JP4166903B2 - Connector mating structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention reliably prevents mid-fitting by the repulsive force of an elastic member attached to at least one housing of a pair of male and female connectors to be fitted and connected to each other, and reliably locks the mating connector with the mating connector. The present invention relates to a connector fitting structure that can be performed and can be easily released.
[0002]
[Prior art]
Usually, a vehicle such as an automobile is equipped with a large number of electronic devices, and various cables and male and female connectors for connecting the cables are often used for power supply and control to the devices. This male / female connector has a waterproof function in consideration of use in harsh environments such as vibration and submersion, and has a function to easily connect and disconnect cables in consideration of the assembly process and maintenance. is doing. Various connector fitting structures that can detect the fitting state of the male and female connectors have been proposed.
[0003]
An example of a connector fitting structure that can detect the fitting state of a conventional male and female connector will be described with reference to FIGS.
As shown in FIG. 9, a male connector 60 which is one of the connectors constituting the conventional connector fitting structure 51 has an inner housing 62 provided with a terminal accommodating chamber and opened forward, and a slider 70 which will be described later slides on the upper portion. The outer housing 61 is formed so as to be capable of being attached and forms a hood portion covering the outer periphery of the inner housing 62.
[0004]
The outer housing 61 is for forming a slider accommodating portion 63 that accommodates the slider 70, and a guide groove 65 for guiding both end portions of the slider 70 is provided on the inner wall of the housing on both end portions thereof. A lock arm 66 having a free end portion on the front side along the axis of the fitting direction is integrally provided on the inner housing 62 in the slider accommodating portion 63.
[0005]
In addition, a pair of housing locks 68 are provided at the upper end of the lock arm 66 to lock an engagement protrusion 93 (see FIG. 9) of a mating housing 91 described later. A pressing portion 69 is provided.
In addition, a pair of engagements are provided on the rear side along the fitting direction axis behind the slider accommodating portion 63 and provided with a locking projection 67a at the rear end of the free end portion to temporarily prevent the slider 70 from moving backward. A stop arm 67 is provided.
[0006]
The slider 70 is guided by the guide groove 65 and slides in the slider accommodating portion 63, the second slide member 76 engaged behind the first slide member 71, and the first slide member 71. It is comprised from the compression spring 83 which is an elastic member hold | maintained in the 2 slide member 76. FIG.
The first slide member 71 includes a pair of stopper arm portions 73 and 73 that extend rearward and come into contact with one end of the compression spring 83, and a connecting portion 74 that connects the stopper arm portion 73. Below the connecting portion 74, an abutting portion 75 is provided for abutting a pressing rib 92 on the female connector 90 side described later. In addition, a pair of slide grooves 72 and 72 that allow movement of an engagement arm portion 78 on the second slide member 76 side, which will be described later, are provided at both ends of the connecting portion 74.
[0007]
The second slide member 76 has an outer portion slidably fitted in the guide groove 65, and a locking portion 77 for locking the housing lock 68 at the tip of the lock arm 66 at the front end extends forward. Has been. In addition, a flexible operation portion 79 that is operated when releasing the fitting is provided at the upper center of the second slide member 76, and the pressing portion 69 of the lock arm 66 is inserted from above when inserted into the slider accommodating portion 63. It comes to cover.
Further, a pair of engagement arm portions 78 and 78 that are engaged with the stopper arm portion 73 of the first slide member 71 are provided on both side ends of the second slide member 76. A spring accommodating chamber 81 that accommodates and holds the compression spring 83 is provided on both inner wall portions of the second slide member 76.
[0008]
Next, the female connector 90, which is the other connector, includes a housing insertion opening 94 that opens forward, and a pressing rib 92 that strikes against the abutting portion 75 of the first slide member 71 stands at the center of the outer wall of the housing 91. A pair of engaging projections 93, 93 are provided on both opposite sides of the pressing rib 92 to bend the locking arm 66 and engage the housing lock 68.
[0009]
Next, the fitting action of the male and female connectors 60 and 90 in the connector fitting structure 51 having the above-described configuration will be described.
