KR100706491B1 - Cryostat for three superconducting cable - Google Patents

Abstract

 The present invention relates to a termination box for a three-phase package superconducting cable having a structure such that the three-phase package superconducting cable can be connected to the current terminal through one termination box.

In the present invention, three cable cores 22 of the superconducting cable 20 are placed into one end junction box 1; Three current terminals 10 are provided at one side of the terminal junction box 1; An end of the current terminal 10 is provided with a termination box for a three-phase package type superconducting cable, characterized in that each of the three cable core 22 in the one end junction box (1) has a structure connected to each other do.

According to the present invention, there is no need for a conventional three-phase branch box, and thus, there is an advantage that the cost increase, the assembly work, etc., due to the installation of the three-phase branch box can be avoided. Since the current terminals can be connected to each of the cores of the superconducting cable collectively, it is possible to avoid inconveniences and disadvantages such as an increase in the cost of installing a separate termination box, an increase in assembly work, and a narrow space.

 Superconducting Cables, Cable Cores, Termination Box, Insulated Spacer

Description

 Termination box for three-phase package superconducting cable {Cryostat for three superconducting cable}

 1 is a schematic perspective view showing a connection structure of a three-phase superconducting cable using a conventional termination box.

2 is a schematic cross-sectional view showing the internal structure of a conventional three-phase superconducting cable.

3 is a schematic perspective view showing a shape in which a terminal box of a three-phase package according to the present invention is connected to a superconducting cable.

4 is a schematic translucent view showing the internal structure of the termination box shown in FIG.

FIG. 5 is a cross-sectional view taken along the line A-A of FIG. 3, and is a schematic cross-sectional view showing three current terminals connected to three cable cores provided in the superconducting cable, respectively.

* Explanation of Signs of Major Parts of Drawings *

1: Termination junction box 2: 3 phase insulation spacer

10 current terminal 11 bushing

20: three-phase collective superconducting cable 22: cable core

 The present invention relates to a termination box for a superconducting cable (Cryostat), and more particularly to a termination box having a structure that allows the three-phase batch type superconducting cable can be connected to each of the current terminals through one termination box. .

Power cables using superconductors, or "superconducting cables," have the advantage of being able to transmit relatively large amounts of power and with very little power loss. In order to transmit power using such a superconducting cable, a terminator (Cryostat) is essential. The terminal junction box functions to connect a current lead and a superconducting cable for drawing current and voltage. 1 is a schematic perspective view showing a connection structure of a three-phase packaged superconducting cable using a conventional termination box, and FIG. 2 is a schematic cross-sectional view of an internal structure of a conventional three-phase packaged superconducting cable. .

The three-phase packaged superconducting cable 200 has three cable cores. In order to connect the three-phase packaged superconducting cable 200 with the current terminal, the superconducting cable 200 must be branched into three cable cores 202 through the three-phase branch box 201, as shown in FIG. do. Each superconducting cable core 202 branched by a three-phase branch box 201 is connected to one side of three separate terminating boxes 100. On the other side of each of the individual terminal junction box 100, a current terminal 102 made of a conductor is disposed insulated by a bushing 101 for insulation and heat intrusion prevention.

Looking at the structure of the terminal junction box 100 and the three-phase branching box 201 with reference to Figure 2, one cable core branched by a three-phase branching box 201 inside the termination box 100 202 is positioned, and one end of the current terminal 102 inserted and disposed from the other side of the terminal junction box 100 is connected to the cable core 202 in the terminal junction box 100. . In order to maintain the superconducting state of the superconducting cable 200, the interior of the termination junction box 100 to which the cable core 202 and the end of the current terminal 102 are connected must maintain a cryogenic state. To this end, the conventional termination box 100 has a high vacuum heat insulating layer 103 on the outside, the inner space 104 of the heat insulating layer 103 is filled with a low-temperature refrigerant (mainly liquid nitrogen). One end of the current terminal 102 is connected to the branched cable core 202 inside the termination junction box 100. In FIG. 2, member number 105 is an insulating spacer 105 for a current terminal, and member number 106 is a reinforcement insulating portion 106 made of insulating paper and a bell mouse. Reference numeral 107 denotes a single-phase insulating spacer 107 for arranging one cable core 202 insulated from the termination box 100.

However, in the case of the conventional termination box 100 as described above, only one superconducting cable core 202 and one current terminal 102 are connected in one termination box. Therefore, in order to connect the three-phase superconducting cable, that is, the superconducting cable having three superconducting cable cores with each current terminal, as shown in FIG. 1, the cores of the superconducting cable are separated into three, that is, separated into three phases. Three-phase branch box 201 is necessary. As such, since the three-phase branch box 201 must be used, the cost is increased and the installation work is cumbersome.

In addition, since three separate terminating boxes must be separately prepared for the three superconducting cable cores, there is a disadvantage in that the preparation of the terminating boxes requires a considerable cost. In addition, since three separate termination boxes are installed, a lot of installation space is required, and since there are several termination boxes, there is a disadvantage in that the arrangement becomes complicated.

 The present invention was developed to overcome the disadvantages of the conventional termination box as described above, an object of the present invention, in connecting a three-phase package type superconducting cable and a current terminal using a termination box, three-phase package By allowing three cable cores of the type superconducting cable to be connected to each current terminal in one termination box, three-phase branch boxes are not required, reducing costs and minimizing installation work. In addition, it provides a termination box for a three-phase packaged superconducting cable with a new structure that avoids complicated arrangement after installation.

 In order to achieve the above object, in the present invention, by terminating the three-phase package type superconducting cable and the current terminal is connected, the three cable cores of the superconducting cable are placed in one termination box; Three current terminals are provided on one side of the terminal box; An end of the current terminal is provided with a termination box for a three-phase package type superconducting cable, characterized in that it has a structure connected to each of the three cable cores in one termination box.

