KR20200109020A - Appratus for produce magnetized water and disinfection - Google Patents

Abstract

The present invention relates to a magnetized water generation and sterilization apparatus which has a miniaturized, simple structure in which a water supply pipe is repeatedly arranged in a space of a spaced magnetic field region while the same magnetisms are arranged at regular intervals to face each other. The present invention has effects of increasing the irradiation time of magnetic force and sterilizing bacteria in the magnetized water by allowing water to pass through the water supply pipe installed with an ultraviolet lamp, by allowing water to repeatedly pass through the magnetic field area generating repulsive force (repelling force) against the same magnetism.

Description

Appratus for produce magnetized water and disinfection}

The present invention relates to a device for generating and sterilizing magnetized water, and more particularly, by repeatedly arranging water supply pipes in a space of a magnetic field region, which are arranged at regular intervals to face the same magnetism, and repulsive force (repulsive force It relates to a device for generating and sterilizing magnetized water, characterized in that water is repeatedly passed through the magnetic field that generates) to increase the irradiation time of magnetic force, and bacteria in the magnetized water are sterilized by passing through a water supply pipe equipped with an ultraviolet lamp. .

In general, water is composed of a large number of water molecules, a group of crystals, and a large number of atomic minerals. When a water flow conduit is used to generate powerful electromagnetic waves in water, the water molecule group, the crystals, is broken into atomic states. The various minerals in the electrolyte act as an electrolyte to activate magnetic ions.

Magnetized water changes the properties of water by the magnetic force generated between the magnetic fields when water passes between magnetic fields. Magnetized water itself does not have magnetic force. It has been handed down as a treatment, and since this water is ionic activation from a molecular state to an atomic state, dissolved oxygen is revived, the pH value is raised, and absorption by the human body is fast, so the metabolism and blood circulation of water are active, and the tissues of plants, animals, and humans Papers have been studied by many scholars on the peculiar physicochemical properties of magnetized water, such as cleansing of accumulated waste products that penetrate deep into the cell and prevent scale from being pinched to cells and blood vessels due to electron reversal on the outer wall of the cell and the inner wall of blood vessels.

Non-Patent Literature 1 for such a magnetized water does not mean that the water molecules are magnetized and thus have the characteristics of a magnetic field, but defines that the arrangement of the water molecules is changed by the magnetic field to show the unique characteristics of water, and all water molecules They can react by a changing magnetic field, which is a phenomenon that distinguishes hydrogen atoms from magnetic resonance induced by a high-frequency strong magnetic field, and the hydrogen atoms instantaneously spin according to the magnetic field direction by a high-frequency strong magnetic field. It is estimated that the original state is restored immediately after the arrangement, but if the spin arrangement of the hydrogen atom continues to be continued, the hydrogen atom will affect the dipole property of the water molecule, H ⁺ , and thus the water molecule arrangement. , This water molecule rearrangement phenomenon is a memory phenomenon even when the magnetized water is left in a normal state, so it is confirmed that the increase in T2 relaxation time is reduced to its original state after approximately 12 hours. Has been announced.

In addition, non-patent document 2 has been reported on the content that the amount of scale generated inside the pipe is reduced when industrial water is used by magnetizing it, and non-patent document 3 has been reported on the reaction in biomaterials. For example, as a result of measuring the activity of glutamate decarboxylase by the potentiometric enzyme electrode method, the activity of glutamate decarboxylase was about 30% in magnetic water than in general water. Research has been reported to increase,

In addition, as a result of a study on crop cultivation using a self-treatment active water device in Non-Patent Document 4, there was no occurrence of powdery mildew in the occurrence of pests. It was reported that the supply of nutrients was smooth, and the purification function and the improvement effect of various water components were large.

