JP2019197624A - Terminal structure of shield wire - Google Patents

Abstract

To provide a terminal structure capable of reducing a physical constitution of a shield wire.SOLUTION: A shield wire 10 comprises: a core wire 11; an insulation coating 12 covering the core wire 11; a shield member 13 consisting of a flexible braided member for which conductive strands are braided cylindrically, covering the insulation coating 12 and shielding the core wire 11 in an electromagnetic manner; and a sheath 14 covering the shield member 13. In the shield member 13, on an outer peripheral surface of an exposed part 13a extending toward the side separate from one end portion 14a of the sheath 14, a conductive compression ring 20 including an annular peripheral wall with the reduced entire diameter is attached.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a terminal structure of a shielded electric wire.

Patent Document 1 discloses a terminal structure of a shielded electric wire.
As shown in FIG. 4, the shielded electric wire described in the same document includes a core wire 111, an insulating coating 112 covering the core wire 111, and a flexible braided member in which conductive strands such as an aluminum alloy are knitted into a cylindrical shape. The shield member 113 that covers the insulating coating 112 and electromagnetically shields the core wire 111 and the sheath 114 that covers the shield member 113 are provided.

  The shield member 113 is exposed from the one end 114 a of the sheath 114. An underlay ring 140 is fitted to one end 114 a of the sheath 114. An exposed portion 113 a exposed from one end portion 114 a of the sheath 114 of the shield member 113 is folded back to the outer peripheral side of the underlay ring 140. The conductive ring 120 is caulked and attached to the folded portion of the shield member 113. Specifically, the conductive ring 120 is attached to the shield member 113 by caulking one end 120a in the axial direction. Thereby, the shield member 113 and the conductive ring 120 are electrically connected. When the other end 120b of the conductive ring 120 is inserted into a connector (not shown), the outer peripheral surface of the other end 120b is electrically connected to a contact terminal of the connector, and the shielded wire is grounded.

JP 2012-59440 A

  By the way, in the terminal structure of the shielded electric wire described in Patent Document 1, the portions facing each other in the one end portion 120a of the conductive ring 120 are caulked so as to be close to each other. For this reason, the shield member 113 and the conductive ring 120 are partially in contact with each other in the circumferential direction, and the contact resistance between the shield member 113 and the conductive ring 120 may increase. Further, the one end 120a of the conductive ring 120 is only caulked so that the portions facing each other are close to each other, and the other end 120b is not caulked at all. For this reason, it is difficult to reduce the size of the terminal of the shielded wire.

  The objective of this invention is providing the terminal structure of the shielded electric wire which can make a physique small.

  The terminal structure of the shielded electric wire for achieving the above object comprises a core wire, an insulating coating covering the core wire, and a flexible braided member in which conductive strands are knitted into a cylindrical shape, and the insulating coating is A shield wire terminal structure comprising: a shield member that electromagnetically shields the core wire and a sheath that covers the shield member; and an outer peripheral surface of an exposed portion of the shield member that is exposed from an end portion of the sheath. Is attached with a conductive compression ring having an annular peripheral wall whose diameter is reduced overall.

  According to this configuration, since the compression ring has an annular peripheral wall whose diameter is reduced as a whole, the entire inner peripheral surface of the compression ring is electrically electrically connected to the outer peripheral surface of the exposed portion of the shield member. Will be connected. For this reason, an increase in contact resistance between the shield member and the compression ring can be suppressed.

Moreover, since the diameter of the whole compression ring is reduced, the physique of the terminal of a shielded electric wire can be made small.
In the terminal structure of the shielded electric wire, it is preferable that the exposed portion extends toward a side away from the end of the sheath in the shield member.

  According to this configuration, the compression ring is attached to the outer peripheral surface of the exposed portion of the shield member that is exposed from the end portion of the sheath and extends toward the side away from the end portion. Therefore, the physique of the end of the shielded wire can be further reduced.

