JP7491759B2 - Unit cable - Google Patents

Description

The present invention relates to a unit cable suitable for use in wiring system ceiling lighting, etc.

Patent Document 1 discloses a wiring lighting module used for wiring system ceiling lighting. This wiring lighting module has four lighting wires, two power connection wires, and a joint (branch). One end of the lighting wires and the power connection wires are connected to the joint, and the lighting wires and the power connection wires are connected so as to extend radially from the joint. Connectors that connect lighting fixtures are respectively connected to the other ends of the lighting wires. The lighting wires are the same length from the joint to each lighting fixture, and are connected in parallel to the power connection wires in the same path.

JP 2016-122607 A

However, in the conventional wiring lighting module, the wiring for both power and control is done on the same route, but each needs to be done separately, resulting in poor wiring work efficiency.

The present invention was made in consideration of the problems inherent in the conventional technology. The object of the present invention is to provide a unit cable that can reduce the number of wiring parts and improve wiring workability.

The unit cable according to this aspect of the present invention comprises a power cable having one end connected to a power source and the other end connected to a load, a control cable having one end connected to a control device and the other end connected to a load device, and a molded section that connects the core wires of the trunk cables and the core wires of the branch cables of the power cable and the control cable and insulates and protects the periphery, and the power cable and the control cable are held apart from each other in the portion routed from the molded section while being protected by the insulating section.

It is preferable that the multiple power electric wires, including the earth wire, constituting the power cable and the multiple control electric wires constituting the control cable are molded together while being separated by a bridge section.

It is preferable that the multiple power electric wires, including the earth wire, constituting the power cable and the multiple control electric wires constituting the control cable are fixed by a common spacing member.

It is preferable that the earth wire of the power cable is located adjacent to the control cable.

It is preferable that the other end of the branch cable of the power cable and the other end of the branch cable of the control cable are housed in a single housing.

It is preferable that the molded portion has a mounting portion that is attached to a support member provided on the system ceiling.

The present invention provides a unit cable that can reduce the number of wiring parts and improve wiring workability.

1 is a perspective view showing an example in which the unit cable according to the first embodiment of the present invention is used for wiring in a system ceiling lighting system. FIG. 2 is a schematic plan view of the unit cable. 4 is a partial perspective view showing a state in which the unit cable is connected to a lighting fixture via a connector. FIG. 4 is a cross-sectional view taken along line IV-IV in FIG. 2. 3 is a cross-sectional view taken along line VV in FIG. 2. 6 is a cross-sectional view of the unit cable according to the second embodiment of the present invention taken along line VI-VI in FIG. 2. 7 is a cross-sectional view of the unit cable of the second embodiment taken along line VII-VII in FIG. 2.

The unit cable according to an embodiment of the present invention will be described in detail below with reference to the drawings.

Figure 1 is a perspective view showing an example of a unit cable according to a first embodiment of the present invention used for wiring a system ceiling light. Figure 2 is a schematic plan view of the unit cable. Figure 3 is a partial perspective view showing the unit cable connected to a lighting fixture via a connector. Figure 4 is a cross-sectional view taken along line IV-IV in Figure 2. Figure 5 is a cross-sectional view taken along line V-V in Figure 2.

As shown in Figures 1 and 2, the unit cable 10 is for lighting wiring in a system ceiling 1, and is equipped with one main cable 12 (22) and four branch cables 15 (25) centered around one hanging bolt (support member) 3. Here, a system ceiling (also called a grid system ceiling) refers to a ceiling in which the ceiling partitions and the equipment to be installed on the ceiling are assembled together.

As shown in FIG. 1, the system ceiling 1 is configured with a grid of T-bars 2, and one lighting fixture 5 is assembled within the frame of one grid. In this embodiment, lighting fixtures (load fixtures) 5 are assembled within the frame of each grid at positions spaced 90° apart from one hanging bolt 3 suspended from the system ceiling 1. As shown in FIG. 1 and FIG. 3, a connector 6 is attached to the corner of the case 5a of each lighting fixture 5. Three large male terminals and two small male terminals (not shown) are provided from the housing 6a of this connector 6 to the inside of the hood portion 6b, to which three power wires 7 and two control wires 8 are connected, respectively. The power wire 7 adjacent to the control wire 8 serves as an earth wire.

As shown in Figures 2 and 3, the unit cable 10 includes a power cable 11 having a trunk cable 12 and branch cables 15, and a molded section 17 that branches off four branch cables 15 from the center of the trunk cable 12. The unit cable 10 also includes a control cable 21 having a trunk cable 22 and branch cables 25, and four branch cables 25 that branch off from the center of the trunk cable 22, and these four branch cables 25 branch off from the same molded section 17.

