Bubble generator

Abstract

This invention provides a bubble generator that can form and discharge microbubbles by arranging multiple magnetization modules to increase the residence time of moving water, thereby improving magnetization conversion efficiency, rotating the moving water, and causing it to collide multiple times. [Solution] A bubble generating device comprising: a housing 10 in which water moves and a magnetized space is formed inside; multiple magnetization modules 20 arranged at intervals from each other in the magnetized space, each having a permanent magnet 30 inside that magnetizes the water moving along the magnetized space; a screw module 40 provided on the outer surface of the magnetization modules that guides the movement path of the water moving along the magnetized space and moves the water while rotating it; and a disc-shaped plate 50 placed in the magnetized space, with its outer edge in contact with the inner surface of the housing that constitutes the magnetized space, and having a moving hole in the center through which water moves, which guides the magnetized water to move through the moving hole as it passes through the magnetization modules.

Description

【Technical Field】 【0001】 The present invention relates to a bubble generator, and more particularly to a bubble generator provided with a magnetization module in which a large number of permanent magnets are arranged, which converts the drawn water in a magnetization space and discharges it to the outside. The bubble generator arranges a plurality of magnetization modules to increase the residence time of the moving water, improve the magnetization conversion efficiency, rotate the moving water, and collide it multiple times to form microbubbles and discharge them. 【Background Art】 【0002】 Water is formed by the combination of two hydrogen atoms and one oxygen atom. As the temperature rises, it forms a chain or pentagonal ring consisting of five atoms, and as the temperature decreases, the hexagonal ring increases. The water that constitutes the hexagonal ring molecular structure, that is, hexagonal water, has a large heat capacity and is compatible with other biomolecules, so it is known to be beneficial for improving the life functions of organisms. 【0003】 As a method for obtaining such hexagonal water, there is a method of cooling water to obtain it by lowering the temperature. However, since the method has a large energy loss and a low effect, it is not used. In most cases, a magnetization water ion generator using a permanent magnet is used. 【0004】 At this time, the magnetization water ion generator is based on the principle that when water passes through the magnetic field of a magnet, the molecular structure of water is ion-activated and becomes magnetization water having a hexagonal structure rich in minerals and weakly alkaline. The magnetization water can activate cells in the body, promote the growth of animals and plants, has excellent bactericidal ability against bacteria and can effectively treat skin diseases. It is also known to prevent foreign substances from clogging or bacteria from inhabiting the pipes through which water flows. 【0005】 Furthermore, because magnetized water can be obtained in large quantities in a short time and can be manufactured on a small scale, it is widely used in a wide range of fields, including not only for drinking water in ordinary households, but also in food factories, public baths, livestock farming, and plant cultivation. 【0006】 However, conventional magnetized water generators are based on a method in which magnets are simply placed inside a housing, and water is magnetized by the magnets as it instantaneously passes through the housing. As a result, the amount of contact with the magnets and the amount of water exposed are small, which leads to a significant decrease in magnetization efficiency. 【0007】 On the other hand, microbubbles are bubbles with an extremely small diameter, typically less than 50 μm, which is about 1 / 100th the thickness of a human hair, making them extremely tiny bubbles. 【0008】 These microbubbles are used in a wide range of fields, including medicine, environmental science, and industry. In the medical field, for example, they are used in ultrasound diagnostics and drug delivery systems. In the environmental field, for example, they are used in water treatment for water purification and to supply oxygen to solve oxygen deficiencies in aquaculture and lakes by dissolving more oxygen in the water. In the industrial field, for example, they are used for high-precision and efficient cleaning and to accelerate chemical reactions. [Prior art documents] [Patent Documents] 【0009】 [Patent Document 1] Republic of Korea Patent Publication No. 10-2014-0137875 [Patent Document 2] Korean Patent Registration No. 10-1377284 [Patent Document 3] Korean Patent Registration No. 10-1442756 [Patent Document 4] Korean Patent Registration No. 10-1515330 [Overview of the Initiative] [Problems that the invention aims to solve] 【0010】 The present invention aims to solve the above-mentioned problems and to provide magnetized water containing microbubbles, wherein a magnetization module equipped with a permanent magnet is arranged in a magnetized space through which water moves, and one or more such magnetization modules are arranged, and the magnetization efficiency is improved by the water being exposed to a magnetic field for a long time as it moves along the outer edge of the magnetization module. 