JP3472722B2 - Connector support mechanism - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connector support mechanism, and more particularly to a connector support mechanism for supporting and fixing a pair of male and female connectors that are coupled to each other on a support body side.

[0002]

2. Description of the Related Art Conventionally, as a connector supporting mechanism of this type, a technique disclosed in Japanese Patent Laid-Open No. 10-21992 is known. This conventional technique has a configuration as shown in FIGS. Hereinafter, a conventional connector coupling mechanism will be described with reference to FIGS. 9 to 11.

This connector coupling mechanism has a holder 2 mounted in a mounting hole 1A formed in a mounted portion 1 such as a stay member of an automobile as shown in FIG.
A first connector 3 that is slidably fitted in the second connector 5, a second connector 5 that is connected to the electronic unit 4 side, and a first connector 3 that is driven in a direction in which the second connector 5 is coupled to the first connector 3. And a swing lever 6 pivotally supported by a pivot shaft 6A.

The holder 2 has a substantially rectangular tube shape and, as shown in FIG. 9, includes a pair of upper and lower horizontal plates 7 and 8 and a pair of left and right side plates 9 and 10. The holder 2 is the attached portion 1 described above.
It is fixed by a fixing means such as a screw in a state where it is inserted into the mounting hole 1A formed in. Side plates 9 and 10 of holder 2
Guide grooves 11 and 12 for slidably guiding the first connector 3 are formed on the inner wall surface of the casing along the front-rear direction. Further, the horizontal plate 7 is guided by an engaging pin 6B projecting from the upper surface of the rear end of the swing lever 6 and guided.
3 is formed. The guide groove 13 includes an introduction portion 13A extending rearward from the front end portion of the holder 2, an arc-shaped drive groove portion 13B extending inward from the end portion of the introduction portion 13A toward the rear portion, and an end portion of the drive groove portion 13B. And a locking groove portion 13C extending from the rear side to the rear side. The drive groove portion 13 described above
B guides the engagement pin 6B in an arc along with the operation of inserting the first connector 3 into the holder 2. The swing lever 6 is configured to swing in accordance with the operation of the engagement pin 6B.

On the lower surface of the front end of the swing lever 6, a second
An engagement groove 6C with which the driven pin 5A protruding from the connector 5 is engaged is formed. The swing lever 6 is the first
It is also formed on the other side surface of the connector 3. The driven pin 5A (not shown) is also shown on the other side surface of the second connector 5 so as to correspond to the swing lever 6 formed on the other side surface.
Is projected. It should be noted that in FIG. 9, reference numeral 3A is a slide protrusion provided at the rear end of both side portions of the first connector 3. The slide protrusion 3A is guided by the guide grooves 11 and 12 formed on the inner walls of the side plates 9 and 10 of the holder 2 described above. Between the pair of slide protrusions 3A formed on the respective side portions of the first connector 3, as shown in FIGS. 9 and 11, a temporary fixing portion 3B temporarily fixed to the front end opening of the holder 2 is formed. Has been done. Further, as shown in FIGS. 9 and 10, a pair of protrusions 3C and 3C for retaining are formed on both sides of the rear end of the upper and lower surfaces of the first connector 3, respectively. Corresponding to this, as shown in FIG. 10, a retaining portion 2A formed on the peripheral portion of the front end opening of the holder 2 is formed. The above-mentioned protrusion 3C is fitted in the temporary fixing position of the holder 2 and is retained by the retaining portion 2A.

[0006]

However, in the connector coupling mechanism described above, the first connector 3 and the second connector 5 are attached to the mounted portion 1 such as a stay member of an automobile.
Since it is necessary to attach the holder 2 to the attachment hole 1A formed in the attachment portion 1 before attaching, the number of components is increased. In particular, in the conventional technique, the swinging lever 6 is driven to rotate by guiding the engagement pin 6B engaged with the guide groove 13 of the holder 2, so that the guide groove formed in the holder 2 The size and shape of 13 had to be set strictly.