In the terminal structure of the shielded electric wire, it is preferable that an underlay ring is provided between the outer peripheral surface of the insulating coating and the inner peripheral surface of the exposed portion of the shield member.
According to this configuration, when the compression ring is compressed and attached to the exposed portion of the shield member, the insulating coating can be protected by the underlay ring. For this reason, a larger compressive force can be applied to the compression ring. Therefore, the reliability of electrical connection between the shield member and the compression ring can be improved.

  According to the present invention, the size of the shielded electric wire can be reduced.

The fragmentary sectional view which shows the terminal structure of a shielded electric wire about one Embodiment of the terminal structure of a shielded electric wire. The fragmentary sectional view which shows the connector in which the shielded electric wire and shielded electric wire of the embodiment were inserted. The fragmentary sectional view which shows the terminal structure of the shielded electric wire of the example of a change. The fragmentary sectional view which shows the terminal structure of the shielded electric wire of a reference example.

Hereinafter, an embodiment will be described with reference to FIGS. 1 and 2.
As shown in FIG. 1, the shielded electric wire 10 of the present embodiment has a core wire 11 and a cylindrical insulating coating 12 that covers the outer periphery of the core wire 11. The core wire 11 is a stranded wire formed by twisting together a plurality of metal strands made of, for example, a copper alloy. The insulating coating 12 is formed by extruding an insulating material such as polyvinyl chloride (PVC), for example. The outer periphery of the insulating coating 12 is covered with a cylindrical shield member 13 that electromagnetically shields the core wire 11. The shield member 13 is made of a braided member in which conductive strands made of, for example, an aluminum alloy are knitted, and has flexibility. The outer periphery of the shield member 13 is covered with a sheath 14 that covers the shield member 13. The sheath 14 is made of an insulating material such as polyvinyl chloride (PVC).

  One end of the core wire 11 (left side in the figure) is exposed from one end of the insulating coating 12, and a crimp terminal (not shown) is attached to the tip of the core wire 11. The insulating coating 12 is exposed from one end of the shield member 13. The shield member 13 has an exposed portion 13a that is exposed from one end portion 14a of the sheath 14 and extends toward the side (left side in the figure) that is separated from the same end portion 14a.

  A conductive compression ring 20 is provided on the outer peripheral surface of the exposed portion 13 a of the shield member 13. The compression ring 20 is made of, for example, an aluminum alloy. The compression ring 20 has an annular peripheral wall having a reduced diameter as a whole, and the entire inner peripheral surface of the compression ring 20 is electrically connected to the entire outer peripheral surface of the exposed portion 13a. The compression ring 20 is reduced in diameter by compressing the entire outer peripheral surface by a compression mold (not shown) divided in a plurality in the circumferential direction. Therefore, for example, a protrusion for reducing the diameter of the peripheral wall is not provided on the outer peripheral surface of the compression ring 20 before the diameter reduction. However, minute irregularities may be formed on the outer peripheral surface of the compression ring 20 after the diameter reduction according to the division position of the compression mold.

  As shown in FIG. 2, the shielded electric wire 10 is inserted through an insertion hole 31 of a connector 30 for connecting the shielded electric wire 10 to a vehicle device or the like, for example. In the present embodiment, three shielded wires 10 are inserted through the connector 30. The insertion hole 31 is provided with a pair of contact terminals 32 whose one end side (left side in the figure) is supported in a cantilever manner. The outer peripheral surface of the compression ring 20 of the shielded electric wire 10 is elastically held between a pair of contact terminals 32.

The effect of this embodiment is demonstrated.
(1) The shielded electric wire 10 includes a core wire 11, an insulating coating 12 that covers the core wire 11, and a flexible braided member in which conductive strands are knitted into a cylindrical shape, and covers the insulating coating 12 and the core wire 11. A shield member 13 that electromagnetically shields and a sheath 14 that covers the shield member 13. On the outer peripheral surface of the exposed portion 13a extending toward the side away from the one end portion 14a of the sheath 14 of the shield member 13, a conductive compression ring 20 having an annular peripheral wall having a reduced diameter as a whole. It is attached.

