JP6953191B2 - Connector and wire harness - Google Patents

Description

The present invention relates to connectors and wire harnesses.

As a conventional connector applied to a wire harness or the like, for example, Patent Document 1 discloses a connector in which a first housing is provided with a lock arm that is elastically flexible in the unlocking direction. A detection member is attached to the lock arm of this connector. The detection member can be displaced integrally with the lock arm in the unlocking direction, and can be displaced relative to the lock arm between the standby position and the detection position. In the connector, the detection member is held in the standby position when the first housing and the second housing are half-fitted. Then, in this connector, when the first housing and the second housing reach the normal mating state, the detection member is allowed to move from the standby position to the detection position. Further, in this connector, the first housing and the second housing can be separated from each other by displacing the lock arm in the unlocking direction in a state where the detection member is returned from the detection position to the standby position.

Japanese Unexamined Patent Publication No. 2006-244955

By the way, it is desired that the connector described in Patent Document 1 described above appropriately suppresses excessive displacement of the lock arm in various usage modes, for example.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a connector and a wire harness capable of appropriately suppressing excessive displacement of the lock arm.

In order to achieve the above object, the connector according to the present invention is formed by extending along a first direction with a housing body provided with a terminal connected to the mating connector and capable of fitting into the mating connector. A beam-shaped restricting portion located at a distance from the housing body along a second direction intersecting the first direction, and both ends of the first direction are supported by the housing body, and the second direction. A space portion formed between the housing body and the beam-shaped restricting portion along the same direction, and a space portion extending along a third direction intersecting the first direction and the second direction, and extending in the space portion. It is positioned and supported by the housing body in a cantilever shape so as to be elastically deformable along the second direction, and by contacting the beam-shaped restricting portion on the cantilever tip side, the space along the second direction. The beam-shaped restricting portion includes a lock arm whose displacement to the side opposite to the cantilever base end side is restricted and a lock portion provided on the lock arm and which can be locked to the mating connector. It is provided at both ends of the first direction, is formed so as to project toward the lock arm side along the second direction, and the protruding tip surface can be brought into contact with the lock arm on the cantilever tip side. It is characterized by having a pair of regulating protrusions and a notch located between the pair of regulating protrusions along the first direction and facing the space.

Further, in the connector, the connector is inserted into the space portion along the third direction and assembled to the lock arm, and the lock portion is locked to the mating connector in the space portion. A fitting detection member that can move from the initial position to the fitting guarantee position along the three directions is provided, and a part of the fitting detection member is inserted into the notch portion along the third direction. Can be.

Further, in the connector, the lock arm extends along the third direction and is formed by being folded back at a folded portion, and the lock portion may be provided at the folded portion of the lock arm. can.

In order to achieve the above object, the wire harness according to the present invention includes a conductive first wiring material and a connector connected to the first wiring material, and the connector is a conductive second wiring material. A housing body that is provided with a terminal to be connected to a mating connector connected to a wiring material and can be fitted to the mating connector is formed so as to extend along a first direction and intersect with the first direction. A beam-shaped restricting portion that is located at a distance from the housing body along the second direction and whose both ends in the first direction are supported by the housing body, and the housing body and the housing body along the second direction. The space portion formed between the beam-shaped regulating portion extends along a third direction intersecting the first direction and the second direction, and is located in the space portion and is located on the housing body. It is supported in a cantilever shape so that it can be elastically deformed along the second direction, and by abutting with the beam-shaped restricting portion on the cantilever tip side, the cantilever base end side along the second direction is A lock arm whose displacement to the opposite side is restricted and a lock portion provided on the lock arm and which can be locked to the mating connector are provided, and the beam-shaped restricting portion is provided at both ends in the first direction. A pair of regulating protrusions, which are provided respectively, are formed so as to project toward the lock arm side along the second direction, and the protruding tip surface can be brought into contact with the lock arm on the cantilever tip side. It is characterized by having a notch portion located between the pair of regulating protrusions along the first direction and provided facing the space portion.

The connector and wire harness according to the present invention include a housing body, a beam-shaped regulating portion, a space portion, a lock arm, and a locking portion, and the beam-shaped regulating portion is a pair of regulating protrusions and a cutting portion. It has a notch. With this configuration, the connector and the wire harness have an effect that the excessive displacement of the lock arm can be appropriately suppressed.

FIG. 1 is an exploded perspective view showing a schematic configuration of a connector mechanism according to an embodiment. FIG. 2 is an exploded perspective view showing a schematic configuration of the female connector according to the embodiment. FIG. 3 is an exploded perspective view showing a schematic configuration of the female connector according to the embodiment. FIG. 4 is a cross-sectional view taken along the axial direction and the height direction of the female housing included in the female connector according to the embodiment. FIG. 5 is a perspective view showing a schematic configuration of a female housing included in the female connector according to the embodiment. FIG. 6 is a cross-sectional perspective view showing a schematic configuration of a female housing included in the female connector according to the embodiment. FIG. 7 is a cross-sectional view illustrating the operation of the connector mechanism according to the embodiment in the first usage mode. FIG. 8 is a partial cross-sectional view illustrating the operation of the connector mechanism according to the embodiment in the first usage mode. FIG. 9 is a cross-sectional view illustrating the operation of the connector mechanism according to the embodiment in the first usage mode. FIG. 10 is a cross-sectional view illustrating the operation of the connector mechanism according to the embodiment in the second usage mode. FIG. 11 is a schematic view illustrating excessive displacement suppression of the lock arm in the first usage mode of the connector mechanism according to the embodiment. FIG. 12 is a schematic view illustrating excessive displacement suppression of the lock arm in the second usage mode of the connector mechanism according to the embodiment.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the drawings. The present invention is not limited to this embodiment. In addition, the components in the following embodiments include those that can be easily replaced by those skilled in the art, or those that are substantially the same.

In addition, in FIG. 1 and FIG. 4, the wiring material and the female terminal are omitted by a two-dot chain line, and in the other drawings, the wiring material and the female terminal are not shown. Further, in each figure, the male housing partially illustrates a part including the hood portion. Further, FIG. 7 shows a state in which the CPA member is in the initial position, FIG. 8 shows a state in which the male housing and the female housing are completely fitted, and FIG. 9 shows a state in which the CPA member is guaranteed to fit. It represents the state of being in position. Further, in the following description, of the first direction, the second direction, and the third direction that intersect each other, the first direction is referred to as "width direction X" and the second direction is referred to as "height direction Y". , The third direction is referred to as "axial direction Z". Here, the width direction X, the height direction Y, and the axial direction Z are orthogonal to each other. The axial direction Z is typically a direction along the mating direction of the male connector and the female connector, which will be described later, and further, in the extending direction of the male connector, the male terminal provided with the female connector, and the female terminal. The direction is along. Unless otherwise specified, each direction used in the following description shall represent a direction in which each part is assembled to each other.