Looking at the development contents of the device for generating magnetized water, which is increasing interest in this way, as a structure as shown in FIG. 1 in Patent Document 1, it is composed of a magnetization part 50 and an ultraviolet sterilization part 60, and its magnetization The unit 50 and the ultraviolet sterilization unit 60 are known as magnetization/sterilization filters for water purifiers accommodated in the transparent filter body 41, but the magnetization/sterilization filter for water purifiers has a simple structure, while drinking water is a magnetization unit. As (50) was passed only once, there was a problem that there was insufficient time to irradiate the magnetic force in water.

On the other hand, as a method to improve the above problems, as a structure developed to extend the irradiation time of magnetic force on water, as shown in Fig. 2 in Patent Document 2, the spiral pipe portion of the sterilization device unit 100 A magnetization device unit including at least two magnetizers 210 (220, 230) installed in proximity to the sterilization device unit 100 at a predetermined interval so that the piping unit 300 for supplying the magnetized water passes in sequence ( 200), and a magnetized water sterilization apparatus are known.

However, the magnetizer 210 of Patent Document 2 includes an upper iron plate 211 made of a steel plate material as shown in FIG. 3; A first upper magnet 212 having an N pole at one end and an S pole at the other end; A second upper magnet 213 installed under the first upper magnet 212 so that a polarity opposite to that of the first upper magnet 212 faces; A third upper magnet 214 installed at a lower side of the second upper magnet 213 so that a polarity opposite to that of the second upper magnet 213 faces and a lower surface thereof faces the through hole; A lower iron plate 218 made of a steel plate material installed on the inner surface of the housing under the through hole; A first lower magnet 217 having an N-pole and an S-pole at one end installed to face the lower iron plate 218; A second lower magnet 216 installed above the first lower magnet 217 so that a polarity opposite to that of the first lower magnet 217 faces; It is a very complex configuration including a third lower magnet 215 installed on the upper side of the second lower magnet 216 so that the polarity opposite to that of the second lower magnet 216 faces and the upper surface faces the through hole. .

Accordingly, the present applicant has improved the problems of Patent Documents 1 and 2 as described above, prolonging the irradiation time of magnetic force on water, and developing a device for generating and sterilizing magnetic water with a simple structure capable of sterilizing the generated magnetic water. Was completed.

Domestic Utility Model Publication No. 20-0386871 (announced on June 16, 2005) Magnetization/sterilization filter for water purifier Domestic Patent Publication No. 10-1711398 (announced on March 02, 2017) Real-time magnetized water generation and magnetized water sterilization device

A study on the change of the dissolution rate of salts in magnetized water and the crystallization pattern of NaCl, KCl and gypsum by magnetized water [Jeon Sang-il et al., Journal of the Korean Chemical Society 2001, Vol. 45, No. 2] Magnetic Water Treatment [J. M. D. Coey and S. Journal of Magnetism and Magnetic Materials, Vol. 209, No. 1-3, 2000, pp. 71-74] A study of the effect of magnetized water on enzyme activities by potentiometric enzyme electrode method [Ma Yi-longRen HuiRen ShuZhen Er-kangHao etc. Journal of Tongji Medical University December 1992, Volume 12, Issue 4, pp 193~196] A Study on Crop Cultivation Using Self-Treating Water System [Kim, Hye-sil et al., Korean Society for Agricultural Machinery 2014 Spring Conference Collection 19(1):246-247]

The present invention is a simple structure that has been miniaturized, unlike the complex structure of the existing magnetized water generating devices. The same magnets are arranged at regular intervals to face each other, and the water supply pipes are repeatedly arranged in the space of the separated magnetic field. Provides a magnetized water generation and sterilization device that increases the irradiation time of magnetic force by allowing water to repeatedly pass through the magnetic field area that generates repulsive force (repulsive force) toward the direction, and to sterilize bacteria in the magnetized water by passing through the water supply pipe with an ultraviolet lamp. Make it a task.

