KR101514268B1 - Terminal apparatus for a superconducting cable with hybrid current lead - Google Patents

Abstract

The present invention relates to a terminal apparatus for a superconducting cable with hybrid current lead. The terminal apparatus for a superconducting cable includes has a pipe connector inside a refrigerant tank filled with liquid nitrogen, wherein one end of the pipe connector is connected to the superconducting cable and the other end of the pipe connector is connected to the current lead to be mutually conducted. The current lead comprises: first current lead which is disposed outside the liquid nitrogen; and second current lead which is connected between the bottom of the first current lead and the pipe connector, and disposed inside the liquid nitrogen, wherein the second current lead prevents joule heat generation. Disposing a superconducting conductor inside the second current lead prevents joule heat generation when applying an electric current.

Description

Technical Field [0001] The present invention relates to a terminal apparatus for a superconducting cable having a hybrid current lead,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a terminal for a superconducting cable having a hybrid current lead, and a terminal for a superconducting cable, which is connected to a superconducting cable and a superconducting cable, Technology.

Generally, a terminal device for a superconducting cable is a device for connecting a superconducting cable and a superconducting cable, that is, a superconducting cable for transmitting electric power at a cryogenic temperature is connected to an overhead transmission line at room temperature or to a power device such as a breaker Connection device.

  Such a superconducting cable terminal device is disclosed in Korean Patent No. 10-0892561, Korean Patent No. 10-0508710, Registered Patent No. 10-0590200, Registered Patent No. 10-0642538, Published Patent No. 10-2007-0003879 And the like.

  1 is a schematic view of a conventional conventional superconducting cable terminal device disclosed in Korean Patent No. 10-0892561 of the above publication. 1, a superconducting cable terminal apparatus 10 includes a refrigerant tank 30 in which a distal end portion of a superconducting cable 20 is accommodated and a refrigerant 31 such as liquid nitrogen is filled therein, An insulator 50 composed of a vacuum heat-insulating container 40 surrounding the outside of the superconducting cable 30 and a magnet (insulator) disposed on the room temperature side of the vacuum heat-insulating container 40; A current lead 60 connected to the refrigerant tank 30 and the vacuum heat insulating container 40 and extending into the insulator 50 to be connected to a bus line such as a processing power transmission line or an electric power device, .

 In the conventional superconducting cable terminal device 10, only a general metal such as copper or aluminum has been used as the current lead 60 in the related art.

 However, since the current lead 60 made of copper or aluminum has electric resistance, a string of heat is always generated. Also, the cross-sectional area of the current lead designed to meet the current capacity of the superconducting cable has been problematic in that heat from the outside is invaded.

 Patent Registration 10-0473565 for Improvement of Such An example of providing a terminal for a high-temperature superconducting power cable having a cooling structure for reusing gaseous nitrogen evaporated by the latent heat of evaporation of liquid nitrogen to minimize heat invasion in the terminal have.

 As another terminal structure of a superconducting cable, for example, one having a structure shown in Fig. 3 is known (see Patent Document 2: JP-A-2002-238144). Also in this terminal structure, a bushing that electrically conducts between a superconducting conductor and a conductor (not shown) provided on the room temperature side uses a common metal such as copper or aluminum in the center portion.

However, the conventional metal still has a problem of generation of a joule heat, and in particular, there is an excessive heat generation problem in the case of a large current.

KR 10-0892561 B1

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above-described problems, and it is an object of the present invention to provide a superconducting device having a hybrid type current lead which prevents generation of a joule heat to a current lead side, And a terminal device for a cable.

In order to accomplish the above object, the present invention provides a superconducting cable terminal device in which a connector is provided in a coolant tank filled with liquid nitrogen, one end of the connector is connected to a superconducting cable, and the other end of the connector is connected to a current lead, Wherein the current lead comprises a first current lead provided outside the liquid nitrogen and a second current lead connected between the lower portion of the first current lead and the connection port to be provided in the liquid nitrogen, A plurality of holes are formed along an inner circumferential surface of the superconducting conductor so that the superconducting conductor is inserted to block the generation of heat in the energization state while the second current lead has a plurality of grooves connecting the both ends along the outer circumferential surface, And a tubular outer member coupled to receive said inner member to form said hole, said second current lead being connected to said second current And a plate which is integrally formed at an end of the receiving port and formed with a bolt hole on the outer side and connected to the upper end of the connecting port and the lower end of the first current lead, Is further provided with a bracket.

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And the second current lead has a smaller cross-sectional area than the first current lead.

The first current lead and the second current lead may be copper or a copper alloy.

According to the present invention having the above-described configuration, the following effects can be expected.

First, when a high-temperature superconducting wire exhibiting superconductivity at a liquid nitrogen temperature is used for a low-temperature portion of a superconducting cable terminal, it is possible to eliminate the occurrence of jeruch in an applied region. In addition, since the cross-sectional area of the current lead can be reduced in liquid nitrogen, Thereby reducing the heat input.

A hybrid current lead using a high-temperature superconducting conductor is proposed for a conventional metal current lead and a low temperature portion having liquid nitrogen. In the interval of electrical resistance '0', it is possible to eliminate the occurrence of joule heat, and the metal can be used in the minimum cross sectional area because it plays the role of support. This also minimizes thermal intrusion.

1 is a schematic view of a conventional superconducting cable terminal apparatus.
2 is a diagram illustrating an example of a terminal device for a superconducting cable having a hybrid current lead according to an embodiment of the present invention.
3 (a) and 3 (b) are views each showing a perspective view and an exploded view of a second current lead.
4 (a) and 4 (b) show an embodiment of the second current lead.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a diagram illustrating an example of a terminal device for a superconducting cable having a hybrid current lead according to an embodiment of the present invention.

