KR102104709B1 - Plasma-Sterilized Drinking-Water System - Google Patents

Abstract

The present invention provides a plasma sterilization treatment drinking water device. An eco-friendly plasma drinking water device that provides sterilized clean drinking water by dispersing and dissolving the plasma gas in the tank container of the drinking water device to sterilize pathogens in the water and preventing microbial propagation in the water tank. Provides

Description

Plasma-Sterilized Drinking-Water System

The present invention relates to a technology for providing clean drinking water by sterilizing fungi and preventing rot and microorganisms in a drinking water tank using a sterilization function of plasma.

The present invention is similar to the plasma device proposed in the "plasma humidifier" proposed by the inventor.

The present invention is applied to a small water bottle and a water bottle and a cold and hot water machine, and these devices are referred to as a 'plasma water bottle', a 'plasma kettle', and a 'plasma cold water heater'.

A problem with the current drinking water apparatus is that it can be exposed to various diseases by drinking contaminated water through the propagation of microorganisms such as water in the container and bacteria in the container itself.

The sterilization effect of the atmospheric plasma, an environmentally friendly material, has been proved through many studies. Atmospheric plasma is dissolved in water and prevents death or multiplication of pathogens in the water and the container by the radical action of OH-based. Among the components of atmospheric plasma, ozone (O ₃ ) has the highest concentration and has the longest half-life in several hours. Ozone is partially dissolved in water, and ozone dissolved in water is unstable and turns into oxygen. That is, the half-life of dissolved ozone in water is as short as ten minutes. The chemical formula related to this is H ₂ O + O ₃ → 2OH + O ₂ . In other words, water and ozone react to produce OH with strong sterilization and dissolved with oxygen. Therefore, the dissolved ozone in the drinking water of the plasma-treated container can be adjusted to a very small amount, and rather, it is possible to provide safe drinking water because oxygen becomes clean water dissolved.

Patent Registration No. 10-1388004 proposes a drinking water by plasma treatment, but describes that water is filled in the plasma generating space, so that it is practically difficult to discharge the plasma in water and it is difficult to control the generated active species.

In addition, there is a method of forcibly injecting plasma gas using a pump, such as a method of manufacturing ozone water, but it is not a preferable method in terms of noise problems due to the operation of the pump and miniaturization of the device. Although it is possible to consider a method of generating plasma through discharge in water, this method has a complicated plasma device and also has a problem of noise in the process of generating bubbles. There is another method of electrolysis, but likewise the structure is complex and the control of the generating gas species is not easy.

The present invention is to provide a technique for controlling by injecting plasma gas generated in a water tank container or an adjacent space into water of a water tank.

The present invention is intended to provide a container and water sterilized by plasma in a manner that a small plasma generator module is manufactured and is simply installed inside or adjacent to the container.

According to the above object, the present invention provides plasma treated water by dispersing and dissolving plasma gas generated in a plasma module installed in a separate space inside the water tank in water. That is, the plasma is diffused into the water by contact of the plasma gas with water. The plasma generating device is installed in a space independent of water, so that the plasma gas is diffused into the water and the backflow of water is prevented. Plasma modules are installed in the lower or upper part of the water tank and dissolved in water by diffusion of plasma gas.

According to the present invention, since the water tank container and water are sterilized in an eco-friendly manner, the hassle such as washing the container inside frequently or regularly is eliminated. Microbes and pathogens in water are removed and proliferation is prevented, providing clean water that you can drink with confidence.

1 (a) is a plasma module 200 for sterilization treatment on top of the drinking water device 100.
1 (b) is a plasma module 200 for sterilization treatment under the drinking water device 100.
2 is a plasma-source module 300, (a) PED-element module 310, (b) needle electrode-element module 320, (c) carbon fiber electrode-element module 330.
3 is a portable plasma water bottle 110.
4 is a plasma sterilization treatment hydrogen water generator 120.
5 is a sterilized plasma kettle 130.
Figure 6 is a plasma cold water heater 140 sterilized.

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

1 shows an outline of the configuration of the drinking water device 100 of the present invention, and shows a method of sterilizing the container and drinking water by combining the sterilizing plasma module 200 with the upper or lower portion of the water tank container of the drinking water device.

FIG. 1 (a) shows that the plasma module 200 for sterilization is installed on the top of the water tank container 100. The plasma module 200 includes a plasma generator in the housing, and a connection portion with the water tank has an opening, and the opening has a waterproof film 210. Accordingly, the plasma module is in contact with the atmospheric space 30 on the top of the water tank container with the waterproof film 210 as a boundary. The plasma gas is diffused into the atmospheric space 30 at the top of the container through the waterproof film 210, and the plasma gas is dissolved in water in the water tank container, and the container 100 and the drinking water 10 are sterilized, respectively.

