JP2016091757A - connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent an electric wire from biting.SOLUTION: A connector comprises: a first housing 10; a lock arm 18 which is formed on the first housing 10, and can elastically flex to enter a flexure space 23 secured with an outer surface of the first housing 10; a second housing 30 which can be fitted to the first housing 10; a lock part 33 which is formed on the second housing 30, and then locked to the lock arm 18 to lock the first housing 10 and second housing 30 in a fitting state; a housing-side recessed part 24 which is recessed partially in a face (housing-side opposite face 17), opposite to the lock arm 18, of an external surface of the first housing 10; and an arm-side recessed part 25 which is formed by recessing a region, not corresponding to at least the housing-side recessed part 24, of an opposite face (arm-side opposite face 19), opposite the first housing 10, of the lock arm 18.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a connector.

  In Patent Document 1, in the process of fitting a male housing and a female housing, a lock portion formed on the male housing is elastically bent, and when both housings are properly fitted, the lock portion is elastically restored to lock the female housing. And a connector in which both housings are locked in a fitted state by this locking action.

JP-A-9-330769

  In the above connector, the lock portion is formed so as to be exposed on the outer surface of the male housing, and a bending space for elastically bending the lock portion is provided between the outer surface of the male housing and the lock portion. Therefore, when the electric wire attached to another connector bites into the bending space between the outer surface of the male housing and the lock portion and the electric wire is pulled, excessive stress acts on the lock portion. Is concerned. In order to avoid the biting of the electric wire, it is only necessary to narrow the bending space. However, in this case, the bending allowance of the lock portion is not sufficiently secured, and consequently, the locking allowance between the lock portion and the lock opening is small. As a result, the reliability of the lock function is lowered.

  The present invention has been completed based on the above situation, and an object thereof is to prevent the electric wire from being caught.

The connector of the present invention
A first housing;
A lock arm formed on the first housing and capable of elastically bending so as to enter a bending space secured between an outer surface of the first housing;
A second housing engageable with the first housing;
A lock portion formed on the second housing and locked with the lock arm to lock the first housing and the second housing in a fitted state;
A housing-side recess in a form in which a surface facing the lock arm on the outer surface of the first housing is partially recessed;
It is characterized in that at least one of the surfaces of the lock arm facing the first housing is provided with at least an arm-side recess in which a region that does not correspond to the housing-side recess is recessed.

  The bending space between the outer surface of the first housing and the lock arm is formed in a labyrinth-like shape by forming the housing-side recess and the arm-side recess. Therefore, in order to prevent the biting of the electric wire, the distance between the area where the housing side recess is not formed on the housing side facing surface and the area where the arm side recess is not formed on the locking arm side facing surface is set. Even if it is narrowed, a sufficient allowance for the bending of the lock arm can be secured.

The side view of the 1st housing which constitutes the connector of Example 1. Side sectional view showing a state in which the first housing and the second housing are locked in the fitted state XX sectional view of FIG. Side sectional view showing the separation process of the first housing and the second housing YY sectional view of FIG.

(1) The connector of the present invention
The front shape when the first housing is viewed in the fitting direction with the second housing is substantially circular,
A plurality of cavities are formed in the first housing so as to align in a substantially rectangular region,
On the outer surface of the first housing, a step-shaped recess is formed due to a difference in shape between the front shape of the first housing and the formation region of the plurality of cavities,
The lock arm and the bending space are arranged in the stepped recess,
On the surface of the first housing that faces the lock arm, a housing-side convex portion that defines a pair of housing-side concave portions is formed so as to protrude toward the lock arm at the center in the width direction.
The arm-side concave portion may be arranged at the center in the width direction so as to correspond to the housing-side convex portion.
According to this configuration, paying attention to the difference in shape that the front shape of the first housing is substantially circular and the formation areas of the plurality of cavities are substantially square, the housing-side convex portion and the arm-side concave portion are centered in the width direction. Arranged in the department. The dimensional difference from the substantially circular outer peripheral shape of the first housing with reference to the bottom surface of the step-shaped recess is maximized at the central portion in the width direction. Therefore, the height dimension of the housing side convex part and the depth dimension of the arm side concave part can be ensured sufficiently large.