First, as shown in FIG. 9, the slider 70 is assembled. That is, the slider 70 is assembled by inserting a set of compression springs 83 into the spring accommodating chamber 81 in the second slide member 76 and then attaching the stopper arm 73 of the first slide member 71 to the spring accommodating chamber 81. The first slide member 71 and the second slide member 76 are integrated while being held inside.
[0010]
Next, when assembling the slider 70 to the male connector 60, the slider 70 is pushed into the slider accommodating portion 63 from the front of the male connector 60. At this time, the side end portions of the stopper arm portion 73 and the connecting portion 74 of the first slide member 71 and the side end portion of the second slide member 76 are fitted into the guide groove 65, and the rear end portion of the second slide member 76 is inserted. Hits the locking arm 67, and the mounting of the slider 70 is completed.
[0011]
Next, the fitting action of the male and female connectors 60 and 90 constituting the connector fitting structure 51 of the conventional form described above will be described with reference to FIGS.
As shown in FIG. 10, the male and female connectors are configured such that the outer housing 61 of the male connector 60 is fitted onto the housing 91 of the female connector 90 from the state where the inner housing 62 of the male connector 60 and the housing insertion port 94 of the female connector 90 face each other. The fitting operation is started. At this time, the pressing rib 92 of the female connector 90 is fitted into the insertion notch 77a (see FIG. 9) of the second slide member 76, and the front end of the pressing rib 92 contacts the contact portion 75 of the first slide member 71.
[0012]
Then, as shown in FIG. 11, the pressing rib 92 of the female connector 90 is inserted into the insertion space 66 a (see FIG. 9) of the lock arm 66 of the male connector 60 while pressing the first slide member 71. At this time, the inclined surface of the housing lock 68 at the front end portion of the lock arm 66 and the engaging protrusion 93 at the front end portion of the pressing rib 92 are in sliding contact with each other, and the front end side of the lock arm 66 faces the housing 91 side of the female connector 90 (lower in the figure). Displace. Therefore, the front end portion of the housing lock 68 is engaged with the locking portion 77 of the second slide member 76, and the second slide member 76 cannot slide integrally with the first slide member 71.
[0013]
When the fitting operation is further advanced, the first slide member 71 is moved backward by being pushed by the pressing rib 92. At this time, movement of the engaging arm portion 78 (see FIG. 9) of the second slide member 76 into the slide groove 72 (see FIG. 9) on the side of the first slide member 71 is allowed. When the first slide member 71 moves in a state where the second slide member 76 is stopped, the compression spring 83 in the second slide member 76 is compressed, and a restoring force for elastic recovery is generated.
If the housing lock 68 on the male connector 60 side and the engagement protrusion 93 on the female connector 90 side are not completely engaged, and the fitting operation is stopped, the housing spring 68 is fitted with the restoring force of the compression spring 83. The first slide member 71 is pushed back in the disengagement direction opposite to the mating direction. As a result, the female connector 90 is pushed back in the disengagement direction via the pressing rib 92 that has been in contact with the contact portion 75 of the first slide member 71, and an intermediate fitting state can be prevented.
[0014]
Further, as shown in FIG. 12, when the fitting operation is advanced against the compression spring 83, the engagement protrusion 93 on the female connector 90 side gets over the housing lock 68 at the tip of the lock arm 66 and elastically returns. As a result, the engagement state between the front end portion of the housing lock 68 and the engaging portion 77 at the front end of the second slide member 76 is released, and the housing lock 68 is engaged with the rear end of the engagement protrusion 93. Therefore, the male connector 60 and the female connector 90 are in a completely fitted state, and both the contacts 64 and 95 are also in an electrically completely connected state.
[0015]
Next, as shown in FIG. 13, when releasing the above-described completely fitted state, the position of the pressing portion 69 of the lock arm 66 that is exposed while pressing the operation portion 79 of the second slide member 76 with a finger or the like is covered. It moves forward against the restoring force of the compression spring 83. When the operation portion 79 is pressed downward, the pressing portion 69 is pressed downward, and the housing lock 68 of the lock arm 66 is displaced downward, whereby the housing lock 68 and the engagement protrusion 93 are engaged. Is released. At this time, the first slide member 71 is pushed back by the restoring force of the compressed compression spring 83.