【0011】 Furthermore, the present invention aims to provide a bubble generating device that can increase the residence time by guiding the movement path of magnetized water to enhance magnetization efficiency, and generate and discharge microbubbles by causing the moving water to collide multiple times, thereby providing magnetized water containing microbubbles and enhancing the expected effects of magnetized water. [Means for solving the problem] 【0012】 To achieve the above objective, the present invention is characterized by comprising: a housing through which water moves and a magnetized space is formed inside; a plurality of magnetization modules arranged at intervals from each other in the magnetized space, each having a permanent magnet inside that magnetizes the water moving along the magnetized space; a screw module provided on the outer surface of the magnetization module that guides the movement path of the water moving along the magnetized space, but rotates the moving water as it moves; and a disc-shaped plate positioned in the magnetized space, with its outer edge in contact with the inner surface of the housing constituting the magnetized space, and having a moving hole in the center through which water moves, guiding the magnetized water to move through the moving hole as it passes through the magnetization module. 【0013】 Furthermore, the magnetization module is characterized by comprising a body having a space for the permanent magnets to be arranged, a lid coupled to one end of the body to seal the space, and protruding parts projecting in opposite directions from one surface of the body and the lid. 【0014】 Furthermore, the screw module comprises a pair of lateral guides formed on a pair of symmetrical surfaces of the magnetization module, and a longitudinal guide formed vertically on the outer surface of the magnetization module, wherein the lateral guides and the longitudinal guides each exhibit an arc shape having a predetermined bending ratio. 【0015】 Furthermore, the disc-shaped plate is arranged between the plurality of magnetization modules, and the disc-shaped plate is characterized by having a vertical plate for forming vortices that protrudes from its edge toward the magnetization module, and a bent plate formed by bending from the end of the vertical plate for forming vortices toward the moving hole to restrict the water's movement path. 【0016】 In this configuration, the vertical plates for vortex formation are characterized by being arranged radially in a manner with a large number of plates spaced apart from each other at the edge of the disc-shaped plate. [Effects of the Invention] 【0017】 The present invention, having the configuration described above, magnetizes moving water using multiple magnetization modules, guides the path of the moving water, increases the residence time to enhance magnetization efficiency without slowing down the moving speed, and provides magnetized water with microbubbles formed by numerous collisions of the moving water. This has the advantage of being highly applicable in a wide range of fields. 【0018】 In particular, the present invention has the effect of maximizing magnetization efficiency by increasing the residence time without reducing the movement speed by moving the water while rotating it around the magnetization module. 【0019】 In addition, in the process of the water converted into magnetized water moving toward the outlet of the housing, multiple collisions occur, so that magnetized water with microbubbles formed can be discharged, and there is an effect that it can be utilized not only in ordinary households but also in a wide range of industrial fields. 【Brief Description of the Drawings】 【0020】 [Figure 1] Exemplary diagram showing the bubble generator according to the present invention. [Figure 2] Exemplary diagram showing the bubble generator according to the present invention disassembled. [Figure 3] Exemplary diagram showing the magnetization module and the screw module constituting the present invention. [Figure 4] Exemplary diagram showing the magnetization module and the disc-shaped plate constituting the present invention. [Figure 5] Exemplary diagram showing the lateral guide of the screw module constituting the present invention. [Figure 6] Exemplary diagram showing another embodiment of the disc-shaped plate constituting the present invention. 