(2) The connector of the present invention
A pair of wall portions may be formed in the first housing so as to sandwich the bending space from both sides.
According to this configuration, it is possible to prevent foreign matter from entering the bending space by the wall portion.

(3) In the connector of the present invention,
The lock arm is formed with an operation portion that is pushed when the lock arm is released from locking with the lock portion,
The wall may have a form in which a region corresponding to the operation unit is lower than other regions.
According to this configuration, since the operator's finger is less likely to interfere with the wall portion when the operation portion is pushed, the unlocking workability is improved.

(4) The connector of the present invention
Inside the first housing is formed a cavity that opens to the rear end surface of the first housing,
On the surface of the first housing that faces the lock arm, a housing-side convex portion that defines two adjacent housing-side concave portions is formed,
The area where the housing-side convex portion is formed may be a range reaching the rear end portion of the first housing.
According to this configuration, even if the thickness of the outer wall that divides the cavity and the housing-side concave portion and the thickness of the partition wall that divides the cavities in connection with the outer wall are thin, the outer wall and the partition wall are reinforced by the housing-side convex portion. The

<Example 1>
A first embodiment of the present invention will be described below with reference to FIGS. The connector according to the first embodiment includes a first housing 10 made of synthetic resin and a second housing 30 made of synthetic resin. Both the housings 10 and 30 are locked in a normal fitting state by the locking action of the lock arm 18 formed integrally with the first housing 10 and the lock portion 33 formed integrally with the second housing 30. ing.

  The first housing 10 has a terminal accommodating portion 11 formed from the front end (the left end portion in FIGS. 1, 2, and 4) to the rear end, and a cylindrical fitting surrounding the front end side region of the terminal accommodating portion 11. The joint portion 12 is integrally formed. A front end side region of the first housing 10 where the cylindrical fitting portion 12 is formed has a substantially columnar shape with the axis line oriented in the front-rear direction (left-right direction in FIGS. 1, 2, and 4) as a whole. The longitudinal axis is parallel to the fitting direction of both housings 10 and 30. Therefore, as shown in FIGS. 3 and 5, the front shape when the first housing 10 is viewed in parallel with the fitting direction of the two housings 10 and 30 is substantially circular. The rear end portion of the cylindrical fitting portion 12 is connected to and supported by the outer surface of the terminal accommodating portion 11. And the space between the front end side area | region of the outer periphery of the terminal accommodating part 11, and the cylindrical fitting part 12 becomes the insertion space 13 for inserting the food | hood part 32 of the 2nd housing 30 mentioned later.

  Four cavities 14 that open to the rear end surface of the first housing 10 are formed inside the first housing 10 (terminal accommodating portion 11). Female terminal fittings (not shown) are inserted into the three chambers of the four cavities 14 from the rear of the first housing 10 (rightward in FIGS. 1, 2, and 4). As shown in FIGS. 3 and 5, the four cavities 14 are arranged vertically and horizontally in the vertical direction and the horizontal direction (that is, the two-dimensional direction orthogonal to the fitting direction of the housings 10 and 30). Therefore, the formation area of the four cavities 14 is substantially square, and is within the range of a substantially circular shape that is the front shape of the first housing 10.

  Due to the difference in shape between the front shape of the first housing 10 (cylindrical fitting portion 12) and the substantially square formation region of the four cavities 14 (terminal accommodating portions 11), the first housing 10 (terminal accommodating portion 11). As shown in FIG. 2, a stepped recess 15 is formed on the outer surface (upper surface). The formation region of the stepped recess 15 in the front-rear direction extends over a wide range excluding the front end portion of the first housing 10 (that is, almost the entire region of the first housing 10). The tubular fitting portion 12 is formed with a notch 16 for opening the front end side region of the step-shaped recess 15 to the outside. A region where the stepped recess 15 is formed on the upper surface (outer surface) of the first housing 10 is a housing-side facing surface 17 that faces the lock arm 18.

  The step-shaped recess 15 is provided with a lock arm 18 that is elongated in the front-rear direction. A surface of the lock arm 18 that faces the first housing 10 (housing side facing surface 17) is an arm side facing surface 19. A leg portion 20 is formed at a substantially central portion in the length direction of the arm side facing surface 19, and the lock arm 18 is supported by the housing side facing surface 17 via the leg portion 20. The lock arm 18 can be elastically bent like a seesaw with the leg portion 20 as a fulcrum. As shown in FIGS. 2 and 3, when the lock arm 18 is in a free state where the lock arm 18 is not elastically bent, the arm-side facing surface 19 faces the housing-side facing surface 17 substantially in parallel.