Thus, the female connector 90 is pushed back in the disengagement direction via the pressing rib 92 on the female connector 90 side that has been in contact with the contact portion 75 of the first slide member 71. Therefore, the detachment force when the connector is detached can be reduced, and the detachment work can be improved.
[0016]
[Problems to be solved by the invention]
However, as described above, the conventional connector fitting structure 51 covers the pressing portion 69 of the lock arm 66 that is exposed while pressing the operation portion 79 of the second slide member 76 with a finger or the like when the fitting is released. Since the operation portion 79 has to be pressed downward after moving it against the restoring force of the compression spring 83, there is a problem that the operability is poor.
Further, since the operation portion 79 is pressed downward while pressing the second slide member 76 with a strong force against the restoring force of the compression spring 83, there is a possibility that an excessive pressing force larger than necessary may be applied. As a result, the lock arm 66 is excessively displaced, and there is a problem that the lock arm 66 is damaged in some cases.
[0017]
An object of the present invention has been made in view of the above problems, and a connector fitting structure in which a halfway fitting state is reliably detected during a fitting operation of a pair of male and female connectors and a fitting release operation is easy. Is to provide.
[0018]
[Means for Solving the Problems]
The said subject concerning this invention can be solved by the connector fitting structure described in the following 1) and 2) term.
1) Among a pair of male and female connectors to be fitted and connected to each other, an inner housing that opens forward and an outer housing that covers the inner housing and slidably mounts a slider, the front end on the inner housing With housing lock The rear end is supported by the outer housing A pair of connectors provided with one connector provided with a lock arm, and a pressing rib that strikes the slider on the housing, flexing the lock arm on opposite sides of the pressing rib, and engaging the housing lock The other connector provided with the engagement protrusion, a first slide member in which the slider slides in the axial direction in the outer housing, a second slide member engaged behind the first slide member, In the connector fitting structure constituted by an elastic member that is held in the second slide member and works with an elastic force in a direction to separate the first and second slide members from each other,
A release protrusion is provided on the lower surface of the front end of the disengagement preventing portion that is operated when the upper part of the second slide member is released, and the second slide member is moved forward by applying an operating force in the fitting direction when releasing the fitting. Thus, the release protrusion comes into contact with the pressing portion provided at the upper center of the lock arm and bends the lock arm downward, whereby the housing lock of the one connector and the engagement protrusion of the other connector are The connector fitting structure, wherein the engaged state is released.
[0019]
2) In the connector fitting structure, preferably, the second slide member includes a first engagement arm that is engaged with a first engagement portion provided on a back surface of the outer housing, and when the fitting is released, A connector fitting structure characterized in that the first engagement arm escapes into a slide groove provided in the first slide member by moving the second slide member forward.
[0020]
According to the connector fitting structure configured as described above, the second slide member includes the flexible first engagement arm that engages with the first engagement portion provided on the back surface of the outer housing of one connector. Therefore, after the housing of the other connector is fitted into one connector and the engagement protrusion of the other connector pushes down the housing lock, the first engagement member is not released unless the distal end portion of the first engagement arm is released into the slide groove. The combined arm is not released from the first engaging portion.
Since the release protrusion is provided on the lower surface of the front end of the separation preventing portion that is operated when the second slide member is disengaged, the second slide member can be moved directly or through the disengagement preventing portion when the male and female connectors are disengaged. Since it only needs to be pushed out, the operation at the time of releasing the fitting becomes easy, and the workability can be improved.
Further, since the amount of bending of the lock arm is determined by the height of the release protrusion and the pressing portion, the lock arm is not excessively displaced and damaged, and the durability of the male and female connectors can be improved.