【Modes for Carrying Out the Invention】 【0021】 Hereinafter, based on the accompanying drawings, preferred embodiments of the bubble generator according to the present invention will be described in detail. 【0022】 First, the bubble generator 1 according to the present invention comprises a housing 10 in which water moves and a magnetized space 13 is formed inside; a plurality of magnetization modules 20 arranged in the magnetized space 13 at intervals from each other, each having a permanent magnet 30 inside which magnetizes the water moving along the magnetized space 13; a screw module 40 provided on the outer surface of the magnetization module 20 which guides the movement path of the water moving along the magnetized space 13, but rotates the moving water as it moves; and a disc-shaped plate 50 which is arranged in the magnetized space 13, but whose outer edge abuts against the inner surface of the housing 10 which constitutes the magnetized space 13, and which has a moving hole 51 drilled in the center through which water moves, guiding the magnetized water to move through the moving hole 51 as it passes through the magnetization module 20. 【0023】 The housing 10 is made up of a hollow tube with an empty interior, and has an inlet 11 at one end in the longitudinal direction into which water is drawn in, and an outlet 12 at the opposite end from the inlet 11 into which the water converted into magnetized water is discharged, and a magnetization space 13 is provided between the inlet 11 and the outlet 12, which is a space in which the water drawn in through the inlet 11 is converted into magnetized water. 【0024】 The inlet 11 and the outlet 12 are connected to a supply pipe (not shown) through which water travels. For this purpose, an engaging spiral is formed on the inner or outer surface, and a fixing nut (not shown) is provided to connect to the supply pipe. A packing 17 is further provided to prevent water leakage at the connection point. 【0025】 Furthermore, the outlet 12 may be further provided with a socket 14 to which a receiving pipe (not shown) for receiving the water converted into magnetized water is connected, but the socket 14 is arranged so that receiving pipes having different diameters can be connected to it. 【0026】 On the other hand, on the outlet 12 side of the housing 10, a number of socket coupling holes 15 are formed radially with respect to the center of the outlet 12 in order to increase the coupling force of the socket 14 to be coupled, and coupling pins 16 are formed on the socket 14 to be inserted into the socket coupling holes 15. 【0027】 In this configuration, the coupling pin 16 has a rectangular plate shape with a predetermined height, but one side is formed vertically, and the other side, which is symmetrical to the first side, is also formed vertically in part, and is formed in a sloping shape such that the cross-section gradually narrows from its end toward the direction in which it is inserted into the socket coupling hole 15, making it easy to insert into the socket coupling hole 15 and allowing the coupled state to be firmly maintained once inserted. 【0028】 The magnetization module 20 is positioned in the magnetization space 13 of the housing 10 to magnetize water drawn in through the inlet 11. For this purpose, the magnetization module 20 comprises a body 21 in which a space 211 is formed where the permanent magnet 30 is positioned; a lid 22 coupled to one end of the body 21 to seal the space 211; and protruding projections 23 projecting in opposite directions from one surface of the body 21 and the lid 22. 【0029】 Here, as shown in the figure, the body 21 has a cylindrical shape in which the arrangement space 211 is formed. The permanent magnets 30 placed in the arrangement space 211 are arranged so that many of them are in contact with each other, but the contacting surfaces are arranged so that they have different polarities. 【0030】 In this case, the permanent magnets 30 have a predetermined thickness, and their cross-sections are triangular, and a large number of them are arranged to be in contact with each other. 【0031】 The cover 22 closes the placement space 211 of the body 21, and after the permanent magnet 30 is installed or replaced, the placement space 211 is sealed to prevent water from flowing into the placement space 211 in which the permanent magnet 30 is installed. 【0032】 The protruding projections 23 are provided to project outward from one surface of the body 21 and lid 22 that constitute the magnetization module 20, and when multiple magnetization modules 20 are arranged, a predetermined space is formed between each magnetization module 20, thereby creating a space for water to move. 【0033】 In other words, the protruding projection 23 creates a space for water to move between a pair of adjacent magnetization modules 20 so as not to obstruct the movement of water, and minimizes interference between the permanent magnets 30 arranged in each magnetization module 20 due to their magnetic forces. 