  A lock protrusion 21 is formed at the front end of the arm-side facing surface 19. The rear end portion of the lock arm 18 serves as an operation portion 22 for an operator to push and operate when the lock arm 18 is elastically bent in the unlocking direction. The rear end of the lock arm 18 (operation unit 22) is located in front of the rear end of the first housing 10 (housing side facing surface 17).

  The second housing 30 is formed by integrally forming a terminal holding portion 31 and a hood portion 32 extending in a substantially cylindrical shape from the outer peripheral edge of the front end portion of the terminal holding portion 31 to the front (rightward in FIGS. 2 and 4). Has been. The terminal holding part 31 holds a plurality of male terminal fittings (not shown). A tab (not shown) at the tip of the male terminal fitting is accommodated in the hood portion 32 so as to face the female terminal fitting. A protrusion-like lock portion 33 is formed on the upper surface of the hood portion 32.

  In the process of fitting the first housing 10 and the second housing 30, the hood portion 32 enters the fitting space 13, and the lock projection 21 interferes with the lock portion 33, so that the lock arm 18 moves its front end portion. It is elastically bent so as to be away from the housing-side facing surface 17 to be in a lock release posture. At this time, in the space between the housing-side facing surface 17 and the arm-side facing surface 19, the lock arm 18 is in the unlocked posture in the region behind the leg portion 20 and ahead of the rear end of the lock arm 18. It functions as a bending space 23 for allowing elastic bending. When both the housings 10 and 30 reach the proper fitting state, the lock arm 18 is elastically restored, and the lock protrusion 21 and the lock portion 33 are locked. By this locking action, both the housings 10 and 30 are locked in the fitted state, and the separation is restricted.

  Further, when the two housings 10 and 30 in the fitted state are detached, the operation portion 22 of the lock arm 18 is pushed from the side opposite to the arm side facing surface 19. Then, the lock arm 18 is elastically deflected and displaced to the unlocking posture, so that the lock protrusion 21 is disengaged from the lock portion 33. Thus, if both housings 10 and 30 are pulled apart with the locking projection 21 and the locking portion 33 being released, both housings 10 and 30 can be detached.

  In the connector of the present embodiment, the lock arm 18 is formed to be exposed on the outer surface of the first housing 10, and a bending space for elastically bending the lock arm 18 between the outer surface of the first housing 10 and the lock arm 18. 23 is vacant. For this reason, there is a concern that an electric wire or the like (not shown) attached to another connector bites into the bending space 23. If an electric wire or the like caught in the bending space 23 is pulled, the lock arm 18 tends to be deformed in the direction opposite to the elastic bending direction (lock releasing direction) by the normal locking operation and unlocking operation. . Further, if the external force received from the electric wire or the like is strong, an excessive stress acts on the lock arm 18.

  In order to avoid biting of an electric wire or the like into the bending space 23, the dimension of the bending space 23 in the bending direction of the lock arm 18 (that is, the facing distance between the housing-side facing surface 17 and the arm-side facing surface 19) should be reduced. It ’s fine. However, if the bending space 23 is narrowed, the bending allowance of the lock arm 18 is not sufficiently secured, and as a result, the locking allowance between the lock arm 18 and the lock portion 33 is reduced, thereby reducing the reliability of the lock function. Become.

  As a countermeasure, in the connector of this embodiment, a pair of left and right housing-side recesses 24 are formed on the housing-side facing surface 17 of the first housing 10 and the arm-side recess 25 is formed on the arm-side facing surface 19 of the lock arm 18. Is forming. As shown in FIG. 5, the pair of housing-side recesses 24 has a form in which the housing-side facing surface 17 is recessed. A region where the housing-side concave portion 24 is formed in the front-rear direction is a region behind the cylindrical fitting portion 12 in the housing-side facing surface 17. That is, the housing-side recess 24 is formed continuously from the rear end of the cylindrical fitting portion 12 to the first housing 10 (the rear end of the housing-side facing surface 17). The pair of housing-side recesses 24 are arranged so as to be arranged at intervals in the width direction (the direction intersecting both the fitting direction of the housings 10 and 30 and the elastic deflection direction of the lock arm 18).