[0021]
In addition, the second slide member includes a first engagement arm that is engaged with a first engagement portion provided on the back surface of the outer housing, and the second slide member is moved forward when the fitting is released. Since the first engagement arm escapes into the slide groove provided in the first slide member, the engagement state between the housing lock of the lock arm and the engagement protrusion of the other connector can be released with a relatively small pressing force. it can. Therefore, the workability at the time of releasing the fitting of the male and female connectors can be further improved.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a connector fitting structure of the present invention will be described in detail with reference to FIGS. 1 is a longitudinal sectional view showing an embodiment of the connector fitting structure of the present invention, FIG. 2 is an exploded perspective view of the slider in FIG. 1, FIG. 3 is a perspective view of the male and female connector housings in FIG. FIG. 5 is an operation explanatory diagram in the middle of fitting in FIG. 1, FIG. 6 is an operation explanatory diagram showing a further advanced fitting state in FIG. 1, and FIG. 7 is a fitting in FIG. FIG. 8 is an operation explanatory view at the time of releasing the fitting in FIG. 7.
[0023]
The connector fitting structure 1 shown in FIG. 1 to FIG. 3 is an inner structure in which a socket contact 14 is fitted into a male connector 10 as one connector of a pair of male and female connectors to be fitted and connected to each other and opened forward. A housing 12 and a hood-like outer housing 11 that covers the inner housing 12 while the slider 20 is slidably mounted on the inner housing 12.
A flexible lock arm 16 is provided on the inner housing 12 along the axis of the fitting direction. The lock arm 16 has a hook-like housing lock 18 at the front end, and is fitted to the upper center of the lock arm 16. A pressing portion 19 that is operated at the time of release is provided.
[0024]
More specifically, a slider accommodating portion 13 is formed between the upper surface of the inner housing 12 and the back side of the upper surface of the outer housing 11, and guide grooves for guiding both end portions of the slider 20 are formed on the inner wall of the housing on both side ends. 15 is provided.
Further, a side space 13 a for inserting the slider 20 is provided between the lock arm 16 and the inner wall of the outer housing 11. Further, an insertion space 16 a is provided between the lock arm 16 and the housing lock 18, and a seal member 12 a (see FIG. 4) is put on the outer periphery of the inner housing 12.
Further, a first engagement portion 46 that engages a first engagement arm 28 described later is provided on the back surface of the outer housing 11, and a second engagement portion 48 that engages a second engagement arm 47 described later. Is provided.
[0025]
The slider 20 includes a first slide member 21 that slides in the outer housing 11 in the axial direction, a second slide member 26 that is engaged behind the first slide member 21, and the second slide member 26. It is comprised from the compression spring 33 as an elastic member which is hold | maintained and an elastic force acts in the direction which makes the 1st, 2nd slide members 21 and 26 mutually separate.
[0026]
The first slide member 21 includes a pair of stopper arm portions 23 that extend rearward and abut against one end of the compression spring 33, and a connecting portion 24 that connects the pair of stopper arm portions 23 at a front end portion. The contact portion 25 is provided below the front end portion of the connecting portion 24 so as to contact a pressing rib 42 on the female connector 40 side, which will be described later. A locking assist surface 23 a for locking a locking assist arm 49 described later is provided on the upper portion of the stopper arm 23.
Further, when the first and second slide members 21 and 26 approach each other during the fitting operation of the male and female connectors, a slide groove 22 for escaping a distal end portion of the first engagement arm 28 described later is a rear end portion of the connecting portion 24. Is provided.
[0027]
The second slide member 26 is provided with a locking portion 27 for holding down the downward displacement of the housing lock 18 at the front end lower portion, and a detachment preventing portion 29 for operation at the center upper portion when releasing the fitting. When the slider 20 is mounted on the outer housing 11, the above-described pressing portion 19 is covered. Further, a notch portion 27 a is provided between the pair of locking portions 27, 27 so that a pressing rib 42 described later of the female connector 40 does not interfere when the male and female connectors 10, 40 are fitted.
Further, when the fitting is released, the second slide member 26 is moved forward to come into contact with the pressing portion 19 of the lock arm 16, and the lock arm 16 is bent downward to release the engagement state of the housing lock 18. A release protrusion 50 is provided on the lower surface of the front end of the detachment preventing portion 29.
