CN211864965U - magnetizing device - Google Patents

Abstract

The utility model provides a magnetization device, comprising: an inner magnetic part, comprising a first magnet assembly, a second magnet assembly, a third magnet assembly, and a fourth magnet assembly, wherein the four magnet assemblies are combined to form a hollow area, wherein the first magnet assembly and the second magnet assembly include two first direction magnets, the magnetic directions of the first direction magnets are away from the hollow area, and the third magnet assembly and the fourth magnet assembly include two second direction magnets, the magnetic directions of the second direction magnets are toward the hollow area; and a magnetic barrier part, surrounding the outer part of the inner magnetic part, comprising a plurality of third direction magnets, wherein each of the third direction magnets has a respective assembly surface, the magnetic direction of each of the third direction magnets is toward the assembly surface, and the magnetic pole of each of the third direction magnets is opposite to the magnetic pole of the adjacent third direction magnet.

Description

magnetizing device

technical field

The utility model relates to a magnetizing device, in particular to a magnetizing device for magnetizing fluid.

Background technique

When various liquids pass through the magnetic field, the bonds between the liquid molecules will be broken by the magnetic field, so that the larger molecular group is separated into multiple smaller molecular groups, which in turn affects the physical properties of the liquid. For example, when cosmetics After passing through the magnetic field, it will become cosmetics with smaller molecules, and the effect of skin absorption will be greatly improved; similarly, if the magnetization device is applied to gasoline and diesel, it can also make oil molecules finer to increase the fluidity of oil products , combustion efficiency and inhibition of bacterial reproduction.

The fluid magnetizer in the prior art covers a hollow tube, and the inside of the hollow tube is used for conveying liquid. However, the density of the magnetic lines of force that escape from the fluid magnetizer outside the hollow tube is too high, and the density of the magnetic lines of force passing through the hollow tube is too low, causing leakage. If the magnetic quantity is too large, the efficiency of liquid magnetization is not good. Therefore, a magnetization device with low magnetic leakage rate and high magnetization efficiency is urgently needed.

Utility model content

The utility model provides a magnetization device, the main purpose of which is to achieve a magnetization device with low magnetic leakage rate and high magnetization efficiency for liquid.

In order to achieve the aforementioned purpose, the first embodiment of the magnetizing device of the present invention includes:

The inner magnet part has at least four magnet assemblies, including a first magnet assembly, a second magnet assembly, a third magnet assembly, and a fourth magnet assembly, the first magnet assembly, the second magnet assembly, the third magnet assembly, the fourth magnet assembly The magnet assemblies are combined to form a hollow area, and the hollow area is used for accommodating a hollow tube;

The first magnet assembly and the second magnet assembly include two first-direction magnets, the magnetic directions of the first-direction magnets are away from the hollow area, and the third magnet assembly and the fourth magnet assembly include two second magnets a directional magnet, the magnetic direction of the second directional magnet is toward the hollow area; and

The magnetic blocking portion surrounds the inner magnetic portion to block magnetic leakage of the inner magnetic portion.

The second embodiment of the magnetizing device of the present invention includes:

The inner magnet part has at least four magnet assemblies, including a first magnet assembly, a second magnet assembly, a third magnet assembly, and a fourth magnet assembly, the first magnet assembly, the second magnet assembly, the third magnet assembly, the fourth magnet assembly The magnet assemblies are combined to form a hollow area, and the hollow area is used for accommodating a hollow tube;

The magnetic blocking portion surrounds the inner magnetic portion to block magnetic leakage of the inner magnetic portion.

As can be seen from the foregoing, the present invention mainly provides the magnetic blocking portion outside the inner magnetic portion to effectively prevent the occurrence of magnetic leakage, and also increases the number of passing through the hollow area through the arrangement of the magnet components in the inner magnetic portion. The magnetic field density increases the effect of magnetization on the liquid.

Description of drawings

FIG. 1 is the first embodiment of the magnetizing device of the present invention.

