JPH08293692A - Leakage proof structure of shielded electric wire and shielding method - Google Patents

Abstract

PURPOSE: To provide a leakage proof structure of a shielded electric wire and a shielding method to surely avoid leakage electromagnetic waves from ends of shielded electric wires or joints for branching and connecting them. CONSTITUTION: The stripped ends A1 of shielded electric wires A from which its electromagnetic shield layer 1 is removed are covered with a heat shrinkable tube 4, a thermosetting conductive resin compd. liq. is injected into the tube 4 and heat treated to form a leakage proof surface composed of a thermosetting conductive resin compd. layer 6 covered with the tube 4.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shield leakage preventing structure and a preventive treatment method for preventing shield leakage at a terminal portion of a shielded wire or a joint portion for branch connection.

[0002]

2. Description of the Related Art Conventionally, as shown in FIG. 4, a terminal portion of a shielded electric wire used for a wire harness of an automobile is prepared by peeling off an electromagnetic shielding layer b made of a braid of metal wires constituting a shielded electric wire a. The core wire c is exposed and the terminal d is connected. Reference numeral d'denotes a terminal for the electromagnetic shield layer b. Also, FIG.
As shown in FIG. 5, also in the joint part e for connecting the branch electric wire f from the shielded electric wire a, after the electromagnetic shielding layer b is removed and the core wire c is connected, it is covered with an insulating tape or the like having no electromagnetic wave shielding effect. Was. Therefore, there is a drawback that the electromagnetic wave shielding becomes insufficient in the portion not covered with the electromagnetic shielding layer b.

Therefore, in order to secure the electromagnetic wave shield,
In Japanese Utility Model Publication No. 62-4194, as shown in FIG.
It has been proposed to cover the end portion of the shielded electric wire a with a shrinkable tube g having a conductive film formed thereon. However, if only the end portion is covered with the shrinkable tube g, the shrinkage tube g has poor adhesion.
There is a problem that the reliability of the electromagnetic wave shield is poor, such that the shrinkable tube g may move during use to expose the non-shielded portion of the shielded electric wire a.

[0004]

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and prevents electromagnetic shielding leakage at a portion where an electromagnetic shielding layer is peeled off in a terminal portion or a joint portion of a shielded wire. It is an object of the present invention to provide a shield leakage prevention structure and a prevention treatment method therefor.

[0005]

In order to achieve the above-mentioned object, the shield leakage prevention structure for a shielded electric wire according to the invention described in claim 1 has a structure in which a portion of the shielded electric wire which is not covered with the electromagnetic shielding layer is covered with the electromagnetic shield. The heat-curable conductive resin composition layer that is electrically connected to the shielding layer is formed by coating, and a heat-shrinkable tube is attached to the outside of the heat-curable conductive resin composition layer. When the content of the conductive filler in the thermosetting conductive resin composition is less than 10% by weight, the conductivity of the conductive pressure-sensitive adhesive layer is considerably lowered, and when it exceeds 90% by weight, the adhesive strength is remarkably reduced. Preferably, the content of the conductive filler is 30 to 80% by weight.

As described in claim 3, the shape of the conductive filler is preferably a fine fibrous shape having a diameter of 5 μm or less and a length of 50 μm or less.

As described in claim 4, it is preferable that the conductive filler is a fiber, particles or a bulk made of at least one selected from copper, stainless steel, aluminum, nickel and silver.

As described in claim 5, it is effective that the conductive filler is at least one selected from carbon black, carbon fiber and graphite powder.

According to a sixth aspect of the present invention, there is provided a shielded electric wire shield leakage prevention treatment method, wherein a heat-shrinkable tube including an electromagnetic shield layer is covered in a portion of the shielded electric wire which is not covered with the electromagnetic shield layer. After the liquid thermosetting conductive resin composition is filled in the heat shrinkable tube, the thermosetting conductive resin composition and the heat shrinkable tube are heated to cure the thermosetting conductive resin composition. And the heat shrink tube is shrunk.

