JP2000195345A - Impervious cable - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cable superior in its water barrier performance and having no problem on environment aspect by constructing a water shield layer of only a non-metal material, composed of olefin polymer being the same type of plastic as that of sheath. SOLUTION: A cable core 1 has on its conductor 2 an inner semiconducting layer 3 made of semiconducting polyethylene, an insulating layer 4 made of polyethylene or cross-link polyethylene and an outer semiconductive layer 5 made of semiconductive polyethylene, in order. On the core 1, a wire shield 6 and a retaining tape layer 7 are provided in the order, and on the layer 7 a water shield layer 8 is formed with a non-metallic tape made of olefin polymer serving as a water shield tape. On the layer 8, a plastic sheath 9 composed of a composition having the same type of olefin polymer as that of impervious layer material as a base polymer is provided. The water penetration amount of the layer 8 should be 1.0 g/m2-day or less than.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waterproof cable with reduced environmental load.

[0002]

2. Description of the Related Art As the demand for preserving the global environment increases, materials can be recycled in the field of electric wires and cables, and environmental considerations such as harmful halogen gas and dioxin are not generated during combustion. Development of wires and cables with low load is underway.

Conventionally, in a CV cable (cross-linked polyethylene insulated cable), in order to prevent water tree deterioration of the insulator, a water-blocking tape is vertically attached below the cable sheath to insulate the sheath from outside. We try to prevent infiltration of water into the body. So-called laminating tape is generally used as the water-shielding tape, in which a thin layer of plastic that is easily heat-fused to one or both sides of a metal tape such as lead or aluminum is bonded to a vinyl chloride resin or the like which is a cable sheath material. Used.

[0004] However, in the conventional cable using such a laminated tape, although the tape and the sheath are physically integrated to have excellent water-blocking performance, it is difficult to peel off the metal tape. The sheath material could not be recycled and had to be treated as waste, which was not always satisfactory in terms of environmental conservation.

[0005]

As described above, in recent years, it is possible to recycle, generate no harmful substances, etc.
There is a demand for wires and cables with low environmental impact,
Water-impervious cables using conventional laminated tapes have excellent water-impermeability, but because the metal tape is difficult to separate, it is difficult to recycle the water-impervious tape and sheath material.
It was not satisfactory in terms of environmental protection.

[0006] The present invention has been made in view of such a point, and it is an object of the present invention to provide a water-impervious cable which is excellent in water-impermeability and does not have the above-mentioned environmental conservation problems.

[0007]

According to a first aspect of the present invention, there is provided a water-impermeable cable having a water-impervious layer and a sheath made of plastic on the outer periphery of a cable core in order. It is a water impermeable cable characterized by being comprised.

[0008] The second invention of the present application is that the outer periphery of the cable core is made of an olefin polymer and has a water permeability.
A water impermeable cable comprising a sheath of 1.0 g / m ² -day or less.

In the waterproof cable according to the first invention of the present application, the waterproof layer is made of only a so-called non-metallic material that does not include a metallic tape as in the prior art. There is no need to peel off, and the water barrier layer and the sheath can be recycled. Further, generation of harmful metals such as lead is also prevented.

[0010] In the present invention, it is more advantageous that the water-blocking layer is made of plastic similar to the sheath, because the water-blocking layer can be recycled as it is without being separated from the sheath. When the water-blocking layer is made of only plastic as described above, it may be formed by extrusion of a plastic and by vertically attaching or horizontally winding a plastic tape. It is desirable to form by extrusion which can also be extruded. In addition, when the water shielding layer and the sheath are fused and integrated at the time of covering the sheath, it is possible to prevent the water shielding layer from moving and causing wrinkles to be generated or cut off. Further, by forming the sheath thicker than the water-impermeable layer, it is possible to improve the trauma resistance.

In the present invention, in particular, the water-impervious layer is
Water permeability is 1.0 g / m ² -day due to olefin polymer
It is desirable to configure as follows. In addition to the above-mentioned effects, the water-impervious performance is sufficiently provided for the water-impervious cable.

