JP2022172491A - connector - Google Patents

Abstract

To provide a connector capable of improving the insertion stability of a front holder when a holder is inserted.SOLUTION: A locking structure LS includes a first locking protrusion 73 with a first protrusion part 73b and a second locking protrusion 74 with a second protrusion part 74b, which are provided in a front holder 7, and a locking arm 55 that is provided in a female housing 5, the locking arm formed to extend in a fitting direction. The locking arm 55 includes an arm body part 55a, a first locking part 55b and a second locking part 55c. A part of the arm body part 55a is located between the first protrusion part 73b and the second protrusion part 74b in the case of a temporary locking position, so that moving in a second direction is restricted. The locking arm 55 is elastically deformed at least in a first direction when the first locking part 55b and the second locking part 55c make contact with the locking protrusions 73, 74, respectively in the insertion of the holder, so that the locking parts get over the locking protrusions 73, 74, respectively, in an insertion direction, and the front holder 7 is located at a final locking position.SELECTED DRAWING: Figure 4

Description

The present invention relates to connectors.

2. Description of the Related Art Some conventional connectors applied to wire harnesses and the like have a front holder that restricts movement of terminals housed in a connector housing. The front holder is fixed to the connector housing by being locked to the connector housing by the locking structure.

As a locking structure for locking the front holder to the connector housing, as shown in Patent Document 1, a pair of locking arms provided on the connector housing and a locking projection inserted between the pair of locking arms are provided. There are some that have Each of the pair of locking arms has a permanent locking portion and a temporary locking portion formed on the side facing the locking protrusion in the width direction. A locking projection is inserted between a pair of locking arms, and when the locking projection comes into contact with the final locking portion or the temporary locking portion, the locking projection pushes each locking arm to the side opposite to the locking projection side. The locking arm is deformed by being bent. As a result, the locking structure enters the temporary locking state when the temporary locking portion climbs over the locking projection in the direction of insertion of the front holder into the connector housing, and furthermore, the permanent locking portion climbs over the locking projection to achieve the permanent locking state. It will be in a locked state.

Patent No. 6754389

By the way, when inserting the front holder into the connector housing, an operator presses the front holder in the insertion direction and inserts it into the fixed connector housing. At this time, since there is a gap between the connector housing and the front holder for inserting the front holder into the connector housing, the front holder may rattle when the holder is inserted. Further, the pressing direction, which is the direction of pressing applied to the front holder by the operator, may differ from the insertion direction. In these cases, the front holder is inserted into the connector housing in a direction different from the insertion direction, so that when the pair of locking arms get over the locking projections, one locking arm and the locking projection do not move. and the contact between the other locking arm and the locking projection are uneven. Therefore, the reaction force (resistance to the pressing force of the operator) acting when one of the locking arms contacts the locking projection and the reaction force acting when the other locking arm contacts the locking projection. As a result, the timing at which one locking arm climbs over the locking projection differs from the timing at which the other locking arm climbs over the locking projection. I had a problem that I couldn't figure it out.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a connector capable of improving the insertion stability of a front holder when the holder is inserted.

In order to solve the above-described problems and achieve the object, a connector according to the present invention comprises a connector housing for accommodating terminals to be connected in a mating direction with mating terminals accommodated in the mating connector housing; and a front holder for restricting movement of the terminal in a disengagement direction out of fitting directions; and a locking structure for locking the front holder with respect to the connector housing, wherein The locking structure includes a first locking projection and a second locking projection provided on one of the connector housing and the front holder and projecting in a first direction orthogonal to the fitting direction, and the connector housing. and one locking arm provided on the other side of the front holder and extending in the fitting direction, wherein the first locking projection, when viewed from the fitting direction and a first protrusion at least partially overlapping with the locking arm, and the second locking protrusion at least partially overlaps with the locking arm when viewed from the mating direction, and is mated with the mating arm. and a second projection formed to face the first projection in a second direction orthogonal to the first direction, wherein the locking arm is positioned between the arm main body and the fitting direction when viewed from the fitting direction. a first locking portion projecting from the arm main body in one of the second directions and at least partially overlapping with the first protrusion; a second locking portion that protrudes in the other of the second directions, overlaps at least a portion of the second projection, and is formed to face the first locking portion in the second direction; , the front holder is positioned at a temporary locking position with respect to the connector housing and in the insertion direction of the fitting direction relative to the temporary locking position when the front holder is inserted into the connector housing. The arm main body is positioned at any of the final locking positions, and the arm main body is partially positioned between the first projection and the second projection in the case of the temporary locking position. , movement in the second direction is restricted, and the locking arm is at least By elastically deforming in the first direction, the locking projection is overcome in the insertion direction, and the front holder is positioned at the final locking position.

ADVANTAGE OF THE INVENTION According to this invention, it is effective in the ability to improve the insertion stability of a front holder at the time of holder insertion.

FIG. 1 is a perspective view showing a CPA connector having a connector (female connector) according to Embodiment 1. FIG. FIG. 2 is an exploded perspective view showing the connector in Embodiment 1. FIG. FIG. 3 is a perspective view showing a male connector. 4 is a partial cross-sectional plan view (finally locked state) of the connector according to the first embodiment. FIG. FIG. 5 is a cross-sectional view (final locking state) of the connector according to the first embodiment. 6 is a partial cross-sectional plan view (before assembly) of the connector according to the first embodiment. FIG. FIG. 7 is a cross-sectional view of the connector according to Embodiment 1 (in a state in which the temporary locking portion has been overcome). 8 is a partial cross-sectional plan view (temporarily locked state) of the connector according to Embodiment 1. FIG. FIG. 9 is a cross-sectional view of the connector according to Embodiment 1 (in a state where the final locking portion has been overcome). 10 is a partial cross-sectional plan view (final locking state) of the connector according to the second embodiment. FIG. FIG. 11 is a cross-sectional view (final locking state) of the connector according to the second embodiment. FIG. 12 is a partial cross-sectional plan view (before assembly) of the connector according to the second embodiment. FIG. 13 is a cross-sectional view of the connector according to the second embodiment (in a state where the temporary locking portion has been overcome). 14 is a partial cross-sectional plan view (temporarily locked state) of the connector according to the second embodiment. FIG. FIG. 15 is a cross-sectional view of the connector according to the second embodiment (state in which the main locking portion has been passed over).

EMBODIMENT OF THE INVENTION Below, embodiment which concerns on this invention is described in detail based on drawing. In addition, this invention is not limited by this embodiment. In addition, components in the following embodiments include components that can be easily replaced by those skilled in the art, or components that are substantially the same.

[Embodiment 1]
FIG. 1 is a perspective view showing a CPA connector having a connector (female connector) according to Embodiment 1. FIG. FIG. 2 is an exploded perspective view showing a connector (female connector) according to Embodiment 1. FIG. FIG. 3 is a perspective view showing a male connector. 4 is a partial cross-sectional plan view (finally locked state) of the connector according to the first embodiment. FIG. FIG. 5 is a cross-sectional view (final locking state) of the connector according to the first embodiment. In addition, FIG. 1 shows a state in which each element constituting a male connector and a female connector are combined, and FIG. 2 shows a state in which each element constituting a female connector is disassembled. 4 (including FIGS. 6, 8, 10, 12, and 14) shows the female housing in a partially sectioned state, which is a sectional view taken along line AA in FIG. 5 (including FIGS. 7, 9, 11, 13, and 15) is a cross-sectional view taken along line BB of FIG. 1, with the CPA member 8 removed.

