TWM587398U - Magnetization device - Google Patents

Abstract

The present invention provides a magnetizing device including an internal magnetic part including a first magnet component, a second magnet component, a third magnet component, and a fourth magnet component. The four magnet components are combined to form a hollow area. The first magnet component 2. The second magnet assembly includes two first-direction magnets. The magnetic direction of the first-direction magnet is far from the hollow area. The third magnet assembly and the fourth magnet assembly include two second-direction magnets. A magnetic barrier that surrounds the inner magnetic section, the magnetic barrier includes a plurality of third-direction magnets, and each third-direction magnet has a set of joints, and the magnetic direction of each third-direction magnet faces the In the mating surface, a magnetic pole of each of the third-direction magnets is opposite to a magnetic pole of an adjacent third-direction magnet.

Description

Magnetizing device

The present invention relates to a magnetizing device, and more particularly to a magnetizing device for magnetizing a fluid.

When various liquids pass through a magnetic field, the bonds between liquid molecules will be broken by the influence of the magnetic field, so that larger groups of molecules are separated into smaller groups of molecules, which in turn affects the physical characteristics of the liquid. For example, when cosmetics pass through a magnetic field Later, it will become a cosmetic 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 refine the molecules of the oil to increase the fluidity and combustion of the oil. Efficiency and inhibit fungi breeding.

The conventional fluid magnetizer covers a hollow tube, and the hollow tube is used to transport liquid. However, the density of the magnetic field lines leaking out of the hollow tube of the fluid magnetizer is too high, and the density of the magnetic field lines passing through the hollow tube is too low. As a result, the amount of magnetic leakage is too large, and the efficiency of liquid magnetization is not good. Therefore, a magnetization device with low magnetic leakage rate and high magnetization efficiency is urgently needed.

The present invention provides a magnetizing device whose main purpose is to achieve a magnetizing device with low magnetic leakage rate and high magnetization efficiency for liquids.

To achieve the foregoing object, a first embodiment of the novel magnetizing device includes:

An internal magnetic part has at least four magnet components, including a first magnet component, a second magnet component, a third magnet component, and a fourth magnet component. The aforementioned first magnet component, second magnet component, third magnet component, and first The four magnet components are combined to form a hollow area, which is used to accommodate a hollow tube;

The first magnet component and the second magnet component include two first direction magnets, and the magnetic direction of the first direction magnet is far away from the hollow area. The third magnet component and the fourth magnet component include two second direction magnets. The magnetic direction of the second-direction magnet is directed toward the hollow region; and

A magnetic blocking portion surrounds the outer portion of the inner magnetic portion to block magnetic leakage from the inner magnetic portion.

The second embodiment of the novel magnetization device includes:

An internal magnetic part has at least four magnet components, including a first magnet component, a second magnet component, a third magnet component, and a fourth magnet component. The aforementioned first magnet component, second magnet component, third magnet component, and first The four magnet components are combined to form a hollow area, which is used to accommodate a hollow tube;

A magnetic blocking portion surrounds the outer portion of the inner magnetic portion to block magnetic leakage from the inner magnetic portion.

As can be seen from the foregoing, the new type mainly prevents magnetic leakage by effectively providing a magnetic barrier portion outside the inner magnetic portion. In addition, the arrangement of the magnet components in the inner magnetic portion is used to achieve an increase in passing through the hollow area. Magnetic field density enhances the effect of liquid magnetization.

The present invention provides a magnetizing device. In the first embodiment, please refer to FIG. 1 and FIG. 2, including:

An inner magnetic portion 10 includes at least four magnet components, including a first magnet component 11, a second magnet component 12, a third magnet component 13, and a fourth magnet component 14. The aforementioned first magnet component 11 and the second magnet component 12 The third magnet assembly 13 and the fourth magnet assembly 14 are combined to form a hollow region O, and the hollow region O is used to accommodate a hollow tube;

Wherein, 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 magnet A is far from the hollow area O, and the third magnet assembly 13 and the fourth magnet The components 14 each include two second-direction magnets B, and the magnetic direction of the second-direction magnets B is toward the hollow region O.

In a specific embodiment, there is a first connection surface N1 between the first magnet component 11 and the second magnet component 12, and a second connection surface N2 between the second magnet component 12 and the third magnet component 13. There is a third connection surface N3 between the third magnet component 13 and the fourth magnet component 14, and there is a fourth connection surface N4 between the fourth magnet component 14 and the first magnet component 11.

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

In the figure, S indicates the magnetic south pole, N indicates the magnetic north pole, and the arrow indicates the magnetic direction from the south pole to the north pole.

A magnetic force blocking portion 20 surrounds the outer portion of the inner magnetic portion 10 to block the magnetic leakage of the inner magnetic portion 10.