[0010]

According to the present invention, since the electromagnetic shielding layer of the shielded wire is peeled off or the removed portion is covered and fixed with the thermosetting conductive resin composition so as to conduct with the electromagnetic shielding layer. Electromagnetic shielding is ensured in a portion having no electromagnetic shielding layer, such as a terminal portion or a joint portion of the shielded wire. Further, since the outside of the thermosetting conductive resin composition layer is covered with a heat shrinkable tube, the thermosetting conductive resin composition layer is sufficiently protected, mechanical stress received during use,
For example, it is possible to provide highly reliable and reliable electromagnetic shielding against the influence of vibration and the like.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is an explanatory view showing a shield leakage preventing process step of the terminal portion A ₁ of a shielded electric wire A according to an embodiment of the present invention. At the terminal portion A ₁ of the shielded electric wire A, the electromagnetic shielding layer 1 made of a braided metal wire or a metal foil is peeled off to expose the inner core wire 2 and connect it to a terminal (not shown) in the connector 3. I have to. The electromagnetic shield layer 1 is also connected to another terminal in the connector 3.

Hereinafter, a method for preventing the shielding leak from the terminal portion A ₁ of the shielded electric wire A will be described. Terminal A ₁
The heat-shrinkable tube 4 is encapsulated in the exposed portion of the core wire 2, and the one end 4a of the heat-shrinkable tube 4 is heat-treated to bring the outer sheath 5 of the shielded wire A and the one end 4a of the heat-shrinkable tube 4 into close contact with each other. Next, after filling the liquid thermosetting conductive resin composition 6 into the heat-shrinkable tube 4 from the other end 4b, the thermosetting resin composition 6 and the heat-shrinkable tube 4 are heated to give the thermosetting conductive material. By hardening the resin composition 6 and shrinking the heat-shrinkable tube 4, a shielding leak preventing structure is formed.

As the thermosetting conductive resin composition 6, a liquid mixture of an epoxy resin and an amine-based curing agent is used as a conductive filler, and scale-like silver powder (Fukuda Metal Foil & Powder Co., Ltd., Silcoat Ag) is used. A liquid composition containing 80% by weight of -L) dispersed therein was used. As the heat-shrinkable tube 4, an ethylene-propylene rubber tube having a thickness of 1.5 mm was used. Terminal portion A ₁ of shielded wire A after heat treatment
Is completely encapsulated by the thermosetting conductive resin composition 6, and the outer side thereof is protected by the heat-shrinkable tube 4, so that a highly reliable and stable electromagnetic wave shielding effect can be obtained.

FIG. 2 shows a joint portion A of the shielded electric wire A.
₂ shows a shielding leak prevention structure. Joint part A ₂
In the above, the conductor of the core wire 2 and the conductor of the branch electric wire 7 which are exposed when the electromagnetic shielding layer 1 is peeled off are connected, and the core wire 2 and the branch electric wire 7 are covered with the insulating tape 8 at the connecting portion.

Joint A₂Shielding leak prevention measures against
For the reason, the joint part A ₁Almost the same as
Processed in the process. Heat-shrinkable chin fitted in shielded wire A
Tube 4'joint A₂Positioned at one end 4
After heat treating a'and fixing it to the shielded wire A, the other end 4
The heat-curable conductive resin composition 6 is heat-shrinkable from b '.
Fill in 4 And the thermosetting resin composition 6'and
Heat-shrinkable tube 4'is heated to 150 ° C
The conductive resin composition 6'is cured and heat shrinkable.
Contract 4 '.

As the thermosetting conductive resin composition 6 ',
Liquid thermosetting conductive resin obtained by adding 70% by weight of copper powder (FCC-SP-99 manufactured by Fukuda Metal Foil & Powder Co., Ltd.) as a conductive filler to a liquid obtained by dissolving a phenol resin in methyl alcohol. The composition was used. As the heat-shrinkable tube 4 ', a radiation-crosslinked polyolefin having a thickness of 0.8 mm was used.