The X direction in FIGS. 1 to 5 (including FIGS. 6 to 15) is the fitting direction of the CPA connector 1 in this embodiment, and is the longitudinal direction of the male connector MC and the female connector FC. The Y direction is the second direction, is orthogonal to the fitting direction, and is the width direction of the connector 1 in this embodiment. The Z direction is the first direction, is orthogonal to the fitting direction and the second direction, and is the vertical direction of the CPA connector 1 in this embodiment. The X1 direction is the insertion direction and the X2 direction is the withdrawal direction. The Y1 direction is to the left and the Y2 direction is to the right. The Z1 direction is upward and the Z2 direction is downward. Unless otherwise specified, each direction used in the following description represents the direction when each part is assembled with each other.

The CPA connector 1 of this embodiment is applied to, for example, wire harnesses WH used in automobiles and the like. Here, as shown in FIG. 1, the CPA connector 1 is a connection mechanism for wire-to-wire connection for connecting wires W1 and W2 constituting the wire harness WH, and is used in an airbag circuit, for example. Here, the electric wires W1 and W2 include, for example, a conductor portion (core wire) in which a plurality of conductive metal wires are twisted together, and an insulating covering portion that covers the outside of the conductor portion. The CPA connector 1 includes a male connector MC and a female connector FC, and the male connector MC and the female connector FC are mated and connected to each other, so that they are connected as shown in FIGS. The provided male terminal 3 and female terminal 6 are electrically connected to form an electrical connection portion therebetween. The wires W1 and W2 are connected to the male terminal 3 and the female terminal 6, respectively. It intervenes between each room and secures waterproofness.

The male connector MC is, as shown in FIGS. 1 and 3, a male connector that is connected to the end of the electric wire W1 that constitutes the wire harness WH. The male connector MC in this embodiment is a mating connector. A male connector MC includes a male housing 2 , a male terminal 3 and a front holder 4 .

The male housing 2 is a mating connector housing, a male connector housing, and is made of an insulating synthetic resin material or the like. The male housing 2 accommodates the male terminal 3 and has a body portion 21 , a male side rib 22 , a male beak 23 , and a beak restricting portion 24 .

The main body portion 21 is formed in a substantially elongated cylindrical shape with the detachment direction side closed along the fitting direction, and a fitting space portion 2a is formed therein. The fitting space 2a communicates with the outside through an opening formed at the end of the body 21 in the insertion direction, and is a space into which the female housing 5 of the female connector FC is fitted. The body portion 21 holds the male terminal 3 through the front holder 4 so that the tip portion (insertion direction side end portion) of the male terminal 3 is exposed in the fitting space portion 2a.

The male side rib 22 is formed so as to protrude from the outer peripheral surface of the body portion 21 and extend in the fitting direction. A pair of male-side ribs 22 in the present embodiment are formed at positions facing each other in the width direction on the outer peripheral surface of the body portion 21, and when the male connector MC and the female connector FC are mated, a pair of male-side ribs 22, which will be described later, is formed on the female housing 5. , and support the female housing 5 with respect to the male housing 2 .

The male beak 23 is formed so as to protrude from the outer peripheral surface of the body portion 21 . The male beak 23 in the present embodiment is formed on the upper surface of the outer peripheral surface of the main body 21, substantially at the center in the width direction and near the end on the insertion direction side in the fitting direction. When viewed from the width direction, the male beak 23 is formed into an inclined surface protruding in the insertion direction as the surface facing the insertion direction faces downward in the fitting direction across the top of the head. The surface on the side of the detachment direction is formed as a locking surface parallel (including substantially parallel) to the vertical direction. The male beak 23 engages a female beak 53 of the female housing 5, which will be described later, and restricts the movement of the female beak 53 in the inserted state in the engaged state.

The peak restricting portion 24 is formed so as to protrude from the outer peripheral surface of the body portion 21 . The beak restricting portion 24 in the present embodiment faces the male beak 23 in the substantially central portion in the width direction and in the fitting direction on the upward side surface of the outer peripheral surface of the body portion 21, and is separated from the male beak 23. It is formed on the direction side. When viewed from the width direction, the peak restricting portion 24 has a surface facing the fitting direction across the top of the head, and the surface on the insertion direction side is a locking surface parallel (including substantially parallel) to the vertical direction. It is formed into an inclined surface protruding in the detachment direction as the detachment direction side faces downward. The beak regulating portion 24 locks the female beak 53 and regulates movement of the female beak 53 in the locked state in the detachment direction.

The male terminal 3 is a mating terminal and is electrically connected to the female terminal 6 by being inserted into the female terminal 6 . The male terminal 3 is a male-type terminal fitting for a connector, is connected to the end of the electric wire W1, and is entirely made of a conductive metal. The male terminal 3 extends along the fitting direction while being held by the male housing 2 . The male terminal 3 is opposed to the front holder 4 in the fitting direction, and has a distal end projecting from the front holder 4 into the fitting space 2a, and an end on the opposite side (the end in the detachment direction) to which the electric wire W1 is connected. be. Here, the terminal insertion chamber is formed extending in the fitting direction, the insertion direction side end communicates with the fitting space portion 2a, and the opening formed in the separation direction side end of the main body portion 21 allows the terminal insertion chamber to be connected to the outside. communicate with. The male terminal 3 is inserted into the terminal insertion chamber along the fitting direction through an opening communicating with the terminal insertion chamber formed at the end of the main body 21 in the detachment direction, and locked by a lance (not shown). It is held by the male housing 2 in a state where the front end is exposed in the fitting space 2a through the front holder 4. As shown in FIG.

The front holder 4 is attached to the insertion direction side of the male housing 2 . The front holder 4 is held by the male housing 2 by being inserted into the fitting space 2a of the male housing 2 and being locked to the male housing 2 by a locking structure (not shown). The front holder 4 has openings corresponding to the male terminals 3 facing each other in the fitting direction at the end on the insertion direction side. protrude to

The female connector FC is a connector, and as shown in FIGS. 1, 2, 4 and 5, is a female connector that is connected to the ends of the wires W2 that form the wire harness WH. The female connector FC includes a female housing 5 , female terminals 6 , a front holder 7 , a CPA member 8 and a waterproof packing 9 .

The female housing 5 is a connector housing on the female side, and is made of an insulating synthetic resin material or the like. The female housing 5 accommodates the female terminals 6 to which the male terminals 3 are connected. The female housing 5 has a body portion 51 , a lock arm portion 52 , a female beak 53 , a lance 54 , a first locking arm 55 , a second locking arm 56 and a support groove portion 56 .

The main body portion 51 is formed in a substantially elongated cylindrical shape with the insertion direction side closed along the fitting direction. It is a portion that is fitted with the male housing 2 by inserting the portion. The body portion 51 has a fitting space portion 5a and a CPA member moving space portion 5b formed therein. The body portion 51 has a first body portion 511 , a second body portion 512 and a third body portion 513 .

The first body portion 511 is formed in a rectangular shape when viewed from the fitting direction, and extends along the fitting direction. The first body portion 511 holds the female terminal 6 via the front holder 7 . A terminal insertion chamber corresponding to the female terminal 6 is formed in the first body portion 511 . The terminal insertion chamber extends in the fitting direction and communicates with the outside through openings formed at both ends of the first body portion 511 in the fitting direction, and the female terminal 6 is inserted along the fitting direction. It is a space where the power is held. A plurality of terminal insertion chambers in this embodiment are formed in the width direction inside the first main body portion 511 according to the number of the plurality of female terminals 6 provided in the female housing 5 .

The second body portion 512 is formed in a substantially elongated cylindrical shape whose insertion direction side is closed along the fitting direction, and the fitting space portion 5a is formed therein. The fitting space portion 5a is a space portion that communicates with the outside through an opening formed at the end of the second main body portion 512 in the detachment direction, and into which the male housing 2 of the male connector MC is fitted.