FIG. 2 is the magnetic force gradient distribution of the first embodiment of the magnetization device of the present invention.

FIG. 3 is a second embodiment of the magnetizing device of the present invention.

FIG. 4 is the magnetic force gradient distribution of the second embodiment of the magnetization device of the present invention.

FIG. 5 is a schematic diagram of different implementations of the magnetizing device of the present invention.

FIG. 6 is a schematic diagram of different implementations of the magnetizing device of the present invention.

FIG. 7 is a schematic diagram of different implementations of the magnetizing device of the present invention.

FIG. 8 is a third embodiment of the magnetizing device of the present invention.

Description of symbols in the attached drawings:

Internal magnets 10 and 30 First magnet assemblies 11 and 31

The second magnet assembly 12, 32 The third magnet assembly 13, 33

Fourth magnet assembly 14 , 34 Magnetic blocking portion 20 , 40

Magnet A in the first direction Magnet B in the second direction

The third direction magnet C Hollow area O

Assembly interface S First interface N1, M1

Second junction N2, M2 Third junction N3, M3

Fourth junction N4, M4 First magnetic circuit area R1, R4

The second magnetic circuit region R2, R5 The third magnetic circuit region R3, R6

Detailed ways

The technical solutions of the present invention will be clearly and completely described below. Obviously, the described embodiments are a part of the embodiments of the present invention, rather than all the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative work fall within the protection scope of the present invention.

The utility model provides a magnetizing device, in the first embodiment, as shown in Figures 1 and 2, comprising:

The inner magnet portion 10 has at least four magnet assemblies, including a first magnet assembly 11, a second magnet assembly 12, a third magnet assembly 13, and a fourth magnet assembly 14. The aforementioned first magnet assembly 11, second magnet assembly 12, The third magnet assembly 13 and the fourth magnet assembly 14 are combined to form a hollow area O, and the hollow area O is used for accommodating a hollow tube;

The first magnet assembly 11 and the second magnet assembly 12 both include: two first-direction magnets A, the magnetic direction of the first-direction magnets A is far from the hollow area O, and the third magnet assembly 13 and the fourth magnet assembly 14 both include : Two second-direction magnets B, the magnetic direction of the second-direction magnet B is toward the hollow area O.

In a specific embodiment, there is a first junction N1 between the first magnet assembly 11 and the second magnet assembly 12 , a second junction N2 between the second magnet assembly 12 and the third magnet assembly 13 , and the third magnet assembly 13 There is a third junction N3 between the fourth magnet assembly 14, and a fourth junction N4 between the fourth magnet assembly 14 and the first magnet assembly 11;

In this embodiment, the inner magnetic portion 10 is octagonal.

In the diagram, S marked in the magnet represents the magnetic south pole, N represents the magnetic north pole, and the arrow indicates the magnetic direction from the south pole to the north pole.

The magnetic blocking portion 20 surrounds the inner magnetic portion 10 to block magnetic leakage of the inner magnetic portion 10 .

As shown in FIG. 2 , which is the magnetic force gradient distribution of the first embodiment of the present invention, there is a first magnetic circuit region R1 between the first magnet assembly 11 and the fourth magnet assembly 14 , the second magnet assembly 12 and the third magnet assembly There is a second magnetic circuit area R2 between 13, the first magnetic circuit area R1 passes through the hollow area O and the fourth junction N4, and the second magnetic circuit area R2 passes through the hollow area O and the second junction N2. Most of the magnetic force lines in the first magnetic circuit region R1 and the second magnetic circuit region R2 pass through the hollow region O, and only a small part of the magnetic force lines pass through the second junction surface N2 and the fourth junction surface N4, thereby greatly improving the magnetization of the liquid. Effect;

In one embodiment, as shown in FIGS. 1 , 5 and 6 , the magnetic blocking portion 20 includes a plurality of third-direction magnets C, each of which has an assembly surface S between the third-direction magnets C, and each third The magnetic direction of the directional magnet C faces the assembly surface S, and the magnetic pole of each third directional magnet C is opposite to the magnetic pole of the adjacent third directional magnet C, which means that the south pole of each third directional magnet C is adjacent to another third directional magnet. The north pole of C, the number of the third-direction magnets C of each magnetic blocking part 20 can be two, four or eight, and the third-direction magnets C are respectively disposed at the positions of the first-direction magnets A and the second-direction magnets B away from the hollow area O. side.

