CN210965066U - Low magnetic leakage fluid magnetizer - Google Patents

Abstract

The utility model relates to a low magnetic leakage fluid magnetizer includes a plurality of fan-shaped magnetic paths, and each fan-shaped magnetic path includes first radial limit, the radial limit of second, inboard side and outside limit. The first radial edge is disposed opposite the second radial edge, the inner edge is connected to one end of the first radial edge and one end of the second radial edge, and the outer edge is disposed opposite the inner edge and connected to the other end of the first radial edge and the other end of the second radial edge. The second radial edge is connected with the first radial edge of the adjacent fan-shaped magnetic blocks to form a magnetic block group in annular arrangement. The magnetic block group comprises a magnetic block group inner edge formed by the inner side edge of the fan-shaped magnetic block and a magnetic block group outer edge formed by the outer side edge of the fan-shaped magnetic block, and the magnetic block group inner edge forms a central through hole for the fluid pipeline to be arranged in so as to magnetize the fluid flowing through the fluid pipeline.

Description

Low magnetic leakage fluid magnetizer

Technical Field

The utility model relates to a fluid magnetizer. In particular to a low-magnetic leakage fluid magnetizer.

Background

When water passes through a vertical magnetic field with certain intensity, some associated water molecules connected by hydrogen bonds are broken, so that larger water molecule groups are separated into a plurality of smaller water molecule groups, and the physical properties of the smaller water molecule groups, such as permeability, chemical solubility, surface tension and the like, of the water are enhanced.

In industrial application, a small amount of boiler water is treated by a magnetic field initially to reduce scale, and industrial raw water can be magnetized to achieve the functions of scale prevention, scale removal, sterilization, algae removal and the like.

However, the conventional magnetizer for magnetizing water also has some disadvantages, such as insufficient magnetic field strength or difficulty in installation, which often causes user trouble. Particularly, when the magnetized liquid passing through the magnetizer is used on a human body or skin, how to avoid the magnetizer from generating adverse effect on the quality of the liquid, improve the quality of the magnetized liquid, simultaneously improve the magnetization intensity, reduce the magnetic leakage and be beneficial to the aims of improving the overall health and beautifying of the people.

Disclosure of Invention

This summary is provided to provide a simplified summary of the disclosure in order to provide a basic understanding to the reader. This novel disclosure is not a complete overview of the disclosure and is not intended to identify key/critical elements of the embodiments or to delineate the scope of the novel subject matter.

The main objective of the present invention is to provide a low magnetic leakage fluid magnetizer, which can effectively magnetize the liquid in the cosmetic or the cosmetic bottle, reduce the magnetic leakage, avoid affecting the quality of the cosmetic and the cosmetic, and effectively increase the application range of the magnetizer.

To achieve the above objects, one aspect of the present invention is a low leakage fluid magnetizer including a plurality of magnetic sectors, each of which includes a first radial edge, a second radial edge, an inner edge and an outer edge. The second radial edge is disposed opposite the first radial edge, the inner edge is connected to one end of the first radial edge and the second radial edge, and the outer edge is disposed opposite the inner edge and connected to the other end of the first radial edge and the second radial edge. The second radial edge is connected with the first radial edge of the adjacent fan-shaped magnetic blocks to form a magnetic block group in annular arrangement. The magnetic block group comprises a magnetic block group inner edge formed by the inner side edge of the fan-shaped magnetic block and a magnetic block group outer edge formed by the outer side edge of the fan-shaped magnetic block, and the magnetic block group inner edge forms a central through hole for the fluid pipeline to be arranged in so as to magnetize the fluid flowing through the fluid pipeline.

In some embodiments, the outer side edge is an arc line, and the outer edge of the magnetic block set is a circular outer edge.

In some embodiments, the outer side edge is a straight line, and the outer edge of the magnetic block set is a polygonal outer edge.

In some embodiments, the polygonal outer edge is a hexagonal outer edge or an octagonal outer edge.

In some embodiments, the inner edge is an arc, and the inner edge of the magnetic block set is a circular inner edge.

In some embodiments, the inner side edge is a straight line, and the outer edge of the magnetic block set is a polygonal inner edge.

In some embodiments, the low leakage fluid magnetizer further comprises a protective layer covering the magnetic block set to prevent the fan-shaped magnetic blocks from contacting the fluid.