  According to such a configuration, since the compression ring 20 has an annular peripheral wall whose diameter is reduced as a whole, the entire inner peripheral surface of the compression ring 20 with respect to the outer peripheral surface of the exposed portion 13 a of the shield member 13. Are electrically connected. For this reason, an increase in contact resistance between the shield member 13 and the compression ring 20 can be suppressed.

  A compression ring 20 is attached to the outer peripheral surface of the exposed portion 13a of the shield member 13 that is exposed from the one end portion 14a of the sheath 14 and extends toward the side away from the one end portion 14a. Therefore, the physique of the terminal of shielded electric wire 10 can be made small.

(2) The compression ring 20 has an annular peripheral wall whose entire diameter is reduced.
According to such a configuration, the outer peripheral edge of the compression ring 20 has a circular shape in a state where the compression ring 20 is electrically connected to the shield member 13. For this reason, it is not necessary to align the compression ring 20 in the circumferential direction when the connector 30 is connected to the contact terminal 32.

The present embodiment can be implemented with the following modifications. The present embodiment and the following modifications can be implemented in combination with each other within a technically consistent range.
As shown in FIG. 3, an underlay ring 40 can be provided between the outer peripheral surface of the insulating coating 12 and the inner peripheral surface of the exposed portion 13 a of the shield member 13. The underlay ring 40 is preferably a metal material, and may be a compression ring similar to the compression ring 20. According to such a configuration, the insulating coating 12 can be protected by the underlay ring 40 when the compression ring 20 is compressed and attached to the exposed portion 13 a of the shield member 13. For this reason, a larger compressive force can be applied to the compression ring 20. Therefore, the reliability of electrical connection between the shield member 13 and the compression ring 20 can be improved. Even in this case, the size of the terminal of the shielded electric wire 10 can be reduced as compared with the terminal structure of the reference example shown in FIG.

  A folded portion where the exposed portion 13a of the shield member 13 is folded back to the outer peripheral side of the sheath 14 may be provided, and the compression ring 20 may be provided on the outer peripheral surface of the folded portion. In this case, an underlay ring may be appropriately fitted between the inner peripheral surface of the folded portion of the shield member 13 and the outer peripheral surface of the sheath 14.

  The number of shielded wires 10 inserted through the connector 30 is not particularly limited.

  DESCRIPTION OF SYMBOLS 10 ... Shield electric wire, 11, 111 ... Core wire, 12, 112 ... Insulation coating, 13, 113 ... Shield member, 13a, 113a ... Exposed part, 14, 114 ... Sheath, 14a, 114a ... One end part, 20 ... Compression ring, DESCRIPTION OF SYMBOLS 30 ... Connector, 31 ... Insertion hole, 32 ... Contact terminal, 40, 140 ... Underlay ring, 120 ... Conductive ring, 120a ... One end part, 120b ... Other end part.

Claims (3)

Core wire,
An insulating coating covering the core wire;
A conductive braided member knitted into a cylindrical shape, a shield member that covers the insulating coating and electromagnetically shields the core wire;
A sheath covering the shield member, and a terminal structure of a shielded electric wire comprising:
A conductive compression ring having an annular peripheral wall with a reduced diameter is attached to the outer peripheral surface of the exposed portion exposed from the end portion of the sheath of the shield member.
Terminal structure of shielded wire. The exposed portion extends toward a side away from the end of the sheath of the shield member.
The terminal structure of the shielded electric wire according to claim 1. An underlay ring is provided between the outer peripheral surface of the insulating coating and the inner peripheral surface of the exposed portion of the shield member.
The terminal structure of the shielded electric wire according to claim 2.