JP2022189167A - Intermediate connection structure of power cable - Google Patents

Abstract

To provide an intermediate connection structure of a power cable which is excellent in waterproof performance.SOLUTION: An intermediate connection structure of a power cable includes an intermediate connection part where an end of a first power cable and an end of a second power cable are connected to each other, a cylindrical coffin box covering the outer periphery of the intermediate connection part, and a compound provided between the intermediate connection part and the coffin box, wherein the coffin box has a first body part having a cylindrical shape and a second body part having a cylindrical shape which are assembled in an axial direction of the intermediate connection part; each of the first body part and the second body part has a lamination region having a first resin layer, a metal layer and a second resin layer in order from the inner periphery side of the coffin box; and at least one of the first body part and the second body part has a hole part penetrating from the inside to the outside in a radial direction of the coffin box, and a lid part blocking the hole part.SELECTED DRAWING: Figure 4

Description

The present disclosure relates to an intermediate connection structure for power cables.

The cable connection structure of Patent Document 1 includes a cable connection main body and a cylindrical coffin box. The cable connecting portion main body includes a connecting portion between the conductor of the first cable and the conductor of the second cable, and a rubber block covering the connecting portion. The coffin box houses the cable splice body. The coffin box protects the cable splice body from trauma when power cables are buried in the ground. The Coffin Box is constructed from reinforced fiber plastic.

JP 2005-253122 A

Development of an intermediate connection structure for power cables with excellent waterproof performance is desired. A coffin box made of resin as described above may not be able to prevent liquid such as water or gas such as water vapor from entering.

An object of the present disclosure is to provide an intermediate connection structure for power cables that is excellent in waterproof performance.

The power cable intermediate connection structure according to the present disclosure includes an intermediate connection portion where an end portion of a first power cable and an end portion of a second power cable are connected, and a tubular shape covering the outer periphery of the intermediate connection portion. and a compound provided between the intermediate joint and the coffin box, wherein the coffin box is axially combined with the intermediate joint into a tubular first body and a tubular second body portion, wherein the first body portion and the second body portion each include a first resin layer, a metal layer, and a second resin layer in order from the inner peripheral side of the coffin box At least one of the first body portion and the second body portion includes a hole penetrating inside and outside in the radial direction of the coffin box, and a lid closing the hole , has

The power cable intermediate connection structure according to the present disclosure is excellent in waterproof performance.

FIG. 1 is a partial cross-sectional view showing an outline of an intermediate connection structure for power cables according to an embodiment. FIG. 2 is a partial cross-sectional view schematically showing an intermediate connection portion provided in the power cable intermediate connection structure according to the embodiment. FIG. 3 is a cross-sectional view showing another example of the peripheral wall provided in the power cable intermediate connection structure according to the embodiment. FIG. 4 is a cross-sectional view showing an enlarged lamination region provided in the power cable intermediate connection structure according to the embodiment.

<<Description of Embodiments of the Present Disclosure>>
First, the embodiments of the present disclosure are listed and described.

(1) A power cable intermediate connection structure according to an aspect of the present disclosure includes an intermediate connection portion where an end portion of a first power cable and an end portion of a second power cable are connected, and an outer circumference of the intermediate connection portion. and a compound provided between the intermediate joint and the coffin box, wherein the coffin box is axially combined with the intermediate joint It has a cylindrical first main body portion and a cylindrical second main body portion, and the first main body portion and the second main body portion respectively include a first resin layer and a metal layer in order from the inner peripheral side of the coffin box , and a laminated region having a second resin layer, wherein at least one of the first body portion and the second body portion includes a hole penetrating inside and outside in the radial direction of the coffin box, and the hole and a closing lid.

The power cable intermediate connection structure is excellent in waterproof performance. The reason is that the Coffin box comprises stacked regions with metal layers. The moisture permeability coefficient of metal is lower than that of resin. The lower the moisture permeability coefficient, the more difficult it is for water vapor to permeate. That is, it is difficult for liquids such as water and gases such as water vapor to enter. Therefore, the above-mentioned coffin box having a metal layer can be used for liquids and gases with almost no weight and almost no increase in cost compared to a conventional coffin box without a metal layer and composed only of resin. intrusion can be suppressed. Therefore, the coffin box can omit the copper tube covering the outer circumference of the intermediate connection.

The hole is a hole for injecting a compound into the inside of the coffin box during the manufacturing process of the intermediate connection structure of the power cable. By closing the hole, the lid can suppress intrusion of liquid and gas from the hole.

