CN105390871A - Connector with rod - Google Patents

Abstract

The invention provides a connector with a rod for avoid the maximization of the rod. A connector C with the rod comprises a detection component (50) and a convex part (55), wherein the detection component (50) is arranged on an operation part (22) of the rod (20) and always keeps in a standby position, when the rod (20) reaches a embeding complete position, the displacement of the rod (20) is allowed; the convex part is arranged on the detection component (50), when the rod (20) is arranged on an initial position, the operation part (22) passes through a first through hole (31) arranged the operation part (22) of the rod (20) and a second through hole (16) arranged on a first connector shell (10) and protrodes towards the inner side of the first connector shell (10), the displacement of the detection component (50) and the rotation of the rod (20) are limited, and the detection component (50) and the rod (20) moves towards outside through a way that a second connector shell (40) lightly embedded in the first connector shell (10) partly abuts against the inner protruded part of the first connector shell (10), so that the state that the rotation of the rod (20) is allowed is completed.

Description

The connector of subsidiary bar

Technical field

The present invention relates to the connector of subsidiary bar.

Background technology

In the past, there will be a known the connector of following subsidiary bar: be relatively shallowly fitted together to owing to making first connector shell that mutually can be fitted together to and the second connector shell, therefore the bar by making the connector shell of a side possess rotates, and is furthered by two connector shells and reaches correct chimerism.In the connector of this subsidiary bar, before the chimeric action carrying out two connector shells, bar remains on initial position.Further, when make bar from initial position turn to be fitted together to position time, the cam effect produced with the engaging of cam pin by the cam path arranged on the connector shell and bar of the opposing party, two connector shells reach correct chimerism.

And the connection device of the subsidiary bar that following patent documentation 1 is recorded is standby can know whether two connector shells reach the detection means of correct chimerism.This detection means remains at position of readiness, when bar arrive be fitted together to position time, allow the displacement to detection position, whether can displacement and the chimerism of two connector shells can be known according to detection means.In the connector of this subsidiary bar, be all located at the lobe plate portion of bar for the maintenance structure that bar is held in initial position and the maintenance structure that is used for detection means to be held in position of readiness.

[at first technical literature]

[patent documentation]

[patent documentation 1] Japanese Unexamined Patent Publication 2003-257546 publication

[inventing the problem that will solve]

But, in the connector of above-mentioned subsidiary bar, the maintenance structure for bar being held in initial position is not located at the operating portion of the maximally bar of displacement when the rotational action of bar, and is located at lobe plate portion, therefore, when for improving this confining force, need to increase maintenance structure.Further, in the lobe plate portion of bar, construct with the maintenance of bar the maintenance being also provided with detection means separately and construct, therefore cannot avoid the maximization of the maximization in lobe plate portion, i.e. bar, therefore wish to find out way.

Summary of the invention

The present invention is based on situation as described above and complete, its object is to provide a kind of connector can avoiding the subsidiary bar of the maximization of bar.

[for solving the scheme of problem]

The connector of subsidiary bar of the present invention, possesses: first connector shell that can mutually be fitted together to and the second connector shell, bar, can be installed on described first connector shell rotationally, after making described two connector shells relatively shallowly be fitted together to, being fitted together to position, being furthered by described two connector shells thus and reaching correct chimerism by turning to from initial position, detection means, is arranged at the operating portion of described bar and remains in position of readiness, when described bar arrive described be fitted together to position time be allowed to detection position displacement, and protuberance, be arranged at described detection means, when described bar is in described initial position, the first through hole that the through operating portion at described bar is arranged and the second through hole of arranging at described first connector shell and inner side to described first connector shell is outstanding, limit the displacement action of described detection means and the rotational action of described bar, and abutted and displacement laterally with the part outstanding to the inner side of described first connector shell from described through hole by described second connector shell being relatively shallowly embedded in described first connector shell, become the state of the rotation allowing described bar.

[invention effect]

According to the present invention, the protuberance being located at detection means doubles as the maintenance structure for detection means being held in position of readiness and bar is held in the maintenance structure of initial position, and be located at the operating portion of bar due to this maintenance structure, therefore, compared with the situation that the maintenance arranging bar and detection means respectively with the lobe plate portion at bar constructs, the maximization of bar can be avoided.

Accompanying drawing explanation

Fig. 1 represents first connector shell of the present embodiment and the stereogram of the second connector shell.

