KR100918827B1 - A structure of apparatus for magnetized clean water maker on magnet with filter and method thereof - Google Patents

Abstract

PURPOSE: Structure of a magnetization water purifier using a magnet and a filter and a method thereof are provided to reduce an operation space by arranging an inlet and an outlet, and to facilitate conversion of water into magnetization water. CONSTITUTION: A magnetization water purifier using a magnet and a filter includes a first housing(120), a magnet part(130), a buffer part(140), a filter part(150), and a second housing(160). The first housing includes an inlet(100) and an outlet(110). The magnet part is screwed up on the first screw part. The magnet part converts tap water to magnetized water. The magnet part removes an iron component contained in the tap water. The buffer part is fixed on the bottom of the first housing. The buffer part is made of an elastic material of a tube shape including the air. The second housing is inserted into an opened part of the first housing. The second housing is screwed on a third screw part, and forms a sealed space. A permanent magnet is made of neodymium of a trigonal prism shape.

Description

Magnetizing water purifier structure using magnet and filter and its method {A STRUCTURE OF APPARATUS FOR MAGNETIZED CLEAN WATER MAKER ON MAGNET WITH FILTER AND METHOD THEREOF}

The present invention converts water into magnetized water using a permanent magnet and purifies the converted magnetized water with a filter. More specifically, the water is rotated around a strong neodymium permanent magnet to speed up the conversion to magnetized water. The present invention relates to a magnetized water purifier structure and a method using a magnet and a filter that removes chemicals and heavy metals containing chlorine and suppresses the growth of microorganisms through a KDF filter.

The method of converting general water (hereinafter referred to as 'constant') into magnetized water is used by Belgian tifermylene in 1945 to prevent calcium, magnesium and calcareous scales from blocking water pipes. In the meantime, technology development has been promoted in earnest, and recently, various effects such as antibacterial and absorption by magnetization of magnetized water have been confirmed, and are being used not only in the industrial field but also in agriculture and household use.

Commonly used constants include various minerals and organics, which are transported together with water through the pipe to form scale and cause corrosion in the pipe. Drinking such constants as drinking water can have various adverse effects on human health. Thus, there are water purification methods using filters and magnetized water treatment methods using the theory of magnetic fluid dynamics (MAGNETIC HYDRO DYNAMICS). In addition, the constant may include microorganisms such as bacteria due to various causes, in order to kill the microorganisms, disinfect with chlorine (Cl). However, chlorine is very toxic and there is a specification that the residual amount in drinking water is less than 1 ppm. 1 ppm corresponds to 0.0001%, corresponding to the amount of 1 ml in 1 cubic meter of air. In addition, when taking a shower with a constant containing chlorine, it is relatively important to reduce the residual amount of chlorine since harmful substances such as chloroform are generated.

As a magnetization water treatment apparatus according to the prior art, there is a domestic utility model registration No. 422477 (magnetization purification apparatus for pipeline).

Referring to FIG. 1, a magnetization purification apparatus for a pipeline according to an example of the related art includes a housing 11 having a vortex 30 and a magnet rod 20 having a vortex vane 31 formed therein. ), The constant flows around the magnet rod 20 in a state where the vortex is formed by the vortex vanes 31 of the vortex 30, thereby facilitating the conversion to magnetized water.

However, such a prior art has to use a magnetic rod having excellent magnetic line density, and has a problem in that it takes a lot of manufacturing cost and time since it has a separate vortex to increase the vortex. In addition, it is difficult to form as much vortex as the vortex, and at the same time, since the strength of the magnetic force line that can be generated by one magnet rod is limited, there is a problem in converting the constant into magnetization water.

In order to solve some of the problems of the prior art, there is a Korean Patent No. 735812 (Multi-Stage Magnetic Rod Built-in Magnetization Purification Device).

Referring to Figure 2 as an example of the prior art as described magnetization purification apparatus built-in multi-stage magnet rod, by fixing the magnet rod 40 in the center of the holder 60 and a plurality of auxiliary magnet rods 50 around the It is a device which is built in the housing 10 in which the connector 11 was formed, and closed the opening part by the housing cap 20 in which the connector 21 was formed. At this time, the magnetic force line density is increased by the magnet rod 40 and the plurality of auxiliary magnet rods 50.

