JP2633613B2 - Simple termination for power cable withstand voltage test - Google Patents

Description

Description: TECHNICAL FIELD [0001] The present invention relates to a simple termination for a power cable withstand voltage test that is performed in a power cable frame withstand voltage test.

(Technical Background of the Invention and Problems to Be Solved) With respect to a power cable after manufacture, a withstand voltage test is mentioned as an item for testing the electrical characteristics. This exam is
For example, a predetermined high voltage is applied to one end of a power cable wound around a cable drum, and it is evaluated whether the withstand voltage characteristic satisfies a standard.

In this test, the open end of the power cable is subjected to a predetermined simple terminal treatment so as not to cause insulation breakdown. or,
In the case of a pressure test of an OF cable, a hydraulic tank for supplying insulating oil is connected to the simple end.

FIG. 2 shows a simplified termination cross-sectional view for testing an OF cable when a conventional 280 KV withstand voltage test is performed.

In the figure, the cable sheath 2 of the OF cable 1 is peeled off at its end, exposing the insulator 3 for a predetermined length. The insulating pipe 4 is covered so as to accommodate the entire cable terminal, including the vicinity of the stripped end of the cable sheath. In the insulating pipe 4, the cable insulator 3 is covered with a diameter adjusting roll 5 and a plug-in type condenser cone 6 on the outer periphery thereof. The plug-in condenser cone 6 is formed by winding oil-impregnated paper and metal foil in a predetermined shape, and the diameter adjusting roll 5 is inserted so as to fill a gap between its inner diameter and the outer shape of the cable insulator 3. Have been.

On the other hand, the conductor 7 exposed from the end of the insulator 3 is covered with a temporary fixing member 8, and an oil stopper PVC (polyvinyl chloride) is used to seal the space between the temporary fixing member 8 and the cable insulator 3. A tape 9 is wound. A refueling hose 10 is connected to a tip of the temporary fixing member 8, and is connected to a refueling tank (not shown).

On the other hand, the space between the cable sheath 2 and the insulating pipe 4 is sealed by a lead-free seal portion 11. The lead-free seal portion 11 includes a cylindrical portion 12, a flange portion 14, a rubber packing 13 sandwiched therebetween, and a space between the cylindrical portion 12 fitted into the insulating pipe 4 and the insulating pipe 4. And an oil stopper PVC tape layer 15 to be sealed.

The cable sheath 2 of the cable 1 is made of an aluminum corrugated pipe or the like. A rubber packing 13 fitted around the outer periphery of the cable sheath is sandwiched between the cylindrical portion 12 and the flange 14, and the bolt 16 is tightened. Adhere to the outer circumference. Thereby, the seal between the insulating pipe 4 and the cable sheath 2 is completed.

The simple termination of the above configuration uses OF cable No. 200 insulation (280
It has been conventionally used as a termination for frame withstand voltage tests of KV or less. The inside of the insulating pipe 4 is filled with an insulating oil 17, and a spacer 4a made of an acrylic plate or the like is used to support the oil by inclining it.
Is used to center the cable.

By the way, in the frame withstand voltage test using a voltage exceeding the 280 KV withstand voltage, the simple termination shown in FIG. 2 has somewhat insufficient characteristics, and the insulator termination shown in FIG. 3 is used. This end is accommodated inside the insulator tube 18.

The configuration of the diameter adjusting roll 6, which is fitted on the outer periphery of the cable insulator 3, the plug-in type condenser cone 5, the temporary fixing member 8, and the like are the same as those shown in FIG. Although not shown, the cable sheath 2 and the insulator 18
And the lead-free seal structure between them is almost the same as that shown in FIG.

However, at this end, the interior of the insulator tube 18 is evacuated in advance in order to enhance the withstand voltage characteristics, and the insulating oil 17
To be filled with oil. This is, for example, 350KV10
It is used for the withstand voltage test of OF cable No.250 insulation, which requires a withstand voltage test for one minute.

However, assembling the terminal end as shown in FIG. 3 requires a long working time and a large test space as compared with the simplified terminal end shown in FIG. was there. In addition, when the simple type end shown in FIG. 2 is used, the frame pressure test can be completed in one frame per day, whereas when the outer type end shown in FIG. 3 is used,
Including preparation work such as evacuation and the like, there was also a problem that a frame withstand voltage test time of about three days per frame was required.

(Object of the Invention) The present invention has been made in view of the above points, and a simple type termination can be used for a withstand voltage test of a higher voltage than before, and the power cable withstand voltage has been improved to improve the workability. It is intended to provide a simple termination for testing.

(Summary of the Invention) A simple end for a power cable withstand voltage test according to the present invention is a cable end exposed by removing a cable sheath, an insulated pipe for accommodating the entire cable end including the vicinity of the stripped end of the cable sheath, and an insulation pipe. A diameter adjusting roll fitted on the outer circumference of the cable insulator in the pipe, a plug-in condenser cone fitted on the outer circumference of the diameter-matching roll, and insulation reinforcement provided on the cable sheath peeling end side of the plug-in condenser cone. Push-up roll, an electric field relaxing metal cap covering the end of the cable insulator and the conductor exposed therethrough, an oil supply hose penetrating the metal cap and applying oil pressure to the conductor, and the cable sheath peeling A lead-free seal portion for sealing between the vicinity of the end and the insulating pipe; and a space in the insulating pipe. And an insulating oil that is filled with:

(Embodiment of the Invention) Hereinafter, the present invention will be described in detail with reference to an embodiment shown in the drawings.