In another embodiment, the magnetic blocking portion 20 is a magnet coil.

In another embodiment, the magnetic blocking portion 20 is composed of at least one magnetic material, and the magnetic material can directly or indirectly generate a magnetic substance. When the number of the magnetic material is one, as shown in FIG. 7 , the magnetic material It surrounds the inner magnetic part 10 in a ring shape.

Furthermore, the magnetic blocking portion 20 has a third magnetic circuit region R3 , and the magnetic field lines of the third magnetic circuit region R3 form a closed magnetic circuit region around the inner magnetic portion 10 , so as to effectively block the external magnetic field of the first magnetic circuit region 10 . leakage, to achieve the effect of reducing the magnetic leakage rate.

In actual experiments, the higher the magnetic field in the center of the hollow region O of the magnetization device, the lower the magnetic leakage rate, and the higher the density of magnetic lines of force passing through the hollow region O, and the magnetic field in the center of the hollow region O of the magnetization device of the present invention is about 9700-9800 gauss, while the magnetic field in the center of the hollow area of the existing magnetizing device without the magnetic blocking part 20 is about 6400-6500 gauss. Compared with the prior art, the density of the magnetic lines of force passing through the hollow region O of the magnetizing device of the present invention is greatly improved.

In addition, in the actual experiment, the smaller the difference between the magnetic field in the center of the hollow area of the magnetizing device and the magnetic field at the edge of the hollow area, the lower the magnetic field leakage phenomenon. , the fringe magnetic field in the hollow region O of the magnetization device of the present invention close to the inner magnetic part 10 is about 9900-10000 Gauss, and the difference is about 200 Gauss, while the magnetic field in the center of the hollow region of the magnetization device without the magnetic blocking part in the prior art is about 6400-10000 Gauss 6500 gauss, the fringe magnetic field in the hollow area close to the inner magnetic part is about 7600-7700 gauss, and the difference is about 1200 gauss, which is enough to prove that the magnetic leakage phenomenon of the magnetizing device of the present invention is much lower than that of the prior art magnetizing device.

The utility model provides a magnetizing device, in the second embodiment, as shown in Figures 3 and 4, comprising:

The inner magnet portion 30 has at least four magnet assemblies, including a first magnet assembly 31, a second magnet assembly 32, a third magnet assembly 33, and a fourth magnet assembly 34. The aforementioned first magnet assembly 31, second magnet assembly 32, The third magnet assembly 33 and the fourth magnet assembly 34 are combined to form a hollow area O, and the hollow area O is used for accommodating a hollow tube;

A first junction M1 is formed between the first magnet assembly 31 and the second magnet assembly 32 , a second junction M2 is formed between the second magnet assembly 32 and the third magnet assembly 33 , and the third magnet assembly 33 and the fourth magnet assembly There is a third junction M3 between 34, and a fourth junction M4 between the fourth magnet assembly 34 and the first magnet assembly 31;

Wherein, the first magnet assembly 31 and the second magnet assembly 32 include: a first direction magnet A, a third direction magnet C, the third magnet assembly 33 and the fourth magnet assembly 34 include: a second direction magnet B, a third magnet assembly Direction magnet C, the magnetic direction of the first direction magnet A is away from the hollow area O, the magnetic direction of the second direction magnet B is towards the hollow area O, the magnetic direction of the third direction magnet C is towards or away from the assembling surfaces M1, M2, One of M3 and M4, the third directional magnet C of the first magnet assembly 31 and the fourth magnet assembly 34 is close to the fourth junction M4 and has opposite magnetic properties, and the third directional magnet of the second magnet assembly 32 and the third magnet assembly 33 C is close to the second junction M2 and magnetically opposite.

