Preferred embodiments of the present invention are described below.
Wherein the detection member retreats from the standby position to the detection position while being pressed by the pressing member, and the engagement portion is fixed to the rear surface of the lock hole of the lock arm at the standby position, And the front surface of the engaging portion is disposed so as to be exposed at a position facing the relative lock portion. When the front surface of the engaging portion is exposed and disposed at a position opposed to the relative lock portion, the inclined edge of the protrusion of the relative lock portion bumps against the front surface of the engaging portion in the process of fitting the both housings, There is a high possibility that interference between the relative lock portion and the engaging portion can be avoided by forming the clearance groove in the engaging portion because there is a high possibility of being retracted to the detection position.
<Examples>
Hereinafter, embodiments will be described with reference to the drawings. The connector of the embodiment comprises a mating member 40, a housing 10 which can be fitted to the mating housing 40, a detecting member 60 movably assembled between the standby position and the detecting position with respect to the housing 10, . In the following description, with respect to the front-rear direction, the face side where the both housings 10, 40 face each other at the start of fitting is referred to as the front side, and the vertical direction is as shown in Figs. 1, 7 to 11, With reference to Figs. 13 and 14, the left and right directions are based on Figs. 1, 11, 13, and 14. In this case, the vertical direction is synonymous with the height direction, and the lateral direction is in agreement with the width direction.
As shown in Fig. 7, the mating housing 40 is made of a synthetic resin and has a tubular hood portion 41 which is directly connected to the device 90 and protrudes forward. A tub 43 of the mating terminal fitting 42 protrudes from the hood portion 41. A pair of relative lock portions 44 protrude from outer surfaces of the upper and lower walls of the hood portion 41. The relative lock portion 44 on the upper side of the both relative lock portions 44 can be engaged with the lock arm 23 described later of the housing 10 in this embodiment. Therefore, hereinafter, the relative lock portion 44 refers to the relative lock portion 44 on the upper side.
As shown in Fig. 3, the relative lock portion 44 includes a plate-like relative lock body 45 extending in the left-right direction, and a relative lock body 45 projecting forward from the center of the relative lock body 45 And includes a protruding portion 46 on the flat plate, and is formed in a T shape in plan view. As shown in Fig. 7, the relative lock main body 45 is arranged so as to vertically rise as a whole. The rear surface of the relative lock main body 45 is arranged to be inclined slightly rearward toward the upper end. The protruding portion 46 has a right triangular shape when viewed from the side, and the front edge thereof is an inclined edge 47 which is inclined in an upward slope toward the rear. The front end of the inclined edge 47 extends to the outer surface of the upper wall of the hood portion 41 and the rear end of the inclined edge 47 extends to the upper end of the relative lock body 45.
7, the housing 10 is made of a synthetic resin and has a housing main body 11 which is elongated in the front and rear direction, a tubular fitting portion 12 surrounding the periphery of the housing main body 11, And has a connecting portion 13 along the radial direction for connecting the tubular portion 12 and the housing main body 11. The front portion of the housing main body 11 is disposed so as to protrude forward from the front end of the fitting tube portion 12. [ The hood portion 41 of the mating housing 40 can be fitted into the space in front of the main body connecting portion 13 between the housing main body 11 and the fitting tube portion 12. [
The housing main body 11 is provided with a plurality of cavities 14 as shown in Fig. Each of the cavities 14 is provided side by side in pairs. As shown in Fig. 7, a bendable lance 15 protrudes forward from the bottom surface of the inner wall of the cavity 14 in front of the fitting tube 12. The terminal fittings 16 are inserted into the cavities 14 of the housing main body 11 from the rear.