[Embodiment]
The connector mechanism 1 of the present embodiment shown in FIGS. 1, 2, 3, and the like is applied to, for example, a wire harness WH or the like used in an automobile or the like. In the wire harness WH, for example, for connection between each device mounted on a vehicle, a plurality of wiring materials W used for power supply and signal communication are bundled to form an aggregate part, and a plurality of wirings are arranged by a connector or the like. The material W is connected to each device. The wire harness WH includes a conductive wiring material W and a connector mechanism 1 that is electrically connected to the wiring material W. The wiring material W is composed of, for example, a metal rod, an electric wire, a bundle of electric wires, and the like. The metal rod is formed by covering the outside of a conductive rod-shaped member with an insulating coating. An electric wire is formed by covering the outside of a conductor portion (core wire) composed of a plurality of conductive metal strands with an insulating coating portion. The electric wire bundle is a bundle of the electric wires. The wire harness WH may also include a grommet, a protector, a fixture, an electric junction box, and the like. Here, the wire harness WH includes a conductive first wiring material W1 and a conductive second wiring material W2 as the wiring material W. The connector mechanism 1 is a connection mechanism for connecting the wiring material (electric wire) to the wiring material (electric wire) that connects the first wiring material W1 and the second wiring material W2 constituting the wire harness WH. .. The connector mechanism 1 includes a male connector 2 as a mating connector and a female connector 3 as a connector. The male connector 2 is electrically connected to the second wiring material W2. The female connector 3 is electrically connected to the first wiring material W1. The male connector 2 and the female connector 3 are arranged and fitted so as to face each other in the axial direction Z. In the connector mechanism 1, the male connector 2 and the female connector 3 are fitted to each other and the female connector 3 is joined to each other, so that the male terminal 4 and the female terminal 6 provided therein are electrically connected and electrically connected to each other. A portion is formed, and the first wiring material W1 and the second wiring material W2 are electrically connected. Hereinafter, the configuration of the connector mechanism 1 will be described in detail with reference to each figure.

As shown in FIGS. 1, 2, 3, 3 and the like, the male connector 2 is a male connector connected to the end of the second wiring member W2 constituting the wire harness WH. The male connector 2 includes a male terminal 4 as a counterparty terminal and a male housing 5 as a counterparty housing. In the following description, in the male connector 2, the female connector 3 side in the axial direction Z may be referred to as the front side, and the opposite side may be referred to as the rear side in the axial direction Z.

The male terminal 4 is a male terminal fitting for a connector, and is connected to the end of the second wiring material W2 and is entirely composed of a conductive metal material. The male housing 5 is a male-type connector housing provided with a male terminal 4, and is formed of an insulating synthetic resin material or the like. The male housing 5 has a hood portion 51 in which a fitting space portion 52 is formed. The hood portion 51 has an axial line formed in a substantially long cylindrical shape along the axial direction Z, and the fitting space portion 52 is formed inside. The fitting space portion 52 is a space portion in which the female housing 7 of the female connector 3, which will be described later, is fitted. The male housing 5 holds the male terminal 4 so that the tip end portion (front end portion in the axial direction Z) of the male terminal 4 is exposed in the fitting space portion 52. The male terminal 4 extends along the axial direction Z while being held by the male housing 5. The male terminal 4 has, for example, a terminal holding portion in which an end portion (rear end portion in the axial direction Z) opposite to the tip portion exposed in the fitting space portion 52 is integrally formed with the hood portion 51. It is held in the terminal insertion chamber (sometimes also called a cavity) of the above, and the second wiring material W2 is connected to the end. The male terminal 4 is inserted and held in the terminal insertion chamber from the rear side in the axial direction Z, and the tip portion on the front side in the axial direction Z is exposed in the fitting space portion 52 of the hood portion 51. In the male connector 2, the hood portion 51 opens on the front side in the axial direction Z, and the second wiring material W2 extends on the rear side in the axial direction Z. The male housing 5 holds a plurality of male terminals 4, here two male terminals 4.

Then, the male connector 2 has an male beak 53 as a counterpart lock portion on the outer surface of the hood portion 51. The Osbeek 53 is a portion to which the female lock portion 76 of the female connector 3, which will be described later, is locked. The osbeek 53 is formed so as to project from the outer surface of the hood portion 51. One Osbeek 53 is formed in a claw shape substantially in the center of one of the outer surfaces of the hood portion 51 along the axial direction Z and the width direction X. The Osbeek 53 is formed so as to project along the height direction Y. The male beak 53 is formed with an inclined surface 53a such that the front end portion of the male housing 5 in the axial direction Z gradually increases the amount of protrusion from the outer surface of the male housing 5 from the front side to the rear side. Then, in the male beak 53, the locking surface 53b is formed by the rear end of the male housing 5 in the axial direction Z rising substantially vertically from the outer surface of the male housing 5.

As shown in FIGS. 1, 2, 3, 4, 4 and the like, the female connector 3 is a female connector connected to the end of the first wiring material W1 constituting the wire harness WH. The female connector 3 includes a female terminal 6 as a terminal, a female housing 7 as a housing, a CPA member 8 as a fitting detection member, a front holder 9, and a packing 10. In the following description, in the female connector 3, the male connector 2 side in the axial direction Z may be referred to as the front side, and the opposite side may be referred to as the rear side in the axial direction Z.

The female terminal 6 is a female terminal fitting for a connector, and is connected to the end of the first wiring material W1 and is entirely made of a conductive metal. In the female connector 3, the female housing 7 is fitted into the fitting space 52 of the male housing 5, and the female terminal 6 is electrically connected to the male terminal 4 of the male connector 2.

As shown in FIGS. 4, 5, 6, and 6 and the like, the female housing 7 is a female connector housing provided with the female terminal 6, and is formed of an insulating synthetic resin material or the like. The female housing 7 is a member that holds the female terminal 6 and can be fitted into the fitting space 52 of the male housing 5. The female housing 7 includes a housing body 71, a first beam-shaped portion 72, a second beam-shaped portion 73 as a beam-shaped regulating portion, a holding space portion 74 as a space portion, a lock arm 75, and a lock portion. It has a female lock portion 76 of the above, and these are integrally molded with an insulating synthetic resin material or the like. In the following description of the female housing 7, FIGS. 1, 2, and 3 are also referred to as appropriate.

The housing body 71 is a portion provided with a female terminal 6 and can be fitted to the male connector 2. More specifically, the housing body 71 includes an inner housing 71A constituting the inner shell and an outer housing 71B forming the outer shell, and the inner housing 71A and the outer housing 71B are integrally formed. ..

