JP3992132B2 - Unit cable for branch wiring - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a unit cable for branch wiring used for wiring a low voltage electric wire such as an apartment or a building.
[0002]
[Prior art]
In general, indoor wiring for power supply in condominiums, buildings, apartment houses, factories, etc. is wired along the back of the ceiling or the inside of the outer wall. This indoor wiring includes a flat cable for indoor wiring made of VVF (600V vinyl insulated vinyl sheathed flat cable), CVF (cross-linked polyethylene insulated vinyl sheathed flat cable), and a unit in which a plurality of flat cables for indoor wiring are bundled. Cables are often used and are wired on the walls of condominiums, etc., and are connected to indoor lighting, switches, outlets, and other additional equipment.
[0003]
In general, in a building such as a condominium or a building, a heat insulating material is used on the inner side of the outer wall for the purpose of preventing condensation or saving energy by cooling and heating. As this heat insulating material, the method of spraying polyurethane foam on the inside of the outer wall is most often used because of its effect and workability.
[0004]
The polyurethane foam used as the heat insulating material generally contains a tertiary amine or the like as a curing accelerator, and immediately after the polyurethane foam is sprayed on the inner side of the outer wall, curing of the polyurethane foam is started. Anyone can be prevented and has an excellent curing acceleration effect.
[0005]
[Problems to be solved by the invention]
However, if a flat cable for indoor wiring is wired inside the outer wall of a building that has been sprayed with polyurethane foam insulation containing a tertiary amine, the flat cable for indoor wiring and the polyurethane foam insulation are in contact with or covered. There was a case.
[0006]
When a flat cable for indoor wiring using a vinyl chloride resin such as VVF and a foamed polyurethane heat insulating material come into contact with each other, the tertiary amine contained in the foamed polyurethane heat insulating material has a reducing action, and the flat cable for indoor wiring There was a problem in that the dehydrochlorination reaction of the vinyl chloride resin was promoted to accelerate the deterioration of the vinyl chloride resin, resulting in a decrease in insulation resistance and discoloration.
[0007]
In addition, when a CVF cable is used instead of VVF, the CVF cable insulator is made of a polyethylene resin and is not affected by the tertiary amine contained in the polyurethane foam heat insulating material, but the sheath of the CVF cable is Since it is composed of a vinyl chloride resin composition, when the sheath comes in contact with the polyurethane foam heat insulating material, the dehydrochlorination reaction is promoted, resulting in a decrease in insulation resistance or discoloration as a cable.
[0008]
For this reason, in order to prevent deterioration of the flat cable for indoor wiring using vinyl chloride resin and the vinyl chloride resin of its unit cable, electric wires made of polyethylene or polypropylene are in contact with or covered with the polyurethane foam insulation. Although it has been attempted to cut off the contact with the polyurethane foam heat insulating material by passing a pipe or wrapping a tape made of polyester or the like, the construction cost has been increased due to these measures.
[0009]
An object of the present invention is to provide a unit cable for branch wiring that does not deteriorate even when it comes into contact with a foamed polyurethane heat insulating material and has excellent workability without causing a decrease in insulation resistance or discoloration.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, the branch wiring unit cable according to claim 1 has a joint cap provided with a hanging portion, and is wired to a load installed indoors in the joint cap. A unit cable for branch wiring that connects one end of a plurality of cables, and is foamed that is sprayed on the back of the ceiling, the inside of the outer wall, etc. of the plurality of cables wired in the joint cap A cable that is wired in contact with a polyurethane heat insulating material is formed by covering a conductor with an insulator made of polyethylene resin to form an insulation core, and arranging the two insulation cores side by side to form a pair of insulation cores. A flat case formed by covering a sheath made of insulating flame-resistant polyethylene on the pair of insulating cores and colored in substantially the same color as the polyurethane foam heat insulating material. Constituted by Le, other cables of the plurality of cables to be routed in said joint cap is characterized by comprising constituted by VVF or CVF.