As shown in Fig. 7, the terminal fitting 16 is formed in a shape elongated in the longitudinal direction as a whole, has a cylindrical terminal body 17 at its front end, and has an open barrel- (18) are provided. The tub 43 of the mating terminal fitting 42 is inserted into and connected to the terminal main body 17 when the both housings 10 and 40 are regularly fitted. The barrel portion 18 is connected to the terminal portion of the electric wire 20 and the rubber stopper 19 by crimping. When the terminal fitting 16 is normally inserted into the cavity 14, the terminal body 17 is elastically caught by the lance 15 so that the terminal fitting 16 is fixed to the cavity 14 Respectively. When the terminal fitting 16 is normally inserted into the cavity 14, the rubber stopper 19 comes into close contact with the inner peripheral surface of the rear end portion of the cavity 14 to seal the cavity 14 liquid- Is drawn out rearward from the housing main body (11).
As shown in Fig. 7, a front retainer 21 is attached to the housing main body 11 from the front. The front retainer 21 enters the bending space of the lance 15 to restrict the bending operation of the lance 15 and prevent the terminal fittings 16 from being removed from the cavity 14 secondarily. A rubber sealing ring 22 is fitted on the outer peripheral surface of the housing main body 11. 9, the seal rings 22 are resiliently inserted and held in the radial direction between the hood portion 41 and the housing main body 11 when the both housings 10, 40 are regularly fitted, The spaces between the housings 10, 40 are liquid-tightly sealed.
On the upper side of the housing main body 11, a lock arm 23 is provided. 7, the lock arm 23 includes a leg portion 24 erected from the upper surface of the housing main body 11, a lock arm body 25 extending in both forward and backward directions from the upper end of the leg portion 24, . The lock arm body 25 is swingably displaceable (elastically displaceable) in a seesaw shape with the leg portion 24 serving as a fulcrum. The rear end of the housing main body 11 is positioned rearward of the rear end of the lock arm body 25 and the upper surface of the rear end portion of the housing main body 11 is provided with an area in which the detection member 60 is slidable.
As shown in Fig. 9, a first groove portion 26 extending in the front-rear direction and opened at the rear end of the lock arm body 25 is formed on the upper portion of the lock arm body 25. The first groove portion 26 is opened on the upper surface of the lock arm body 25 except for the rear end side (the side covered by the movement restricting portion 36 described later). The front end of the first groove portion 26 is partitioned by the front end portion 27 of the lock arm body 25.
As shown in Figs. 9 and 10, a second groove portion 28 is formed in the lower portion of the lock arm body 25 and extends in the front-rear direction to open at the front end of the lock arm body 25. The rear end of the second groove portion 28 is partitioned by the lower wall portion 29 of the lock arm body 25. The lower wall portion 29 of the lock arm body 25 is located forward of the leg portion 24 and defines the lower surface of the first groove portion 26 on the front end side. 5, the lower wall 29 is provided with a recess 30 extending rearward from its front surface (the rear stop 33 described later). 10, the concave portion 30 is also opened on the upper surface of the lower wall portion 29 so as to face the first groove portion 26. As shown in Fig. The inner surface of the concave portion 30 (constituting a part of the rear stop portion 33) is arranged so as to be inclined rearward toward the lower end.
10, the lock arm body 25 is formed with a lock hole 31 at a position facing the front end portion 27. As shown in Fig. The lock hole 31 is formed such that the first groove portion 26 and the second groove portion 28 communicate with each other and penetrate in the vertical direction. 9, when the both housings 10, 40 are regularly fitted, the relative lock portions 44 are fitted in the lock holes 31 so that the both housings 10, have.
12, the front stop portion 32 is provided on the front side and the rear stop portion 33 is provided on the rear side of the front and back sides of the lock arm body 25 with the lock hole 31 interposed therebetween have. 10, the front stopper 32 is composed of the front face of the lock hole 31 and the rear face of the front end portion 27 of the lock arm body 25, and the front end of the first groove portion 26 . 5, the rear stopper 33 is constituted of the rear surface of the lock hole 31 and the front surface of the lower wall portion 29 of the lock arm body 25, and the rear end of the second groove portion 28 . Therefore, as shown in Fig. 10, the front stop portion 32 and the rear stop portion 33 are separated from each other by the upper and lower portions of the lock arm body 25, and are arranged so as to be shifted from each other in the vertical direction.