The inner housing 71A is a tubular portion of the housing body 71 that holds the female terminal 6 and can be fitted into the fitting space 52 of the male connector 2. The inner housing 71A is formed in a substantially long cylindrical shape whose axis is along the axial direction Z. The inner housing 71A has a terminal insertion chamber 71a and a holder fitting portion 71b, and each portion is integrally formed. The terminal insertion chamber 71a is a space portion in which the female terminal 6 can be inserted along the axial direction Z and holds the female terminal 6. The terminal insertion chamber 71a may also be referred to as a cavity. The terminal insertion chamber 71a extends inside the housing body 71 and is formed in a hollow shape to accommodate the female terminal 6. The terminal insertion chamber 71a extends along the axial direction Z. The terminal insertion chamber 71a is formed as a space portion having a size and shape into which the female terminal 6 can be inserted according to the outer shape of the female terminal 6. The terminal insertion chamber 71a has a first opening 71c opened on the rear side in the axial direction Z and a second opening 71d opened on the front side in the axial direction Z. A plurality of terminal insertion chambers 71a are provided according to the number of the plurality of female terminals 6 provided in the female connector 3, and here, two are provided side by side in the width direction X. The holder fitting portion 71b is a space portion in which a part of the front holder 9 is fitted, and communicates with each terminal insertion chamber 71a. Here, the front holder 9 is a member that is formed in a cap shape by an insulating synthetic resin material or the like and is attached to the front end portion of the inner housing 71A in the axial direction Z. The front holder 9 is detachably assembled to the inner housing 71A in a positional relationship in which a part of the front holder 9 is fitted to the holder fitting portion 71b, and each female terminal 6 inserted and held in the terminal insertion chamber 71a is said to be the same. It is locked at a regular position in each terminal insertion chamber 71a. The regular position of the female terminal 6 in the terminal insertion chamber 71a is a position where an appropriate electrical connection between the female terminal 6 and the male terminal 4 is ensured. The female terminal 6 is inserted into the inner housing 71A from the rear side in the axial direction Z with respect to the terminal insertion chamber 71a via the first opening 71c. Then, the inner housing 71A holds the female terminal 6 by mounting the front holder 9 from the front side in the axial direction Z and fitting a part of the front holder 9 into the holder fitting portion 71b. In the inner housing 71A, the male terminal 4 of the male connector 2 is inserted through the opening 9a formed in the front holder 9 from the front side in the axial direction Z with respect to the terminal insertion chamber 71a and the second opening 71d. As a result, the female terminal 6 and the male terminal 4 are electrically connected.

Here, the inner housing 71A is more specifically configured to include a large diameter portion 71C extending along the axial direction Z and a small diameter portion 71D. Both the large-diameter portion 71C and the small-diameter portion 71D are formed in a substantially elongated columnar shape along the axial direction Z, the large-diameter portion 71C is located behind the axial direction Z, and the small-diameter portion 71D is in the axial direction Z. It is located on the front side and is integrally formed adjacent to the axial direction Z. The large-diameter portion 71C is formed so that the outer shape in the direction orthogonal to the axial direction Z is larger than the small-diameter portion 71D. NS. The large diameter portion 71C is a portion that serves as a base end portion that supports the lock arm 75, which will be described later, in a cantilever shape. On the other hand, the small diameter portion 71D is a portion of the housing body 71 that is fitted into the fitting space portion 52 of the male housing 5, and is formed in a size and shape that can be fitted into the fitting space portion 52. The large diameter portion 71C is exposed from the fitting space portion 52 of the male housing 5 in a state where the small diameter portion 71D is fitted into the fitting space portion 52. The housing body 71 has a packing 10 mounted on a stepped portion between the large diameter portion 71C and the small diameter portion 71D. Here, the packing 10 is a water blocking member formed in an annular shape. The packing 10 comes into contact with the outer surface of the small diameter portion 71D and the inner surface of the hood portion 51 in a state where the male connector 2 and the female connector 3 are connector-joined, and intervenes between them to stop water. The terminal insertion chamber 71a described above extends in the inner housing 71A along the axial direction Z to the large diameter portion 71C and the small diameter portion 71D, and the first opening 71c is formed in the large diameter portion 71C. 2 The opening 71d is formed in the small diameter portion 71D. Further, the holder fitting portion 71b described above is formed in the small diameter portion 71D in the inner housing 71A.

The outer housing 71B is a portion of the housing body 71 that covers the outside of the inner housing 71A. The outer housing 71B includes a cylindrical portion 71E and a pair of side wall portions 71F and 71G. The tubular portion 71E is a tubular portion that covers the outside of the inner housing 71A at intervals. The tubular portion 71E is formed in a substantially long cylindrical shape whose axis is along the axial direction Z, and the inner housing 71A is housed inside. The cylindrical portion 71E has an opening on the front end in the axial direction Z, while the rear end on the axial direction Z is connected to the outer surface of the inner housing 71A via the connecting wall portion 71e. Further, the tubular portion 71E is open on one side (the lock arm 75 side, which will be described later) in the height direction Y. The pair of side wall portions 71F and 71G are erected along the height direction Y from the edge portion forming the opening in the height direction Y of the tubular portion 71E, respectively. Both the side wall portions 71F and 71G are formed in a substantially rectangular plate shape such that the width direction X is the plate thickness direction, the height direction Y, and the axial direction Z is the extension direction of each side. The pair of side wall portions 71F and 71G face each other with respect to the width direction X with an opening in the height direction Y of the tubular portion 71E.

The first beam-shaped portion 72 and the second beam-shaped portion 73 are beam-shaped portions formed so as to extend linearly along the width direction X. The first beam-shaped portion 72 and the second beam-shaped portion 73 are formed in a substantially rectangular cross-sectional shape intersecting the width direction X, that is, in a substantially rectangular beam shape. The first beam-shaped portion 72 and the second beam-shaped portion 73 are provided along the width direction X across the side wall portion 71F and the side wall portion 71G. In other words, the pair of side wall portions 71F and 71G are connected by the first beam-shaped portion 72 and the second beam-shaped portion 73 along the width direction X. The first beam-shaped portion 72 and the second beam-shaped portion 73 are respectively located along the height direction Y with a gap from the outer surface of the inner housing 71A of the housing body 71. Both ends of the first beam-shaped portion 72 and the second beam-shaped portion 73 in the width direction X are supported by the side wall portions 71F and 71G of the outer housing 71B of the housing body 71, respectively. Here, in the first beam-shaped portion 72, both end portions in the width direction X are supported at the front end portions of the side wall portions 71F and 71G in the axial direction Z. On the other hand, in the second beam-shaped portion 73, both end portions in the width direction X are supported by the rear end portions of the side wall portions 71F and 71G in the axial direction Z. A more specific configuration of the second beam-shaped portion 73 will be described in detail later.

The holding space portion 74 is a space portion formed between the outer surface of the inner housing 71A of the housing body 71 and the first beam-shaped portion 72 and the second beam-shaped portion 73 along the height direction Y. More specifically, the holding space portion 74 is enclosed by the outer surface of the inner housing 71A of the housing body 71, the side wall portions 71F and 71G of the outer housing 71B, and the first beam-shaped portion 72 and the second beam-shaped portion 73. It is a space part that has been created. The holding space portion 74 extends along the axial direction Z and opens toward both the front side and the rear side of the axial direction Z. Further, the holding space portion 74 also opens on one side in the height direction Y via between the first beam-shaped portion 72 and the second beam-shaped portion 73. The holding space portion 74 functions as a space portion in which the lock arm 75, which will be described later, is located. Further, the holding space portion 74 also functions as a space portion in which the CPA member 8 described later can be inserted along the axial direction Z and the CPA member 8 is held so as to be relatively movable.

