WO2017056581A1

WO2017056581A1 - Connector

Info

Publication number: WO2017056581A1
Application number: PCT/JP2016/068214
Authority: WO
Inventors: 智幸鈴木; 橋口　徹
Original assignee: 日本航空電子工業株式会社
Priority date: 2015-09-30
Filing date: 2016-06-20
Publication date: 2017-04-06
Also published as: JP2017069026A; JP6095180B1

Abstract

A first elastic contact piece (122) of a second shield member (12) is provided with an inclined part (1222) inclined so as to get closer to a shield wire (18) as the distance from a connector body (11) increases, and a curved part (1223) is provided at a tip end of the inclined part (1222). When an end bell (13) is linked with a barrel (4) of the connector body (11), the inclined part (1222) is pressed by a pressurizing part (132) of the end bell (13) so that the first elastic contact piece (122) is warped so as to be closer to the shield wire (18), and the curved part (1223) contacts a shield tape (185) of the shield wire (18). The curved part (1223) reliably contacts a shield part (186) even when the position of the curved part (1222) relative to the pressurizing part (132) when the pressurizing part (132) starts pressing the inclined part (1222) deviates from the ideal position, the deviation being caused by, inter alia, error in manufacturing the various types of components constituting part of a plug connector (10), or the accumulation of errors in the accuracy with which component are assembled.

Description

connector

This invention relates to a connector.

Conventionally, as shown in FIGS. 16 and 17, a shield connector including a shield electrode 920 and a ring member 970 for bringing the shield electrode 920 into contact with a braided wire 982 of a shielded electric wire 980 is known (the following patents). Reference 1). This document describes the following contents.

The shield electrode 920 is housed and held in a cylindrical housing 910 that holds the terminal fitting 950. The shield electrode 920 is cylindrical and has a plurality of strip pieces 924. The plurality of strip pieces 924 are located at one end of the shield electrode 920 and are arranged at equal intervals along the circumferential direction. The plurality of strip pieces 924 protrude into the terminal fitting insertion portion 916 of the housing 910.

The ring member 970 has a cylindrical shape, and projecting walls 971 are formed on the inner peripheral surface of the ring member 970 at equal intervals along the circumferential direction. The protruding wall 971 has a pressing surface 971A that is an inclined surface and an inner surface 971B that is substantially parallel to the central axis of the ring member 970.

The shield wire 980 is passed through the ring member 970, and the terminal fitting 950 is connected to the core wire of the extension 981 of the shield wire 980.

After the terminal fitting 950 is accommodated in the terminal accommodating chamber 913 of the housing 910, the ring member 970 is inserted into the terminal fitting inserting portion 916 of the housing 910. At this time, the pressing surface 971A of the protruding wall 971 of the ring member 970 enters so as to cover the outer surface of the strip plate piece 924 of the shield electrode 920, and therefore the strip plate piece as the ring member 970 is pushed into the terminal fitting insertion portion 916. The distal end portion of 924 is bent inward (in a direction approaching the shielded electric wire 980), and finally enters between the braided wire 982 of the shielded electric wire 980 and the inner surface 971B of the protruding wall 971. As a result, the strip piece 924 comes into contact with the braided wire 982, and the shield electrode 920 and the braided wire 982 of the shielded electric wire 980 are electrically connected.

JP-A-8-88051

The above-mentioned shield connector has the following problems.

When the ring member 970 is inserted into the terminal fitting insertion portion 916 of the housing 910, for example, manufacturing errors of various parts constituting the shield connector such as the housing 910, the shield electrode 920, the ring member 970, and the assembly accuracy of the parts are reduced. If the position where the strip piece 924 first contacts the pressing surface 971A of the protruding wall 971 is deviated from the design ideal position due to accumulation of errors, etc., the tip of the strip piece 924 will be As it bends inward, the deviation between the position of the tip of the strip plate piece 924 and the ideal design position gradually increases, so that the strip plate piece 924 is connected to the braided wire 982 of the shielded electric wire 980 and the protruding wall 971. There is a risk that it will not enter the space between the inner surface 971B.