As shown in FIG. 2, the trunk cable 12 of the power cable 11 has one end 12a connected to a power supply unit (not shown) and the other end 12b connected to the load side. The trunk cable 22 of the control cable 21 has one end 22a connected to a control device (not shown) and the other end 22b connected to one end 22a (load side) of the trunk cable 22 of another unit. As shown in FIG. 4, the trunk cable 12 of the power cable 11 is configured by sealing the three power electric wires 13 together with an insulating coating (insulating part) 14 formed by extruding resin at once by molding. Furthermore, as shown in FIG. 2, both ends 12a, 12b of the trunk cable 12 of the power cable 11 are connected to terminals (not shown) of each connector 18 connected to both ends 12a, 12b of the trunk cable 12 of the other unit. In addition, the trunk cable 22 of the control cable 21 is constructed by collectively molding the two control electric wires 23 with the same insulating coating 14 via the bridge portion 14a. Furthermore, both ends 22a, 22b of the trunk cable 22 of the control cable 21 are connected to terminals (not shown) of the same connectors 18 that are connected to both ends 22a, 22b of the trunk cable 22 of other units.

2 and 5, the branch cable 15 of the power cable 11 is constructed by sealing the three power electric wires 16 together with an insulating coating (insulating portion) 14 formed by collectively extruding resin by molding. The branch cable 25 of the control cable 21 is constructed by sealing the two control electric wires 26 together with the same insulating coating 14 via a bridge portion 14a. The conductors (core wires) 13a of the power electric wires 13 of the trunk cable 12 of the power cable 11 and the conductors (core wires) 16a of the power electric wires 16 of the branch cable 15 are connected by soldering or the like and insulated and protected by a molded portion 17 whose periphery is molded. Furthermore, the conductors (core wires) 23a of each control electric wire 23 in the trunk cable 22 of the control cable 21 and the conductors (core wires) 26a of each control electric wire 26 in the branch cable 25 are connected by soldering or the like and are insulated and protected by the same molded part 17.

To explain in detail how the power cable 11 and the control cable 21 are kept insulated, the power cable 11 and the control cable 21 are kept separated from each other in the portions (protruding portions) that are routed from the molded portion 17 and protected by the insulating coating 14. That is, as shown in FIG. 4, the three power electric wires 13 that make up the trunk cable 12 of the power cable 11 and the two control electric wires 23 that make up the trunk cable 22 of the control cable 21 are molded together with the insulating coating 14 in a separated state via the bridge portion 14a. The earth wire 13A of the trunk cable 12 of the power cable 11, which is integrated by this molding, is positioned adjacent to the control electric wire 23 of the trunk cable 22 of the control cable 21. As shown in FIG. 5, the three electric power wires 16 constituting the branch cable 15 of the electric power cable 11 and the two control wires 26 constituting the branch cable 25 of the control cable 21 are molded together with the insulating coating 14 while being separated via the bridge portion 14a. The earth wire 16A of the branch cable 15 of the electric power cable 11 integrated by this molding is disposed in a position adjacent to the control wire 26 of the branch cable 25 of the control cable 21.

As shown in FIG. 3, the other end 15b of each branch cable 15 of the power cable 11 (the lighting fixture 5 side of the branch cable 15) is bent in the wiring direction and housed in the housing 19a of the connector 19, and connected to a female terminal (not shown). The other end 25b of each branch cable 25 of the control cable 21 (the lighting fixture 5 side of the branch cable 25) is also bent in the wiring direction while separated by the bridge portion 14a, and housed in the housing 19a of the same connector 19, and connected to a female terminal (not shown).

As shown in Figures 1 and 2, the molded portion 17 has a mounting hole (mounting portion) 17a that is press-fitted onto the hanging bolt 3 provided on the system ceiling 1. By pressing the hanging bolt 3 into this mounting hole 17a, the molded portion 17 of the unit cable 10 is attached to the system ceiling 1.

According to the unit cable 10 of the first embodiment described above, as shown in FIG. 3, the power wires 7 and control wires 8 in the case 5a of the lighting fixture 5 are connected with a single wiring of the branch line cable 15 of the integrated power cable 11 and the branch line cable 25 of the control cable 21. In addition, since each cable 12, 15 of the power cable 11 and each cable 22, 25 of the control cable 21 are integrated with the insulating coating 14 via the bridge portion 14a, the power cable 11 and the control cable 21 can be easily and reliably separated from each other, and safety can be easily ensured.

In addition, the installation work only requires one press-fit of the mounting hole 17a of the molded part 17 onto the hanging bolt 3 of the system ceiling 1, improving work efficiency. Furthermore, the wiring for the system ceiling lighting can be completed by preparing one type of unit cable 10, reducing the number of wiring components. Furthermore, only one connector is required for both power supply and control, so the equipment side connector needs to be installed on the lighting fixture 5 once, and the number of connections to the unit side connector also needs to be made once, improving work efficiency.