The lock arm 75 and the female lock portion 76 form a locking mechanism for locking the female housing 7 to the male housing 5 of the male connector 2.

The lock arm 75 extends along the axial direction Z, is located in the holding space 74, and is supported by the housing body 71 in a cantilevered manner so as to be elastically deformable along the height direction Y. Here, the lock arm 75 extends along the axial direction Z and is formed by being folded back at the folded-back portion 75A. Then, the lock arm 75 is elastically supported in a cantilever shape having flexibility with respect to the rear end portion of the large diameter portion 71C of the inner housing 71A in the axial direction Z, and is directed toward the front side along the axial direction Z. Is extended. Here, the lock arm 75 is located between the large diameter portion 71C of the inner housing 71A and the second beam-shaped portion 73 along the height direction Y. Then, the lock arm 75 comes into contact with the second beam-shaped portion 73 on the cantilever tip portion 75B side, so that the displacement of the lock arm 75 to the side opposite to the cantilever base end portion 75C side along the height direction Y is restricted. .. In other words, the above-mentioned second beam-shaped portion 73 is located along the height direction Y with the lock arm 75 sandwiched between the inner housing 71A and the inner housing 71A of the housing body 71. Then, the second beam-shaped portion 73 comes into contact with the lock arm 75 on the cantilever tip portion 75B side, and is displaced to the side opposite to the cantilever base end portion 75C side along the height direction Y of the lock arm 75. It functions as a beam-shaped regulation part that regulates.

More specifically, the lock arm 75 includes a first arm portion 75D and a second arm portion 75E, and the first arm portion 75D and the second arm portion 75E are integrated with each other via the folded-back portion 75A. Is formed by.

The first arm portion 75D is supported by a rear end portion of the housing body 71 in the axial direction Z, here, a large diameter portion 71C of the inner housing 71A. The first arm portion 75D is formed so as to extend in a cantilever shape having flexibility toward the front side along the axial direction Z. The first arm portion 75D is configured to include a pair of cantilever-shaped portions 75a extending from the cantilever base end portion 75C, and is formed in a lever shape as a whole. The cantilever base end portion 75C is formed so as to project from the large diameter portion 71C of the inner housing 71A along the height direction Y. The pair of cantilever-shaped portions 75a extend from the tip of the cantilever base end portion 75C in the height direction Y toward the front side along the axial direction Z. The pair of cantilever-shaped portions 75a face each other with respect to the width direction X and are formed in parallel along the axial direction Z. The pair of cantilever-shaped portions 75a are provided with a folded-back portion 75A at an end portion opposite to the cantilever base end portion 75C, that is, an end portion on the front side in the axial direction Z. The lock arm 75 is provided with a female lock portion 76, which will be described later, at the folded portion 75A. The pair of cantilever-shaped portions 75a support the female lock portion 76 at the folded-back portion 75A, which is the front end portion in the axial direction Z. The pair of cantilever-shaped portions 75a support the female lock portion 76 in the folded portion 75A so as to sandwich the female lock portion 76 in the width direction X. In other words, the female lock portion 76 is formed in a folded portion 75A of the lock arm 75 between a pair of cantilever beam-shaped portions 75a with respect to the width direction X in a beam shape along the width direction X, and the pair of cantilever portions. The beam-shaped portion 75a is connected. The first arm portion 75D is supported in a cantilever shape that can be elastically deformed by the cantilever base end portion 75C on the rear side in the axial direction Z, and the folded portion 75A on the front side in the axial direction Z and the female lock portion 76 side are free ends. .. As a result, the first arm portion 75D is elastically deformably supported along the height direction Y with respect to the large diameter portion 71C of the housing body 71.

The second arm portion 75E is supported by the front end portion of the first arm portion 75D in the axial direction Z, here, the front end portion of the pair of cantilever-shaped portions 75a in the axial direction Z, and is supported in the axial direction Z. It is formed to extend along the posterior side in a flexible cantilever shape. The second arm portion 75E includes a pair of cantilever-shaped portions 75b extending from the pair of cantilever-shaped portions 75a of the first arm portion 75D via the folded-back portion 75A, and a pair of cantilever-shaped portions 75b. It is configured to include a cantilever tip portion 75B connecting the 75b, and is formed in a lever shape as a whole. The folded-back portion 75A is a portion where the first arm portion 75D and the second arm portion 75E intersect, and the front end portion of each cantilever-shaped portion 75a in the axial direction Z and the axial direction of each cantilever-shaped portion 75b. It is configured as a portion where the front end portion of Z intersects with each other. The pair of cantilever-shaped portions 75b is located at a position where the pair of cantilever-shaped portions 75a is sandwiched in the width direction X, that is, the side where the female lock portion 76 is located with respect to the pair of cantilever-shaped portions 75a. It is provided at the opposite position. The pair of cantilever-shaped portions 75b extend from the folded-back portion 75A toward the rear side along the axial direction Z, respectively. The pair of cantilever-shaped portions 75b are formed so as to face each other with respect to the width direction X and in parallel along the axial direction Z. More specifically, the pair of cantilever-shaped portions 75b are formed in parallel along the axial direction Z with the pair of cantilever-shaped portions 75a sandwiched between them with respect to the width direction X. The cantilever tip portion 75B connects the end portions of the pair of cantilever beam-shaped portions 75b on the side opposite to the folded portion 75A side, that is, the end portions on the rear side in the axial direction Z. That is, the cantilever tip portion 75B is formed in a beam shape along the width direction X between the pair of cantilever beam-shaped portions 75b with respect to the width direction X, and the pair of cantilever beam-shaped portions 75b are connected. do. The second arm portion 75E is supported in a cantilever shape that can be elastically deformed by the folded portion 75A on the front side in the axial direction Z, and the cantilever tip portion 75B side on the rear side in the axial direction Z is a free end. As a result, the second arm portion 75E is elastically deformably supported along the height direction Y with respect to the first arm portion 75D. Further, in the second arm portion 75E, a guide hole portion 75c is formed in the cantilever tip portion 75B. The guide hole portion 75c is formed as a through hole that penetrates a part of the cantilever tip portion 75B along the width direction X. The guide hole portion 75c is a portion into which a part of the CPA member 8 described later is inserted to guide the movement of the CPA member 8 along the axial direction Z.