In this case, it is expected that the strip piece 924 is deformed in the space formed between the outer peripheral surface of the braided wire 982 of the shielded electric wire 980 and the pressing surface 971A of the protruding wall 971, and the strip piece 924 becomes the braided wire 982. Even if it does not contact or the strip piece 924 is in contact with the braided wire 982, it is considered that the contact state is not stable.

The present invention has been made in view of such circumstances, and the problem is to ensure the contact stability between the second shield member and the shield portion of the shielded electric wire.

In order to solve the above-described problem, the present invention provides a connector main body having an insulating holding member that holds a contact that is electrically connected to a shielded electric wire, and a first shield member that surrounds the insulating holding member; A second shield member that electrically connects a shield portion and the first shield member; and a housing member that houses the second shield member and has a through space through which the shielded wire passes and is coupled to the connector body The second shield member has at least one first elastic contact piece extending in a direction away from the connector body, and the housing member connects the housing member to the connector body. And a pressing part that pushes the first elastic contact piece and bends the first elastic contact piece closer to the shielded electric wire, The first elastic contact piece is connected to the shield body when the housing member is connected to the connector body, and approaches the shielded electric wire as the distance from the connector body increases. When the housing member is connected to the connector body, the first elastic contact piece is in contact with the pressurizing portion.

Preferably, the first elastic contact piece is plate-shaped, and the curved portion is bent toward the connector body.

Preferably, the pressurizing portion has a pressurizing portion side inclined surface that inclines so as to approach the shielded electric wire as it is separated from the connector main body, and the pressurizing portion side inclined surface is a conical surface, and the connector One of the main body and the housing member has a female threaded portion, the other of the connector body and the housing member has a male threaded portion corresponding to the female threaded portion, and the male threaded portion is fitted into the female threaded portion. The connector main body and the housing member are connected to each other.

Preferably, each of the housing member and the second shield member has a cylindrical shape, the inclined portion has an inclined surface, and the inclination direction of the inclined surface before the housing member is connected to the connector body. An angle formed with the central axis of the second shield member is equal to an angle formed between the inclined direction of the inclined surface on the pressing portion side and the central axis of the housing member.

Preferably, there are a plurality of the first elastic contact pieces, and the plurality of first elastic contact pieces are arranged at equal intervals in the circumferential direction.

Preferably, the shielded electric wire has an inner conductor portion, an inner insulating covering portion that covers the inner conductor portion, a braid that covers the inner insulating covering portion, and an outer insulating covering portion that covers the braid, The shield part is composed of the braid and a shield tape wound around the outer insulating cover part through an exposed portion of the braid that is folded back so as to cover the tip of the outer insulating cover part. It is characterized by.

Preferably, the second shield member has a second elastic contact piece that contacts the first shield member.

Preferably, the second shield member is integrally formed.

According to this invention, contact stability between the second shield member and the shield portion of the shielded electric wire can be ensured.

