TW202007658A - Water processing system - Google Patents

Abstract

A water process system includes an inlet tube for providing a water to be processed, a magnetizing device, a mineral filtering device, a first outlet tube, a filtration device and a second outlet tube. The magnetizing device includes a spiral tube and a coil surrounding the spiral tube for forming a magnetic field. The mineral filtering device connects the magnetizing device. The water to be processed flow through the magnetizing device and the mineral filtering device to become a micro-clustered water. A first part of the micro clustered water flows to the first outlet tube and is discharged for washing purpose. A second part of the micro clustered water flows to the filtration device to be filtered and become a filtered micro-clustered water. The second outlet tube connects the filtration device to discharge the filtered micro-clustered water for drinking purpose.

Description

Water treatment system

The invention relates to a treatment system, and in particular to a water treatment system.

"Water quality" is a matter of concern to everyone. The most important requirement of the public for water is drinking and washing water. Regarding the washing water, the current washing devices (such as dishwashers, washing machines, etc.) all need to use special detergents to help remove stains. However, the use of detergents tends to leave chemical residues after washing, and Threat to consumers' health. Even if natural cleaning and sterilizing ingredients are used in detergents, the antibacterial properties of such natural ingredients are not completely satisfactory, and the use of strong antibacterial chemical substances as cleaning ingredients, the residues of which can harm human health, The discharged sewage will cause environmental pollution. Regarding drinking water, it is necessary for the daily life of human beings. The quality of drinking water is not only related to human health, but people's requirements for drinking water taste and health effects are also increasing.

Therefore, how to effectively reduce or eliminate harmful components in drinking and washing water, and further increase the quality of drinking and washing water is an important issue in the field of water treatment.

The invention provides a water treatment system, which can provide small molecule magnetized water for washing, and can provide small molecule magnetized filtered water for drinking.

A water treatment system of the present invention includes a water inlet pipe, an electric field magnetization device, an ore flowing water device, a first water outlet pipe, a filtering device, and a second water outlet pipe. The water inlet pipe is used to provide a water to be treated. The electric field magnetization device includes a spiral tube, a coil wound around the spiral tube, and a magnetic switch coupled to the coil. The magnetic switch is suitable for conducting the coil to generate a magnetic field. The ore flowing water device is connected to the electric field magnetizing device and includes a cavity and a plurality of ore particles arranged in the cavity, wherein the water to be treated flows through the electric field magnetizing device and the ore flowing water device to form a small molecule magnetized water. A first part of the small molecule magnetized water flows to the first outlet pipe and is discharged from the first outlet pipe for washing. A second part of the small-molecule magnetized water flows to the filtering device for filtration to form a small-molecule magnetized filtered water. The second water outlet pipe is connected to the filtering device, wherein the small molecule magnetized filtered water is discharged from the second water outlet pipe for drinking.

In an embodiment of the invention, the above-mentioned filter device includes a ceramic filter device.

In an embodiment of the present invention, a total volume of the above-mentioned ore particles accounts for one third to two thirds of the volume of a cavity of the cavity.

In an embodiment of the invention, the above-mentioned ore flowing water device is connected between the electric field magnetization device and the first water outlet pipe and between the electric field magnetization device and the filtering device.

In an embodiment of the present invention, the above-mentioned ore running water device includes a first water outlet, which is connected to the first water outlet pipe, and the first part of the small molecule magnetized water flows to the first water outlet pipe through the first water outlet.

In an embodiment of the invention, the above-mentioned ore running water device further includes a second water outlet, which is connected to the filtering device, and the second part of the small-molecule magnetized water flows to the filtering device through the second water outlet.

In an embodiment of the present invention, the above-mentioned first water outlet pipe is adapted to be connected to a washing device to provide the first part of the small molecule magnetized water to the washing device.

In an embodiment of the present invention, the above-mentioned second water outlet pipe is adapted to be connected to a drinking water device, so as to provide small molecule magnetized filtered water to the drinking water device.

In an embodiment of the invention, the above-mentioned electric field magnetization device further includes a magnetically conductive metal layer, which is sleeved outside the spiral tube.

In an embodiment of the present invention, the above-mentioned electric field magnetization device further includes a hollow seat, the spiral tube body is disposed in the hollow seat, and the coil is wound on an outer surface of the hollow seat.

