JPH06101894B2 - Branching method of trunk cable - Google Patents

Description

TECHNICAL FIELD The present invention relates to the provision of an excellent branching method for a trunk cable used for a vertical trunk line of a high-rise building or the like.

[Prior Art and its Problems] In the trunk system in the building, as shown in FIG.
A trunk line 2 passing through a trunk line protection circuit breaker CB in the inside stands up vertically through a shaft in the building, and a branch line 4 led out from a branch part 3 set for each floor is spliced to a distribution board 5.

CR is a cable rack.

By the way, in such a low voltage trunk line, it is legally obliged to install a switch and a circuit breaker within the following length from the branch part in order to protect the branch side from overcurrent and short circuit.

(A) The permissible current I _{b of the} branch line is 55% or more of the permissible current I _CB of the main circuit breaker circuit breaker CB ... Distance l to the switch and circuit breaker: no limit.

Therefore, for example, if I _CB is branched from the main line of 1600A and the distribution board is in a position exceeding 8m, a cable with an allowable current of 1600A × 0.55 = 880A (in the case of a CV cable, the conductor size is 500mm ² It is necessary to use the above), and when the load is small, it results in using a large size cable having a considerable margin compared to the corresponding cable conductor size, resulting in uneconomical wiring.

In view of such a situation, the present invention makes it possible to reduce the conductor size of the branch side cable to be economical and to easily perform maintenance. It is intended to provide a method of branching a trunk cable.

[Means for solving problems]

A trunk cable branching method according to the present invention for achieving the above object is to form a branch portion of a trunk cable in an L shape and to lead the branch cable parallel to the trunk cable to provide a circuit breaker or a switch. Position the built-in junction box near the branch on the side of the branch cable leading out and fix it to the cable or structure, and connect the branch cable led from the branch of the trunk cable to the switch or breaker in the junction box. The line is constructed by connecting the primary side with the shortest length.

〔Example〕

Hereinafter, a specific description will be given with reference to the accompanying drawings. FIG. 1 and FIG. 2 show one example of the vicinity of the branch portion of the cable line, and since the main cable 10 is a low voltage main line of about 600V, voltage drop countermeasures are an important point, A laminated flat cable with excellent low impedance characteristics is used. This laminated flat cable is formed by arranging a plurality of conductors 11 made of concentric stranded copper wires in parallel and coating the outside of these conductors with a flat sheath 12 made by vinyl resin extrusion or the like at once. Insulation coating is applied to each 11 individually or collectively. The insulating coating is formed by extrusion of a plastic material such as vinyl or polyethylene. A plurality of flat cable main bodies 13 configured in this way are stacked by using flat surfaces to form a trunk line, and the current of each phase R, S, T is individually applied to each flat cable main body 13. It was made to flow to.

Now, the trunk cable 10 configured as described above is provided with a branch portion 14 for branching for each floor. The branch portion 14 has the same structure in each flat cable body 13. The branch portion of each flat cable main body 13 has an L-shaped branch terminal 15 collectively connected by welding or compression to the parallel conductor 11 exposed by removing the insulating coating and the flat sheath 12. One end of a branch cable 17 is connected via a branch sleeve 16 at the L-shaped lead-out end, and the conductive portions of these branch connection portions are covered with a vinyl protective cover 18 in an L-shape, and the protective cover is again provided. Insulating compound 19 is filled in 18 for insulation treatment. An insulating tape winding portion 20 holds the protective cover 18, the flat sheath 12 and the branch cable 17 together and keeps them watertight.

Therefore, the branch cable 17 is led out so as to be parallel to the main cable 10 from the branch portion 14 formed in the L shape as described above.

According to the present invention, the branch cable 17 is sufficiently short that the lead-out length from the branching portion is 3 m or less, and the crimp terminal 21 is attached to the terminal, and on the lead-out direction side of the branch cable 17. A junction box 23 having a built-in circuit breaker 22 is attached in the vicinity of the branch portion, for example, directly below it within 3 m. The branch cable 17 extends from the branch section 14 into the connection box 23 at the shortest length, and the crimp terminal 21 provided at the end of the branch cable 17 is screwed to the primary terminal of the breaker 22. Therefore, the secondary-side branch cable 24 terminated to the secondary-side terminal of the circuit breaker 22 is led out from the connection box 23 and led to the distribution board (not shown).

The connection box 23 can be mounted using the mounting legs 25 integrated with the connection box 23.
Is suspended horizontally from the main cable 10 that is hung and hung, and tightened with bolts.