It is a front view of a plug connector concerning one embodiment of this invention. It is a side view of the plug connector shown in FIG. It is sectional drawing which follows the III-III line of FIG. It is sectional drawing which shows the state before connecting an end bell with the barrel of the plug connector shown in FIG. However, illustration of the shielded electric wire is omitted. It is sectional drawing which shows the state which connected the end bell to the barrel of the plug connector shown in FIG. 1, and also connected the ground nut to the end bell. It is a perspective view of the 1st shield member and 2nd shield member of the plug connector shown in FIG. It is an enlarged view of the front-end | tip part of the 1st elastic contact piece of the 2nd shield member of the plug connector shown in FIG. It is sectional drawing which shows the state before a housing is inserted in the 1st shield member accommodated in the barrel. However, the cross section of the shielded wire is not shown. It is sectional drawing which shows a state before a housing is inserted in a 1st shield member and an end bell is connected with a barrel. However, the cross section of the shielded wire is not shown. It is sectional drawing which shows the state in which the end bell was connected with the barrel and the gland nut was connected with the end bell. However, the cross section of the shielded wire is not shown. It is a partial expanded sectional view which shows the state of the 1st elastic contact piece of the 2nd shield member in the middle of being connected with an end bell. However, the cross sections of the shielded wire and the housing are not shown. It is a partial expanded sectional view which shows the state of the 1st elastic contact piece of a 2nd shield member when an end bell is connected with the barrel. However, the cross sections of the shielded wire and the housing are not shown. It is a perspective view which shows the state before connecting the plug connector shown in FIG. 1 to a receptacle connector. It is an enlarged view of the front-end | tip part of the 1st elastic contact piece of the 1st modification of the plug connector shown in FIG. It is an enlarged view of the front-end | tip part of the 1st elastic contact piece of the 2nd modification of the plug connector shown in FIG. It is a perspective view which shows a part of shield electrode of a conventional shield connector, and a part of ring member. It is a fragmentary sectional view of the shield connector which shows the state where the ring member was inserted in the housing.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

1 to 3, the plug connector (connector) 10 includes a connector main body 11, a second shield member 12, an end bell (accommodating member) 13, a bushing 14, a washer 15, and a ground nut 16.

The plug connector 10 is connected to a receptacle connector 70 having pin contacts 71 (see FIG. 13). The receptacle connector 70 is used by being fixed to a panel 72 of an electronic device, for example.

As shown in FIGS. 4 and 5, the connector main body 11 includes a housing (insulation holding member) 2, a first shield member 3, a barrel 4, and a coupling nut 17.

The housing 2 has a cylindrical shape and is made of synthetic resin. The housing 2 has a plurality of contact receiving holes 21. A socket contact (contact) 1 is accommodated and held in each contact accommodating hole 21. A key 22 is formed on the outer peripheral surface of the housing 2.

The socket contact 1 is electrically connected to the inner conductor portion (not shown) of the shielded electric wire 18. The shielded electric wire 18 includes a plurality of inner conductor portions, an inner insulating covering portion 181 covering each of the plurality of inner conductor portions, a braid 183 covering the plurality of inner insulating covering portions, and an outer insulating covering portion 184 covering the braid 183. (See FIG. 8). One end of the braid 183 is exposed, and the exposed portion is folded back and held on the outer peripheral surface of the outer insulating coating portion 184 by the shield tape 185. The exposed portion of the braid 183 is loosened before being folded and trimmed to a certain length. In this embodiment, the braid 183 and the shield tape 185 constitute a shield portion 186 of the shielded electric wire 18.

The first shield member 3 has a cylindrical shape and surrounds the housing 2. The first shield member 3 has a cylindrical portion 31 and a plurality of contact pieces 32 (see FIG. 6). The first shield member 3 is formed, for example, by punching and bending a copper alloy plate, and the cylindrical portion 31 and the contact piece 32 are integrally formed.

The barrel 4 has a cylindrical shape and is made of, for example, a synthetic resin. A male screw 41 and a seal groove 45 are formed on the outer peripheral surface of one end of the barrel 4. An O-ring 47 is accommodated in the seal groove 45. A first flange portion 42 and a second flange portion 43 are formed on the outer peripheral surface of the intermediate portion of the barrel 4, and a groove 44 extending in the circumferential direction is formed between the first flange portion 42 and the second flange portion 43. The The groove 44 accommodates a projection 171 of the coupling nut 17 described later. A seal groove 46 is formed on the outer peripheral surface of the other end of the barrel 4. An O-ring 48 is accommodated in the seal groove 46. A key groove 49 is formed on the inner peripheral surface of one end of the barrel 4 (see FIG. 4). The keyway 49 receives the key 22 of the housing 2.