Based on the above, the water treatment system of the embodiment of the present invention can flow the water to be treated through the electric field magnetization device and the ore flowing water device to form the small-molecule magnetized water, and then discharge part of the small-molecule magnetized water for washing. The other part of the small-molecule magnetized water can then flow to the filtering device to be filtered to form small-molecule magnetized filtered water, and the filtered small-molecule magnetized filtered water is discharged for drinking. Therefore, the water treatment system of the embodiment of the present invention can provide magnetized small-molecule magnetized water as washing water and magnetized and filtered small-molecule magnetized filtered water as drinking water, thereby improving the convenience and versatility of the water treatment system Can improve the water supply quality of the water treatment system.

In order to make the above-mentioned features and advantages of the present invention more obvious and understandable, the embodiments are specifically described below in conjunction with the accompanying drawings for detailed description as follows.

The foregoing and other technical contents, features and effects of the present invention will be clearly presented in the following detailed description of the embodiments with reference to the drawings. Directional terms mentioned in the following embodiments, for example: "upper", "lower", "front", "rear", "left", "right", etc., are only for the directions referring to the attached drawings. Therefore, the directional terms used are for illustration, not for limiting the present invention. Moreover, in the following embodiments, the same or similar elements will use the same or similar reference numerals.

FIG. 1 is a schematic diagram of a water treatment system according to an embodiment of the present invention. Please refer to FIG. 1. In this embodiment, the water treatment system 10 includes a water inlet pipe 100, an electric field magnetization device 200, an ore flowing water device 300, a first water outlet pipe 500, a filtering device 400 and a second water outlet pipe 600. The water inlet pipe 100 is suitable for connecting a water source to provide a water to be treated. In this embodiment, the water source may be a tap water pipe, and the so-called water to be treated may be tap water provided by the tap water pipe. Of course, this embodiment is not limited to this, and other suitable water sources and water to be treated (for example, groundwater, etc.) can also be treated by the water treatment system 10 of this embodiment.

2 is an exploded schematic diagram of an electric field magnetization device according to an embodiment of the invention. 3 is a schematic cross-sectional view of an electric field magnetization device according to an embodiment of the invention. Please refer to FIGS. 2 and 3 at the same time. In this embodiment, the electric field magnetization device 200 may include a spiral tube 220, a coil 244 wound around the spiral tube and a magnetic switch 226 coupled to the coil 244. In some embodiments, the electric field magnetization device 200 may further include a magnetic conductive metal layer 230, a hollow seat 242, and an electrically controlled substrate 250. The spiral tube 220 includes a water inlet 222 and a water outlet 224. The magnetic switch 226 is provided at the water inlet 222. In this embodiment, both the water inlet 222 and the water outlet 224 can be located at the bottom of the spiral tube 220, and the water inlet 222 is connected to the water tube 100 so that the water to be treated provided by the water tube 100 flows into the spiral tube 220. Of course, the present invention does not limit the installation positions of the water inlet 222 and the water outlet 224 and their specific coupling relationship, as long as the water inlet 222 is connected to the water source to provide the water to be treated into the water inlet 222, and the treated water can be The water outlet 224 may flow out of the electric field magnetization device 200.

In this embodiment, the material of the spiral tube 220 may include plastic, ceramic, copper, or stainless steel, and the length of the spiral tube 220 may be substantially between 100 and 120 cm. Preferably, the length of the spiral tube 220 may be about 110 cm, so that the water flowing through the spiral tube 220 can have sufficient contact time and contact area with the spiral tube 220 to improve its magnetization effect. In this embodiment, the helical tube body 220 can be a three-piece tube, and the diameter of the tube is relatively small, thus ensuring that the water flow in the helical tube body 220 is not excessively large and can be completely magnetized. Of course, this embodiment is for illustration only, and the present invention does not limit the material, diameter, and length of the spiral tube 220.

According to the above, as shown in FIG. 3, the magnetic conductive metal layer 230 is sheathed outside the spiral tube 220, and the spiral tube 220 and the magnetic conductive metal layer 230 are assembled in the hollow seat 242 in this state. Specifically, the hollow seat 242 can define an accommodating space S1 as shown in FIG. 2, and the spiral tube 220 and the magnetic conductive metal layer 230 are assembled in the accommodating space S1, and the spiral tube The water inlet 222 and the water outlet 224 of the body 220 are configured to extend beyond the accommodating space S1, and the coil 244 is wound around the outer surface of the hollow seat 242 as shown in FIG. 2. In this embodiment, the spiral tube 220 may further include a magnetically conductive coating, which is coated on the outer surface of the spiral tube 220 to improve the magnetization effect.