(2) As one form of the intermediate connection structure for the power cable, the first main body portion has a first flange portion provided in an opening on the second main body side of the first main body portion, Said 2nd main-body part has a 2nd flange part provided so that said 1st flange part may be opposed, Said 1st flange part and said 2nd flange part are joined.

The above-mentioned form facilitates construction of an intermediate connection structure for the power cable that is excellent in waterproof performance.

(3) As one form of the intermediate connection structure of the power cable, further comprising a coaxial line, the first power cable and the second power cable having a shielding layer connected to the coaxial line, Said 2nd main-body part has a 1st cylinder part with which said 2nd power cable is pulled out, and a 2nd cylinder part with which said coaxial line is pulled out.

The above configuration tends to suppress intrusion of liquid and gas from the gap between the second power cable and the coaxial line and the second main body. In the above embodiment, the second main body has a first tubular portion and a second tubular portion from which the second power cable and the coaxial line are individually pulled out. Therefore, in the above embodiment, it is easier to make the gap smaller than in the case where the cylindrical portion is provided to collectively draw out the second power cable and the coaxial line.

(4) As one form of the intermediate connection structure for the power cable, at least one of the first body portion and the second body portion is formed of the first body portion or the second body portion so as to surround the hole. and a third flange portion provided at an opening of the peripheral wall portion, and the lid portion is joined to the third flange portion. be done.

The above-mentioned form tends to suppress infiltration of liquid and gas from the hole.

(5) As one form of the intermediate connection structure of the power cable from the above (1) to the above (3), at least one of the first main body and the second main body is configured to surround the hole so as to surround the first main body. It has a peripheral wall that continues to the outer peripheral surface of the main body or the second main body, and the lid surrounds the top that covers the opening of the peripheral wall and the outer periphery of the peripheral wall. and a cylindrical side wall portion, and a waterproof portion that integrally covers the peripheral wall portion and the side wall portion.

The above-mentioned form tends to suppress infiltration of liquid and gas from the hole.

<<Details of the embodiment of the present disclosure>>
Details of embodiments of the present disclosure are described below. The same reference numerals in the drawings indicate the same names.

<<Embodiment>>
[Intermediate connection structure of power cable]
An intermediate connection structure 1 for a power cable according to an embodiment will be described with reference to FIGS. 1 to 4. FIG. The power cable intermediate connection structure 1 of this embodiment includes an intermediate connection portion 2 , a cylindrical coffin box 5 , and a compound 6 . The intermediate connection portion 2 connects the end of the first power cable 201 and the end of the second power cable 202 . A coffin box 5 covers the outer circumference of the intermediate connection 2 . The coffin box 5 has a tubular first body portion 51 and a tubular second body portion 52 . The first body portion 51 and the second body portion 52 are combined in the axial direction of the intermediate connection portion 2 . A compound 6 is provided between the intermediate joint 2 and the coffin box 5 . One of the features of the power cable intermediate connection structure 1 of the present embodiment is that the first main body portion 51 and the second main body portion 52 are provided with a specific laminated region 57 shown in FIG. The configuration of the power cable intermediate connection structure 1 will be described in detail below. FIGS. 1 and 2 show cross sections of a portion of the power cable intermediate connection structure 1 taken along a plane along the axial direction of the first power cable 201 and the second power cable 202 .

[Coffin Box]
A coffin box 5 mechanically protects the intermediate joint 2 . In addition, the coffin box 5 suppresses infiltration of liquids such as water and gases such as water vapor. The coffin box 5 accommodates the intermediate connection 2, as shown in FIG. The coffin box 5 is configured in a tubular shape. The coffin box 5 has a first body portion 51 and a second body portion 52 . The first body portion 51 and the second body portion 52 are combined in the axial direction of the intermediate connection portion 2 . The first main body portion 51 and the second main body portion 52 have different configurations in this embodiment.

(first main body)
The first body portion 51 mainly covers the outer circumference of the first power cable 201 . The first body portion 51 is configured in a tubular shape. The first body portion 51 defines a series of internal spaces from the first end to the second end of the first body portion 51 . The first end is the end closer to the second body portion 52 . The second end is the end farther from the second body portion 52 . The inner diameter and the outer diameter of the first main body portion 51 decrease stepwise from the first end to the second end. The first body portion 51 has one first opening 511 and one second opening 512 .