The second shield member 12 has a cylindrical shape, and one end thereof is attached to the outer peripheral surface of one end of the first shield member 3. A shielded electric wire 18 is passed through the second shield member 12. The second shield member 12 is a component that electrically connects the shield portion 186 of the shielded electric wire 18 and the first shield member 3. The second shield member 12 includes a cylindrical portion 121, a plurality of first elastic contact pieces 122, and a plurality of second elastic contact pieces 123 (only one second elastic contact piece 123 appears in FIG. 4). The second shield member 12 is formed, for example, by punching and bending a copper alloy plate, and the cylindrical portion 121, the first elastic contact piece 122, and the second elastic contact piece 123 are integrally formed.

The plurality of first elastic contact pieces 122 are connected to one end portion of the cylindrical portion 121 and are arranged at equal intervals along the circumferential direction of the cylindrical portion 121. Each first elastic contact piece 122 includes a support portion 1221, an inclined portion 1222, and a curved portion 1223 (see FIGS. 6 and 7). The support portion 1221 is connected to one end portion of the cylindrical portion 121 and extends in a direction away from the connector main body 11 along the central axis C12 (see FIG. 3) of the second shield member 12. The inclined portion 1222 is connected to the support portion 1221 and is inclined so as to approach the shielded electric wire 18 as the distance from the connector main body 11 increases. The inclined portion 1222 has a flat plate shape and has an inclined surface 1222A that extends linearly toward the shielded electric wire 18. The inclined surface 1222A is a surface that receives a force from a pressurizing unit described later. The curved portion 1223 continues to the inclined portion 1222 and is located closer to the central axis C13 of the end bell 13 than the support portion 1221. The curved portion 1223 is bent toward the connector body 11 side. The curved portion 1223 contacts the shield portion 186 of the shielded electric wire 18 when the end bell 13 is connected to the connector main body 11. The second elastic contact piece 123 is formed in the cylindrical portion 121, and contacts the contact piece 32 of the first shield member 3 when the second shield member 12 is attached to the outer peripheral surface of one end portion of the first shield member 3. .

The end bell 13 has a cylindrical shape, and is formed of, for example, a synthetic resin. The end bell 13 has a through space 131 (see FIG. 4) through which the shielded electric wire 18 passes. A female thread 131 A is formed on the inner peripheral surface of one end of the end bell 13. The female screw 131 A corresponds to the male screw 41 of the barrel 4. A pressure portion 132 is formed on the inner peripheral surface of the other end portion of the end bell 13. The pressurizing unit 132 has a tapered inclined surface (pressurizing unit side inclined surface) 132A. When the female screw 131 A of the end bell 13 is screwed into the male screw 41 of the barrel 4, the pressurizing unit 132 pushes the inclined portion 1222 of the first elastic contact piece 122 and flexes so that the first elastic contact piece 122 approaches the shielded electric wire 18. (See FIG. 12). A male screw 131B is formed on the outer peripheral surface of the other end portion of the end bell 13.

When the end bell 13 is not connected to the barrel 4, as shown in FIG. 4, the inclination direction S1 of the inclined surface 1222A of the inclined portion 1222 and the central axis C12 of the second shield member 12 (the central axis C12 and the central axis C12 are shown in FIG. 3). The angle θ1 formed with the central axis C4 of the barrel 4), the inclination direction S2 of the inclined surface 132A of the pressurizing portion 132, and the central axis C13 of the end bell 13 (the central axis C13 and the barrel shown in FIG. 3). 4 is the same as the central axis C4). This “equal” does not mean that they are coincident in a strict sense, but also includes a case where there is a slight difference between both angles θ1 and θ2.

The bushing 14 is made of synthetic rubber, for example. One end of the bushing 14 is inserted into the through space 131 of the end bell 13.

The washer 15 is made of, for example, a synthetic resin. The washer 15 has a function of preventing the rotation of the ground nut 16 from being transmitted to the bushing 14 when the ground nut 16 is connected to the end bell 13.

