JP2021052495A - Branch unit and construction method - Google Patents

Abstract

To provide a branch unit which is for branching a drawing cable from a trunk cable in a branch space in the ground and is capable of facilitating branching operations.SOLUTION: A branch unit comprises: an outer casing body; a trunk lead part which is formed by a plurality of trunk phase leads and is drawn from two portions of the outer casing body to be connected to a trunk cable; and a drawing lead part that is formed by a plurality of drawing phase leads electrically connected to corresponding trunk phase leads and is drawn from the outer casing body to be connected to the drawn cable. The drawing lead part is drawn in multiple directions from multiple portions of the outer casing body.SELECTED DRAWING: Figure 2

Description

The present invention relates to a branch unit of an electric power cable and a construction method using the branch unit, and more particularly to a technique useful when branching a lead-in cable from a trunk cable in an underground branch space.

Generally, a low-voltage line for electric power is provided with a branch connection portion for branching a lead-in cable from a trunk cable, and power is supplied to each consumer by a lead-in cable branched at the branch connection portion. Generally, the branch connection work from the trunk cable to the lead-in cable is performed by using a T-shaped connector or a C-shaped cross section connector (so-called C-shaped sleeve) in a narrow branch space such as a common groove or a branch basin. In recent years, with the expansion of undergrounding of electric wires and the elimination of utility poles, many branch basins have been buried underground.

In Patent Document 1, a branch unit having a trunk line side connection cable (trunk line lead portion) and a branch line side connection cable (lead-in lead portion) is prepared in advance, the trunk line cable is cut from the common groove and pulled out, and the trunk line side is pulled out. A construction method for connecting a connection cable and a trunk cable and pulling them back to a common groove is disclosed.
Further, Patent Document 2 discloses a branch unit having a multi-branch connector for connecting a plurality of branch lines (branch cables) to a low-voltage trunk line (trunk cable).

Japanese Unexamined Patent Publication No. 2-133015 Japanese Unexamined Patent Publication No. 2004-303537

However, the branch unit disclosed in Patent Documents 1 and 2 is used for connecting each phase electric wire of the trunk cable, and branches from a multi-phase cable having a plurality of phase electric wires (for example, a three-phase four-wire cable). If this is the case, it will be placed at the branch connection portion of each phase wire. Therefore, where consumers are gathering, there are many branching points from the trunk cable, and the trunk cable and the lead-in cable are intricately accommodated in a narrow branch space (see FIG. 7 of Patent Document 2). Further, in a narrow branch space such as a branch box, a sufficient space for the bending radius cannot be secured, which may make it difficult to handle.
Furthermore, in the underground branch space, groundwater may be accumulated, and the work environment is worse than on the ground, and it is suitable for complicated branch work (especially expansion of lead-in cables) in such an environment. Not really.

An object of the present invention is to provide a branching unit and a construction method for branching a lead-in cable from a trunk cable in an underground branching space, and to provide a branching unit capable of facilitating branching work.

The branching unit according to the present invention is
It is a branching unit for branching and connecting a lead-in cable to a trunk cable in a branching space in the ground.
With the exterior
A trunk line lead portion composed of a plurality of trunk line phase leads, which is drawn out from two places on the exterior body and connected to the trunk line cable, and a trunk line lead portion.
It comprises a plurality of lead-in phase leads that are electrically connected to the corresponding trunk phase lead, and includes a lead-in lead portion that is drawn out from the exterior body and connected to the lead-in cable.
The retractable lead portion is pulled out from a plurality of locations on the exterior body in multiple directions.

The construction method according to the present invention
It is a construction method for branching and connecting the lead-in cable to the trunk line cable in the underground branching space by using the above-mentioned branching unit.
The trunk cable is pulled out from the branch space to the ground,
The trunk line cable and the trunk line lead portion of the branch unit are connected to each other.
The branch unit connected to the trunk cable is arranged in the branch space, and the branch unit is arranged in the branch space.
The lead-in portion of the branch unit near the pull-out location of the lead-in cable is selected, and the lead-in cable is connected to the lead-in portion.

According to the present invention, it is possible to facilitate the branching work when branching the lead-in cable from the trunk cable in the branching space in the ground.

FIG. 1 is a diagram showing a configuration of a branch connection portion to which the branch unit according to the embodiment is applied. FIG. 2 is an external perspective view of the branch unit. FIG. 3 is a diagram showing a wiring structure inside the branch unit.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a diagram showing a configuration of a branch connection unit 1 to which the branch unit 10 according to the embodiment is applied.
The branch connection portion 1 is provided in, for example, a low-voltage line for electric power in order to branch the lead-in cable 30 from the trunk cable 20 directly buried in the ground. The branch connection portion 1 is directly buried in the ground together with, for example, the trunk cable 20 and the lead-in cable 30. The upper part of the branch connection portion 1 is covered with, for example, a metal lid material to form a part of the road.

