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High temperature superconducting flux pump and method for controlling current waveform of iron core winding

A technology of high-temperature superconductivity and current waveform, which is applied in superconducting magnets/coils, usage of superconductor elements, transformer/inductor cores, etc., can solve problems such as inconvenient use and complex structure, and achieve convenient use, small size, The effect of increasing the charging speed

Active Publication Date: 2022-07-22
SHANGHAI JIAO TONG UNIV
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Problems solved by technology

[0004] The inventor believes that the device in the prior art needs to use a heater and a temperature sensor, the structure is complicated, it is inconvenient to use, and there is room for improvement

Method used

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  • High temperature superconducting flux pump and method for controlling current waveform of iron core winding
  • High temperature superconducting flux pump and method for controlling current waveform of iron core winding
  • High temperature superconducting flux pump and method for controlling current waveform of iron core winding

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example 1

[0055] like Figure 4 As shown, according to a high-temperature superconducting magnetic flux pump provided by the present invention, the supporting iron core 1 is a C-shaped iron core, and two first iron cores 2 are fixedly installed at both ends of the supporting iron core 1, and the two first iron cores 2 are respectively fixed. A side of the iron core 2 facing away from the supporting iron core 1 is sequentially installed and fixedly installed with two second iron cores 3 and a first iron core 2 , any one of the first iron core 2 and the second iron core 3, the second iron core 2 Both the iron core 3 and the second iron core 3 are connected by silicon steel sheets 5 . Any group of first iron cores 2 at both ends of the supporting iron core 1 are arranged oppositely, and any group of second iron cores 3 at both ends of the supporting iron core 1 are also arranged oppositely, and any group is an oppositely arranged first iron core. The cores 2 are all arranged in a staggere...

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Abstract

The invention provides a high-temperature superconducting magnetic flux pump and a method for controlling the current waveform of its iron core winding, comprising a supporting iron core, a first iron core, a second iron core and a wire winding, wherein the first iron core and the second iron core are both A plurality of supporting iron cores are arranged on both sides of the supporting iron core, a plurality of wire windings are arranged, an installation gap is formed between the first iron core and the second iron core, and the wire winding conducts current and forms a traveling magnetic field with a square wave profile at the installation gap; Applying periodic current waveforms to eight groups of wire windings can generate a traveling square-wave magnetic field on the surface of the high-temperature superconducting tape that moves at a certain rate along the width of the cross-section of the superconducting tape. Convenience and effectiveness of coil charging; L-shaped iron core and S-shaped iron core with narrow cross-section are used to reduce magnetic flux leakage between adjacent winding iron cores, and to generate high magnetic flux density and narrow waveform travel at the installation gap Square wave, improve the charging speed of superconducting coil, and high compactness, small size, simple structure, easy to use.

Description

technical field [0001] The invention relates to the field of superconducting engineering, in particular, to a high-temperature superconducting magnetic flux pump and a method for controlling the current waveform of an iron core winding. Background technique [0002] Superconducting materials can be divided into low-temperature superconducting materials and high-temperature superconducting materials according to their critical temperature. At present, commercialized low-temperature superconducting materials are mainly used in nuclear magnetic resonance imagers, accelerator magnets, etc., but because low-temperature superconducting materials have Low critical transition temperature (Tc<30k), the refrigeration cost is expensive, which makes the application seriously limited; while the high-temperature superconducting material has a high critical transition temperature, low refrigeration cost, and broad application prospects. [0003] The existing Chinese patent with publicat...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01F6/00H01F36/00H01F27/26H01F27/24H01F27/30H01F27/34
CPCH01F6/006H01F36/00H01F27/263H01F27/306H01F27/24H01F27/346Y02E40/60
Inventor 陈大川李小汾金之俭洪智勇
Owner SHANGHAI JIAO TONG UNIV
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