When a constant flows into the connector 11 and 21, the constant flows between the magnet rod 40 and the plurality of auxiliary magnet rods 50, thereby facilitating the conversion to magnetized water due to the increased magnetic line density.

However, even in the improved conventional technology, the structure of fixing the magnet rod and the auxiliary magnet rod to the holder is complicated, and it takes a lot of production time, and the magnetic force density is increased by the magnet rod and the auxiliary magnet rod, but it is expensive to use several magnets. At the same time, there are problems such as an increase in the length and volume of the device, and at the same time, there remains a problem such that the area where the constant can be converted into the magnetized water is limited to the length of the magnetic rod.

In addition, the magnetizer is inserted between the existing pipe to which the constant is transmitted, and after cutting the length of the pipe corresponding to more than the length of the magnetizer device, it is necessary to insert or use a separate induction pipe, which makes the construction complicated and difficult. There is a problem.

Therefore, the constant area stays as long as possible without falling the flow velocity around the magnetic material, and the contact area is relatively large, which facilitates the conversion to the magnetized water, and the vortex is generated without using a separate vortex, There is a need to develop a technology that keeps the construction as current as possible. In addition, there is a need to develop a technique for removing chlorine and heavy metals contained in the constant.

The present invention has been made in order to solve the problems and necessity of the prior art as described above, since the constant supplied without the vortex is obtained in the vortex phenomenon and advances in a rotational state on the outer peripheral surface of the magnet, the area in contact with the magnetic body is It is an object of the present invention to provide a magnetized water purifier structure using a magnet and a filter and a method thereof.

In addition, an object of the present invention is to provide a magnetizing water purifier structure and a method using a magnet and a filter that is arranged adjacent to the inlet and outlet to shorten the cutting length of the existing pipeline and requires a small working space.

It is also an object of the present invention to provide a magnetized water purifier structure and a method using a magnet and a filter for sterilizing microorganisms while removing heavy metals contained in magnetized water and removing residual chlorine.

In addition, an object of the present invention is to provide a magnetized water purifier structure and a method using a magnet and a filter so as to absorb and buffer the increased volume while the inflow constant is frozen, so that freezing does not occur.

In order to achieve the above object, the present invention is provided with an inlet for inlet and outlet to obtain a constant water in a loop state and is inserted into an open portion of the cylindrical first housing and the first housing of which one side is open. It is screwed to the first threaded portion formed in the center of the inner bottom, has a plurality of permanent magnets, and is fixed to the lower portion of the inner bottom of the first housing and the magnet portion for converting the constant into magnetized water and absorbing and removing the iron component contained in the constant. It is made of a tubular elastic material that contains air and is inserted into an open part of the first housing and a buffer part that absorbs the volume in which the constant is frozen, and is screwed into the second screw part and passes through the magnetized water converted by the magnet part. Filter unit and the first housing to remove the chemicals and heavy metals containing chlorine while sterilizing microorganisms A magnetized water purifier using a filter and a magnet including a second housing inserted into the prevented part and screwed to a third screw part to form a closed space and having a cylindrical shape to discharge the purified water by the filter part to the outlet. .

In order to achieve the above object, the present invention has a cylindrical first housing having an inlet and an outlet outlet for obtaining constant water in a loop state, and having an upper side and a lower side open to an open lower side of the first housing. A magnetic part inserted into the first screw part and provided with a plurality of permanent magnets, converting the constant into magnetized water, adsorbing and removing the iron component contained in the constant, inserted into the open upper side of the first housing, and the second threaded part Is screwed into the filter unit to remove the chemicals and heavy metals containing chlorine while sterilizing microorganisms and to pass through the magnetized water converted by the magnet unit and to form a closed space by screwing to the third screw of the first housing And a filter comprising a magnet and a second housing having a cylindrical shape so that the constant purified by the filter part is discharged to the outlet port. It presents a magnetization water purifier.

Preferably, the magnet part seals the inlet of the cylindrical tube and the cylindrical permanent magnet is inserted into the tube and the permanent magnet of the triangular-shaped neodymium inserted into the cylindrical shape formed by adhering two or more even numbers. It includes a lid to prevent the state.