The front stop portion 32 and the rear stop portion 33 (excluding the inner surface of the recess 30) are all arranged along the vertical direction. When the detecting member 60 is in the waiting position, the engaging portion 72 of the engaging arm 62, which will be described later, comes into contact with the front stop portion 32 to restrict the forward movement of the detecting member 60 (See Fig. 5), and the retraction of the detecting member 60 is restricted by contacting the rear stopper 33 (see Fig. 5). The front stopper portion 32 is formed by releasing a metal mold (not shown) for molding the first groove portion 26 rearward and the rear stopper portion 33 is formed by molding the second groove portion 28 (Not shown) is formed in a forward direction.
A pair of side wall portions 34 for partitioning both side surfaces of the first groove portion 26 and the second groove portion 28 are formed at both left and right ends of the lock arm body 25 as shown in Figures 1 and 2, ). On the upper surface of the side wall portion 34, a pair of guide walls 35 extending in the front-rear direction are provided standing on the inner edge facing the first groove portion 26. 7, the guide wall 35 extends in the front-rear direction from the front end of the lock arm body 25 to a later-described movement restricting portion 36 and is formed into a rectangular plate-like shape when viewed from the side, It has a substantially constant height over its length. When the detecting member 60 is assembled to the housing 10, the catching arm 62 of the detecting member 60 is disposed between the both guide walls 35 (see FIGS. 1 and 2) Can be guided by both guide walls 35. As shown in Fig. The front end portion 27 of the lock arm body 25 has a block shape and extends in the left and right direction and extends between the front end portions of the side wall portions 34 (see FIG. 12). The lower wall portion 29 of the lock arm body 25 is formed in a plate shape and extends in the left and right direction and extends between the portions near the front end portions of the side wall portions 34 (see FIG. 12).
At the rear end portion of the lock arm body 25, a movement restricting portion 36 is provided as shown in Fig. The movement restricting portion 36 is in the shape of a plate for separating the upper surface of the rear end portion of the first groove portion 26 and extends in the left and right direction and extends between the guide walls 35. On the upper surface of the movement restricting portion 36, a receiving groove 37 is formed concavely. The receiving groove 37 is formed to extend in the front-rear direction and open at the rear end of the movement restricting portion 36. The front surface of the receiving groove 37 is arranged to be slightly inclined rearward toward the upper end. An operation arm 66, which will be described later, of the detecting member 60 can enter the receiving groove 37 of the movement restricting portion 36.
As shown in Figs. 4 and 11, a pair of outer side walls 38 are provided on the left and right sides of the fitting arm 12, with the lock arm 23 therebetween, Like top wall 39 is provided between the upper ends of the front portions of the front wall. The front side of the lock arm 23 is disposed in a space surrounded by both the outer side wall 38 and the ceiling wall 39 and protected from external foreign matter.
Next, the detection member 60 will be described. The detecting member 60 is made of a synthetic resin and is disposed in a space surrounded by the housing main body 11, the both outer side walls 38 and the ceiling wall 39 as shown in Figs. The detection member 60 slides the upper surface of the lock arm body 25 and the groove surface of the first groove portion 26 and slides on the standby position (Figs. 1 to 3, 5, 7, 8, and 10 (See Figs. 4, 6, and 9) rearward than the standby position. 13 to 15, the detecting member 60 includes a base portion 61 along the front-rear direction and the left-right direction, a latching arm 62 extending forward from the center of the base portion 61 in the lateral direction, A pair of extending barrel portions 63 extending forward from both ends in the left and right direction of the base portion 61 and a pair of upstanding wall portions 62 extending upward from the upper end of the extending barrel portion 63 in the front- And an operation arm 66 connected to the upper end of the both upright wall portions 64 at a central portion in the front and rear direction via a pair of support portions 65.