  Moreover, the area | region between a pair of housing side recessed parts 24 among the housing side opposing surfaces 17 becomes a form protruded in the shape of a rib toward the lock arm 18 side. The region protruding in a rib shape is a housing-side convex portion 26 that divides the pair of housing-side concave portions 24. The formation range of the housing-side convex portion 26 in the front-rear direction is the same as that of the housing-side concave portion 24. That is, the housing-side convex portion 26 has a form that is elongated in a continuous manner in the front-rear direction from the rear end of the tubular fitting portion 12 to the rear end of the first housing 10 (housing-side facing surface 17).

  The formation region of the housing-side convex portion 26 in the width direction is the center position in the width direction of the housing-side facing surface 17 (terminal accommodating portion 11). Of the four cavities 14 arranged vertically and horizontally, the upper two cavities 14 and the step-shaped recess 15 are partitioned by the outer wall 14A, but the housing-side convex portion 26 is separated from the outer wall 14A. It has a protruding shape. The right cavity 14 and the left cavity 14 of the four cavities 14 are partitioned by the partition wall 14B, but the housing-side convex portion 26 is disposed so as to correspond to the partition wall 14B in the width direction. ing.

  The arm-side recess 25 is a form in which the arm-side facing surface 19 is recessed in a groove shape, and is elongated in the front-rear direction. The formation range of the arm-side concave portion 25 in the width direction includes the entire width region of the housing-side convex portion 26 and the left and right regions of the housing-side convex portion 26 (that is, the region of the housing-side concave portion 24 along the housing-side convex portion 26. ). The formation region of the arm-side recess 25 in the front-rear direction is a limited range of the rear end portion of the lock arm 18. In other words, when the lock arm 18 is in the unlocking posture, it is kept in a range where it can interfere with the housing-side convex portion 26.

  Further, when the lock arm 18 is in the unlocking posture, the arm-side facing surface 19 is inclined with respect to the upper surface of the housing-side convex portion 26, so the depth of the arm-side recessed portion 25 with respect to the arm-side facing surface 19 is , Deepest at the rear end of the lock arm 18, and shallower toward the front. With this shape setting, when the amount of elastic deflection of the lock arm 18 is maximized, the upper surface of the arm-side concave portion 25 and the upper surface of the housing-side convex portion 26 come into contact with each other.

  A region of the arm-side facing surface 19 where the arm-side recess 25 is not formed is a pair of left-right symmetrical arm-side protrusions 27 corresponding to the pair of housing-side recesses 24. The arm-side convex portion 27 is disposed in a region not corresponding to the housing-side convex portion 26. The width dimension of each arm-side convex part 27 is set to be sufficiently larger than the width dimension of the arm-side concave part 25. The setting of the width dimension is suitable for improving the flow of molten resin in the relatively thin lock arm 18 when the first housing 10 including the arm portion is injection-molded.

  In addition, a pair of symmetrical wall portions 28 rising from the upper surface of the housing-side recess 24 are formed on the upper surface of the first housing 10. The pair of wall portions 28 are disposed on both the left and right edges of the housing-side facing surface 17 and are positioned so as to sandwich the lock arm 18 and the bending space 23 from both the left and right sides. The region where the wall portion 28 is formed in the front-rear direction is a range from the rear end of the tubular fitting portion 12 to a position corresponding to the rear end of the lock arm 18. Moreover, in the rear-end part corresponding to the operation part 22 among the wall parts 28, it inclines so that the height on the basis of the upper surface of the housing side recessed part 24 may become low gradually toward back.

  Next, the operation of this embodiment will be described. As shown in FIGS. 2 and 3, when the lock arm 18 is in a free state in which the lock arm 18 is not elastically deformed, the vertical direction between the upper surface of the housing side convex portion 26 and the lower surface of the arm side convex portion 27 (the lock arm 18 The interval of the elastic deflection direction) is smaller than that of a foreign object such as an electric wire that is supposed to be bitten into the deflection space 23. The vertical distance between the housing-side convex portion 26 and the arm-side convex portion 27 is smaller than the elastic deflection amount of the lock arm 18 in the normal fitting process of both the housings 10 and 30.