As described above, according to the first aspect of the present invention, it is possible to easily identify the location in contact with the heat insulating material without lowering the insulation resistance or discoloring, and easily distinguishing from other cables. In addition, it is possible to provide a unit cable for branch wiring that does not cause a decrease or discoloration of insulation resistance and can easily identify a contact point with a heat insulating material .
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of a unit cable for branch wiring according to the present invention will be described.
FIG. 1 is a cross-sectional view showing an embodiment of a flat cable for indoor wiring used for a unit cable for branch wiring according to the present invention.
In FIG. 1, reference numeral 1 denotes a flat cable for indoor wiring according to the present invention. The flat cable 1 for indoor wiring includes a pair of insulated wire cores 2 arranged side by side and a sheath 3 covered with these insulated wire cores 2, and the cross-sectional view thereof is substantially oval. It is configured as follows.
[0014]
The insulated wire core 2 includes a conductor 4 and an insulator 5. The insulated wire core 2 is formed by covering the conductor 4 with the insulator 5. The conductor 4 has conductivity, and the insulator 5 is formed of a polyolefin resin. The sheath 3 that covers the insulating core 2 is also formed of a polyolefin resin. In this embodiment, the flat cable 1 for indoor wiring is formed of EM-EEF (polyethylene insulated flame resistant polyethylene sheathed cable).
[0015]
In the flat cable 1 for indoor wiring made of EM-EEF, the conductor 4 is made of soft copper, the insulator 5 is made of polyethylene resin, and the sheath 3 is made of flame-resistant polyethylene resin. In the present embodiment, the polyethylene resin that forms the insulator 5 and the flame-resistant polyethylene resin that forms the sheath 3 do not contain chlorine molecules due to the composition. Even if they come into contact with each other, a dehydrochlorination reaction or the like does not occur due to a reduction action by a tertiary amine or the like contained in the polyurethane foam heat insulating material, and the insulation resistance of the cable does not decrease or deteriorate.
[0016]
That is, the flat cable 1 for indoor wiring and the polyurethane foam heat insulating material may be in contact with each other, and it is not necessary to cover the flat cable 1 for indoor wiring with a conduit or tape.
[0017]
In this embodiment, the insulator 5 of the flat cable 1 for indoor wiring uses EM-EEF in which polyethylene resin is used and the sheath 3 is made of flame-resistant polyethylene resin. However, the present invention is not limited to this, and CEF (crosslinked polyethylene insulating polyethylene) is used. It is only necessary that the insulator 5 and the sheath 3 such as a sheath flat cable and a non-halogen fireproof cable are formed of an olefin resin. Since the olefin resin has strong resistance to chemical reaction, the use of the olefin resin for the insulator 5 and the sheath 3 reduces the insulation resistance and discoloration of the cable even when it comes in contact with the polyurethane foam insulation. There is nothing to do.
[0018]
The sheath 3 that is the outermost layer of the flat cable 1 for indoor wiring according to the present invention contains a coloring pigment and is given an arbitrary color. In the present embodiment, the sheath 3 is colored in a light green color. The sheath 3 is colored in a pale green color because the polyurethane foam used as the heat insulating material on the inside of the outer wall is often pale green, and when the flat cable 1 for indoor wiring is installed on the inside of the outer wall, the foam is foamed. This is because the polyurethane heat insulating material and the flat cable 1 for indoor wiring have substantially the same color, which is preferable in terms of aesthetics.
[0019]
Further, by unifying the color of the flat cable 1 for indoor wiring, it becomes possible to identify the cable by color at the time of wiring, and to prevent erroneous wiring and the like.
[0020]
FIG. 2 shows an embodiment of a unit cable according to the present invention. In FIG. 2, 6 is a unit cable using the flat cable 1 for indoor wiring shown in FIG. The unit cable 6 has a structure in which one end of a plurality of cables wired to a load such as a lighting, a switch, and an outlet is connected in a bell-shaped joint cap 8 having a hanging portion 7 on the upper part. It can be hung by the hanging portion 7 on the attic of a house or the like.
