KR101115731B1 - Cable center supporting metal of slip-on type end joint box - Google Patents

Abstract

PURPOSE: A cable center supporting metal of a slip-on type end joint box is provided to improve the quality of a connection box by keeping the center of a high voltage cable in the center of exposed high voltage cable. CONSTITUTION: An insulating tube covers the connection part of an extra high voltage cable and is comprised of a porcelain or a silicon material. An engage flange(22) is combined with the inner side of a fixed arm. A center maintaining unit(21) is bigger than the external diameter of the extra high voltage cable. The center maintaining unit divides a cylindrical metallic conduit.

Description

Cable center terminal of slip-on type terminal joint box {CABLE CENTER SUPPORTING METAL OF SLIP-ON TYPE END JOINT BOX}

The present invention relates to the termination of the ultra-high voltage cable, and more particularly to a center yugugu that maintains the center of the ultra-high voltage cable used in the air termination.

The terminal of the underground high voltage power cable is used to connect the overhead cable (EB-G) and the underground cable to the outside to connect overhead lines, breakers, transformers, etc. It is divided into end junction box (EB-A).

The air door sealing end covers the connected part with a corrugated pipe of magnetic material or silicon material, and the length of the corrugated pipe is changed in consideration of the interface electric field characteristic according to the capacity of the ultra-high voltage cable.

The length of the tube is shorter from 3000mm to 5000mm long, and the exposed part of the ultra-high voltage cable connected according to the length of the tube is also longer.

Since the connected state of the air termination box is located in the form of the vertically mounted ultra high voltage cable with respect to the ground, the ultra high voltage cable is also placed in the vertical state, and the ultra high voltage cable is fixed at the distal end by a conductor drawing rod and The lower part is fixed by the outer case to be connected, and there is no part where the ultra-high voltage cable is fixed between the tip and the lower part.

That is, in the air termination box, the ultra-high voltage cable is placed vertically without any part fixed in the middle in a state where a considerable length is exposed, so it is in a state where it is energized for a long time. Problems with the bending of the cable part occur, resulting in problems with the power transmission system.

The present invention has been made to solve the above-described problems, it is possible to maintain the center of the ultra-high voltage cable at the lower end of the ultra-high voltage cable most vulnerable to mechanical stress or temperature characteristics of the ultra-high voltage cable long exposed during the terminal joint for the terminal processing of the ultra high voltage cable We are going to provide the center Yu-gu.

In order to solve the above-mentioned problems, the cable center terminal of the slip-on type terminal joint box according to the present invention is located in the insulating layer and the semiconducting layer of the ultra-high voltage cable and is slip-pressed to the ultra-high voltage cable by the elasticity of the silicon material. It is used in the slip-on type air terminal joint box that is connected by the stress cone connected to the connection, it is made of a metal material, and the fasteners are fastened to the love tube made of a magnetic material or silicon material to cover the connection of the ultra-high voltage cable It has a fastening flange coupled to the inside of the, is formed in a cylindrical shape and the inner diameter is characterized in that it has a center holding tube formed larger than the outer diameter of the semi-conductive layer sheath of the ultra-high voltage cable.

Here, the center holding tube may be formed in the form of a cylindrical metal tube, or may be made in the form of being assembled by half-dividing the cylindrical metal tube.

Here, the center holding tube may have an inner diameter smaller than that of the rear end portion.

Here, the front end of the center maintenance tube is preferably located at the lower end of the stress cone.

Here, the outer diameter of the center holding tube is preferably formed smaller than the outer diameter of the stress cone.

Here, at least one through hole may be formed at a predetermined position of the lower end of the center holding tube.

According to the configuration of the present invention described above, it provides a center end hole of the air terminal junction box to maintain the center of the ultra-high voltage cable at the lower end of the ultra-high voltage cable most susceptible to mechanical stress or temperature characteristics when the terminal joint for the terminal processing of the ultra-high voltage cable do.

In addition, by maintaining the center of the ultra-high voltage cable it is possible to improve the quality of the junction box in the ultra-high voltage power system to compensate for the cable bending due to cable fatigue due to long time loading.

Figure 1 shows a slip-on type lift terminal joint box is equipped with a cable center yogugu according to the present invention.
Figure 2 is a perspective view of the cable center yoke according to an embodiment of the present invention.
3 is an exploded perspective view of a cable center yoke sphere according to an embodiment of the present invention.
4 is a perspective view of a cable center yoke according to another embodiment of the present invention.
5 is a cutaway perspective view of a cut portion of the cable center yogugu according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described the structure of the cable center yoguguk of the slip-on type terminal joint box according to the present invention and its effects.

Terminal joint box described in the present specification is used in the same meaning as the terminal box for the ultra-high voltage cable, hereinafter referred to collectively used as a terminal, the center yugugu of the present invention is limited to that used in the air terminal The ultra high voltage cable is a cross-linked polyethylene (XLPE) cable.

Figure 1 shows a slip-on type lift terminal joint box is equipped with a cable center yogugu according to the present invention.