In the conventional mechanism described above, the holder 2
On the other hand, in order to temporarily fix the first connector 3 at the initial insertion position, it is necessary to form the temporary fixing portion 3B on the first connector 3 side. Along with this, as shown in FIG. 11, it is necessary to form a temporary fixing projection 2B also on the holder 2 side. In addition, the first inserted in such an initial position of insertion
In order to prevent the connector 3 from coming off the holder 2, it is necessary to form a protrusion 3C for retaining the first connector 3 and also to form a retaining portion 2A on the holder 2 side. As described above, the conventional mechanism has a problem that the mechanism is complicated because the temporary fixing mechanism and the retaining mechanism are formed in each member. As described above, in the conventional connector coupling mechanism, since the number of parts is large and the mechanism is complicated, a mounting space is required and the mounting work is complicated. For this reason, in the conventional engagement mechanism,
There has been a problem that parts cost and work cost are increased.

Further, the temporary fixing portion 3B formed on the first connector 3 and the retaining portion 2A formed on the holder 2 are set so as to elastically deform when the first connector 3 is inserted into the holder 2. However, in these parts,
For example, these parts may be bent or damaged by a strong external force resulting from a handling operation of the wire harness connected to the first connector 3 or an assembly operation of the holder 2 and the first connector 3 at an improper position. There was a fear of doing it.

Further, in the conventional connector coupling mechanism, the first connector 3 is attached to the mounted portion 1 such as a stay member of an automobile.
It is necessary to fit the engaging pin 6B projecting from the rear end of the swing lever 6 when inserting. In this way, when the first connector 3 is inserted into the holder 2, the swing lever 6 is in a state where it can freely swing, so that it is necessary for a person skilled in the art to insert the engagement pin 6B into the introduction portion 13A of the guide groove 13. In other words, there is a problem that the assembly work is complicated.

Therefore, the problem to be solved by the present invention is what kind of means should be taken in order to obtain a low-cost connector supporting mechanism which can reduce the number of parts and can easily and surely perform the assembling work. There is a point.

[0011]

The invention according to claim 1 is
A connector support mechanism for supporting a first connector on an attached portion, assembling a second connector for fitting the first connector, and supporting the first connector and the second connector on the attached portion side. The first connector comprises a connector main body and an engagement lever pivotally supported by a rotation support shaft so that one end side thereof projects from one end surface of the connector main body,
An engagement protrusion and a cam lever are formed at a position closer to the rotation support shaft than the engagement protrusion at the one end of the engagement lever, and the engagement protrusion engages with a rear surface side of the mounting panel. By engaging the second connector with the first connector in a temporarily fixed state in which the cam lever is engaged with the front surface side of the mounting panel and the engaging projection is engaged with the mounted portion, The lever is rotated to support the engagement protrusion on the attached portion,
The cam lever accommodating recess for accommodating the cam lever in a state in which the engagement protrusion is supported by the attached portion is the second
It is characterized in that it is formed on the inner wall of the connector.

Therefore, according to the first aspect of the invention, the engagement lever is engaged by fitting the second connector to the first connector in a temporarily fixed state in which the engagement projection on the first connector side engages with the mounted portion. Is rotated so that the engaging projections are surely engaged with the attached portion, and the second connector can be surely coupled to the first connector. At this time, since the cam lever accommodating recess is formed in the inner wall of the second connector, the cam lever can be accommodated in the second connector. For this reason, it is not necessary to unnecessarily dispose the position of the cam lever in the engaging lever outside, and the stroke of the cam lever can be set appropriately.

The invention according to claim 2 is the connector support mechanism according to claim 1, wherein a coupling projection is provided on the other end of the engaging lever so as to project from the inner wall of the second connector. It is characterized in that a guide groove portion for guiding the connecting projection is formed.

Therefore, according to the second aspect of the invention, in addition to the action of the first aspect of the invention, the coupling projection can be guided by the guide groove portion to rotate the engaging lever. Therefore, it is possible to prevent the engagement lever from rotating in the direction in which it disengages from the attached portion.

Further, the invention of claim 3 is the same as that of claim 2.
The connector support mechanism according to claim 1, wherein the engaging projection is engaged with a rear surface side of the mounting panel, and the cam lever is engaged with a front surface side of the mounting panel, the first connector being in a temporarily fixed state. 2 As the connector is fitted, the coupling projection moves along the guide groove portion to rotate the engagement lever, and the engagement projection comes into pressure contact with the rear surface side of the mounting panel. To do.

Therefore, according to the third aspect of the invention, in addition to the operation of the second aspect of the invention, the second connector is provided with the first connector.
The engaging lever can be supported to the attached portion side at the same time when the operation of fitting the connector is performed.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION The details of a connector support mechanism according to the present invention will be described below with reference to the embodiments shown in the drawings.