The present invention is a magnetized water generation and sterilization apparatus equipped with a means for magnetizing water and a means for sterilizing bacteria in the body 100, each of a plurality of permanent magnets 10 is fired, and the water supply pipe 20 penetrates Magnetized water generating unit 200 consisting of a plurality of magnetic support members 40 each having a plurality of through holes 30 formed therein; And, bacteria of the magnetized water transferred from the magnetized water generating unit 200 are transferred to the ultraviolet lamp 50 A device for generating and sterilizing magnetized water, characterized in that it comprises a bacteria sterilization unit 300 for sterilization, as a means of solving the problem.

On the other hand, in the device for generating and sterilizing magnetized water according to the present invention, the magnet support member 40 includes a first magnet support member 41 and a second magnet support member 42, and the first magnet support member 41 ) And the second magnet support member 42 are composed of a first unit block (41a) (42a) and a second unit block (41b) (42b), respectively, and the first unit block (41a) (42a) and the 2 It is characterized in that a plurality of semicircular through holes 31 to 36 are formed on the surface where the unit blocks 41b and 42b face each other so that the water supply pipe 20 penetrates in the longitudinal direction.

And the first unit block (41a) (42a) and the second unit block (41b) (42b) are each formed with a permanent magnet mounting groove (60) for mounting the permanent magnet (10), the permanent magnet mounting groove (60) ) Of the groove depth (h1) is characterized in that it is deeper than the groove depth (h2) of the through groove (31).

In addition, the permanent magnet 10 mounted on the first unit block 41a, 42a and the permanent magnet 10 mounted on the second unit block 41b, 42b have the same magnetic pole Magnetism is disposed, and the magnet support member 40 is characterized in that a plurality of coupling bolts 80 are passed through a plurality of through coupling holes 70 formed in the body and then fastened with a nut 80b.

The water passing through the water supply pipe 20 flows into the lower portion of the first through hole 30a of the first magnet support member 41, passes through the magnetic field region of the permanent magnet 10, and then goes to the top, and then the second magnet. Water flows into the upper portion of the second through-hole 30b of the support member 42, passes through the magnetic field region of the permanent magnet 10, and then flows out to the lower portion, and water flows out to the lower portion of the second through-hole 30b. Is introduced into the lower portion of the third through hole 30c of the first magnet support member 41, passes through the magnetic field region of the permanent magnet 10, and then goes to the top, and then passes through the fourth through hole 30c of the second magnet support member 42. It is characterized in that the water flows into the upper part of the ball 30d, passes through the magnetic field region of the permanent magnet 10, and then flows out to the lower part, is transferred to the bacteria sterilization unit 300.

In addition, the bacteria sterilization unit 300 is characterized by comprising a tube in which an ultraviolet lamp 50 is mounted in a space between the outer wall of the glass tube 52 mounted inside the case 51 and the inner wall of the ultraviolet lamp case.

The magnetized water generation and sterilization device according to the present invention has a simple structure that has been miniaturized unlike conventional complex devices, and is arranged at regular intervals to face the same magnetism, and by repeatedly placing water supply pipes in the space of the spaced magnetic field, the same magnetism There is an effect of increasing the irradiation time of the magnetic force by repeatedly passing water in the magnetic field region where the repulsive force (repulsive force) is generated in opposition to each other, and sterilizing the bacteria in the magnetic water by passing through the water supply pipe in which the ultraviolet lamp is installed.

