KR20110041340A - System of sterilizing room air using sterilizing water - Google Patents

Abstract

PURPOSE: A system of sterilizing room air using sterilizing water is provided to sterilize room air without separate chemicals and to reduce the sterilization components into water molecule. CONSTITUTION: A system of sterilizing room air using sterilizing water comprises a water storage tank(10), a chlorine content measurement tank(20), a chlorine content measurement sensor(30), a chlorine storage tank(40), a sterilizing water device(50), a humidifier(60), a human detection sensor(70), an air curtain device(80), and a contoller(90).

Description

Indoor air sterilization system using sterile water {SYSTEM OF STERILIZING ROOM AIR USING STERILIZING WATER}

The present invention relates to an indoor air sterilization system, and more particularly, to an indoor air sterilization system using sterilizing water to sterilize indoor air using sterilizing water made by ionizing water molecules through underwater discharge.

As is well known, viral infections that spread through the air, such as the new influenza, have threatened people's lives, and often people often avoid attending meetings and events.

Therefore, meetings and events where crowds are gathered in confined spaces must be sterilized in the air with germs, viruses, bacteria, and fungi essential for the safety of attendees.

However, in order to sterilize bacteria, viruses, bacteria, fungi and the like contained in the air, a sterilizing agent having a high sterilizing power has been diluted and sprayed into the air.

However, the fungicides described above not only sterilize bacteria, viruses, bacteria and fungi contained in the air, but also remain in the air after the sterilization process, causing fungicide components to adversely affect the human body.

An object of the present invention for solving the above problems is to provide a room air sterilization system using the sterilizing water to sterilize the indoor air by using the water to ionize the water molecules to create a high sterilization power, the same. .

The indoor air sterilization system using the sterilizing water of the present invention for achieving the above object, the water storage tank for storing a predetermined amount of water supplied connected to the inlet pipe; A chlorine content measuring tank connected to one side of the water storage tank and storing the sampled water sampled from the water storage tank; A chlorine content measuring sensor installed in the chlorine content measuring tank and measuring the chlorine content of the sample water stored in the chlorine content measuring tank; A chlorine storage tank installed to inject a predetermined amount of chlorine into water supplied to the water storage tank; A sterilizing water generator which is connected to the tile side of the water storage tank and generates an underwater discharge to supply sterilized water containing hypochlorous acid to supply water; A humidifier for atomizing the sterilized water supplied from the sterilizer and spraying it into the set room space; A human body sensor installed at an entrance and exit of the occupancy space to measure an entrance and exit of the occupant; An air curtain installed at an upper side of the entrance and exit of the storage room and spraying sterilizing water supplied from the sterilizing water through a nozzle during entry and exit of the indoor room; And controlling the chlorine content measured by the chlorine content measurement sensor to input a predetermined amount of chlorine into the water supplied to the water storage tank, and according to the signal detected by the human body sensor. It is characterized in that it comprises a controller for controlling to spray the sterilizing water through the air curtain when entering and exiting.

Here, the sterilizing water is formed in each of the inlet and the outlet at both ends to be connected to the water supply pipe, the case having an inner receiving space between the inlet and the outlet; And a plurality of discharge plates facing and spaced apart from each other in a direction intersecting with a direction in which water flows in the inner accommodating space of the case. And a power supply unit for alternately applying a voltage to a pair of discharge plates adjacent to each other.

In addition, the sterilizing water is composed of 5 to 10 discharge plates which are spaced apart from each other, a platinum plating layer is formed on the outer surface of the discharge plate, the interval between the discharge plate is spaced within the range of 0.8 to 1.2mmm It is preferable to install.

In addition, each of the discharge plate of the sterilizing water is formed through a hole forming 30 to 50 mesh, the through shape is preferably made of any one shape selected from triangular, square, rhombus and round.

In addition, the controller preferably controls to maintain the chlorine content of the water stored in the water storage tank within the range of 0.4mg / l to 0.7mg / l.

The indoor air sterilization system using the sterilizing water of the present invention includes a high sterilizing hydroxyl group, oxygen anion, ozone, hydrogen peroxide, and hypochlorous acid, which are made by ionizing water molecules through an underwater discharge without using a separate chemical agent. By disinfecting the indoor air using sterilizing water, sterilization components contained in the sterilizing water are reduced back to non-toxic water molecules after the sterilization process of the indoor air, thereby preventing secondary human damage that may occur incidentally due to air sterilization. It has the effect of making it possible.