The female lock portion 76 is provided on the lock arm 75 and is a portion that can be locked to the male beak 53 of the male connector 2. The female lock portion 76 is formed at the front end portion of the lock arm 75 in the axial direction Z. The female lock portion 76 of the present embodiment is formed in a beam shape along the width direction X as described above, is provided at the folded portion 75A of the lock arm 75, and is supported between the pair of cantilever beam-shaped portions 75a. The female lock portion 76 gets over the male beak 53 and is locked to the male beak 53 in a state where the small diameter portion 71D of the housing main body 71 of the female housing 7 is fitted in the fitting space portion 52 of the male housing 5. In the following description, "a state in which the small diameter portion 71D of the housing body 71 of the female housing 7 is fitted to the fitting space 52 of the male housing 5" is simply referred to as "the male housing 5 is fitted into the female housing 7." It may be called "matched state".

As shown in FIGS. 1, 2, and 3, the CPA member 8 is a functional member for realizing a so-called CPA (Connector Position insurance: fitting guarantee function). That is, the CPA member 8 is a member for detecting that the male connector 2 and the female housing 7 are completely fitted. Here, the state in which the male connector 2 and the female housing 7 are completely fitted is a state in which the female housing 7 is fitted into the fitting space 52 of the male housing 5 at an appropriate fitting position, which is typical. Is a mated state in which the female lock portion 76 is locked to the male beak 53 to ensure an appropriate electrical connection between the female terminal 6 and the male terminal 4. The CPA member 8 is inserted into the holding space 74 of the female housing 7 along the axial direction Z and assembled to the lock arm 75. The CPA member 8 is assembled in the holding space 74 so as to be relatively movable along the axial direction Z with respect to the lock arm 75.

Specifically, the CPA member 8 includes an operation portion 81 and an arm portion 82, which are integrally molded with an insulating synthetic resin material or the like.

The operation unit 81 is a portion that constitutes the base end portion of the arm portion 82, and is typically a portion that is gripped and pressed by a finger or the like when the CPA member 8 is moved along the axial direction Z. The operation unit 81 includes a base portion 81a, a plate-shaped guide portion 81b, and the like. The base portion 81a is formed in a substantially rectangular columnar shape, and constitutes a base end portion of the arm portion 82 (see also FIG. 7 and the like). The base portion 81a is provided with a step or a convex portion at one end of the height direction Y so as to be easily gripped and pressed by a finger or the like. The plate-shaped guide portion 81b is formed in a substantially rectangular plate shape, and is a portion extending along the axial direction Z from the base portion 81a toward the front side in the axial direction Z. The plate-shaped guide portion 81b is formed in a substantially rectangular plate shape so that the height direction Y is the plate thickness direction, the width direction X, and the axial direction Z is the extending direction of each side.

The arm portion 82 is a portion extending along the axial direction Z from the base portion 81a of the operating portion 81 toward the front side in the axial direction Z. The arm portion 82 is formed as a flexible arm-shaped substantially rectangular plate piece. The arm portion 82 is formed so as to project from the base portion 81a along the axial direction Z. The arm portion 82 is formed so as to face the plate-shaped guide portion 81b along the height direction Y and to have a length along the axial direction Z longer than that of the plate-shaped guide portion 81b. In the arm portion 82, the rear end portion in the axial direction Z is supported by the base portion 81a of the operation portion 81 in an elastically deformable cantilever shape, and the front end portion in the axial direction Z is a free end. With this configuration, the arm portion 82 is elastically deformably supported with respect to the base portion 81a of the operating portion 81 while bending along the height direction Y. The arm portion 82 includes a CPA lock portion 82a as a fitting detection lock portion, a guide end portion 82b, a regulation protrusion 82c, and the like. The CPA lock portion 82a is formed in a claw shape so as to project from the front end portion of the arm portion 82 in the axial direction Z in the height direction Y to the side opposite to the plate-shaped guide portion 81b side. The CPA lock portion 82a is a portion that can be locked to the female lock portion 76 in a state where the CPA member 8 is assembled to the female housing 7 and is in a predetermined position (a position where the CPA member 8 is guaranteed to fit). The guide end portions 82b are formed so as to project from both end portions of the arm portion 82 along the axial direction Z along the width direction X. The guide end portions 82b are provided in pairs facing the width direction X, and each extends along the width direction X. The guide end 82b is supported by both ends of the guide hole 75c in a state where the arm 82 of the CPA member 8 is inserted into the guide hole 75c formed in the lock arm 75, and the CPA member 8 is axially Z. This is a portion guided along the axial direction Z when moving relative to each other. The regulation protrusion 82c is formed in a claw shape so as to project from the middle portion of the arm portion 82 in the axial direction Z toward the plate-shaped guide portion 81b along the height direction Y. The regulation protrusion 82c comes into contact with the cantilever tip 75B in a state where the CPA member 8 is inserted into the holding space 74 of the female housing 7 along the axial direction Z and assembled to the lock arm 75. This is a portion that regulates the CPA member 8 from falling off from the lock arm 75.

As shown in FIGS. 1, 2, 2, 3 and the like, the female connector 3 configured as described above is provided with respect to each terminal insertion chamber 71a from the rear side in the axial direction Z via the first opening 71c. The female terminal 6 is inserted. After that, the female connector 3 has the packing 10 and the front holder 9 mounted from the front side in the axial direction Z with respect to the small diameter portion 71D of the outer housing 71B, so that each female terminal 6 is in a regular position in each terminal insertion chamber 71a. Locked and held by. Then, the female connector 3 is assembled to the lock arm 75 by inserting the CPA member 8 into the holding space portion 74 from the rear side of the female housing 7 in the axial direction Z via the guide hole portion 75c. In this case, in the female connector 3, each guide end 82b of the CPA member 8 is supported by both ends of the guide hole 75c, and the relative movement of the CPA member 8 along the axial direction Z is guided. Then, in the CPA member 8, while the arm portion 82 is inserted into the guide hole portion 75c and the arm portion 82 or the cantilever tip portion 75B is bent, the regulation protrusion 82c is on the front side of the cantilever tip portion 75B in the axial direction Z. Pushed in until it is located at. As a result, the CPA member 8 is assembled to the lock arm 75 in the holding space portion 74. In this state, in the female connector 3, the arm portion 82 of the CPA member 8 is located between the pair of cantilever-shaped portions 75a in the width direction X.

Then, in the female connector 3 of the present embodiment, the CPA member 8 is in the axial direction Z as shown in FIGS. 7, 8, 9, 9 and the like in a state where the CPA member 8 is assembled to the female housing 7 as described above. It is possible to move relative to the initial position and the guaranteed mating position along. In other words, the holding space portion 74 can be said to be a space portion in which the CPA member 8 can be inserted and the CPA member 8 is movably held between the initial position and the guaranteed fitting position along the axial direction Z. Then, in the female connector 3, as described above, the guide end portions 82b of the CPA member 8 are supported by both ends of the guide hole portion 75c in the holding space portion 74, and the female connector 3 of the CPA member 8 is supported along the axial direction Z. Relative movement is guided.