FIG. 1 is a longitudinal sectional view showing an embodiment of a simple termination for a power cable withstand voltage test according to the present invention.

In the figure, a cable sheath 2 of the cable 1 is
It is peeled off leaving the insulator 3 of a predetermined length. The insulating pipe 4 is covered so as to accommodate the entire cable terminal, including the vicinity of the strip end of the cable sheath.
This insulating pipe 4 is made of a hard vinyl chloride resin or the like.

When compared with the insulating pipe 4 of FIG.
The conventional insulating pipe 4 shown in the figure has an outer diameter of 200 mm,
Compared to the case of using a pipe having a length of about 2000 mm, in the case of the present invention, the insulating pipe 4 is formed with an outer diameter of 200 mm and a length of 3000 mm.
Select the degree.

A diameter adjusting roll 5 is fitted around the outer periphery of the cable insulator 3, and a plug-in type condenser cone 6 is fitted around the outer periphery thereof.
Is inlaid. The diameter adjusting roll 5 and the plug-in type condenser cone 6 are the same as the conventional one.

However, in the case of this simple termination, the length is longer than that of the conventional one, and the push-up roll 20 is provided for insulation reinforcement on the stripped end side of the cable sheath.
The push-up roll 20 is formed by molding oil-impregnated paper so as to just fit into the insertion type condenser cone 6. In this way, insulation reinforcement on the side of the stripped end of the cable sheath and support of the plug-in type condenser cone 6 are performed.

Further, a tape winding layer 21 made of aluminum foil is formed on the outer periphery of the insulating pipe 4 for grounding. This tape winding layer is electrically connected to the cylindrical portion 12 of the lead-free seal portion 11,
It is electrically connected to the cable sheath 2 indirectly so as to have the same potential as this.

The structure of the lead-free seal portion 11 for sealing between the insulating pipe 4 and the cable sheath 2 and the oil-stop PVC tape 1 for sealing between the cable sheath 2 and the insulator 3
The configuration of 9 is exactly the same as that shown in FIG. 2, and a detailed description thereof will be omitted.

On the other hand, the conductor 7 exposed from the end of the insulator 3 is covered with a temporary fixing metal 8, and the space between the temporary fixing metal 8 and the insulator 3 is airtightly sealed with an oil-proof PVC tape 9. . Then, at the end of the temporary fixing bracket 8, a refueling hose
10 are installed. These configurations are also the same as those shown in FIG.

However, in the simple termination of the present invention, a metal cap 22 for relaxing the electric field is provided so as to cover the end portions of the temporary fixing member 8 and the insulator 3. And the insulating pipe 4
Is filled with an insulating oil 17. The distance from the tip of the insulating pipe 4 to the tip of the aluminum foil tape winding layer 21 was set to about 2500 mm in this embodiment.

Using the simple termination having the above configuration, a frame withstand voltage test for 350 KV for 30 minutes was performed, and a frame withstand voltage test for 380 KV for 15 minutes was performed. In each case, the test was successfully performed.

Therefore, for a frame withstand voltage test of such a voltage, one frame test can be completed in one day.
In addition, in terms of space, a space that takes up less space than the end of the insulator tube, for example, at a test site where there is only two frames of installation space in one test, install at least three frames, and perform these tests. You can do it at the same time.

(Effect of the Invention) According to the simple termination for the power cable withstand voltage test of the present invention described above, the frame withstand voltage test, which was conventionally performed only with the insulator type termination, can be performed using the simple type termination. The workability is improved, the test time is shortened, and the installation space is reduced.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view showing an embodiment of a simple termination for a power cable withstand voltage test according to the present invention, FIG. 2 is a longitudinal sectional view showing an example of a conventional simple termination for a test, and FIG. FIG. 1 ... Cable, 2 ... Cable sheath, 3 ... Cable insulator, 4 ... Insulated pipe, 5 ... Rolling roll, 6 ... Plug-in condenser cone, 7 ... Conductor, 8 ... Temporary oil stopper Metal fittings, 9,19… Oil-stop PVC tape, 10… Oil filler hose, 11… Lead-free seal, 20… Push-up roll, 21… Aluminum foil, 22… Metal cap.

Claims (1)

(57) [Claims] 1. An insulated pipe for accommodating an entire cable end including a portion near a stripped end of the cable sheath, wherein the cable end is exposed by removing the cable sheath, and a diameter fitted to an outer periphery of the cable insulator in the insulated pipe. A mating roll, a plug-in condenser cone fitted on the outer periphery of the diameter-matching roll, a push-up roll for insulation reinforcement provided on the cable sheath peeling end side of the plug-in condenser cone, and an end of the cable insulator. A metal cap for electric field relaxation covering the portion and the conductor exposed therethrough, an oil supply hose that penetrates the metal cap and applies oil pressure to the conductor, and a seal between the vicinity of the stripped end of the cable sheath and the insulating pipe. Lead-free seal and
A simple termination for a power cable withstand voltage test, comprising an insulating oil filled in a space in the insulating pipe.