In addition, the filter part is filled with small alloy grains of high-purity copper and zinc inside the cylindrical tubular body, and the CaDF which adsorbs chemicals and heavy metals containing chlorine and inhibits the growth of microorganisms by oxidation and reduction of the alloy grains. It consists of a filter.

The first housing is any one selected from separately formed to separate the loop part obtained in the loop state and separated from each other.

The present invention devised in order to achieve the above object, the first process to obtain the constant in a loop state and to rotate the outer diameter of the magnet portion several times to convert to magnetized water and to remove the iron component contained in the obtained constant and If it is not frozen, proceed to the next process, and if it is confirmed that the frozen, the second step of absorbing the expanded volume by the buffer and the constant converted into magnetized water adsorbs chlorine and heavy metals by the filter unit The present invention provides a magnetization water purification method using a magnet and a filter, including a third process of removing and discharging microorganisms by sterilizing water.

Preferably, the constant is converted to magnetized water by a cylindrical neodymium magnet in which the triangular prism is evenly bonded, and the constant is made by a KD filter.

The present invention having the configuration as described above is obtained by changing the structure of the water inlet so that the constant is obtained in the state causing the vortex phenomenon is not provided with a vortex separately there is an industrial use effect that the configuration is simple and the production time and cost are reduced.

In addition, the present invention of the configuration as described above is repeatedly rotated a certain number of times along the outer peripheral surface of the magnetic material without falling the flow rate of the constant constant, so that the area in contact with the magnetic body is extended and the residence time is long, which promotes the conversion to magnetized water Use effect

In addition, the present invention of the configuration as described above is configured to be adjacent to the inlet and outlet, shorten the length of cutting or separation of the existing pipe to which the constant is transmitted, while reducing the construction cost and time, and also the work space may be small, There is a convenient effect on ease of use.

In addition, the present invention of the configuration as described above has a significant reduction in the length when converting to the same performance of the existing water, there is an industrial use effect to produce and supply at low prices, increase the preference and increase the yield.

In addition, the present invention of the above configuration has a convenient effect of magnetizing the constant to separate the iron component and chlorine and by removing the chlorine and heavy metal by KDF filter and at the same time sterilize microorganisms to supply clean constant. .

In addition, the present invention of the configuration as described above has a convenient effect in use to prevent breakage because it absorbs the increase in volume when the obtained water freezes.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may properly define the concept of terms in order to best explain their invention in the best way possible. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

The constant refers to the tap water that supplies impurities to each household by depositing impurities and disinfecting it with chlorine for use as drinking water. The magnetized water is also called hexagonal water, which is magnetized by a strong magnet. Neodymium magnets are called super magnets. They use rare earth elements and have the strongest magnetic energy on the planet. The filter removes unnecessary substances such as heavy metals, microorganisms, and chemicals in water. Variety is common. The present invention uses a KDF filter officially approved by the National Science Foundation, NSF (NATIONAL SCIENCE FOUNDATION).

The theory of magnetized hexagonal numbers came from the theory of the micro iceberg of German physicist Wielgent Roentgen in 1892.

Water consists of a mixture of molecules arranged in different ways, and each molecule is connected to each other in a cluster or cluster. In other words, water does not exist in one molecule alone, but several molecules repeat one-to-one cluster and connect and disperse each other, and a large number of impurities are formed or a large amount of contamination is formed. .

The smaller the size of the molecular clusters of water, the more active the molecules and the higher the penetration into the cell, thereby stimulating the metabolism of the cell by stimulating homeostasis (HOMEOSTASIS). In order to make the water molecules small and composed of dense tissues, the hexagonal ring structure is called, and this water is called hexagonal water. Hexagonal water has a large heat capacity, and works well with DNA and RNA biomolecules, improving the function of life, and can be produced by strong magnetic lines.