A first opening 511 is provided at the first end. That is, the first opening 511 faces the second body portion 52 . In this embodiment, the first opening 511 is provided with a first flange portion 511a. The first flange portion 511 a is configured to protrude radially outward of the first body portion 51 . The first flange portion 511a has a circular frame shape. The first flange portion 511a is joined to a second flange portion 521a, which will be described later. By this joining, the first body portion 51 and the second body portion 52 are combined. This joining is performed by fastening with bolts. Since the first main body portion 51 and the second main body portion 52 are flange-joined in this manner, the coffin box 5 and the intermediate connection structure 1 for the power cable can be easily constructed. In this embodiment, a sealing member 90a is provided between the first flange portion 511a and the second flange portion 521a. A flat packing, for example, can be used as the sealing member 90a.

A second opening 512 is provided at the second end. The first power cable 201 is pulled out from the second opening 512 . A portion of the first power cable 201 exposed from the first main body portion 51 and the first main body portion 51 are continuously covered with the waterproof portion 91 . Specifically, the waterproof portion 91 straddles the periphery of the second opening portion 512 and covers the outer peripheral surface of the exposed portion and the outer peripheral surface of the first main body portion 51 . The waterproof part 91 prevents liquid and gas from entering the inside of the coffin box 5 from the second opening 512 .

(Second main body)
The second body portion 52 mainly covers the outer circumference of the second power cable 202 . The second body portion 52 is configured in a tubular shape. Unlike the first main body portion 51 , the second main body portion 52 forms an internal space bifurcated between the first end portion and the second end portion of the second main body portion 52 . The first end is the end closer to the first body portion 51 . The second end is the end on the far side from the first body portion 51 . The second main body portion 52 has a main tubular portion 523 , a first tubular portion 524 , a second tubular portion 525 and a connecting portion 526 .

The body tubular portion 523 is provided on the first end side. The first tubular portion 524 and the second tubular portion 525 are provided on the second end side. The first tubular portion 524 and the second tubular portion 525 are arranged in parallel in the radial direction of the main tubular portion 523 . The connecting portion 526 connects the first tubular portion 524 and the second tubular portion 525 . The internal space of the first tubular portion 524 and the second tubular portion 525 and the internal space of the main tubular portion 523 communicate with each other. The inner and outer diameters of the main tubular portion 523 are substantially uniform in the axial direction of the main tubular portion 523 . The inner diameter and the outer diameter of the first tubular portion 524 are uniform in the axial direction of the first tubular portion 524 . The inner diameter and outer diameter of the second tubular portion 525 are uniform in the axial direction of the second tubular portion 525 . In this embodiment, the inner and outer diameters of the first tubular portion 524 are larger than the inner and outer diameters of the second tubular portion 525 . The second body portion 52 has one first opening 521 and two second openings 522 .

A first opening 521 is provided at the first end. That is, the first opening 521 faces the first body portion 51 . The first opening 521 is an opening of the main tubular portion 523 . In this embodiment, the first opening 521 is provided with a second flange portion 521a. The second flange portion 521 a is configured to protrude radially outward of the second body portion 52 . The shape of the second flange portion 521a is annular. The second flange portion 521a is joined to the first flange portion 511a described above.

Two second openings 522 are provided at the second end. The first second opening 522 is the opening of the first tubular portion 524 . The second opening 522 is the opening of the second tubular portion 525 . The second power cable 202 is pulled out from the opening of the first tubular portion 524 . A coaxial line 7 , which will be described later, is drawn out from the opening of the second cylindrical portion 525 . A portion of the second power cable 202 exposed from the first tubular portion 524 and the first tubular portion 524 are covered in series with the waterproof portion 92 . Specifically, the waterproof portion 92 straddles the periphery of the opening of the first tubular portion 524 and covers the outer peripheral surface of the exposed portion and the outer peripheral surface of the first tubular portion 524 . A portion of the coaxial line 7 exposed from the second tubular portion 525 and the second tubular portion 525 are covered in series with the waterproof portion 93 . Specifically, the waterproof portion 93 straddles the periphery of the opening of the second tubular portion 525 and covers the outer peripheral surface of the exposed portion and the outer peripheral surface of the second tubular portion 525 . These waterproof portions 92 and 93 prevent liquid and gas from entering the interior of the coffin box 5 through the openings of the first tubular portion 524 and the second tubular portion 525 .

(Hole/cover)
The coffin box 5 has a hole 53 and a lid 54 . The hole 53 is a hole for injecting a compound 6, which will be described later, into the coffin box 5 during the manufacturing process of the intermediate connection structure 1 for power cables. The lid portion 54 closes the hole portion 53 . The lid portion 54 prevents liquid and gas from entering from the hole portion 53 .