In some embodiments, the protective layer is formed of a non-magnetic conductive material.

In some embodiments, the protective layer is a protective parylene film that is biocompatible and biostable.

Borrow by above-mentioned technical scheme, the utility model discloses have following advantage and beneficial effect at least.

The low-magnetic leakage fluid magnetizer not only can reduce the magnetic leakage quantity around the magnetizer, but also can improve the magnetic field intensity so as to increase the capacity of magnetizing the fluid, reduce the volume of a needed magnet, reduce the production cost and reduce the limitation of space, and can be arranged in small bottles of cosmetics, maintenance products and the like so as to achieve the effect of magnetizing the cosmetics or the maintenance products.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented in accordance with the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more clearly understood, the following preferred embodiments are described in detail with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic diagram of a low leakage fluid magnetizer according to an embodiment of the present invention.

Fig. 2 is a schematic view of the magnetic field lines of the low-leakage fluid magnetizer according to fig. 1.

Fig. 3 is a schematic diagram of a low leakage fluid magnetizer according to another embodiment of the present invention.

Fig. 4 is a schematic view of the magnetic field lines of the low-leakage fluid magnetizer according to fig. 3.

Description of the symbols

100: low-magnetic leakage fluid magnetizer 110: fan-shaped magnetic block

112: first radial edge 114: second radial edge

116: inner side edge 118: outer side edge

120: fan-shaped magnetic block 122: first radial edge

124: second radial edge 126: inner side edge

128: outer side 130: fan-shaped magnetic block

140: sector magnetic block 150: fan-shaped magnetic block

160: the sector magnetic block 170: center hole

180: outer edge 190 of magnetic block set: inner edge of magnet block

210: magnetic force line 220: central measuring zone

230: ambient magnetic leakage measurement area 240: fluid pipeline

300: low-magnetic leakage fluid magnetizer 310: fan-shaped magnetic block

312: first radial edge 314: second radial edge

316: inner side edge 318: outer side edge

320: sector magnetic block 322: first radial edge

324: second radial edge 326: inner side edge

328: outer side edge 330: fan-shaped magnetic block

340: the sector magnetic block 350: fan-shaped magnetic block

360: the sector magnetic block 370: fan-shaped magnetic block

380: sector magnetic block 390: inner edge of magnet block

395: center perforation 396: outer edge of magnet block set

410: magnetic line of force 420: central measuring zone

430: ambient magnetic leakage measurement area 440: fluid pipeline

510: protective layer 520: bonding layer

Detailed Description

The following detailed description of the embodiments with reference to the drawings is provided for the purpose of limiting the scope of the present disclosure, and the description of the structural operations is not intended to limit the order of execution, any structures described by the combination of elements, or the like, to the extent that they provide equivalent functionality. In addition, the drawings are for illustrative purposes only and are not drawn to scale. For ease of understanding, the same or similar components will be described with the same reference numerals in the following description.

Further, the terms (terms) used throughout the specification and claims have the ordinary meaning as commonly understood in the art, in the disclosure herein and in the claims, unless otherwise indicated. Certain words used to describe the disclosure are discussed below or elsewhere in this specification to provide additional guidance to those skilled in the art in describing the disclosure.

In the description and claims, unless the context requires otherwise, the word "a" or "an" may refer broadly to the word "a" or "an" or "the". The numbers used in the steps are only used for indicating the steps for convenience of description, and are not used for limiting the sequence and the implementation manner.

Furthermore, the terms "comprising," "including," "having," "containing," and the like, as used herein, are intended to be open-ended terms that mean including, but not limited to.

Referring to fig. 1 and 2, fig. 1 is a schematic diagram of a low-leakage fluid magnetizer according to an embodiment of the present invention, and fig. 2 is a schematic diagram of a magnetic field of the low-leakage fluid magnetizer of fig. 1.

As shown in the figure, the low leakage fluid magnetizer 100 includes a plurality of magnetic sectors, such as magnetic sector 110, magnetic sector 120, magnetic sector 130, magnetic sector 140, magnetic sector 150 and magnetic sector 160. Each fan-shaped magnetic block comprises a first radial edge, a second radial edge, an inner side edge and an outer side edge.