A pressing member (not shown) is accommodated in the extending cylindrical portion 63 along the longitudinal direction. The pressing member is constituted by a spring such as a compression coil spring which can expand and contract in the front-rear direction, and both front and rear ends thereof are supported on both the front and rear end sides of the extending cylindrical portion 63. As shown in Fig. 15, an assembling hole 68 for assembling the pressing member inside is formed in the lower surface of the extending tube portion 63. As shown in Fig. A detent projection 69 is provided on the lower surface of the extension tube portion 63 at the rear of the assembly hole 68. When the detection member 60 is in the detection position and the slip prevention protrusion 69 is caught by a projection receiving portion (not shown) of the housing 10, the detection member 60 is dropped backward from the housing 10 .
4, the operation arm 66 includes a substantially flat rectangular plate-like pushing operation portion 70 as viewed in plan view and a pair of engaging projections 70 projecting forward from the center in the lateral direction of the front end of the pushing operation portion 70 71). The both support portions 65 are connected to both left and right ends of the front end side of the pushing operation portion 70. The operation arm 66 is pivotally displaceable (elastically displaceable) in a seesaw- .
As shown in Fig. 7, the engaging projection 71 is formed by bending in a curved shape in which the front portion is projected forward from the front end of the pushing operation portion 70, and the front portion is bent. The front end edge of the engaging projection 71 enters the receiving groove 37 of the movement restricting portion 36 and is disposed so as to be contactable with the front surface of the receiving groove 37 when the detecting member 60 is at the detecting position, The movement of the detecting member 60 to the standby position is restricted. 8 and 9, the engaging projections 71 are omitted.
When the pressing operation portion 70 is pushed downward, the operation arm 66 swings in a seesaw-like manner and the engaging projection 71 is separated from the receiving groove 37 to move the detecting member 60 to the standby position Lt; / RTI > This prevents the detection member 60 from accidentally moving from the detection position to the standby position. On the other hand, when the detection member 60 is at the detection position, the relative lock portion 44 is fitted into the lock hole 31 of the lock arm body 25 so that the both housings 10, 40 are normally fitted, The rear end of the lock arm body 25 is also pressed downward to lift the front end portion 27 of the lock arm body 25 and the front end portion 27 of the lock arm body 25 is pulled up, And the relative lock portions 44 are released, whereby the both housings 10, 40 can be released.
7 and 13, the latching arm 62 has a cantilever-like, generally prismatic shape extending forwardly and forwardly from the front end of the base portion 61, and has a front end of the base portion 61 as a point So that it can be deformed in the vertical direction. As shown in Figs. 13 and 15, a latching portion 72 is provided on the front end side of the latching arm 62. As shown in Fig. The engaging portion 72 includes a leading end engaging portion 73 continuous from the middle portion of the engaging arm 62 and a engaging projection 74 projecting downward from the leading end engaging portion 73. [ 10, the front surface of the leading end engaging portion 73 is disposed along the vertical direction, and the leading end stopping portion 73 can be brought into contact with the front stop portion 32 of the lock arm body 25 when the detecting member 60 is at the standby position .
The engaging protrusion 74 is disposed at a position where the engaging protrusion 74 is recessed rearward from the front surface of the leading end engaging portion 73. [ 10, the engaging projection 74 has a substantially trapezoidal engaging body 75 as viewed from the side and a projecting portion 76 on the plate piece projecting rearward from the center of the rear surface of the engaging body 75 in the left- . 5 and 10, when the detecting member 60 is in the standby position, the latching protrusion 74 is disposed so as to be in contact with the rear stopper 33 of the lock arm body 25 from the front, As a result, retraction (movement to the detection position) of the detection member 60 is restricted. The rear surface of the engagement main body 75 (excluding the rear surface of the projecting portion 76) is disposed along the vertical direction and is capable of contacting the rear stop portion 33 of the lock arm body 25 at the standby position.