In addition, a locking auxiliary projection 49a that is locked to the locking auxiliary surface 23a of the first slide member 21 is provided on the lower surface of the front end, and a pair of locking auxiliary arms 49 that are flat and flexible are provided. In addition, an inclined surface 30 having a downwardly inclined inclination angle β is provided on the rear end surface of the locking portion 27 (see FIG. 8).
[0028]
Further, the second slide member 26 has a hook-shaped first locking protrusion 28a that is engaged with a first engaging portion 46 provided on the back surface of the outer housing 11, on the front end surface, and has flexibility. A pair of first engaging arms 28 are provided on both sides of the detachment preventing portion 29, and a hook-like second locking projection 47 a that is engaged with a second engaging portion 48 provided on the outer housing 11 is provided on the lower surface of the front end. The second engagement arm 47 having flexibility is provided below the detachment preventing portion 29.
[0029]
Further, a pin contact 45 protrudes in the fitting direction in the housing 41 of the female connector 40 as the other connector, and the contact portion of the first slide member 21 described above is formed in the central portion of the outer wall on the housing 41. A pressing rib 42 that abuts on 25 extends along the fitting direction. A pair of engaging projections 43 for bending the lock arm 16 and engaging the housing lock 18 are provided on opposite sides of the tip of the pressing rib 42.
[0030]
Next, the fitting action of the connector fitting structure 1 having the above-described configuration will be described. First, as shown in FIG. 2, after setting the compression springs 33 on both sides of the second slide member 26, when the stopper arm portion 23 of the first slide member 21 is brought into contact, the lock assist arm 23a is brought into contact with the lock assist surface 23a. Assembling of the slider 20 is completed when the 49 latching auxiliary projections 49a are latched.
[0031]
Next, as shown in FIG. 3, it is inserted into the slider accommodating portion 13 along the guide groove 15 of the outer housing 11 until the front end surface of the connecting portion 24 of the first slide member 21 of the slider 20 is flush. Then, as shown in FIG. 1, the first engagement protrusion 28 a of the first engagement arm 28 of the second slide member 26 is engaged with the first engagement portion 46 of the outer housing 11 and the second engagement. The second locking protrusion 47 a of the arm 47 is locked to the second engaging portion 48.
Accordingly, since the second slide member 26 is locked to the outer housing 11 of the male connector 10 at a total of three locations including the pair of first engaging arms 28 and the second engaging arms 47, The first and second engagement arms 28 and 47 are not detached from the second engagement portions 46 and 48 and moved backward.
[0032]
Next, as shown in FIG. 4, when the inner wall of the housing 41 of the female connector 40 is inserted so as to be guided to the outer periphery of the inner housing 12 of the male connector 10, the end of the pressing rib 42 is positioned at the first slide member 21. While being in contact with the contact portion 25, the locking portion 27 of the second slide member 26 is slid onto the upper surface of the housing 41.
[0033]
Next, when the fitting proceeds as shown in FIG. 5, only the first slide member 21 presses the female connector 40 against the elastic force of the compression spring 33 while maintaining the position of the second slide member 26. The rib 42 is pressed to move backward in the slider accommodating portion 13 while contracting the compression spring 33. Then, the engaging projection 43 pushes down the housing lock 18, so that the lock arm 16 bends downward.
[0034]
Next, as the fitting further proceeds as shown in FIG. 6, the first engagement arm 28 is released from the first engagement portion 46 so as to escape into the slide groove 22, and the second engagement arm 47. Is also pressed by the distal end portion of the housing 41 of the female connector 40 and released from the second engaging portion 48. And the latching | locking part 27 of the 2nd slide member 26 presses the front-end | tip of the housing lock 18 back with the elastic force of the compression spring 33. FIG.
At this stage, if the fitting force of the female connector 40 is released, the first slide member 21 is pressed forward by the elastic force of the compression spring 33, so the female connector 40 is connected via the contact portion 25 and the pressing rib 42. It is pushed back in the direction of separation. Further, if the connector fitting is not completed, the pressing portion 19 on the lock arm 16 is almost covered with the separation preventing portion 29 of the second slide member 26, so that it is possible to visually detect that the fitting is incomplete. .