In the drawings, a magnetic sector block 110 is taken as an example and includes a first radial edge 112, a second radial edge 114, an inner edge 116 and an outer edge 118. Taking the sector-shaped magnetic block 120 as an example, it includes a first radial edge 122, a second radial edge 124, an inner edge 126 and an outer edge 128.

The first radial edge 112 and the second radial edge 114 are disposed opposite each other, and the inner edge 116 and the outer edge 118 are disposed opposite each other. An inboard edge 116 is connected to one end of the first and second radial edges 112, 114, and an outboard edge 118 is connected to the other end of the first and second radial edges 112, 114.

In addition, the second radial edge 114 of the magnetic sector shaped magnet 110 is connected to the first radial edge 122 of the adjacent magnetic sector shaped magnet 120, and then the second radial edge 124 of the magnetic sector shaped magnet 120 is connected to the first radial edge of the adjacent magnetic sector shaped magnet 130, so that the magnetic sector shaped magnet forms a ring-shaped arranged magnet group. The magnetic block set comprises a magnetic block set inner edge 190 formed by the inner sides of the fan-shaped magnetic blocks 110 to 160 and a magnetic block set outer edge 180 formed by the outer sides of the fan-shaped magnetic blocks 110 to 160. In addition, the inner edge 190 of the magnetic block set forms a central through hole 170 for the fluid pipeline 240 to be disposed therein for magnetizing the fluid flowing through the fluid pipeline 240, so as to magnetize the fluid by the magnetic field, thereby improving the fluid property. The fluid may be, but is not limited to, water, but may also be other fluids (or magnetizable fluids) with molecular polarity, such as: the magnetizer for low magnetic leakage fluid used in gasoline, diesel oil, etc. has greatly enhanced physical properties of permeability, chemical solubility, surface tension, etc. and thus raised engine running efficiency and fuel saving effect. The transportation efficiency can be improved due to the reduced viscosity of the magnetized oil product in oil pipe transportation and the like. In addition, the magnetized water can also be used in agriculture and fishery breeding industry, and the breeding quality and the breeding value are improved by improving the water quality used for breeding.

In some embodiments, the low-leakage fluid magnetizer 100 may magnetize the liquid for the cosmetics or the care products to enhance the effect of the cosmetics or the care products, and in order to be installed in the small bottle of the cosmetics or the care products, the outer diameter of the low-leakage fluid magnetizer 100 is preferably less than 12 mm, for example, 10 mm or less. The diameter of the central bore 170 may be, for example, 3 mm, which may be adapted to the outer diameter of the central suction tube of a cosmetic or care product vial, but the low-leakage fluid magnetizer 100 of the present invention is not limited thereto.

However, since the small bottles of cosmetics or health products are often stored by the user, it is possible to prevent the small bottles of cosmetics or health products from attracting each other to cause inconvenience in use, by reducing the magnetic leakage of the fluid magnetizer while increasing the magnetic field strength of the fluid magnetizer.

In some embodiments, each of the fan-shaped magnetic blocks of the low leakage fluid magnetizer 100 has straight outer sides, such that the outer edge 180 of the magnetic block set is formed as a polygonal outer edge, such as a hexagonal outer edge in the figures.

Referring to fig. 2, in order to increase the strength of the magnetic field lines 210 in the central measurement region 220 of the central bore 170 of the low-leakage fluid magnetizer 100, the magnetic leakage in the surrounding magnetic leakage measurement region 230 is also increased. In the low leakage fluid magnetizer 100 of the present invention, the outer sides of the fan-shaped magnetic blocks 110 to 160 are designed by using a straight chord line, so, for example, the N45 magnet, which is a neodymium-iron-boron magnet having a maximum energy product of 45MGOe (mega Gauss-oersted, MGOe) is able to generate a magnetic field strength above about 8500 Gauss (Gauss) in the central measuring region 220, for example, about 8572 Gauss, and measure only about 1900 Gauss (Gauss) in the peripheral magnetic leakage measuring region 230, which effectively reduces the magnetic leakage more than 24% compared with the conventional two-piece N45 magnet, which has the same size and generates about 2500 Gauss.