The third main body portion 513 is formed in a rectangular shape with openings formed downward along the fitting direction, and communicates with the outside through the openings formed at both end portions in the fitting direction. It is formed in communication with the outside through an opening formed on the upward side of the side end. The third body portion 513 has a CPA member moving space portion 5b formed therein. The CPA member moving space portion 5b is a space portion into which the CPA member 8 is inserted and supports the CPA member 8 so as to be movable in the fitting direction.

The lock arm portion 52 supports the female beak 53 in a state separated from the body portion 51 in the vertical direction. The lock arm portion 52 has a first arm portion 521 and a second arm portion 522 . The first arm portion 521 is formed in a U shape that is open on the insertion direction side when viewed in the vertical direction. The first arm portion 521 is connected to the first body portion 511 at both ends in the insertion direction, and supports the lock arm portion 52 to be elastically deformable with respect to the body portion 51 . The first arm portion 521 has a female beak 53 formed in the center portion in the width direction of the end portion on the detachment direction side. Therefore, the first arm portion 521 elastically deforms in the vertical direction, thereby supporting the female beak 53 so as to be vertically movable with respect to the first main body portion 511 . The second arm portion 522 is formed in a U shape that is open on the detachment direction side when viewed from above and below. Both ends (two ends in the width direction) of the second arm portion 522 in the detachment direction are connected to both end portions of the first arm portion 521 in the detachment direction. At both ends of the second arm portion 522 in the width direction, guide rail portions are formed so as to protrude outward. When the CPA member 8 is inserted into the female housing 5 , the pair of guide rail portions in this embodiment are held by the claw portions 83 of the CPA member 8 , which will be described later, so that the CPA member 8 and the claw portions 83 By being interposed between and, the movement of the CPA member 8 in the fitting direction with respect to the female housing 5 is supported while restricting the upward movement of the CPA member 8 with respect to the female housing 5 .

The female beak 53 forms part of a locking structure for locking the female housing 5 to the male housing 2 . In the fitted state, the female beak 53 can climb over the male beak 23 and enter between the male beak 23 and the beak restricting portion 24 to lock the male beak 23 in the fitting direction. The female beak 53 in this embodiment is formed so as to protrude downward from the end portion of the lock arm portion 52 on the detachment direction side. When viewed from the width direction, the female beak 53 has a locking surface parallel (including substantially parallel) to the vertical direction on the insertion direction side of the surfaces facing each other in the fitting direction across the top of the head. , the surface on the removal direction side is formed as an inclined surface that is recessed toward the insertion direction side as it goes downward.

The lance 54 forms part of a locking structure for locking the female terminal 6 to the female housing 5 . The lance 54 in this embodiment opposes the female terminal 6 in the fitting direction, thereby restricting the movement of the female terminal 6 in the terminal insertion chamber in the insertion direction and locking the female terminal 6 in the terminal insertion chamber. . A lance 54 is formed in each terminal insertion chamber. The lance 54 is formed in the first body portion 511 so as to protrude downward in the detachment direction from the detachment direction side end of the upward inner wall surface forming the terminal insertion chamber. It is supported so as to be elastically deformable.

The locking arm 55 constitutes a part of the locking structure LS that locks the front holder 7 to the female housing 5, and is between the first locking projection 73 and the second locking projection 74. to be inserted. The locking structure LS in this embodiment is composed of one locking arm 55 and locking protrusions 73 and 74 . The locking arm 55 in this embodiment is provided on the female housing 5, which is the other of the female housing 5 and the front holder 7, and is formed to extend in the fitting direction. The locking arm 55 is formed so as to protrude from the body portion 51 in the detachment direction. The locking arm 55 is formed so as to protrude in the detachment direction from a recess formed in the center portion on the upward side of the detachment direction side end of the first body portion 511 , and is elastically deformed with respect to the body portion 51 . supported as possible. That is, the locking arm 55 is more flexible than the main body portion 51, and can be elastically deformed and elastically restored in the vertical direction and the width direction. Therefore, the locking arm 55 can be elastically deformed in the vertical direction with respect to the female housing 5 . The locking arm 55 has an arm body portion 55a, a first locking portion 55b, a second locking portion 55c, a third locking portion 55d, and a fourth locking portion 55e.

The arm body portion 55a is elastically deformable and elastically restored, and is formed extending in the mating direction. The arm main body portion 55a functions as a fixed end by being connected to the main body portion 51 at the end on the insertion direction side, and functions as a free end by being unconnected at the end on the withdrawal direction side. The arm body portion 55a in this embodiment has a rectangular cross section in the direction orthogonal to the fitting direction.

The first locking portion 55b is a final locking portion, and is formed on the left side of both side surfaces in the width direction in the middle of the arm body portion 55a in the mating direction. The first locking portion 55a is formed so as to protrude leftward from the arm body portion 55a when viewed from the mating direction, and the locking arm 55a is formed between the first locking projection 73 and the second locking projection 74. is inserted, when viewed from the mating direction, the first locking projection 73 is formed so that at least a portion thereof overlaps with a first projection portion 73b, which will be described later. When the front holder 7 is inserted into the connector housing 5, the front holder 7 is inserted into the connector housing 5 by contacting the first protrusion 73b on the surface of the first engaging portion 55b on the side of the separation direction when viewed in the width direction. It is formed so as to be inclined toward the insertion direction as it goes downward from the surface on the upward side of the first engaging portion 55b. When the front holder 7 is inserted into the connector housing 5 and the front holder 7 is removed from the connector housing 5, the first projection 73b comes into contact with the surface of the first engaging portion 55b that faces the insertion direction when viewed in the width direction. It is formed so as to be slanted in the detachment direction as it goes downward from the surface on the upward side of the first engaging portion 55b.

The second locking portion 55c is a final locking portion, and is located in the middle of the arm main body portion 55a in the mating direction, facing the first locking portion 55b in the width direction. formed on the surface. The second locking portion 55c is formed so as to protrude rightward from the arm body portion 55a when viewed from the mating direction, and the locking arm 55c is formed between the first locking projection 73 and the second locking projection 74. is inserted, when viewed from the mating direction, the second locking projection 74 is formed so that at least a portion thereof overlaps with a second projection portion 73b, which will be described later. The surface of the second locking portion 55c on the side of the detachment direction when viewed in the width direction comes into contact with the second projecting portion 74b when the holder is inserted. It is formed so as to be inclined toward the insertion direction as it goes downward from the surface of . The surface of the second locking portion 55c on the side of the insertion direction when viewed in the width direction comes into contact with the second projecting portion 74b when the holder is detached. It is formed so as to be inclined toward the detachment direction as it goes downward from the surface of the .

The third locking portion 55d is a temporary locking portion, and is formed on the left side of both side surfaces in the width direction at the end of the arm body portion 55a on the detachment direction side. The third locking portion 55d is formed so as to protrude leftward from the arm main body portion 55a when viewed from the mating direction, and is formed between the first locking projection 73 and the second locking projection 74. is inserted, it is formed so that at least a part thereof overlaps with the first projecting portion 73b when viewed from the mating direction. A surface of the third locking portion 55d on the withdrawal direction side when viewed in the width direction comes into contact with the first protrusion 73b when the holder is inserted. The surface on the side of the separation direction when viewed from the direction and the surface on the side of the separation direction when viewed from the width direction of the arm body portion 55a form one tip surface. The tip surface is formed to be inclined toward the insertion direction as it goes downward from the surface on the upward side of the third engaging portion 55d. The surface of the third locking portion 55d on the side of the insertion direction when viewed in the width direction comes into contact with the first projecting portion 73b when the holder is detached. It is formed so as to be inclined toward the detachment direction as it goes downward from the surface of the .

