JP3664428B2 - Connector mating structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is a fitting structure of a direct attachment type connector used to directly connect various electronic devices and electric wires, and more specifically, to prevent incomplete fitting and to ensure fitting locking. The present invention relates to a connector fitting structure.
[0002]
[Prior art]
Conventionally, for example, a connector fitting structure as disclosed in JP-A-9-134757 is known.
As shown in FIG. 11, the conventional connector fitting structure 61 includes a first connector 62 that is mounted integrally with an electrical device or the like, and a first cable that is mounted with an electric wire mainly crimped with connector terminals at the ends. 2 connectors 63. The second connector 63 includes a housing body 64 and a slider 65 that is slidable in the axial direction on the outer periphery of the housing body 64 and elastically biased forward by a spring member (not shown).
[0003]
An engagement groove 67 and a locking projection 68 are provided at the distal end portion of the housing 66 of the first connector 62. A flexible lock arm 70 having a lock portion 69 that engages with the engagement groove 67 is provided at the distal end portion of the housing main body 64.
Further, the slider 65 is provided with an abutting portion 71 that is elastically biased forward in the axial direction to control the bending of the lock arm 70 and that abuts against the locking projection 68 at the front end portion. The abutment portion 71 is provided at the front end portion of the cantilever arm 72, and the cantilever arm 72 is provided at the rear end portion of the slider 65, can be bent outward, and has a rectangular slide hole 73 in the center. Yes.
Further, a cantilever arm push-up projection 74 is formed at a position corresponding to the slide hole 73 of the housing body 64.
[0004]
As shown in FIG. 12, in the connector fitting structure 61 configured as described above, when the first and second connectors 62 and 63 are fitted to each other, the tip of the cantilever arm 72 provided on the slider 65 is firstly provided. The abutting portion 71 is abutted against a locking projection 68 formed on the housing 66 of the first connector 62. When the housing main body 64 of the second connector 63 is further pushed in the fitting direction, only the housing main body 64 advances in the fitting direction while the slider 65 is stopped.
[0005]
Then, as shown in FIG. 13, since the first half portion of the lock arm 70 is exposed from the slider 65, it is easy to bend upward. Therefore, when the housing body 64 is further pushed in, the lock portion 69 rides on the front end portion of the counterpart housing 66 and moves forward.
As shown in FIG. 14, the cantilever arm push-up projection 74 pushes up the contact portion 71 and releases the lock by the lock projection 68 immediately before the lock portion 69 is locked in the engagement groove 67. As a result, at the same time that the lock portion 69 is locked in the engagement groove 67, the slider 65 moves forward by the elastic biasing force and covers the locked lock portion 69 to prevent the lock portion from coming off.
[0006]
In order to release the fitting of the first and second connectors 62 and 63, when the slider 65 is pulled back, the slider 65 has a movement restricting mechanism (not shown) between the housing main body 64 and the housing main body. 64 is also pulled back. At this time, the lock portion 69 is not covered with the slider 65, and the rear surface of the lock portion 69 has an inclined surface, so that the lock arm 70 is bent outwardly from the engagement of the engagement groove 67. Canceled. Thereby, the first and second connectors 62 and 63 can be detached from each other.
[0007]
[Problems to be solved by the invention]
However, in the conventional connector fitting structure 61, as shown in FIG. 13, a lock portion 69, a lock arm 70, and an engagement groove 67 as a lock mechanism are provided on the upper side in the drawing. On the other hand, a locking projection 68, a contact portion 71, and a cantilever arm push-up projection 74 as a detection mechanism are provided on the lower side in the drawing. Therefore, when the first and second connectors 62 and 63 are inserted with an extreme inclination, there is a problem in that the timing of the lock mechanism and the detection mechanism is shifted and the fitting is stopped halfway, resulting in incomplete fitting. It was.
[0008]
That is, when the contact portion 71 is removed from the locking projection 68 and the slider 65 is advanced by the elastic biasing force, the slider 65 rides on the lock arm 70 and stops unless the lock portion 69 falls into the engagement groove 67. End up.