In some embodiments, the low leakage fluid magnetizer 100 further includes a protection layer 510 covering the magnetic block set to prevent the magnetic sector blocks 110 to 160 from contacting the fluid. The protection layer 510 is preferably made of a non-magnetic conductive material to prevent the magnetic field lines 210 in the central measuring region 220 from being weakened due to the magnetic permeability of the material.

In some embodiments, the protection layer 510 may be formed of a Parylene (Parylene) protective film with biocompatibility and biostability, so as to be safely contained in the bottle of the cosmetic or the care product, without affecting the quality of the cosmetic or the care product, and further avoiding the strength of the magnetic lines 210 of the central measuring region 220 from being reduced.

In some embodiments, the low leakage fluid magnetizer 100 further includes a binding layer 520 for fixing the plurality of magnetic sectors 110 to 160 to each other to increase the strength of the magnetic field lines 210 of the central measuring region 220, thereby increasing the efficacy of cosmetics or care products.

Referring to fig. 3 and 4, fig. 3 is a schematic diagram of a low-leakage fluid magnetizer according to another embodiment of the present invention, and fig. 4 is a schematic diagram of a magnetic field of the low-leakage fluid magnetizer of fig. 3.

As shown, the low leakage fluid magnetizer 300 includes a plurality of magnetic sectors, such as magnetic sector 310, magnetic sector 320, magnetic sector 330, magnetic sector 340, magnetic sector 350, magnetic sector 360, magnetic sector 370, and magnetic sector 380. Each fan-shaped magnetic block comprises a first radial edge, a second radial edge, an inner side edge and an outer side edge.

In the drawings, a magnetic sector 310 is taken as an example and includes a first radial edge 312, a second radial edge 314, an inner edge 316 and an outer edge 318. Taking the sector-shaped magnetic block 320 as an example, it includes a first radial edge 322, a second radial edge 324, an inner edge 326 and an outer edge 328.

The difference from the embodiment of fig. 1 and 2 is that the low-leakage fluid magnetizer 300 has a total of 8 magnetic sector blocks 310 to 380. The first radial edge 312 and the second radial edge 314 are disposed opposite to each other, and the inner edge 316 and the outer edge 318 are also disposed opposite to each other. An inner side 316 is connected to one end of the first radial side 312 and the second radial side 314, and an outer side 318 is connected to the other end of the first radial side 312 and the second radial side 314.

In addition, the second radial edge 314 of the magnetic sector shaped block 310 is connected to the first radial edge 322 of the adjacent magnetic sector shaped block 320, and then the second radial edge 324 of the magnetic sector shaped block 320 is connected to the first radial edge of the adjacent magnetic sector shaped block 330, so that the magnetic sector shaped blocks form a ring-shaped arranged magnetic block group. The magnetic block set includes a magnetic block set inner edge 390 formed by the inner sides of the fan-shaped magnetic blocks 310 to 380, and a magnetic block set outer edge 396 formed by the outer sides of the fan-shaped magnetic blocks 310 to 380. In addition, the inner edge 390 of the magnetic block set forms a central through hole 395 for the fluid pipeline 440 to be disposed therein for magnetizing the fluid flowing through the fluid pipeline 440, so as to magnetize the fluid by the magnetic field to improve the fluid property.

Further, likewise, the outer diameter of the low-leakage fluid magnetizer 300 is preferably smaller than 12 mm, for example, 10 mm or less. The diameter of the central bore 395 may be, for example, 3 mm, which may be adapted to the outer diameter of the central suction tube of a cosmetic or care product vial, but the low-leakage fluid magnetizer 300 of the present invention is not limited thereto.

In some embodiments, each of the fan-shaped magnetic blocks of the low leakage fluid magnetizer 300 has linear outer sides such that the outer edge 396 of the magnetic block set is formed as a polygonal outer edge, such as an octagonal outer edge in the figure.