1 (b) shows that the plasma sterilization module 200 is installed at the bottom of the water tank container 100. The waterproof membrane 210 is in contact with the drinking water 10 at the top of the tank. The plasma gas generated in the plasma sterilization module 200 is diffused and dissolved in the water of the water tank. On the other surface (bottom surface) of the plasma sterilization module 200, a micro hole 230 and a blocking film 220 are installed. That is, a number of micropores are formed and the micropores are covered with a barrier film 200 made of a waterproof material to block water and communicate with the gas. Therefore, the external air is introduced through the blocking film 220 and the internal pressure of the plasma sterilization module 200 is adjusted by itself. At this time, the opening area of the micro-hole is smaller than the area of the opening covered with a waterproof film formed on the interface with the upper water tank.

2 shows a plasma-source module 300 installed inside the plasma sterilization module 200.

Figure 2 (a) is a plasma emitting diode (PED: Plasma Emitting Diode) module 310, (b) is a needle-shaped module 320, and (c) is a carbon brush type module 330.

The plasma source module 300 generally inputs a predetermined DC-voltage. The output AC-voltage (root-mean-square value) is in the range of 1-3 kV by using the input DC-voltage as a switching method, and the current is less than mA, so the power consumption is several W or less.

The PED of FIG. 2 (a) is shown in the inventor's application patent 10-2017-0177591. Plasma is generated between the electrodes on the dielectric layer by forming the first electrode 321 and the second electrode 322 on the upper and lower surfaces of the dielectric layer 313 and connecting them to the output terminal of the high voltage generator. In the present invention, when using a quartz-plate or a ceramic (Al ₂ O ₃ ) -plate, the thickness of the dielectric layer is limited to 0.5 mm or less, and a polyimide film coated with silicon (applicant's patent application No. 10-2018- 0004509), the thickness of the dielectric layer is 300 um or less so that the driving voltage is 3 kV or less.

2 (b) is a needle-shaped module 320 in which a high voltage is applied to the needle-shaped electrode 321 to generate a corona discharge-type micro plasma. Since the amount of plasma generated on the needle-shaped electrode is extremely small, one or more multi-electrode needles can be employed. The plasma-source module 320 of the multi-needle electrode is commercially available and commercially available.

2 (c) is a carbon brush type module 330 that generates plasma by applying a high voltage to the carbon brush type electrode 331. Considering the case where the plasma generation amount is small due to the micro discharge at the end of the carbon brush electrode 331, one or more multi-type modules may be employed. A carbon brush type module 330 is also commercially available.

The following is an example of application to the plasma-sterile drinking water device of the present invention.

3 is a portable plasma water bottle 110, Figure 4 is a sterilized plasma hydrogen water generator 120, Figure 5 is a plasma kettle 130, and Figure 6 is a plasma cold water heater 140. Plasma sterilization-module 200 is attached to each device in a predetermined position to control plasma generation.

3, the portable plasma water bottle 110 is provided with a plasma sterilization-module 200 on the water bottle cap 122. For carrying, a secondary battery for charging and discharging and a related control panel (converter and charger plate) 40 are installed. Plasma is generated by the operation of a switch installed on the lid (not shown). It is based on the control of plasma gas generation through voltage-current control by switch operation. In addition, plasma is generated for a predetermined time by the operation of the switch, and then the power supply is automatically cut off. In particular, the amount of ozone generated is controlled so that the amount of ozone generated is 0.06 ppm or less when the lid is opened.

4 is a sterilized plasma hydrogen water generator 120. The problem with the conventional hydrogen water generator 123 is to generate hydrogen at normal time to increase the hydrogen dissolved concentration. Accordingly, due to the propagation of microorganisms inside the container, there is an inconvenience that needs to be washed frequently. The present invention is to install a plasma sterilization module 200 in a hydrogen water generator including a portable.

5 is a plasma kettle 130. It is possible to install the plasma module 200 on the top (lid) or bottom (bottom of the body) of the kettle. Here, the plasma module 200 is installed at the bottom, and it is the same method as described in FIG. 1 (b).

6 is a plasma cold and hot water heater 140. There is a lower water tank in which a replaceable upper water tank 142 can be fitted, and hot water and cold water are branched and stored in the lower water tank 141, respectively. Here, the plasma module 200 is installed as shown in FIG. 1 (b) at the bottom of the inside of the lower water tank 141.

Plasma generation is controlled in consideration of the amount of residual water in the upper water tank 142 through long-time operation of the cold / hot water heater. Therefore, in order to control the plasma not to be generated for a longer period of time than necessary, a timer for controlling the plasma to be generated for a predetermined time is mounted and controlled.

