CN216849052U - Magnetic circuit system for guiding movement of magnetic fluid - Google Patents

Abstract

The utility model discloses a magnetic circuit system for guiding the movement of magnetic fluid, which comprises a shell, an upper magnet, a column magnet and a lower magnet; the utility model provides a magnetic circuit for guiding magnetic current body motion, this system applys electromagnetic control to nanometer magnetic current body, can make the nanoparticle form the magnetic linkage of specific direction to reach good developments undulation effect along with the magnetic field control signal who applys in the show clearance.

Description

Magnetic circuit system for guiding movement of magnetic fluid

Technical Field

The utility model relates to a magnetic field generates the field, specifically is a magnetic circuit for guiding magnetic current body motion.

Background

The magnetic fluid is a solid-liquid two-phase colloidal solution formed by coating single magnetic domain nano particles with the diameter of about 10nm by using a surfactant and highly dispersing the single magnetic domain nano particles in a carrier liquid. Under the action of magnetic field, the magnetic fluid has both liquid flowability and solid material magnetism, and is one new kind of nanometer liquid functional material. When a magnetic field is applied, the distribution of the nano particles can be changed, and then some physical parameters of the nano particles can be changed correspondingly, so that the nano particles become a controllable rheological body, and the controllable rheological body can be used in the fields of scientific education, artistic exhibition and the like.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a magnetic circuit for guiding magnetic fluid motion, magnetic circuit is applied to and guides magnetic fluid motion device.

The device for guiding the magnetic fluid motion comprises an upper part, a lower part and a connecting part.

The upper part is connected with the lower part through a connecting part.

The upper part is positioned above the lower part, and a gap exists between the upper part and the lower part.

And a magnetic fluid containing device is arranged in a gap between the upper part and the lower part.

The magnetic circuit system includes a first magnet, a second magnet, and a third magnet.

The first magnet is located within the upper member.

The second magnet is located within the connecting member.

The third magnet is located within the lower member.

Further, the connecting part is one or more connecting pieces which are circumferentially and symmetrically distributed.

Furthermore, an included angle formed by the bottom surface of the upper part and the connecting part is a round angle, or a magnetic conduction cushion block is fixed at the included angle.

Furthermore, an included angle formed by the bottom surface of the lower part and the connecting part is a round angle, or a magnetic conduction cushion block is fixed at the included angle.

Further, the magnetic field generated by the first magnet is stronger than the magnetic field generated by the third magnet.

Further, the first magnet is positioned in the upper part, and the bottom extends out of the upper part to form a boss I.

Furthermore, a magnetic field generator is arranged in the upper part, and magnetizers are arranged in the connecting part and the lower part.

Further, a magnetic field generator is arranged in the connecting component.

Further, the magnet in the lower part protrudes as a boss III.

Furthermore, a plurality of magnetizer bosses II are distributed in the lower part.

The technical effect of the utility model is undoubtedly, the utility model provides a magnetic circuit for guiding magnetic current body motion, this system applys electromagnetic control to nanometer magnetic current body, can make the linkage of nanoparticle formation specific direction to reach good developments undulation effect along with the magnetic field control signal of applying in the show clearance.

Drawings

FIG. 1 is a schematic diagram I of the system architecture;

FIG. 2 is a schematic diagram of system configuration II;

FIG. 3 is a schematic diagram III of the system configuration;

in the figure, the upper part 1, the lower part 2 and the connecting part 3, a boss I4, a boss II5, a boss III 6.

Detailed Description

The present invention will be further described with reference to the following examples, but it should not be construed that the scope of the present invention is limited to the following examples. Various substitutions and modifications can be made without departing from the technical idea of the invention and according to the common technical knowledge and the conventional means in the field, and all the substitutions and modifications are included in the protection scope of the invention.

Example 1:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding magnetic fluid movement is applied to a magnetic fluid movement guiding device; the magnetic circuit system is used for guiding the magnetic fluid in the magnetic fluid movement device to move.