Referring to fig. 4, in order to increase the strength of the magnetic field lines 410 in the central measurement zone 420 of the central bore 395 of the low-leakage fluid magnetizer 300, the magnetic leakage in the surrounding magnetic leakage measurement zone 430 is also increased. In the low leakage fluid magnetizer 300, the outer sides of the fan-shaped magnetic blocks 310 to 380 are designed by using the straight chord lines, so, for example, the N45 magnet can generate a magnetic field strength greater than about 10000 Gauss (Gauss) in the central measuring region 420, for example, a magnetic field strength of about 10811 Gauss, and a leakage amount of only about 500 Gauss (Gauss) is measured in the peripheral magnetic leakage measuring region 430, which is about 2500 Gauss in comparison with the conventional two-piece N45 magnet, which forms the fluid magnetizer with the same size, thereby effectively reducing the magnetic leakage amount greater than 80%. However, the present invention is not limited thereto, and the outer sides of the fan-shaped magnetic blocks 310 to 380 of the low-leakage fluid magnetizer 300 may also be formed by arcs, so that the outer edge 396 of the magnetic block set forms a circular outer edge, without departing from the spirit and scope of the present invention.

In some embodiments, the low leakage fluid magnetizer 300 may also include a protection layer 510 covering the magnetic blocks to prevent the magnetic sector blocks 310-380 from contacting the fluid. The protection layer 510 is preferably made of a non-magnetic conductive material to prevent the magnetic field lines 410 of the central measuring region 420 from being weakened by the magnetic conductive material. The non-magnetic material may be made of plastic, resin, or the like, but the present invention is not limited thereto.

In some embodiments, the protective layer 510 may be formed of a parylene film with biocompatibility and biostability, so as to be safely contained in a bottle of cosmetics or care products, without affecting the quality of the cosmetics or care products, and further avoiding the strength of the magnetic lines 410 of force in the central measuring region 420 from being reduced.

In some embodiments, the low leakage fluid magnetizer 300 further comprises a binding layer 520 for fixing the plurality of magnetic sectors 310-380 to each other to increase the strength of the magnetic field lines 410 of the central measuring region 420, thereby increasing the efficacy of cosmetics or care products.

In summary, the low magnetic leakage fluid magnetizer can not only reduce the magnetic leakage around the magnetizer, but also improve the magnetic field strength to increase the capacity of magnetizing the fluid, reduce the volume of the needed magnet, reduce the production cost, reduce the limitation of space, and can be installed in small bottles of cosmetics or maintenance products and the like to achieve the effect of magnetizing the cosmetics or the maintenance products.

While the foregoing is directed to embodiments of the present disclosure, other and further embodiments of the disclosure may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.

Claims (10)

1. A low leakage fluid magnetizer, comprising:

a plurality of sector-shaped magnetic blocks, wherein each sector-shaped magnetic block comprises,

a first radial edge;

a second radial edge disposed opposite the first radial edge;

an inner side edge connected to one end of the first radial edge and the second radial edge; and

and the outer side edge is arranged opposite to the inner side edge and is connected with the other end of the first radial edge and the other end of the second radial edge, the second radial edge is connected with the first radial edge of the adjacent fan-shaped magnetic block to form a magnetic block group in annular arrangement, the magnetic block group comprises a magnetic block group inner edge formed by the inner side edge of the fan-shaped magnetic block and a magnetic block group outer edge formed by the outer side edge of the fan-shaped magnetic block, and the magnetic block group inner edge forms a central through hole for a fluid pipeline to be arranged in so as to magnetize fluid flowing through the fluid pipeline.

2. The low leakage fluid magnetizer of claim 1, wherein the outer side is an arc and the outer edge of the magnetic block set is a circular outer edge.

3. The low leakage fluid magnetizer of claim 1, wherein the outer side is a straight line and the outer edge of the magnetic block set is a polygonal outer edge.

4. The low leakage fluid magnetizer of claim 3, wherein the polygonal outer periphery comprises a hexagonal outer periphery.

5. The low leakage fluid magnetizer of claim 3, wherein the polygonal outer edge comprises an octagonal outer edge.

6. The low leakage fluid magnetizer of claim 1, wherein the inner side edge is an arc and the inner edge of the magnetic block set is a circular inner edge.

7. The low leakage fluid magnetizer of claim 1, wherein the inner side edge is a straight line, and the outer edge of the magnetic block set is a polygonal inner edge.

8. The low leakage fluid magnetizer of claim 1, further comprising a protective layer covering the magnet block set to prevent the fan-shaped magnet block from contacting the fluid.

9. The low leakage fluid magnetizer of claim 8, wherein the protective layer is formed of a non-magnetic material.

10. The low leakage fluid magnetizer of claim 8, wherein the protection layer is parylene film with biocompatibility and biostability.

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