The fourth locking portion 55e is a temporary locking portion, and faces the third locking portion 55d in the width direction at the end of the arm body portion 55a in the detachment direction. It is formed on the right side. The fourth locking portion 55e is formed so as to protrude rightward from the arm body portion 55a when viewed from the fitting direction, and is formed between the first locking projection 73 and the second locking projection 74. is inserted, it is formed so that at least a part thereof overlaps with the second protrusion 74b when viewed from the mating direction. That is, the third locking portion 55d and the fourth locking portion 55e are formed apart from the first locking portion 55b and the second locking portion 55c in the separating direction. Accordingly, an arm-side first space S1 is formed between the first locking portion 55b and the third locking portion 55d, and an arm-side first space S1 is formed between the second locking portion 55c and the fourth locking portion 55e. A two-space portion S2 is formed. The surface of the fourth engaging portion 55e on the withdrawal direction side when viewed in the width direction comes into contact with the second projecting portion 74b when the holder is inserted, and constitutes a part of the tip surface. The surface of the fourth locking portion 55e on the side of the insertion direction when viewed in the width direction comes into contact with the second projecting portion 74b when the holder is detached. It is formed so as to be inclined toward the detachment direction as it goes downward from the surface of the . The locking arm 55 is formed in a T shape by an arm main body portion 55a, a first locking portion 55b and a second locking portion 55c when viewed from above and below. The locking portion 55b, the second locking portion 55c, the third locking portion 55d, and the fourth locking portion 55e form an H shape.

The support groove portions 56 are formed along the extending direction in the fitting space portion 5a, and are formed in plurality corresponding to the pair of male side ribs 22, respectively.

The female terminals 6 are electrically connected to the male terminals 3 by inserting the male terminals 3 , and are arranged in plurality in the width direction inside the female housing 5 . The female terminal 6 is a female terminal fitting for a connector, is connected to the end of the electric wire W2, and is entirely made of conductive metal. The female terminal 6 extends along the fitting direction while being held by the female housing 5 . The tip of the female terminal 6 faces the front holder 7 in the fitting direction, and the wire W2 is connected to the end on the side opposite to the tip (the end in the insertion direction). The female terminal 6 is inserted into the terminal insertion chamber along the fitting direction through an opening formed at the end of the first main body portion 511 in the insertion direction, and is locked by the lance 54 to form a female housing. It is held at 5. An insertion space is formed in the female terminal 6 . The insertion space is formed extending in the fitting direction and communicates with the outside through an opening formed on the detachment side of the female terminal 6, and the tip of the male terminal 3 is inserted along the fitting direction. , is the space to be held. The female terminal 6 is formed so that the upward wall portion of the wall portions forming the insertion space portion faces the lance 54 when viewed in the extending direction. Of these, the end portion on the insertion direction side and the end portion on the withdrawal direction side of the lance 54 are brought into contact with each other to be locked by the lance 54 .

A part of the female housing 5 is inserted into the front holder 7, and the female terminal 6 is restricted from moving in the detachment direction. The front holder 7 is attached to the end of the first main body portion 511 in the detachment direction, and covers the detachment direction side of the first body portion 511 . The front holder 7 has a body portion 71 , recesses 72 , first locking projections 73 , and second locking projections 74 .

The main body portion 71 is formed in a substantially rectangular tubular shape with a detachment direction side end portion closed along the fitting direction, and an insertion space into which the detachment direction side end portion of the first body portion 511 is inserted. A portion 7a is formed. The body portion 71 is held by inserting the female housing 5 into the insertion space portion 7a and locking the female housing 5 by the locking structure LS. The main body portion 71 has openings formed at the end on the detachment direction side corresponding to the respective female terminals 6 facing each other in the fitting direction.

The recess 72 is formed by recessing a portion of the body portion 71 inward. That is, the front holder 7 is formed by recessing a portion of the outer peripheral surface 7b toward the insertion space portion 7a. The concave portion 72 communicates with the outside at both end portions in the fitting direction.

The first locking projection 73 forms part of the locking structure LS that locks the front holder 7 to the female housing 5 . The first locking projection 73 in this embodiment is provided on the front holder 7, which is one of the female housing 5 and the front holder 7, and protrudes in the vertical direction orthogonal to the fitting direction. The first locking projection 73 is formed so as to protrude upward in the recessed portion 72 of the outer peripheral surface 7b. The first locking projection 73 has a projection body portion 73a and a first projection portion 73b.

The projection main body portion 73a is formed to extend in the fitting direction, and is formed on the left side of the recessed portion 72 when viewed in the vertical direction. The projection body portion 73a in the present embodiment is not formed independently within the recess 72 when viewed from the top and bottom direction, but is formed integrally with the portion of the body portion 71 on the left side of the recess 72. It is

The first protrusion 73b protrudes toward the second protrusion 74b in the width direction. The first protrusion 73b in this embodiment is formed to protrude rightward from the end of the protrusion main body 73a in the insertion direction, and is locked between the first locking projection 73 and the second locking projection 74. When the arm 55 is inserted, it is formed so that at least a part thereof overlaps with the first engaging portion 55b and the third engaging portion 55c when viewed from the mating direction. The right side surface of the first protrusion 73b when viewed from the mating direction is in contact with the arm main body 55a in a temporary locking state and a final locking state, which will be described later. It is formed in a straight line downward from the upward side surface of the portion 73b.

The second locking projection 74 constitutes a part of the locking structure LS that locks the front holder 7 to the female housing 5 . The second locking projection 74 in this embodiment is provided on the front holder 7, which is one of the female housing 5 and the front holder 7, and protrudes in the vertical direction orthogonal to the fitting direction. The second locking projection 74 is formed to protrude upward in the recess 72 of the outer peripheral surface 7b. The second locking projection 74 has a projection body portion 74a and a second projection portion 74b.

The projection main body portion 74a is formed to extend in the fitting direction, and is formed on the right side of the recessed portion 72 when viewed in the vertical direction. The projection body portion 74a in this embodiment is not formed independently within the recess 72 when viewed from the top and bottom direction, but is formed integrally with the portion of the body portion 71 on the right side of the recess 72. It is

The second protrusion 74b protrudes toward the first protrusion 73b in the width direction. The second protrusion 74b in this embodiment is formed to protrude leftward from the end of the protrusion main body 74a in the insertion direction, and is locked between the first locking projection 73 and the second locking projection 74. When the arm 55 is inserted, it is formed so that at least a part thereof overlaps with the third engaging portion 55c and the fourth engaging portion 55e when viewed from the mating direction. The left surface of the second projection 74b when viewed from the mating direction is in contact with the arm main body 55a in the temporary locking state and the final locking state. is formed in a straight line downward from the upper side surface of the . Between the first locking projection 73 and the second locking projection 74, the first projection 73b and the second projection 74b are separated from the space between the projection body 73a and the projection body 74a. An arm insertion space S3 is formed on the direction side. Here, the interval in the width direction between the first projecting portion 73b and the second projecting portion 74b is set to be the same as the length in the width direction of the arm body portion 55a. That is, when the arm body portion 55a is inserted between the first projection portion 73b and the second projection portion 74b, both side surfaces in the width direction come into contact with the first projection portion 73b and the second projection portion 73b, respectively. . The arm body 55a is allowed to move in the mating direction when inserted between the first protrusion 73b and the second protrusion 74b. In addition, the distance in the width direction between the projection main body portion 73a and the projection main body portion 74a in the present embodiment is the length in the width direction from the first locking portion 55b to the second locking portion 55c, and the third locking portion 55d. to the fourth engaging portion 55e in the width direction, or is set to be slightly wider. The locking arm 55 is allowed to move in the mating direction when inserted into the arm insertion space S3.