【0034】 The screw module 40 is provided on the outer surface of the magnetization module 20 and guides the water's movement path along the magnetization space 13. By rotating the moving water, it increases the water's movement speed and extends the movement path into a long length, thereby increasing the residence time and improving the magnetization efficiency. 【0035】 In more detail, the screw module 40 comprises a pair of lateral guides 41 formed on a pair of surfaces of the magnetization module 20 that are symmetrical to each other, and a longitudinal guide 42 formed vertically on the outer surface of the magnetization module 20, wherein the lateral guides 41 and the longitudinal guides 42 each have an arc shape with a predetermined bending ratio. 【0036】 The lateral guides 41 are formed on the outer surfaces of the body 21 and lid 22 that constitute the magnetization module 20, and a number of them are arranged radially with respect to the center of the body 21 and lid 22, each having a predetermined bending ratio. 【0037】 Such a lateral guide 41 is provided to protrude to a predetermined height, but the protruding height is such that it contacts the surface of the disc-shaped plate 50, which will be described later, so that the moving water does not move into the space formed by the height difference between the lateral guide 41 and the disc-shaped plate 50, but instead moves along the surface of the lateral guide 41. 【0038】 Furthermore, as mentioned above, the lateral guides 41 are arranged radially in large numbers with intervals between them, but each lateral guide 41 is formed to have the same curvature so that the moving water rotates as it moves in the same direction. 【0039】 In other words, as shown in the figure, the lateral guides 41 are arranged at spaced-apart positions on the upper surface of the body 21, but each has the same curvature, and as described above, the ends of the lateral guides 41 in the height direction are in contact with the surface of the disc-shaped plate 50, so that the water's movement path moves along the curved surface of the lateral guides 41, and the overall water's movement path moves while rotating in the same direction. 【0040】 The vertical guide 42 protrudes outward from the outer circumferential surface of the magnetization module 20, or more precisely, from the outer circumferential surface of the body 21 that constitutes the magnetization module 20, but is formed to have a relatively large bending radius compared to the outer circumferential surface. 【0041】 Furthermore, the vertical guide 42 is formed diagonally along the vertical length of the body 21 to guide the direction of water movement. By moving along the outer surface of the body 21 where the permanent magnet 30 is located, the time the guide is exposed to the permanent magnet 30 is extended, thereby improving the magnetization efficiency. 【0042】 On the other hand, the vertical guides 42 are arranged radially with spacing between them, with the center of the body 21 as the reference point, and the direction of water movement is along the outer surface of the body 21. However, by rotating downwards as they move, the speed of movement increases, but the distance traveled also increases, resulting in a longer residence time. 【0043】 The disc-shaped plate 50 is placed in the magnetization space 13, but its outer edge is positioned to abut against the inner surface of the housing 10 that constitutes the magnetization space 13. A moving hole 51 is drilled in the center through which water moves, guiding the magnetized water to move through the moving hole 51 as it passes through the magnetization module 20. 【0044】 Such a disc-shaped plate 50 is made of a material that is not affected by the magnetic force of the permanent magnets 30 arranged in the magnetization module 20, and can be placed between a pair of magnetization modules 20 so that the magnetic forces provided by each of the pair of magnetization modules 20 do not affect each other. 【0045】 Needless to say, the disc-shaped plate 50 is made from a metallic material that reacts to magnetic force, and by expanding the magnetic field area and increasing the strength of the magnetic force, the magnetization efficiency can be improved. 【0046】 On the other hand, the disc-shaped plate 50 collides with the moving water, forming bubbles in the water. For this purpose, the disc-shaped plate 50 is provided with a vertical plate 52 for vortex formation, which is positioned between the plurality of magnetization modules 20 and protrudes from its edge toward the magnetization modules 20, and a bent plate 53 which is formed by bending from the end of the vertical plate 52 for vortex formation toward the moving hole 51 to restrict the path of water movement. 【0047】 The vertical plates 52 for vortex formation are positioned vertically above or below the edge of the disc-shaped plate 50, and the moving water collides with them to form vortices. A large number of such vertical plates 52 for vortex formation are arranged radially with spacing between them, based on the center of the disc-shaped plate 50. 