Further, since only the housing main body 64 inside the slider 65 is pushed in when the first and second connectors 62 and 63 are fitted, it is difficult to operate, and when releasing the fitting, only the slider 65 is pulled. There is a problem that it is easy to operate incorrectly because it is a simple structure.
[0009]
An object of the present invention is made in view of the above problems, and a connector fitting structure that is easy to operate and has good workability while preventing incomplete fitting even when the connector is inclined and fitted. It is to provide.
[0010]
[Means for Solving the Problems]
According to the present invention, there is provided a first connector having an engagement groove and a locking projection at a front end portion of a housing, and a flexible lock arm having a lock portion engaging with the engagement groove at a front end portion. And a slider having a contact portion that is elastically urged by an elastic member in the axial direction to prevent incomplete fitting and abuts against the locking projection at a front end portion. In the connector fitting structure comprising two connectors, the slider is mounted in the housing body so as to straddle the lock arm and slidable back and forth and up and down, and the contact portion is provided on the lock arm. This can be solved by a connector fitting structure characterized in that a push-up protrusion for pushing up is provided.
[0011]
According to the connector fitting structure configured as described above, the lock arm, the lock portion, the locking protrusion and the engaging groove as the locking mechanism, and the contact portion and the push-up protrusion as the detection mechanism are provided on the first and second connectors. Since they are close to the same line, even when they are tilted and fitted, the operation timings of the locking mechanism and the detection mechanism are not shifted and are not left in an incompletely fitted state.
Further, since the slider is in the housing body, all the fitting and releasing operations are performed by the movement of the housing body, so that the operations at the time of fitting and releasing can be easily and reliably performed. Therefore, a connector fitting structure with high reliability and excellent workability can be obtained.
[0012]
The above-mentioned subject concerning the present invention is a flexible lock arm having a first connector having an engaging groove and a locking projection at the front end of the housing, and a lock portion engaging with the engaging groove at the front end. A slider body having an abutting portion that is elastically biased by an elastic member in an axial direction to control the bending of the lock arm and abuts against the locking projection at a front end portion. In the connector fitting structure comprising the second connector attached to the slider, the slider is mounted in the housing body so as to be slidable back and forth so as to straddle the lock arm, and the slider is flexible to the left and right. A pair of the cantilever arms are provided so as to protrude forward, a pair of the abutting portions having a release slope on the rear surface at the upper front end inside the cantilever arm, and a lower center portion A pair of anti-bending parts for controlling the bending of the locking arm, and the cantilever arm is extended left and right on the central outer surface of the locking arm to unlock the slider by the abutting part. This can be solved by a connector fitting structure characterized in that a pair of opening protrusions are provided.
[0013]
According to the connector fitting structure configured as described above, the lock arm, the lock portion, the locking protrusion, and the engaging groove as the locking mechanism, and the contact portion, the deflection preventing portion, and the opening protrusion as the detection mechanism are first, Since it is close to the same line of the second connector, even if the first and second connectors are tilted and fitted, the operation timing of the locking mechanism and the detection mechanism will be shifted and will not be left in an incompletely fitted state. .
Further, the fitting operation only needs to press the housing body in the fitting direction, and the release operation only needs to pull the slider in the anti-fitting direction, so that the operation is simple and there is no fear of erroneous operation. Furthermore, since the slider only moves in the axial direction within the housing body, a smooth elastic bias can be expected. Therefore, a connector fitting structure with higher reliability and excellent workability can be obtained.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a first embodiment of the connector fitting structure of the present invention will be described in detail with reference to FIGS. 1 to 5. 1 is a longitudinal sectional view showing a first embodiment of a connector fitting structure of the present invention at the start of fitting, FIG. 2 is an exploded perspective view of a housing body and a slider in FIG. 1, and FIG. 3 is in the middle of fitting in FIG. FIG. 4 is an operation explanatory diagram illustrating a state in the middle of the fitting in which the fitting has further progressed in FIG. 3, and FIG. 5 is an operation explanatory diagram illustrating a fitting completion state in FIG. 4.