1 to 8 show an embodiment of a connector supporting mechanism according to the present invention. The connector support mechanism according to the present embodiment is provided with an attached portion 20, a first connector 30 as a male connector attached to the attached portion 20, and a second connector 30 as a female connector attached to the first connector 30.
And a connector 50.

First, the structure of the mounted portion 20 will be described.
The attached portion 20 is formed on, for example, a stay member 21 of an automobile. As shown in FIG. 1, the attached portion 20 has two inclined surface portions 23 and 24 and a bottom surface portion 25 that form a groove with respect to the reference surface 22 of the stay member 21, and also has a first connector described later. A mounting opening 26 having a width narrower than the maximum width of 30 is provided on the slope portions 23 and 24 and the bottom surface portion 2.
5, the entire width of the groove formed by 5 and the reference surfaces 22, 2 on both sides.
It is formed over 2.

The upper and lower edges of the bottom surface 25 facing the mounting opening 26 are respectively provided with a first portion described later.
Insertion notches 27A and 27B for inserting the engagement projections 43 formed on the connector 30 side are formed. In addition, the reference surfaces 22, 22 facing the mounting opening 26
On the back surface of each of the stepped portions 22A, stepped portions 22A each having a groove shape and having a predetermined length from the opening 26 toward the outer side in the width direction are formed.

Next, the structure of the first connector 30 will be described. As shown in FIG. 1, the first connector 30 is composed of a substantially rectangular parallelepiped first connector main body 31 on which upper and lower surfaces are engaged, and engaging levers 32 are pivotally supported by pivot shafts 33, 33. Figure 1
And as shown in FIG. 2B, the first connector body 31
A plurality of terminal accommodating spaces 34 penetrating in the front-rear direction is formed in the. In the present embodiment, female terminal fittings are housed and arranged in these terminal housing spaces 34. Wiring is connected to each of these female terminal fittings. Then, these wirings are led out from one end portion (hereinafter, referred to as a rear end portion) side of the first connector main body 31 and routed to the back surface side of the stay member 21 through the mounting opening portion 26. Has become.

Further, as shown in FIGS. 1 and 2A and 2B, stopper portions projecting laterally are provided on both sides of the rear end portion of the first connector body 31 where the wiring is led out. 35 is projected. In addition, FIG.
(C) shows the first connector body 31 and the engagement lever 32.
It shows a state where is not attached. As shown in FIG. 1, the length dimension L1 between the end portions of the stopper portions 35 is set to be longer than the width dimension L of the attachment opening portion 26 of the stay member 21. In addition, the first connector body 3
The width L2 of 1 is set to be slightly shorter than the width L of the mounting opening 26. Further, on the front side of the stopper portion 35, an elastic piece 39 biased in a direction away from the stopper portion 35 is provided. As will be described later,
The elastic piece 39 attaches the first connector 30 to the mounted portion 20.
Provides a holding force for temporary fixing in the initial stage of mounting.

Further, a pair of guide projections 36, 36 projecting in the vertical direction are formed on both sides of the other end (hereinafter referred to as the front end) of the first connector 30, respectively. There is. Further, on each of the upper and lower surfaces on the front end side of the first connector 30, a first protrusion 37 having a substantially triangular shape in a plane and a second protrusion 38 having a rectangular shape in a plane that restrict the rotation range of the engaging lever 32 are provided. And are formed. Note that FIG.
In (a) and (b), reference numeral 31A is a temporary fixing projection for temporarily fixing the engaging lever 32.

The engaging lever 32 is the pivot shaft 33 described above.
The pair of lever plates 40, 40, the base ends of which are pivotally supported on the upper and lower surfaces of the first connector body 31, respectively,
The lever plate 40 and the connecting plate 41 integrally connecting the free ends of the lever plates 40. 3A to 3C show the first connector body 3
1 shows the coupling lever 32 in a state where the lever 32 is not attached.

One side peripheral edge 40A on the base end side of the lever plates 40, 40 is set so as to form an arc around the pivot shaft 33. Also, this side edge 40A
And the front side surface 37A of the above-mentioned first protrusion 37 having a substantially triangular shape in plan view are set to face each other. The front side surface 37A is formed to curve corresponding to the side peripheral edge 40A of the lever plate 40. Therefore, the side peripheral edge 40A is configured to rotate around the pivot shaft 33 along the front side surface 37A of the first protrusion 37.