【0048】 The bent plate 53 is formed by bending the end of the vertical plate 52 for vortex formation toward the moving hole 51 formed in the center of the disc-shaped plate 50. There are no particular restrictions on the angle of bending. Multiple vertical plates 52 for vortex formation are formed by bending each of them at different angles, and water moving at different positions collides with them to form vortices, and bubbles are also formed by the collisions. 【0049】 The disc-shaped plate 50 having the above configuration is placed between a pair of magnetization modules 20, and as it passes through the magnetization modules 20, the water that has been converted into magnetized water by magnetic force comes into contact with it, causing a vortex phenomenon and extending the residence time, while also generating bubbles due to the collision and discharging them. 【0050】 In this case, in order to increase the amount of bubbles discharged and further reduce the size of the bubbles, the magnetized water discharged through the outlet 12 of the housing 10 may be mixed with gas to generate microbubbles before being discharged, provided in the outlet 12 or outside the outlet 12 by a gas supply means (not shown) located outside the outlet 12. 【0051】 As described above, the present invention has been explained with specific details such as concrete components, limited embodiments, and drawings. However, these are provided only to deepen the overall understanding of the present invention, and the present invention is not limited in any way to the above embodiments. A person with ordinary skill in the art to which the present invention belongs can make a wide variety of modifications and variations from this description. 【0052】 Therefore, the concept of the present invention should not be limited to the embodiments described, and it can be said that not only the claims attached, but also all variations equivalent to or comparable to these claims, fall within the scope of the concept of the present invention. [Explanation of symbols] 【0053】 1. Bubble generator 10 Housing 11 Entrance 12 Exit 13 Magnetization space 14 sockets 15 Socket coupling holes 16 coupling pins 17 Packing 20 Magnetization Modules 21 Body 22 Lid 23 Projection 30 permanent magnets 40 Screw Modules 41 Horizontal Guide 42 Vertical Guides 50 circular disc-shaped plates 51 movable hole 52 Vertical plate for vortex formation 53 Folding plate

Claims

[Claim 1] A housing (10) in which water moves and a magnetized space (13) is formed inside, Multiple magnetization modules (20) are arranged at intervals from each other in the magnetization space (13), and each module has a permanent magnet (30) inside which it magnetizes water moving along the magnetization space (13). A screw module (40) is provided on the outer surface of the magnetization module (20) to guide the movement path of water moving along the magnetization space (13), and rotates the moving water as it moves. A disc-shaped plate (50) is placed in the magnetization space (13), but its outer edge is positioned in contact with the inner surface of the housing (10) that constitutes the magnetization space (13), and a moving hole (51) for water to move is drilled in the center of the plate, which guides the magnetized water to move through the moving hole (51) as it passes through the magnetization module (20), Equipped with, The magnetization module (20) is A body (21) having a space (211) in which the permanent magnet (30) is arranged, A lid (22) is attached to one end of the body (21) to seal the arrangement space (211), The body (21) and the lid (22) have protruding projections (23) that extend in opposite directions from one surface of each other, Equipped with, The screw module (40) is In the magnetization module (20), a pair of symmetrical surfaces are formed with lateral guides (41), A vertical guide (42) formed vertically on the outer surface of the magnetization module (20), Equipped with, The lateral guide (41) and the longitudinal guide (42) each have an arc shape with a predetermined bending ratio. The aforementioned disc-shaped plate (50) is Displaced between the plurality of magnetization modules (20), A vertical plate (52) for vortex formation protrudes from the edge toward the magnetization module (20), A bent plate (53) is formed by bending the end of the vertical plate (52) for vortex formation toward the moving hole (51) to restrict the water's movement path, Formed, The vertical plate (52) for forming the vortex flow is Numerous disc-shaped plates (50) are arranged radially at intervals from one another along their edges. The bubble generating device is characterized in that the bent plates (53) are each formed by bending them at different angles to each other, and water moving at different positions collides with them to form vortices, thereby forming bubbles due to the collisions.

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