[0015]
As shown in FIGS. 1 to 5, the connector fitting structure 1 of the present embodiment is provided with a first connector 2 that is mainly attached integrally to an electrical device and the like, and an electric wire mainly having a connector terminal crimped to an end thereof. And a second connector 3. The second connector 3 includes a housing body 4 and a slider 5 that is slidable in the front-rear direction and the up-down direction in the slider accommodating portion 4a of the housing body 4 and elastically biased forward by a compression spring 25. Has been.
[0016]
An engagement groove 7 and a locking projection 8 are provided at the front end of the housing 6 of the first connector 2, and a lock portion 9 that engages with the engagement groove 7 is provided at the front end of the housing body 4 of the second connector 3. A flexible lock arm 10 is provided.
Further, as shown in FIG. 2, the slider 5 is provided with an abutting portion 11 that abuts against the locking protrusion 8 at the front end portion in order to temporarily stop the advance of the slider 5 when fitted. The contact portion 11 is attached to the upper part of the front end of the slider 5 and has an inclined surface 11a on the rear surface.
A pair of guide protrusions 12 protrude outwardly from the lower front end of the left and right side surfaces of the slider 5 and move around the guide rails 13 provided to protrude from the left and right inner surfaces of the slider accommodating portion 4a. To help move.
Further, a push-up projection 14 for pushing up the slider 5 is formed on the lock arm 10 behind the lock portion 9 at a position corresponding to the contact portion 11.
[0017]
A male connector terminal 18 protrudes in the internal space 15 of the housing 6 of the first connector 2, and a female connector terminal 19 is mounted in the terminal accommodating chamber 16 of the housing body 4.
A pressing plate 17 for bending the lock arm 10 downward is provided at the rear end of the push-up protrusion 14, and a stopper protrusion 20 for stopping the abutting portion 11 is provided inside the front end of the housing body 4. Yes.
[0018]
In the connector fitting structure 1 configured as described above, when the first and second connectors 2 and 3 are fitted to each other as shown in FIG. 1, first, the front end surface of the contact portion 11 provided on the slider 5 is the first. Since the slider 5 is brought into contact with the locking projection 8 formed on the housing 6 of the connector 2, the slider 5 is temporarily prevented from advancing. Further, when the housing body 4 of the second connector 3 is pushed in the fitting direction, only the housing body 4 moves forward in the fitting direction while the slider 5 is stopped.
Then, as shown in FIG. 3, the inclined surface at the tip of the locking projection 8 is brought into contact with the inclined surface at the tip of the lock portion 9 and pushes down the lock portion 9, so that the lock arm 10 bends downward. Then, the lock portion 9 moves forward so as to pass through the front end of the counterpart housing 6. At this time, the slider 5 is pushed upward while sliding the front end face of the locking projection 8 because the inclined surface 11a of the contact portion 11 is brought into contact with the push-up projection 14 while resisting the elastic biasing force of the compression spring 25.
[0019]
Thereafter, as shown in FIG. 4, the push-up protrusion 14 further pushes up the contact portion 11 immediately before the lock portion 9 is locked in the engagement groove 7. Then, as shown in FIG. 5, simultaneously with the locking portion 9 being locked in the engagement groove 7, the slider 5 is advanced by the elastic biasing force of the compression spring 25 until it abuts against the stopper protrusion 20 at the front end of the housing body 4. As a result, the fitting operation of the first and second connectors 2 and 3 is completed, and both the connectors are locked in the completely fitted state, and the male and female connector terminals 18 and 19 are electrically connected. Is done.
[0020]
Further, when the fitting of the first and second connectors 2 and 3 is released, the lock portion 9 is detached from the engaging groove 7 when the pressing plate 17 is pressed and the lock arm 10 is bent downward. By pulling the main body 4 in the anti-fitting direction, both the connectors 2 and 3 can be released.
[0021]
As described above, in the connector fitting structure 1 of this embodiment, the slider 5 is mounted in the housing body 4 so as to straddle the lock arm 10 and slidable back and forth and up and down. A push-up projection 14 for pushing up the contact portion 11 is provided.
Therefore, the engagement groove 7, the engagement protrusion 8, the lock portion 9 and the lock arm 10 as the engagement mechanism, and the contact portion 11 and the push-up protrusion 14 as the detection mechanism are included in the first and second connectors 2 and 3. Even if they are close to each other on the same line and are fitted with an inclination, the operation timing of the locking mechanism and the detection mechanism is not shifted and the part is not left in an incompletely fitted state.