[0012] In the water impermeable cable according to the second aspect of the present invention, the outer surface of the cable core is provided with a sheath made of an olefin polymer having a water permeability of 1.0 g / m ² -day or less, so that the water impermeable performance is improved. In addition, the sheath material can be recycled, and no harmful substances such as harmful gas and dioxin are generated from the sheath material even when the sheath material is burned.

[0013]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a cross-sectional view showing an example of a water-impervious cable according to the present invention.

In FIG. 1, reference numeral 1 denotes an inner semiconductive layer 3 made of semiconductive polyethylene or the like, an insulator layer 4 made of polyethylene or crosslinked polyethylene or the like, and an outer semiconductive layer 4 made of semiconductive polyethylene or the like on a conductor 2. 1 shows a cable core in which conductive layers 5 are sequentially provided.

On the cable core 1, a wire shield 6 in which a large number of copper wires are horizontally wound and a holding tape layer 7 are sequentially provided.

On the pressing tape layer 7, a water-impervious tape having a thickness of 0.05 mm or more and a water permeability of 1.0 g / m ²
A non-halogen non-metal tape of -day or less is longitudinally attached to form a water barrier layer 8, on which a plastic sheath 9 made of polyethylene, flame-retardant polyethylene, soft vinyl chloride resin, or the like is extrusion-coated. . The water permeability of the tape was measured using the VAPER PERMEATION TESTER L80-
It is a measured value by 4000 (product name).

The amount of water permeation for forming the above-mentioned impermeable layer 8 is 1.0 g.
/ m ² -day or less non-halogen non-metallic tape is specifically exemplified by an ethylene cycloolefin copolymer obtained by copolymerizing ethylene and a cyclic olefin with a metallocene catalyst, such as TOPAS (trade name) manufactured by Hoechst, ,
A tape made of Mitsui Chemicals' Apel (trade name) and the like, and a tape made of UMERIT (trade name) of Ube Industries, which is polyethylene polymerized using a metallocene catalyst, and the like can be given. Further, a tape made of a mixture of the above-mentioned polymer with a metallocene catalyst and a general-purpose polyethylene can also be used in the present invention as long as the water permeability satisfies the above conditions.

In the present invention, the materials of the insulator layer 4 and the sheath 9 are not particularly limited, but from the viewpoint of environmental preservation, it is desirable to use a composition containing an olefin polymer as a base polymer. In particular, the use of an olefin polymer polymerized by a metallocene catalyst as exemplified as the material of the water barrier layer 8 is more preferable because the water barrier performance and the water tree resistance can be further improved.

In the water-impervious cable thus constructed, the water-impervious layer 8 is formed of a non-halogen non-metallic tape, so that the metal tape can be used as in a conventional water-impervious cable using a laminated tape. There is no need to separate and collect, and the water-blocking layer material and the sheath material can be reused. In particular,
When the sheath 9 is formed of a composition using an olefin polymer similar to the water-blocking layer material as a base polymer, the water-blocking layer material and the sheath material can be mixed and reused as they are. In addition, since the water permeability is as small as 1.0 g / m2-day or less, it has sufficient water shielding performance for practical use.

In the above-described example, the water-blocking layer 8 is formed by vertically attaching a tape. However, the tape may be wound horizontally, or may be formed by extrusion using the same material. Good.

[0022]

Next, examples of the present invention will be described.

Example 1 An inner semiconductive layer having a thickness of 1.0 mm and an insulating layer made of cross-linked polyethylene having a thickness of 11 mm were formed on a copper stranded conductor having a cross-sectional area of 200 mm ² .
An outer semiconductive layer having a thickness of 1.0 mm was sequentially coated. The inner semiconductive layer and the outer semiconductive layer contain a semiconductive composition based on ethylene-butene terpolymer (EBT) as a base polymer, and the insulating layer contains a crosslinking agent. An insulating composition using a general-purpose polyethylene as a base polymer was used.

