KR100968558B1 - Producing apparatus of silver ion water mixing Low and High Voltage and its producing method therefor - Google Patents

Abstract

The present invention relates to an apparatus for producing silver ion water and a method of manufacturing the same, and more particularly, to install a pair of right and left silver plates each having an electrode connected thereto, and to apply a low voltage to the right and left silver plates. By peeling the silver particles from the silver plate to a large particle state to substantially expand the area of the electrolyzable silver plate, and applying high voltage having a high frequency to the right and left silver plates to generate silver ions from the silver plate. Relates to a device for producing ionized water and a method for producing the same.

Silver ionized water, frequency conversion, high voltage, electrolysis

Description

Producing apparatus of silver ion water mixing Low and High Voltage and its producing method therefor}

The present invention relates to an apparatus for producing silver ion water and a method of manufacturing the same, and more particularly, to install a pair of right and left silver plates each having an electrode connected thereto, and to apply a low voltage to the right and left silver plates. By peeling the silver particles from the silver plate to a large particle state to substantially expand the area of the electrolyzable silver plate, and applying high voltage having a high frequency to the right and left silver plates to generate silver ions from the silver plate. Relates to a device for producing ionized water and a method for producing the same.

In general, it has been known that silver has an excellent antimicrobial disinfection effect for 5,000 years, but it has been difficult to popularize the silver because it requires a large amount to be used for household goods other than precious metals. However, with the recent emergence of nanotechnology called nanotechnology, silver can be nanoparticles to be produced in real life, and silver has emerged as one of the major materials that will lead the so-called well-being life.

Colloidal silver, a product made by nano-particles of silver, is known as a powerful natural antibiotic, and the manufacturing method is made of high purity (more than 99.9%) of silver in the colloidal state mainly by electrolysis method. Sterilize and have antimicrobial activity against viruses, has been found to be a safe substance with little side effects to the human body.

The conventional colloidal silver manufacturing method is largely divided into a method using a low voltage and a method using a high voltage.

The method of using the low voltage, which is the electron, is mainly a method of stepping down 220V to 70-80V to rectify the DC and then electrolyzing using this DC. This method has the advantage of relatively easily obtaining colloidal silver. There is a problem that the size of the coarse and not uniform can not be formed into nano-sized silver particles, the size of the particles are uneven, so that the application range is limited.

In addition, the latter method of using a high voltage is a method of electrolyzing silver by applying a high voltage in an alternating state, the method of applying such a high voltage has the advantage of producing silver ionized water having a high concentration and nano-sized silver particles, Because of the large amount of current, the effect of lowering the water's electrical resistance by raising the water temperature is generated. After a few hours, a large amount of current flows, which generates a large amount of joule heat. Infinite current flows rapidly falling, there was a problem that can not mass-produce silver particles. In order to solve this problem, there was a technology in which a cooling system forcibly lowering the water temperature was introduced. However, the difficulty of mass production remains because it cannot keep up with the rate of heat rise.

Therefore, the method using the high voltage is insufficient to cope with the increase in the amount of current, and it is difficult to produce substantially high quality silver ion water, and the silver ion water production apparatus using the high voltage generally uses a high voltage transformer (transformer) of about 48,000 VA. There was also a problem that the risk of a safety accident due to a high voltage is present.

The present invention was devised to solve the above-mentioned problems, and by adopting a method of simultaneously using a high voltage and a low voltage that adopt only the advantages of the low voltage method and the high voltage method, which are conventional silver ion water production methods, The present invention provides a device for producing silver ion water and a method of manufacturing the same, which can solve the problem of mass production due to the increase of the amount of current, which is a problem of the method, and the degradation of the quality of silver ion water, which is a problem of the method of using low voltage. There is a problem.

The construction of the present invention for achieving the technical problem as described above, the pair of the right and left silver plate, the right and the left and silver plate and the water is connected to the electrode, respectively, due to the electrolysis of the right and left silver plate It is characterized in that the composition of the silver ion water production apparatus comprising a decomposition tank for desalination of the generated silver ion water, and a power supply for sequentially applying a low voltage and a high voltage to the right silver plate and the left silver plate through the electrode.