[0022]
Since the slider 5 completely enters the housing body 4 at the time of complete fitting, it can be detected visually. Further, since the slider 5 is in the housing main body 4, all the fitting and releasing operations are performed by moving the housing main body, so that the operation is easy and there is no fear of erroneous operation. Therefore, a connector fitting structure with high reliability and excellent workability can be obtained.
[0023]
Next, a second embodiment of the connector fitting structure of the present invention will be described in detail with reference to FIGS. 6 is a longitudinal sectional view showing a second embodiment of the connector fitting structure of the present invention at the start of fitting, FIG. 7 is an exploded perspective view of the housing body and slider in FIG. 6, and FIG. 8 is in the middle of fitting in FIG. FIG. 9 is an operation explanatory diagram showing a state in the middle of fitting in FIG. 8, and FIG. 10 is an operation explanatory diagram showing a fitting completion state in FIG.
[0024]
As shown in FIGS. 6 to 10, the connector fitting structure 31 of the present embodiment is provided with a first connector 32 that is integrally attached mainly to an electric device and an electric wire mainly having a connector terminal crimped to an end thereof. The second connector 33. The second connector 33 includes a housing body 34 and a slider 35 that slides in the housing body 34 in the front-rear direction and is elastically biased forward by a compression spring 55.
[0025]
An engagement groove 37 and a locking projection 38 are provided at the distal end portion of the housing 36 of the first connector 32, and a lock portion 39 that engages with the engagement groove 37 at the distal end portion of the housing body 34 of the second connector 33. A flexible lock arm 40 is provided. The slider 35 is mounted in the housing main body 34 so as to be slidable back and forth so as to straddle the lock arm 40, and a pair of flexible cantilever arms 43, 43 project forward from the slider 35. It is provided as follows.
Further, inside the cantilever arm 43, a pair of contact portions 41, 41 having a release slope 42 on the rear surface at the upper front end, and a pair of deflection preventing portions 44 for controlling the deflection of the lock arm 40 at the lower center. , 44 are provided.
[0026]
Further, as shown in FIG. 7, a pair of cantilever arms 43, 43 are extended left and right on the center outer surface of the lock arm 40 to release the slider 35 locked by the contact portion 41. A groove 46 and an open slope 47 through which the open protrusion 45 passes are provided inside the cantilever arm 43.
Further, a knob 48 for releasing the fitting of the first and second connectors 32, 33 is provided on the upper surface of the rear end of the slider 35, and a stopper projection 49 on the lock arm 40 is provided on the slider 35 with respect to the housing body 34. Regulate the movement of A male connector terminal 51 projects into the internal space 50 of the housing 36 of the first connector 32, and a female connector terminal 53 is mounted in the terminal accommodating chamber 52 of the housing body 34.
[0027]
In the connector fitting structure 31 configured as described above, when the first and second connectors 32 and 33 are fitted to each other as shown in FIG. 6, first, the front end surface of the contact portion 41 provided on the slider 35 is the first. It abuts on the locking projection 38 of the connector 32. When the housing main body 34 of the second connector 33 is pushed in the fitting direction, only the housing main body 34 advances in the fitting direction while the slider 35 is stopped.
Then, as shown in FIG. 8, the inclined surface at the distal end of the locking projection 38 is brought into contact with the inclined surface at the distal end of the lock portion 39 to push down the lock portion 39, so that the lock arm 40 is bent downward. As a result, the lock portion 39 moves forward under the front end portion of the counterpart housing 36.
[0028]
At this time, as shown in FIGS. 7 and 9, the opening protrusion 45 abuts against the opening slope 47 at the front end of the groove 46, so that the pair of cantilever arms 43, 43 of the slider 35 are pushed open in the left-right direction. Then, as shown in FIG. 10, the contact portion 41 that has been in contact with the locking protrusion 38 is opened in the left-right direction, so that the slider 35 moves toward the front end of the housing body 34 by the elastic biasing force of the compression spring 55. At the same time, the lock portion 39 is locked in the engagement groove 37. And since the bending prevention part 44 hold | suppresses the front-end | tip part of the lock arm 40 so that it may not bend from the bottom, the locked state by vibration etc. will not be removed, but the fitting of the 1st, 2nd connectors 32 and 33 is completed. .