Referring to FIG. 1, the slip-on type air terminal joint box 10 of the present invention is a connection box used for drawing underground cables to the outside and connecting them to overhead lines, breakers, transformers, and the like.

The airborne terminal joint box 10 is formed of pores 11, upper shield 12, conductor drawing rod 13, fixing bracket 14, stress cone 15, sealing unit 16, insulating oil ( 17), the outer case 18 and the center yose sphere 20 is made.

The pipe 11 is made of a magnetic material or a silicon material, and the upper electrode 11a is formed at the upper side to be connected to the upper shield 12, and the lower electrode 11b is formed at the lower side to be connected to the fixing bracket 14. To protect the junction box while configuring the outside of the air terminal joint box 10 is used as an insulation reinforcement.

The conductor drawing rod 13 is inserted into the conductor 120 exposing the tip of the ultra-high voltage cable 110 and compressed, and is electrically connected to the upper electrode 11a of the tube 11.

The stress cone 15 is positioned to slip on the cable insulator and the semiconducting layer in which the cable aluminum sheath is removed while being inserted before the insertion and compression of the conductor drawing rod 13. The stress cone 15 is used for the purpose of relaxing the interfacial electric field of the cable, and is formed of an insulating part and a semiconducting part using a silicon material.

Since the stress cone 15 made of silicon has excellent elasticity, slip down to the insertion position of the cable having a larger outer diameter than the inner diameter of the stress cone 15 in the pre-inserted state so that the inner diameter of the stress cone 15 is stretched. As it grows larger, the cable is tightly mounted.

In other words, when the silicone stress cone 15 is connected in a slip-down manner, the stress cone, the cable, the stress cone and the epoxy (in the conventional air termination box, the epoxy bracket is inserted into the inner pipe separately. The absence of the pressure pipe and the pressure spring device that was used to maintain the interfacial pressure between

A semiconducting tape, a shield mesh tape, a self-adhesive tape, and a PVC tape formed on the insulating layer of the ultra-high voltage cable 110 are sequentially connected to the semiconducting portion 15b of the stress cone 15.

The sealing unit 16 is connected to the lower side of the stress cone 15, the sealing unit 16 uses a stretchable insulating material of silicon material. The sealing unit 16 is used for the purpose of internal sealing of the insulating oil 17, which is used as an ultra-high pressure insulating reinforcing material between the ultra-high voltage cable 110 and the aisle (11).

The outer side of the sealing unit 16 is sandwiched between the fixing bracket 14 and the flange of the outer case 18 and connected.

The pipe 11 is connected to and fixed to the base plate through the fixing bracket 14 and the support insulator 19.

Center yujagu 20 is located on the lower side of the stress cone 15, the lower end is fastened by the bolt and the inside of the fixing bracket (14).

The center yugugu 20 is formed in a cylindrical shape, and takes the form of wrapping the ultra-high voltage cable 110 while maintaining a predetermined interval therein.

Among the junction boxes of the ultra-high voltage cable, the junction box exposed to the air, that is, the air terminal junction box, is formed with a considerably long length of the pipe used for reinforcement in consideration of the interfacial electric field characteristic of the air. Because of this, the ultra-high voltage cable 110 is subjected to intensive external force at a position between the lower part that must withstand the load of the cable, that is, between the stress cone 15 and the fixing bracket 14, and also according to the long-term electrical loading, the ultra-high voltage cable 110 Due to the internal temperature fluctuations and the electrical load, bending of the ultra-high voltage cable 110 occurs.

In order to solve this problem, in the present invention, it is possible to improve the quality of the ultra-high voltage cable connection box by maintaining the center of the ultra-high voltage cable (110) by mounting the center groove (20) to the portion where the external force acts the most.

2 is a perspective view of a cable center yoke according to an embodiment of the present invention, Figure 3 is an exploded perspective view of a cable center yoke according to an embodiment of the present invention.

As shown in Figures 2 and 3, the center Yuja sphere 20 may be made of a cylindrical metal material, preferably may be formed of an aluminum tube.

The center maintenance wall 20 may be composed of a center holding tube 21 and a fastening flange 22, and the center holding tube 21 may be divided into half and the first center holding tube 21a and the second center holding tube 21b. The fastening flange 22 is also divided into half may be made of a first fastening flange (22a) and a second fastening flange (22b).

The first center holding tube 21a and the second center holding tube 21b may be coupled by the fastening bush 23 and the bolt 26, and the first fastening flange 22a and the second fastening flange 22b. It may be configured to be coupled by the fastening plate 24 and the bolt.

The inner diameters of the first and second center holding tubes 21a and 21b may be formed differently, and the inner diameter of the first and second center holding tubes 21a and 21b is preferably smaller than that of the rear end, and the portion of the inner diameter of the first and second center holding tubes 21a and 21b is fastened to the auxiliary support tube 28. It can be formed as.