1 is a cross-sectional view showing the internal structure of a conventional magnetization/sterilization filter for a water purifier.
Figure 2 is a side view for explaining the purification process of the conventional real-time magnetic water generation and magnetic water sterilization apparatus.
3 is a cross-sectional view showing a side of a magnetization device of the real-time magnetized water generation and magnetized water sterilization device of FIG. 2;
4 is a perspective view showing the internal structure of a device for generating and sterilizing magnetized water according to a preferred embodiment of the present invention.
5 is a front view showing the internal structure of the device for generating and sterilizing magnetized water according to a preferred embodiment of the present invention.
6 is a perspective view showing an external structure in a state in which a water supply pipe has passed through a through hole of a magnetizing member in the device for generating and sterilizing magnetic water according to the present invention.
7 is a cross-sectional view showing an internal cross-sectional structure of a water supply pipe passing through a through hole of a magnetizing member in the device for generating and sterilizing magnetized water according to the present invention.
8 is an exploded perspective view showing a state in which the magnetizing member is separated in the magnetized water generating and sterilizing device according to the present invention.
9 is a perspective view showing a state in which the magnetizing member is fastened in the device for generating and sterilizing magnetized water according to the present invention.
10 is a cross-sectional view showing a side state in which a through hole and a permanent magnet mounting groove are formed in the body of a unit block of the device for generating and sterilizing magnetized water according to the present invention.
11 is a cross-sectional view showing a germ sterilization unit of the magnetic water generation and sterilization device according to the present invention.

Hereinafter, a device for generating and sterilizing magnetized water according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings, and in the accompanying drawings and detailed description, specific technical configurations of elements that are not directly related to the technical features of the present invention and For the operation, the illustration and detailed description of the drawings have been omitted, and only the technical configuration related to the present invention has been briefly illustrated or described.

The device for generating and sterilizing magnetized water according to a preferred embodiment of the present invention has a structure as shown in FIGS. 3 to 11, and is equipped with a means for magnetizing water and means for sterilizing bacteria inside the body 100. And in the sterilization device, a plurality of permanent magnets 10, respectively, and a plurality of through-holes 30 to pass through the water supply pipe 20, each formed of a plurality of magnetic support members 40 formed of a plurality of magnetized water generating unit 200 ); And, a bacteria sterilization unit 300 consisting of an ultraviolet lamp 50 for sterilizing bacteria by passing the magnetic water transferred from the magnetized water generating unit 200 through the glass tube 50.

Hereinafter, the apparatus for generating and sterilizing magnetized water according to a preferred embodiment of the present invention includes a magnetized water generating unit 200 and a bacterium sterilizing unit 300, and each of the technical configurations will be described in detail below.

The magnetized water generating unit 200 according to the magnetized water generating and sterilizing device according to the present invention has a structure in which the water supply pipe 20 passes through the magnet support member 40 in which the permanent magnet 10 is mounted on the body.

The magnet support member 40 is composed of a first magnet support member 41 and a second magnet support member 42, as shown in FIG. 9, and the first magnet support member 41 and the second magnet support member The member 42 is composed of a first unit block (41a) (42a) and a second unit block (41b) (42b), respectively, the first unit block (41a) (42a) and the second unit block (41b) It is characterized in that a plurality of semi-circular through grooves 31 to 36 are formed respectively so that the water supply pipe 20 passes through the water supply pipe 20 in the longitudinal direction on the surface where 42b is opposed to each other.

As described above, the present invention increases the irradiation time of magnetic force by allowing water to repeatedly pass through the magnetic field region to which the strong magnetic force is applied by the structure that generates repulsive force (repulsion force) in opposition to the same magnetics by the above miniaturized and simple structure. , It is characterized in that bacteria in the magnetized water are sterilized by passing through the water supply pipe where an ultraviolet lamp is installed.

The first unit block (41a) (42a) and the second unit block (41b) (42b) have a permanent magnet mounting groove (60) for mounting the permanent magnet (10) as shown in Figs. Each is formed, and the groove depth (h1) of the permanent magnet mounting groove (60) is characterized in that it is deeper than the groove depth (h2) of the through groove (31).

Therefore, in the unit block, the permanent magnet 10 is mounted in the permanent magnet mounting groove 60 formed in the body, and the water supply pipe 20 penetrating through the through hole 31 comes into contact with the outer surface of the permanent magnet 10. It passes through the magnetic field region exerted by the magnetic force irradiated from the magnet 10.