The magnetic blocking portion 40 surrounds the inner magnetic portion 30 to block magnetic leakage of the inner magnetic portion 30 .

In one embodiment, as shown in FIGS. 3 , 5 , and 6 , the magnetic blocking portion 40 includes a plurality of third-directional magnets C, each of the third-directional magnets C has an assembly surface S, and each third The magnetic direction of the directional magnet C faces the assembly surface S, and the magnetic pole of each third directional magnet C is opposite to the magnetic pole of the adjacent third directional magnet C, which means that the south pole of each third directional magnet C is adjacent to another third directional magnet. The north pole of C, the number of the third-direction magnets C of each magnetic blocking part 40 can be two, four or eight. side.

In another embodiment, the magnetic blocking portion 40 is a magnet coil.

In another embodiment, the magnetic blocking portion 40 is composed of at least one magnetic material, and the magnetic material can directly or indirectly generate a magnetic substance. When the number of the magnetic material is one, as shown in FIG. 7 , the The magnetic material surrounds the inner magnetic portion 30 in a ring shape.

As shown in FIG. 4 , which is the magnetic force gradient distribution of the second embodiment of the present invention, each magnet assembly 31 , 32 , 33 , and 34 has a first magnetic circuit region R4 , a second magnetic circuit region R5 , and a first magnetic circuit region R4 Through the first junction M1, the second magnetic circuit region R5 passes through the third junction M3, and the magnetic blocking portion 40 has a third magnetic circuit region R6, the magnetic field lines of the third magnetic circuit region R6 surround the inner magnetic portion 30 to form a seal The magnetic circuit can effectively block the external leakage of the magnetic field in the first magnetic circuit region 30 to achieve the effect of low magnetic leakage rate.

The present invention provides a magnetizing device, in the third embodiment, as shown in FIG. 8 , comprising:

The inner magnet portion 10 has at least four magnet assemblies, including a first magnet assembly 11, a second magnet assembly 12, a third magnet assembly 13, and a fourth magnet assembly 14. The aforementioned first magnet assembly 11, second magnet assembly 12, The third magnet assembly 13 and the fourth magnet assembly 14 are combined to form a hollow area O, and the hollow area O is used for accommodating a hollow tube;

The first magnet assembly 11 and the second magnet assembly 12 both include: two first-direction magnets A, the magnetic direction of the first-direction magnets A is far from the hollow area O, and the third magnet assembly 13 and the fourth magnet assembly 14 both include : Two second-direction magnets B, the magnetic direction of the second-direction magnet B is toward the hollow area O.

In a specific embodiment, there is a first junction N1 between the first magnet assembly 11 and the second magnet assembly 12 , a second junction N2 between the second magnet assembly 12 and the third magnet assembly 13 , and the third magnet assembly 13 The fourth magnet assembly 14 has a third junction N3, and the fourth magnet assembly 14 and the first magnet assembly 11 have a fourth junction N4.

To sum up, the above-mentioned embodiments are only preferred embodiments of the present invention, and are not intended to limit the protection scope of the present invention. Any modification, Equivalent replacements, improvements, etc., should all be included within the protection scope of the present invention.

Claims (13)

1. A magnetizing apparatus, comprising:

the inner magnetic part is provided with at least four magnet components, and comprises a first magnet component, a second magnet component, a third magnet component and a fourth magnet component, wherein the first magnet component, the second magnet component, the third magnet component and the fourth magnet component are combined to form a hollow area, and the hollow area is used for accommodating a hollow pipe;

the first magnet assembly and the second magnet assembly comprise two first-direction magnets, the magnetic direction of the first-direction magnets is far away from the hollow area, the third magnet assembly and the fourth magnet assembly comprise two second-direction magnets, and the magnetic direction of the second-direction magnets faces the hollow area; and

and the magnetic force blocking part surrounds the inner magnetic part to block the magnetic force leakage of the inner magnetic part.