The contour shape of the hole 53 can be selected as appropriate. The shape of the lid portion 54 will be described later. The number of holes 53 may be singular or plural. The number of lids 54 is the same as the number of holes 53 . The hole portion 53 is provided in at least one of the first body portion 51 and the second body portion 52 . When the number of hole portions 53 is singular, the hole portions 53 may be provided in either the first main body portion 51 or the second main body portion 52 . When the number of hole portions 53 is plural, at least one hole portion 53 is preferably provided in each of the first main body portion 51 and the second main body portion 52 . When the hole 53 is provided in each of the first main body 51 and the second main body 52, the compound 6 can be easily spread over a wide area inside the coffin box 5 in a short period of time during the manufacturing process.

In this embodiment, the number of holes 53 is two, ie, the first hole 531 and the second hole 532 . That is, the number of lid portions 54 is two, the first lid portion 541 and the second lid portion 542 . In this embodiment, the first hole portion 531 is provided in the first body portion 51 . The second hole portion 532 is provided in the second body portion 52 . The contour shapes of the first hole portion 531 and the second hole portion 532 are circular. The first lid portion 541 closes the first hole portion 531 . The second lid portion 542 closes the second hole portion 532 .

(peripheral wall)
The coffin box 5 of this embodiment preferably has a peripheral wall portion 55 . The peripheral wall portion 55 extends from the outer peripheral surface of the first body portion 51 or the second body portion 52 in which the hole portion 53 is provided so as to surround the hole portion 53 . The number of peripheral wall portions 55 is the same as the number of holes 53 . The shape of the peripheral wall portion 55 is a shape corresponding to the contour shape of the hole portion 53 .

In this embodiment, the number of peripheral wall portions 55 is two, that is, the first peripheral wall portion 551 and the second peripheral wall portion 552 . The first peripheral wall portion 551 extends from the outer peripheral surface of the first body portion 51 so as to surround the first hole portion 531 . The second peripheral wall portion 552 extends from the outer peripheral surface of the second main body portion 52 so as to surround the second hole portion 532 . The shape of the first peripheral wall portion 551 and the second peripheral wall portion 552 of this embodiment is cylindrical.

The peripheral wall portion 55 may have the third flange portion 56 as shown in FIG. 1, or may not have the third flange portion as shown in FIG. The third flange portion 56 is provided at the opening of the peripheral wall portion 55 . The opening of the peripheral wall portion 55 is provided on the side opposite to the hole portion 53 side. The third flange portion 56 is configured to protrude radially outward of the peripheral wall portion 55 . The shape of the third flange portion 56 is a circular frame shape. The lid portion 54 is joined to the third flange portion 56 . This joining is performed by fastening with bolts. By this joining, the lid portion 54 can be fixed to the peripheral wall portion 55 to maintain the state of closing the hole portion 53 . In this embodiment, a seal member 90b is provided between the lid portion 54 and the third flange portion 56. As shown in FIG. A flat packing, for example, can be used as the sealing member 90b.

When the peripheral wall portion 55 has the third flange portion 56 as shown in FIG. 1, the shape of the lid portion 54 may be a flat plate. The contour shape of the lid portion 54 may be a shape corresponding to the outer shape of the third flange portion 56 . The contour shape of the lid portion 54 shown in FIG. 1 is circular.

When the peripheral wall portion 55 does not have the third flange portion as shown in FIG. 3, the shape of the lid portion 54 is cap-shaped. The lid portion 54 has a top portion 543 and side wall portions 544 . The top portion 543 covers the opening of the peripheral wall portion 55 . The top portion 543 has a flat plate shape. The contour shape of the top portion 543 is circular. The side wall portion 544 is connected to the top portion 543 . The side wall portion 544 surrounds the outer circumference of the peripheral wall portion 55 . The shape of the side wall portion 544 is cylindrical. The peripheral wall portion 55 and the side wall portion 544 are continuously covered with the waterproof portion 94 . Specifically, the waterproof portion 94 straddles the opening edge of the side wall portion 544 and covers the outer peripheral surface of the peripheral wall portion 55 and the outer peripheral surface of the side wall portion 544 . The waterproof portion 94 prevents liquid and gas from entering through the gap between the side wall portion 544 and the peripheral wall portion 55 . Also, the waterproof portion 94 fixes the lid portion 54 to the peripheral wall portion 55 .