The method may further include installing a pair of right and left silver plates to which electrodes are respectively connected; applying a low voltage to the right and left silver plates through the electrodes while receiving the right and left silver plates and water in a water bath; Generating a silver ion from the silver plate by applying a low voltage and then applying a high voltage having a high frequency to the right and left silver plates; Low-voltage and high-voltage mixed silver is characterized in that the configuration, including the configuration of the ion water production method.

The effect of the present invention the ion ion water production apparatus and manufacturing method having the above configuration, while eliminating the disadvantages of the coarse and uniform size of the silver particles generated when applying only the conventional low voltage and at the same time substantially high voltage on the silver plate surface Since the heat generation phenomenon generated when the high voltage is applied for a long time is applied, it is possible to produce a large amount of silver ion water for a long time as compared to a method of using only low voltage or high voltage alone.

In addition, by using a transformer of a general capacity rather than a high-capacity transformer, it is possible to reduce manufacturing costs and reduce the risk of safety accidents due to high pressure.

EMBODIMENT OF THE INVENTION Hereinafter, based on an accompanying drawing, the high voltage and low voltage mixed silver ionized water manufacturing apparatus and its manufacturing method of this invention are demonstrated in detail.

1 is a view schematically showing the configuration of the ionized water production apparatus, Figure 2 is a block diagram of a power supply unit of the ionized water production apparatus of the present invention.

Referring to the drawings, the present invention ionized water production apparatus has a pair of silver plates (10, 10 ') consisting of a right silver plate 10 and a left silver plate 10', the right silver plate 10 and the left silver plate (10) ') Is applied with a high voltage and a low voltage from the power supply unit 30 to which the electrode 11 is connected to supply a high voltage and a low voltage.

The right silver plate 10 and the left silver plate 10 'are accommodated in the decomposition tank 20, and the decomposition tank 20 is purified water which is a raw material of silver ionized water. To this end, the decomposition tank 20 is connected to the filter unit 50 to purify the water by removing impurities in the water, the fresh water in the decomposition tank 20 is raw water by the pumping action by the pump unit 40 It is introduced through the water supply pipe 60 from the water tank 90 in which (原 水) is contained, impurities are removed through the filter unit 50, and then introduced into the decomposition tank 20 through the input pipe 61.

When the pair of silver plates 10 and 10 'are electrolyzed and the fresh water in the decomposition tank 20 is converted into silver ionized water, it is collected in the storage tank 100 separately installed through the discharge pipe 70.

On the other hand, the water supply pipe 60, the input pipe 61 and the discharge pipe 70 is provided with valves 80, 81, 82 for controlling the opening and closing of the pipe, respectively, preferably a mechanical valve or an electrically controlled solenoid valve Adopt.

The power supply unit 30 is a portion for supplying power to the pair of silver plate (10, 10 ') for the electrolysis of the silver plate through the electrode 11, as shown in Figure 2 transformer, rectifier, frequency conversion The device consists of a timer. The transformer is a part that boosts the supply voltage to a voltage suitable for ionization, the rectifier is a part that changes and supplies alternating current to a direct current, the frequency converter is a part that converts frequency when outputting a high voltage, and the timer generates a time when low voltage and high voltage are generated. As a part for controlling the present invention, it will be described in more detail as follows.