In this embodiment, the electronically controlled substrate 250 is coupled to the magnetic switch 226 and the coil 244 of the spiral tube 220 to drive the magnetic switch 226 to conduct the coil 244 when the water to be treated flows into the water inlet 222, so that the coil 244 and the conductive The magnetic metal layer 230 generates a magnetic field generated by electric field magnetization to magnetize the water to be treated in the spiral tube 220 to form magnetized water, and the magnetized water flows out through the water outlet 224 of the spiral tube 220. Specifically, the electronic control board 250 can be externally connected to an external power source to drive the magnetic switch 226 and turn on the coil 244 when the water to be treated flows into the water inlet 222.

In this embodiment, the resonant frequency of the coil 244 after being turned on is about 46,000 Hz, that is, the coil 244 can provide about 46,000 oscillations per second after being turned on. In this way, when the magnetic field generated by the magnetization of water through this electric field, the magnetic force of this magnetic field can generate magnetic resonance with water, thereby changing the physical properties of the water. This change in physical properties includes the change from large molecular clusters to small molecules.团结构。 Group structure.

4 is a schematic perspective view of an ore running water device according to an embodiment of the present invention. Please refer to FIGS. 1 and 4 at the same time. In this embodiment, the ore running water device 300 can be connected to the water outlet 224 of the electric field magnetizing device 200. In this configuration, the magnetized water processed by the electric field magnetizing device 200 can pass through the ore running water device 300. The water inlet 330 flows into the ore flowing water device 300 for further processing. In this embodiment, the ore running water device 300 may include a cavity 310 and a plurality of ore particles 320 disposed in the cavity 310. The ore particles 320 in the cavity 310 may include a variety of different ore particles, including longevity stone, maifan stone, far-infrared ceramics, etc., and the particle sizes of the various ore particles may also be different.

In this configuration, the magnetized water magnetized by the electric field magnetization device 200 flows through the ore particles 320 in the cavity 310 and can collide with the ore particles 320, causing the molecules and molecules to rapidly oscillate and cause a strong resonance effect, which can quickly cut the water Molecules make the water molecules smaller and increase the oxygen content in the water. Therefore, the magnetized small-molecule magnetized water can increase the dissolved oxygen content by about 4 mg/L to 6 mg/L, the surface tension can decrease by about 1 mN/m, the electrical conductivity by at least about 2%, and the solubility by about 20% Up to 70% and the clarification speed is increased by about 20% to 90%, etc. Therefore, the small molecule magnetized water after dynamic magnetization can have better dissolving power and washing power. If it is used as washing water, it can be used without washing. Clean the stains without using the agent.

In addition, the small-molecule magnetized water formed by flowing through the electric field magnetization device 200 and the ore flowing water device 300 can be kept in the state of small molecular clusters for a long time, and will not be reduced to water of large molecular clusters in a short time. In other words, flowing the water to be treated through the electric field magnetization device 200 and the ore flowing water device 300 can prolong the time that the small molecule magnetized water stays in the state of small molecule clusters, and can also enhance the magnetization effect of the small molecule magnetized water. In addition, the ore particles 320 can provide minerals and trace elements beneficial to the human body. In this embodiment, the material of the cavity 310 accommodating the ore particles 320 may include stainless steel.

In this embodiment, the total volume of the ore particles 320 may account for about one third to two thirds of the cavity volume of the cavity 310. That is to say, the ore particles 320 do not fill the entire cavity 310 to provide enough space for collision and friction between the water and the ore particles 320 to improve the efficiency of magnetization. It should be noted that the water to be treated in this embodiment first flows through the electric field magnetization device 200 and then flows through the ore active water device 300. Therefore, the ore active water device 300 can be connected to the electric field magnetization device 200 and the first outlet as shown in FIG. The water pipe 500 is connected between the electric field magnetizing device 200 and the filtering device 400. However, this embodiment is not limited to this.

In other embodiments, the water to be treated also flows through the ore flowing water device 300 and then the electric field magnetization device 200 to magnetize the water to be treated into small molecule magnetized water. In this embodiment, the installation position of the electric field magnetization device 200 can be intermodulated with the installation position of the ore flowing water device 300, that is to say, the electric field magnetization device 200 can be connected between the ore flowing water device 300 and the first water outlet pipe 500, and connected Between the electric field magnetization device 200 and the filter device 400.

