JPH0878071A - Shielded connector - Google Patents

Abstract

PURPOSE: To improve the workability of assembly. CONSTITUTION: A cylindrical shielding electrode 20 which covers the surrounding of a terminal metal fitting 50 is provided with spring plate pieces 24, 24 in their state of projecting inward, and when a shielded electrode whose knitted wire 82 is exposed in inserted into the inside of the shielded electrode 20 held by a casing 10, the spring plate pieces 24, 24 are brought into contact with the knitted wire 82 and thus connection is achieved. Consequently, connection of the knitted wire 82 of the shielded wire 80 to a shielded electrode 20 is carried out extremely easily. Moreover, previous insertion of the shielded wire 80 is not necessary.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shield connector.

[0002]

2. Description of the Related Art Conventionally, as this type of shielded connector, one disclosed in Japanese Utility Model Publication No. 4-23081 shown in FIG. 14 is known. In FIG. 14, a cover 1 serving as a shield electrode is formed by bending a single metal plate material into a substantially cylindrical shape, and is connected to a cylindrical cylindrical portion 2 and one open end of the cylindrical portion 2. And a clamp portion 3 which is bent in a U shape so as to open along the axial direction of the cylindrical portion 2. The body 4 is formed as a thinned resin cylindrical body, and has an axial through hole 4a in the center thereof. Further, the cover 1 is formed to have an outer diameter that can be inserted from an opening to which the clamp portion 3 is not connected, and is formed to have a length of about half of the cover 1.

A pin 5 which is formed in a pin shape as a whole and has a crimp portion 5a formed by bending a flat plate into a substantially U shape at one end.
Can be inserted into the through hole 4a of the body 4 and penetrate therethrough. Resin-made cylindrical cap (casing)
Reference numeral 6 denotes a large-diameter opening 6a into which the cover 1 can be inserted at one end.
And a small diameter opening 6b into which the cable (electric wire) 7 can be inserted. The cable 7 is formed by stacking coaxially, is provided with a conductor 7a at the center, is covered with an inner wire coating 7b, and is surrounded with a braided wire (shield wire) 7c, and The outer periphery is covered with an insulating outer cover 7d.

The shield connector is assembled as follows. The tip of the cable 7 is peeled off in stages, and the conductor 7 at the tip is passed through the opening 6b of the cap 6 in advance.
A is crimped and connected at the crimping portion 5a of the pin 5. The body 4 is inserted into the cylindrical portion 2 of the cover 1 all the way, and the pin 5 is inserted into the through hole 4a of the body 4 from the clamp portion 3 side. At this time, the stripping length is adjusted so that the portion of the braided wire 7c of the cable 7 enters the clamp portion 3. When the clamp part 3 is pressed so as to wind the cable 7, the cover 1 is fixed to the tip of the cable 7, and when the cap 6 is gripped and the cable 7 is pulled, the cover 1 part is pulled into the cap 6 and assembled. Is completed.

[0005]

In the above-mentioned conventional shielded connector, the clamp portion 3 of the cover 1 directly wraps and connects the cable 7, so that one end has a large diameter and the other end has a small diameter. ing. The cap 6 for accommodating this has one end having a large diameter and the other end having a small diameter, and the small-diameter cable 7 must be pulled back from the small-diameter side in advance. That is, there is a problem that the work is inefficient because the work is carried out first and then returned.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a shield connector capable of improving the workability of assembly.

[0007]

In order to achieve the above-mentioned object, the invention according to claim 1 covers the periphery of a terminal fitting housed inside with a shield electrode, and shields the outer circumference of an insulation-coated inner wire. In a shield connector in which the extension wire of an electric wire whose outer periphery is insulated and covered with insulation is connected to the terminal fitting and the shield wire is connected to the shield electrode, the inside is formed by a conductive member in a cylindrical shape. A shield electrode formed with a spring plate piece capable of being inserted through the electric wire and protruding toward the outer peripheral surface of the electric wire inserted inside, and holding the shield electrode, and the inside of the shield electrode. And a tubular casing that holds the terminal fitting.