The side surface 40B of the lever plate 40, 40 facing the first protrusion 37 is set to face the rear side surface 37B of the first protrusion 37. The rear side surface 37B is a side surface that extends rearward of the front side surface 37A and is configured by a flat surface. With such a configuration, the rear side surface 37B of the first protrusion 37 abuts on the side surface portion 40B of the lever plate 40 to define the rotation range of the engaging lever 32. Second protrusion 3 described above
8 is arranged at the front end of the upper and lower surfaces of the first connector body 31.
Has been formed. The rear side surface of the second protrusion 38 is brought into contact with the side surface 40C on the base end side of the lever plate 40,
The rotation range of the engagement lever 32 is defined.

Further, in the front end portion of each lever plate 40, in the vicinity of the curved side peripheral edge 40A,
A projecting coupling protrusion 40D is formed. further,
A cam lever 42 is formed on the lever plate 40 on the opposite side of the coupling projection 40D with the pivot 33 interposed therebetween. Further, an engaging projection 43 having a height lower than that of the cam lever 42 is provided at a position on the lever plate 40 on the free end side of the cam lever 42. The engagement protrusion 43 is arranged laterally (in a direction away from the side surface portion 40B of the lever plate 40) with respect to a line connecting the cam lever 42 and the pivot shaft 33. As mentioned above,
The engagement protrusion 43 is provided on the mounted portion 20 at the time of mounting.
The insertion notches 27 </ b> A and 27 </ b> B formed in the upper and lower edges of the attachment opening 26 in FIG. On this occasion,
The cam lever 42 has a height higher than the engaging protrusion 43 and is formed laterally with respect to the engaging protrusion 43 (in the direction toward the side surface portion 40B of the lever plate 40). It cannot pass through the notches 27A and 27B.

Further, on the peripheral edge portion of the lever plate 40 pivotally supported by the pivot shaft 33 (in the direction away from the side surface portion 40B of the lever plate 40), the upper portion of the first connector body 31 described above is provided. Temporary fixing protrusion 3 protruding from the bottom surface
A notch 44 for temporary fastening which can be engaged and disengaged is formed in 1A.

Next, the structure of the second connector 50 will be described with reference to FIG. The second connector 50, as shown in the figure, is a rectangular tubular second member for fitting and housing the first connector 30.
It is composed of a connector main body 51 and a plurality of male terminal fittings 52 arranged in the second connector main body 51. On both sides of the upper and lower inner wall surfaces of the second connector body 51,
Guide grooves 53, 53 for guiding the guide projection 36 of the first connector body 31 are formed. Further, on the upper and lower inner wall surfaces of the second connector main body 51, the coupling projections 4 formed on the engaging lever 32 of the first connector 30 are respectively formed.
A coupling guide groove 54 for guiding 0D is formed.
The coupling guide groove 54 includes an introduction groove portion 54A that linearly extends inward from the opening edge of the second connector 50 and an introduction groove portion 5.
A curved groove portion 5 that curves and extends laterally from the end of 4A.
4B and. Further, as shown in FIG. 6, guide slopes 55 are formed on the upper and lower inner wall surfaces of the opening of the second connector main body 51 to facilitate guiding the front end of the first connector main body 31 described above.

Further, in the present embodiment, in particular, on the upper and lower inner wall surfaces in the opening of the second connector body 51, as shown in the figure, the engaging lever 32 pivotally supported by the above-mentioned first connector body 31. A cam lever accommodating recess 56 for accommodating the cam lever 42 formed on the rear end (one end) side is formed. Therefore, the cam lever 42 can be housed in the second connector 50 as shown in FIG. 8 in a state where the second connector 50 is finally fitted to the first connector 30. Therefore, the engaging lever (lever plate 40) 3
The position of the cam lever 42 in 2 does not need to be unduly arranged outside, and the stroke of the cam lever 42 can be set appropriately.

As described above, the attached portion 20, the attached portion 20, and the first portion constituting the support mechanism of the connector of the present embodiment.
The configurations of the connector 30 and the second connector 50 have been described. Next, the assembling operation method according to the present embodiment and the action / operation will be described.