2. The magnetizing apparatus of claim 1, wherein the first magnet assembly is adjacent to the second magnet assembly, the second magnet assembly is adjacent to the third magnet assembly, the third magnet assembly is adjacent to the fourth magnet assembly, and the fourth magnet assembly is adjacent to the first magnet assembly.

3. The magnetizing apparatus of claim 1, wherein the magnetic blocking portion comprises a plurality of third-direction magnets, each of the third-direction magnets has a set surface therebetween, the magnetic direction of each of the third-direction magnets faces the set surface, and the magnetic pole of each of the third-direction magnets is opposite to the magnetic pole of the adjacent third-direction magnet.

4. The magnetizing apparatus of claim 3, wherein the number of the third direction magnets of the magnetic force blocking portion is two, four or eight, and each of the third direction magnets is disposed on a side of the first direction magnet and the second direction magnet away from the hollow area.

5. The magnetizing apparatus of claim 1, wherein the magnetic blocking portion is a magnetic ring.

6. The magnetizing apparatus of claim 1, wherein the magnetic blocking portion is comprised of at least one magnetic material.

7. The magnetizing apparatus of claim 1, wherein the inner magnetic portion is octagonal.

8. A magnetizing apparatus, comprising:

the inner magnetic part is provided with at least four magnet components, and comprises a first magnet component, a second magnet component, a third magnet component and a fourth magnet component, wherein the first magnet component, the second magnet component, the third magnet component and the fourth magnet component are combined to form a hollow area, and the hollow area is used for accommodating a hollow pipe;

and the magnetic force blocking part surrounds the inner magnetic part to block the magnetic force leakage of the inner magnetic part.

9. The magnetization apparatus according to claim 8, wherein the magnetic blocking portion comprises a plurality of third-direction magnets, each of the third-direction magnets has a group connecting surface therebetween, the magnetic direction of each of the third-direction magnets faces the group connecting surface, the magnetic pole of each of the third-direction magnets is opposite to the magnetic pole of the adjacent third-direction magnet, the first and second magnet assemblies have a first connecting surface therebetween, the second and third magnet assemblies have a second connecting surface therebetween, the third and fourth magnet assemblies have a third connecting surface therebetween, the fourth and first magnet assemblies have a fourth connecting surface therebetween, and each of the first and second magnet assemblies comprises: first direction magnet, third magnet subassembly, fourth magnet subassembly all include: the magnetic direction of the first direction magnet is far away from the hollow area, the magnetic direction of the second direction magnet faces the hollow area, the third direction magnets of the first magnet assembly and the fourth magnet assembly are close to the fourth junction surface and are opposite in magnetism, and the third direction magnets of the second magnet assembly and the third magnet assembly are close to the second junction surface and are opposite in magnetism.

10. The magnetizing apparatus of claim 9, wherein the number of the third direction magnets of the magnetic force blocking portion is two, four or eight, and each of the third direction magnets is disposed on a side of the first direction magnet and the second direction magnet away from the hollow area.

11. The magnetizing apparatus of claim 8, wherein the magnetic blocking portion is a magnetic ring.

12. A magnetizing apparatus, comprising:

the inner magnetic part is provided with at least four magnet components, and comprises a first magnet component, a second magnet component, a third magnet component and a fourth magnet component, wherein the first magnet component, the second magnet component, the third magnet component and the fourth magnet component are combined to form a hollow area, and the hollow area is used for accommodating a hollow pipe;

the first magnet assembly and the second magnet assembly comprise two first-direction magnets, the magnetic direction of the first-direction magnets is far away from the hollow area, the third magnet assembly and the fourth magnet assembly comprise two second-direction magnets, and the magnetic direction of the second-direction magnets faces the hollow area.

13. The magnetizing apparatus of claim 12, wherein the first magnet assembly is adjacent to the second magnet assembly, the second magnet assembly is adjacent to the third magnet assembly, the third magnet assembly is adjacent to the fourth magnet assembly, and the fourth magnet assembly is adjacent to the first magnet assembly.

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