The fastening auxiliary pipe 28 has a groove 27 into which the fastening bush 23 can be inserted, and at the same time, the inner diameter does not have a large difference from the outer diameter of the ultra high voltage cable 110, thus maintaining the efficiency of the center of the ultra high voltage cable 110. Make it even easier.

The fastening auxiliary pipe 28 may be integrally formed with the first and second center holding pipes 21a and 21b, and may be manufactured and welded as separate products as necessary.

One or more through-holes 25 may be formed directly on the fastening flange 22, and the through-holes 25 may be configured to smoothly circulate the insulating oil 17 that has sunk to the inside and outside of the center-oil spout 20. do.

Figure 4 is a perspective view of a cable center yogugu according to another embodiment of the present invention, Figure 5 is a cutaway perspective view of a cut portion of the cable center yogugu according to another embodiment of the present invention.

As shown in FIG. 4 and FIG. 5, the center oil hole 30 may be formed of a cylindrical metal material, and preferably, an aluminum tube.

Center yugugu 30 may be composed of the center maintenance tube 31 and the fastening flange (32).

The inner diameter of the center holding tube 31 may be formed differently, and the inner diameter of the front end portion is preferably smaller than that of the rear end portion, and the portion having the small inner diameter may be formed by the fastening auxiliary tube 34.

The inner diameter of the fastening auxiliary pipe 34 does not have a large difference with the outer diameter of the ultra-high voltage cable 110, so that the center maintenance of the ultra-high voltage cable 110 can be further promoted.

The fastening auxiliary pipe 34 may be formed integrally with the center holding pipe 31, and may be manufactured and welded as a separate object as necessary.

One or more through holes 33 may be formed directly on the fastening flange 32, and the through holes 33 may smoothly circulate the insulating oil 37 that has sunk downward into the center oil hole 30. .

Although the center yogugu 20 according to an embodiment of the present invention and the center ugugu 30 according to another embodiment are different in structure, they are substantially the largest in the connection process of the slip-on type terminal joint box. Have a difference.

The center yogugu 20 according to an embodiment is inserted in advance of the conductor 120 and the conductor pull-out rod 13 of the ultra-high voltage cable 110 and other accessory materials such as the stress cone 15 before the compression, that is, before the connection start After the connection of the stress cone 15 is completed, and then connected to the ultra-high voltage cable 110, it is a structure that can be connected, the center yogugu 30 according to another embodiment of the conductor 120 of the ultra-high voltage cable 110 And the connection structure which is mounted after the connection of the stress cone 15 is completed in the state of being previously inserted in the same order as the other components such as the stress cone 15 before the insertion and compression of the conductor drawing rod 13 and before the connection start. Have

That is, the center yugugu (20, 30) is determined which center ugugu (20, 30) to choose according to the order and method of the connection process, the function and role are the same.

The center yoggu spheres 20 and 30 are located at the lower end of the stress cone 15 in consideration of the electric field characteristics due to the ultra-high voltage, and the outer diameter thereof may be smaller than the outer diameter of the stress cone 15.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, As will be understood by those skilled in the art. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

10: air termination box 11: love
12: upper shield 13: conductor draw bar
14: fixed bracket 15: stress cone
16: sealing unit 17: insulating oil
18: outer case 19: support insulator
20, 30: Center Yugu Ward 21, 31: Center Maintenance Building
22, 32: fastening flange 21a: 1st center maintenance pipe
21b: 2nd Center Maintenance 22a: 1st Flange
22b: second tightening flange 23: fastening bush
24: fastening plate 25, 33: through hole
26: bolt 27: groove
28, 34: fastening auxiliary pipe 110: ultra high voltage cable
120: conductor

Claims (6)

It is used in the slip-on type air terminal joint box which is located in the insulation layer and the semiconducting layer of the ultra high voltage cable and is connected by the stress cone which is slip-pressed to the ultra high voltage cable by the elasticity rate of the silicone material.
Made of metal,
Has a fastening flange coupled to the inner side of the fixing bracket to be fastened to the tube formed of a magnetic material or silicon material to cover the connection portion of the ultra-high voltage cable,
The cable center of the slip-on type terminal joint box is formed in a cylindrical shape and has an inner diameter larger than the outer diameter of the semiconducting sheath of the ultra-high voltage cable. The method of claim 1,
The center maintenance tube is made of a cylindrical metal tube, or a half-divided cylindrical metal tube is assembled to form, the center of the slip-on type terminal joint box. The method of claim 1,
The center retainer tube is the inner diameter of the front end portion is formed smaller than the inner diameter of the rear end, the cable center yugu sphere of the slip-on type terminal joint box. The method of claim 1,
The front end of the center maintenance tube is located in the lower end of the stress cone, cable center yugugu of the slip-on type terminal joint box. The method of claim 1,
The outer diameter of the center holding tube is formed smaller than the outer diameter of the stress cone, cable center yugugu of the slip-on type terminal joint box. The method of claim 1,
One or more through-holes are formed in a predetermined position of the lower end of the center holding tube, the cable center yugugu of the slip-on type terminal joint box.

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