First, in this embodiment, as shown in FIG. 1, the rear end side of the first connector 30 is opposed to the mounted portion 20. At this time, the wiring group connected to the female terminal fitting housed / arranged in the first connector 30 is
It may be preliminarily routed to the back side of the mounted part 20 through the mounting opening 26 of 0, or after taking out the wiring group from the back side of the mounted part 20 through the mounting opening 26, The wiring group may be connected to the first connector body 31 side. As shown in FIG. 1, in the present embodiment, the tip end portion of the engaging lever 32 is bent to one side, so that the wiring group can be easily led out from the rear end portion of the first connector body 31. It is a mechanism.

Next, as shown in FIG. 4A, the one stopper portion 35 of the first connector 30 is attached to the mounted portion 2.
0 through the mounting opening 26. Then, when the first connector 30 is tilted with respect to the reference surface of the stay member 21 as shown in FIG.
Through the mounting opening 26. At this time, the lever plate 40 of the engaging lever 32
Since the temporary fixing projection 31A protruding from the first connector main body 31 is locked in the temporary fixing notch 44 formed in the above, the engaging lever 32 is provided with a predetermined distance from the rear end surface of the first connector main body 31. It is kept in a protruding state at an angle (substantially right angle). Therefore, the engagement projection 43 formed on the front end side of the lever plate 40 moves to the back side of the bottom surface section 25 through the insertion notches 27A, 27A formed on the peripheral edge of the attachment opening 26.

In this way, after both stopper portions 35 of the first connector 30 have moved to the back side of the stay member 21 through the mounting openings 26, as shown in FIG. The elastic pieces 39 are brought into pressure contact with the back surfaces (step portions 22A) of the reference surfaces 22, 22 on both sides of the attachment opening 26. As a result, the first connector 30 is urged by the repulsive force of the elastic piece 39 in the direction in which it is inserted into the mounting opening 26, but the cam lever 42 provided on the lever plate 40.
This biasing force is maintained because the front end of the abuts against the front surface of the bottom surface portion 25. Therefore, the first connector 30 is temporarily fixed to the mounted portion 20. That is, in the present embodiment, the first connector 30 is inserted into the mounting opening 26 and the elastic pieces 39, 39 are attached to the back surfaces of the reference surfaces 22, 22 (the step portion 2).
2A) is pressed into contact with the first connector 3
0 can be temporarily fixed. Note that FIG.
Is a front view showing a state in which the first connector 30 is attached to the attached portion 20, and FIG. 5B is a sectional view taken along line AA of FIG. As shown in FIG. 5A, the stay member 21 is reinforced by appropriately forming ribs 21A on the back surface side of the stay member 21. In addition, this rib 21A
May or may not be provided as necessary.

Next, as shown in FIGS. 6 and 7, the second connector 50 is attached to the first connector 30 attached to the attached portion 20. That is, the opening end face side of the second connector 50 is brought close to the front end face of the first connector 30 in a state of being opposed to each other, and the first connector 30 is fitted into the opening portion. First, the opening end face of the second connector 50 is the first
When the front end portion of the connector 30 is shallowly fitted, the guide projections 36 on the first connector 30 side enter the guide grooves 53, 53 formed on both upper and lower inner wall surfaces of the second connector 50.
In the present embodiment, since the front end surface of the guide protrusion 36 is an inclined surface, the guide protrusion 36 is easily guided to the guide groove 53.

At the same time, the coupling protrusions 40D formed on the upper and lower lever plates 40 of the engaging lever 32 of the first connector 30 are coupled to the coupling guide grooves formed on the upper and lower inner wall surfaces of the second connector 50. It is guided by the introduction groove 54A in 54. In addition, in the initial stage of mounting the first connector 30 and the second connector 50, the first connector 3
At 0, the provisional fixing protrusion 31A protruding from the first connector body 31 is locked in the provisional fixing notch 44 formed in the engaging lever 32, so that the introduction groove 54A and the coupling protrusion 40D correspond to each other. It is located at the position.