  However, the housing-side facing surface 17 is formed with a housing-side recessed portion 24 corresponding to the arm-side protruding portion 27, and the arm-side facing surface 19 is formed with an arm-side recessed portion 25 corresponding to the housing-side protruding portion 26. Yes. When the lock arm 18 is in a free state, the vertical facing distance between the housing-side convex part 26 and the arm-side convex part 27 and the vertical opposing distance between the housing-side concave part 24 and the arm-side convex part 27 are both The amount of elastic deflection of the lock arm 18 in the normal fitting process of the housings 10 and 30 is set. Therefore, when the lock arm 18 is elastically bent during the fitting process of the housings 10 and 30, the housing side facing surface 17 and the arm side facing surface 19 do not interfere with each other, and the elastic bending of the lock arm 18 can be performed without any trouble. Is called.

  The connector of the present embodiment includes a first housing 10 and a second housing 30 that can be fitted to the first housing 10. The first housing 10 is formed with a lock arm 18 that can be elastically bent so as to enter a bending space 23 secured between the first housing 10 and the outer surface of the first housing 10. The second housing 30 is formed with a lock portion 33 that engages with the lock arm 18 to lock the housings 10 and 30 in a fitted state. A housing-side recess 24 is formed on the outer surface of the first housing 10 that faces the lock arm 18 (housing-side facing surface 17). On the other hand, an arm-side recess 25 is formed on the surface of the lock arm 18 that faces the first housing 10 (arm-side facing surface 19). The arm-side recess 25 is formed by recessing at least a region that does not correspond to the housing-side recess 24. .

  According to this configuration, the bending space 23 between the outer surface of the first housing 10 and the lock arm 18 has a shape bent in a labyrinth shape by forming the housing-side recess 24 and the arm-side recess 25. . Therefore, in order to prevent biting of an electric wire or the like, a region (housing side convex portion 26) in which the housing side concave portion 24 is not formed in the housing side facing surface 17 and an arm side concave portion 25 in the locking arm 18 side facing surface. Even if the distance from the region where the arm is not formed (arm-side convex portion 27) is narrowed, the bending allowance of the lock arm 18 can be sufficiently secured.

  Further, the front shape when the first housing 10 is viewed in the fitting direction with the second housing 30 is substantially circular, and a plurality of cavities 14 are formed in the substantially rectangular region inside the first housing 10. It is formed to align. A step-like recess 15 is formed on the outer surface of the first housing 10 due to the difference in shape between the front shape of the first housing 10 and the formation region of the plurality of cavities 14. 18 and a bending space 23 are arranged. Further, a housing-side convex portion 26 defining a pair of housing-side concave portions 24 is formed on the surface facing the lock arm 18 (housing-side facing surface 17) of the first housing 10 toward the lock arm 18 at the center in the width direction. The arm-side concave portion 25 is arranged at the center in the width direction so as to correspond to the housing-side convex portion 26.

  That is, in this embodiment, paying attention to the difference in shape that the front shape of the first housing 10 is substantially circular and the formation areas of the plurality of cavities 14 are substantially square, the housing-side convex portion 26 and the arm-side concave portion 25. Was placed in the center in the width direction. The dimensional difference from the substantially circular outer peripheral shape of the first housing 10 with respect to the upper surface (bottom surface) of the stepped recess 15 is maximum at the center in the width direction. Therefore, the height dimension of the housing-side convex part 26 and the depth dimension of the arm-side concave part 25 can be secured sufficiently large.

  In addition, since the pair of wall portions 28 are formed in the first housing 10 so as to sandwich the bending space 23 from both sides, the wall portion 28 can prevent foreign matter from entering the bending space 23. Further, paying attention to the fact that the lock arm 18 is formed with an operation portion 22 that is pushed when the lock arm 18 is released from engagement with the lock portion 33, the wall portion 28 is connected to the operation portion 22. The corresponding area is lower than the other areas. Accordingly, when the operation unit 22 is pushed, the operator's finger hardly interferes with the wall portion 28, so that the unlocking workability is improved.

