JPH0430727Y2 - - Google Patents

Description

[Detailed description of the invention] Industrial application field This invention can reliably prevent rust on electric wires for a long period of time, and most of the rust preventive agent is fused even when wrapped around electric wires and subjected to high-temperature treatment. Regarding anti-rust tape for electric wires.

Conventional technology It has been known for a long time that benzotriazole, a volatile rust inhibitor, is effective in preventing rust on electric wires, especially copper electric wires.Therefore, tapes made of synthetic resin films or non-woven fabrics coated with benzotriazole have been used. is being used.

Problems to be solved by the invention However, applying a large amount of benzotriazole directly to a synthetic resin film such as a polyester film takes time for the benzotriazole to crystallize and solidify after being applied. When the product is rolled up after application, it comes into contact with the opposite side of the film, which overcomes the blocking phenomenon.
In some cases, it was not possible to remove the film. Furthermore, because a large amount of benzotriazole cannot be applied to the film, it has the disadvantage that it cannot fully exhibit its performance as a rust-preventing tape for electric wires.

Moreover, during the production of electric wires, after wrapping the anti-corrosion tape around the electric wires, it is used as an insulating coating at high temperatures (200~200℃).
Conventionally, extrusion coating of polyethylene (250℃) has been carried out, but if a rust preventive tape made of synthetic resin film or non-woven fabric coated with benzotriazole as described above is wrapped around an electric wire, and polyethylene is extrusion coated around the electric wire, This high-temperature polyethylene produces benzotriazole (liquefaction temperature: approx. 140
℃) melts and adheres to the wire, causing discoloration of the wire and giving the wire a rusty appearance.

The present invention was developed in view of the above circumstances, and it is possible to increase the amount of rust preventive agent such as benzotriazole, which maintains its rust preventive effect over a long period of time, and also allows electric wires to be To provide a rust-preventing tape for electric wires that hardly fuses a rust preventive agent to electric wires even when wrapped and subjected to high-temperature treatment, and has excellent appearance and rust-preventing effect on electric wires.

Means for Solving the Problems In order to achieve the above-mentioned object, the present invention has a rust-proof tape for electric wires, in which a heat-resistant resin film is laminated on one side of a nonwoven fabric containing a rust preventive agent, and a breathable tape is laminated on the other side. It is constructed as a composite structure in which heat-resistant resin coating layers are laminated.

Function Since the anti-rust tape for electric wires of the present invention uses a non-woven fabric, it is possible to contain and retain a large amount of anti-rust agent in the non-woven fabric. Furthermore, since the heat-resistant resin film is laminated on one side of the nonwoven fabric containing the rust preventive, the rust preventive contained in the nonwoven fabric is hardly vaporized and lost due to this film. Furthermore, a breathable, heat-resistant resin coat layer is laminated on the other side of the nonwoven fabric containing a rust preventive agent, and by adhering this resin coated surface to an electric wire to cover the wire, this breathable resin coat can be applied. The rust inhibitor is gradually supplied to the wire through the layers. Therefore, the rust preventive effect of the rust preventive agent can be maintained for a long period of time.

In addition, electric wires are coated with the anti-rust tape for electric wires of the present invention, and then high-temperature processing is performed, such as extruding an insulating material such as polyethylene at a high temperature of 200 to 250°C to coat the wires. In this case, the heat-resistant resin film that makes up the rust-proof tape for electric wires is the outermost layer of the tape, so high-temperature treatment can be performed on the heat-resistant resin film without any problems, and the rust preventive agent is in the innermost layer. Since it is protected by the resin coating layer, it is possible to prevent the rust preventive agent from directly fusing to the wire.

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

Embodiment The drawing shows a rust-proof tape for electric wires according to an embodiment of the present invention. This rust-proof tape 1 has a heat-resistant resin film 2 and a nonwoven fabric 3 containing a rust preventive agent laminated on one side. A breathable heat-resistant resin coating layer 4 is laminated thereon.

Here, as the heat-resistant resin film 2, a heat-resistant plastic film made of polyester, polyimide, polyphenyl sulfide, polyamideimide, polysulfon, etc. is used. These films can have a single layer structure, or can have a multilayer structure in which two or more types are appropriately combined. Further, a composite film made by laminating metal foil on these plastic films can also be used. Among them, a single-layer polyester film is most preferred from the viewpoint of cost. Note that the thickness of the synthetic resin film is not particularly limited, but may be approximately 5 to 100 μm.

In addition, the type of nonwoven fabric 3 is not limited, but it is usually made of polyester fiber, nylon fiber, etc.
100g/ ^m2 is used, and its thickness is 30~
The thickness can be approximately 300 μm.

The rust preventive agent impregnated into the nonwoven fabric 3 or applied to the surface thereof is appropriately selected depending on the material of the electric wire, and in the case of a copper electric wire, benzotriazoles are preferably used. The amount of rust preventive used is also selected appropriately, but 1 to
It is preferably 30 g/m ² , particularly 10 to 15 g/m ² .