In this embodiment shown in FIG. 1, the ore flowing water device 300 may include a first water outlet 340 and a second water outlet 350, wherein the first water outlet 340 is connected to the first water outlet 500, and the second water outlet 350 is The filter device 400 is connected. In this configuration, the first part of the small-molecule magnetized water flowing through the electric field magnetization device 200 and the ore flowing water device 300 can flow to the first water outlet pipe 500 through the first water outlet 340 and be discharged from the first water outlet pipe 500 for For washing. The second part of the small-molecule magnetized water can flow to the filtering device 400 through the second water outlet 350 to be filtered to form small-molecule magnetized filtered water. The second water outlet pipe 600 is connected to the filtering device 400, so that the filtered small molecule magnetized filtered water can be discharged from the second water outlet pipe 600 for drinking. It should be noted that in the embodiment in which the water to be treated flows through the ore flowing water device 300 and then the electric field magnetization device 200, the first water outlet pipe 500 and the second water outlet 350 may be disposed at the water end of the electric field magnetization device 200.

In this embodiment, the first water outlet pipe 500 may be connected to the washing device 700 to provide the first part of the small molecule magnetized water to the washing device 700 as the washing water of the washing device 700. In this embodiment, the washing device 700 may include a dishwasher, a washing machine, or other suitable washing devices. In this way, since the washing water of the washing device 700 is the magnetized water of small molecules magnetized by the electric field magnetizing device 200 and the ore flowing water device 300, the washing power of the washing water can be improved, and the detergent can be used without detergent Cleaning the stains can further reduce the pollution of the washing device 700 to the environment, and can also avoid the harm to the human body caused by the detergent not being completely cleaned.

5 is a schematic perspective view of a waver according to an embodiment of the invention. It should be noted that FIG. 5 shows three perspective views of the waver 360 at two different angles. Please refer to FIGS. 1 and 5 at the same time. In this embodiment, the water treatment system 10 may further include a waver 360, which may be disposed at the water inlet 330 and/or the water outlet of the ore running water device 300. In this embodiment, the wave generator 360 may include a core 362, a base 364, and a spacer 366. The corrugated core 362 is disposed in the base 364. In this embodiment, the wave core 362 may include a multi-layer foaming filter, so that water flows through the foaming filter and is fully mixed with air to achieve the effect of foaming. In this embodiment, the material of the base 364 may include stainless steel, copper, or other suitable materials. The gasket 366 may be disposed at the junction of the base 364 and the water inlet 330 and/or water outlet, so that the waver 360 and the water inlet 330 and/or water outlet form a tight fit, and may prevent water leakage. In this embodiment, the material of the gasket 366 may include non-toxic rubber or other suitable materials. Of course, this embodiment is for illustration only, and the present invention does not limit the structure and configuration of the wave 360.

In general, the wave generator 360 may include a bubble water wave type waver, a cylindrical water wave type waver, a jet water wave type waver, and the like. The bubble-shaped water wave type waver uses a special structure to suck air to let the flowing water be fully mixed to form a milky white water flow with bubbles, which is mostly used in domestic water taps. The column-shaped water outlet wave generator does not generate air bubbles, but can produce a crystal-clear water flow without splashing, which is used in a large-flow water outlet environment, such as a hospital. The jet water wave type waver can use the jet water in some environments with small water flow, which is equivalent to the effect of increasing the water pressure. This is similar to the principle of the pressurized shower head, which is conducive to water saving. It is usually used in public places. For example, public toilets. This embodiment does not limit the types of wavers 360, which can be adjusted according to the usage environment of the water treatment system 10.

In this embodiment, the waver 360 is provided at the water inlet 330 and/or water outlet of the ore water device 300 to increase the magnetized water flowing into the ore water device 300 from the water inlet 330 and the water outlet from the ore water device 300 The air content of the outflowing small molecule magnetized water. In this way, the magnetized water flowing through the waver 360 can increase the scouring force due to the increased air content, which can increase the collision and friction of the ore particles 320, which in turn can encourage the ore particles 320 to release more beneficial minerals and trace elements to the human body . Moreover, the waver 360 can further increase the amount of dissolved oxygen in the magnetized water, so that the magnetized water can have better dissolving power and washing power. If used as washing water, the amount of water can be effectively reduced.