[0021]
In the present embodiment, a flat cable 1 for indoor wiring shown in FIG. 1 is used as a cable whose one end is connected to the joint cap 8 of the unit cable 6. In the present embodiment, the flat cable 1 for indoor wiring is EM-EEF in which the insulator is made of polyethylene resin and the sheath is made of flame-resistant polyethylene resin. The plurality of flat cables 1 for indoor wiring are wired for connection to lighting, switches, etc., respectively, but the unit cable 6 in this embodiment is an insulator of the flat cable 1 for indoor wiring. Since the sheath is made of polyolefin resin, the insulation resistance of the unit cable 6 is reduced or discolored even when the wiring is made at a location where the foamed polyurethane heat insulating material is sprayed on the inside of the outer wall. Can be prevented.
[0022]
Further, the unit cable 6 in the present embodiment is configured such that all the cables connected to the joint cap 8 are constituted by the flat cable 1 for indoor wiring in which the insulator and the sheath are made of polyolefin resin. However, the present invention is not limited to this, and only a cable that can come into contact with the foamed polyurethane heat insulating material on the wiring may be a flat cable 1 for indoor wiring, and a cable that is wired to another location may be a cable made of VVF or the like. By adopting such a structure, it becomes possible to easily identify the flat cable 1 for indoor wiring that can come into contact with the polyurethane foam heat insulating material from a plurality of cables, and prevent erroneous wiring of the unit cable 6. it can.
[0023]
In addition, among the flat cables 1 for indoor wiring of the unit cable 6 in the present embodiment, the flat cable 1 for indoor wiring connected to a place where it can come into contact with the foamed polyurethane heat insulating material is used for coloring the outermost sheath. Color is given by including a pigment. The flat cable 1 for indoor wiring is colored light green in the present embodiment. If the flat cable 1 for indoor wiring is light green, it can be made substantially the same color as the foamed polyurethane heat insulating material, which is often light green, and the flat cable 1 for indoor wiring is inconspicuous after wiring and is aesthetically preferable. .
[0024]
Note that the flat cable for indoor wiring in the present embodiment is colored in a light green color with a pigment for coloring, but is not limited to this and matches the color of the polyurethane foam insulation. It is also possible to color other colors.
[0025]
【The invention's effect】
Since the present invention is configured as described above, the following effects can be obtained.
[0026]
According to the invention described in claim 1, can be easily identified flat cable for indoor wiring in contact with foamed polyurethane insulation, even when in contact with foamed polyurethane insulation, foamed polyurethane insulation A unit cable for branch wiring can be obtained in which the insulation resistance of the flat cable for indoor wiring that comes into contact with the material does not decrease and the flat cable for indoor wiring does not change color.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing an embodiment of a flat cable for indoor wiring according to the present invention.
FIG. 2 is a perspective view showing an embodiment of a unit cable according to the present invention.
[Explanation of symbols]
1 …………………………… Flat cable 2 for indoor wiring …………………………… Insulated wire core 3 …………………………… Sheath 4 ……… …………………… Conductor 5 ……………………… Insulator 6 …………………………… Unit cable

Claims (1)

A unit cable for branch wiring having a joint cap provided with a hanging portion, and connecting one end of a plurality of cables wired to a load installed indoors in the joint cap;
The cable that is wired in contact with the polyurethane foam insulation material sprayed on the back of the ceiling, the inside of the outer wall, etc. of the plurality of cables wired in the joint cap,
An insulation made of polyethylene resin is coated on the conductor to form an insulation core, and two insulation cores are arranged side by side to form a pair of insulation cores, and insulation is performed on the pair of insulation cores. Consists of a flat cable made of flame-resistant polyethylene and covered with a sheath colored in the same color as the polyurethane foam insulation material,
The other cable of the plurality of cables wired in the joint cap is composed of VVF or CVF,
A unit cable for branch wiring.

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