The magnetic field principle 1832 of Faraday (September 22, 1791, August 25, 1791) states that when charged particles in a fluid pass through a magnetic field acting perpendicular to the flow direction of the fluid, some force acts on the moving charge. Published a theory. The water flowing in the magnetic field is converted into a hexagonal number by the force acting in response to the magnetic field force, the stronger the magnetic field, the faster the conversion into a hexagonal number. In other words, when water passes through a field of a strong magnetic field (MAGNETIC FIELD) at a 90 degree angle, the hydrogen (H) molecules of the water attach to the-pole (N) and the oxygen (O) molecules attach to the + pole (S). Due to the characteristics of water, the water molecule rotates rapidly, and the rotating water molecule (H ₂ O) collides with a myriad of negative charges (anions) formed in the magnetic field, and the hydrogen (H) and oxygen (O) molecules are disconnected and separated. Repeat the recombination process. In this process, the molecular structure of water is ion-activated and broken down so that the molecular structure of water is converted into hexagonal water, which forms a hexagon.

3 is a cross-sectional structure diagram of a magnetized water purifier using a magnet and a filter according to a first embodiment of the present invention.

Hereinafter, the first embodiment of the present invention will be described in detail with reference to the accompanying FIG. 3. The magnetization water purifier 90 includes a first housing 120 and a magnet part 130 having an inlet 100 and an outlet 110. The buffer unit 140 includes a filter unit 150 and a second housing 160.

The first housing 120 has an inlet 100 for introducing water from the conduit to obtain a loop and a water outlet 110 for discharging the magnetized and purified water to the outside. A cylindrical shape is formed to form the first threaded portion 122 and the second threaded portion 124 and the third threaded portion 126 in the open portion. At this time, the inlet 100 is made of any one selected from the constant is formed so as to be fixed integrally with the separate forming the loop 102 to obtain separately in a loop state, the constant is around the magnet portion 130 It consists of a configuration for adjusting the direction of rotation and the number of rotation. Preferably, the loop portion 102 adjusts the direction so that the constant obtained is looped around the magnet portion 130 at least three times or four times.

The magnet part 130 is screwed to the first threaded part 122 provided at the lower inner center of the first housing 120, converts the constant into magnetized water, and simultaneously adsorbs and removes iron components contained in the constant. Detailed configuration of the magnet unit 130 will be described with reference to FIG. 5.

4 is a cross-sectional structure diagram of a magnetized water purifier using a magnet and a filter according to a second embodiment of the present invention.

Hereinafter, the second embodiment of the present invention will be described in detail with reference to the accompanying FIG. 4. The magnetization water purifier 95 includes a water inlet 100 and an outlet 110 and a first housing 220 having an upper side and a lower side opened. , The magnet part 230, the filter part 150, and the second housing 160. In describing the second embodiment, the same configuration as that of the first embodiment uses the same reference numerals and will not be repeated unless necessary.

A first screw portion 222 is formed around the open lower side of the first housing 220, and the screw portion 232 is screwed to the screw portion 232 of the inserted magnet portion 230, thereby screwing and fixing the magnet portion 230. This configuration of the present invention has the advantage of easy cleaning and removal of the iron component removed from the constant because the magnet portion 230 is easy to combine and separate.

Description of the loop part 102 formed in the inlet 100, the filter part 150 screwed to the second threaded part 224, and the second housing 160 screwed to the third threaded part 226 is described. Since it was described in detail in the first embodiment, it will not be duplicated.

In addition, the detailed configuration and description of the magnet 230 is the same as the description of FIG. 5, except that the screw 232 protruding from the lower side and a jaw for sealing are formed in the illustrated structure, and the attachment of FIG. The cross section of the magnet part 230 according to the second embodiment is shown in detail.

5 is a structural diagram of a magnet part according to an example of the present invention.

The magnet part 130 joins two or more even-numbered permanent magnets 134 made of neodymium in a triangular prism shape to form a cylindrical shape, and then inserts the cylindrical magnet 136 into a cylindrical shape. In one example, four even numbers of triangular prism are gathered to form one cylindrical shape. The tubular body 136 has a female threaded portion 132 formed at a lower portion thereof, and after the cylindrical magnet is inserted into the inner portion, the tubular body 136 is preferably sealed by closing the open portion with the lid 138. That is, it prevents foreign substances such as iron from being lifted by the strong magnetic force line and protects the neodymium magnet from external shocks, thereby extending the life and preserving the function.