(Lamination area)
The laminated region 57 has a first resin layer 571, a metal layer 572, and a second resin layer 573 in order from the inner peripheral side of the coffin box 5, as shown in FIG. The first resin layer 571 and the second resin layer 573 mechanically protect the metal layer 572 . The metal layer 572 contributes to improving the waterproof performance of the coffin box 5 . The moisture permeability coefficient of metal is lower than that of resin. The lower the moisture permeability coefficient, the more difficult it is for water vapor to permeate. That is, it is difficult for liquids and gases to penetrate. Therefore, the coffin box 5 of the present embodiment does not become heavy and does not increase in cost as compared with a coffin box that does not include the metal layer 572 and is composed only of a resin layer. Intrusion can be suppressed. The laminated region 57 can be produced by sequentially forming a first resin layer 571, a metal layer 572, and a second resin layer 573 on the outer peripheral surface of a columnar or cylindrical mold.

The resins forming the first resin layer 571 and the second resin layer 573 may be the same or different. Examples of the resin include epoxy or polypropylene. The resin of the first resin layer 571 and the second resin layer 573 may contain glass fiber, carbon fiber, or the like. That is, the first resin layer 571 and the second resin layer 573 may be made of fiber-reinforced plastic.

The thickness of the first resin layer 571 and the thickness of the second resin layer 573 may be the same or different. The thicknesses of the first resin layer 571 and the second resin layer 573 can be appropriately selected. For example, the thickness of the second resin layer 573 may be 5 mm or more. The second resin layer 573 having a thickness of 5 mm or more easily protects the metal layer 572 mechanically.

The metal forming the metal layer 572 is not particularly limited and can be selected as appropriate. Examples of metals include aluminum and aluminum alloys.

The thickness of the metal layer 572 is, for example, 3 μm or more and 20 μm or less. Laminated region 57 in which metal layer 572 has a thickness of 3 μm or more has excellent waterproof performance. In the laminated region 57 where the thickness of the metal layer 572 is 20 μm or less, the coffin box 5 is less likely to become heavy. The thickness of the metal layer 572 is more preferably 5 μm or more and 15 μm or less, particularly 7 μm or more and 12 μm or less, and about 10 μm.

It is preferable that the configuration range of the laminated region 57 is as wide as possible. In the first main body portion 51 of this embodiment, the vicinity of the first opening portion 511, the first flange portion 511a, the vicinity of the second opening portion 512, the vicinity of the first hole portion 531, the first peripheral wall portion 551, the first lid A portion other than the portion 541 and the third flange portion 56 is composed of the laminated region 57 . Of course, in the first body portion 51, the vicinity of the first opening portion 511, the first flange portion 511a, the vicinity of the second opening portion 512, the vicinity of the first hole portion 531, the first peripheral wall portion 551, the first lid portion 541 and the third flange portion 56 are also preferably composed of the laminated region 57 . In the second body portion 52 of this embodiment, the vicinity of the first opening 521, the second flange portion 521a, the vicinity of the second opening 522, the vicinity of the second hole portion 532, the second peripheral wall portion 552, the second lid portion A portion other than 542 and the third flange portion 56 is composed of the laminated region 57 . Of course, in the second body portion 52, the vicinity of the first opening portion 521, the second flange portion 521a, the vicinity of the second opening portion 522, the vicinity of the second hole portion 532, the second peripheral wall portion 552, and the second lid portion 542 , and the third flange portion 56 are also preferably composed of the laminated region 57 . The neighborhood includes, for example, a range of 10 mm or less from the portion.

In the first body portion 51, the vicinity of the first opening portion 511, the first flange portion 511a, the vicinity of the second opening portion 512, the vicinity of the first hole portion 531, the first peripheral wall portion 551, the first lid portion 541, and the third flange portion 56 are made of resin. In the second body portion 52, the vicinity of the first opening portion 521, the second flange portion 521a, the vicinity of the second opening portion 522, the vicinity of the second hole portion 532, the second peripheral wall portion 552, the second lid portion 542, and The third flange portion 56 is made of resin. These resins are resins constituting the first resin layer 571 or the second resin layer 573 .

[Intermediate connection part]
As shown in FIGS. 1 and 2, the intermediate connection portion 2 connects the end of the first power cable 201 and the end of the second power cable 202 . First power cable 201 and second power cable 202 have a common configuration. A known configuration can be used for the first power cable 201 and the second power cable 202 .

The first power cable 201 and the second power cable 202 of this embodiment have a conductor 21 and an insulating layer 22 . The insulating layer 22 is provided on the outer circumference of the conductor 21 . The first power cable 201 and the second power cable 202 further comprise an inner semi-conductive layer, an outer semi-conductive layer 23, a shield layer 24, a sheath 25, and the like. Although not shown, the internal semiconducting layer is arranged between the conductor 21 and the insulating layer 22 . An outer semi-conducting layer 23 is arranged between the insulating layer 22 and the shielding layer 24 . The shielding layer 24 is provided on the outer periphery of the outer semi-conductive layer 23 . In this embodiment, the shielding layer 24 has a wire shield 241 and a lead covering 242 in order from the inner peripheral side. The sheath 25 is provided around the outer circumference of the shielding layer 24 .