[0035]
Next, as shown in FIG. 7, when the female connector 40 is further pushed in the fitting direction, the lock arm 16 bent downward returns to its original position, and the housing lock 18 engages with the engagement protrusion 43. Is done. Then, since the locking portion 27 is released from the housing lock 18, the second slide member 26 moves to the rear portion of the male connector 10 by the elastic force of the compression spring 33. At this time, since the engaging portion 27 sinks into the lower surface of the housing lock 18, the housing lock 18 is locked in a state where it is not bent while being engaged with the engaging protrusion 43.
Accordingly, the male and female connectors 10 and 40 are in a completely fitted state, and the fitted state is not released by vibration or the like. Further, since the separation preventing portion 29 of the second slide member 26 is separated rearward from the pressing portion 19 above the lock arm 16, it can be visually detected that it is in a completely fitted state. Further, the completely fitted state can be detected even with a moderation feeling in which the repulsive force of the compression spring 33 is rapidly reduced.
[0036]
Next, the fitting release operation of the connector fitting structure 1 having the above-described configuration will be described.
As shown in FIG. 8, when the male and female connectors 10 and 40 in the fully fitted state are first pushed forward against the repulsive force of the compression spring 33 by a finger or the like, the detachment preventing portion 29 of the second slide member 26 is pushed first. The first engagement arm 28 comes into contact with the first engagement portion 46 and is pushed down, and then escapes into the slide groove 22 of the first slide member 21. At this time, the release protrusion 50 provided on the lower surface of the front end of the detachment preventing portion 29 comes into contact with the pressing portion 19 above the lock arm 16. When the second slide member 26 is further pushed forward, the locking portion 27 of the second slide member 26 is also advanced forward of the housing lock 18 and the locked state is released, so that the lock arm 16 is bent downward. Mu Due to this bending, the engagement state between the housing lock 18 and the engagement protrusion 43 is released, and the male connector 10 and the female connector 40 are separated in the separating direction by the repulsive force of the compression spring 33.
[0037]
As described above, according to the connector fitting structure in the present embodiment, after the housing 41 of the female connector 40 is fitted into the male connector 10 and the engaging protrusion 43 pushes down the housing lock 18, the first engaging arm 28. Escapes into the slide groove 22 so that the first engagement arm 28 is released from the first engagement portion 46.
At this time, the second engagement arm 47 is pressed by the distal end portion of the housing 41 of the female connector 40 and released from the second engagement portion 48, so that the lock arm 16 bent downward is returned to the original position. Thus, the housing lock 18 is engaged with the engagement protrusion 43 to be in a completely fitted state.
[0038]
When the male and female connectors 10 and 40 are released from engagement, the separation preventing portion 29 of the second slide member 26 is pushed forward, so that the first engagement arm 28 enters the slide groove 22 of the first slide member 21. At the same time, the release protrusion 50 comes into contact with the pressing portion 19. When the second slide member 26 is further pushed forward, the lock arm 16 is bent downward, the engagement state between the housing lock 18 and the engagement protrusion 43 is released, and the male connector is relieved by the repulsive force of the compression spring 33. 10 and the female connector 40 are easily separated in the separating direction.
Accordingly, since it is only necessary to push the second slide member forward with a relatively small pressing force when releasing the fitting, the releasing operation is facilitated and workability can be improved, and the lock arm is excessively displaced and broken. There is no such thing and the durability of the male and female connectors can be improved.
[0039]
It goes without saying that the present invention is not limited to the above-described embodiments, and can be applied to various embodiments. For example, in the present embodiment, the slider 20 is accommodated on the male connector 10 side, but may be accommodated on the female connector 40 side.
Moreover, although the lock arm 16 and the first engagement arm 28 are provided in pairs, even a single arm can be used. Further, the number of the second engagement arms 47 is not necessarily one, and a pair may be used.
[0040]
【The invention's effect】
As described above, according to the connector fitting structure of the present invention, the release protrusion is provided on the lower surface of the front end of the separation preventing portion for operation when releasing the fitting, and the second slide member is moved forward when releasing the fitting. As a result, the release protrusion comes into contact with the pressing portion of the lock arm and bends the lock arm downward, and the engagement state between the housing lock of one connector and the engagement protrusion of the other connector is released.