[0029]
Next, when releasing the fitting of the first and second connectors 32 and 33, if the knob 48 of the slider 35 is pulled in the anti-fitting direction while resisting the elastic biasing force of the compression spring 55, the bending preventing portion 44 comes off the lower end of the lock arm. At this time, the release slope 42 of the contact portion 41 pushes down the lock portion 39 to release the locked state by the engagement groove 37, so that the housing body 34 can be easily pulled out of the housing 36 in combination with the elastic biasing force of the compression spring 55. Can do.
[0030]
As described above, according to the connector fitting structure 31 of the present embodiment, the slider 35 is mounted in the housing body 34 so as to be slidable back and forth so as to straddle the lock arm 40. The slider 35 is provided with a pair of flexible cantilever arms 43 on the left and right so as to protrude forward. In addition, a pair of contact portions 41 and 41 having a release slope 42 on the rear surface at the upper front end inside the cantilever arm 43, and a pair of bending prevention portions for controlling the bending of the lock arm 40 at the lower center. 44, 44 are provided. Further, a pair of open projections 45, 45 are provided on the outer surface of the center of the lock arm 40 to open the pair of cantilever arms 43 in the left-right direction and release the lock of the slider 35 by the contact portion 41.
[0031]
Accordingly, the lock arm 40, the lock portion 39, the locking projection 38, and the engagement groove 37 as the locking mechanism, and the contact portion 41, the deflection preventing portion 44, and the release projection 45 as the detection mechanism are the first and second. Since the connectors 32 and 33 are close to the same line, even if the first and second connectors 32 and 33 are tilted and fitted, the operation timing of the locking mechanism and the detection mechanism is shifted and left in an incompletely fitted state. Never happen.
[0032]
Further, the complete fitting state can be visually detected by the position of the slider 35 with respect to the housing main body 34. Further, since the fitting operation is performed by the pressing movement of only the housing main body 34 and the releasing operation is performed by the pulling movement of only the slider 35, the fitting and releasing operation is easy.
Furthermore, since the slider 35 only moves in the front-rear direction within the housing body 34, a smooth elastic bias can be expected. Therefore, a connector fitting structure with high reliability and excellent workability can be obtained.
[0033]
In addition, the connector fitting structure of this invention is not limited to embodiment mentioned above, Other forms can also be implemented by making an appropriate change. For example, in the embodiment described above, a pair of the lock arms 10 and 40 and the lock portions 9 and 39 are provided. However, the lock projections 8 and 38 and the engagement grooves 7 and 37 on the lock partner side are designed to correspond to each other. If so, there may be a configuration in which one is provided in the center.
[0034]
【The invention's effect】
As described above, according to the connector fitting structure of the present invention, the slider is mounted in the housing main body so as to straddle the lock arm and slidable back and forth and up and down, and the contact portion is pushed up to the lock arm. A push-up projection is provided.
Accordingly, the locking arm, the locking portion, the locking projection and the engaging groove as the locking mechanism and the contact portion and the push-up projection as the detection mechanism are close to the same line of the first and second connectors, so that they are inclined. Even if they are fitted together, the operation timing of the locking mechanism and the detection mechanism is not shifted, and is not left in an incompletely fitted state.
Further, since the slider is in the housing body, all the fitting and releasing operations are performed by the movement of the housing body, so that the operations at the time of fitting and releasing can be easily and reliably performed. Therefore, a connector fitting structure with high reliability and excellent workability can be obtained.
[0035]
Further, according to the connector fitting structure of the present invention, the slider is mounted in the housing body so as to be slidable back and forth so as to straddle the lock arm, and the slider has a pair of flexible cantilever arms on the left and right. A pair of abutment portions having a release slope on the rear surface at the front end upper portion and a pair of flexure prevention portions for controlling the flexure of the lock arm at the lower center portion are provided so as to protrude forward and inside the cantilever arm. Provided on the outer surface of the center of the lock arm is a pair of opening protrusions for expanding the cantilever arm to the left and right to unlock the slider by the abutment.