10, the front surface of the engagement main body 75 is a slope inclined rearward toward the lower end, facing the second groove portion 28 in the standby position, and is exposed frontward. As shown in Figs. 5 and 10, an engagement groove 77 extending rearward from the front surface is formed in the engagement body 75. The clearance groove 77 has a slit groove shape extending in the vertical direction and is also opened on the lower surface of the latch body 75. The protruding portion 46 of the relative lock portion 44 can be moved into and out of the clearance groove 77 in the fitting process of the both housings 10 and 40. [
As shown in Fig. 10, the projecting portion 76 has a rib shape extending in the front-rear direction, and the rear face is arranged to be inclined slightly rearward toward the lower end. The projecting portion 76 enters the recess 30 when the detecting member 60 is at the standby position and the rear face of the projecting portion 76 is disposed so as to be in contact with the inner face of the recess 30 have.
10 and 13, the detecting member 60 is provided with a contact portion 78 projecting forward after being raised from the leading end engaging portion 73 of the engaging arm 62. As shown in Fig. The abutment portion 78 is in the form of a piece piece extending in the front-back direction, leading to the upper surface of the engaging arm 62 in a stepped shape. The lower surface of the abutment portion 78 is disposed along the forward and backward direction at substantially the same height as the upper surface of the engaging arm 62. When the detecting member 60 is in the standby position, 27 so as to face each other. 10, the lower surface of the abutting portion 78 is connected to the front surface of the leading end engaging portion 73 at a substantially right angle, and an angled concave (79). The upper corner of the front end portion 27 of the lock arm body 25 is fitted into the angled recess 79 when the detecting member 60 is at the standby position. The upper surface of the contact portion 78 is disposed along the front and rear direction and the rear surface of the contact portion 78 is arranged to be inclined forward from the upper surface of the engagement arm 62 to the upper surface of the contact portion 78. An area behind the rear surface of the contact portion 78 of the detecting member 60 is opened as a clearance space 80. [
Next, the operation of the connector of this embodiment will be described.
The detecting member 60 is inserted into the housing 10 from behind and assembled in the standby position prior to fitting the both housings 10, The engaging arms 62 are inserted into the first groove portions 26 between the guide walls 35 of the lock arm body 25 and the engaging projections 74 The engaging arm 62 is bent upward by contacting with the lower wall portion 29. When the detecting member 60 reaches the standby position, the engaging arm 62 resiliently returns to engage the engaging portion 72 with the lock hole 31 as shown in Fig. 10, and the front surface of the leading end engaging portion 73 The lower surface of the abutting portion 78 is disposed to be in contact with the front end portion 27 of the lock arm body 25 from above And the upper corner portion of the front end portion 27 of the lock arm body 25 is fitted to the angled recess 79 in a positioned state. In the standby position, the rear surface (including the rear surface of the projecting portion 76) of the locking projection portion 74 includes the rear stop portion 33 (the inner surface of the recess portion 30) of the lock arm body 25 As shown in Fig. Thereby, the detection member 60 is maintained in a state in which the movement in the forward and backward directions is restricted in the standby position.
The movement restricting portion 36 of the lock arm 23 enters the free space 80 of the detecting member 60 in the state where the detecting member 60 is held in the standby position with respect to the housing 10, The portion 36 and the contact portion 78 are arranged so as to overlap with each other in the vertical direction (see Fig. 7). 2, guide walls 35 are disposed so as to oppose both side surfaces of the latching arm 62 on both left and right sides with the latching arm 62 therebetween. At this time, the hooking arm 62 is entirely covered by both guide walls 35, and is invisible when viewed from the side because it is covered by the guide wall 35 (see Fig. 7). The guiding arm 62 is guided by the guiding arm 62 so that the guiding arm 62 is laterally moved in the lateral direction Is prevented. In the standby position, the pressing member is pressed against the mating housing 40 from the front and is elastically contracted to accumulate the urging force so that the rear surface of the locking projection 74 abuts against the rear stop 33 of the lock arm body 25. [ And is tightly contacted with.