In addition, the wave core 362 of the wave generator 360 can also provide a filtering function. Its multi-layer filter screen can further filter most sediment and impurities, and the internal grid can filter large particles of impurities. In this embodiment, the wave generator 360 is disposed at the water outlet of the ore water device 300 to perform filtering again, and the water outlet can have a constant water output. In this embodiment, the waver 360 has the effect of pressure compensation or current limiting and related devices. It can ensure a certain amount of water output when the water pressure is too low, and can limit the water output when the water pressure is too high, so it can be When the water pressure is unstable, the outflow of the small molecule magnetized water flowing out of the ore flowing water device 300 is stabilized.

6 is a schematic perspective view of a filtering device according to an embodiment of the invention. Please refer to FIGS. 1 and 6 at the same time. In this embodiment, the filter device 400 may include a ceramic filter element. In other embodiments, in addition to the ceramic filter element, the filter element 440 of the filter device 400 may further include an activated carbon filter element, a polypropylene (Polypropylene, PP) filter element, a resin filter element, a titanium rod filter element, or other suitable filter elements species. In this embodiment, the second part of the small-molecule magnetized water may flow into the solution tank 430 of the filtering device 400 through the water inlet 410 of the filtering device 400, and pass through the water outlet 420 after filtering through the filter core 440 in the solution tank 430 To the second outlet pipe 600. The second water outlet pipe 600 can be used to connect to a drinking water device 800. In such a configuration, the small molecule magnetized filtered water after being magnetized by the electric field magnetization device 200 and the ore flowing water device 300 and then filtered by the filtration device 400 can be provided to the drinking water device 800 to For users to drink.

In this embodiment, the filter element 440 of the filter device 400 may be a ceramic filter element, which may be prepared by using a special technical molding method, for example, using diatomite mud as a raw material. The average pore diameter of the ceramic filter is only about 0.1 micrometer (μm), but it is not limited to this, therefore, the filtration accuracy of the ceramic filter is quite high. The filter element 440 of the filtering device 400 can be used to remove the chemical liquid in the water, the plating liquid, the solid particles in the tap water, and the organic impurities in the liquid. During filtration, the solution is pushed by the pump, flows through the filter cartridge and the filter element 440, the particles are separated in the filter element 440, and the filtered solution returns to the solution tank 430 through the core tube. Therefore, the small-molecule magnetized filtered water treated by the water treatment system 10 of this embodiment can not only effectively remove impurities in the water, but also improve the nutritional physiological functions of the water (for example: dissolution, penetration, diffusion, etc.), and The minerals and trace elements beneficial to the human body can be dissolved through the ore water device 300.

In summary, the water treatment system of the embodiment of the present invention first flows the water to be treated through the electric field magnetization device and the ore flowing water device to magnetize the small molecule magnetized water, and then passes a part of the small molecule magnetized water through the first outlet pipe Discharge for washing. The other part of the small-molecule magnetized water can then flow to the filtering device to be filtered to form small-molecule magnetized filtered water, and the filtered small-molecule magnetized filtered water can be discharged from the second water outlet pipe for drinking. Therefore, the water treatment system of the embodiment of the present invention can provide magnetized small-molecule magnetized water as washing water, and can also provide magnetized and filtered small-molecule magnetized filtered water as drinking water, improving the convenience and versatility of the water treatment system Sex, can also improve its water supply quality.

Although the present invention has been disclosed as above with examples, it is not intended to limit the present invention. Any person with ordinary knowledge in the technical field can make some changes and modifications without departing from the spirit and scope of the present invention. The scope of protection of the present invention shall be subject to the scope defined in the appended patent application.

10‧‧‧Water treatment system 100‧‧‧Inlet pipe 200‧‧‧Electromagnetic field magnetization device 220‧‧‧Spiral tube 222‧‧‧Inlet 224‧‧‧Outlet 226‧‧‧Magnetic switch 230‧‧ ‧Magnetic metal layer 242‧‧‧Hollow seat 244‧‧‧Coil 250‧‧‧Electrically controlled substrate 300‧‧‧Ore water device 310‧‧‧Cavity 320‧‧‧Ore particles 330‧‧‧Water inlet 340‧ ‧‧First water outlet 350‧‧‧Second water outlet 360‧‧‧‧wave 362‧‧‧wave core 364‧‧‧base 366‧‧‧gasket 400‧‧‧filter device 410‧‧ ‧Water inlet 420‧‧‧Water outlet 430‧‧‧Solution tank 440‧‧‧Filter element 500‧‧‧First outlet pipe 600‧‧‧Second outlet pipe 700‧‧‧Washing device 800‧‧‧Drinking device S1 ‧‧‧Accommodation space