Next, a wire shield is provided by horizontally winding a thin copper wire thereon, and a pressing tape is applied thereon. Then, TOPAS (trade name) having the physical properties shown in Table 1 is placed thereon.
A tape having a thickness of 1.0 mm was longitudinally attached to form a water-blocking layer, and a general-purpose polyethylene was extrusion-coated on the water-blocking layer to form a sheath having an outer diameter of 50 mm.

The thus obtained power cable was evaluated for its water-blocking performance and electrical characteristics. As the water barrier performance,
A hygroscopic agent was placed in a sheath having a water-impervious layer except for an insulator (core) having a length of about 30 cm, the both ends were sealed, and placed in warm water at 60 ° C., and the weight change after 30 days was measured. In addition, as electrical characteristics, the obtained power cable was immersed in a water tank, and subjected to water inundation for 1.5 years at a ground voltage of 38.1 kV at 1 kHz, and a breakdown voltage was measured. The results are shown in Table 1.

Examples 2 to 4 A 1.0 mm thick tape made of Apel (trade name), Apel and high density polyethylene (mixing weight ratio)
8: 2), and a cable was manufactured and obtained in the same manner as in Example 1 except that a 1.0 mm thick tape made of UMERIT (trade name) was used. The water barrier performance of each cable was evaluated in the same manner as in Example 1. The results are shown in Table 1 together with the physical properties of each tape.

Comparative Examples 1-4 As a material for forming the water-blocking layer, a 0.3 mm-thick lead laminate tape (a 50 μm-thick lead tape having an 80 μm-thick semiconductive vinyl chloride resin layer on one side and a 75 μm-thick A polyester resin layer and an adhesive layer made of a 50 μm-thick ethylene acrylate copolymer were sequentially formed (Comparative Example 1), 0.3
mm laminated aluminum tape (same structure as lead laminated tape except lead tape is 50μm thick aluminum tape) (Comparative Example 2), soft vinyl chloride resin tape (Comparative Example 3), general-purpose high-density polyethylene tape (compared) A cable was manufactured in the same manner as in the above example except that each of Example 4) was used, and the same characteristic evaluation as in the above example was performed. The results are shown in Table 1 together with the physical properties of the tape.

[0028]

[Table 1]

[0029]

As described above, according to the present invention,
It is possible to obtain a water-impervious cable which is excellent in water-impermeability and environmental preservation.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view showing an example of a water impermeable cable according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Cable core 2 ... Conductor 3 ... Internal semiconductive layer 4 ... Insulator layer 5 ... External semiconductive layer 6 ... Wire shield 7 ... Holding tape layer 8 ... ... water barrier layer 9 ... plastic sheath

Claims (10)

[Claims] 1. A water-impervious cable comprising a water-impervious layer and a sheath made of plastic on the outer periphery of a cable core in order, wherein the water-impervious layer is made of only a non-metallic material. . 2. The impermeable cable according to claim 1, wherein the non-metallic material is plastic similar to the sheath. 3. The water impermeable layer is formed to be thinner than the sheath, and the water impermeable layer and the sheath are integrally heat-sealed.
The impermeable cable described. 4. The impermeable cable according to claim 1, wherein the impermeable layer is formed by extruding the plastic. 5. The impermeable cable according to claim 1, wherein the impermeable layer is formed of a tape made of the plastic. 6. The barrier according to claim 1, wherein the barrier layer is made of an olefin-based polymer and has a water permeability of 1.0 g / m ² -day or less. Water cable. 7. The impermeable cable according to claim 6, wherein the olefin-based polymer comprises a polymer polymerized using a metallocene catalyst. 8. The impermeable cable according to claim 6, wherein the sheath is made of a composition containing an olefin-based polymer as a base polymer. 9. The water-impervious cable according to claim 8, wherein the olefin-based polymer constituting the sheath comprises a polymer polymerized using a metallocene catalyst. 10. A water impermeable cable, comprising a sheath made of an olefin polymer and having a water permeability of 1.0 g / m ² -day or less on the outer periphery of the cable core.