The device for guiding the magnetic fluid movement comprises an upper part 1, a lower part 2 and a connecting part 3.

The upper part 1 is connected to the lower part 2 by means of a connecting part 3.

The upper part 1 is located above the lower part 2 with a gap from the lower part 2.

And a magnetic fluid containing device is arranged in a gap between the upper part 1 and the lower part 2.

The magnetic fluid in the holding device is not in contact with the connecting part 3.

The magnetic circuit system includes a first magnet, a second magnet, and a third magnet.

The first magnet is located within the upper part 1.

The second magnet is located within the connecting part 3.

The third magnet is located within the lower part 2.

The first magnet, the second magnet and the third magnet are matched to form a magnetic circuit system.

The connecting parts 3 are one or more in circumferential symmetrical distribution, and generally 1-3 are selected.

The bottom surface of the upper part 1 and the connecting part 3 form an included angle which is a round angle, or a magnetic conduction cushion block is fixed at the included angle.

The bottom surface of the lower part 2 and the connecting part 3 form an included angle which is a round angle, or a magnetic conduction cushion block is fixed at the included angle.

The magnetic field generated by the first magnet is stronger than the magnetic field generated by the third magnet.

The first magnet is located in the upper part 1 and the bottom extends out of the upper part 1 as a boss I4.

A magnetic field generator is arranged in the upper part 1, a magnetic field generator is not arranged in the lower part 2, and magnetizers are arranged in the connecting part 3 and the lower part 2.

A magnetic field generator is arranged in the connecting part 3 and is arranged at the upper half part in the connecting part 3.

The magnets in the lower part 2 protrude as a boss III 6.

A plurality of magnetizer bosses II5 are distributed in the lower part 2, and the magnetizer bosses are magnetic field generators.

Example 2:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding magnetic fluid movement comprises a magnetic circuit system for guiding a magnetic fluid movement device.

The device for guiding the magnetic fluid movement comprises an upper part 1, a lower part 2 and a connecting part 3.

The upper part 1 is connected to the lower part 2 by means of a connecting part 3.

The upper part 1 is located above the lower part 2 with a gap from the lower part 2.

And a magnetic fluid containing device is arranged on the upper surface of the lower part 2.

The magnetic fluid in the holding device is not in contact with the connecting part 3.

The magnetic circuit system includes a first magnet, a second magnet, and a third magnet.

The first magnet is located within the upper part 1.

The second magnet is located within the connecting part 3.

The third magnet is located within the lower part 2.

The first magnet, the second magnet and the third magnet are matched to form a magnetic circuit system.

Example 3:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding magnetic fluid movement has a main structure shown in embodiment 2, wherein the connecting parts 3 are one or more parts distributed circumferentially and symmetrically.

Example 4:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding magnetic fluid movement has a main structure shown in embodiment 2, wherein the connecting parts 3 are 1-3 parts which are circumferentially and symmetrically distributed.

Example 5:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding magnetic fluid movement has a main structure shown in embodiment 2, wherein an included angle formed by the bottom surface of the upper member 1 and the connecting member 3 is a round angle.

Example 6:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding magnetic fluid movement has a main structure shown in embodiment 2, wherein a magnetic conductive pad is fixed at an included angle formed by the bottom surface of the upper member 1 and the connecting member 3.

Example 7:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding magnetic fluid movement has a main structure shown in embodiment 2, wherein an included angle formed by the bottom surface of the lower part 2 and the connecting part 3 is a round angle.

Example 8:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding magnetic fluid movement has a main structure shown in embodiment 2, wherein a magnetic conductive pad is fixed at an included angle formed by the bottom surface of the lower part 2 and the connecting part 3.

Example 9:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding the movement of magnetic fluid is mainly structured as embodiment 2, wherein the magnetic field generated by the first magnet is stronger than the magnetic field generated by the third magnet.