The low voltage side current meter 301 measures the output current at the low voltage output, the high voltage side current meter 310 measures the output current at the high voltage output, and the wire protection tube 302 is used as the wiring. It is a protective cover for protecting the electric wire, the circuit breaker 303 is a portion to protect the power supply unit 30 from external overcurrent or overvoltage, the right side plate timer 304 and the left side plate timer 305 is the power output, respectively Is a part for controlling the application time of the low voltage and the high voltage supplied to the silver plate, the relay 306 is a part for switching the polarity of the power supplied to the right and left silver plates at the time of power output, and the water level sensor switch 307 is disassembled. In order to prevent the malfunction of the device due to lack of water in the tank 20, it is a part for measuring the water level of the decomposition tank 20, the rectifier 308 is a part for converting AC into direct current at low voltage output, The converter 309 is a part for converting the frequency of the output signal at the time of high voltage output, the low voltage timers 311 and 312 are the timer 311 for adjusting the operation time at the time of low voltage output and the timer 312 for adjusting the cutoff time, and the high voltage timer. 313 and 314 are timers 313 for adjusting the operation time at the time of high voltage output and timers 314 for adjusting the cutoff time, and the high voltage magnet 315 is a contact point of the output power at the time of high voltage output, The output contact 316 and the high voltage output contact 317 are output contacts of low voltage and high voltage, the frequency converter 318 consists of a frequency converter circuit and a capacitor to convert high frequency frequencies, and the resistor 319 is a transformer ( 321 is a load resistance to protect, the terminal block 320 is a part to protect the input and output contacts, the transformer 321 is a transformer for boosting the supply voltage to a voltage suitable for ionization, preferably phase The transformer 321 is a transformer of 300VA to 400VA capacity, in the embodiment of the present invention uses a transformer of 360VA capacity.

In addition, the output voltage and output current of the low voltage output by the power supply unit 30 is preferably 60V to 100V and 10mA to 50mA, the frequency of the high voltage that the frequency is converted by the frequency converter 318 is preferably Preferably it is 60 Hz to 30 kHz, and the voltage of the high voltage to be output is preferably 5,000 V to 20,000 V. In the embodiment of the present invention, the low voltage output voltage and the output current are 80V and 30mA, respectively, and the high voltage frequency and voltage are 15KHz and 10,000V alternating current, respectively.

Next, the silver ionized water production method of this invention is demonstrated in detail.

The method for preparing silver ionized water of the present invention is a method for preparing silver ionized water using a conventional method of electrolyzing silver by applying a low voltage and a method of electrolyzing silver by applying a high voltage. A silver plate is provided, a low voltage is first applied to the silver plate to peel silver particles from the silver plate in a large particle state, and secondly, a high frequency high voltage is applied to the silver plate to generate silver ions.

That is, when a low voltage is applied to the silver plate electrode, silver particles are separated from the silver plate surface in the form of large particles as in the conventional art described above. The large particles of silver in the trapped state ensure that the area of the silver plate is substantially expanded. In this state, when a high voltage having a high frequency is applied, silver ions are electrolyzed from the surface of the silver plate, which has been substantially expanded, thereby generating a large amount of silver particles.

Hereinafter, the operation of the ionized water production apparatus of the present invention with reference to the silver ionized water production method of the present invention as described above.

First, when the operator operates the pump unit 40 and opens the valve 80 between the pump unit 40 and the filter unit 50, the raw water contained in the water tank 90 is discharged from the pump unit 40. Due to the pumping action is introduced into the water supply pipe 60, the drawn water is introduced into the filter unit 50 through the water supply pipe 60 to filter impurities in the water in the filter unit 50, filtered impurities filtered water When the valve 81 located at the outlet of the filter unit 50 is opened, the water is injected into the decomposition tank 20 so that the purified water through the filter unit 50 is desalted in the decomposition tank 20.

Subsequently, when the fresh water in the digestion tank 20 is detected by the water level sensor switch 307, the power supply unit 30 is activated to convert the alternating current into a direct current by the rectifier 308, and the right silver plate timer. The low voltage application time of each silver plate is set by the 304 and the left silver plate timers 305, and the polarities of the power supplied to the right silver plate and the left silver plate are switched by the relay 306 to the low voltage timers 311 and 312. By operating the operation time and the interruption time of the low voltage is controlled by the low voltage output contact 316 the low voltage of the DC state is output. At this time, the output voltage of the low voltage of the embodiment of the present invention is 80V, the current is 30mA.

Then, the electrolysis is started in both the right silver plate 10 and the left silver plate 10 'so that the silver particles in the large particle state are peeled off from both silver plates 10 and 10', and the peeled silver particles are separated from the surface of the silver plate. It is collected in an area adjacent to the silver plate so that the area of the silver plate remains substantially expanded.

