TW200533606A - A process and apparatus for manufacturing magnetized water - Google Patents

Abstract

The invention provides a process and apparatus for manufacturing the magnetized water in easy manner and with reasonable cost and high efficiency. This invention produces the magnetized water with the oxidized reduced potential value is 100mv~-100mv (the oxidized reduced potential value of the untreated water is 280mv) and oxygen's contain in the magnetized water is more 20% than untreated water. This process and apparatus was included the Varried Frequency's Pulse Power Supplier and magnetized apparatus. The Varried Frequency's Pulse Power Supplier was desighed with PWM(Pulse-Width Modulation) theory. The magnetized apparatus was included the magnetized cell and magnetized electrodes designs (negative electrodes and positive electrodes designs).

Description

200533606 V. Description of the invention (1) [Technical field to which the invention belongs] The present invention provides a method, a device, and a method for manufacturing magnetized water with ease, low cost, and high efficiency. Through the present invention, water can be reduced from a redox potential of 280 mv. The magnetized water has an oxidation-reduction potential value between 100 and 100 mv, and the oxygen content of the magnetized water is more than 20% higher than that of water that has not been treated with the device. The manufacturer of the present invention ^ =: = uses the principle of variable frequency pulse width modulation to manufacture variable frequency pulses to connect the power supply to the positive pole of the design of the magnetizing device]: pole%; the chemical conversion of water reduces the oxidation-reduction potential value of the magnetized water to- It is about 80mv, and its oxygen content is more than 20% higher than that of water before magnetization. The invention relates to a method and a device for improving water quality by adding electrical energy (magnetic energy) to water without using activated carbon, filters, chemicals, etc., and using only electrical treatment methods, and is particularly suitable for improving drinking water. Method and device. As the current water source may be affected by domestic wastewater (containing a variety of chemical substances of detergents), or the large increase in industrial water use in the business world, the discharge of various treated water, the use of agricultural chemical fertilizers, pesticides, etc. Being polluted, the water quality of tap water drops significantly. So the most urgent task is to provide a safe and delicious drinking water. [Prior art] The method for manufacturing water from the patent literature is as follows:

Article 7 200533606 V. Description of the invention (2) (1) Electrolyzed water The so-called electrolyzed water is an invention method of a method and a device for improving water quality. The method is known to me using direct current to decompose water into test ions and acid ion water. This is a kind of acid-base separation water (PJJ separation water). It is also configured in the electrolytic cell with a thin film to configure the anode and cathode to form the anode chamber and the cathode chamber. The water to be treated is introduced into the two chambers, and then the DC voltage is applied. The treatment method applied between the anode and the cathode generates an electrolytic reaction in water. In order to accelerate the electrolytic reaction, an appropriate amount of a common salt solution is added to the water in order to improve the conductivity of the treated water. The alkaline water generated in the cathode chamber is then used as drinking water (Japanese Patent Application Laid-Open No. 6 1 -1 0 1 296 and Japanese Patent Application Laid-Open No. 4-277076). The sterilization water uses the acidity generated by the anode chamber. Water (Japanese Unexamined Patent Publication _31 759). As for the method and device for the treatment of electrolyzed water, the electrodes must be used as anodes and cathodes respectively. After a period of time, a layer of insulating attachments will be deposited on the electrode surface due to electrolysis. To prevent this situation, When the 'generate' is applied, the electrode that periodically reduces the DC voltage is added to change to prevent harm. (2) Use of odor and shaker to increase oxygen content US Patent No. 5,977,752 mentions the use of cooling shaker and ozone to treat water to increase the oxygen content in the water and achieve sterilization . The disadvantages of the method of the invention are that the equipment is expensive and it is not easy to remove excess ozone content in the water.

200533606 V. Description of the invention (3) (3) Use magnets to magnetize water ROC Patent No. 303882, ROC Patent No. 406671, and US Patent No. 395 1 80 7, US Patent No. 4146479, US Patent No. 4153559 U.S. Patent No. 4216092, U.S. Patent No. 4278 549, U.S. Patent No. 4299700, U.S. Patent No. 4320003, U.S. Patent No. 4357237, U.S. Patent No. 44 229 34, U.S. Patent No. 4430785, U.S. Patent No. 436 7143, U.S. Patent No. 4455229, U.S. Patent No. 4605488, U.S. Patent No. 46623 14, U.S. Patent No. 4808306, U.S. Patent No. 57531 24, U.S. Patent No. 6171504, U.S. Patent No. 6270660, U.S. Patent Patent publication specifications such as 6277275 and U.S. Patent No. 6,491,825 mainly mention how to magnetize water through the arrangement of magnets. The disadvantages of these inventions are that the magnetization effect will decrease as the magnet's magnetism weakens, and it is not easy to obtain lower redox. Potential value of magnetized water. [Summary of the Invention] The present invention provides a simple, low-cost and high-efficiency method and device for manufacturing magnetized water. Through the present invention, water can be magnetized from a redox potential value of 28mv to a redox potential value between 100 and -100mv. The energy of the magnetized water 'and the oxygen content of the magnetized water is more than 20% higher than that of the water that has not been treated with the manufacturing method and device of the present invention. The manufacturing method and device of the present invention mainly use a variable frequency pulse width modulation principle to manufacture a variable frequency pulse power supply, and the power supply is connected to the