In the present invention, as an embodiment of the three-phase package type superconducting terminal termination box, the three cable cores of the superconducting cable, three through holes are formed, the cable core is inserted through each through hole Provided is a terminating junction box for a three-phase batch type superconducting cable, which is separated by an insulated state from one termination junction box and arranged side by side by a three-phase insulating spacer.

In addition, in the present invention, as another embodiment of the terminating box for the three-phase package type superconducting cable described above, the three-phase insulating spacer is made of cryogenic epoxy or fiber-reinforced plastic that can exhibit insulation performance even at cryogenic temperatures. Termination junction boxes for three-phase batch superconducting cables are provided.

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

3 is a schematic perspective view showing a shape in which the terminal junction box 1 according to the present invention is connected to a three-phase packaged superconducting cable 20, and FIG. 4 is a terminal junction box shown in FIG. A schematic translucency is shown showing the internal structure of 1). FIG. 5 is a cross-sectional view taken along the line A-A of FIG. 3, and a schematic cross-sectional view showing a form in which three current terminals are connected to three cable cores provided in the three-phase packaged superconducting cable, respectively.

The terminal junction box 1 according to the present invention has a heat insulation layer for internal heat insulation. For convenience, the outer shape of the terminal junction box 1 is illustrated by a dotted line in FIG. 4, and the inner wall forming the heat insulation layer is illustrated by a solid line. That is, the space between the solid line and the dotted line forms a heat insulating layer, and the inside of the solid line, that is, the inside of the terminal junction box 1, is filled with a low temperature refrigerant to maintain the cryogenic state.

As shown in the figure, one side of the termination junction box 1 according to the present invention is connected to a three-phase batch type superconducting cable 20, the three cable cores 22 provided in the cable 20 are all one The interior of the termination junction box (1) of the, and the interior of the termination junction (1) by the three-phase insulating spacer (2) newly proposed in the present invention is arranged insulated from each other at a predetermined interval. That is, the three-phase insulating spacer (2) is formed with three through holes, each cable core 22 is disposed through the through hole to ensure the necessary insulation separation distance to each other and at the same time terminated connection In the case of the box (1), three are placed in the terminal junction box (1) at the same time while ensuring an insulating separation distance. Also in FIG. 4, the member number 3 is the reinforcing insulation part 3. The three-phase insulating spacer 2 can be made of a material which not only has insulation performance but can also be used at cryogenic temperatures. For example, the three-phase insulating spacer 2 may be manufactured using cryogenic epoxy or fiber reinforced plastic (FRP).

In the present invention, three current terminals 10 are simultaneously installed on the other side of the termination junction box 1. That is, in the present invention, three current terminals 10 are provided in one termination box 1. The current terminal 10 is insulated by the bushing 11, one end of the current terminal 10 is exposed to the outside, and the other end of the current terminal 10 is internal (low temperature) of the termination box 1. Inside the refrigerant). It is preferable to use a bushing 11 filled with an insulating gas for the high potential current terminal 10.

 As shown in FIG. 5, the other ends of the current terminals 10 positioned inside the termination junction box 1 are arranged by three cable cores arranged side by side in an insulated state by a three-phase insulating spacer 2 ( 22) Connected with each. In FIG. 5, reference numeral 12 denotes a single-phase insulating spacer 12 that allows one side of the current terminal 10 to be positioned inside the termination junction box 1 while being insulated from the termination junction box 1.

As described above, in the present invention, the three cable cores 22 of the three-phase package type superconducting cable 20 are separated from each other in a state in which they are insulated by the three-phase insulating spacers 22 in one end junction box 1 in parallel. It has a structure that is arranged. Therefore, the present invention eliminates the need for a separate three-phase branch box 201 for separating the cores of the three-phase packaged superconducting cable, as in the conventional case.

In addition, in the present invention, all three current terminals 10 are provided in one termination box 1, and three cable cores 22 are each current terminals in one termination box 1. It has a structure connected with (10). Therefore, according to the present invention, it is not necessary to separately provide three termination boxes for connecting each cable core 22 and the current terminal 10 separately as in the conventional case.

 As described above, in the termination box according to the present invention, three cable cores of the three-phase package type superconducting cable can be connected to each current terminal in one termination box.

Therefore, the use of the terminal junction box of the present invention, there is no need for the conventional three-phase branch box, there is an advantage that it is possible to avoid the increase in cost, the increase in assembly work, etc. due to the installation of the three-phase branch box.

In addition, by using the termination box of the present invention, it is possible to collectively connect three current terminals with each of the cores of the superconducting cable with only one termination box, thereby increasing the cost of installing a separate termination box, assembly Discomfort and shortcomings such as increased work and narrow space can be avoided.

Claims (3)

 By terminating the connection between the three-phase package type superconducting cable 20 and the current terminal 10, Three cable cores 22 of the superconducting cable 20 are placed in one end junction box 1; Three current terminals 10 are provided at one side of the terminal junction box 1; An end of the current terminal (10) is a terminating box for a three-phase package type superconducting cable, characterized in that it has a structure connected to each of the three cable cores 22 in one terminating box (1).  The method of claim 1, The three cable cores 22 of the superconducting cable 20 have one through hole formed therein, and each through hole is terminated by a three-phase insulating spacer 22 through which the cable core 22 is inserted. Termination junction box for a three-phase package type superconducting cable, characterized in that separated from the junction box (1) and arranged side by side.  The method of claim 2,  The three-phase insulating spacer 22 is a terminating junction for a three-phase batch type superconducting cable, characterized in that the cryogenic epoxy or fiber reinforced plastic that can exhibit insulation performance even at cryogenic temperatures.

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