7, the housing main body 11 of the housing 10 is fitted into the hood portion 41 of the mating housing 40. Then, as shown in Fig. 8, the inclined edge 47 of the protruding portion 46 of the relative lock portion 44 is engaged with the front end portion 27 of the lock arm body 25 The lock arm body 25 is deformed upward so that the front end portion 27 is laid on the inclined edge 47. As a result, At this time, the contact portion 78 contacts the front end portion 27 of the lock arm body 25 from above, and the upper corner portion of the front end portion 27 of the lock arm body 25 is engaged with the angled recess portion 79 The engaging arm 62 is substantially integrally formed with the lock arm body 25 so that the engaging arm 62 is also bent upward in cooperation with the lock arm 23. [ In addition, in the process of fitting the housings 10, 40, the protruding portion 46 of the relative lock portion 44 can enter the clearance groove 77 of the latching protrusion 74 from the front, It is avoided that the lock portion 44 interferes with the engaging projection portion 74. Therefore, in the process of engaging the both housings 10, 40, the engagement protrusion 74 is prevented from coming out of the lock hole 31, thereby assuring a state in which the detection member 60 is held in the standby position.
When the both housings 10 and 40 are properly fitted, the lock arm 23 elastically returns and the relative lock main body 45 of the relative lock portion 44 is fitted into the lock hole 31 from below, The latching portion 72 is pushed by the relative lock portion 44 and the latching arm 62 is bent and deformed so that the latching protrusion portion 74 is separated from the rear stopping portion 33. [ Thus, the engagement of the engagement arm 62 and the lock arm 23 is released. Further, the engaging projection portion 74 is separated from the rear stop portion 33 and at the same time, the pressing force of the pressing member is released, and the detecting member 60 is retracted to automatically reach the detection position (see Fig. 9). The relative lock main body 45 of the relative lock portion 44 is disposed so as to be able to contact the front stop portion 32 of the lock arm body 25 so that the both housings 10, Lt; / RTI >
The protruding portion 46 of the relative lock portion 44 enters the recess 30 of the lower wall portion 29 and escapes when the detection member 60 reaches the detection position so that the latching arm 62 is separated from the lower wall portion 29, The front end edge of the engaging projection 71 of the operation arm 66 is elastically fitted in the receiving groove 37 of the movement restricting portion 36 (see FIG. 6) 4), the slip-off preventing protrusion 69 is caught in the projection receiving portion (not shown) of the housing 10. [ As a result, the detection member (60) is kept in a state in which the movement in both forward and backward directions is restricted from the detection position. 9 (a) and 9 (b), the hooking arm 62 is entirely covered from both sides by the guide walls 35 so that the hooking arm 62 is covered by the guide wall 35 when viewed from the side, Reference).
On the other hand, if the both housings 10, 40 are not properly engaged, the relative lock portion 44 does not reach the position where the lock hole 44 is fitted into the lock hole 31, and the engagement projection portion 74 of the engagement arm 62, The state where the detecting member 60 is in contact with the rear stop 33 of the detecting member 25 is maintained. Therefore, when the detecting member 60 is in the standby position, when both the housings 10 and 40 are not normally engaged and the detecting member 60 is at the detecting position, it is determined that both the housings 10 and 40 are properly fitted can do.
As described above, according to the present embodiment, when the detecting member 60 is in the standby position, the engaging portion 72 enters the lock hole 31, and the front surface of the leading end engaging portion 73 is engaged with the lock arm The forward movement of the detection member 60 is restricted by contacting the front stop portion 32 of the main body 25 and the rear surface of the locking projection portion 74 contacts the rear stop portion 33 of the lock arm body 25, Retraction of the member 60 is regulated. In this case, since the front stop portion 32 and the rear stop portion 33 are disposed on both sides of the front and rear sides of the lock hole 31, the lock hole 31 is shared, The forward movement and the retraction movement of the guide member 60 can be regulated to a simple structure. Particularly, since the rear surface of the latching protrusion 74 is contacted and fixed to the rear stop 33 of the lock arm body 25 against the urging force of the pressing member, the engagement portion 72 is caught by the lock arm body 25 Can be stably maintained.