Please refer to FIG. 2, which shows a magnetic force gradient distribution according to the first embodiment of the present invention. A first magnetic circuit region R1 is provided between the first magnet assembly 11 and the fourth magnet assembly 14. The second magnet assembly 12 and There is a second magnetic circuit region R2 between the third magnet assembly 13, the first magnetic circuit region R1 passes through the hollow region O and the fourth interface N4, and the second magnetic circuit region R2 passes through the hollow region O and the The second interface N2. It can be seen from this that most of the magnetic field lines in the first magnetic circuit area R1 and the second magnetic circuit area R2 pass through the hollow area O, and only a small part of the magnetic field lines pass through the second interface N2. The fourth interface N4, which greatly enhances the effect of liquid magnetization;

In one embodiment, please refer to FIGS. 1, 5, and 6. The magnetic barrier 20 includes a plurality of third-direction magnets C, and each of the third-direction magnets C has a set of contact surfaces S, each The magnetic direction of the third-direction magnet C faces the set of connection surfaces S, and the magnetic pole of each third-direction magnet C is opposite to the magnetic pole of the adjacent third-direction magnet C, which means that the south pole of each third-direction magnet C is adjacent At the north pole of the other third-direction magnet C, the number of the third-direction magnets C of the magnetic blocking portion 20 may be two, four, or eight, and each of the third-direction magnets C is disposed at the first-direction magnet A, the first The two-way magnet B is away from one side of the hollow region O.

In another embodiment, the magnetic barrier 20 is a magnet ring.

In another embodiment, the magnetic barrier 20 is composed of at least one magnetic material, which is a substance capable of directly or indirectly generating magnetic properties. When the quantity of the magnetic material is one, please refer to FIG. 7. The magnetic material A ring is formed around the inner magnetic portion 10.

Furthermore, the magnetic barrier portion 20 has a third magnetic circuit region R3. 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 first magnetic field. The magnetic field of the road area 10 leaks out, achieving 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 magnetizing device, the lower the magnetic leakage rate, and the higher the density of magnetic field lines passing through the hollow region O. The magnetic field in the center of the hollow region O of the magnetizing device of this case is about 9700 ~ 9800 Gauss, and the magnetic field in the center of the hollow area of the conventional magnetization device without the magnetic barrier 20 is about 6400 ~ 6500 Gauss. The magnetic field of this creative magnetization device is 50.8% ~ 51.5% higher than the conventional technology, which is enough to confirm that the magnetization device in this case has passed. The magnetic field line density of the hollow region O is much higher than the conventional one.

In addition, in actual experiments, the smaller the difference between the magnetic field in the center of the hollow region of the magnetizing device and the magnetic field at the edge of the hollow region, the lower the phenomenon of magnetic field leakage. The magnetic field in the hollow region O of the magnetizing device is close to the edge magnetic field of the inner magnetic portion 10 at about 9900 to 10,000 Gauss, with a difference of about 200 Gauss. However, the magnetic field in the center of the hollow region of the conventional magnetizing device without a magnetic barrier is about 6400 to 6500 Gauss. The edge magnetic field close to the inner magnetic part is about 7600 ~ 7700 Gauss, with a difference of about 1200 Gauss, which is enough to confirm that the phenomenon of magnetic leakage of the magnetizing device in this case is far lower than that of the conventional magnetizing device.

The present invention provides a magnetization device. In the second embodiment, please refer to FIG. 3 and FIG. 4, including:

An inner magnetic portion 30 includes at least four magnet components, including a first magnet component 31, a second magnet component 32, a third magnet component 33, and a fourth magnet component 34. The aforementioned first magnet component 31 and second magnet component 32 The third magnet assembly 33 and the fourth magnet assembly 34 are combined to form a hollow region O, and the hollow region O is used to accommodate a hollow tube;

There is a first interface M1 between the first magnet component 31 and the second magnet component 32, and a second interface M2 between the second magnet component 32 and the third magnet component 33, and the third magnet component 33 There is a third connection surface M3 between the fourth magnet component 34, and there is a fourth connection surface M4 between the fourth magnet component 34 and the first magnet component 31;

The first magnet assembly 31 and the second magnet assembly 32 each include: a first direction magnet A, a third direction magnet C, and the third magnet assembly 33 and the fourth magnet assembly 34 both include: a second direction Magnet B, a third-direction magnet C, the magnetic direction of the first-direction magnet A is far from the hollow region O, the magnetic direction of the second-direction magnet B is toward the hollow region O, and the magnetic direction of the third-direction magnet C is toward or Away from one of the connecting surfaces M1, M2, M3, and M4, the third-direction magnet C of the first magnet assembly 31 and the fourth magnet assembly 34 is close to the fourth connecting surface M4 and has opposite magnetic properties, and the second magnet The third direction magnet C of the component 32 and the third magnet component 33 is close to the second interface M2 and has opposite magnetic properties.