Example 10:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding the movement of magnetic fluid is mainly structured as embodiment 2, wherein the first magnet is positioned in the upper component 1, and the bottom of the first magnet extends out of the upper component 1 to form a boss I4.

Example 11:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding the movement of magnetic fluid has the main structure shown in embodiment 2, wherein, a magnetic field generator is arranged in an upper component 1, no magnetic field generator is arranged in a lower component 2, and magnetizers are arranged in a connecting component 3 and the lower component 2.

Example 12:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding the movement of magnetic fluid is shown in embodiment 2, wherein a magnetic field generator is arranged in a connecting part 3.

Example 13:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding the magnetic fluid movement has the main structure shown in the embodiment 12, wherein the magnetic field generator is arranged at the upper half part in the connecting part 3.

Example 14:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding the movement of magnetic fluid is mainly structured as embodiment 2, wherein the magnet in the lower component 2 protrudes as a boss III 6.

Example 15:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding magnetic fluid movement has a main structure shown in embodiment 2, wherein a plurality of magnetizer bosses II5 are distributed in the lower member 2.

Example 16:

referring to fig. 1, 2 and 3, a magnetic circuit system for guiding magnetic fluid movement has a main structure shown in embodiment 2, wherein the magnetizer boss II5 is a magnetic field generator.

Claims (10)

1. A magnetic circuit system for guiding the movement of a magnetic fluid, characterized by: the magnetic circuit system is applied to a device for guiding the magnetic fluid to move;

the device for guiding the magnetic fluid movement comprises an upper part (1), a lower part (2) and a connecting part (3);

the upper part (1) is connected with the lower part (2) through a connecting part (3);

the upper part (1) is positioned above the lower part (2) and has a gap with the lower part (2);

a magnetic fluid containing device is arranged in a gap between the upper part (1) and the lower part (2);

the magnetic circuit system comprises a first magnet, a second magnet and a third magnet;

the first magnet is located in the upper part (1);

the second magnet is positioned in the connecting part (3);

the third magnet is located within the lower part (2).

2. A magnetic circuit system for guiding the movement of a magnetic fluid according to claim 1, wherein: the connecting part (3) is one or more connecting parts which are symmetrically distributed on the circumference.

3. A magnetic circuit system for guiding magnetic fluid movement according to any of claims 1 and 2, wherein: the included angle formed by the bottom surface of the upper part (1) and the connecting part (3) is a fillet, or a magnetic conduction cushion block is fixed at the included angle.

4. A magnetic circuit system for guiding magnetic fluid movement according to any one of claims 1 and 2, wherein: the bottom surface of the lower part (2) and the connecting part (3) form an included angle which is a fillet, or a magnetic conduction cushion block is fixed at the included angle.

5. A magnetic circuit system for guiding magnetic fluid movement according to any of claims 1 and 2, wherein: the first magnet generates a magnetic field that is stronger than a magnetic field generated by the third magnet.

6. A magnetic circuit system for guiding magnetic fluid movement according to any of claims 1 and 2, wherein: the first magnet is positioned in the upper part (1), and the bottom of the first magnet extends out of the upper part (1) to form a boss I (4).

7. A magnetic circuit system for guiding the movement of a magnetic fluid according to claim 1, wherein: a magnetic field generator is arranged in the upper part (1), and magnetizers are arranged in the connecting part (3) and the lower part (2).

8. A magnetic circuit system for guiding the movement of a magnetic fluid according to claim 7, wherein: a magnetic field generator is arranged in the connecting part (3).

9. A magnetic circuit system for guiding magnetic fluid movement according to any of claims 1 and 2, wherein: the magnet in the lower part (2) protrudes to form a boss III (6).

10. A magnetic circuit system for guiding the movement of a magnetic fluid according to claim 1, wherein: a plurality of magnetizer bosses II (5) are distributed in the lower part (2).

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