The invention according to claim 2 is based on claim 1.
In the shielded connector described in the item [1], the shield electrode is formed by integrally forming a lid having a through hole, through which the electric wire can be inserted, at a center thereof on one opening side. Further, the invention according to claim 3 is the shield connector according to claim 1 or 2, wherein the casing has a cylindrical inner cylinder capable of accommodating and holding the terminal fitting inside the outer cylinder. Hold it in a suspended state through the communication wall,
The shield electrode is arranged so as to cover the peripheral surface of the suspended inner cylinder.

[0009]

In the invention according to claim 1 configured as described above, the spring plate piece is formed on the shield electrode held by the cylindrical casing so as to project toward the outer peripheral surface of the electric wire inserted therein. When the shield wire of the electric wire is exposed and inserted into the shield electrode, the spring plate piece comes into contact with the shield wire and becomes conductive. Further, in the invention according to claim 2 configured as described above, a lid having a through hole through which the wire can be inserted is formed integrally at one opening side of the cylindrical shield electrode. Therefore, when the electric wire with the shield wire exposed is inserted into the through hole of the lid, the electric wire is guided to the contact position with the spring plate piece.

Further, in the invention according to claim 3 configured as described above, the casing holds the cylindrical inner cylinder in a suspended manner inside the outer cylinder via the communication wall.
A shield electrode is covered on the peripheral surface of an air-suspended inner cylinder, and a terminal fitting is inserted and accommodated in the inner cylinder.

[0011]

As described above, according to the present invention, when the shield wire is exposed and inserted into the shield electrode, the spring plate piece comes into contact with the shield wire to establish continuity, so that the assembly can be easily performed. It is possible to provide a shield connector.

Further, according to the second aspect of the invention, since the through hole for guiding the electric wire is formed in the lid body formed integrally with the shield electrode, the insertion position of the electric wire can be easily determined. In addition, after the insertion, the electric wire can be held so as not to easily move, and stable conduction between the shield wire and the shield electrode can be maintained. further,
According to the third aspect of the present invention, the casing includes the inner cylinder that is held in a suspended state via the communication wall, and the terminal metal fitting is held inside and the shield electrode is covered on the outer side. The periphery of can be covered with a shield electrode.

[0013]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an exploded perspective view showing a shield connector according to an embodiment of the present invention. The shield connector of this embodiment has a substantially cylindrical housing (casing).
10, a cap 30 is attached to one opening, and a shielded electric wire 80 having a terminal fitting 50 is inserted from the other opening together with the shield electrode 20. As shown in FIGS. 2 and 3, a housing (casing) 1
0 is penetrated in the axial direction, and the front part is the inner cylinder part 11 at the center
Has a double structure in which the hood portion 12 is covered. The inner tubular portion 11 has a terminal accommodating chamber 13 into which a female terminal fitting 50 can be inserted, and a mating terminal fitting insertion into which a male terminal fitting can be inserted is provided on the front surface of the terminal accommodating chamber 13. Mouth 13
In addition to forming a, a lance 14 having a cantilevered arm shape and having a wedge-shaped projection 14a protruding toward the inside of the terminal accommodating chamber 13 is formed on the bottom surface. At a position below the lance 14, there is provided a cut portion 15 formed by cutting from the front surface of the inner tubular portion 11 toward the inner side. When the lance 14 bends downward, the cut portion 15 is provided inside the cut portion 15. enter in.

At the rear end of the housing 10 is a terminal metal fitting insertion portion 16 which is largely opened.
The inner walls of the front end portion 6 of the inner wall portion 6 have communication walls 17a to 17d at the same intervals so that the rear end portion of the inner cylindrical portion 11 is held suspended.
Are formed. Thereby, the shield electrode insertion holes 18a to 18d that are continuous from the outer peripheral surface of the inner tubular portion 11 to the inner peripheral surface of the terminal fitting insertion portion 16 are formed. The four shield electrode insertion holes 18a to 18d form a circular through hole as a whole along the outer circumference of the inner cylindrical portion 11. At the rear end of the inner tubular portion 11, a tubular waterproof seal wall 19a is formed from the inner wall of the hood portion 12 so that the inner tubular portion 11 covers the portion in which the terminal fitting insertion portion 16 is suspended.
Further, a flexible lock arm 19b is provided on the upper surface of the hood portion to engage with and hold the mating connector when the mating connector is fitted and connected.