As another method of controlling the amount of plasma generated during a predetermined period of time, a needle-type or brush-type module determines the number of modules installed for a given amount of water in consideration of micro-discharge, and takes into account the sterilization effect accordingly. Control.

 In the case of a PED device, the operating time is controlled in consideration of the plasma generation characteristics of the device.

A method of controlling the amount of plasma generated by controlling the magnitude and waveform of the voltage output from the high voltage generator of the plasma source module 300 of FIG. 2 may be additionally adopted. For miniaturization of the power supply, a simple switching method is used, but a waveform modulation method is adopted. It adopts a method of arbitrarily adjusting the durometer of the waveform.

On the other hand, the specific numerical values given in the above embodiments and experimental examples are exemplary and can be modified as necessary, and those skilled in the art to which the present invention pertains may have other specific functions without changing the technical concept or essential features of the present invention. It will be understood that it can be carried out in the form. Therefore, the embodiments described above are illustrative in all respects and should be understood as non-limiting. The scope of the present invention is indicated by the following claims rather than the above detailed description, and it should be construed that all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts are included in the scope of the present invention. do.

100: drinking water device
10: drinking water, 20: sleep (water level), 30: air, 40: secondary battery / control board, 50: socket, 60: charger,
200: plasma module, 210: waterproof film, 220: blocking film, 230: micropores,
300: plasma source module, 310: PED-element module, 320: acicular module, 330: carbon brushed module, 311: first electrode, 312: second electrode, 313: dielectric layer, 321: acicular electrode, 331: carbon Brush electrode,
110: portable plasma water bottle, 111: water bottle container, 112: water bottle cap,
120: plasma-treated hydrogen water generator, 121: container, 123: lid,
130: plasma kettle, 131: kettle container, 132: lid, 133: water outlet
140: plasma cold and hot water heater, 141: lower water tank, 142: upper water tank

Claims (8)

In the drinking water device for storing drinking water,
water tank;
A plasma generating module installed adjacent to the upper portion of the water tank; And
Includes; connection portion of the water tank and the plasma generating module,
The connection portion includes an opening having a waterproof film,
The plasma generating module,
A plasma module for generating plasma in the housing is provided,
And a plasma module in which any one or more of the packaged plasma emitting element, the needle-shaped element having a needle-like electrode, or the carbon brush-type element having a carbon brush-type electrode is connected in series or in parallel,
Plasma gas generated in the plasma module is diffused to the bottom of the water tank through the waterproof film, and water and the water tank container are sterilized.
The plasma generating module is in contact with the atmospheric space at the top of the water tank with the waterproof membrane as a boundary, and the plasma gas is diffused into the atmospheric space at the top of the water tank through the waterproof membrane, and the plasma gas is dissolved in water in the water tank so that the water tank and drinking water are sterilized respectively. Being processed,
Plasma sterilization drinking water device, characterized in that to control the operation of the plasma module to generate plasma only for a predetermined period of time to sterilize the water tank container and the drinking water, and limit the amount of ozone generation to provide clean drinking water. In the drinking water device for storing drinking water,
water tank;
A plasma generating module installed adjacent to the lower portion of the water tank; And
Includes; connection portion of the water tank and the plasma generating module,
The connection portion includes an opening having a waterproof film,
The plasma generating module,
A plasma module for generating plasma in the housing is provided,
And a plasma module in which any one or more of the packaged plasma emitting element, the needle-like element with the needle-like electrode, or the carbon brush-like element with the carbon brush-like electrode is connected in series or in parallel,
Plasma gas generated in the plasma module is diffused to the upper portion of the water tank through the waterproof film, and water in the water tank and the water tank are sterilized,
One or more micro-pores are formed on the bottom of the housing where the plasma generating module is disposed, and the micro-pores are covered with a waterproof barrier.
The outside air is introduced through the waterproof barrier film, the internal pressure of the plasma generating module is adjusted by itself, and the opening area of the micropores is formed smaller than the area of the opening covered with the waterproof film formed on the interface with the upper water tank,
The plasma gas is dissolved in water in the tank container, and the tank container and drinking water are sterilized, respectively.
Plasma sterilization drinking water device, characterized in that to control the operation of the plasma module to generate plasma only for a predetermined period of time to sterilize the water tank container and the drinking water, and limit the amount of ozone generation to provide clean drinking water.