As shown in FIG. 1, the branch connection portion 1 includes a branch unit 10, a trunk cable 20, a lead-in cable 30, and a branch basin 40.
The trunk cable 20 is, for example, a three-phase four-wire low-voltage cable, and has U-phase, V-phase, W-phase voltage lines, and N-phase neutral wires as phase electric wires. The lead-in cable 30 has a phase electric wire corresponding to each phase electric wire of the trunk cable 20.
In the following, the phase wire of the trunk cable 20 will be referred to as a “trunk phase cable”, and the phase wire of the lead-in cable will be referred to as a “pull-in phase cable”.

The branch basin 40 accommodates the connection portion of the branch unit 10, the trunk cable 20, and the lead-in cable 30, and is composed of, for example, a concrete box. A plurality of cable insertion ports 41 and 42 are provided on the side wall of the branch basin 40.
The trunk cable 20 is inserted into the branch basin 40 via the trunk cable insertion port 41 of the branch basin 40, and the lead-in cable 30 is inserted into the branch basin 40 via the lead-in cable insertion port 42.

The trunk cable insertion port 41 and the lead-in cable insertion port 42 are waterproofed. A known technique can be applied to the waterproof treatment, for example, by winding a waterproof putty, a waterproof tape, or the like. As a result, it is possible to prevent soil and water from entering the branch basin 40.

The branch unit 10 has a trunk line lead portion 11, a lead-in lead portion 12, and a housing 13 (exterior body), and has, for example, a rectangular parallelepiped shape as a whole. The appearance of the branch unit 10 is shown in FIG. Further, the wiring structure inside the branch unit 10 is shown in FIG.

The housing 13 is a box-shaped exterior body that covers the connection portion between the trunk line lead portion 11 and the lead-in lead portion 12, and is formed of, for example, a resin material (for example, polyethylene or Fiber Reinforced Plastics (FRP)). To. In the present embodiment, the inside of the housing 13 is sealed with a mold resin, and the watertightness and the insulating property of the inside of the housing 13 are ensured.

The housing 13 has a trunk line lead insertion port 131 for pulling out the trunk line lead portion 11 and a lead-in lead insertion port 132 for pulling out the lead-in lead portion 12. In the present embodiment, the lead-in lead insertion port 132 is located above the main lead insertion port 131, that is, at a portion close to the ground when the branch connection portion 1 is installed so that the lead-in lead portion 12 can be easily routed. Have been placed. The lead-in lead portion 12 extends above the main lead portion 11.

The trunk line lead portion 11 is composed of a plurality of trunk line phase leads 111 to 114, and is drawn out from two locations of the housing 13. The trunk line lead portion 11 is linearly drawn out from the housing 13, for example.
The lead-in lead portion 12 has lead-in phase leads 121 to 124 provided corresponding to the trunk phase leads 111 to 114. A plurality of lead-in lead portions 12 are provided and are pulled out from the housing 13 in multiple directions. The lead-in lead portion 12 may have a length that allows it to be pulled out from the branch basin 40 to the ground in order to perform the connection work with the lead-in cable 30 on the ground. However, if it is too long, the space in the branch basin 40 will be tight, so it will be adjusted appropriately. Further, a joint may be used for connecting the lead-in lead portion 12 and the lead-in cable 30. As a result, the lead-in lead portion 12 and the lead-in cable 30 can be branched and connected on the ground, and the insulation treatment and the waterproof treatment can be easily and surely performed.
The trunk phase leads 111-114 and the lead-in phase leads 121-124 are composed of, for example, an insulated cable in which a conductor is coated with an insulator.

The trunk phase leads 111-114 and the lead-in phase leads 121-124 are three-dimensionally routed inside the housing 13, and are electrically driven by, for example, compression connection or soldering using a C-shaped cross-section connector. Connected (see Figure 3). In the present embodiment, eight lead-in phase leads 121 to 124 are branched and connected to each of the trunk phase leads 111 to 114 at five locations. Then, one lead-in lead portion 12 is formed by a set of lead-in phase leads 121 to 124, and the lead-in lead portion 12 is pulled out from eight places on the side surface of the housing 13. The main line lead portion 11 and the lead-in lead portion 12 are pulled out from the housing 13 to be waterproofed. A known technique can be applied to the waterproof treatment, for example, by winding a waterproof putty, a waterproof tape, or the like.
An electrode having a special three-dimensional shape may be used in order to easily form a complicated wiring structure inside the housing 13.