In addition, the indoor air sterilization system using the sterilizing water of the present invention is subjected to a number of underwater discharge process while passing the water supplied to the sterilizing water between the plurality of discharge plates, the high sterilizing power included in the sterilizing water, Oxygen anions, ozone, hydrogen peroxide, and hypochlorous acid are delayed to reduce the water molecules back to water molecules, so that sterilizing water can be used to effectively sterilize bacteria, viruses, bacteria or fungi contained in the air.

In addition, the indoor air sterilization system using the sterilizing water of the present invention by maintaining the chlorine content of the water flowing into the sterilizing water through the water storage tank to 0.4mg / l to 0.7mg / l, the sterilization water formed through the underwater discharge By increasing the content of hypochlorous acid has the effect of further improving the sterilization effect of the indoor air using sterilizing water.

In addition, the indoor air sterilization system using the sterilizing water of the present invention by alternately applying different direct-current DC discharge voltage to the two discharge plates adjacent to each other of the sterilizing water through the controller, included in the water during the ionization process of water molecules The foreign matters have an effect of preventing the sludge from adhering to the discharge plate.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

1 is a schematic diagram showing a system for sterilizing indoor air using sterilizing water according to an embodiment of the present invention, and FIG. 2 is a control flowchart of a system for sterilizing indoor air using sterilizing water of FIG. 1.

Referring to FIGS. 1 and 2, the indoor air sterilization system 1 using sterilizing water of the present embodiment includes a water storage tank 10, a chlorine content measuring tank 20, a chlorine content measuring sensor 30, It is configured to include a chlorine storage tank 40, sterilizer 50, humidifier 60, human body sensor 70, air curtain 80 and the controller 90.

The water storage tank 10 is configured to store and store a predetermined amount of water through the first water supply pipe 101 connecting the inlet pipe 100.

The chlorine content measuring tank 20 is configured to store and store sample water sampled from a portion of the water stored in the water storage tank 10 through the second water supply pipe 102 connecting the water storage tank 10. .

The first valve 15 (V2) opened and closed by the controller 90 so as to control the amount of sample water supplied from the water storage tank 10 to the chlorine content measuring tank 20 on the second water supply pipe 102. ) Is provided. In this embodiment, the first valve 15 (V2) illustrates that it is a solenoid valve.

In the present embodiment, the chlorine content measuring tank 20 is preferably configured to have an internal capacity that can hold and store 1000 mL of sample water sampled from the water storage tank 10.

The chlorine content measuring sensor 30 is provided in the chlorine content measuring tank 20, and is configured to measure the chlorine content of the sample water stored in the chlorine content measuring tank 20. In addition, the chlorine content measuring sensor 30 is communicatively connected with the controller 90 to transmit the measured chlorine content value to the controller 90.

In addition, the chlorine content measuring tank 20 is provided with a drain pipe 105 for measuring the chlorine content of the water storage tank 10 and then discharging the sample water contained therein for re-measurement of the water to be supplied again. do.

 On the drain pipe 105, the second valve 25 (V3) which is opened and closed by the controller 90 is provided so that the sample water stored in the chlorine content measuring tank may be discharged through the drain pipe 105.

The chlorine storage tank 40 is connected through the first branch pipe 106 branched on the first water supply pipe 101, and the preset amount stored in the water supplied to the water storage tank through the first water supply pipe 101. Store chlorine so that chlorine can be added.

The first branch pipe 106 is provided with a third valve 45 (V1) V1 which is automatically opened and closed by the controller 90 so as to control the amount of chlorine (Cl) supplied from the chlorine storage tank 40. In the present embodiment, the third valve 45 (V1) exemplifies that it is composed of a dispenser valve.

Therefore, when the controller 90 is supplied with a predetermined amount of water from the inlet pipe 100 through the first water supply pipe 101 to the water storage tank 10, the controller 90 is provided on the second water supply pipe 102. After opening the valve 15 (V2) to supply 1000 ml of sample water from the water storage tank to the chlorine content measuring tank 20, the first valve 15 (V2) is closed again.