Since the magnets generate very strong lines of magnetic force at the point where the same magnetic poles meet when two or more even numbers are joined, it is preferable to make the triangular prism-shaped magnets as many pieces as possible, and then join them to form one cylinder. In the present invention, for example, four neodymium magnets are joined to form a single cylindrical shape, so that the same magnetic poles meet at four points to generate a strong magnetic force line. Even if the constant obtained in the loop state rotates the outer diameter of the magnet once, it passes through 4 strong lines of magnetic force, so the conversion to the magnetized water proceeds faster. Proceed.

In the process of converting water into magnetized water by a strong magnetic force line, the crust of the water is crushed finely, and thus ionization proceeds quickly and easily. In other words, the magnetized water is the water is converted into an active state.

The neodymium permanent magnet used in the present invention generates about 8,000 to 12,000 gauss at the junction where the same magnetic poles face each other, and when the loop part obtains the constant three times in a loop state, it passes through the magnetic lines 12 times. There is an advantage that the length of the magnet portion is reduced by that much. The constant is divided into water molecules each time passing through the lines of magnetic force, quickly converted into hexagonal ring magnetized water, the structure of the water molecules are compacted, pure water and impurities are separated. In addition, the iron component among the impurities is adsorbed on the surface of the magnet portion to be separated and removed.

The buffer part 140 of FIG. 3 is made of a tubular elastic material which is empty inside and filled with air, and is a lower portion of the inner bottom of the first housing 120 and fixed to the first screw part 122 by screwing. It is fixed between the 130 and the inner wall of the first housing 120.

The constant is water and the water freezes when exposed to a temperature drop below zero, and when the water freezes, the volume increases and the first housing 120 is damaged. At this time, the buffer unit 140 absorbs the increased volume, thereby preventing breakage. Generally, the water purifier is installed and operated indoors, and since the supplied constant is less likely to increase in volume due to freezing, it is not illustrated in FIG. 4.

The filter unit 150 is fixed by screwing the threaded portion 156 to the second threaded portion 124 of the first housing 120, and has high purity copper and zinc inside the tubular body 152 having holes formed on both sides thereof. It is a configuration filled with a small alloy grains (154). The alloy grain 154 is composed of a KDF filter which adsorbs chemicals and heavy metals containing chlorine and inhibits the growth of microorganisms by oxidation and reduction. In one example, zinc ions react with chlorine to remove chlorine. That is, while passing through the constant magnetized by the magnet unit 130, the filter unit 150 removes foreign substances such as heavy metals, chlorine, etc. contained in the constant and at the same time sterilize microorganisms or inhibit the growth. The KF filter filters at a flow rate of about 8.5 liters per minute, so it can filter out a constant of 60 to 120 tons per month. This amount is for 4 months and over 12 months.

In addition, since the magnetized water or hexagonal water magnetized by the magnet part 130 is already activated, it is the largest precipitate that forms the scale (SCALE) in the pipeline through which the constant is transferred, and easily removes the iron component as well as the main component lime. Extends the function and life of the filter.

The second housing 160 has a cylindrical shape and is fastened by being screwed to the third threaded portion 126 formed on the first housing 120 through a threaded portion formed at an open portion, thereby forming a closed space. The constant purified by 150 is sent out to the outlet 110.

6 is an assembly state diagram of a magnetized water purifier using a magnet and a filter according to the first and second embodiments of the present invention.

Hereinafter, the assembled state of the first embodiment will be described in detail with reference to FIG. 6. The magnet is formed on the first threaded portion 122 provided in the lower side of the first housing 120 having the inlet 100 and the outlet 110. The fastening unit 130 is fixed by screwing, and between the fixed magnet unit 130 and the inner wall of the first housing 120 is inserted and fixed to the buffer 140 made of an elastic material, and the filter unit 150 is removed. 2 is screwed to the screw 124, and the second housing 160 is assembled in the order of screwing to the third screw (126).

When the assembly state of the second embodiment is described in detail, the magnet portion 230 is inserted into the open lower side of the first housing 220 having the inlet 100 and the outlet 110 to be screwed into the open upper side. Insert the filter unit and the second housing in order, and assemble them in the order of screwing.