The ground nut 16 has a cylindrical shape, and is formed of, for example, a synthetic resin. A bushing 14 and a washer 15 are accommodated in the ground nut 16. A female thread 161 is formed on the inner peripheral surface of the ground nut 16 (see FIG. 3). The male screw 131B of the end bell 13 is screwed into the female screw 161. By screwing the male screw 131 B into the female screw 161, the gland nut 16 is connected to the end bell 13 in a state where the bushing 14 and the washer 15 are accommodated. Half of one end of the ground nut 16 is cut away to form a notch 162. A clamp saddle 163 is disposed in the notch 162, and the clamp saddle 163 is connected to the ground nut 16 by a bolt 164 (see FIG. 2). When the bolt 164 is screwed into a screw hole (not shown) of the clamp saddle 163, the shielded electric wire 18 is supported while being sandwiched between the clamp saddle 163 and the ground nut 16.

The coupling nut 17 has a cylindrical shape, and is made of, for example, a synthetic resin. A protrusion 171 extending in the circumferential direction is formed on the inner peripheral surface of the coupling nut 17. The protrusion 171 is loosely fitted in the groove 44 of the barrel 4, and the coupling nut 17 is rotatably mounted on the barrel 4. A spring 172 is accommodated in the coupling nut 17, one end of the spring 172 is fixed to the coupling nut 17, and the other end is fixed to the barrel 4. When the coupling nut 17 rotates, a restoring force of the spring 172 is generated that attempts to return the coupling nut 17 to its original position.

Next, the assembly procedure of the plug connector 10 will be described.
Before assembling the plug connector 10, as shown in FIG. 8, the shielded electric wire 18 is passed through the ground nut 16, washer 15, bushing 14, end bell 13 and second shield member 12, and the inner conductor portion of the shielded electric wire 18 is passed through. The connected socket contact 1 is inserted into the contact receiving hole 21 of the housing 2 in advance. Further, the O-

rings

47 and 48, the coupling nut 17, the spring 172, and the first shield member 3 are assembled to the barrel 4 in advance.

First, the housing 2 is inserted into the first shield member 3 in the barrel 4 (see FIG. 9).

Next, one end of the second shield member 12 is attached to the outer peripheral surface of one end of the first shield member 3. Thereby, the 2nd elastic contact piece 123 of the 2nd shield member 12 contacts the contact piece 32 of the 1st shield member 3, and the 1st shield member 3 and the 2nd shield member 12 are electrically connected.

Thereafter, the internal thread 131A of the end bell 13 is screwed into the external thread 41 of the barrel 4 (see FIG. 10). Thereby, the end bell 13 is connected to the barrel 4, and the second shield member 12 is accommodated in the end bell 13.

When the end bell 13 is connected to the barrel 4, the inclined portion 1222 of the second shield member 12 is pushed by the pressing portion 132 of the end bell 13 (see FIG. 11), and the inclined surface 1222 A of the inclined portion 1222 is Since it slides relatively toward the shielded electric wire 18 on the inclined surface 132A, the first elastic contact piece 122 bends so as to approach the shielded electric wire 18 (see FIG. 12). As a result, the curved portion 1223 of the first elastic contact piece 122 contacts the shield portion 186 of the shielded electric wire 18, and the first shield member 3 and the shield portion 186 of the shielded electric wire 18 are electrically connected.

Finally, the bolt 164 of the clamp saddle 163 is tightened to clamp the shielded electric wire 18.

The assembly of the plug connector 10 is completed through the above steps.