200533606 V. Description of the invention (4) The positive and negative electrodes of the magnetizing device are designed to magnetize the water to reduce the oxidation-reduction potential value of the magnetized water to about -8 Omv, and its oxygen content is more than 20% higher than that of the water before the magnetization. . The method and device of the present invention mainly use the principle of variable frequency pulse width modulation to rectify 60 Hz and 110 V AC power into DC power. The current is converted into a power source with a frequency of 0.5 to 200 V and a negative frequency greater than 0.3 The power supply for the positive and negative poles of the magnetization tank is' and the water in the magnetization tank is magnetized. The simple circuit design diagram and principle are shown in Figures 1 and 2. In the method and device of the present invention, an operating voltage of 1.5 to 200 V is used. The higher the voltage, the better the magnetization effect, but safety and cost need to be considered. The design of the magnetization tank in the device and method of the present invention is composed of one or more positive electrode plates and one or more negative electrode plates in a water tank. Its simple design diagram_ as shown in Figures 3 and 4, is composed of a set of positive electrode plates and a set of negative electrode plates (see Figure 3) or a positive electrode plate and a set of negative electrode plates (see Figure 4) = If the magnetizing tank is a continuous process, it needs to have a water outlet and a water inlet. In addition, if it is a batch process, the design of the water inlet and outlet and the water inlet, if necessary, actually use several magnetization tanks in series to form a series: and: the magnetization tank design in i Materials such as copper, copper and iron plates, such as steel plates, oxidized clock plates, and gold alloy plates. The combination of: The magnetization tank in the method and the method can be-one or more-when the power of the inverter pulse reactor is large enough. , Can be used as a power supply for one or more magnetization tanks

200533606 V. Description of Invention (5) Supply. In the device and method of the present invention, if the mineral content in the magnetized water is considered insufficient, ore can be added to the magnetization tank to magnetize the ore and water together. This can increase the mineral content of the magnetized water and further increase the content of the magnetized water. Therefore, the acid hardness' will definitely not affect the taste and mineral content. After normal reverse osmosis water is magnetized with ore, its carbonic acid hardness will be within 20 to 5 Oppm, which is the best drinking water mineral content suitable for human drinking. [Implementation method] After connecting the variable frequency pulse power supply and the magnetization tank, Start the experiment and obtain the following experimental data (such as Table 1 and Table 2). If the measured oxidation reduction potential of the magnetized water is not low enough, you need to increase the number of magnetization tanks. If the power of the variable frequency pulse power supply is large enough, 1 consider that one variable frequency pulse power supply supplies several magnetization tanks. In addition, you can also consider adjusting the output frequency and voltage value of the variable frequency pulse power supply. In principle, the higher the output voltage value, the better the magnetization effect. Furthermore, the speed of the water flow can be considered. Principle: The slower the water speed, the better the magnetization effect. Table 1.Comparison of data before and after tap water magnetization

200533606 V. Description of the invention (6) PH value 6. 8 6.9 Suntek TS-1 Carbonate hardness 218 210 Milwaukee (CD-97) (ppm) Oxygen content 7. 7 9 · 6 Milwaukee (SM —600) (ppm) Redox 280 -80 Milwaukee Company (SM-500) Potential value (mv) Table 2. Comparison of data before and after reverse osmosis water magnetization Supplier of measuring equipment before and after magnetization (type) PH value 7. 7 7.8 Suntech TS-1 Carbonate hardness 18 19 Mi 1waukee (CD-97) (ppm) Oxygen content 7. 4 9.3 Milwaukee (SM-600) (ppm) Redox 280 -82 Milwaukee (SM -500) Potential value (mv)-Tables (Table 1 and Table 1) show that the method and device of the present invention can effectively reduce the redox potential value of magnetized water and increase the oxygen content of water, and the magnetization itself It has little effect on the hardness of carbonic acid.