FIG. 3 shows a joint portion A _{3 obtained} by removing the electromagnetic shielding layer 1 of the shielded electric wire A and connecting the branched electric wire 7.
FIG. The process of the shielding leak prevention processing is the same as that of the joint portion A ₂ , and therefore the description thereof is omitted.
Since the electromagnetic shielding layer 1 is removed from the joint portion A _{3 at} the connection portion between the core wire 2 and the branch electric wire 7, the outer diameter when the heat-shrinkable tube 4 ′ is covered is reduced, and the electric wire diameter is reduced. Useful for weight reduction.

[0018]

According to the present invention, a portion of the shielded wire having no electromagnetic shielding layer is covered and fixed with the thermosetting conductive resin composition to ensure electromagnetic shielding, and the thermosetting conductive resin composition is also provided. Since the outer side of the material layer is covered with a heat-shrinkable tube, the thermosetting conductive resin composition layer is sufficiently protected and is durable against the influence of mechanical stress received during use, such as vibration. There are many advantages, such as reliable electromagnetic shielding.

[Brief description of drawings]

FIG. 1 is an explanatory view showing a shield leakage prevention processing step at a terminal portion of a shielded electric wire according to an embodiment of the present invention.

FIG. 2 is an explanatory view showing a shield leakage prevention structure in a joint portion of the shielded electric wire of FIG.

FIG. 3 is an explanatory diagram showing a state in which a shield leakage structure is formed by removing an electromagnetic shielding layer in a joint portion of the shielded electric wire in FIG.

FIG. 4 is an explanatory view showing a terminal portion of a conventional shielded electric wire.

FIG. 5 is an explanatory view showing a joint portion of a conventional shielded electric wire.

FIG. 6 is an explanatory diagram showing an example in which a terminal portion of a conventional shielded wire is coated with a conductive shrinkable tube.

[Explanation of symbols]

A Shielded electric wire A ₁ Terminal part A ₂ , A ₃ Joint part 1 Electromagnetic shielding part 4, 4 ′ Heat shrinkable tube 6, 6 ′ Thermosetting conductive resin composition layer

Claims (6)

[Claims] 1. A thermosetting conductive resin composition layer which is electrically connected to the electromagnetic shield layer is formed on a portion of the shielded wire which is not covered with the electromagnetic shield layer, and the thermosetting conductive resin composition is formed. A shield leakage prevention structure for shielded wires, characterized in that a heat-shrinkable tube is attached to the outside of the layer. 2. The thermosetting conductive resin composition layer is a thermosetting conductive resin composition layer containing 10 to 90% by weight of a conductive filler dispersed in the thermosetting resin composition.
Shielding leak prevention structure for the shielded electric wire described. 3. The shield leakage preventing structure for a shielded wire according to claim 2, wherein the conductive filler is in the form of fine fibers having a diameter of 5 μm or less and a length of 50 μm or less. 4. The conductive filler is copper, stainless steel,
The shield leakage prevention structure for a shielded electric wire according to claim 2 or 3, which is a fiber, particles or a bulk made of at least one selected from aluminum, nickel and silver. 5. The conductive filler is carbon black,
The shield leakage prevention structure for a shielded electric wire according to claim 2 or 3, which is at least one selected from carbon fiber and graphite powder. 6. A heat-shrinkable tube including the electromagnetic shield layer is covered in a portion of the shielded wire which is not covered with the electromagnetic shield layer, and a liquid thermosetting conductive resin composition is contained in the heat-shrinkable tube. After the filling, the thermosetting conductive resin composition and the heat shrinkable tube are heated to cure the thermosetting conductive resin composition and shrink the heat shrinkable tube. Screening leakage prevention treatment method.