The body of the first unit block (41a) (42a) and the second unit block (41b) (42b) has a groove for mounting the permanent magnet 10 on the body, so the body is a material that does not affect magnetic force. It is preferable to use a wood or synthetic resin material.

In addition, as shown in FIG. 7, the permanent magnet 10 mounted on the first unit block 41a and 42a and the permanent magnet 10 mounted on the second unit block 41b and 42b The magnetism of the pole having the same magnetism on the surface where the unit block and the second unit block face each other are arranged.

In FIG. 7, the surface in contact with the water supply pipe 20 is shown as a permanent magnet 10 having an N-pole magnetism, but this is only an example, and the surface in contact with the water supply pipe 20 is each magnetic pole of the S pole. It may be a permanent magnet (10) that stands out.

Therefore, the water supply pipe 20 penetrating between the permanent magnets 10 in which the magnetism of the same pole of the magnetic poles of the oppositely abutting surfaces is disposed is a magnetic field region to which the repulsive force (repulsive force) generated by the permanent magnets 10 is irradiated. By passing through, the flow of water passing through the water supply pipe 20 by the repulsive force (repulsive force) was made to maximize the effect of the turbulent flow in which it swirls.

In addition, the magnet support member 40 is characterized in that a plurality of coupling bolts 80 are passed through a plurality of through coupling holes 70 formed in the body and then fastened with a nut 80b.

According to the drawings shown in Figs. 6 to 8, the magnetized water generation and sterilization apparatus according to the present invention is directed to the water passing through the water supply pipe 20 to the lower portion of the first through hole 30a of the first magnetic support member 41. It flows in, passes through the magnetic field region of the permanent magnet 10 and then goes to the top, and then flows into the second through hole 30b of the second magnet support member 42 and passes through the magnetic field region of the permanent magnet 10. Water flows out to the bottom.

In addition, water that has flowed out to the lower portion of the second through hole (30b) flows back into the lower portion of the third through hole (30c) of the first magnet support member (41), passes through the magnetic field region of the permanent magnet (10), and then Then, the water flows into the upper portion of the fourth through hole (30d) of the second magnet support member (42), passes through the magnetic field region of the permanent magnet (10), and then the water that flows out to the bottom is transferred to the bacteria sterilization unit (300). Lose.

In the examples of FIGS. 6 to 8, which are drawings attached to the specification of the present invention, the water supply pipe 20 continuously passes from the first through hole 30a to the fourth through hole 30d, so that the water supply pipe 20 passes through the magnetic field region. Although shown as passing through four times, this is only an example, and when passing through the fifth through-hole 30e and the sixth through-hole 30f, the water supply pipe 20 passes through the magnetic field region six times.

Accordingly, the apparatus for generating and sterilizing magnetized water according to the present invention has an effect of increasing the irradiation time of magnetic force by repeatedly passing water in a magnetic field region that generates repulsive force (repulsive force) by opposing the same magnetics even by a very simple device.

On the other hand, the germ sterilization unit 300 of the magnetized water generating and sterilizing device according to the present invention, as shown in FIG. 11, is located in the space between the outer wall of the glass tube 52 mounted inside the case 51 and the inner wall of the ultraviolet lamp case. It consists of a tube equipped with an ultraviolet lamp (50).

In FIG. 11, which is a drawing attached to the specification of the present invention, it is shown that the ultraviolet lamp 50 is installed in parallel along the length direction of the outer wall of the glass tube 52. However, if necessary, the ultraviolet lamp 50 is installed in the glass tube 52 ) Is installed in a spiral shape surrounding the glass tube 52 along the longitudinal direction of the outer wall, or may be installed by another structure.

For reference, in FIG. 5 which is a drawing attached to the specification of the present invention, numeral 91 denotes a pressure gauge, and numeral 92 denotes an ultraviolet lamp condenser.

