JP3126163U - Negative potential hydrogen generation electrode - Google Patents

Abstract

An object of the present invention is to provide a gas-liquid mixing apparatus capable of dissolving gas gas in well water and tap water safely and efficiently in a short time in the production of various gas gas-dissolving functional water that is friendly to the environment and the human body.
As for negative potential hydrogen water, a DC voltage of an anode / cathode is alternately applied to a stainless steel plate having a thickness of 1.0 mm to 5.0 mm which is stacked with a gap of 0.5 mm to 6.0 mm. A negative potential hydrogen generating electrode characterized by parallel continuous electrodes.
[Selection] Figure 1

Description

The present invention relates to an electrolysis apparatus that generates and dissolves hydrogen gas from water.

In the 21st century, hydrogen energy technology friendly to the global environment has been actively researched. At the same time, various functional waters that are environmentally friendly and gentle to the human body have been studied. Hydrogen water is attracting attention in the industry as high oxygen water that floats and separates when combined with oil and fat components, and water that has a strong metal component removal effect. Hydrogen water, which is said to be healthy by neutralizing with active oxygen, is spreading very much. Water also has electricity called redox potential (hereinafter referred to as “ORP”). Water with a high ORP value is water in a positive ion state that easily oxidizes other substances, and water with a low ORP value reduces other substances. Easy negative ion state. Some electrolyzers use elemental metals such as platinum.

Oxygen-dissolved water has a high potential, and hydrogen-dissolved water is water having a low potential. The ORP of tap water is +400 to +800 mV of oxidized water, and the body fluid of healthy body is -200 to +200 mV. Conventional hydrogen water production methods include a mechanism that uses a hydrogen gas generator that electrolyzes pure water to generate hydrogen gas and dissolves it in water, and an electrolysis tank that uses a diaphragm that generates acidic water and basic water. The hydrogen gas generator requires gas production raw water to be 1 μS or less, so it costs a lot of money because it requires ancillary equipment to purify the purified water from tap water by activated carbon filtration or membrane filtration into ultrapure water. There is. In an electrolysis tank using a diaphragm, pH-like acidic water and alkaline water are generated, so the amount of water is reduced by half. Moreover, in order to make it neutral, a neutralizing agent is required. In an electrolysis apparatus using platinum, platinum exhibits high performance without modification but has a problem of being expensive.

The negative potential hydrogen generating electrode according to the first aspect of the present invention, which has been made in order to avoid the above problem and achieve high negative potential and hydrogen generation, is a plurality of stainless alloy plates with a gap of 0.6 mm to 6.0 mm. A negative potential hydrogen generation electrode characterized by a parallel continuous electrode that applies a DC voltage of 12V to 24V plus and minus every other one piece