And after measuring the chlorine content value of the sample water contained in the chlorine content measuring tank 20 through the chlorine content measuring sensor 30, the chlorine stored in the chlorine storage tank 40 according to the measured chlorine content value is first Injected into the water supplied to the water storage tank 10 through the branch pipe 106 to maintain a constant chlorine content within the range of 0.4mg / l to 0.7mg / l.

The sterilizer 50 is connected through the water storage tank 10 and the third water supply pipe 103, and the water (chlorine content is 0.4mg / l to 0.7mg / l) supplied from the water storage tank 10. The discharge is generated in the water, and sterilized water containing hypochlorous acid (HOCl) is made to be supplied to the humidifier 60 and the air curtain 80 to be described later.

Figure 3 is a side cross-sectional view showing the sterilizing water of Figure 1, Figure 4 is an enlarged side cross-sectional view showing the discharge plate of the sterilizing water of Figure 4, Figure 5 is a front view showing the discharge plate of FIG.

Referring to FIGS. 3 to 5, the sterilizer 50 of the present embodiment includes a case 51 and a second discharge plate 54.

Here, the case 51 has an inlet 52 and an outlet 53 formed at both ends thereof so as to be connected to a third water supply pipe connecting the water storage tank connecting the wash basin and the sink, and the inlet 52 is described above. And an outlet space of a predetermined capacity between the outlets 53.

In the case 51 of the present embodiment, the capacity of the inner accommodating space may be adjusted according to the size of the indoor space to be sterilized, but as described later, the discharge voltage transmitted to the discharge plate 54 through the controller 90 is excessive. It is preferable that the flow rate sprayed through the humidifier 60 and the air curtain 80 is maintained so as to maintain approximately 3 l / min in order to prevent a large increase.

The discharge plates 54 face each other in a direction intersecting with the direction in which water flows in the inner accommodating space of the case 51 and have 5 to 10 plate discharge plates installed side by side with a separation distance ranging from about 0.8 mm to 1 mm. It is preferable that it consists of.

In the present embodiment, six discharge plates 54 of the sterilizing water receiver 50 are arranged side by side with a distance of 1 mm from each other, and a pair of discharge plates 54a-54b-54c-54d-54e adjacent to each other. It is exemplarily configured to form five discharge cells c1 to c5 between -54f).

Here, the discharge plate 54 may be made of metals having high electrical conductivity. In particular, the discharge plate 54 may be formed by plating platinum on the surface of the discharge plate 54 so that the boundary potential between water and the metal is low and prevents corrosion by water in the water. It is preferable to be.

In addition, a plurality of through holes 57 are formed in the discharge plate 54, and the through holes 57 are formed in order to prevent the flow rate resistance of the water flowing through the case 51 of the sterilizing water 50 from increasing. It is formed to penetrate to form 50 to 50 mesh.

In addition, the through hole 57 is an important variable that influences the discharge effect during underwater discharge, and may be formed in any one of triangular, square, rhombus, and circular shapes, and in particular, the circular and trapezoidal shapes improve the discharge effect. More effective.

On the other hand, the controller supplies a power supply so as to alternately supply DC power to different peaks in succession to the pair of discharge plates 54a, 54b, 54c, 54d, 54e, and 54f which partition each discharge cell c1 to c5. It comprises a supply unit (not shown).

The power supply unit is an electronic circuit to control the magnitude of the discharge voltage supplied to the discharge plate 54 to have an optimum underwater discharge effect according to the flow rate of the water supplied into the case 51 of the sterilizing water 50 Is composed.

Accordingly, the sterilizer 50 is a hydroxyl group generated by ionizing water molecules by plasma in which water introduced through the inlet 52 of the case 51 is formed through an underwater discharge between the discharge plates 54. (OH ^-), oxygen anion (O ^-), such as a sterilization, ozone (O _3), hydrogen peroxide (H ₂ O ₂₎ and hypochlorite salts hydroxyl (HOCl) to form a number of sterilization including high component.

The hydroxyl group (OH ⁻ ), oxygen anion (O ⁻ ), ozone (O ₃ ), hydrogen peroxide (H ₂ O ₂ ) and hypochlorous acid (HOCl) are produced in the process of ionizing water molecules, and then humidifier (60). And sprayed through the air curtain 80 serves to sterilize the various bacteria, viruses, bacteria, fungi and the like floating in the indoor air.