In the branch connection portion 1, the trunk phase leads 111 to 114 are each connected to the trunk phase cable (not shown) of the trunk cable 20. The lead-in phase leads 121 to 124 are each connected to a lead-in phase cable (not shown) of the lead-in cable 30. The lead-in lead portion 12 connected to the lead-in cable 30 is appropriately selected according to the location of the customer. In FIG. 1, three lead-in lead portions 12 that are close to the customer are selected from the eight lead-in lead portions 12, and each of them is connected to the lead-in cable 30.
For the connection between the trunk phase leads 111 to 114 and the trunk phase cable, and the connection between the lead phase leads 121 to 124 and the lead phase cable, for example, a known technique such as a C-shaped cross section connector can be applied. Each connection is insulated and waterproofed. Further, among the plurality of lead-in lead portions 12, those that are not used for connection with the lead-in cable 30 are subjected to insulation treatment and waterproof treatment at the end portion exposed from the housing 13.

When connecting the trunk line lead portion 11 to the trunk line cable 20, for example, the trunk line cable 20 may be cut and the trunk line lead portion 11 may be connected to each of the cut ends of the trunk line cable 20, or the trunk line cable 20 may be connected. The trunk line lead portion 11 may be connected to the trunk line cable 20 as it is without cutting.
When the trunk line cable 20 is cut and the trunk line lead portion 11 is connected, the connection portion between the trunk line cable 20 and the trunk line lead portion 11 becomes linear, so that insulation treatment and waterproof treatment can be easily performed. Further, the trunk cable 20 can be pulled out to the ground for work, and the insulation treatment and the waterproof treatment can be surely performed. On the other hand, when the trunk line lead portion 11 is connected without cutting the trunk line cable 20, no loss of the trunk line cable 20 occurs and no cutting work is required.

Although not shown, fuses are provided in the lead-in phase leads 121 to 123 corresponding to the voltage lines of the U-phase, V-phase, and W-phase in the lead-in lead portion 12. The fuse may be arranged inside the housing 13 or may be arranged outside as long as the blown display can be visually recognized. When it is arranged inside the housing 13, a transparent viewing window is provided in the housing 13 so that it can be visually recognized from the outside. Further, the lead-in lead portion 12 and the lead-in cable 3 may be connected to each other via a fuse without providing a fuse in the lead-in lead portion 12.

The branch unit 10 is manufactured in advance at the factory. For example, it is manufactured by accommodating a trunk line lead portion 11 and a lead-in lead portion 12 in a state of being electrically connected in a housing 13 and enclosing a mold resin. As a result, insulation and watertightness can be easily and surely imparted to the branch connection portion between the trunk line lead portion 11 and the lead-in lead portion 12. Further, it is possible to easily form a complicated wiring structure in which the trunk line lead portion 11 and the lead-in lead portion 12 are intricately routed.

When the lead-in cable is branched and connected to the trunk cable 20 in the branch basin 40 by using the branch unit 10, the trunk cable 20 is first pulled out from the branch space to the ground. Then, on the ground, the trunk line cable 20 and the trunk line lead portion 11 of the branch unit 10 are connected. By performing the connection work in an open space, it is possible to reliably perform the insulation treatment and the waterproof treatment.

Next, the branch unit 10 connected to the trunk cable 20 is arranged in the branch space, and the lead-in cable 30 is connected to the lead-in lead portion 12 of the branch unit 10. At this time, the lead-in lead portion 12 close to the pull-out location of the lead-in cable 30 is selected. As a result, the routing of the lead-in lead portion 12 and the lead-in cable 30 can be minimized, and branching work can be easily performed even in a narrow branching space such as a branching basin 40. Further, when adding the lead-in cable 30, it is sufficient to connect the lead-in cable 30 and the unused lead-in lead portion 12, so that the lead-in cable 30 is directly connected to the trunk cable 20 and branched as compared with the case where the lead-in cable 30 is directly connected to the trunk cable 20. The branching work can be easily performed.

As described above, the branch unit 10 is a branch unit for branching and connecting the lead-in cable 30 to the trunk cable 20 in the branch basin 40 (branch space in the ground) buried in the ground, and is the housing 13 (exterior). (Body), a trunk line lead portion 11 composed of a plurality of trunk line phase leads 111 to 114, drawn from two places of the housing 13 and connected to the trunk line cable 20, and electrically connected to the corresponding trunk line phase leads 111 to 114. The lead-in lead portion 12 is composed of a plurality of lead-in phase leads 121 to 124 and is drawn out from the housing 13 and connected to the lead-in cable 30. The lead-in lead portion 12 is provided in multiple directions from a plurality of locations of the housing 13. Has been pulled out to.
In the embodiment, the lead-in lead portion 12 is pulled out from eight positions of the housing 13 in a total of four directions, two directions along the extending direction of the trunk cable 20 and two directions orthogonal to the extending direction of the trunk cable 20. It has been.