Fig. 2 is the front view representing the first connector shell.

Fig. 3 is the vertical view representing detection means.

Fig. 4 is the rearview representing detection means.

Fig. 5 represents that detection means is held in position of readiness and bar is held in the side view in partial cross-section of the connector of the subsidiary bar of the state of initial position.

Fig. 6 is that the locking state of indication rod is by the side view in partial cross-section of the connector of the subsidiary bar of situation removed.

Fig. 7 be indication rod arrive be fitted together to position and the locking state of detection means by the side view in partial cross-section of the connector of the subsidiary bar of situation removed.

Fig. 8 is the side view in partial cross-section of the connector of the subsidiary bar representing situation about detection means being pressed into detection position.

Fig. 9 is the side view in partial cross-section of the connector of the subsidiary bar representing the state that detection means is pressed into detection position.

[label declaration]

C ... the connector of subsidiary bar

10 ... first connector shell

16 ... second through hole

20 ... bar

22 ... operating portion

31 ... first through hole

40 ... second connector shell

50 ... detection means

55 ... protuberance

58 ... inclined plane

Embodiment

Optimal way of the present invention as shown below.

The connector of subsidiary bar of the present invention also the part outstanding to the inner side of described first connector shell from described second through hole when being in described initial position of the described bar in described protuberance, described second connector shell can be configured at part in described second through hole during displacement laterally by abutting, arrange the inclined plane of formation along the inclination of the rotation direction of described bar.

According to such structure, make bar from initial position towards be fitted together to position rotate time, due to the inclined plane of protuberance, protuberance easily stretches out laterally from the second through hole, therefore, it is possible to make bar rotate swimmingly.

< embodiment >

Below, about embodiment the present invention specialized, reference Fig. 1 ~ Fig. 9 also describes in detail.

The connector C of the subsidiary bar of the present embodiment possesses first connector shell 10 and second connector shell 40 that can mutually be fitted together to, relatively shallowly be fitted together to owing to making two connector shells 10,40, therefore, it is possible to the bar 20 being installed on the first connector shell 10 rotationally turns to from initial position be fitted together to position, thus two connector shells 10,40 are reached correct chimerism by furthering.Below, in each structural elements, using the chimeric surface side (lower left side of Fig. 1) of two connector shells 10,40 as front, and, using the upside of Fig. 1 as top, downside is described as below.

Second connector shell 40 is synthetic resin system, and entirety is formed as the bulk with the roughly rectangular cross-sectional of growing crosswise.Second connector shell 40 is provided with the chamber 41 that terminal fittings that multiple confession is fixed on the terminal part of electric wire inserts from rear.

Be arranged in the prominent part of the locking status releasing of the bar 20 by being held in initial position at the upper surface of the second connector shell 40 first removes projection 42.First releasing projection 42 is arranged on the substantial middle on the Width of the second connector shell 40.First removes projection 42 shape elongated in fore-and-aft direction, is arranged on the leading section of the second connector shell 40.The releasing face 43 of the inclination as rise gradually towards rear (outstanding size increases) is formed in the first front end of removing projection 42.Releasing face 43 is connected with the front surface of the second connector shell 40.

Be provided with multi-functional portion 46 in the rearward end of the second connector shell 40, this multi-functional portion 46 has: the second sticking department 44 engaging in the first sticking department 33 of the first connector shell 10, two connector shells 10,40 being remained correct chimerism; Projection 45 is removed by be held in the locking status releasing of the detection means 50 of position of readiness second.Multi-functional portion 46 is arranged on the substantial middle on the Width of the rear end of the second connector shell 40, erects upward.

Second sticking department 44 is located at the upper end in multi-functional portion 46, becomes the form of forwards giving prominence to from its whole width.As shown in Figure 7, the second sticking department 44 is by engaging in be fitted together to the upper surface side of the first sticking department 33 of the bar 20 that position configures, and limit the displacement upward of the first sticking department 33, limit rod 20 is towards the rotation of initial position thus.The lower surface of the second sticking department 44 becomes acclivitous inclination toward the front.

As shown in Figure 1, the second releasing projection 45 is forwards projecting from the second sticking department 44.Second removes the center (central authorities on the Width in multi-functional portion 46) that projection 45 is arranged on the second sticking department 44.As shown in Figure 7, second removes projection 45 by being pressed to locking releasing direction by the locking pawl 53 of detection means 50, and detection means 50 can be pressed into from position of readiness to detection position.Second lower surface removing projection 45 becomes the inclination of inclining with the gradient roughly the same with the lower surface of the second sticking department 44, is connected not have the mode of difference of height with the lower surface of the second sticking department 44.