Following formula 1-5 as the water molecules are ionized through the water discharge hydroxyl groups (OH ^{-) -} made of, ozone (O _3), hydrogen peroxide (H ₂ O ₂₎ and hypochlorite salts hydroxyl (HOCl), oxygen anion (O) Loss describes a series of processes.

In particular, the sterilizing water purifier 50 according to the present invention sequentially passes through the respective discharge cells c1 to c5 in which water introduced into the case 51 is continuously partitioned by the discharge plates 54. single ionize the more the amount of water molecules through the water discharge of the hydroxyl groups (OH ^{-) -} include, ozone (O _3), hydrogen peroxide (H ₂ O ₂₎ and hypochlorous acid (HOCl) component and oxygen anions (O) By producing a sterilized water, it is possible to prolong the effective sterilization period using the sterilized water by delaying the period in which these components are reduced back to water.

That is, the sterilizing water tank 50 of the present embodiment extends the reduction period (ie, half-life) for reducing the sterilization components contained in the sterilized water produced by ionizing water molecules to the water of the original state up to 25 minutes, which will be described later. After the sprayed by the humidifier 60 and the air curtain 80 to the air of the room 200 and through the doorway 210 so that people who enter and exit the room 200 may be sterilized. do.

On the other hand, by applying alternating DC voltages that are adjacent to each other and are paired with each other through the power supply unit of the controller 90 and paired with each other, the foreign matter contained in the water is ionized and different on the surface of the discharge plate. To prevent the formation of sludge.

1 and 2, a fourth valve 54 is provided on the third water supply pipe 103 connecting the water storage tank 10 and the sterilizing water heater 50. The fourth valve 54 is operated and controlled by the controller 90 and controls the flow rate of the water flowing into the sterilizing water 50, in particular, the chlorine content of the water supplied to the sterilizing water 50 is 0.4 mg / l to 0.7 mg. Make sure you keep / l.

Therefore, in the sterilization water made by the sterilizer 50 and supplied to the humidifier 60 and the air curtain 80, the content of hypochlorous acid (HOCl) having the best sterilization power can be kept constant.

The humidifier 60 is connected through the second branch pipe 107 branched from the fourth water supply pipe 104 connecting the sterilizer 50, so that the sterilizing water supplied from the sterilizer 50 is ultrasonic vibrator ( After atomizing with 61, the atomized sterile water particles are blown into the blower 66 (C2) and configured to be sprayed through the spray tube 62 (C3) into the storage room 200.

As such, sterilization of bacteria, viruses, bacteria, fungi, and the like contained in the air inside the storage space 200 is performed by the sterilized water particles atomized into the storage space 200.

Meanwhile, a fifth valve 65 (V4) is provided on the second branch pipe 107 connecting the sterilizer 50 and the humidifier 60. The fifth valve 65 (V4) is operatively controlled by the controller 90 to control the flow rate of the sterilized water supplied from the sterilizer to the humidifier 60.

The human body detecting sensor 70 is installed at the exit and entrance sides of the above-described occupancy space, and measures the presence or absence of the occupant by these human body detecting sensors 71 (S1) and 72 (S2). Meanwhile, the agent detecting sensor 70 is connected to the controller 70 so as to be communicable and transmits the measured human body sensing information to the controller 70.

Then, the air curtain 80 is connected to the sterilizing water 50 through the third branch pipe 108 branched from the fourth water supply pipe 104, the entrance side 210 through the human body sensor 70 At the time of detecting a human body signal, the sterilized water supplied from the sterilizer 50 is sprayed through a spray nozzle 81 installed above the entrance by using compressed air compressed through the compressor 82 (C1).

The sixth valve 85 (V5) is provided on the third branch pipe 108, and the sixth valve 85 (V5) is controlled by the controller 90, and the air curtain 80 from the sterilizer 50 is provided. Control the flow rate of the sterilizing water supplied to the

Therefore, the air curtain 80 sprays germicidal water when people enter and exit the human body sensor 200 from the human body sensor 70 through the doorway 210 to the occupancy space 200, and the bacteria, viruses, bacteria, and stains on the human body and clothes. Sterilize fungi, etc.