In this state, the application of the low voltage is continued for a predetermined application time by the right side plate timer 304 and the left side plate timer 305. When this application time is over, the AC voltage input by the transformer 321 Stepped up to a high voltage of 5,000V to 20,000V, which is a voltage suitable for ionization, the boosted high voltage is converted into a frequency of the voltage output signal from 60Hz to 30kHz through the frequency converter 309, and the high voltage by the high voltage timers 313 and 314. When the output time of the high voltage supplied to each silver plate is adjusted during output, the high voltage of the alternating current of the voltage 5,000V to 20,000V and the frequency 60Hz to 30kHz is passed through the high voltage magnet 315 and the high voltage output contact 317. It is outputted to 11 and applied to both silver plates 10 and 10 '.

Then, as described above, silver particles are collected on the surface of the silver plate and the area adjacent to the silver plate due to the application of the low voltage, thereby maintaining the electrical state of the silver plates on both sides 10 and 10 '. The decomposition is performed to obtain a large amount of nano-size silver ionized water by the applied high voltage.

Subsequently, when the application time of the high voltage preset in the high voltage timers 314 and 315 is completed, the manufacturing process of silver ion water is terminated once, and the user opens the valve 82 connected to the discharge pipe 70 to manufacture the reservoir 100. Collect the completed silver ionized water.

Table 1 below shows the concentration of silver ions at each treatment time of the silver ionized water produced by the silver ionized water production apparatus of the present invention. It became.

               Processing time [hr]               Concentration [ppm]                    3                 0.12                    6                 3.04                    9                10.70                   12                19.50                   15                32.00

Legend: 80 V DC at low voltage, 10,000 V AC at 15KHz high voltage

Area of silver plate electrode 300 cm ² , capacity of digester: 2 Ton

1 is a view briefly showing a configuration of an ionized water production apparatus of the present invention;

  2 is a block diagram of the power supply unit of the ionized water production apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

10; Right silver plate 10 '; Left silver plate

11; electrode

20; Digester 30; Power supply

40; A pump section 50; Filter part

60; Water supply line 61; Input pipe

70; Discharge pipes 80,81,82; valve

Claims (7)

In the silver ionized water production apparatus, A pair of right silver plate 10 and left silver plate 10 'to which electrodes 11 are respectively connected; A decomposition tank 20 for accommodating the right silver plate 10 and the left silver plate 10 'and water, and for desalination of silver ion water generated by electrolysis of the right silver plate 10 and the left silver plate 10'; , And a power supply unit 30 sequentially applying a low voltage and a high voltage to the right silver plate 10 and the left silver plate 10 ′ through the electrode 11. The low voltage output voltage of the power supply unit 30 is 60V to 100V, the low voltage output current is 10mA to 50mA, The high voltage output of the power supply unit 30 is an AC high voltage of voltage 5,000V to 20,000V, frequency 60Hz to 30kHz, The power supply unit 30 is a low voltage side current meter for measuring the output current at the output of the low voltage, High voltage side current meter for measuring the output current when the output of the high voltage, A right silver plate timer and a left silver plate timer for controlling an application time of low voltage and high voltage supplied to the right silver plate 10 and the left silver plate 10 'at the time of power output; Low voltage and high voltage mixed silver ion water production apparatus comprising a relay for switching the polarity of the power supplied to the right silver plate and the left silver plate when the power output. The method of claim 1, A pump unit 40 pumping water from the water tank 90 in which the raw water is contained and introducing the water into the decomposition tank 20 through the water supply pipe 60; Low-voltage and high-voltage mixed silver ion water production apparatus, characterized in that it further comprises a storage tank (100) for collecting the silver ion water fresh water in the decomposition tank 20 through the discharge pipe (70). delete delete According to claim 1, wherein the high voltage supplied by the power supply unit 30 is a high voltage boosted by a transformer, the transformer is a low voltage and high voltage mixed silver ion water production apparatus, characterized in that the transformer of 300VA to 400VA capacity. The method of claim 1, Low voltage and high voltage mixed silver ion water production apparatus, characterized in that it further comprises a filter unit (50) for removing impurities in the water introduced into the decomposition tank (20). delete

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