A magnetic force blocking portion 40 surrounds the inner magnetic portion 30 to prevent the magnetic force of the inner magnetic portion 30 from leaking.

In one embodiment, please refer to FIGS. 3, 5, and 6. The magnetic barrier 40 includes a plurality of third-direction magnets C, and each of the third-direction magnets C has a set of connection surfaces S, each The magnetic direction of the third-direction magnet C faces the set of connection surfaces S, and the magnetic pole of each third-direction magnet C is opposite to the magnetic pole of the adjacent third-direction magnet C, which means that the south pole of each third-direction magnet C is adjacent At the north pole of the other third-direction magnet C, the number of the third-direction magnets C of the magnetic blocking portion 40 may be two, four, or eight, and each of the third-direction magnets C is disposed at the first-direction magnet A, The second direction magnet B is away from one side of the hollow region O.

In another embodiment, the magnetic barrier 40 is a magnet ring.

In another embodiment, the magnetic barrier 40 is made of at least one magnetic material. The magnetic material is a substance capable of directly or indirectly generating magnetism. When the quantity of the magnetic material is one, please refer to FIG. 7. The magnetic material A ring is formed around the inner magnetic portion 30.

Please refer to FIG. 4, which is a magnetic force gradient distribution of the second embodiment of the present invention. Each of the magnet assemblies 31, 32, 33, and 34 has a first magnetic circuit region R4 and a second magnetic circuit region R5. The magnetic circuit region R4 passes a first interface M1, the second magnetic circuit region R5 passes a third interface M3, and the magnetic force blocking portion 40 has a third magnetic circuit region R6, and magnetic lines of force of the third magnetic circuit region R6 The inner magnetic portion 30 surrounds the inner magnetic portion 30 to form a closed magnetic circuit, which can effectively block the external leakage of the magnetic field of the first magnetic circuit region 30 and achieve the effect of low magnetic leakage rate.

The present invention provides a magnetization device. In a third embodiment, please refer to FIG. 8, including:

An inner magnetic portion 10 includes at least four magnet components, including a first magnet component 11, a second magnet component 12, a third magnet component 13, and a fourth magnet component 14. The aforementioned first magnet component 11 and the second magnet component 12 The third magnet assembly 13 and the fourth magnet assembly 14 are combined to form a hollow region O, and the hollow region O is used to accommodate a hollow tube;

Wherein, 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 magnet A is far from the hollow area O, and the third magnet assembly 13 and the fourth magnet The components 14 each include two second-direction magnets B, and the magnetic direction of the second-direction magnets B is toward the hollow region O.

In a specific embodiment, there is a first connection surface N1 between the first magnet component 11 and the second magnet component 12, and a second connection surface N2 between the second magnet component 12 and the third magnet component 13. There is a third interface N3 between the third magnet component 13 and the fourth magnet component 14, and a fourth interface N4 between the fourth magnet component 14 and the first magnet component 11.

10, 30‧‧‧ Internal Magnetic Section
11, 31‧‧‧ the first magnet assembly
12, 32‧‧‧Second magnet assembly
13, 33‧‧‧Third magnet assembly
14, 34‧‧‧ Fourth magnet assembly
20, 40‧‧‧ magnetic barrier
A‧‧‧First direction magnet
B‧‧‧Second direction magnet
C‧‧‧Third direction magnet
O‧‧‧ hollow area
S‧‧‧group meet
N1, M1‧‧‧ first contact
N2, M2‧‧‧Second Interface
N3, M3 ‧‧‧ third interface
N4, M4
R1, R4‧‧‧‧First magnetic circuit area
R2, R5‧‧‧Second magnetic circuit area
R3, R6 ‧‧‧ third magnetic circuit area

FIG. 1 is a first embodiment of the novel magnetizing device.
FIG. 2 is a magnetic force gradient distribution of the first embodiment of the novel magnetizing device.
FIG. 3 is a second embodiment of the novel magnetizing device.
FIG. 4 is a magnetic force gradient distribution of a second embodiment of the novel magnetizing device.
FIG. 5 is a schematic diagram of different implementations of the novel magnetization device.
FIG. 6 is a schematic diagram of different implementation aspects of the novel magnetization device.
FIG. 7 is a schematic diagram of different implementations of the novel magnetization device.
FIG. 8 shows a third embodiment of the novel magnetizing device.