The CPA member 8, as shown in FIGS. 1 and 2, is a member for detecting that the male housing 2 and the female housing 5 are completely fitted, and has a so-called CPA (Connector Position assurance: fitting assurance function). ) is a member for realizing The CPA member 8 is inserted into the CPA member moving space 5b of the female housing 5, and is assembled to the female housing 5 so as to be relatively movable with respect to the female housing 5 in the fitting direction. The CPA member 8 is made of an insulating synthetic resin material or the like, and has a body portion 81 , a CPA lock portion 82 and a claw portion 83 .

The body portion 81 is formed in a U shape that is open on the side in the detachment direction when viewed from above. The body portion 81 is formed such that an end on the insertion direction side protrudes upward, and an operation surface (not shown) is formed.

The CPA locking portion 82 forms part of a locking structure for locking the CPA member 8 to the female housing 5 . The CPA lock portion 82 is formed such that the end on the detachment direction projects downward, the end on the insertion direction is connected to the main body portion 81, and the end on the detachment direction is elastically deformable in the vertical direction. supported by The CPA lock portion 82 is locked by the male beak 23 and the male beak 23 in the fitted state as the CPA member 8 moves from the initial position to the mating assurance position with respect to the female housing 5 in the disengagement direction. The female beak 53 and the beak regulating portion 24 sandwiching the female beak 53 together with the male beak 23 are successively climbed over, and can be locked to the beak regulating portion 24 at the fitting assurance position.

The waterproof packing 9 is interposed in the gap between the male housing 2 and the female housing 5 in the fitted state to prevent liquid such as water from entering the fitting space 2a from the outside. The waterproof packing 9 is formed in a ring shape, and the first main body portion 511 of the female housing 5 is inserted along the fitting direction into an insertion space portion 9a formed inside.

Next, assembly of the CPA connector 1, that is, fitting will be described. In particular, the holding of the front holder 7 with respect to the female housing 5 in the embodiment will be described. First, the assembly of the male connector MC will be described. The male terminals 3 to which the wires W1 are connected are inserted into the respective terminal insertion chambers through the openings formed at the ends of the main body 21 in the detachment direction. Each male terminal 3 is assembled to the male housing 2 by holding the terminal 3 inside the male housing 2 . Next, the front holder 4 is inserted into the fitting space portion 2a from the insertion direction side end portion of the male housing 2, and the front holder 4 is held by the body portion 21 in the fitting space portion 2a. is assembled to the male housing 2.

Next, assembly of the CPA connector 1, that is, fitting will be described. In particular, the holding of the front holder 7 with respect to the female housing 5 in the embodiment will be described. First, the assembly of the male connector MC will be described. The male terminals 3 to which the wires W1 are connected are inserted into the respective terminal insertion chambers through the openings formed at the ends of the main body 21 in the detachment direction. Each male terminal 3 is assembled to the male housing 2 by holding the terminal 3 inside the male housing 2 . Next, the front holder 4 is inserted into the fitting space portion 2a from the insertion direction side end portion of the male housing 2, and the front holder 4 is held by the body portion 21 in the fitting space portion 2a. is assembled to the male housing 2.

Next, assembly of the female connector FC will be described. 6 is a partial cross-sectional plan view (before assembly) of the connector according to the first embodiment. FIG. 7 is a partial cross-sectional plan view (temporarily locked state) of the connector according to the first embodiment. FIG. FIG. 8 is a partial cross-sectional plan view of the connector according to Embodiment 1 (in a state where the final locking portion has been overcome). FIG. 9 is a cross-sectional view of the connector according to Embodiment 1 (in a state where the final locking portion has been overcome).

First, each female terminal 6 to which the electric wire W2 is connected is inserted into each terminal insertion chamber from an opening formed at the end of the first main body portion 511 in the insertion direction. At this time, each female terminal 6 faces each lance 54 in the fitting direction. Next, the waterproof packing 9 is inserted into the fitting space portion 5a from the end of the second main body portion 512 in the detachment direction, and the first main body portion 511 is inserted into the insertion space portion 9a. The waterproof packing 9 is assembled to the female housing 5 by holding the waterproof packing 9 by the .

Next, as shown in FIG. 6, the front holder 7 is arranged to face the first main body portion 511 in the fitting direction, and the first main body portion 511 is inserted into the insertion space portion 7a of the front holder 7 on the detachment direction side. Insert from the end. At this time, the locking arm 55 is inserted into the concave portion 72 at the end on the detachment side, the first protrusion 73b faces the third locking portion 55d in the fitting direction, and the fourth locking portion 55e The second projecting portion 74b faces in the fitting direction. Next, when the front holder 7 is moved in the insertion direction with respect to the first main body portion 511, that is, when the front holder 7 is further inserted, the third locking portion 55d and the first projecting portion 73b are brought into contact with each other, and the fourth The locking portion 55e and the second projecting portion 74b are in contact with each other. Specifically, among the surfaces facing each other in the fitting direction of the third locking portion 55d, the surface on the withdrawal direction side, and among the surfaces facing each other in the fitting direction of the first projection portion 73b, the surface on the insertion direction side. are in contact with each other, and of the surfaces facing each other in the fitting direction of the fourth locking portion 55e, the surface on the withdrawal direction side and the surface on the insertion direction side of the surfaces facing each other in the fitting direction of the second projection portion 74b come into contact with. Next, when the front holder 7 is further inserted, as shown in FIG. 7, the third engaging portion 55d is pushed against the inserting direction side of the facing surfaces of the first projection 73b in the fitting direction. Of the surfaces facing each other in the fitting direction, the surface on the side of the separation direction moves upward, and among the surfaces of the second protrusion 74b facing each other in the fitting direction, the surface on the side of the insertion direction moves to the fourth position. Of the surfaces facing each other in the fitting direction of the engaging portion 55e, the surface on the separating direction side moves upward, so that the arm main body portion 55a is elastically deformed upward with the end portion on the insertion direction side as a base point. Next, when the front holder 7 is further inserted, the arm body portion 55a is elastically deformed upward, and the engaging portions 55d and 55e separate from the upper surfaces of the engaging projections 73 and 74, respectively. By moving in the direction, as shown in FIG. At this time, each locking portion 55d, 55e is located in the arm insertion space portion S3 when viewed from the vertical direction. The first protrusion 73b is positioned in the arm-side first space S1, the second protrusion 74b is positioned in the arm-side second space S2, and the front holder 7 is temporarily engaged with the female housing 5. in the stop position. In the case of the temporary locking position, the arm main body portion 55a forms a part (the arm-side first space S1 and the arm-side second space S2) between the first protrusion 73b and the second protrusion 74b. portion) is positioned, movement in the width direction is restricted, and the front holder 7 is temporarily locked to the female housing 5 .