Further, the construction method according to the embodiment is a construction method for branching and connecting the lead-in cable 30 to the trunk cable 20 in the branch basin 40 (branch space in the ground) by using the branch unit 10. 20 is pulled out from the branch basin 40 to the ground, the main line cable 20 and the main line lead portion 11 of the branch unit 10 are connected, the branch unit 10 connected to the main line cable 20 is arranged in the branch basin 40, and the lead-in cable 30 is pulled out. The lead-in lead portion 12 of the branch unit 10 close to the above is selected, and the lead-in cable 30 is connected to the lead-in lead portion 12.

According to the branch unit 10 and the enforcement law according to the embodiment, the lead-in lead portion 12 close to the customer's place, that is, the pull-out place of the lead-in cable 30, is selected, and the lead-in cable 30 is connected to the lead-in lead portion 12. By doing so, it is possible to minimize the routing of the lead-in lead portion 12 and the lead-in cable 30, and it is possible to easily perform the branching work even in a narrow branching space such as a branching basin 40. Further, when adding the lead-in cable 30, it is sufficient to connect the lead-in cable 30 and the unused lead-in lead portion 12, so that the lead-in cable 30 is directly connected to the trunk cable 20 and branched as compared with the case where the lead-in cable 30 is directly connected to the trunk cable 20. The branching work can be easily performed.

Further, in the branch unit 10, the lead-in lead insertion port 132 (drawing point of the lead-in lead portion 12) is located above the trunk lead insertion port 131 (drawing point of the trunk lead portion 11).
As a result, since the lead-in lead portion 12 extends above the main cable 20 and the main lead portion 11, the main cable 20 and the like do not get in the way when connecting to the lead cable 30, and can be easily branched. You can work.

Further, in the branch unit 10, the housing 13 (exterior body) has a watertight and insulated structure. Specifically, the housing 13 is sealed with a mold resin. As a result, although there are a plurality of branch connection portions in the branch unit 10, insulation and waterproofness are ensured. Therefore, as compared with the case where the lead-in cable 30 is directly branched and connected at a plurality of locations of the trunk cable 20. , The reliability of the branch connection unit 1 is improved.

Although the invention made by the present inventor has been specifically described above based on the embodiment, the present invention is not limited to the above embodiment and can be changed without departing from the gist thereof.

In the embodiment, the branch unit 10 having eight retractable lead portions 12 is illustrated, but the retractable lead portions 12 provided in the branch unit 10 need only be pulled out in multiple directions, and the number and withdrawals thereof are sufficient. The direction can be changed as appropriate.

Further, for example, in the embodiment, the case where the trunk cable 20 is a three-phase four-wire low-voltage cable is illustrated, but the trunk cable 20 may be a three-phase three-wire low-voltage cable.
Further, in the embodiment, the case where the outer body is formed by the housing 13 in which the mold resin is sealed is illustrated, but the outer body may be formed only by the molded molded body.

It should be considered that the embodiments disclosed this time are exemplary in all respects and not restrictive. The scope of the present invention is shown by the scope of claims rather than the above description, and it is intended to include all modifications within the meaning and scope equivalent to the scope of claims.

1 Branch connection part 10 Branch unit 11 Trunk line lead part 111-114 Trunk line phase lead 12 Retractable lead part 121-124 Retractable phase lead 13 Housing (exterior body)
20 Trunk cable 30 Drop-in cable 40 Branch basin (branch space)

Claims (5)

It is a branching unit for branching and connecting a lead-in cable to a trunk cable in a branching space in the ground.
With the exterior
A trunk line lead portion composed of a plurality of trunk line phase leads, which is drawn out from two places on the exterior body and connected to the trunk line cable, and a trunk line lead portion.
It comprises a plurality of lead-in phase leads that are electrically connected to the corresponding trunk phase lead, and includes a lead-in lead portion that is drawn out from the exterior body and connected to the lead-in cable.
The pull-in lead portion is a branch unit that is pulled out from a plurality of locations on the exterior body in multiple directions. The branch unit according to claim 1, wherein the drawer portion of the lead-in lead portion is located above the drawer portion of the trunk lead portion. The branch unit according to claim 1 or 2, wherein the exterior body has a watertight and insulated structure. The branching unit according to claim 3, wherein the exterior body is sealed with a mold resin. A construction method for branching and connecting the lead-in cable to the trunk cable in a branch space in the ground by using the branch unit according to any one of claims 1 to 4.
The trunk cable is pulled out from the branch space to the ground,
The trunk line cable and the trunk line lead portion of the branch unit are connected to each other.
The branch unit connected to the trunk cable is arranged in the branch space, and the branch unit is arranged in the branch space.
A construction method in which the lead-in portion of the branch unit near the pull-out location of the lead-in cable is selected and the lead-in cable is connected to the lead-in portion.

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