Therefore, since it is only necessary to push the second slide member forward when the male and female connectors are released from the mating state, the operation at the time of mating release is facilitated and workability can be improved.
Further, since the amount of bending of the lock arm is determined by the height of the release protrusion and the pressing portion, the lock arm is not excessively displaced and damaged, and the durability of the male and female connectors can be improved. .
[0041]
In the connector fitting structure, preferably, the second slide member includes a first engagement arm that is engaged with a first engagement portion provided on the back surface of the outer housing, and the second slide member is released when the fitting is released. The first engagement arm escapes into a slide groove provided in the first slide member.
Accordingly, since the engagement state between the housing lock of the lock arm and the engagement protrusion of the other connector can be released with a relatively small pressing force, the workability when releasing the male and female connectors can be further improved. it can.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view showing an embodiment of a connector fitting structure of the present invention.
FIG. 2 is an exploded perspective view of the slider in FIG.
3 is a perspective view of main parts of the male connector and the female connector in FIG. 1. FIG.
FIG. 4 is an operation explanatory diagram at the start of fitting in FIG. 1;
5 is an operation explanatory diagram in the middle of fitting in FIG. 1. FIG.
6 is an operation explanatory diagram in a state where the fitting is further advanced in FIG. 1. FIG.
FIG. 7 is an operation explanatory diagram when fitting is completed in FIG. 1;
FIG. 8 is an operation explanatory diagram when the fitting is released in FIG. 1;
FIG. 9 is an exploded perspective view showing an example of a conventional connector fitting structure.
10 is an operation explanatory view at the start of fitting in FIG. 9. FIG.
11 is an operation explanatory diagram in the middle of fitting in FIG. 9. FIG.
12 is an operation explanatory diagram when the fitting is completed in FIG. 9; FIG.
FIG. 13 is an operation explanatory diagram when the fitting is released in FIG. 12;
[Explanation of symbols]
1 Connector fitting structure
10 Male connector (one connector)
11 Outer housing
12 Inner housing
16 Lock arm
18 Housing lock
19 Pressing part
20 slider
21 First slide member
22 Slide groove
23 Stopper arm
23a Locking auxiliary surface
24 connecting part
25 Contact part
26 Second slide member
27 Locking part
28 First engagement arm
28a First locking projection
29 Departure prevention part
30 Inclined surface
33 Elastic member (compression spring)
40 Female connector (the other connector)
41 Housing
42 Pressing rib
43 Engagement protrusion
46 1st engaging part
47 Second engagement arm
47a Second locking projection
48 Second engaging portion
49 Locking auxiliary arm
49a Locking auxiliary protrusion
50 Release protrusion

Claims (2)

Of a pair of male and female connectors to be fitted and connected to each other, the inner housing is formed of an inner housing that opens forward and an outer housing that covers the inner housing and slidably mounts a slider. One connector provided with a lock arm with a rear end provided with a lock supported by the outer housing ;
The other connector is provided with a pressing rib that hits against the slider on the housing, the locking arm is bent on opposite sides of the pressing rib, and a pair of engaging protrusions for engaging the housing lock are provided. When,
A first slide member that slides in the axial direction in the outer housing; a second slide member that is engaged behind the first slide member; and a second slide member that is held in the second slide member; In the connector fitting structure comprised from the elastic member which an elastic force works in the direction which separates the 1 and 2nd slide member mutually,
A release protrusion is provided on the lower surface of the front end of the disengagement preventing portion that is operated when the upper part of the second slide member is released, and when the fitting is released, the second slide member is moved forward by applying an operating force in the fitting direction. Thus, the release protrusion comes into contact with the pressing portion provided at the upper center of the lock arm and bends the lock arm downward, whereby the housing lock of the one connector and the engagement protrusion of the other connector are The connector fitting structure, wherein the engaged state is released.  The second slide member includes a first engagement arm that is engaged with a first engagement portion provided on a back surface of the outer housing, and moves the second slide member forward when the fitting is released. 2. The connector fitting structure according to claim 1, wherein the first engagement arm escapes into a slide groove provided in the first slide member.

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