KR101343594B1 - Double pancake-type superconductive magnet having auxiliary coils - Google Patents

Abstract

The double pancake type superconducting magnet according to the present invention is a superconducting magnet composed of a stack of double pancake type coils, a superconducting wire bobbin for winding and supporting a superconducting wire generating a magnetic field, and a main coil part including the superconducting wire. And an auxiliary coil unit positioned above and below the main coil unit, a support for stacking and supporting the superconducting wire bobbin, and a current supply bus bar for supplying current to the superconducting magnet.

Description

Double pancake-type superconductive magnet having auxiliary coils

The present invention relates to a double pancake type superconducting magnet, and more particularly, to reduce the vertical component of the magnetic field by using an auxiliary coil to reduce the critical current of the superconducting coil and the resulting decrease in the central magnetic field. The present invention relates to a double pancake (DPC) type high temperature superconducting magnet capable of maximizing efficiency.

Magnets requiring high magnetic fields, such as nuclear magnetic resonance (NMR) devices or magnetic resonance imaging (MRI) devices, are made of superconducting wires with high operating currents. Superconductivity is a phenomenon in which a material suddenly loses electrical resistance at a constant temperature and sends an unlimited amount of current. When cooled rapidly to zero degrees (minus 273 degrees Celsius), there is a material that acts as a conductor that loses electrical resistance and sends unlimited current. This material is called a superconductor. In general, a superconducting magnet is manufactured by stacking a plurality of coils, and a superconducting magnet using a low temperature superconducting magnet and a high temperature superconducting magnet together is composed of an inner coil 11 and an outer coil 10 as shown in FIG. 1. In addition, the inner coil 11 is composed of a high temperature superconducting main coil (11a) and a high temperature superconducting auxiliary coil (11b) provided in the upper and lower ends. The outer coil 10 uses a low temperature superconductor (LTS) such as niobium titanium (NbTi) and niobium tin (Nb3Sn) having superconducting properties at a liquid helium temperature (-268 ° C. at 1 atm). The inner coil 11 is made of a high temperature superconductor (HTS) having superconducting properties at a temperature substantially higher than the liquid helium temperature.

In recent years, the use of high temperature superconducting wires has been actively used in devices that generate a high magnetic field by improving and extending the critical current of the high temperature superconducting wires constituting the inner coil 11. However, there is a problem that the critical current of the superconducting device is reduced by the direction of the magnetic force line in the high temperature superconducting device. In particular, in a superconducting magnet in which a high magnetic field is generated, a magnetic field generated and distributed near the upper and lower ends of the superconducting coil limits the threshold current of the superconducting coil, thereby reducing the efficiency of the device.

Republic of Korea Patent No. 10-0588981

The present invention is to solve the above problems, by using the auxiliary coil to reduce the vertical component (vertical magnetic field) of the magnetic field to reduce the critical current of the superconducting coil and the resulting decrease in the central magnetic field and improve the efficiency of the superconducting device It is to provide a double pancake (DPC) type high temperature superconducting magnet that can be maximized.

In order to achieve the above object, a double pancake type superconducting magnet according to the present invention is a superconducting magnet composed of a stack of double pancake type coils, a superconducting wire bobbin for winding and supporting a superconducting wire generating a magnetic field, and the superconducting wire And a main coil unit, an auxiliary coil unit positioned at upper and lower ends of the main coil unit, a support for stacking and supporting the superconducting wire bobbin, and a current supply bus bar for supplying current to the superconducting magnet.

The superconducting wire may have a tape shape, and the superconducting wire may be wound around the superconducting wire bobbin so that the start and end portions of the superconducting wire are disposed outside the main coil part and the auxiliary coil part.

The auxiliary coil unit may increase the efficiency of the device by reducing the vertical magnetic field generated in the upper and lower ends of the main coil unit to increase the threshold current of the superconducting magnet.

The auxiliary coil unit may reduce the vertical magnetic field by supplying a current by winding the superconducting wire in a plurality of layers.

The current supply bus bar may be provided outside the main coil part and the auxiliary coil part to supply a current, and the limit of the current supply due to the influence of the magnetic field may be prevented.

According to the present invention, the auxiliary coil part is provided on the upper and lower ends of the main coil part, thereby reducing the vertical magnetic field generated at the upper and lower ends of the main coil part, thereby eliminating the reduction of the critical current of the superconducting coil and the resulting decrease in the central magnetic field. The efficiency of superconducting devices can be maximized.

1 is a view schematically showing a conventional high magnetic field generating superconducting magnet.
2 is a view schematically showing a double pancake type superconducting magnet having an auxiliary coil according to the present invention.
Figure 3 is a plan view schematically showing a double pancake type superconducting wire winding of the main coil unit according to the present invention.
4 is a view schematically showing a double pancake type superconducting wire winding of the auxiliary coil unit according to the present invention.

Hereinafter, the structure of the double pancake type superconducting magnet according to the present invention will be described in detail with reference to the drawings.