According to this embodiment, since the first elastic contact piece 122 of the second shield member 12 has the inclined portion 1222 that is inclined so as to approach the shielded electric wire 18 as it is separated from the connector main body 11, the inclined portion 1222 is the end bell 13. The moving distance of the bending portion 1223 from the time when the bending portion 1223 comes into contact with the shield tape 185 of the shielded electric wire 18 after being pressed by the pressing portion 132 can be reduced. Therefore, due to manufacturing errors of various parts constituting the plug connector 10, accumulation of errors in assembly accuracy of parts, etc., the pressure part 132 when the pressure part 132 starts to push the inclined part 1222 Even when the position of the inclined portion 1222 is deviated from the ideal position, the bending portion 1223 moves until the bending portion 1223 comes into contact with the shield portion 186 of the shielded electric wire 18 after the pressing portion 132 starts to push the inclined portion 1222. Since the amount is small, the adverse effect caused by the displacement of the inclined portion 1222 relative to the pressurizing portion 132 can be reduced, and the curved portion 1223 reliably contacts the shield portion 186 of the shielded electric wire 18. Contact stability between 186 and the second shield member 12 is ensured.

Further, the angle θ1 formed between the tilt direction S1 of the tilted surface 1222A of the tilted portion 1222 and the center axis C12 of the second shield member 12, the tilt direction S2 of the tilted surface 132A of the pressurizing unit 132, and the center axis C13 of the end bell 13 Therefore, when the female screw 131A of the end bell 13 is screwed into the male screw 41 of the barrel 4, the frictional resistance generated between the inclined surface 1222A of the inclined portion 1222 and the inclined surface 132A of the pressurizing portion 132 is small. In addition, the tightening force of the end bell 13 does not increase, and the first elastic contact piece 122 does not easily deform in the rotation direction of the end bell 13. As a result, the operation of connecting the end bell 13 to the barrel 4 is facilitated, and the curved portion 1223 can be reliably brought into contact with the shield portion 186 of the shielded electric wire 18.

Next, a first modification and a second modification of the embodiment shown in FIG. 1 will be described with reference to FIGS.

The difference between the embodiment shown in FIG. 1 and the first and second modifications is the shape of the tip side portion of the first elastic contact piece. The common parts with the embodiment shown in FIG. Only the main differences from the embodiment shown in FIG. 1 will be described below.

In the embodiment shown in FIG. 1, the inclined portion 1222 is connected to the support portion 1221, and the curved portion 1223 is connected to the inclined portion 1222. However, in the first elastic contact piece 2122 of the first modification shown in FIG. The connecting portion 2124 is connected to the connecting portion 2124, the bending portion 21223 is connected to the connecting portion 2124, and the inclined portion 21222 is connected to the bending portion 21223. The bending direction of the bending portion 21223 is opposite to that of the bending portion 1223 of the first embodiment. The connecting portion 2124 and the inclined portion 21222 are substantially parallel.

The first modification has the same effect as the embodiment shown in FIG.

In the first elastic contact piece 3122 of the second modification shown in FIG. 15, the inclined portion 1222 is connected to the support portion 1221, and the curved portion 31223 is connected to the inclined portion 1222. The inclined portion 1222 continues to the support portion 1221 as in the first embodiment, but the bending direction of the bending portion 31223 is opposite to that of the bending portion 1223 of the first embodiment.

The second modification has the same effect as the embodiment shown in FIG.

In the embodiment shown in FIG. 1, the barrel 4 is made of a synthetic resin, but the barrel 4 may be formed of a conductive material. In this case, the barrel 4 serves as the first shield member, and the second elastic contact piece 123 may be brought into contact with the inner peripheral surface of the barrel 4. If it does in this way, the 1st shield member 3 becomes unnecessary.

The end bell 13 is also made of synthetic resin, but the end bell 13 may be formed of a conductive material.

In the embodiment shown in FIG. 1, the end bell 13 is coupled to the barrel 4 by screwing the female thread 131 A of the end bell 13 into the male thread 41 of the barrel 4, but means for coupling the endbell 13 to the barrel 4 is provided here. Not limited.