Here, as shown in FIG. 7, the initial position of the CPA member 8 is a position located before the male housing 5 of the male connector 2 and the female housing 7 of the female connector 3 are completely fitted. The initial position of the CPA member 8 is typically a position where the CPA lock portion 82a is behind the female lock portion 76 in the axial direction Z. The CPA member 8 is basically located at this initial position in the state before the male housing 5 and the female housing 7 are completely fitted. In the female connector 3, when the CPA member 8 is in the initial position, the front end surface of the CPA lock portion 82a in the axial direction Z comes into contact with the rear end surface of the female lock portion 76 in the axial direction Z. With this configuration, the female connector 3 is in a state in which the CPA member 8 is restricted from moving relative to the female housing 7 on the front side in the axial direction Z, that is, on the fitting guarantee position side described later. That is, the CPA member 8 is in the initial position when the CPA lock portion 82a comes into contact with the female lock portion 76 in a state where the male beak 53 is not interposed between the female lock portion 76 and the CPA lock portion 82a in the axial direction Z. The relative movement from the to the guaranteed mating position is restricted. Here, the state in which the osbeek 53 is not interposed between the female lock portion 76 and the CPA lock portion 82a with respect to the axial direction Z, that is, the female lock portion 76 does not get over the osbeek 53 and is still related to the osbeek 53. Corresponds to the unstopped state. Further, in the female connector 3, when the CPA member 8 is in the initial position, the regulation protrusion 82c of the CPA member 8 comes into contact with the front end surface of the cantilever tip portion 75B in the axial direction Z. With this configuration, the female connector 3 is restricted from the CPA member 8 falling off from the lock arm 75 to the rear side in the axial direction Z.

Then, in the connector mechanism 1, the female connector 3 and the male connector 2 are fitted in a state where the CPA member 8 is assembled to the female housing 7 and the CPA member 8 is in the initial position. In this case, the connector mechanism 1 is in a positional relationship with the female connector 3 in such a positional relationship that the small diameter portion 71D is inserted into the fitting space portion 52 and the hood portion 51 is inserted into the space portion between the inner housing 71A and the outer housing 71B. The male connector 2 is fitted. Then, in the connector mechanism 1, the female connector 3 is pressed toward the male connector 2 side along the axial direction Z and moves relative to each other, so that the female lock portion 76 and the CPA lock portion 82a bend the lock arm 75 and the arm portion 82. Ride on the inclined surface 53a of the Osbeek 53. After that, as shown in FIG. 8, in the connector mechanism 1, the female lock portion 76 gets over the male beak 53 and is locked to the locking surface 53b of the male beak 53 as the female connector 3 and the male connector 2 move further relative to each other. NS. As a result, the connector mechanism 1 is in a state in which the male housing 5 and the female housing 7 are completely fitted. In this state, the connector mechanism 1 ensures an appropriate electrical connection between the female terminal 6 and the male terminal 4. Then, in the CPA member 8, the female lock portion 76 gets over the male beak 53 and is locked to the male beak 53, and the male beak 53 is interposed between the female lock portion 76 and the CPA lock portion 82a in the axial direction Z. The CPA lock portion 82a rides on the Osbeek 53 and can move from the initial position to the guaranteed fitting position. That is, the CPA member 8 can move from the initial position to the fitting guarantee position along the axial direction Z in the holding space portion 74 in a state where the female lock portion 76 is locked to the male beak 53 of the male connector 2. Then, the connector mechanism 1 is moved to the fitting guarantee position by pressing the CPA member 8 from the initial position to the front side in the axial direction Z in a state where the male housing 5 and the female housing 7 are completely fitted. NS.

Here, the fitting guaranteed position of the CPA member 8 is a position where the female housing 7 of the female connector 3 can be moved after being completely fitted to the male housing 5 of the male connector 2, as shown in FIG. This is the position where the CPA member 8 is pushed forward from the initial position in the axial direction Z. Furthermore, the fitting guarantee position of the CPA member 8 is a position that detects and guarantees that the male housing 5 and the female housing 7 are completely fitted. Here, the fitting guaranteed position of the CPA member 8 is typically related to the female lock portion 76 by the CPA lock portion 82a overcoming the male beak 53 and the female lock portion 76 locked to the male beak 53 in order. It is the position to be stopped. The CPA member 8 is basically moved to this fitting guarantee position in a state after the male housing 5 and the female housing 7 are completely fitted. When the CPA member 8 is in the guaranteed fitting position, the rear end surface of the CPA lock portion 82a in the axial direction Z comes into contact with the front end surface of the female lock portion 76 in the axial direction Z, so that the CPA member 8 is in contact with the female housing 7. In this state, relative movement to the rear side in the axial direction Z, that is, to the initial position side is restricted. Further, in the state where the CPA member 8 is in the guaranteed fitting position, the front end surface of the base portion 81a in the axial direction Z comes into contact with the rear end surface of the cantilever tip portion 75B in the axial direction Z, whereby the female housing 7 Further relative movement to the front side in the axial direction Z is restricted.

As described above, the CPA member 8 can move from the initial position to the guaranteed fitting position with the female lock portion 76 locked to the Osbeak 53. Then, as the CPA member 8 moves from the initial position to the fitting guarantee position, the CPA lock portion 82a gets over the male beak 53 and the female lock portion 76 locked to the male beak 53 in order to guarantee the fitting. It is locked to the female lock portion 76 at the position. In other words, the connector mechanism 1 cannot move the CPA member 8 from the initial position to the guaranteed fitting position unless the female housing 7 is completely fitted with the male housing 5, and the CPA lock portion 82a is the female lock portion 76. It is configured so that it is not locked to. Therefore, in other words, the connector mechanism 1 can guarantee that the male housing 5 and the female housing 7 are completely fitted by moving the CPA member 8 from the initial position to the fitting guarantee position. can. On the other hand, in the connector mechanism 1, the initial position of the CPA member 8 and the intermediate position from the initial position to the guaranteed fitting position of the CPA member 8 still guarantee that the male housing 5 and the female housing 7 are completely fitted. Corresponds to the unguaranteed mating position that has not been done.

In the female connector 3, the CPA member 8 is removed, and the cantilever tip 75B of the lock arm 75 is pressed toward the cantilever base end 75C side, so that the female lock portion 76 and the osbeek 53 are locked. It will be released. As a result, the female connector 3 can be separated from the male connector 2.

By the way, the female connector 3 of the present embodiment is used as the first usage mode in which the female housing 7 is provided with the CPA member 8 as described above, and the female connector 3 is used without the female housing 7 being provided with the CPA member 8. It may also be used in the second usage mode. The above-mentioned FIGS. 7, 8 and 9 show the first usage mode in which the CPA member 8 is provided on the female housing 7. On the other hand, FIG. 10 shows a second usage mode in which the female housing 7 is used without the CPA member 8. The female connector 3 can be used in both the first and second usage modes as described above to improve versatility.

The female connector 3 of the present embodiment has a configuration in which it is used in a plurality of usage modes as described above, and as shown in FIGS. 2, 3, 4, and 5, the second beam-shaped portion 73 Has a predetermined shape. With this configuration, even when the female connector 3 of the present embodiment is used in a plurality of usage modes as described above, the excessive displacement of the lock arm 75 can be appropriately suppressed in each usage mode. I am trying to do it.