delete As a portable plasma water bottle,
water tank;
A plasma generating module installed adjacent to the upper portion of the water tank; And
Includes; connection portion of the water tank and the plasma generating module,
The connection portion includes an opening having a waterproof film,
The plasma generating module,
A plasma module for generating plasma in the housing is provided,
Plasma gas generated in the plasma module is diffused to the bottom of the water tank through the waterproof film, and water and the water tank container are sterilized.
The plasma generating module is in contact with the atmospheric space at the top of the water tank with the waterproof membrane as a boundary, and the plasma gas is diffused into the atmospheric space at the top of the water tank through the waterproof membrane, and the plasma gas is dissolved in water in the water tank so that the water tank and drinking water are sterilized respectively. Being processed,
Controlling the operation of the plasma module to include a plasma sterilized drinking water device characterized in that to provide a clean drinking water by limiting the amount of ozone generated by sterilizing the water tank container and drinking water by generating plasma only for a predetermined time,
The water bottle cap,
The plasma generating module;
Control panel including a secondary battery for charging and discharging, a converter and a charger plate for carrying a water bottle; And
Includes; a switch for controlling the amount of plasma gas generated through the voltage-current control,
Portable plasma water bottle characterized in that the plasma is generated for a predetermined time by the operation of the switch, and then the power supply is automatically cut off, and the ozone generation amount is controlled to be 0.06 ppm or less while the lid is opened. As a portable plasma hydrogen water generator,
water tank;
A plasma generating module installed adjacent to the upper portion of the water tank; And
Includes; connection portion of the water tank and the plasma generating module,
The connection portion includes an opening having a waterproof film,
The plasma generating module,
A plasma module for generating plasma in the housing is provided,
Plasma gas generated in the plasma module is diffused to the bottom of the water tank through the waterproof film, and water and the water tank container are sterilized.
The plasma generating module is in contact with the atmospheric space at the top of the water tank with the waterproof membrane as a boundary, and the plasma gas is diffused into the atmospheric space at the top of the water tank through the waterproof membrane, and the plasma gas is dissolved in water in the water tank so that the water tank and drinking water are sterilized respectively. Being processed,
Controlling the operation of the plasma module to include a plasma sterilized drinking water device characterized in that to provide a clean drinking water by limiting the amount of ozone generated by sterilizing the water tank container and drinking water by generating plasma only for a predetermined time,
The lid included in the portable plasma hydrogen water generator,
The plasma generating module;
Control panel including a secondary battery for charging and discharging, a converter and a charger plate for carrying; And
Includes; a switch for controlling the amount of plasma gas generated through the voltage-current control,
Portable plasma hydrogen water generator characterized in that the plasma generated for a predetermined time by the operation of the switch. Kettle tank; And
Includes; plasma generation module installed on the bottom surface of the body of the water tank,
The plasma generating module,
A plasma module that generates plasma in the housing; And
The housing has an opening with a waterproof film on top;
A plasma module for generating plasma in the housing is provided,
Plasma gas generated in the plasma module is diffused to the top of the water tank through the waterproof membrane, and water and the water tank container are sterilized.
One or more micro-pores are formed on the bottom of the housing where the plasma generating module is disposed, and the micro-pores are covered with a waterproof barrier.
External air is introduced through the waterproof barrier film, and the internal pressure of the plasma generating module is adjusted by itself, and the opening area of the micropores is formed smaller than the area of the opening covered with the waterproof film,
The plasma gas is dissolved in water in the tank container, and the tank container and drinking water are sterilized, respectively.
Plasma kettle characterized by providing clean drinking water by controlling the operation of the plasma module to generate plasma only for a predetermined period of time to sterilize the water tank container and drinking water, limiting the amount of ozone generated. Replaceable upper water tank;
A lower water tank into which the upper water tank can be fitted;
A hot water device and a cold water device including a vent which is branched and discharged at the bottom of the lower water tank to branch and store hot and cold water;
A plasma generation module installed inside the lower water tank; And
In order to control the plasma not to be generated for a longer period of time than necessary, a timer that causes the plasma to be generated for a predetermined time; includes,
The plasma generating module,
A plasma module that generates plasma in the housing; And
The housing has an opening with a waterproof film on top;
Plasma gas generated in the plasma module is diffused through the waterproof membrane to sterilize the water tank and the water tank.
One or more micro-pores are formed on the bottom of the housing where the plasma generating module is disposed, and the micro-pores are covered with a waterproof barrier.
The opening area of the micropore is formed smaller than the area of the opening covered with a waterproof film,
The plasma gas is dissolved in water in the tank container, and the tank container and drinking water are sterilized, respectively.
Plasma cold and hot water heater, characterized in that to provide a clean drinking water by controlling the operation of the plasma module to generate plasma only for a predetermined time to sterilize the water tank container and drinking water, limiting the amount of ozone generated.

delete

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