By mounting the junction box 23 containing the circuit breaker 22 at a position within 3 m from the branch portion 14 as described above, the conductor size of the branch cable can be made small enough to correspond to the actual load.

The allowable current of the main circuit breaker is 1600A and the conductor size of the flat cable body 13 of the main cable 10 is 1500mm.
Conductor size of the branch cable 17 in the case of a ² requires only about ² 38mm with allowable current 100A. This was conventionally required when the distribution board was more than 8m above the branch.
It is significantly smaller than a cable with a conductor size of 0 mm ² or more.

Further, as a result of arranging the circuit breaker 22 in the vicinity of the branch portion as described above, it becomes possible to omit the lead-in switch in the distribution board, and the probability of occurrence of failure can be reduced accordingly.

Furthermore, since there is a circuit breaker near the branch, it is possible to check the operating status at the branch.
The branch circuit can be maintained and repaired easily and safely.

FIG. 3 shows a modified example of the branching method of the main cable according to the present invention, in which a junction box 23 with a built-in circuit breaker is attached to a wall 30 of a shaft by bolting attachment legs 25 '. . In this case, the load of the connection box 23 does not have to be applied to the main cable 10, so that the equipment to be installed on the shaft of the main cable 10 can be made lighter than in the previous example. The same parts as those in FIGS. 1 and 2 are referred to by the same reference numerals.

In addition, although the case where the breaker 22 is used has been described in the above embodiment, the switch can be used as an exception.

Further, as the main cable, it is also possible to use an electric cable having high low impedance performance other than the laminated flat cable.

〔The invention's effect〕

As described above, in the trunk cable branching method according to the present invention, the branch portion of the trunk cable is formed into an L shape, the branch cable is led out in parallel with the trunk cable, and the breaker or the switch is provided. Position the built-in junction box near the branch on the side of the branch cable that leads out, and attach it.
Since the branch cable led out from the branch section is spliced to the primary side of the relevant circuit breaker or switch with the longest length, the length from the branch section of the branch cable to the primary side of the circuit breaker or switch Can be significantly shortened (within 3 m), and the conductor size of the branch cable can be made small (for example, to about 38 mm ² ), and the branch cable can have a conductor size corresponding to the load capacity. In addition, as a result of arranging a circuit breaker or switch near the branch,
It is also possible to omit the pull-in switch of the load side distribution board, which can reduce the probability of failure, and it is possible to check the operating status of the circuit breaker or switch in the vicinity of the branch. The maintenance and repair of the branch circuit can be performed easily and safely. Therefore, the initial object of providing an excellent trunk cable branching method, which is small in size, economical in conductor size and easy to maintain, is achieved, and the actual profit is enormous.

[Brief description of drawings]

FIG. 1 is a partially sectional front view showing an embodiment of a method of branching a trunk cable of the present invention, FIG. 2 is a side view showing a portion similar to that shown in FIG. 1, and FIG. FIG. 4 is a front explanatory view showing another embodiment of the method of branching the main cable according to the present invention, and FIG. 4 is an explanatory view of the intra-building main line system. In the reference numeral, 10 is a main cable, 11 is a conductor, 12 is a flat sheath, 13 is a flat cable body, 14 is a branch portion, 15 is a branch terminal, 16 is a compression sleeve, 17 is a branch cable, 18 is a protective cover, 19 is a Insulating compound, 20 is insulating tape winding part,
Reference numeral 21 is a crimp terminal, 22 is a circuit breaker, 23 is a connection box, 24 is a secondary side branch cable, 25 and 25 'are mounting legs, and 30 is a shaft wall.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Shigeru Endo 2-1-2 Marunouchi, Chiyoda-ku, Tokyo Inside Hitsuden Cable Co., Ltd. (72) 5-1-1 Hidakacho, Hitachi, Ibaraki Prefecture No. 1 Inside Hidaka Plant of Hitachi Cable Co., Ltd. (72) Inventor Kazuhiko Kobayashi 5-1-1 Hidaka Town, Hitachi City, Ibaraki Prefecture Inside Hidaka Plant of Hitachi Cable Co., Ltd. (56) Bibliography Sho 50-157440 ( JP, U)

Claims (1)

[Claims] 1. A branch portion of a trunk cable is formed in an L shape, and the branch cable is led out in parallel with the trunk cable,
Position the junction box with a built-in circuit breaker or switch close to the branch on the side of the branch cable leading out to fix it to the main cable or structure, and connect the branch cable derived from the branch of the main cable to the junction box. A trunk cable branching method, characterized in that a line is constructed by splicing the shortest length to the primary side of the circuit breaker or switch inside.