Next, when the front holder 7 is further inserted, the first engaging portion 55b and the first projecting portion 73b are brought into contact with each other, and the second engaging portion 55c and the second projecting portion 74b are brought into contact with each other. Specifically, among the surfaces facing each other in the fitting direction of the first locking portion 55b, the surface on the withdrawal direction side, and among the surfaces facing each other in the fitting direction of the first projection portion 73b, the surface on the insertion direction side. are in contact with each other, and of the surfaces facing each other in the fitting direction of the second locking portion 55c, the surface on the removal direction side and the surface on the insertion direction side of the surfaces facing each other in the fitting direction of the second projection portion 74b come into contact with. Next, when the front holder 7 is further inserted, as shown in FIG. 9, the first engaging portion 55b is positioned against the inserting direction side of the facing surfaces of the first protrusion 73b in the fitting direction. Of the surfaces facing each other in the fitting direction, the surface on the side of the separation direction moves upward, and among the surfaces of the second protrusion 74b facing each other in the fitting direction, the surface on the side of the insertion direction moves to the second position. Of the surfaces facing each other in the fitting direction of the engaging portion 55c, the surface on the separating direction side moves upward, so that the arm body portion 55a is elastically deformed upward with the end portion on the insertion direction side as a base point. Next, when the front holder 7 is further inserted, the arm body portion 55a is elastically deformed upward, and the engaging portions 55b and 55c are released from the upper surfaces of the engaging projections 73 and 74, respectively. By moving in the direction, as shown in FIG. At this time, each locking portion 55b to 55e is positioned within the arm insertion space portion S3 when viewed from the vertical direction. Further, the first protrusion 73b is positioned closer to the insertion direction than the first locking portion 55a, the second protrusion 74b is positioned closer to the insertion direction than the second locking portion 55b, and the front holder 7 is positioned closer to the female housing. 5 at the final locking position. In the case of the full locking position, the arm main body 55a is partly located between the first projection 73b and the second projection 74b (on the insertion direction side of the first locking portion 55b and the second locking portion 55c). ) is positioned, movement in the width direction is restricted, and the front holder 7 is in a fully locked state with respect to the female housing 5 . In the fully locked state, the body portion 71 is positioned above the lance 54 and faces the lance 54 in the upper direction. Therefore, since the lances 54 are restricted from elastically deforming upward, the respective female terminals 6 are locked by the respective lances 54, and the respective female terminals 6 are held inside the female housing 5 so that the respective female terminals 6 are held. The terminal 6 is attached to the female housing 5.

Next, the CPA member 8 is inserted into the CPA member moving space 5b of the female housing 5, and the CPA member 8 is assembled with the female housing 5. As shown in FIG. At this time, the pair of claws 83 of the CPA member 8 holds the pair of guide rails of the lock arm 52, and the CPA member 8 can move with respect to the female housing 5 between the initial position and the engagement assurance position. assembled in good condition.

Next, the male connector MC is attached to the female connector FC. First, with the CPA member 8 in the initial position, the first body portion 511 of the female housing 5 is inserted into the fitting space portion 2a of the male housing 2, and the male housing 2 is inserted into the fitting space portion 5a of the female housing 5. insert. When the first body portion 511 is inserted into the fitting space portion 2a, the male beak 23 contacts the female beak 53, the female beak 53 elastically deforms upward, the female beak 53 climbs over the male beak 23, and the female beak 53 moves in the fitting direction. enters between the male beak 23 and the beak restricting portion 24 at . Next, the CPA member 8 is moved in the fitting direction from the initial position located on the insertion direction side of the female housing 5 toward the fitting assurance position, that is, the CPA member 8 is moved in the direction of separation from the male housing 2 and the female housing 5. move to When the CPA member 8 moves in the separating direction, the CPA locking portion 82 contacts the male beak 23, the CPA locking portion 82 is elastically deformed upward, the CPA locking portion 82 climbs over the male beak 23, and the male beak 23 and the beak restricting portion 24 are separated. When the CPA member 8 moves to the fitting guarantee position, it gets over the beak restricting part 24.例文帳に追加In the CPA member 8, the CPA lock portion 82 is positioned on the detachment direction side, and the male beak 23 is positioned on the insertion direction side with the beak restricting portion 24 and the female beak 53 interposed therebetween, so that the CPA connector 1 is in a mating assurance state. .

Effect of Claim 1 As described above, according to the female connector FC of the present embodiment, the locking structure LS for locking the front holder 7 to the female housing 5 is such that when the front holder 7 is in the temporary locking position, the arm Since the movement of the main body portion 55a in the width direction is restricted, and the front holder 7 moves from the temporary locking position to the final locking position from this state, the locking arm 55 remains restricted in the width direction. , the locking portions 55b and 55c ride on the locking projections 73 and 74 and get over them. As a result, it is possible to improve the insertion stability of the front holder when inserting the holder.

In the above-described embodiment, the arm formed by separating the third locking portion 55d and the fourth locking portion 55e from the first locking portion 55b and the second locking portion 55c in the detachment direction The first protrusion 73b and the second protrusion 74b are positioned in the first side space S1 and the second arm side space S2, respectively. Therefore, the locking projections 73 and 74 are restricted from moving in the mating direction with respect to the locking arm 55 , so that the front holder 7 positioned at the temporary locking position is mated with the connector housing 5 . restricted to move in any direction. As a result, the front holder 7 is prevented from moving from the temporary locking position to another position in the fitting direction, and can reliably stay at the temporary locking position.

[Embodiment 2]
Next, the CPA connector 1 according to Embodiment 2 will be described. 10 is a partial cross-sectional plan view (final locking state) of the connector according to the second embodiment. FIG. FIG. 11 is a cross-sectional view (final locking state) of the connector according to the second embodiment. The connector 1 according to the second embodiment differs from the connector 1 according to the first embodiment in the shape of the locking arm 55 and the locking protrusions 73 and 74 . Since the basic configuration of the connector 1 in the second embodiment is the same as or equivalent to the basic configuration of the connector 1 in the first embodiment, descriptions of the same reference numerals will be omitted or simplified.

10 and 11, the locking arm 55 constitutes a part of the locking structure LS for locking the front holder 7 with respect to the female housing 5. It is inserted between the second locking projection 74 and the second locking projection 74 . The locking structure LS in this embodiment is composed of one locking arm 55 and locking protrusions 73 and 74 . The locking arm 55 has an arm body portion 55a, a first locking portion 55f, and a second locking portion 55g.

The first locking portion 55f is a permanent locking portion and a temporary locking portion, and is formed on the left side of both side surfaces in the width direction at the end of the arm body portion 55a on the detachment direction side. The first locking portion 55f is formed to protrude leftward from the arm main body portion 55a when viewed from the mating direction, and the locking arm 55f is formed between the first locking projection 73 and the second locking projection 74. is inserted, when viewed from the mating direction, at least a portion thereof overlaps with the first protrusion 73b and a third protrusion 73c, which will be described later. Of the first locking portion 55f, the surface on the side of the detachment direction when viewed in the width direction comes into contact with the first projection 73b and the third projection 73c when the holder is inserted. The surface of the portion 55g on the side of the separation direction when viewed in the width direction and the surface of the arm body portion 55a on the side of the separation direction when viewed in the width direction form one tip surface. The tip surface is formed so as to be inclined toward the insertion direction as it goes downward from the surface on the upward side of the first engaging portion 55f. Of the first locking portion 55f, the surface on the insertion direction side when viewed in the width direction comes into contact with the first projection 73b and the third projection 73c when the holder is detached. The portion 55f is formed so as to be slanted toward the detachment direction as it goes downward from the surface on the upward side of the portion 55f.

The second locking portion 55g is a permanent locking portion and a temporary locking portion, and faces the first locking portion 55f in the width direction at the end of the arm body portion 55a on the detachment direction side. is formed on the right side of both sides of the The second locking portion 55g is formed so as to protrude rightward from the arm body portion 55a when viewed from the mating direction, and the locking arm 55g is formed between the first locking projection 73 and the second locking projection 74. is inserted, when viewed from the mating direction, at least a portion thereof overlaps with the second protrusion 74c and the fourth protrusion 74b. Of the second locking portion 55g, the surface on the side of the withdrawal direction when viewed in the width direction comes into contact with the second protrusion 74c and the fourth protrusion 74b when the holder is inserted. It consists of parts. Of the second locking portion 55g, the surface on the insertion direction side when viewed in the width direction comes into contact with the second projection 74c and the fourth projection 74b when the holder is detached. The portion 55g is formed so as to be slanted toward the detachment direction as it goes downward from the surface on the upward side of the portion 55g. The locking arm 55 is formed in a T shape by an arm body portion 55a, a first locking portion 55f, and a second locking portion 55g when viewed from above and below.