In addition, a seventh valve (85; V5) is provided at the end of the fourth water supply pipe (104), and the seventh valve (85; V5) is used within a maximum of 25 minutes after the sterilization water is generated from the sterilizing water tank (50). If not, the reduction period (i.e., half-life) is a hydroxyl group (OH ^-) dogwa, oxygen anion (O ^-), ozone (O _3), hydrogen peroxide (H ₂ O ₂₎ and hypochlorous acid (HOCl) component are of course reduced Discharged reduced water to be discharged from the water supply pipe.

As described above, the indoor air sterilization system using the sterilizing water of the present embodiment is a high sterilizing hydroxyl group produced by ionizing water molecules through the underwater discharge of the sterilizing water tank 50 without using a separate chemical agent. Sterilization water containing oxygen anion, ozone, hydrogen peroxide, and hypochlorous acid components is sprayed into the air of the room 200 to sterilize the indoor air, and after a certain time, the sterilization components included in the sterilization water are converted into water molecules. It can be reduced to prevent human damage that may occur incidentally.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the spirit and scope of the invention. And it goes without saying that they belong to the scope of the present invention.

1 is a schematic diagram showing a room air sterilization system using sterilizing water according to an embodiment of the present invention.

FIG. 2 is a control flowchart of the indoor air sterilization system of FIG. 1.

Figure 3 is a side sectional view showing the sterilizing water of Figure 1;

4 is an enlarged side cross-sectional view of the discharge plate of the sterilizing water receiver of FIG. 4.

5 is a front view illustrating the discharge plate of FIG. 2.

<Description of Main Reference Signs>

1: indoor air sterilization system 10: water storage tank

20: chlorine content measuring tank 30: chlorine content measuring sensor

40: chlorine storage tank 50: sterilizer

51: case 54: discharge plate

60: humidifier 70: human body detection sensor

80: air curtain 90: controller

Claims (8)

A water storage tank configured to store and store a predetermined amount of water supplied to the inlet pipe; A chlorine content measuring tank connected to one side of the water storage tank to store sample water sampled from the water storage tank; A chlorine content measuring sensor installed in the chlorine content measuring tank and measuring the chlorine content of the sample water stored in the chlorine content measuring tank; A chlorine storage tank installed to inject a predetermined amount of chlorine into water supplied to the water storage tank; A sterilizing water generator which is connected to the tile side of the water storage tank and generates an underwater discharge to supply sterilized water containing hypochlorous acid to supply water; A humidifier to atomize and sterilize the sterilized water supplied from the sterilizer and blow into the set chamber space; A human body sensor installed at an entrance and exit of the occupancy space to measure an entrance and exit of the occupant; An air curtain installed at an upper side of the entrance and exit of the storage room and spraying sterilizing water supplied from the sterilizing water through a nozzle during entry and exit of the indoor room; And The chlorine content is measured by the chlorine content measured by the sensor to control the amount of chlorine to be supplied to the water supplied to the water storage tank and in addition to the patient room in accordance with the signal detected by the human body sensor Indoor air sterilization system using a sterilizing water comprising a controller for controlling to spray the sterilizing water through the air curtain. In claim 1, The sterilizing water is, A case having an inlet and an outlet formed at both ends thereof so as to be connected on the water supply pipe, and having an inner accommodation space between the inlet and the outlet; And Comprising a plurality of discharge plates facing each other in a direction crossing the direction in which the water flows in the inner receiving space of the case, The controller comprising: And a power supply unit connected to the discharge plate so that power can be supplied and alternately applying a discharge voltage having a predetermined size to a pair of discharge plates adjacent to each other. In claim 2, The discharge plate is an indoor air sterilization system using sterilizing water in which a platinum plating layer is formed on an outer surface. In claim 2, The sterilizing water is indoor air sterilization system using sterilizing water consisting of 5 to 10 discharge plates are installed spaced apart from each other. In claim 4, The sterilizing water is, The space between the discharge plate is indoor air sterilization system using sterilizing water spaced apart within the range of 0.8 to 1.2mmm. In claim 2, The sterilizing water is, Indoor air sterilization system using the sterilizing water that each discharge plate is formed through the through 30 to 50 mesh. In claim 6, The through-hole is indoor air sterilization system using sterilizing water consisting of any one selected from triangular, square, rhombus and round shape. In claim 1, The controller comprising: Indoor air sterilization system using the sterilizing water to control to maintain the chlorine content of the water stored in the water storage tank within the range of 0.4mg / l to 0.7mg / l.

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