 has a central outer circumferential surface provided with a contact protrusion 322 protruding outward and having an upper portion closely contacting the lower end of the disassembly body 310, An electrode 323 inserted into the decomposer main body 310 is provided on the upper part of the base body 321. A power connection pin 324 for supplying power to the electrode 323 is provided below the electrode body 321. [ An electrode unit 320 having an electrolyte inflow pipe 325 to supply electrolytes to the inside of the decomposer main body 321 at one side of the lower portion of the electrode body 321;
And a lower end portion of the cylindrical body is closely attached to a lower end of the contact protrusion 322 of the electrode unit 320 so as to be connected to the electrode unit 320. [ And a fixing cap (330) for fixing the electrolytic solution (320) to the lower part of the decomposer main body (310).
The method according to claim 1, wherein the initial value of the hypersaccharide hypochlorous acid water generator is stored in the generator body (100), and the generator body (100) connected to the wire cable The initial value of the hypersaline hypochlorous acid water generator is transmitted through the cable 710 and the status information of the generator main body 100 including the temperature, voltage and current of the electrolyzer 300 is received, And a mobile terminal (700) for displaying the state information of the microchannel (100) on the operation panel (200).
The method of claim 2, wherein the mobile terminal (700)
And an initial value assigned differently for each model of the generator main body (100) is stored.
delete The apparatus for producing hypacous hypochlorous acid for medical use according to claim 1, wherein the generator body (100) is housed in a single case (800) by being vertically stored in a plurality of housings with a block shape.
And a concentration setting button 230 are provided at the center of the operation panel 200. A power indicator lamp 240 and a concentration indicator 230 are disposed at one side of the operation panel 200, And a display lamp 250 and a capacity indicator lamp 260. The alarm indicator lamp 270 and the operation indicator lamp 280 are provided on the other side of the electrolytic apparatus, A device for producing chloric acid water.
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