The first locking projection 73 forms part of the locking structure LS that locks the front holder 7 to the female housing 5 . The first locking projection 73 has a projection body portion 73a, a first projection portion 73c, and a third projection portion 73b.

The first protrusion 73c protrudes toward the second protrusion 74c in the width direction. The first protrusion 73c in this embodiment is formed to protrude rightward from the middle of the protrusion main body 73a in the mating direction, and is formed apart from the third protrusion 73b in the detachment direction. Therefore, between the first protrusion 73c and the third protrusion 73b, a locking protrusion-side first space S4 is formed. The first projection 73c has a first locking portion 55f when viewed from the mating direction in a state where the locking arm 55 is inserted between the first locking projection 73 and the second locking projection 74. is formed so as to at least partially overlap with the The right surface of the first projection 73c when viewed from the mating direction is in contact with the arm main body 55a in the fully locked state. It is formed linearly downward from the surface.

The third protrusion 73b protrudes toward the fourth protrusion 74c in the width direction. The third protrusion 73b in this embodiment is formed to protrude rightward from the end of the protrusion main body 73a in the insertion direction, and is locked between the first locking projection 73 and the second locking projection 74. When the arm 55 is inserted, it is formed so that at least a part thereof overlaps with the first engaging portion 55f when viewed from the mating direction. Of the third protrusion 73b, the surface on the right side when viewed from the mating direction is in contact with the arm main body 55a in the temporary locking state and the final locking state. is formed in a straight line downward from the upper side surface of the .

The second locking projection 74 constitutes a part of the locking structure LS that locks the front holder 7 to the female housing 5 . The second locking projection 74 in this embodiment has a projection body portion 74a, a second projection portion 74c, and a fourth projection portion 74b.

The second protrusion 74c protrudes toward the first protrusion 73c in the width direction. The second protrusion 74c in this embodiment is formed to protrude leftward from the middle of the protrusion main body 74a in the mating direction, and is formed apart from the fourth protrusion 74b in the detachment direction. Therefore, a locking protrusion side second space S5 is formed between the second protrusion 74c and the fourth protrusion 74b. With the locking arm 55 inserted between the first locking projection 73 and the second locking projection 74, the second projection 74c can be seen from the mating direction so that the second locking portion 55g is formed so as to at least partially overlap with the The left surface of the second protrusion 74c when viewed from the mating direction is in contact with the arm main body 55a in the fully locked state. It is formed linearly downward from the surface. Between the first locking projection 73 and the second locking projection 74, the first projection 73c and the second projection 74c are separated from the space between the projection body 73a and the projection body 74a. An arm insertion space S6 is formed on the direction side. Here, the interval in the width direction between the first projecting portion 73c and the second projecting portion 74c is set to be the same as the length in the width direction of the arm body portion 55a. That is, when the arm main body portion 55a is inserted between the first projection portion 73c and the second projection portion 74c, both side surfaces in the width direction come into contact with the first projection portion 73c and the second projection portion 74c, respectively. . The arm main body 55a is allowed to move in the mating direction when inserted between the first protrusion 73c and the second protrusion 74c. In addition, the distance in the width direction between the projection main body portion 73a and the projection main body portion 74a in the present embodiment is set to be the same as or slightly wider than the length in the width direction from the first locking portion 55f to the second locking portion 55g. It is The locking arm 55 is allowed to move in the mating direction when inserted into the arm insertion space S6.

The fourth projecting portion 74b projects toward the third projecting portion 73 in the width direction. The fourth protrusion 74b in this embodiment is formed to protrude leftward from the insertion-direction-side end of the protrusion body 74a, and is locked between the first locking projection 73 and the second locking projection 74. It is formed so that at least a part thereof overlaps with the second engaging portion 55g when viewed from the mating direction when the arm 55 is inserted. The left surface of the fourth projection 74b when viewed from the mating direction is in contact with the arm main body 55a in the temporary locking state and the final locking state. is formed in a straight line downward from the upper side surface of the . Here, the interval in the width direction between the third projecting portion 73b and the fourth projecting portion 74b is set to be the same as the length in the width direction of the arm body portion 55a. That is, when the arm main body portion 55a is inserted between the third projection portion 73b and the fourth projection portion 74b, both side surfaces in the width direction come into contact with the third projection portion 73b and the fourth projection portion 73b, respectively. . The arm main body 55a is allowed to move in the mating direction when inserted between the third projection 73b and the fourth projection 74b.

Next, assembly of the CPA connector 1, that is, fitting will be described. In particular, the holding of the front holder 7 with respect to the female housing 5 in the embodiment will be described. FIG. 12 is a partial cross-sectional plan view (before assembly) of the connector according to the second embodiment. FIG. 13 is a partial cross-sectional plan view (temporarily locked state) of the connector according to the second embodiment. FIG. 14 is a partial cross-sectional plan view of the connector according to Embodiment 2 (in a state in which the final locking portion has been overcome). FIG. 15 is a cross-sectional view of the connector according to the second embodiment (state in which the main locking portion has been passed over). Since the assembly of the CPA connector in the second embodiment is the same as or equivalent to the assembly of the CPA connector 1 in the first embodiment, the description thereof will be omitted or simplified.

Next, as shown in FIG. 12, the front holder 7 is arranged to face the first main body portion 511 in the fitting direction, and the first main body portion 511 is inserted into the insertion space portion 7a of the front holder 7 on the detachment direction side. Insert from the end. At this time, the locking arm 55 is inserted into the concave portion 72 at the end on the detachment direction side, the third projection 73b faces the first locking portion 55f in the fitting direction, and the second locking portion 55g The fourth projecting portion 74b faces in the fitting direction. Next, when the front holder 7 is moved in the insertion direction with respect to the first body portion 511, that is, when the front holder 7 is further inserted, the first locking portion 55f and the third projection portion 73b are brought into contact with each other, and the second The locking portion 55g and the fourth projecting portion 74b come into contact with each other. Specifically, among the surfaces facing each other in the fitting direction of the first locking portion 55f, the surface on the withdrawal direction side, and among the surfaces facing each other in the fitting direction of the third projection portion 73b, the surface on the insertion direction side. are in contact with each other, and of the surfaces facing each other in the fitting direction of the second locking portion 55g, the surface on the side of the separation direction and the surface on the insertion direction side of the surfaces facing each other in the fitting direction of the fourth projecting portion 74b. come into contact with. Next, when the front holder 7 is further inserted, as shown in FIG. 13, the first engaging portion 55f is pushed against the inserting direction side of the facing surfaces of the third protrusion 73b in the fitting direction. Of the surfaces facing each other in the fitting direction, the surface on the side of the separation direction moves upward, and among the surfaces of the fourth protrusion 74b facing each other in the fitting direction, the surface on the side of the insertion direction moves to the second position. Of the surfaces facing each other in the fitting direction of the engaging portion 55g, the surface on the separating direction side moves upward, so that the arm main body portion 55a is elastically deformed upward with the end portion on the insertion direction side as a base point. Next, when the front holder 7 is further inserted, the arm main body 55a is elastically deformed upward, and the engaging portions 55f and 55g separate from the upper surfaces of the engaging projections 73 and 74, respectively. By moving in the direction, as shown in FIG. At this time, the engaging portions 55f and 55g are positioned in the engaging projection side first space portion S4 and the engaging projection side first space portion S5, respectively, when viewed from the vertical direction, and the front holder 7 is It is positioned at a temporary locking position with respect to the female housing 5 . In the case of the temporary locking position, the arm main body 55a is partly located between the third projection 73b and the fourth projection 74b (more to the insertion direction side than the first locking portion 55f and the second locking portion 55g). ) is positioned, movement in the width direction is restricted, and the front holder 7 is temporarily locked to the female housing 5 .