200533606 Brief description of the diagram Figure 1 is a simplified diagram of a variable frequency pulse power supply, where the number 103 is power (power), its role is to rectify AC power (11v, 60Hz) into DC power and the required Voltage value, No. U6 is functioon setup (function parameter establishment), which is mainly to enter the required operating parameters, and then the calculation and processing results through the CPU No. 117, and then the display (display board No. 18) ) Shows the current operating conditions and power output situation. In addition, the signal converter (signal conversion) of No. 11 and No. 5 is to generate a proper frequency vibration by using the signal from the CPU. The adjustment principle produces the negative oscillation frequency). The other numbers and part names are as follows, No. 101 is the capacitor, No. 102 is the pole, No. 104 is the MOSFET N channel, No. 105 is the ground electrode, No. 106 is the diode, and No. 107 is the diode. No. 108 is the ground electrode, No. 109 is the MOSFET N channel, No. 110 is the capacitor, No. 113 and 119 are capacitors, No. 114 is the ground electrode, No. 121 is the MOSFET N channel, and No. 122 It is a diode, No. 123 is the ground electrode, No. 124 is the MOSFET N channel, No. 125 is the ground electrode, No. 126 is the diode, No. 111 and 112 are the positive pole output and the magnetizing slot of Figure 3. The pole plates are connected. Nos. 129 and 120 are the negative pole output and the negative pole plate of the magnetizing tank in Figure 3. Figure 2 is a simplified diagram of a variable frequency pulse power supply. The number 203 is power. Its function is to rectify AC (110V, 60Hz) into DC and the required voltage value. The number 216 is function setup (function Parameter creation), mainly input the required operating parameters, and then pass the number

Page 13 200533606 The diagram briefly explains the CPU 217's calculation and processing results, and then the display (display board) No. 218 shows the current operating conditions and power output, and the signal converter No. 21 5 (signal Conversion) is to generate a proper frequency vibration signal from the CPU to generate AC power (using the principle of variable frequency pulse width modulation to make the negative oscillation frequency). The other numbers and part names are as follows, No. 201 is the capacitor, No. 202 is the pole, No. 204 is the MOSFET N channel, No. 205 is the ground electrode, No. 206 is the diode, No. 207 is the capacitor, and No. 209 And 210 are capacitors, 211 are MOSFET N channels, 212 and 214 are ground electrodes, 213 are diodes, 219 are MOSFET N channels, 220 are ground electrodes, and 2 21 No. 2 23 and No. 222 are negative output, which are connected to the negative electrode plate of FIG. 4, and No. 208 are positive output, which are connected to the positive electrode plate of FIG. 4. Figure 2 shows the design of the magnetization tank electrode, where number 3 丨 is the water inlet, number 32 is the water outlet, number 33 is the water tank, numbers 34A and 34B are negative electrode plates, and numbers 35A and 35B are positive electrode plates. Numbers 36 and 37 are plate holders. The positive electrode plate referred to here is connected to the positive electrode of the variable frequency pulse power supply (Figure 1), and the negative electrode plate is connected to the negative electrode of the variable frequency pulse power supply% (Figure ^). When the device is applied in batch process, the 2 outlet design or water inlet and outlet (numbers 32 and 31) can be reversed so that Pu 焱 t = No. 31 is used as the water outlet, and No. 32 is used as the outlet, ϋ : In the process, the water inlet and outlet can be designed as shown in Figure 3. If there are several magnetizations, say 'Be,' the water outlet of the first tank is connected to the water inlet of the second tank. Be quantified. '~ ^ ~ ^-200533606 Brief description of the compilation of the drawing Figure 4 is a magnetized tank electrode design, its number 41 is the water inlet, 42 is the water outlet, number 43 is the water tank, number 44 is the positive electrode plate, number 45A The asterisks are the negative pole plates, and the numbers 46 and 47 are the pole plate holders. ^ The frequency conversion pulse power supply is connected in the same way as in Figure 3. # B batch type and continuous type. During use, the inlet and outlet design of the magnetization tank and the flow rate of the three-phase water inlet can be quantified with a quantitative pump. One

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Claims (1)

200533606 VI. Scope of patent application 1. A method and device for manufacturing high-energy water, mainly composed of (1), a variable frequency pulse power supply; the range of current and voltage that can be supplied is 1.5 to 2000V, and the frequency of the anode is greater than 〇 03Hz, and (2), magnetizing tank; a magnetizing tank composed of one or more positive electrode plates and one or more negative electrode plates, and the positive and negative electrodes are connected. 2. As in the first item of the scope of patent application, when the supply voltage of the variable frequency pulse power supply is in the range of 10 to 150V and the supply negative frequency is greater than 0.3 Ηζ, it is a more common and effective range. 2. As in the first item of the patent application scope, the variable frequency pulse power supply can use one variable frequency pulse power supply to supply power to one or more magnetization tanks. 4. As in the first item of the scope of patent application, the magnetization tank can be composed of two negative electrode plates and two positive electrode plates or one positive electrode plate, and the electrode material can be zinc plate, platinum plate, titanium plate, stainless steel. Materials such as metal plates, metal bell plates, magnesium alloy plates, copper plates, and iron plates are more commonly used. 5. As in the first item of the patent application scope, the magnetization tank can be a magnetization process in which more than one magnetization tank is connected in series. a