  A cavity 14 that opens to the rear end surface of the first housing 10 is formed inside the first housing 10. A housing-side convex portion 26 that partitions two adjacent housing-side concave portions 24 is formed on the surface of the first housing 10 facing the lock arm 18 (housing-side facing surface 17). The formation region is a range that reaches the rear end of the first housing 10. According to this configuration, even if the thickness of the outer wall 14A that divides the cavity 14 and the housing-side concave portion 24 and the thickness of the partition wall 14B that divides the cavities 14 that are connected to the outer wall 14A are thin, the housing-side convex portion 26 is provided. Thus, the outer wall 14A and the partition wall 14B are reinforced.

<Other embodiments>
The present invention is not limited to the embodiments described with reference to the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention.
(1) In the above embodiment, the width dimension of the arm side recess is larger than the width dimension of the housing side protrusion, but the width dimension of the housing side protrusion and the width dimension of the arm side recess may be substantially the same. If it does in this way, a guide function can be exhibited by the sliding contact of a housing side convex part and an arm side concave part in the process in which a lock arm elastically bends.
(2) In the above embodiment, the pair of wall portions sandwiching the bending space from both sides is formed in the first housing, but such a wall portion may not be formed.
(3) In the above-described embodiment, the wall portion has a form in which the region corresponding to the operation unit is made lower than the other regions, but the wall portion may have a constant height over the entire region.
(4) In the above-described embodiment, the formation region of the housing-side convex portion reaches the rear end portion of the first housing, but the formation region of the housing-side convex portion is a position in front of the rear end of the first housing, Or the position ahead of the rear end of a lock arm may be sufficient.
(5) In the above embodiment, the lock arm is tilted and bent like a seesaw. However, the lock arm cantilevered backward in the fitting direction, or both ends are on the outer surface of the first housing. A supported double-supported beam may be used.
(6) In the above embodiment, two housing-side recesses are formed, but the number of housing recesses may be one or three or more.
(7) In the above embodiment, one arm-side recess is formed, but the number of arm-side recesses may be plural.
(8) In the above embodiment, the front shape of the first housing as viewed in the fitting direction with the second housing is substantially circular, but the front shape of the first housing may be substantially square.

DESCRIPTION OF SYMBOLS 10 ... 1st housing 14 ... Cavity 15 ... Step-shaped recessed part 17 ... Housing side opposing surface (opposing surface)
18 ... Lock arm 19 ... Arm side facing surface (facing surface)
DESCRIPTION OF SYMBOLS 22 ... Operation part 23 ... Deflection space 24 ... Housing side recessed part 25 ... Arm side recessed part 26 ... Housing side convex part 28 ... Wall part 30 ... 2nd housing 33 ... Lock part

Claims (5)

A first housing;
A lock arm formed on the first housing and capable of elastically bending so as to enter a bending space secured between an outer surface of the first housing;
A second housing engageable with the first housing;
A lock portion formed on the second housing and locked with the lock arm to lock the first housing and the second housing in a fitted state;
A housing-side recess in a form in which a surface facing the lock arm on the outer surface of the first housing is partially recessed;
A connector comprising: an arm-side recess formed by recessing at least a region that does not correspond to the housing-side recess in the surface of the lock arm facing the first housing. The front shape when the first housing is viewed in the fitting direction with the second housing is substantially circular,
A plurality of cavities are formed in the first housing so as to align in a substantially rectangular region,
On the outer surface of the first housing, a step-shaped recess is formed due to a difference in shape between the front shape of the first housing and the formation region of the plurality of cavities,
The lock arm and the bending space are arranged in the stepped recess,
On the surface of the first housing that faces the lock arm, a housing-side convex portion that defines a pair of housing-side concave portions is formed so as to protrude toward the lock arm at the center in the width direction.
The connector according to claim 1, wherein the arm-side concave portion is arranged at a center portion in the width direction so as to correspond to the housing-side convex portion.   The connector according to claim 1 or 2, wherein the first housing is formed with a pair of wall portions arranged so as to sandwich the bending space from both sides. The lock arm is formed with an operation portion that is pushed when the lock arm is released from locking with the lock portion,
The connector according to claim 3, wherein the wall portion has a form in which a region corresponding to the operation unit is lower than other regions. Inside the first housing is formed a cavity that opens to the rear end surface of the first housing,
On the surface of the first housing that faces the lock arm, a housing-side convex portion that defines two adjacent housing-side concave portions is formed,
5. The connector according to claim 1, wherein a region where the housing-side convex portion is formed is a range that reaches a rear end portion of the first housing.

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