Specific examples of the first power cable 201 and the second power cable 202 include XLPE cables (crosslinked polyethylene insulated cables). The ends of the first power cable 201 and the second power cable 202 are stripped. By this step stripping, the end of the conductor 21, the end of the insulating layer 22, the end of the outer semi-conductive layer 23, and the end of the shielding layer 24 are exposed.

The intermediate connection portion 2 of this embodiment is an IJ (insulating joint) type that electrically insulates the shielding layer 24 of the first power cable 201 and the shielding layer 24 of the second power cable 202 . The intermediate connection portion 2 of this embodiment further includes a conductor connection portion 31, a rubber unit 32, a spacer 33, an inner tape layer 341, an outer tape layer 342, a shrinkable tube 35, and the like, as shown in FIG. Known structures can be used for these members.

The conductor connection portion 31 connects the exposed ends of the conductor 21 to each other. The conductor connection portion 31 compresses the end of each conductor 21 . The conductor connecting portion 31 is a cylindrical member provided with two holes that are open at both ends. The conductor connection portion 31 is provided with a partition portion that constitutes the bottom of each hole.

The rubber unit 32 is used for main insulation of the intermediate connection portion 2 . The rubber unit 32 is a cylindrical member. The rubber unit 32 continuously covers a region extending from the outer periphery of the outer semiconductive layer 23 of the first power cable 201 to the outer periphery of the conductor connection portion 31 to the outer periphery of the outer semiconductive layer 23 of the second power cable 202 . The rubber unit 32 has, for example, an insulating tube portion 320, a first semiconductive portion 321, a second semiconductive portion 322, and a third semiconductive portion 323. As shown in FIG.

The insulating tubular portion 320 continuously covers a region from the outer circumference of the insulating layer 22 of the first power cable 201 to the outer circumference of the insulating layer 22 of the second power cable 202 . The outer diameter of the intermediate portion in the axial direction of the insulating tubular portion 320 is uniform. The outer diameters of both axial end portions of the insulating tubular portion 320 decrease toward the end portions. The insulating tubular portion 320 has a cylindrical edge cut portion 320a at the end on the second power cable 202 side. The edge cutting portion 320a electrically isolates the second semiconductive portion 322 and the third semiconductive portion 323 from each other. Examples of the material of the insulating cylindrical portion 320 include insulating ethylene propylene rubber, insulating silicone rubber, and the like.

The first semi-conductive portion 321 is provided in the axial center of the insulating tubular portion 320 on the inner peripheral surface of the insulating tubular portion 320 . The first semi-conductive portion 321 is configured in a tubular shape. The first semiconducting portion 321 covers the outer circumference of the conductor connecting portion 31 . The first semi-conductive portion 321 of this example is formed integrally with the insulating cylindrical portion 320 . Examples of the material of the first semiconducting portion 321 include semiconducting ethylene propylene rubber and semiconducting silicone rubber. A semiconductive tape layer is provided between the first semiconductive portion 321 and the conductor connecting portion 31 .

The second semi-conducting portion 322 relieves electric field stress near the end of the outer semi-conducting layer 23 of the second power cable 202 . The second semi-conductive portion 322 is configured in a tubular shape. The second semi-conductive portion 322 is provided on the inner periphery of the edge cut portion 320 a of the insulating tubular portion 320 . The second semi-conductive portion 322 is connected to the end of the outer semi-conductive layer 23 of the second power cable 202 . The material of the second semi-conducting portion 322 may be the same as the material of the first semi-conducting portion 321 .

The end of the third semi-conducting portion 323 relieves the electric field stress near the end of the outer semi-conducting layer 23 of the first power cable 201 . The third semi-conductive portion 323 is configured in a tubular shape. The third semi-conductive portion 323 is provided on the outer circumference of the insulating cylindrical portion 320 . The third semi-conducting portion 323 extends from the first power cable 201 side end of the insulating tubular portion 320 to the vicinity of the second semi-conducting portion 322 . The end provided on the first power cable 201 side of the third semi-conductive portion 323 is connected to the end of the outer semi-conductive layer 23 of the first power cable 201 . The material of the third semi-conducting portion 323 may be the same as the material of the first semi-conducting portion 321 .