Claims (15)

A magnetization device includes:
An internal magnetic part has at least four magnet components, including a first magnet component, a second magnet component, a third magnet component, and a fourth magnet component. The aforementioned first magnet component, second magnet component, third magnet component, and first The four magnet components are combined to form a hollow area, which is used to accommodate a hollow tube;
The first magnet component and the second magnet component include two first direction magnets, and the magnetic direction of the first direction magnet is far away from the hollow area. The third magnet component and the fourth magnet component include two second direction magnets. The magnetic direction of the second-direction magnet is directed toward the hollow region; and a magnetic blocking portion surrounds the outer portion of the inner magnetic portion to prevent the magnetic force of the inner magnetic portion from leaking. The magnetizing device according to item 1 of the scope of patent application, wherein the first magnet component is adjacent to the second magnet component, the second magnet component is adjacent to the third magnet component, and the third magnet component is adjacent to the fourth magnet component. The magnet components are adjacent to each other, and the fourth magnet component is adjacent to the first magnet component. The magnetizing device according to item 1 of the scope of the patent application, wherein the magnetic blocking portion includes a plurality of third-direction magnets, and each of the third-direction magnets has a set of joints therebetween, and the magnetism of each of the third-direction magnets is The direction is toward the group connection surface, and the magnetic poles of the third-direction magnets are opposite to the magnetic poles of the adjacent third-direction magnets. The magnetizing device according to item 3 of the scope of patent application, wherein the number of the third-direction magnets of the magnetic blocking portion is two, four, or eight, and each of the third-direction magnets is respectively disposed on the first-direction magnet and the second The side of the directional magnet away from the hollow area. The magnetizing device according to item 1 of the scope of patent application, wherein the magnetic force blocking portion is a magnet coil. The magnetizing device according to item 1 of the scope of patent application, wherein the magnetic barrier is made of at least one magnetic material. The magnetizing device according to item 1 of the scope of patent application, wherein the inner magnetic portion is octagonal. A magnetization device includes:
An internal magnetic part has at least four magnet components, including a first magnet component, a second magnet component, a third magnet component, and a fourth magnet component. The aforementioned first magnet component, second magnet component, third magnet component, and first The four magnet components are combined to form a hollow area, which is used to accommodate a hollow tube;
A magnetic blocking portion surrounds the outer portion of the inner magnetic portion to block magnetic leakage from the inner magnetic portion. The magnetizing device according to item 8 in the scope of the patent application, wherein the magnetic blocking portion includes a plurality of third-direction magnets, and each of the third-direction magnets has a set of joints therebetween, and the magnetism of each of the third-direction magnets is The direction is toward the group connection surface, and the magnetic poles of the third-direction magnets are opposite to the magnetic poles of the adjacent third-direction magnets. The magnetizing device according to item 9 of the scope of the patent application, wherein the number of the third-direction magnets of the magnetic barrier is two, four, or eight, and each of the third-direction magnets is respectively disposed on the first-direction magnet and the second The side of the directional magnet away from the hollow area. The magnetizing device according to item 8 of the scope of patent application, wherein the magnetic force blocking portion is a magnet coil. The magnetizing device according to any one of claims 8 to 10, wherein the first magnet assembly and the second magnet assembly have a first interface therebetween, and the second magnet assembly and the third magnet assembly There is a second connection surface between them, a third connection surface between the third magnet component and the fourth magnet component, and a fourth connection surface between the fourth magnet component and the first magnet component. The magnetizing device according to item 12 of the scope of the patent application, wherein the first magnet assembly and the second magnet assembly include: a first direction magnet, a third direction magnet, the third magnet assembly, and a fourth magnet assembly Both include: a second direction magnet, a third direction magnet, the magnetic direction of the first direction magnet is far from the hollow area, the magnetic direction of the second direction magnet is toward the hollow area, and the magnetic direction of the third direction magnet is toward or Far from one of the assembly surfaces, the third-direction magnets of the first and fourth magnet components are close to the fourth connection surface and have opposite magnetic properties. The third-direction magnets of the second and third magnet components Close to the second junction and opposite in magnetic properties. A magnetization device includes:
An internal magnetic part has at least four magnet components, including a first magnet component, a second magnet component, a third magnet component, and a fourth magnet component. The aforementioned first magnet component, second magnet component, third magnet component, and first The four magnet components are combined to form a hollow area, which is used to accommodate a hollow tube;
The first magnet component and the second magnet component include two first direction magnets, and the magnetic direction of the first direction magnet is far away from the hollow area. The third magnet component and the fourth magnet component include two second direction magnets. The magnetic direction of the second direction magnet is directed toward the hollow region. The magnetizing device according to item 14 of the scope of patent application, wherein the first magnet component is adjacent to the second magnet component, the second magnet component is adjacent to the third magnet component, and the third magnet component is adjacent to the fourth magnet component. The magnet components are adjacent to each other, and the fourth magnet component is adjacent to the first magnet component.