The shield electrode (shell) 20 is formed by bending a generally rectangular metal plate as shown in a developed state in FIG. As shown in FIGS. 5 to 9, the shield electrode 20 has a bottomed cylindrical shape with an inner diameter that matches the outer diameter of the inner tubular portion 11, and extends from the front end side, which is the open end side, to the rear end side. 4 notches 21 are formed. The notches 21 are formed so as to match the widths and intervals of the communication walls 17a to 17d, and the shield electrode 20 is put on the outer periphery of the inner tubular portion 11 from the opening of the terminal fitting insertion portion 16. When the communication electrodes 17a to 17d and the cutout 21 are aligned with each other and the shield electrode 20 is pushed in until the communication walls 17a to 17d are pushed to the deepest portion of the cutout 21, the front end of the shield electrode 20 moves to the inner cylindrical portion 11 It is almost flush with the front end of the. In addition, a wedge-shaped locking claw 22 that protrudes toward the inside of each cut 21 is formed near the inside of each cut 21, and when the shield electrode 20 is inserted all the way as described above, the lock claw 22 is formed. It cuts into the communication walls 17a to 17d to prevent the shield electrode 20 from coming off. Here, the shield electrode 20 is arranged around the inner cylindrical portion 11 substantially along the outer peripheral surface thereof,
In the terminal fitting insertion portion 16, the terminal fitting insertion portion 16 is arranged along the inner peripheral surface of the terminal fitting insertion portion 16.

In this embodiment, the rear end of the shield electrode 20 is divided into four pieces, and four communicating walls 17 are formed in accordance with this.
Although a to 17d are formed, the number can be increased or decreased as necessary. The shield electrode 20 does not necessarily have to be integrated, and may be formed by dividing a cylinder. On the other hand, the shield electrode 20 is provided with a circular lid 23 that matches the shape of the rectangular metal plate when it becomes a tubular body, and the rectangular portion is bent into a tubular shape and the lid 23 is formed. To close the opening at one end. A strip-shaped spring plate piece 24 is provided at a position opposite to each other on the outer edge portion of the lid body 23 so that the lid body 2 can be inserted into the tubular portion.
3 is bent 90 degrees and the tips are folded back inward to form a spring piece. A through hole 23a is formed in the center of the lid 23.

The cap 30 has a generally cap shape capable of covering the tip of the inner cylindrical portion 11. A plate-like double locking piece 31 is formed so as to project on a portion of the inner bottom surface of the cap 30 that faces the cutout portion 15 when mounted, and the double locking piece 31 has the cutout portion. A locking projection capable of engaging with the upper wall surface of 15 is formed. The cap 30 has an inner diameter that matches the outer diameter of the shield electrode 20, and is attachable to the distal end portion of the inner tubular portion 11 to which the shield electrode 20 is attached. Further, four windows 33a to 33d are formed on the side surface at the same intervals, and the windows 33a to 3d are formed.
The shield electrode 20 that covers the inner cylindrical portion 11 is exposed to the outside through 3d. The front ends of the windows 33a to 33d communicate with the front surface of the cap 30, and the shield electrode 20 is exposed from the front end to the side surface. In addition, the opening end of the cap 30 is formed with a flange 34 that is expanded in the radial direction, and a mating terminal metal fitting insertion port 35 into which a male terminal metal fitting can also be inserted on the front surface of the cap 30.
Is formed.

On the other hand, in the shielded electric wire 80, a core wire which is an inner conductor is covered with an insulator made of resin, and the periphery of an inner wire 81 is covered with a braided wire (shielded wire) 82 which is an outer conductor, and the outermost circumference is covered with a skin 83. The terminal metal fitting 50 is crimp-connected to the tip. Embodiments of the present invention will be described below with reference to the drawings. On the housing 10 side, the shield electrode 20 is put on the outer periphery of the inner tubular portion 11 through the opening of the terminal fitting insertion portion 16. Communication wall 17
The shield electrode 20 is pushed in by aligning the positions of the a to 17d and the notch 21, and the communication walls 17a to 17d are pushed to the deepest part of the notch 21. At this position, the front end of the shield electrode 20 is substantially flush with the front end of the inner cylindrical portion 11, and the locking claw 22 is also connected to the communication wall 17a.
It is intended to prevent the shield electrode 20 from digging into the side surface of -17d.