FIG. 1 is a schematic diagram of a water treatment system according to an embodiment of the present invention. 2 is an exploded schematic diagram of an electric field magnetization device according to an embodiment of the invention. 3 is a schematic cross-sectional view of an electric field magnetization device according to an embodiment of the invention. 4 is a schematic perspective view of an ore running water device according to an embodiment of the present invention. 5 is a schematic perspective view of a waver according to an embodiment of the invention. 6 is a schematic perspective view of a filtering device according to an embodiment of the invention.

10‧‧‧Water treatment system

100‧‧‧Inlet pipe

200‧‧‧Electromagnetic field magnetization device

220‧‧‧Spiral tube

222‧‧‧ water inlet

224‧‧‧Water outlet

230‧‧‧Magnetic metal layer

242‧‧‧Hollow seat

244‧‧‧coil

300‧‧‧Ore water device

310‧‧‧cavity

330‧‧‧ water inlet

340‧‧‧First water outlet

350‧‧‧Second water outlet

360‧‧‧wave

400‧‧‧filter device

410‧‧‧ water inlet

420‧‧‧Water outlet

430‧‧‧Solution tank

500‧‧‧The first water outlet

600‧‧‧Second outlet pipe

700‧‧‧washing device

800‧‧‧Drinking device

Claims (12)

A water treatment system includes: a water inlet pipe for providing a water to be treated; an electric field magnetization device, including a spiral pipe body, a coil wound around the spiral pipe body, and a magnetic substance coupled to the coil A switch, the magnetic switch is suitable for conducting the coil to generate a magnetic field; an ore running water device connected to the electric field magnetization device and including a cavity and a plurality of ore particles disposed in the cavity, wherein the water to be treated flows through the electric field The magnetization device and the ore flowing water device form a small molecule magnetized water; a first water outlet pipe, a first part of the small molecule magnetized water flows to the first water outlet pipe and is discharged from the first water outlet pipe for washing A filter device, a second part of the small molecule magnetized water flows to the filter device for filtration to form a small molecule magnetized filtered water; and a second water outlet pipe connected to the filter device, wherein the small molecule magnetized The filtered water is discharged from the second water outlet pipe for drinking. The water treatment system as described in item 1 of the patent application scope, wherein a filter element of the filter device includes a ceramic filter element, an activated carbon filter element, a polypropylene (Polypropylene, PP) filter element, a resin filter element or a titanium rod filter element. The water treatment system as described in item 1 of the patent application scope, wherein a total volume of the ore particles accounts for one third to two thirds of the volume of a cavity of the cavity. The water treatment system as described in item 1 of the patent application scope, wherein the ore flowing water device is connected between the electric field magnetization device and the first water outlet pipe and between the electric field magnetization device and the filtering device. The water treatment system as described in item 1 of the patent application scope, wherein the ore flowing water device includes a first water outlet connected to the first water outlet pipe, and the first portion of the small molecule magnetized water flows through the first water outlet To the first outlet pipe. The water treatment system as described in item 5 of the patent application scope, wherein the ore flowing water device further includes a second water outlet connected to the filtering device, and the second part of the small molecule magnetized water flows through the second water outlet To the filtering device. The water treatment system as described in item 1 of the patent application range, wherein the first water outlet pipe is adapted to be connected to a washing device to provide the first part of the small molecule magnetized water to the washing device. The water treatment system as described in item 1 of the patent application scope, wherein the second water outlet pipe is adapted to be connected to a drinking water device to provide the small molecule magnetized filtered water to the drinking water device. The water treatment system as described in item 1 of the patent application scope, wherein the electric field magnetization device further includes a magnetically conductive metal layer, which is sheathed outside the spiral tube. The water treatment system according to item 1 of the patent application scope, wherein the electric field magnetization device further includes a hollow seat, the spiral tube body is disposed in the hollow seat, and the coil is wound on an outer surface of the hollow seat. The water treatment system as described in item 1 of the scope of the patent application further includes a wave filter, which is provided at a water inlet of the ore water supply device. The water treatment system as described in item 1 of the scope of the patent application further includes a wave generator, which is provided at a water outlet of the ore living water device.

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