Fig. 7 is an explanatory view of a cut length difference of a pipeline for inserting a magnetizing water purifier of the prior art and the present invention into a pipeline by one example of the present invention.

Hereinafter, with reference to FIG. 7, the magnetization water purifier according to the prior art, as shown in the upper portion, has a configuration lying in the horizontal direction. For example, between the inlet port and the outlet port, the length of L1 is formed and a constant flows. After the pipe line 200 is cut to the length of l1 or more, it is inserted in the transverse length direction and connected and fixed with a hose pipe (HOSE-PIPE) and the like.

However, the magnetization water purifier 90 according to the present invention shown in the lower portion is a configuration of the shape standing in the vertical direction, for example, between the inlet and the outlet forms a length of l2 shorter than the length of l1, the constant flow pipe 200 ) Is cut to the length of l2 and inserted and fixed in the longitudinal direction. That is, the magnetization water purifier 90 according to the present invention is sufficient to cut the pipe line 200 by the length of l 2 to secure the working space, so that the pipe line 200 is kept in the present state as much as possible to minimize the damage and the working time. There are advantages such as reducing.

8 is a flowchart illustrating a magnetization constant method using a magnet and a filter according to an example of the present invention.

Hereinafter, referring to FIG. 8, the constant is obtained in a loop state by the inlet 100 provided with the loop 102 of the magnetizing water purifier 90, and the constant obtained in the loop state is a magnet. The outer diameter of the unit 130 is advanced while rotating three to four times (S110).

The magnet part adsorbs and removes iron components contained in the constant, thereby subdividing the water molecules and converting them into hexagonal ring magnetized water (S120).

Since the obtained constant is frozen by the sub-zero temperature, when the volume is expanded, the expanded volume is absorbed by the buffer 140 (S130 and S140).

The magnetized constant is supplied to the KDF filter unit 150 and absorbs heavy metals and chemicals from the constant broken down by magnetization by oxidizing and reducing the copper and zinc alloy grains, and at the same time, sterilization and growth of microorganisms. Suppress it. KDF FLUID PRODUCTS, INC., A manufacturer of KDF. According to the data provided by the principle of removing chlorine from the constant is the principle of the electrochemical redox, chemical formula such as ' Cu / Zn ^O + HOCL- > Zn ⁺⁺ + Cl- + OH- ' The principle of redox to remove heavy metals such as mercury, nickel and chromium in a cationic manner is known as ' Cu / Zn ^O + Pb ⁺⁺ ( NO3 ) ₂ --> Zn / Cu / Pb ^O + Zn ⁺⁺ + 2 NO ₃ - 'is applied, and also, because the instant electrochemical reaction, that is, contact with the water and the hydroxyl group and the hydrogen oxide (HYDROXYL RADICALS AND HYDROGEN PEROXIDE) to inhibit the proliferation of bacteria and microorganisms (S150), The purified water is extracted through the outlet 110 through the water outlet 110 (S160).

The magnetized and purified water is the hexagonal magnetized water from which iron, heavy metals and chemicals are removed, and microorganisms are sterilized. When drinking water, the hexagonal pure water is well absorbed by the human body to improve health. When used as a shower, chloroform (CHLOROFORM) by chlorine does not occur and other compounds are removed to protect health.

Since the magnetization water purifier according to the configuration of the present invention has a very high magnetization speed and water purification capacity, it can be applied to a device for supplying drinking water in an area where a disaster occurs by adding a manual pump or the like.

Although the present invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that various changes and modifications can be made within the technical scope of the present invention, and such modifications and modifications belong to the appended claims.

1 is a configuration diagram of a magnetization purification apparatus for a pipeline according to an example of the prior art;

2 is a configuration diagram of a magnetization purifier with a built-in multi-stage magnet rod according to an example of the prior art;

3 is a cross-sectional structure diagram of a magnetized water purifier using a magnet and a filter according to a first embodiment of the present invention;

4 is a cross-sectional structure diagram of a magnetized water purifier using a magnet and a filter according to a second embodiment of the present invention;

5 is a structural diagram of a magnet part according to an example of the present invention;

6 is an example of the assembled state of a magnetizing water purifier using a magnet and a filter according to an example of the present invention;

7 is an explanatory view of a difference in the cut length of a pipeline for inserting the magnetizing water purifier of the prior art and the present invention into the pipeline according to an example of the present invention;

And

8 is a flowchart illustrating a magnetization constant method using a magnet and a filter according to an example of the present invention.