The present invention uses SUS304, SUS316, or SUS317, which is an alloy of chromium, nickel, and iron. Chromium, nickel, and iron are each used for electronic transfer, and the tap water passing through the contact is instantly decomposed into a large amount of hydrogen and oxygen with low power. In the verification experiment, the water that passes through and contacts between the SUS electrodes generates very fine hydrogen bubbles and oxygen bubbles with a buoyancy of about 10 cm per minute. In the case where 12 VDC is applied to a 6-gap electrolyzer using 7 SUS304 electrodes having a thickness of 2.0 mm, a width of 40 mm, and a length of 400 mm and a gap of 2.8 mm, and tap water of 10 liters per minute is passed through, The secondary DC current is 9.8 A, the primary AC current is 0.7 A, the hydrogen concentration DH is 0.5 mg / L, and the oxidation-reduction potential ORP is minus 405 mV. When the electrode gap is 4.8 mm, the secondary DC current is 5.2 A, the primary AC current is 0.45 A, the hydrogen concentration DH is 0.38 mg / L, and the oxidation-reduction potential ORP is minus 335 mV. When the water stops, the operating current increases by about 10%.
Thickness 2.0mm Width 100mm Length 100mm SUS304 Electrodes Nine potential electrodes with 8 gaps set to a gap of 2.8mm are installed in a bucket pumped with 15 liters of tap water of pH 7.2 and 12V DC To start producing fine bubbles immediately, and after 1 minute, ORP is minus 250 mV and pH is 7.2. When two minutes elapse, the ORP is minus 300 mV, the pH is 7.2, and the whole water looks milky white due to bubbles. At 3 minutes, ORP is minus 350 mV and pH is 7.2. At the end of four minutes, the ORP remains minus 400 mV and the pH remains 7.2. This negative potential hydrogen water can be put on a sponge to erase the oil-based magic graffiti.
Dust sticking to the car due to acid rain can be easily removed without using descaling.
Similarly, in the case of the experiment, the hot water supply ORP potential plus 500 mV is plus 200 mV when the hot water supply is completed, and after about 1 hour, it becomes around minus 100 mV.
When bathing in the state of operation, the hot springs appear as milky white as the fine bubbles melt. ORP refers to about +50 mV when the oxidation potential is pulled from the human body to hot water with a negative potential. When immersed in a negative potential hot spring, the body warms up and does not cool off, leaving the skin moist and smooth the next day. The hair becomes smooth. The bathtub is also cleaned and the washing time can be greatly reduced. At the time of cooking, it works to clean the boiler piping and prevent oxidative corrosion. No detergent was required for washing with residual water.
In addition, air of about 300 mV is usually negatively ionized in the bathroom, and ORP is plus 100 mV. DC 12V was applied to a 6-gap electrolytic device using 7 SUS304 electrodes with a thickness of 2.0 mm, a width of 40 mm and a length of 400 mm, and the electrode gap was set to 2.8 mm. The electrode passed through the operation was confirmed to be disassembled, but the surface of the SUS electrode was reformed only by the catalytic action that did not change galvanic corrosion, and when the pit water circulation filter was backwashed, it became a larger amount of dirty backwash water drainage than usual. . If it is installed at the bottom of a pit with a depth of 4m (water pressure of about 0.04Mpa), the current will increase by about 20%. It has been found that fine bubbles are embraced by impurities and rise. In a rust experiment in which a petri dish was filled with tap water, hydrogenated minus potential hydrogen water, soft water, electrolytic minus potential hydrogen water and a clip pin was inserted, rust occurred on the third day and the whole rusted on the 14th day. In soft water, rust appeared on the 7th day, and remained in that state after 30 days. With hydrogenation and electrolysis minus potential hydrogen water, rust was not generated even after 30 days, and the shiny state was maintained.
Several animals were placed in electrolytic negative potential hydrogen water and lived for one month without any problems.
The negative potential hydrogen generation electrode of the present invention is neutral in pH in large quantities with one pass of power saving, low cost, in-line space saving pit water and tap water without using many auxiliary equipment such as pure water equipment and ultra pure water equipment Since it can be electrolyzed quickly and a large amount of negative potential hydrogen water can be generated, it is possible to easily make negative potential hydrogen water from a car battery anywhere with electricity. When electrolyzing stagnant water such as a bath for a long time, dissolved magnesium in water becomes magnesium oxide, dissolved calcium becomes calcium oxide, and the water turns slightly yellow. By combining the titanium electrode with the SUS electrode as in claim 2, The yellowish arrival time can be greatly delayed. In cleaning, a SUS electrode is combined with a copper electrode, and positive electricity is applied to the copper electrode to sterilize bacteria by generating copper ions. Negative potential hydrogen water has a deodorizing effect due to the negative ion effect as well as the reduction of oxidation of the substance. Dissolved active oxygen, which is thought to affect health, is also suppressed. In the experiment, it is effective in removing silica and calcium carbide, cleaning the inside of piping, and cleaning machined materials. Because it has a high concentration of tasteless and non-toxic dissolved hydrogen, it is generated in neutral safe water that delays the dissolution of atmospheric oxygen and is difficult to oxidize, cleaning pools, public baths, medical equipment and precision equipment, food processing and manufacturing, soft drinks It can be used to improve the quality of water, agricultural and industrial water. Oil stains that are difficult to remove drop considerably in the absence of detergent. It has the ability to suppress the growth and survival of negative gram bacteria that live in water, and is useful for reducing endotoxin (toxin) (verified by Suzuka University of Medical Science). Because it has high cleaning and deodorizing power, it can reduce the amount of surfactant used, which is one of the environmental destruction, and can be used in the linen and industrial industries.

An embodiment of the present invention will be described with reference to an exploded side view of FIG.
The connecting portions 2 of the stainless steel plate electrodes 1 are alternately arranged one by one, and an insulating spacer 5 is sandwiched between the electrodes, and a plurality of pieces are assembled into the electrode assembly holes 6 through assembly bolts 7. The connection bolts 3 are respectively passed through the holes of the connection portions 2 which are left and right for each sheet and connected to the lead wire 8, and the connection draining portion 4 performs draining processing (described in FIG. 3). A titanium or copper electrode 9 is assembled to a part of the stainless steel plate electrode 1 in pairs (FIG. 2).
It demonstrates with the flowchart of the hydrogen-dissolved reduced water manufacturing apparatus of FIG.
The lead wire 8 is connected to the DC power source 10, water is passed from the water inlet 11, and negative potential hydrogen water is obtained from the water outlet 12.

Assembly side development of the negative potential hydrogen generation electrode of the present invention Side view of claim 2 Flow diagram of negative potential hydrogen water production system

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Stainless steel plate electrode 2 Connection part 3 Connection bolt 4 Connection draining part 5 Insulation spacer 6 Electrode assembly hole 7 Assembly bolt 8 Lead wire 9 Titanium or copper electrode 10 DC power supply 11 Inlet channel 12 Outlet channel

Claims (2)

Negative potential characterized by parallel continuous electrodes for applying a DC voltage of an anode / cathode alternately to a stainless steel plate having a thickness of 1.0 mm to 5.0 mm stacked with a gap of 0.5 mm to 6.0 mm. Hydrogen generation electrode 2. A negative potential hydrogen generating electrode according to claim 1, wherein a parallel continuous electrode for applying a DC voltage of the anode by providing a titanium plate or a copper plate as a pair on a part of the stainless alloy plate is provided.

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