Specifically, as described above, the second beam-shaped portion 73 comes into contact with the lock arm 75 on the cantilever tip portion 75B side, so that the cantilever base end portion along the height direction Y of the lock arm 75 The displacement to the side opposite to the 75C side is suppressed, and the excessive displacement of the lock arm 75 is suppressed. Here, the cantilever tip portion 75B side of the lock arm 75 is, for example, a portion near the cantilever tip portion 75B located on the cantilever tip portion 75B side of the central position in the axial direction Z of the lock arm 75. .. The second beam-shaped portion 73 of the present embodiment has a pair of regulating protrusions 73a and a notch 73b.

The pair of regulating protrusions 73a are provided at both ends of the second beam-shaped portion 73 in the width direction X, respectively. That is, the pair of regulation protrusions 73a are provided at both ends of the second beam-shaped portion 73 supported by the side wall portions 71F and 71G, respectively. In other words, the pair of regulating protrusions 73a is a portion to which one end of the second beam-shaped portion 73 and the side wall portion 71F are connected, and the other end portion and the side wall portion of the second beam-shaped portion 73. It is provided in each part where the 71G is connected. Each regulation protrusion 73a is formed on the surface of the second beam-shaped portion 73 on the holding space 74 side in the height direction Y. Each regulation protrusion 73a is formed so as to project toward the holding space 74 side, more specifically, the lock arm 75 along the height direction Y. The protruding tip surface 73c along the height direction Y of each regulation protrusion 73a can be brought into contact with the lock arm 75 on the cantilever tip 75B side. The protruding tip surface 73c of each regulation protrusion 73a is a contact surface with the lock arm 75, and is formed as a flat surface facing the cantilever tip 75B along the height direction Y. Here, the protruding tip surface 73c of each regulation protrusion 73a is formed as, for example, a flat surface substantially orthogonal to the height direction Y. Further, here, the protruding tip surface 73c of each regulation protrusion 73a has a clearance C (see FIG. 11, FIG. 12, etc. in addition to FIG. 4) along the height direction Y with the cantilever tip 75B. It is secured. The clearance C is preferably minimized to such an extent that the mold for molding the female housing 7 can be removed, for example.

The cutout portion 73b is provided in the second beam-shaped portion 73 so as to face the holding space portion 74 at a position between the pair of regulating protrusions 73a along the width direction X. That is, the notch portion 73b is formed on the surface of the second beam-shaped portion 73 on the holding space portion 74 side in the height direction Y. The cutout portion 73b is formed so as to penetrate a part of the second beam-shaped portion 73 along the axial direction Z. The cutout portion 73b is formed in a shape and size that allows a part of the CPA member 8, here, a plate-shaped guide portion 81b, to be inserted along the axial direction Z. Here, the notch portion 73b is formed as a substantially rectangular concave space portion extending along the width direction X.

As shown in FIGS. 9 and 11, when the female connector 3 configured as described above is used in the first usage mode, the female connector 3 is provided with a CPA member in the holding space portion 74 via the guide hole portion 75c described above. 8 is inserted and assembled to the lock arm 75. In this case, in the female connector 3, each guide end 82b of the CPA member 8 is supported by both ends of the guide hole 75c, and the plate-shaped guide portion 81b of the CPA member 8 is provided with respect to the notch 73b. It is in a state of being inserted along the axial direction Z. In this case, the female connector 3 is, for example, when a foreign object or the like comes into contact with the cantilever tip 75B side of the lock arm 75 and the lock arm 75 is displaced to the side opposite to the cantilever base end 75C side. The plate-shaped guide portion 81b or the like of the CPA member 8 comes into contact with the lock arm 75 and suppresses the displacement. As a result, the female connector 3 can suppress the excessive displacement of the lock arm 75.

In this case, in the female connector 3, in addition to the guide end portions 82b of the CPA member 8 being guided along the axial direction Z by both ends of the guide hole portions 75c, the plate-shaped guide portion 81b of the CPA member 8 is provided. Is also guided along the axial direction Z by the notch portion 73b. With this configuration, the female connector 3 can further stabilize the posture of the CPA member 8 when the CPA member 8 is relatively moved with respect to the female housing 7 along the axial direction Z.

On the other hand, as shown in FIGS. 10 and 12, when the female connector 3 is used in the second usage mode, the holding space portion 74 is not provided with the CPA member 8, and therefore the cutout portion is provided. The portion such as 73b remains maintained as a void. However, even in this case, in the female connector 3, when the lock arm 75 is displaced to the side opposite to the cantilever base end portion 75C side as described above, the protruding tip surface 73c of each regulation protruding portion 73a is formed. It comes into contact with the cantilever tip 75B side of the lock arm 75 and suppresses the displacement. Therefore, even in this case, the female connector 3 can suppress the displacement to about the clearance C by each regulation protrusion 73a, and can suppress it to be relatively small. As a result, the female connector 3 can suppress the excessive displacement of the lock arm 75.

The female connector 3 described above is, for example, in the first use mode in which the CPA member 8 is provided, the CPA member 8 provided in the holding space 74 abuts on the lock arm 75 to form a piece of the lock arm 75. Excessive displacement to the side opposite to the holding base end portion 75C side can be suppressed. In this case, the female connector 3 has a configuration in which a part of the CPA member 8 can insert the cutout portion 73b of the second beam-shaped portion 73, so that the CPA member 8 and the second beam-shaped portion 73 interfere with each other. Can be avoided. That is, in the first usage mode in which the female connector 3 is provided with the CPA member 8, the notch portion 73b functions as a CPA interference avoiding portion for avoiding interference with the CPA member 8.

On the other hand, in the second usage mode in which the female connector 3 is not provided with the CPA member 8, the cantilever base end portion of the lock arm 75 is provided by contacting each regulating protrusion 73a of the second beam-shaped portion 73 with the lock arm 75. Excessive displacement to the side opposite to the 75C side can be suppressed. That is, in the female connector 3, even if the holding space portion 74 and the cutout portion 73b are open as gaps, the protruding tip surface 73c of each regulation protrusion 73a protruding from both ends of the second beam-shaped portion 73 becomes the lock arm 75. It abuts on the cantilever tip 75B side. With this configuration, the female connector 3 can suppress the displacement of the lock arm 75 to be relatively small.

That is, the female connector 3 is provided with the CPA member 8 after having a configuration in which a part of the CPA member 8 can insert the cutout portion 73b of the second beam-shaped portion 73 when the CPA member 8 is provided. If not, the excessive displacement of the lock arm 75 can be suppressed by each of the regulating protrusions 73a of the second beam-shaped portion 73. As a result, even when the female connector 3 is used in a plurality of usage modes as described above, it is possible to suppress excessive displacement of the lock arm 75 in each usage mode.