Next, when the front holder 7 is further inserted, the first locking portion 55f and the first projection 73c are brought into contact with each other, and the second locking portion 55g and the second projection 74c are brought into contact with each other. Specifically, among the surfaces facing each other in the fitting direction of the first locking portion 55f, the surface on the side of the separation direction, and among the surfaces facing each other in the fitting direction of the first projection portion 73c, the surface on the side of the insertion direction. are in contact with each other, and of the surfaces facing each other in the fitting direction of the second locking portion 55g, the surface on the side of the separation direction and the surface on the insertion direction side of the surfaces facing each other in the fitting direction of the second protrusion 74c. come into contact with. Next, when the front holder 7 is further inserted, as shown in FIG. 15, the first engaging portion 55f is pushed against the inserting direction side of the facing surfaces of the first protrusion 73c in the fitting direction. Of the surfaces facing each other in the fitting direction, the surface on the side of the separation direction moves upward, and among the surfaces of the second protrusion 74c facing each other in the fitting direction, the surface on the side of the insertion direction moves toward the second projection. Of the surfaces facing each other in the fitting direction of the engaging portion 55g, the surface on the separating direction side moves upward, so that the arm main body portion 55a is elastically deformed upward with the end portion on the insertion direction side as a base point. Next, when the front holder 7 is further inserted, the arm main body 55a is elastically deformed upward, and the engaging portions 55f and 55g separate from the upper surfaces of the engaging projections 73 and 74, respectively. move in the direction At this time, a portion of the arm main body portion 55a of the locking arm 55 is elastically changed so as to overlap the third projecting portion 73c and the fourth projecting portion 74b when viewed in the width direction. That is, the arm main body portion 55a is positioned between the first projection portion 73c and the second projection portion 74c when the locking arm 55 rides over the locking projections 73 and 74 in the insertion direction when the holder is inserted. As shown in FIG. 10, each locking part 55f, 55g climbs over each locking projection 73, 74, while movement in the width direction is restricted by the partial position. At this time, each locking portion 55f, 55g is located in the arm insertion space portion S6 when viewed from the vertical direction. The first protrusion 73c is positioned closer to the insertion direction than the first locking portion 55f, the second protrusion 74c is positioned closer to the insertion direction than the second locking portion 55g, and the front holder 7 is positioned closer to the female housing. 5 at the final locking position. In the case of the full locking position, the arm main body 55a is partially (first Positioning of the locking portion 55f and the portion on the insertion direction side of the second locking portion 55g restricts movement in the width direction, and the front holder 7 is in a fully locked state with respect to the female housing 5. .

As described above, according to the female connector FC of the present embodiment, the locking structure LS for locking the front holder 7 to the female housing 5 is such that when the front holder 7 is in the temporary locking position, the arm body portion Since the movement of the arm 55a in the width direction is regulated, the front holder 7 moves from the temporary locking position to the full locking position from this state. The locking portions 55f and 55g run over the locking protrusions 73 and 74 and get over them. As a result, it is possible to improve the insertion stability of the front holder when inserting the holder.

Further, in the above-described embodiment, the third projection 73b and the fourth projection 74b are spaced apart from the first projection 73c and the second projection 74c in the insertion direction, thereby forming the locking projection-side second projection. The first locking portion 55f and the second locking portion 55g are positioned in the first space S4 and the second locking protrusion side space S5, respectively. Therefore, the engagement portions 55f and 55g are restricted from moving in the engagement direction with respect to the engagement arm 55, so that the front holder 7 positioned at the temporary engagement position is engaged with the connector housing 5. restricted to move in any direction. As a result, the front holder 7 is prevented from moving from the temporary locking position to another position in the fitting direction, and can reliably stay at the temporary locking position.

In the above-described embodiment, when the locking arm 55 rides over the locking projections 73 and 74 in the insertion direction, the arm body 55a is positioned between the first projection 73c and the second projection 74c. Since the movement in the width direction is restricted by the position of the part, when the front holder 7 moves from the temporary locking position to the final locking position, the front holder 7 is moved in the width direction with respect to the connector housing 5 . restricted to move in any direction. As a result, it is possible to further improve the insertion stability of the front holder when inserting the holder.

In the above-described embodiment, the locking arm 55 is formed on the female housing 5, and the first locking projection 73 and the second locking projection 74 are formed on the front holder 7, but the present invention is not limited to this. Alternatively, the female housing 5 may be formed with the first locking projection and the second locking projection, and the front holder 7 may be formed with the locking arm.

1 CPA connector 2 male housing (mating connector housing)
3 male terminal (mating terminal)
5 Female housing (connector housing)
55 First locking arm 55a Arm main body 55b First locking part 55b Second locking part 55d Third locking part 55e Fourth locking part 6 Female terminal 7 Front holder 73 First locking projection 73a First projection Part 74 Second locking projection 74b Second projection 8 CPA member 9 Waterproof packing FC Female connector (connector)
MC Male connector LS Locking structure W1, W2 Electric wire WH Wire harness

Claims (4)

a connector housing that accommodates terminals that are connected in a mating direction to mating terminals that are housed in the mating connector housing;
a front holder into which a part of the connector housing is inserted and which restricts the movement of the terminal in a disengagement direction of the fitting direction;
a locking structure for locking the front holder to the connector housing;
with
The locking structure is
a first locking projection and a second locking projection provided on one of the connector housing and the front holder and projecting in a first direction orthogonal to the fitting direction;
one locking arm provided on the other of the connector housing and the front holder and extending in the fitting direction;
has
The first locking projection has a first projection that at least partially overlaps with the locking arm when viewed from the mating direction,
The second locking projection overlaps at least a portion of the locking arm when viewed from the mating direction, and faces the first projection in a second direction orthogonal to the mating direction and the first direction. having a second protrusion formed by
The locking arm is
an arm body;
a first locking portion that projects in one of the second directions from the arm main body portion when viewed from the fitting direction and that at least partially overlaps with the first projection;
When viewed from the fitting direction, it projects from the arm main body in the other of the second directions, overlaps at least partly with the second projection, and faces the first locking portion in the second direction. a second locking portion formed by
has
When the front holder is inserted into the connector housing, the front holder is positioned at a temporary locking position with respect to the connector housing and in the insertion direction of the fitting direction relative to the temporary locking position. located in one of the locking positions,
movement of the arm body in the second direction is restricted by positioning a part of the arm main body between the first projection and the second projection in the temporary locking position;
The locking arm is elastically deformed in at least a first direction when the first locking portion and the second locking portion come into contact with the respective locking projections when the holder is inserted. The front holder is positioned at the final locking position by overcoming the locking projections in the insertion direction.
A connector characterized by: A connector according to claim 1, wherein
The locking arm is
a third locking portion projecting in one of the second directions from the arm main body when viewed from the fitting direction and overlapping at least a portion of the first projection;
When viewed from the fitting direction, it projects from the arm main body in the other of the second directions, overlaps at least a part of the second protrusion, and faces the third locking portion in the second direction. a fourth locking portion formed by
has
The third locking portion and the fourth locking portion are formed apart from the first locking portion and the second locking portion in a detachment direction,
connector. A connector according to claim 1, wherein
The first locking projection has a third projection that at least partially overlaps with the locking arm when viewed from the mating direction,
The second locking projection has a fourth projection that at least partially overlaps with the locking arm when viewed from the mating direction and is formed to face the third projection in the second direction. have
The third projection and the fourth projection are formed apart from the first projection and the second projection in the insertion direction,
connector. A connector according to claim 3, wherein
A portion of the arm main body portion is formed between the third projection portion and the fourth projection portion when the locking arm rides on each of the locking projections in the insertion direction when the holder is inserted. Positioning restricts movement in the second direction,
connector.

Images