In the embodiment shown in FIG. 1, the pressurizing part 132 of the end bell 13 has one tapered inclined surface 132A, but it is not necessary to have one pressurizing part. For example, a plurality of protrusions (not shown) each having an inclined surface may be arranged on the inner peripheral surface of the end bell 13 at equal intervals along the circumferential direction. In this case, as a connecting means for connecting the end bell 13 to the barrel 4, it is preferable that the end bell 13 is connected to the barrel 4 by pushing the end bell 13 along the central axis C 4 of the barrel 4. As this connection means, for example, a lock arm (not shown) that can be bent in a direction orthogonal to the central axis C4 of the barrel 4 and a recess (not shown) on which the claw of the lock arm is hooked are configured. There are known connecting means.

In the embodiment shown in FIG. 1, the socket contact 1 is used for the plug connector 10 and the pin contact 71 is used for the receptacle connector 70, but this relationship may be reversed. That is, a pin contact may be used for the plug connector and a socket contact may be used for the receptacle connector.

Further, in the embodiment shown in FIG. 1, the barrel 4 is provided with the male screw 41 and the end bell 13 is provided with the female screw 131A. However, the barrel 4 may be provided with the female screw and the end bell 13 may be provided with the male screw.

In the embodiment shown in FIG. 1, the second shield member 12 has a plurality of first elastic contact pieces 122, but the number of the first elastic contact pieces 122 of the second shield member 12 may be one.

In the embodiment shown in FIG. 1, the inclined portion 1222 has a flat plate shape and has an inclined surface 1222A that extends linearly toward the shielded electric wire 18. However, the inclined portion 1222 is not limited to such a shape. Any shape that is inclined so as to approach the shielded electric wire 18 as it moves away from the connector body 11 may be used. In the embodiment shown in FIG. 1, the first elastic contact piece 122 is composed of the support portion 1221, the inclined portion 1222, and the curved portion 1223, but the first elastic contact piece is composed of two elements, the inclined portion and the curved portion. You may comprise. In this case, one end of the inclined portion (not shown) is connected to the cylindrical portion 121 and the other end is connected to the curved portion. The inclined portion is inclined so as to approach the shielded electric wire 18 as the distance from the connector main body 11 increases.

In the embodiment shown in FIG. 1, the pressurizing portion 132 of the end bell 13 has a tapered inclined surface 132A, but the inclined surface 132A is not necessarily required. The shape of the pressurizing portion may be any shape that can bend the first elastic contact piece 122 closer to the shielded electric wire 18 by pressing the inclined portion 1222 of the first elastic contact piece 122.

In the embodiment shown in FIG. 1, the shield part 186 of the shielded electric wire 18 is composed of a braid 183 and a shield tape 185, but the shield part of the shielded electric wire of the present invention has various other shield parts. For example, the shield part of the shielded electric wire 980 includes only the braided wire 982 as in the prior art of Patent Document 1 described above.

In the embodiment shown in FIG. 1, when the end bell 13 is connected to the barrel 4, the pressurizing part 132 of the endbell 13 is in contact with the support part 1221 of the second shield member 12. The inclined portion 1222 of the second shield member 12 may be contacted. Moreover, in other embodiment which is not shown in figure, it may contact a curved part.

1: Socket contact (contact)
2: Housing (insulation holding member)
21: Contact accommodating hole 22: Key 3: First shield member 31: Cylindrical portion 32: Contact piece 4: Barrel 41: Male screw 42: First flange portion 43: Second flange portion 44: Groove 45, 46: Seal groove 47 48: O-ring 49: Keyway 10: Plug connector (connector)
DESCRIPTION OF SYMBOLS 11: Connector main body 12: 2nd shield member 121:

Cylindrical part

122,2122,3122: 1st elastic contact piece 1221: Support part 1222,21222: Inclined part 1222A:

Inclined surface

1223,21223,31223: Curved part 123: No. 2 Elastic contact piece 13: End bell (accommodating member)
131: Through space 131A: Female screw 131B: Male screw 132: Pressurizing part 132A: Inclined surface (pressurizing part side inclined surface)
14: Bushing 15: Washer 16: Gland nut 161: Female thread 162: Notch 163: Clamp saddle 164: Bolt 17: Coupling nut 171: Protrusion 172: Spring 18: Shielded wire 181: Inner insulation coating 183: Braided 184: Outer insulation coating portion 185: Shield tape 186: Shield portion 70: Receptacle connector 71: Pin contact 72: Panel 2124: Connection portion C4: Center axis of barrel 4 C12: Center axis of second shield member 12 C13: End bell 13 S1: Inclination direction of the inclined surface 1222A of the inclined portion 1222 S2: Inclination direction of the inclined surface 132A of the pressurizing portion 132 θ1: Inclination direction S1 of the inclined surface 1222A of the inclined portion 1222 and the central axis of the second shield member 12 Angle formed by C12 θ2: Pressurization 132 the angle between the center axis C13 of the inclined direction S2 and the end bell 13 of the inclined surface 132A of

Claims

A connector main body having an insulating holding member for holding a contact electrically connected to the shielded electric wire and a first shield member for surrounding the insulating holding member;
A second shield member for electrically connecting a shield portion of the shielded wire and the first shield member;
In the connector comprising: a housing member that houses the second shield member and has a through space through which the shielded wire passes, and is coupled to the connector body;
The second shield member has at least one first elastic contact piece extending in a direction away from the connector body,
The housing member has a pressurizing portion that pushes the first elastic contact piece and bends the first elastic contact piece closer to the shielded electric wire when the housing member is connected to the connector body,
When the housing member is connected to the connector main body, the first elastic contact piece comes into contact with the shield portion, and approaches the shield electric wire as it is connected to the curved portion and away from the connector main body. And an inclined portion that is inclined as
The connector, wherein when the housing member is connected to the connector body, the first elastic contact piece is in contact with the pressure portion.
The first elastic contact piece is plate-shaped,
The connector according to claim 1, wherein the curved portion is bent toward the connector main body.
The pressurizing part has a pressurizing part side inclined surface that inclines so as to approach the shielded electric wire as it is away from the connector body, and the pressurizing part side inclined surface is a conical surface,
One of the connector body and the housing member has a female thread portion, and the other of the connector body and the housing member has a male thread portion corresponding to the female thread portion,
The connector according to claim 2, wherein the connector main body and the housing member are connected by fitting the male screw portion into the female screw portion.
Each of the housing member and the second shield member is cylindrical,
The inclined portion has an inclined surface;
Before the housing member is connected to the connector body, the angle formed by the tilt direction of the inclined surface and the central axis of the second shield member, the tilt direction of the pressurizing portion side inclined surface, and the center of the housing member The connector according to claim 3, wherein an angle formed with the shaft is equal.
The connector according to claim 4, wherein a plurality of the first elastic contact pieces are present, and the plurality of first elastic contact pieces are arranged at equal intervals in the circumferential direction.
The shielded electric wire has an inner conductor portion, an inner insulating covering portion that covers the inner conductor portion, a braid that covers the inner insulating covering portion, and an outer insulating covering portion that covers the braid,
The shield part is
The braid and a shield tape wound around the outer insulating covering portion through an exposed portion of the braid folded back so as to cover a front end portion of the outer insulating covering portion. Item 10. The connector according to Item 1.
The shielded electric wire has an inner conductor portion, an inner insulating covering portion that covers the inner conductor portion, a braid that covers the inner insulating covering portion, and an outer insulating covering portion that covers the braid,
The shield part is
The braid and a shield tape wound around the outer insulating covering portion through an exposed portion of the braid folded back so as to cover a front end portion of the outer insulating covering portion. Item 3. The connector according to item 2.
The connector according to claim 1, wherein the second shield member has a second elastic contact piece that contacts the first shield member.
The connector according to claim 2, wherein the second shield member has a second elastic contact piece that contacts the first shield member.
The connector according to claim 8, wherein the second shield member is integrally formed.
The connector according to claim 9, wherein the second shield member is integrally formed.