Furthermore, as shown in Figures 4 and 5, the earth wires 13A, 16A of the cables 12, 15 of the power cable 11 are positioned adjacent to the control wires 23, 26 of the cables 22, 25 of the control cable 21. This allows the control cable 21 to reduce noise from the power cable 11.

In this way, by integrating the power cable 11 and the control cable 21, and also integrating the power and control connectors 19, it is possible to wire two types of wiring in the same route at once for the system ceiling lighting. This allows the wiring for the system ceiling lighting to be done in one go, significantly reducing the time required for wiring work. In addition, since the power cable 11 and the control cable 21 are integrated via the bridge portion 14a of the insulating coating 14, there is no need to work to ensure the separation of the two types of wiring, and contact between the two cables 11, 21 can be reliably prevented, improving safety. Furthermore, by combining two types of wiring materials into one type, material management becomes easier. In other words, the number of wiring parts can be significantly reduced, and wiring workability can be further improved.

Figure 6 is a cross-sectional view of the unit cable of the second embodiment of the present invention taken along line VI-VI in Figure 2. Figure 7 is a cross-sectional view of the unit cable taken along line VII-VII in Figure 2.

The unit cable 10 of this second embodiment differs from that of the first embodiment in that the main cable 12 of the power cable 11, the main cable 22 of the control cable 21, and the branch cable 15 and the branch cable 25 are each fixed with a spacing member 28. Note that other configurations are similar to those of the first embodiment, so the same components are given the same reference numerals and detailed descriptions are omitted.

As shown in FIG. 6, the three power electric wires 13 covered with the insulating coating 12c of the main cable 12 of the power cable 11 and the two control electric wires 23 covered with the insulating coating 22c of the main cable 22 of the control cable 21 are fixed by a spacing member (insulating portion) 28. Also, as shown in FIG. 7, the three power electric wires 16 covered with the insulating coating 15c of the branch cable 15 of the power cable 11 and the two control electric wires 26 covered with the insulating coating 25c of the branch cable 25 of the control cable 21 are also fixed by a spacing member 28. This spacing member 28 has a bridge portion 28a, a large holding portion 28b with a C-shaped cross section that holds the power cable 11, and a small holding portion 28c with a C-shaped cross section that holds the control cable 21. This large holding portion 28b is integrally formed on one end side of the bridge portion 28a, and the small holding portion 28c is integrally formed on the other end side of the bridge portion 28a.

In the unit cable 10 of the second embodiment, the cables 12 and 15 of the power cable 11 and the cables 22 and 25 of the control cable 21 are fixed by the spacing member 28 via the bridge portion 28a. This makes it easy and reliable to keep the power cable 11 and the control cable 21 apart, making it easier to ensure safety.

Although the present embodiment has been described above, the present embodiment is not limited to these, and various modifications are possible within the scope of the gist of the present embodiment.

That is, according to the above embodiment, the connector of the branch line cable of the power cable and the connector of the branch line cable of the control cable are integrated, but each branch line cable may be connected to a separate connector. In this case, it can also be used for wiring of conventional system ceiling lighting in which the lighting side connector is not integrated.

In addition, according to the above embodiment, the unit cable is used for wiring the system ceiling lighting, but the unit cable may be used for wiring other than lighting fixtures.

1 System ceiling 3 Suspension bolt (support member)
5. Lighting equipment (load equipment)
REFERENCE SIGNS LIST 10 unit cable 11 power cable 12 trunk cable 12a one end 12b other end 13, 16 power electric wire 13A, 16A earth wire 13a, 16a conductor (core wire)
14 Insulating coating (insulating part)
14a Bridge portion 15 Branch line cable 15b Other end 17 Molded portion 17a Mounting hole (mounting portion)
19a Housing 21 Control cable 22 Main cable 22a One end 22b Other end 23, 26 Control electric wire 23a, 26a Conductor (core wire)
25 Branch line cable 25b Other end 28 Separation member (insulating portion)

Claims (4)

a power cable having one end connected to a power source and the other end connected to a load;
A control cable having one end connected to a control device and the other end connected to a load device;
a molded portion for connecting core wires of the main cables and core wires of the branch cables of the power cable and the control cable to each other and insulating and protecting the periphery;
Equipped with
The power cable and the control cable are held in a state where they are separated from each other and protected by an insulating part at the portion where they are routed from the molded part ,
A unit cable in which a plurality of power electric wires including an earth wire constituting the power cable and a plurality of control electric wires constituting the control cable are fixed by a single common spacing retaining member . The unit cable according to claim 1 , wherein the earth wire of the power cable is disposed adjacent to the control cable. 3. The unit cable according to claim 1, wherein the other end of the branch cable of the power cable and the other end of the branch cable of the control cable are accommodated in a single housing. The unit cable according to claim 1 , wherein the molded portion has an attachment portion that is attached to a support member provided on a system ceiling.

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