Next, the cap 30 is attached to the inner cylinder portion 11 and the tip of the shield electrode 20. The shield electrode 20 is inserted so that the opening surface of the cap 30 faces the inner cylindrical portion 11 side and the shield electrode 20 enters the inside of the cap 30. As the shield electrode 20 is covered, the double locking piece 31 enters into the notch 15 at the tip of the inner cylindrical portion 11, and one locking projection is released at a position before reaching the lower side of the lance 14. Temporarily engage the upper wall surface of the cut portion 15. At this position, the double locking piece 31 is not inserted to the lower surface of the lance 14, and the lance 14 can bend downward.
FIG. 10 is a sectional view showing a state in which the shield electrode 20 and the cap 30 are thus mounted.

On the other hand, the shielded electric wire 80 is
The core wire of the extension wire 81 is exposed, the insulator of the extension wire 81 is exposed, and then the braided wire 82 is exposed in a stepwise manner so that the terminal fitting 50 is crimped to the tip of the extension wire 81. Then, the terminal fitting 50 is inserted into the through hole 23a of the lid 23 of the shield electrode 20 from the terminal fitting insertion portion 16 side of the housing 10. The terminal fitting 50 is inserted into the terminal accommodating chamber 13 through the through hole 23a, and the corner of the front end pushes down the protrusion 14a of the lance 14 and is formed on the lower surface of the terminal fitting 50 when it is inserted to the deepest part. The opening (not shown) faces the protrusion 14a, and the lance 14 returns. The lance 14 is temporarily pushed into the notch 15 until it is restored after being pushed down.

As the terminal fitting 50 enters the terminal accommodating chamber 13, the shield wire 80 also penetrates the through hole 23 of the lid 23.
It goes into the inside of a, and at this time, it enters between the spring plate pieces 24, 24 protruding toward the center in the shield electrode 20. Since each spring plate piece 24 is a spring piece with its tip folded back inward, it abuts against the outer peripheral surface of the shielded electric wire 80 from both sides and sandwiches it. In the shielded wire 80, the inner wire 81 is connected to the terminal fitting 50 at the tip, but the braided wire 82 covers the periphery of the inner wire 81 and is exposed at the rear portion of the inner wire 81, and the terminal fitting 50 is in the terminal accommodating chamber. 1
3 is inserted into the deepest part, the spring plate pieces 24, 24
Comes into electrical contact with the braided wire 82.

As described above, the cylindrical shield electrode 20 that covers the periphery of the terminal fitting 50 faces inward, and the spring plate pieces 24, 2 are provided.
4 is provided in a protruding state, and when the shielded electric wire 80 exposing the braided wire 82 is inserted into the shielded electrode 20 held by the casing 10, the spring plate pieces 24, 24 become the braided wire 82. Abut and connect. Therefore,
Braided wire 82 and shield electrode 2 in shielded electric wire 80
Connection with 0 becomes extremely easy. Also, shielded wire 8
It is not necessary to pass 0 in advance.

Thereafter, the cap 30 is inserted to the back.
Then, the double locking piece 31 advances to the inside of the cut portion 15, and the remaining locking projection 32b engages with the groove of the upper wall surface of the cut portion 15 to fix the cap 30. When the double locking piece 31 enters the notch 15, the lance 1
4 cannot bend downward. In order for the terminal fitting 50 to come off, the lance 14 once bends downward and the protrusion 14
This is impossible unless a is retreated. Therefore, in this way, the double locking piece 31 supports the lance 14 in the notch portion 15 like a hollow so that the terminal fitting 5
It is possible to surely prevent 0 from being omitted.