2 is a view schematically showing a double pancake type superconducting magnet having an auxiliary coil according to the present invention. Referring to FIG. 2, the double pancake type superconducting magnet according to the present invention includes a superconducting wire bobbin 12, a main coil part 13, an auxiliary coil part 14, a support base 15, and a current supply bus bar. (16).

The superconducting wire bobbin 12 is wound and supported by a superconducting wire 23 which generates a magnetic field. The superconducting wire bobbin 12 surrounds the outside of the main coil part 13 and has a shape in which the superconducting wire 23 is wound around the main coil part 13.

The main coil part 13 includes the superconducting wire 23, and the main coil part 13 is sequentially stacked using the support 15. At this time, each of the coils of the main coil unit 13 has an insulating material inserted therebetween for electrical insulation, so that interlayer insulation can be performed even at a high current. The stacked main coils 13 are fixed by the support 15 and may form structurally stable structures by using reinforcement materials at upper and lower ends as necessary.

The auxiliary coil unit 14 is located at the upper and lower ends of the main coil unit 13. The auxiliary coil unit 14 reduces the current of the superconducting wire 23 generated by the magnetic field component (vertical magnetic field) incident perpendicularly to the superconducting magnet by the magnetic field generated when the tape having the tape shape is used in the superconducting magnet. And thereby reduce the central magnetic field. By using the auxiliary coil unit 14 to reduce the eddy current generated by induced in the superconducting wire 23 by the vertical magnetic field, it is possible to improve the magnetic field stability of the superconducting magnet to generate a high magnetic field.

The support 15 stacks and supports the main coil part 13, the auxiliary coil part 14, and the superconducting wire bobbin 12. In addition, current may be supplied to the superconducting magnet through the current supply bus bar 16.

The superconducting wire 23 may have a tape shape, and as shown in FIG. 3, the starter 19 and the end 20 of the superconducting wire are the main coil part 13 and the auxiliary coil part 14. It may be wound on the superconducting wire bobbin 12 to exist outside of. It is wound from the superconducting wire starting portion 19 around the first main coil 17, and is wound around the second main coil 18 to finish at the superconducting wire ending 20.

By disposing the start portion 19 and the end portion 20 of the superconducting wire to the outside, as shown in FIG. 2, the current supply bus bar 16 is connected to the main coil portion 13 and the auxiliary coil portion 14. It can be installed outside. The current supply bus bar 16 may be provided outside the coil parts 13 and 14 to prevent the supply of current due to the influence of a magnetic field. That is, the position of the current supply bus bar 16 configured as described above can be optimized to prevent the current lead from reducing the amount of energized current due to the influence of the magnetic field and to efficiently generate a high magnetic field in the superconducting magnet.

The auxiliary coil unit 14 has the same structure as that of the main coil unit 13, but may be wound with superconducting wires 23 having various sizes. As shown in FIG. 4, the superconducting wire 23 may be wound in two or more layers. The tape-shaped superconducting wire 23 may be wound in a plurality of layers to supply a relatively large amount of current, and thus may have a high current capacity. Therefore, the vertical magnetic field generated at the upper and lower ends of the main coil part 13 can be greatly reduced.

By such a double pancake type superconducting magnet, the vertical magnetic field generated at the upper and lower ends of the main coil part 13 is reduced, thereby eliminating the reduction of the critical current of the superconducting coil and the resulting decrease in the central magnetic field and maximizing the efficiency of the superconducting device. You can.

Although described above with reference to the embodiments, those skilled in the art can be variously modified and changed within the scope of the present invention without departing from the spirit and scope of the invention described in the claims below. I can understand.

10: outer coil 11: inner coil
11a: high temperature superconducting main coil 11b: high temperature superconducting auxiliary coil
12: superconducting wire bobbin 13: main coil
14: auxiliary coil 15: support
16: current supply bus bar 17: first main coil
18: second main coil 19: superconducting wire starting portion
20: superconducting wire end portion 21: first auxiliary coil
22: second auxiliary coil 23: superconducting wire

Claims (5)

A superconducting magnet composed of a stack of double pancake coils,
Superconducting wire bobbin for winding and supporting the superconducting wire rod generating a magnetic field;
A main coil part including the superconducting wire;
An auxiliary coil unit positioned above and below the main coil unit;
A support for stacking and supporting the superconducting wire bobbin; And
Including a current supply bus bar for supplying current to the superconducting magnet,
The superconducting wire is tape-shaped,
The start and end portions of the superconducting wire are wound around the superconducting wire bobbin so as to be disposed outside the main coil part and the auxiliary coil part.
The auxiliary coil unit, the double pancake-type superconducting magnet, characterized in that to reduce the vertical magnetic field by supplying a current by winding the superconducting wire in a plurality of layers.
delete The method of claim 1,
The auxiliary coil unit reduces the vertical magnetic field generated in the upper and lower ends of the main coil unit to increase the critical current of the superconducting magnet to increase the efficiency of the device, characterized in that the double pancake type superconducting magnet. delete The method of claim 1,
The current supply bus bar is provided on the outside of the main coil portion and the auxiliary coil portion to supply a current, the double pancake type superconducting magnet, characterized in that the restriction of the current supply due to the influence of the magnetic field is prevented.

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