On that basis, the female connector 3 has a second beam-shaped portion even if the thickness of the second beam-shaped portion 73 in the height direction Y is reduced by the amount of the cutout portion 73b formed in the second beam-shaped portion 73. Since each of the regulating protrusions 73a at both ends of the 73 functions as a reinforcing portion, the strength of the entire second beam-shaped portion 73 can be appropriately secured. That is, the female connector 3 has appropriate strength while suppressing the increase in size by being reinforced by each regulation protrusion 73a at both ends without increasing the thickness of the second beam-shaped portion 73 in the height direction Y as a whole. Can be secured. Further, in other words, the female connector 3 can also use each regulating protrusion 73a for suppressing excessive displacement of the lock arm 75 as a reinforcement for the second beam-shaped portion 73.

Summarizing the above, the female connector 3 is provided with a pair of regulating protrusions 73a and a notch 73b on the second beam-shaped portion 73, whereby (1) improvement of versatility by realizing a plurality of usage modes. (2) Suppression of excessive displacement of the lock arm 75 in each usage mode, (3) Suppression of upsizing, and (4) Ensuring appropriate strength can be realized in a well-balanced manner. As a result, the female connector 3 and the wire harness WH can appropriately suppress the excessive displacement of the lock arm 75 in various usage modes, for example. Then, the female connector 3 and the wire harness WH are suitable for the female connector 3 and the male connector 2 in various usage modes via the female lock portion 76 provided on the lock arm 75 in which excessive displacement is suppressed. Can be locked to.

Further, the female connector 3 described above is configured such that a part of the CPA member 8 provided in the holding space portion 74, here, the plate-shaped guide portion 81b can be inserted into the notch portion 73b along the axial direction Z. NS. With this configuration, the female connector 3 can stabilize the posture of the CPA member 8 when the CPA member 8 for guaranteeing fitting is relatively moved along the axial direction Z with respect to the female housing 7. As a result, the female connector 3 and the wire harness WH can improve the workability of inserting the CPA member 8 into the holding space 74 of the female housing 7.

Here, the female connector 3 described above is formed by the lock arm 75 extending along the axial direction Z and being folded back at the folded-back portion 75A, and the female lock portion 76 is provided at the folded-back portion 75A. In such a configuration, the female connector 3 can appropriately suppress the excessive displacement of the lock arm 75 as described above, and properly connects the female connector 3 and the male connector 2 via the female lock portion 76. Can be locked.

The connector and wire harness according to the above-described embodiment of the present invention are not limited to the above-described embodiment, and various modifications can be made within the scope of the claims.

In the above description, it is assumed that the connector is a female connector 3, the terminal is a female terminal 6, the housing is a female housing 7, the mating connector is a male connector 2, the mating terminal is a male terminal 4, and the mating housing is a male housing 5. However, the present invention is not limited to this, and vice versa, the connector may be a male connector, the terminal may be a male terminal, the housing may be a male housing, the other connector may be a female connector, the other terminal may be a female terminal, and the other housing may be a female housing.

The cutout portion 73b described above may have a shape corresponding to the shape of the portion of the CPA member 8 to be inserted along the axial direction Z, and for example, a pair of regulating protrusions according to the shape of the CPA member. Another protrusion may be provided between 73a.

The lock arm 75 described above has been described as being formed by extending along the axial direction Z and being folded back at the folded-back portion 75A, but the present invention is not limited to this, and even if the lock arm 75 does not have the folded-back portion 75A. good.

2 Male connector (other party connector)
3 Female connector (connector)
6 Female terminal (terminal)
8 CPA member (fitting detection member)
71 Housing body 73 Second beam-shaped part (beam-shaped regulating part)
73a Regulatory protrusion 73b Notch 73c Protruding tip surface 74 Holding space (space)
75 Lock arm 75A Folded part 75B Cantilever tip 75C Cantilever base end 76 Female lock part (lock part)
W1 1st wiring material W2 2nd wiring material WH Wire harness X Width direction (1st direction)
Y height direction (second direction)
Z-axis direction (third direction)

Claims (3)

A housing body that is provided with a terminal to be connected to the other party connector and can be fitted to the other party connector,
It is formed so as to extend along the first direction, is located at a distance from the housing body along a second direction intersecting the first direction, and both ends of the first direction are supported by the housing body. Beam-shaped regulation section and
A space portion formed between the housing body and the beam-shaped restricting portion along the second direction, and a space portion.
It extends along a third direction that intersects the first direction and the second direction, is located in the space, and is supported by the housing body in an elastically deformable cantilever along the second direction. At the same time, the lock arm whose displacement to the side opposite to the cantilever base end side along the second direction is restricted by abutting with the beam-shaped restricting portion on the cantilever tip side.
A lock portion provided on the lock arm and capable of being locked to the mating connector ,
Initially along the third direction in the space, with the lock being inserted into the space along the third direction and assembled to the lock arm and locked to the mating connector. Equipped with a fitting detection member that can move from the position to the fitting guarantee position,
The beam-shaped restricting portions are provided at both ends of the first direction, and are formed so as to project toward the lock arm side along the second direction, and the protruding tip surfaces are the lock arm and the cantilever. a pair of regulating protrusions at the tip end can be abutting, and have a cutout portion provided in a position facing the space between the first along the direction the pair of regulating protrusions ,
The cutout portion is characterized in that a part of the fitting detection member is inserted along the third direction.
connector. The lock arm extends along the third direction and is formed by being folded back at a folded portion.
The lock portion is provided at the folded portion of the lock arm.
The connector according to claim 1. Conductive first wiring material and
A connector to be connected to the first wiring material is provided.
The connector is
A housing body that is provided with a terminal to be connected to the mating connector connected to the conductive second wiring material and can be fitted to the mating connector.
It is formed so as to extend along the first direction, is located at a distance from the housing body along a second direction intersecting the first direction, and both ends of the first direction are supported by the housing body. Beam-shaped regulation section and
A space portion formed between the housing body and the beam-shaped restricting portion along the second direction, and a space portion.
It extends along a third direction that intersects the first direction and the second direction, is located in the space, and is supported by the housing body in an elastically deformable cantilever along the second direction. At the same time, the lock arm whose displacement to the side opposite to the cantilever base end side along the second direction is restricted by abutting with the beam-shaped restricting portion on the cantilever tip side.
A lock portion provided on the lock arm and capable of being locked to the mating connector ,
Initially along the third direction in the space, with the lock being inserted into the space along the third direction and assembled to the lock arm and locked to the mating connector. Equipped with a fitting detection member that can move from the position to the fitting guarantee position,
The beam-shaped restricting portions are provided at both ends of the first direction, and are formed so as to project toward the lock arm side along the second direction, and the protruding tip surfaces are the lock arm and the cantilever. a pair of regulating protrusions at the tip end can be abutting, and have a cutout portion provided in a position facing the space between the first along the direction the pair of regulating protrusions ,
The cutout portion is characterized in that a part of the fitting detection member is inserted along the third direction.
Wire harness.

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