The spacer 33 reduces a step between the outer peripheral surface of the rubber unit 32 and the outer peripheral surface of the external semi-conductive layer 23 . A spacer 33 is provided at each end of the rubber unit 32 . The spacer 33 is configured such that its outer diameter decreases from the rubber unit 32 side toward the outer semiconductive layer 23 side. The spacer 33 is configured by winding a semiconductive tape.

The inner tape layer 341 has a first inner tape layer 341a and a second inner tape layer 341b. The first inner tape layer 341 a covers an area extending from the outer circumference of the shielding layer 24 of the first power cable 201 to a specific portion on the outer circumference of the rubber unit 32 . The specific portion is a portion in the middle of the third semi-conductive portion 323 covering the outer circumference of the insulating cylindrical portion 320 . The second inner tape layer 341b covers a region extending from the outer periphery of the shielding layer 24 of the second power cable 202 to the spacer 33 positioned on the second power cable 202 side. That is, the first inner tape layer 341a and the second inner tape layer 341b do not cover the edge cut portion 320a described above. The inner tape layer 341 can be, for example, metal tape or metal mesh tape. Specifically, the inner tape layer 341 is preferably copper mesh tape.

The outer tape layer 342 presses the inner tape layer 341 . The outer tape layer 342 covers an area extending from the outer circumference of the outer semiconductive layer 23 of the first power cable 201 to the outer circumference of the outer semiconductive layer 23 of the second power cable 202 . That is, a portion of the outer tape layer 342 is provided between the first inner tape layer 341a and the second inner tape layer 341b. An outer tape layer 342 between the first inner tape layer 341a and the second inner tape layer 341b covers the edge cut 320a. Outer tape layer 342 can be an insulating tape.

The shrinkable tube 35 brings the rubber unit 32 into close contact with the first power cable 201 and the second power cable 202 . The shrink tube 35 is provided outside the outer tape layer 342 . The shrinkable tube 35 continuously covers an area extending from the outer circumference of the outer semiconductive layer 23 of the first power cable 201 to the outer circumference of the outer semiconductive layer 23 of the second power cable 202 . Examples of the material of the shrinkable tube 35 include polyolefin, ethylene propylene rubber, silicone rubber, nitrile butadiene rubber, and the like.

[compound]
The compound 6 enhances heat dissipation inside the coffin box 5 . A compound 6 is provided between the coffin box 5 and the intermediate connection 2 . A known compound can be used as the compound 6 . The compound 6 is composed of various resin compositions having heat dissipation properties. Thermosetting resins, such as urethane resin, are mentioned as resin which has heat dissipation property, for example. The compound 6 is injected into the coffin box 5 through the first hole 531 and the second hole 532 described above after combining the first body 51 and the second body 52 in the manufacturing process.

[Coaxial line]
The power cable intermediate connection structure 1 of the present embodiment further includes a coaxial line 7 . Coaxial line 7 grounds first power cable 201 and second power cable 202 . A known configuration can be used for the coaxial line 7 . The coaxial line 7 has, in order from the inside, an inner conductor, an insulator, an outer conductor, an outer insulator, and a protective coating. The inner conductor and the outer conductor are arranged coaxially. For example, the inner conductor and the shielding layer 24 of the first power cable 201 are connected, and the outer conductor and the shielding layer 24 of the second power cable 202 are connected. In this embodiment, a braided wire 80 and a sleeve 81 are used for these connections. Specifically, the inner conductor and the first end of the first braided wire 80 are compressed and connected by a sleeve 81 . A second end of the first braided wire 80 and the shielding layer 24 of the first power cable 201 are connected. Also, the outer conductor and the first end of the second braided wire 80 are compressed and connected by a sleeve 81 . A second end of the second braided wire 80 and the shielding layer 24 of the second power cable 201 are connected. The method of connecting each braided wire 80 to each shielding layer 24 is not particularly limited. In this embodiment, each braided wire 80 is connected by tightening it to each lead covering 242 with a hose band 82 . Each braided wire 80 may be connected to each lead sheath 242 using solder or the like.

[Effect]
The power cable intermediate connection structure 1 of this embodiment is excellent in waterproof performance. This is because the coffin box 5 having the metal layer 572 can suppress penetration of liquid and gas compared to the conventional coffin box which is not provided with the metal layer 572 and is composed only of resin. The coffin box 5 of this embodiment is substantially less heavy and less costly than conventional coffin boxes.