          ** Explanation of symbols on the main parts of the drawing **

90: magnetization water purifier 100: water inlet

102: loop part 110: outlet

120, 220: first housing 122, 222: first threaded portion

124, 224: 2nd thread part 126, 226: 3rd thread part

130, 230: magnet 132: female thread

136, 152, 236: tube 140: buffer part

150: filter part 154: alloy grains

156, 232: threaded portion 160: second housing

Claims (7)

A cylindrical first housing having an inlet for receiving the constant in a loop state and an outlet for extracting water and having one side open; A magnet inserted into an open portion of the first housing and screwed to a first screw formed at a center of the inner bottom, provided with a plurality of permanent magnets, converting the constant into magnetized water and adsorbing and removing the iron component contained in the constant; part; A buffer part fixed to a lower portion of an inner bottom of the first housing and made of a tubular elastic material including air therein, and absorbing a volume in which the constant is frozen and expanded; A filter part inserted into an open part of the first housing and screwed to a second screw part to remove the chemicals and heavy metals containing chlorine while sterilizing microorganisms while passing through the magnetized water converted by the magnet part; And A second housing inserted into an open portion of the first housing and screwed to a third screw portion to form a closed space, and having a cylindrical shape so that the constant purified by the filter portion is discharged to the outlet; Including, The magnet unit, Permanent magnet made of triangular prism neodymium; A cylindrical tube inserting and inserting a cylindrical shape in which the permanent magnets are bonded by two or more even numbers; And A lid for sealing the inlet of the tube body in which the cylindrical permanent magnet is inserted; Magnetized water purifier using a magnet and a filter, characterized in that comprises a. delete delete delete The method of claim 1, wherein the first housing, Magnetizing water purifier using a magnet and a filter, characterized in that the composition consisting of any one selected from the configuration configured to be fixed separately and separately configured to separate the loop to obtain the constant in the loop. A cylindrical first housing having an inlet for receiving the constant in a loop state and an outlet for extracting water and having one side open; A magnet inserted into an open portion of the first housing and screwed to a first screw formed at a center of the inner bottom, provided with a plurality of permanent magnets, converting the constant into magnetized water and adsorbing and removing the iron component contained in the constant; part; A buffer part fixed to a lower portion of an inner bottom of the first housing and made of a tubular elastic material including air therein, and absorbing a volume in which the constant is frozen and expanded; A filter part inserted into an open part of the first housing and screwed to a second screw part to remove the chemicals and heavy metals containing chlorine while sterilizing microorganisms while passing through the magnetized water converted by the magnet part; And A second housing inserted into an open portion of the first housing and screwed to a third screw portion to form a closed space, and having a cylindrical shape so that the constant purified by the filter portion is discharged to the outlet; Including, The magnet unit, Permanent magnet made of triangular prism neodymium; A cylindrical tube inserting and inserting a cylindrical shape in which the permanent magnets are bonded by two or more even numbers; And A lid for sealing the inlet of the tube body in which the cylindrical permanent magnet is inserted; In the magnetization constant method using a magnet and a filter comprising: A first process of acquiring a constant in a loop state by the first housing, converting the outer diameter of the magnet part several times, converting the magnetized water, and adsorbing and removing the iron component; A second step of checking whether the obtained constant is frozen by the buffer unit and proceeding to the next step if it is not frozen; And A third step of adsorbing and removing a chemical and a heavy metal containing a constant chlorine converted into magnetized water by the filter unit and sterilizing and purifying microorganisms; Magnetization constant method using a magnet and a filter comprising a. The method of claim 6, The constant is converted into magnetized water by a cylindrical neodymium magnet bonded to an even number of triangular prism shapes, The water purification method using a magnet and a filter, characterized in that the filter is made by Cady F filter.

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