Accordingly, the lock arm, the lock portion, the locking projection and the engaging groove as the locking mechanism, and the contact portion, the deflection preventing portion and the release projection as the detection mechanism are close to the same line of the first and second connectors. Therefore, even if the first and second connectors are tilted and fitted, the operation timings of the locking mechanism and the detection mechanism are not shifted and are not left in an incompletely fitted state.
Further, the fitting operation only needs to press the housing main body in the fitting direction, and the releasing operation only needs to pull the slider in the anti-fitting direction, so that the operation is simple and there is no fear of erroneous operation. Furthermore, since the slider only moves in the axial direction within the housing body, a smooth elastic bias can be expected. Therefore, a connector fitting structure with higher reliability and excellent workability can be obtained.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view showing a first embodiment of a connector fitting structure of the present invention at the start of fitting.
FIG. 2 is an exploded perspective view of a housing body and a slider in FIG.
3 is an operation explanatory view showing a state in the middle of fitting in FIG. 1. FIG.
4 is an operation explanatory diagram showing a state in the middle of fitting in which the fitting has further advanced in FIG. 3; FIG.
FIG. 5 is an operation explanatory diagram showing a fitting completion state in FIG. 4;
FIG. 6 is a longitudinal sectional view at the start of fitting showing a second embodiment of the connector fitting structure of the present invention.
7 is an exploded perspective view of a housing body and a slider in FIG.
8 is an operation explanatory view showing a state in the middle of fitting in FIG. 6. FIG.
FIG. 9 is an operation explanatory diagram showing a state in the middle of fitting in which the fitting has further progressed in FIG. 8;
10 is an operation explanatory view showing a fitting completion state in FIG. 9. FIG.
FIG. 11 is a longitudinal sectional view showing an example of a conventional connector fitting structure.
12 is an operation explanatory view at the start of fitting in FIG. 11. FIG.
13 is an operation explanatory view in the middle of fitting in FIG.
14 is an operation explanatory diagram of completion of fitting in FIG. 11. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1, 31 Connector fitting structure 2, 32 1st connector 3, 33 2nd connector 4, 34 Housing main body 5, 35 Slider 6, 36 Housing 7, 37 Engaging groove 8, 38 Locking protrusion 9, 39 Lock part 10 , 40 Lock arms 11, 41 Abutting portion 14 Push-up projections 25, 55 Compression spring (elastic member)
42 Release slope 43 Cantilever arm 44 Deflection prevention part 45 Opening protrusion

Claims (2)

A housing body provided with a first connector having an engagement groove and a locking projection at the front end of the housing and a flexible lock arm having a lock portion engaged with the engagement groove at the front end is incomplete. A connector fitting comprising: a second connector in which a slider having a contact portion which is elastically urged by an elastic member in the axial direction to prevent fitting and has a contact portion which contacts the locking projection at a front end portion is mounted on the housing body. In the combined structure,
The slider is mounted in the housing body so as to straddle the lock arm and slidable back and forth and up and down, and a push-up protrusion for pushing up the abutting portion is provided on the lock arm. Characteristic connector fitting structure. A housing body provided with a first connector having an engagement groove and a locking projection at the front end of the housing, and a flexible lock arm having a lock portion engaged with the engagement groove at the front end; A second connector mounted on the housing body with a slider that is elastically biased by an elastic member in the axial direction to control the arm deflection and has a contact portion that contacts the locking projection at the front end portion; In the connector mating structure,
The slider is mounted in the housing body so as to be slidable back and forth so as to straddle the lock arm, and a pair of flexible cantilever arms are provided on the slider so as to protrude forward. Inside the cantilever arm, a pair of the abutting portions having a release slope on the rear surface at the upper front end and a pair of bending prevention portions for controlling the bending of the lock arm at the lower center portion are provided. A connector fitting structure, wherein a pair of opening protrusions for releasing the slider lock by the abutting portion by expanding the cantilever arm to the left and right are provided on a central outer surface.

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