As described above, the device for generating and sterilizing magnetized water according to a preferred embodiment of the present invention has been described above with reference to the drawings attached to the specification of the present invention, but this is only described as an example and does not depart from the technical idea of the present invention. It will be well understood by those of ordinary skill in the art that various changes and changes are possible within a range not covered.

100: main body 200: magnetization number generation unit
300: bacteria sterilization unit
10: permanent magnet 20: water supply pipe
30: through holes 31 to 36: through holes
30a to 30f: first through hole to sixth through hole
40: magnet support member
41: first magnet support member 42: second magnet support member
41a, 42a: first unit block 41b, 42b: second unit block
50: ultraviolet lamp 51: ultraviolet lamp case
52: glass tube 60: permanent magnet mounting groove
70: coupling hole
80a: coupling bolt 80b: nut
91: pressure gauge 92: ultraviolet lamp condenser

Claims (7)

In the magnetized water generation and sterilization apparatus provided with a means for magnetizing water inside the body 100 and a means for sterilizing bacteria,
Magnetization number generation unit 200 consisting of a plurality of magnet support members 40 each of which a plurality of permanent magnets 10 are fired, and a plurality of through holes 30 are respectively formed to penetrate the water supply pipe 20; And,
A bacteria sterilization unit 300 for sterilizing the bacteria of the magnetized water transferred from the magnetized water generation unit 200 with an ultraviolet lamp 50;
Magnetized water generation and sterilization device comprising a.
The method of claim 1,
The magnet support member 40 is made of a first magnet support member 41 and a second magnet support member 42,
The first magnet support member 41 and the second magnet support member 42 are each composed of a first unit block (41a) (42a) and a second unit block (41b) (42b),
A plurality of semicircular through holes 31 to 36, respectively, so that the water supply pipe 20 penetrates the surface where the first unit block 41a, 42a and the second unit block 41b, 42b face each other in a longitudinal direction. ) Magnetized water generation and sterilization device, characterized in that formed.
The method of claim 2,
The first unit block (41a) (42a) and the second unit block (41b) (42b) are each formed with a permanent magnet mounting groove (60) for mounting the permanent magnet (10),
Magnetized water generation and sterilization device, characterized in that the groove depth (h1) of the permanent magnet mounting groove (60) is deeper than the groove depth (h2) of the through groove (31).
The method of claim 3,
The permanent magnets 10 mounted on the first unit blocks 41a and 42a and the permanent magnets 10 mounted on the second unit blocks 41b and 42b have the same magnetism on the faces facing each other. Magnetized water generation and sterilization device, characterized in that the arrangement.
The method according to any one of claims 1 to 4,
The magnet support member (40) is a magnetized water generation and sterilization device, characterized in that after passing through a plurality of coupling bolts (80) in a plurality of through coupling holes (70) formed in the body and then fastened with a nut (80b).
The method of claim 2,
The water passing through the water supply pipe 20 flows into the lower portion of the first through hole 30a of the first magnet support member 41, passes through the magnetic field region of the permanent magnet 10, and then goes to the top, and then the second magnet. Water flows into the upper portion of the second through-hole 30b of the support member 42, passes through the magnetic field region of the permanent magnet 10, and then flows downward,
The water flowing out of the second through hole 30b flows into the lower portion of the third through hole 30c of the first magnet support member 41, passes through the magnetic field region of the permanent magnet 10, and then goes upward. Then, the water that flows into the upper portion of the fourth through-hole 30d of the second magnet support member 42, passes through the magnetic field region of the permanent magnet 10, and then flows downward, is transferred to the bacteria sterilization unit 300. Magnetic water generation and sterilization device characterized by
The method of claim 1,
The germ sterilization unit 300 is a magnetized water generating and sterilizing device, characterized in that it comprises a tube mounted with an ultraviolet lamp 50 in a space between the outer wall of the glass tube 52 mounted inside the case 51 and the inner wall of the ultraviolet lamp case .

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