Thereafter, when the second connector 50 is further pushed in the direction in which the first connector 30 is fitted, the coupling projection 40
D is a curved groove portion 54B formed at the end of the introduction groove portion 54A.
Reach Then, by further pushing in the second connector 50, the coupling projection 40D slides along the curved surface of the curved groove portion 54B. In this way, the engaging projection 32D moves along the curved groove 54B on the second connector 50 side, so that the engaging lever 32 is temporarily cut out.
4 gets over the temporary fixing protrusion 31A, and the temporary fixing engagement is released,
It rotates about the pivot 33. At this time, the cam lever 42 that is in contact with the front surface of the bottom surface portion 25 of the mounted portion 20
Slides on the front surface of the bottom surface portion 25 along with the engagement lever 32. Since the tip of the cam lever 42 is formed in a rounded shape as shown in the figure, the engaging lever 32
The front surface of the bottom surface portion 25 moves smoothly with the rotation of.

As a result, as shown in FIG. 8, the engaging lever 32 rotates and the engaging protrusion 43 projecting from the tip of the lever plate 40 comes into pressure contact with the back surface of the bottom surface portion 25. At this time, the tip of the cam lever 42 is also pushed backward,
Since the engagement lever 32 is pressed against the front surface of the bottom surface portion 25, the engagement lever 32 is rotationally driven in the clockwise direction in FIG. 8, and the bottom surface portion 25 is engaged with the engagement projection 43 and the cam lever 4 as shown in FIG.
It is in a state of being sandwiched with 2. In this state, as shown in FIG.
The lever plate 40 is prevented from rotating in the opposite direction due to the engagement with A. As a result, the first connector 30 is supported and fixed to the mounted portion 20. In addition, the second connector 5
Since 0 is engaged with the coupling projection 40D provided on the lever plate 40 on the first connector 30 side and the curved groove portion 54B, the fitted state is maintained. In the process of fitting the first connector 30 and the second connector 50 in this manner, the female terminal fitting provided on the first connector 30 side and the male terminal fitting 52 provided on the second connector 50 side are They are fitted together to make an electrical connection.

As described above, the assembling operation method of the present embodiment,
Although the operation and the operation have been described, in the present embodiment, the second connector 50 is attached to the first connector 30 in a state where the first connector 30 is temporarily fixed to the attached portion 20. Then, in the state where the mounting of the second connector 50 is completed, the first connector 30 is securely and permanently fixed to the mounted portion 20, and the second connector 50 is also the first connector 30.
It is configured to be securely attached to.

In particular, in this embodiment, the first connector 30
Can be fixed to the mounted portion 20 without using a special fixing means such as screw fixing, so that the mounting work becomes extremely easy. Further, by using the force of inserting the second connector 50 in a state where the first connector 30 is temporarily fixed to the attached portion 20, the attached portion 20 and the first connector 30 are used.
Since the second connector 50 and the second connector 50 can be firmly fixed together, it is possible to efficiently use the force used for the work.
Quick and reliable mounting can be performed. As described above, in the present embodiment, it is possible to realize a low-cost connector support mechanism in which the number of parts can be reduced and the assembling work can be performed easily and reliably.

The second connector 50 and the first connector 3
To remove 0 from the mounted part 20, the second connector 5
By pulling 0, the engaging lever 32 gets over the temporary fixing protrusion 31A and rotates in the opposite direction, and the coupling protrusion 4
0D moves from the curved groove portion 54B to the introduction groove portion 54A, and the second connector 50 can be pulled out. Further, one stopper portion 35 of the first connector 30 and the elastic piece 3
The first connector 30 can be detached from the attached portion 20 by removing 9 from the attached portion 20 and removing the other stopper portion 35 and the elastic piece 39.

Although the embodiments have been described above, the present invention is not limited to these, and various design changes associated with the gist of the configuration can be made. For example, in the above-described embodiment, the stopper portion 35 and the elastic piece 39 are provided on both sides of the rear end portion of the first connector body 31, but a configuration in which these are omitted is also within the scope of the present invention.

[0043]

As is apparent from the above description, according to the first aspect of the invention, since the cam lever accommodating recess is formed in the inner wall of the second connector, the cam lever can be accommodated in the second connector. You can For this reason, it is not necessary to unnecessarily dispose the position of the cam lever in the engaging lever outside, and the stroke of the cam lever can be set appropriately. Further, according to the present invention, there is an effect of realizing a low-cost connector supporting mechanism in which the number of parts can be reduced and the assembling work can be performed easily and surely.

According to the invention of claim 2, in addition to the effect of the invention of claim 1, since the coupling projection can be guided by the guide groove portion to rotate the engaging lever, It is possible to prevent the combined lever from rotating in the direction away from the mounted portion, and to ensure stable workability.