Referring to FIG. 2, a terminal device for a superconducting cable with a hybrid type current lead according to the present invention is provided with a connection port 200 inside a conventional liquid nitrogen filled refrigerant tank 100, and one end of the connection port 200 is connected to a superconducting cable And the other end of the connector 200 is connected to the current lead 400 to be mutually energized. The configuration of the current lead 400 is detailed in the terminal device for a superconducting cable.

The current lead 400 of the present invention includes a first current lead 420 provided outside the liquid nitrogen and a second current lead 420 connected between the lower portion of the first current lead 420 and the connector 200, And the second current lead 440 provided therein realizes a dual-structured current lead.

Of course, the refrigerant tank 100 includes not only liquid nitrogen but also a gaseous nitrogen layer as an upper layer. In addition, it is preferable that a cover is coupled to the outside of the coolant tank 100 to provide heat insulation.

Also, the second current lead 440 may be formed of a hybrid type current lead by providing a superconducting conductor 442 therein.

That is, the second current lead 440 has a superconducting conductor 442 embedded in a portion where a large amount of heat is generated, so that the superconducting conductor 442 exhibits superconductivity at a liquid nitrogen temperature, ) Heat generation is blocked.

Also, since the second current lead 440 supports the superconducting conductor 442, the second current lead 440 can be utilized with a minimum cross-sectional area. This can be expected to minimize the heat penetration from the outside.

By doing so, the second current lead 440 can be made smaller in cross-sectional area than the first current lead 420.

Here, the first current lead 420 and the second current lead 440 may be made of any material capable of conducting electricity, but copper or a copper alloy is preferably used.

The second current lead 440 includes a pair of brackets 449 which receive both ends of the second current lead 440 and are respectively connected to the connection terminal 200 and the first current lead 420, . This will be described in detail below with reference to FIGS. 3 (a) and 3 (b).

3 (a) and 3 (b) are views each showing a perspective view and an exploded view of a second current lead.

3 (a) and 3 (b), the second current lead 440 is formed with a plurality of holes 444 along the inner circumferential surface thereof to insert the superconducting conductor 442 therein.

Here, a pair of brackets 449 for accommodating both ends of the second current lead 440 are further provided.

The bracket 449 can be fitted with a tubular receiving port formed on the coupling side of the second current lead 440 and formed integrally in the form of a plate on the receiving port end so that a bolt hole is formed on the outer side, 1 current lead respectively.

Of course, the shape of the bracket 449 can be variously implemented.

The pair of brackets 449 allow the second current lead 440 to easily connect between the first current lead and the connector, and can also be easily separated.

The second current lead 440 includes an inner member 446 having a plurality of grooves for connecting both ends of the second current lead 440 along the outer circumferential surface thereof and a tubular outer member 444 for receiving the inner member 446, (448).

Thus, the inner member 446 processes the rods in the longitudinal direction to form a groove to provide a space in which the superconducting conductor can be seated. After the superconducting conductor is seated, the inner member 446 is attached to the outer member 448 It is possible to easily provide a superconductor inside the second current lead by joining both ends after inserting.

Therefore, the superconducting conductors 442 can be arranged at regular intervals along the inner circumferential surface of the second current lead 440. [

4 (a) and 4 (b) show an embodiment of the second current lead.

4 (a), the inner member 446 is formed with grooves symmetrically upward, downward, leftward, and rightward with respect to the center line, and the holes 444 are formed by the engagement of the outer member 448.

4 (b) shows that eight holes are formed on the inner surface of the inner member 446 with respect to the center line, and the holes 444 are formed by the coupling of the outer member 448.

It goes without saying that the superconducting conductor can be accommodated by variously performing the number and shape of the holes of the second current lead according to the use environment as well as the above example.

Therefore, according to the present invention, the superconducting conductor is used in a portion where the main heat generation of the terminal occurs in the current lead, and there is an advantage that the heat generation can be minimized, particularly in accordance with the energization of the large current.

As described above, it can be seen that the present invention provides a terminal device for a superconducting cable having a hybrid type current lead as a basic technical idea. Within the scope of the basic idea of the present invention, Of course, many other variations are possible for those of ordinary skill in the art.

100: Refrigerant tank 200: Connection port
300: Superconducting cable 400: Current lead
420: first current lead 440: second current lead
442: superconducting conductor 444: hole
446: inner member 448: outer member
449: Bracket

Claims (6)

A connection terminal 200 is provided in a liquid nitrogen filled tank 100 and a connecting terminal is connected to the superconducting cable 300 and a connecting terminal is connected to the current lead 400 to be mutually energized, In this case,
The current lead 400 includes a first current lead 420 provided outside the liquid nitrogen and a second current lead 440 connected between the lower portion of the first current lead and the connection port and disposed inside the liquid nitrogen. However,
The second current lead 440 is formed with a plurality of holes 444 along the inner circumferential surface thereof so that the superconducting conductor is inserted to block the generation of heat in the energization,
The second current lead 440 includes a circular-bar-shaped inner member 446 having a plurality of grooves connecting both ends thereof along the outer circumferential surface thereof, a tubular outer member 448 coupled to receive the inner member to form the hole, ≪ / RTI >
The second current lead 440 may include a receiving hole capable of receiving and fitting both ends of the second current lead, a bolt hole integrally formed at the receiving end and having an outer side, And a pair of brackets (449) formed of plates connected to the lower ends of the current leads, respectively. delete delete delete The method according to claim 1,
The second current lead (440)
And a cross-sectional area of the first current lead (420) is relatively smaller than that of the first current lead (420). The method according to claim 1,
The first current lead 420 and the second current lead 440,
Wherein the superconducting cable is made of copper or a copper alloy.

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