In addition, the front stop portion 32 and the rear stop portion 33 are arranged to be shifted from each other in the vertical direction, and the front stop portion 32 is molded together with the first groove portion 26 by a mold which is withdrawn rearward, Since the rear stopper portion 33 is formed together with the second groove portion 28 by means of the mold that is forwardly released, the height of the front stopper portion 32 It is possible to make adjustment such that the margin is greater than the height range of the rear stopper 33 (the engagement margin with respect to the rear surface of the engagement projection 74), and the like, and the degree of freedom in designing is high.
Since the front end portion 27 of the lock arm body 25 is in contact with the front end portion 27 of the lock arm body 25 from above when the detecting member 60 is in the standby position, The contact portion 78 can also move upward due to interference with the relative lock portion 44 so that the bending operation of the latching arm 62 can be synchronized with the bending operation of the lock arm 23. [ Therefore, the integrity of the lock arm 23 and the detection member 60 is secured. Since the contact portion 78 is formed so as to protrude forward after being raised from the front end engagement portion 73 of the engagement arm 62, the rear region of the contact portion 78 in the detection member 60 The clearance restricting portion 36 can be provided in such a manner as to enter the free space 80. As a result, the degree of freedom in designing the lock arm 23 can be increased. In addition, since the movement restricting portion 36 and the abutting portion 78 are disposed at positions where they are overlapped with each other in the up-and-down direction, the overall height of the connector is avoided.
In the process of fitting the both housings 10 and 40, the protrusion 46 enters the clearance groove 77 of the latching protrusion 74, so that interference between the relative lock portion 44 and the latching protrusion 74 can be avoided The engagement portion 72 is prevented from inadvertently coming out of the lock hole 31 and the engagement between the engagement arm 62 and the lock arm 23 can be satisfactorily maintained. As a result, the reliability of the fitting detection by the detecting member 60 can be improved. Particularly, in the case of this embodiment, since the front surface of the latching protrusion 74 is exposed at a position facing the relative lock portion 44, the engagement protrusions 74 There is a high possibility that the front surface is likely to hit the inclined edge 47 of the relative lock portion 44. Therefore, by forming the clearance groove 77 in the latching protruding portion 74, the merit of making it possible to avoid the interference between the relative lock portion 44 and the latching portion 72 is large.
Both guide walls 35 of the lock arm 23 are arranged so as to cover both sides of the latching arm 62 so that the latching arm 62 can be positioned at any position of the detection member 60, It is possible to prevent the latching arm 62 from swaying sideways (in the width direction) during the bending operation. As a result, the bending operation of the latching arm 62 is performed smoothly, and the reliability of the fitting detection by the detecting member 60 can be improved. Further, since the engaging arm 62 is in a state in which the engaging arm 62 is not seen from the side by the guide wall 35 regardless of whether the detecting member 60 is in the standby position or the detecting position, And is kept protected from external foreign matter by the guide wall 35.
<Other Embodiments>
Hereinafter, other embodiments will be briefly described.
(1) The detection member may advance from the standby position to the housing and reach the detection position.
(2) The detecting member may be such that the pressing member is not accommodated inside, and the detecting member is manually moved between the standby position and the detecting position.
(3) The lock arm may be provided with a structure other than the movement restricting portion at a position where the lock arm is overlapped with the contact portion in the vertical direction.
(4) One or both of the front stop portion and the rear stop portion may be inclined with respect to the vertical direction.
(5) The clearance groove may be a shape that penetrates the engaging projection in the front-rear direction.
(6) The present invention is also applicable to a non-discharge type connector in which a sealing ring is not mounted on a housing but a rubber stopper is not connected to a terminal fitting.