The second body portion 52 has a first tubular portion 524 and a second tubular portion 525 from which the second power cable 202 and the coaxial line 7 are drawn out respectively. Therefore, in the power cable intermediate connection structure 1 , the gap between the second power cable 202 and the first tubular portion 524 can be easily reduced, and the gap between the coaxial line 7 and the second tubular portion 525 can be easily reduced. That is, in the power cable intermediate connection structure 1, the second power cable 202 and the coaxial line 7 and the second main body part 52 are different from the case where the second main body part 52 pulls out the second power cable 202 and the coaxial line 7 together. It is easy to make the gap with 52 small. Therefore, the power cable intermediate connection structure 1 can easily suppress intrusion of liquid and gas through the gap.

The present invention is not limited to these examples, but is indicated by the scope of the claims, and is intended to include all modifications within the meaning and scope of equivalents of the scope of the claims.

In the above-described embodiments, the case where the intermediate connection portion is an IJ (insulating joint) type that electrically insulates the shielding layers of the power cable has been described as an example. As another form, the intermediate connection portion may be of a normal straight through joint (NJ) type that electrically connects and conducts the shielding layers of the power cable. Further, in the above-described embodiments, the case where the intermediate connection structure of the power cable includes the coaxial line has been described as an example. As another form, the intermediate connection structure of the power cable may be of the NNJ (Non-grounded Normal Joint) type without coaxial lines. In this case, the first body portion and the second body portion of the coffin box can be configured substantially symmetrically.

1 Intermediate connection structure of power cable 2 Intermediate connection part 201 First power cable 202 Second power cable 21 Conductor 22 Insulating layer 23 External semi-conductive layer 24 Shielding layer 241 Wire shield 242 Lead sheath 25 Sheath 31 Conductor Connection Part 32 Rubber Unit 320 Insulating Tube Part 320a Edge Cutting Part 321 First Semi-Conducting Part 322 Second Semi-Conducting Part 323 Third Semi-Conducting Part 33 Spacer 341 Inner Tape Layer 341a First Inner Tape Layer 341b Second Two inner tape layers 342 outer tape layer 35 shrink tube 5 coffin box 51 first body 511 first opening 511a first flange 512 second opening 52 second body 521 first opening 521a Second flange portion 522 Second opening 523 Main tube portion 524 First tube portion 525 Second tube portion 526 Connecting portion 53 Hole 531 First hole 532 Second hole 54 Lid 541 First Lid portion 542 Second lid portion 543 Top portion 544 Side wall portion 55 Peripheral wall portion 551 First peripheral wall portion 552 Second peripheral wall portion 56 Third flange portion 57 Laminated region 571 First resin layer 572 Metal layer , 573 second resin layer 6 compound 7 coaxial line 80 braided wire 81 sleeve 82 hose band 90a, 90b seal member 91, 92, 93, 94 waterproof part

Claims (5)

an intermediate connection portion where the end portion of the first power cable and the end portion of the second power cable are connected;
a cylindrical coffin box covering the outer periphery of the intermediate connection;
a compound provided between the intermediate connection and the coffin box;
The coffin box has a tubular first body portion and a tubular second body portion that are combined in the axial direction of the intermediate connection portion,
The first body portion and the second body portion each include a laminated region having a first resin layer, a metal layer, and a second resin layer in order from the inner peripheral side of the coffin box,
At least one of the first body portion and the second body portion,
a hole penetrating inside and outside in the radial direction of the coffin box;
a lid that closes the hole,
Intermediate connection structure for power cables. The first main body portion has a first flange portion provided in an opening on the second main body side of the first main body portion,
The second body portion has a second flange portion provided to face the first flange portion,
2. The power cable intermediate connection structure according to claim 1, wherein said first flange portion and said second flange portion are joined. Furthermore, having a coaxial line,
The first power cable and the second power cable have a shielding layer connected to the coaxial line,
The second main body is
a first cylindrical portion from which the second power cable is drawn;
3. The power cable intermediate connection structure according to claim 1, further comprising a second tubular portion from which the coaxial line is drawn. At least one of the first body portion and the second body portion,
a peripheral wall portion extending from the outer peripheral surface of the first body portion or the second body portion so as to surround the hole;
a third flange provided at the opening of the peripheral wall,
The power cable intermediate connection structure according to any one of claims 1 to 3, wherein the lid portion is joined to the third flange portion. At least one of the first body portion and the second body portion has a peripheral wall portion extending from the outer peripheral surface of the first body portion or the second body portion so as to surround the hole,
The lid is
a ceiling covering the opening of the peripheral wall;
a cylindrical side wall portion surrounding the outer periphery of the peripheral wall portion;
The power cable intermediate connection structure according to any one of claims 1 to 3, further comprising a waterproof portion that integrally covers the peripheral wall portion and the side wall portion.

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