The shield connector having such a structure is provided with a cylindrical shield electrode whose tip is divided into four parts corresponding to the windows 33a to 33d, and a male terminal fitting held in the shield electrode. Connect the connector. The shield electrode is connected to the shield electrode 20 exposed through the windows 33a to 33d, and the male terminal fitting is a female terminal fitting 50 held in the terminal accommodating chamber 13.
Connect with. Although the shield electrode 20 and the shield electric wire 80 are inserted in the same direction in the above-described embodiments, the flexibility in assembling can be improved by inserting them separately even when they are inserted from different directions.

In the above-mentioned embodiment, although the structure is not waterproof in order to simplify the parts, it can be easily waterproofed as shown in FIGS. 12 and 13. As shown in the figure, when the ring-shaped rubber seal 40 is attached to the outer periphery of the waterproof seal wall 19a, the flange 34 at the opening end of the cap 30 has a diameter slightly larger than the end of the waterproof seal wall 19a. The flange 34 presses the front end of the rubber seal 40 to prevent it from coming off. On the other hand, the shielded electric wire 80 is doughnut-shaped and has an inner diameter slightly smaller than that of the shielded electric wire 80.
A rubber plug 60 having an outer diameter slightly larger than that of the terminal fitting insertion portion 16 is inserted in advance.

When the waterproof seal wall 19a is inserted into the tubular hood portion of the mating connector, the rubber seal 40 adheres to the outer peripheral surface of the waterproof seal wall 19a at the inner periphery and the inner peripheral surface of the hood portion at the outer periphery. Since the rubber plug 60 adheres to the outer peripheral surface of the shielded electric wire 80 at the inner circumference even at the opening of the terminal fitting insertion portion 16, the inner peripheral surface of the terminal fitting insertion portion 16 at the outer circumference. It will not be able to flood due to close contact with.

[Brief description of drawings]

FIG. 1 is an exploded perspective view of a shield connector according to an embodiment of the present invention.

FIG. 2 is a sectional view of a housing of the shield connector.

FIG. 3 is a front view of a housing of the shield connector.

FIG. 4 is a plan view showing a developed state of a shield electrode.

FIG. 5 is a side view showing a bending process of the shield electrode.

FIG. 6 is a side view showing a completed state of bending of the shield electrode.

FIG. 7 is a front view showing the inside of a shield electrode.

8 is a sectional view of the shield electrode taken along line iix-iix in FIG. 7.

9 is a sectional view of the shield electrode taken along line ix-ix in FIG. 7.

FIG. 10 is a cross-sectional view of a shield connector.

FIG. 11 is a cross-sectional view of the shield connector.

FIG. 12 is an exploded perspective view of a shield connector according to another embodiment.

FIG. 13 is a cross-sectional view of a shield connector.

FIG. 14 is an exploded perspective view of a conventional shield connector.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 ... Housing 11 ... Inner cylinder part 12 ... Hood part 13 ... Terminal accommodation chamber 17a-17d ... Communication wall 20 ... Shield electrode 23 ... Lid 23a ... Through hole 24 ... Spring plate piece 50 ... Terminal metal fitting 80 ... Shield electric wire 81 ... Extension 82 ... Shielded wire

Claims (3)

[Claims] 1. An electric wire in which the periphery of a terminal fitting housed inside is covered with a shield electrode, the outer circumference of an insulation-coated inner wire is covered with a shield wire, and the outer circumference is insulation-coated In a shielded connector in which the shielded wire is connected to the same and the shielded wire is connected to the shielded electrode, the electric wire is formed into a cylindrical shape by a conductive member so that the electric wire can be inserted inside and the outer circumference of the electric wire inserted inside. A shield comprising: a shield electrode having a spring plate piece that projects toward the surface and can come into contact with the shield electrode; and a cylindrical casing that holds the shield electrode and holds the terminal fitting therein. connector. 2. The shield connector according to claim 1, wherein the shield electrode is integrally formed on one opening side having a cylindrical lid having a through hole through which the electric wire can be inserted. A shielded connector characterized in that 3. The shield connector according to claim 1 or 2, wherein the casing has a cylindrical inner cylinder capable of accommodating and holding the terminal fitting inside the outer cylinder via a communication wall. The shield connector is characterized in that it is held in a suspended state, and the shield electrode is disposed so as to cover the circumferential surface of the suspended inner cylinder.