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Magnetic particle control device based on three-dimensional magnetic field

A technology of magnetic particles and control devices, applied in the direction of using feedback control, etc., can solve the problems of inability to achieve targeted regulation of deep magnetic nanoparticles, weak magnetism, etc.

Active Publication Date: 2017-12-19
CHONGQING UNIVERSITY OF SCIENCE AND TECHNOLOGY
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  • Abstract
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Problems solved by technology

[0002] Due to the small size and weak magnetism of magnetic nanoparticles, they can be widely used in different fields. For some specific fields, it is necessary to inject magnetic nanoparticles into a specific position of the solution, and then apply an external alternating magnetic field outside. Under the action of an alternating magnetic field, the alignment direction of the magnetic domains in the magnetic nanoparticles will also change alternately with the direction of the magnetic field. During the rotation change process, the magnetic domains collide and rub against each other, thereby generating heat. Through this hysteresis, heat is generated. The first condition for realizing the above-mentioned heating device is to be able to move the magnetic nanoparticles to a specific position in the solution, but for the deeper position in the solution, the magnetic field is difficult to control, so it is impossible to realize the deep magnetic nanoparticles. targeted regulation

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  • Magnetic particle control device based on three-dimensional magnetic field
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  • Magnetic particle control device based on three-dimensional magnetic field

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Embodiment Construction

[0019] Specific embodiments of the present invention will be described in detail below in conjunction with the accompanying drawings.

[0020] like Figure 1-Figure 6 As shown, the magnetic particle control device based on the three-dimensional magnetic field provided by the present invention includes: a support frame 1, six magnetically conductive rods 2, six groups of pulse coils 3, six groups of polarized coils 4 and an insulating working chamber 5; wherein, the support frame 1 plays the role of supporting and fixing the magnetic conducting rod 2, the pulse coil 3, the polarizing coil 4 and the insulating working chamber 5. The support frame 1 includes a bottom plate 11, an upper plate 12, a lower plate and a side plate 13 (in order to see clearly based on the three-dimensional magnetic field The internal structure of the magnetic particle control device, figure 1 The base plate and two side plates are omitted in the figure), the number of side plates 13 is four, the four ...

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Abstract

The present invention provides a magnetic particle control device based on a three-dimensional magnetic field. The device comprises a support frame, an insulating working chamber and six magnetic conductive rods. The support frame comprises a rectangular frame structure, each side of the rectangular frame structure is provided with a fixed hole. The insulating working chamber is arranged in the rectangular frame structure. One end of each of the six magnetic conductive rods abuts against the insulating working chamber. The six magnetic conductive rods are sleeved by pulse coils which are sleeved by polarization coils, the polarization coils are clamped in the fixed holes. The pulse coils are provided with wiring terminals, and the polarization coils are provided with wiring conductive columns which are connected to the anode and cathode of a power supply through conductive wires. According to the device, a three-dimensional timing maintaining constant orientation magnetic field and a pulse magnetic field can be combined so as to realize the deep aggregation of magnetic nanoparticles in the insulating working chamber.

Description

technical field [0001] The invention relates to the technical field of magnetic field control, and more specifically, to a magnetic particle control device based on a three-dimensional magnetic field. Background technique [0002] Due to the small size and weak magnetism of magnetic nanoparticles, they can be widely used in different fields. For some specific fields, it is necessary to inject magnetic nanoparticles into a specific position of the solution, and then apply an external alternating magnetic field outside. Under the action of an alternating magnetic field, the alignment direction of the magnetic domains in the magnetic nanoparticles will also change alternately with the direction of the magnetic field. During the rotation change process, the magnetic domains collide and rub against each other, thereby generating heat. Through this hysteresis, heat is generated. The first condition for realizing the above-mentioned heating device is to be able to move the magnetic...

Claims

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Application Information

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IPC IPC(8): G05D3/12
CPCG05D3/12
Inventor 李春红马毅龙陈登明易载兴周安若孙建春
Owner CHONGQING UNIVERSITY OF SCIENCE AND TECHNOLOGY
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