Furthermore, the breathable heat-resistant resin coating layer 4 can be formed by coating a paint containing a heat-resistant resin or a prepolymer thereof alone or in combination with a foaming agent. Among these, this type of coating layer can be easily formed by coating and layering a silicone or acrylic resin that cures at room temperature.

The above-mentioned anti-rust tape 1 for electric wires is used by adhering the breathable heat-resistant resin coating layer 4 to the electric wires, but in this case, the anti-rust tape 1 is wrapped around the electric wires so that the electric wires are not exposed. It is something.

The electric wire wrapped with anti-rust tape 1 in this way is
Furthermore, it is possible to perform an insulation coating involving the high-temperature treatment process already described above, and it can be used as a coated electric wire.

In addition, in the present invention, in order to improve the peelability of the tape when it is wound, the surface of the heat-resistant resin film can be treated with a peelability imparting agent, and other configurations are also covered by the gist of the present invention. Various changes may be made without departing from the above.

Next, the effects of the present invention will be concretely demonstrated through experimental examples.

[Experiment Example 1] A polyester film with a thickness of 25 μm was used as the base film, and a
A nonwoven fabric made of 20 g/m ² of polyester fibers was laminated together, and then approximately 15 g/m ² of benzotriazole dissolved in isopropyl alcohol as a rust preventive agent was applied to the surface of the nonwoven fabric and dried to make the nonwoven fabric contain benzotriazole. . Room-temperature curing silicone (PRX305, manufactured by Toray Silicone Co., Ltd.) was applied to the surface of the benzotriazole-containing nonwoven fabric thus formed to form a heat-resistant resin coating layer with a thickness of 1 μm.

This tape was wrapped around a copper wire so that the wire was not exposed, with the resin coating layer as the innermost layer, and the coated wire was left for 5 days. After that, the tape was removed and the appearance of the wire was observed. No rust was found. ,
It had good antirust effect.

In addition, wrap this tape around a copper wire in the same manner as above, and then wrap polyethylene on top of it at 200 to 250℃.
When the wire was extruded and coated with an insulating coating, the insulating coating and tape were removed and the appearance of the wire was observed, the wire had a copper metallic luster and no rust preventive was observed.

[Experimental Example 2] When forming a heat-resistant resin coat layer, acrylic resin (synthetic product Movinyl 8020 manufactured by Hoechst) was applied to the surface of the nonwoven fabric containing benzotriazole.
A rust-proof tape for electric wires was produced in the same manner as in Experimental Example 1, except that a heat-resistant resin coating layer was formed by applying 10 g/m ² .

The antirust effect of the resulting tape and the adhesion of the antirust agent to the coated wire during high-temperature processing were investigated in the same manner as in Experimental Example 1, and the results were as good as in Experimental Example 1. .

[Experimental Example 3] For comparison, in Experimental Examples 1 and 2 above, the rust-proofing tape for electric wires without the heat-resistant resin coating layer formed during the manufacture of the rust-proofing tape for electric wires was used. Therefore, when we investigated the adhesion of the rust preventive agent to the coated wire during high-temperature treatment in the same manner as in Experimental Example 1, we found that benzotriazole blocked and adhered to the wire, making the wire appear as if it were rusted. It was showing.

Effects of the invention According to the invention, it is possible to increase the amount of rust preventive agent such as benzotriazole that can be held in the rust preventive tape for electric wires, and moreover, the rust preventive agent vaporizes before it exerts its rust preventive effect. Most of the rust preventive agents effectively act on the wires through the breathable heat-resistant resin coating layer without disappearing. Even when benzotriazole, which has been difficult to exhibit, is used, its antirust effect can be reliably exhibited over a long period of time. In addition, even if this resin coat layer is wrapped around the wire as the innermost layer and subjected to high-temperature treatment, the rust preventive agent is protected by the resin coat layer, so the rust preventive agent will hardly fuse to the wire. It is something.

[Brief explanation of drawings]

The drawing is a sectional view showing an embodiment of the present invention. DESCRIPTION OF SYMBOLS 1...Anti-rust tape for electric wires, 2...Heat-resistant resin film, 3...Nonwoven fabric, 4...Breathable heat-resistant resin coating layer.

Claims (1)

[Claims for Utility Model Registration] (1) A heat-resistant resin film is laminated on one side of a nonwoven fabric containing a rust preventive agent, and a breathable heat-resistant resin coat layer is laminated on the other side. Anti-rust tape for electric wires. (2) The rust preventive tape for electric wires according to claim 1 of the utility model registration claim, wherein the rust preventive agent is benzotriazole. (3) Claims 1 or 2 for utility model registration in which the heat-resistant resin film is a polyester film
Anti-corrosion tape for electric wires as described in section. (4) Any one of claims 1 to 3 of the claims for utility model registration, in which the breathable heat-resistant resin coating layer is a silicone or acrylic resin layer that cures at room temperature.
Anti-rust tape for electric wires as described in section.