Further, according to the invention of claim 3, in addition to the effect of the invention of claim 2, the second connector is provided with the first connector.
The engaging lever can be supported to the attached portion side at the same time when the operation of fitting the connector is performed. Therefore, work efficiency can be improved, and low cost work can be performed.

[Brief description of drawings]

FIG. 1 is a perspective view showing a mounted portion and a first connector which constitute a connector support mechanism according to a first exemplary embodiment of the present invention.

2A is a plan view showing a first connector main body according to Embodiment 1, FIG. 2B is a front view thereof, and FIG. 2C is a side view thereof.

3A is a plan view showing the engaging lever in Embodiment 1, FIG. 3B is a side view of the same, and FIG. 3C is a front view of the same.

FIG. 4 (a) is a diagram showing a first embodiment of the first embodiment of the invention and FIG.
FIG. 6B is a plan explanatory view of an initial stage of assembling with the connector, and FIG. 7B is a plan explanatory view showing a state where the first connector is temporarily fixed to the mounted portion in the first embodiment.

FIG. 5 (a) is a view showing a portion to be attached to a first portion of the first embodiment.
The top view which shows the state which fixed the connector temporarily, (b) is an AA sectional view of (a).

FIG. 6 is a perspective view showing a state where the second connector is attached to the first connector in the temporarily fixed state in the first embodiment.

FIG. 7 is a partial plan sectional view showing a state in which the second connector is attached to the first connector in the temporarily fixed state in the first embodiment.

FIG. 8 is a plan partial cross-sectional view showing a state in which a second connector is attached to the first connector in the first embodiment.

FIG. 9 is an exploded perspective view showing a conventional connector support mechanism.

FIG. 10 is a partial cross-sectional side view showing a conventional connector support mechanism.

FIG. 11 is a cross-sectional plan view of essential parts showing a conventional connector support mechanism.

[Explanation of symbols]

21 Stay member 26 Mounting openings 27A insertion notch 30 First connector 31 1st connector body 32 Engagement lever 33 pivot 40D coupling protrusion 42 Cam lever 43 Engagement protrusion 50 Second connector 51 Second connector body 54 Guide groove 54A introduction groove 54B curved groove 56 Cam lever housing recess

─────────────────────────────────────────────────── ─── Continuation of front page (58) Fields surveyed (Int.Cl. ⁷ , DB name) H01R 13/629 H01R 13/74

Claims (3)

(57) [Claims] 1. A first connector (3) is attached to a mounting portion (20).
0) for supporting the first connector (30)
Assembling the connector (50), the first connector (3
0) and the second connector (50) on the attached part side, wherein the first connector (30) is a connector body (31) and one end surface of the connector body (31). Rotating support shafts are provided on the upper and lower surfaces of the connector body (31) so that one end thereof projects from the
An engaging lever (32) pivotally supported via (33), and the attached lever is attached to the one end of the engaging lever (32).
An engagement protrusion (43) that engages with the back surface of the portion (20) ;
Provided at a position closer to the rotation support shaft (33) than the engagement projection (43 ), and on the front surface side of the attached portion (20).
A cam lever which Kakarito is formed at the engaging projection (43) is state-like engaged with the back surface side of the mounted portion, fitting the second connector to the first connector (30) (50) As a result, the engaging lever (32) is rotated, the engaging protrusion (43) is supported by the attached portion (20), and the engaging protrusion (43) is attached. A connector support mechanism characterized in that a cam lever accommodating recess (56) for accommodating the cam lever (42) while being supported by the portion (20) is formed in the inner wall of the second connector (50). 2. The connector support mechanism according to claim 1, wherein the coupling protrusion (40) is provided on the other end of the engagement lever (32).
D) is provided in a protruding manner, and a guide groove portion (54) for guiding the coupling protrusion (40D) is formed in the inner wall of the second connector. 3. The connector support mechanism according to claim 2, wherein the engagement protrusion (43) engages with a rear surface side of the attached portion (20) , and the cam lever (42) attaches to the attached portion. part (20) the coupling projections and the second connector to the first connector (30) of Kakarito the state on the surface side (50) with the fitting (40D) is the guide groove (5
4) to move the engaging lever (32) to rotate so that the engaging protrusion (43) moves to the attached portion (2).
The connector support mechanism is characterized in that it is pressed against the back side of 0) .