The front surface in multi-functional portion 46 (comprising the front surface that the second sticking department 44 and second removes projection 45) is formed as the inclination declined toward the front and gradually, becomes roughly the same gradient on the whole what comprise that the second sticking department 44 and second removes projection 45.In addition, as shown in Figure 1,2 loss of weight portions 47 are formed with at the front surface in multi-functional portion 46.

First connector shell 10 is synthetic resin system, as shown in Figure 1, is provided with the guard section 11 that the second connector shell 40 can be supplied embedded in front side.As shown in Figure 2, guard section 11 is formed as the roughly square tube shape of the forwards opening in the oblong-shaped of growing crosswise, and configures male accessory 12 highlightedly therein.Guard section 11 two lateral surfaces 17 erect be provided with each one for assembling the aixs cylinder portion 13 of bar 20.

The chimeric recess 14 (with reference to Fig. 1) that can be fitted together to for the multi-functional portion 46 of the second connector shell 40 is provided with in the upper wall portions of guard section 11.Chimeric recess 14 is arranged on the central portion on the Width of the upper wall portions of guard section 11, has the width dimensions and the form be set to from front end towards rear otch squarely shape that can be fitted together to for multi-functional portion 46.

The groove portion 15 extended along the longitudinal direction is provided with at the medial surface 18 of the upper wall portions of guard section 11.Groove portion 15 is arranged on the substantial middle on the Width of the first connector shell 10, becomes the form that caves in upward and rearward extends from chimeric recess 14.The the first releasing projection 42 being located at the second connector shell 40 can by groove portion 15.

The second through hole 16 that the protuberance 55 of detection means 50 described later can be through is provided with in the upper wall portions of guard section 11.Second through hole 16 in the elongated shape extended along its left and right directions centered by groove portion 15, and along the upper wall portions of the through guard section 11 of inward-outward direction.

As shown in Figure 1, bar 20 possesses the pair of cams plate portion 21 and the operating portion 22 that arranges in the mode linked in pair of cams plate portion 21 that two lateral surfaces 17 along the guard section 11 of the first connector shell 10 configure.By the aixs cylinder portion 13 being located at the first connector shell 10 being flush-mounted in the axis hole 23 that ground, through pair of cams plate portion 21 is respectively arranged, thus bar 20 can rotate centered by aixs cylinder portion 13.The cam path (not shown) that can enter respectively for the pair of cams pin 48 being located at the second connector shell 40 is provided with in the inner side in pair of cams plate portion 21.

The chimeric that bar 20 is positioned at the pars intermedia (rearward end of guard section 11) on the fore-and-aft direction of the first connector shell 10 initial position (with reference to Fig. 5 and Fig. 6) at operating portion 22 and operating portion 22 are positioned at the leading section of the first connector shell 10 completes can rotation displacement between position (reference Fig. 7 ~ Fig. 9).Operating portion 22, when bar 20 is in initial position, configures with the upper surface of the first connector shell 10 with abutting, bar 20 be in be fitted together to position time, configure discretely upward from the upper surface of the first connector shell 10.

The detection means 50 of the chimerism of detection two connector shell 10,40 is contained in the substantial middle of the Width of operating portion 22.As shown in Figure 6, the resettlement section 25 of detection means 50 is spaces of the opening along the longitudinal direction of the central portion being formed at operating portion 22, form a pair side 26 in the both sides of resettlement section 25, the rearward end in resettlement section 25 arranges beam portion 27 in the mode hung between two sides 26.

And resettlement section 25 possesses: when bar 20 is configured at initial position along the basal wall portion 28 that the upper surface of the first connector shell 10 configures; With after forwards extending from the front end in basal wall portion 28 towards the flexible wall member 29 that the mode that tiltedly upper rear erects is arranged.Flexible wall member 29 arranges a pair at the both ends, left and right in basal wall portion 28, in the front in basal wall portion 28, forms the first through hole 31 between a pair flexible wall member 29.When bar 20 is configured at initial position, the first through hole 31 to be configured at above the second through hole 16 of arranging at the first connector shell 10 and to become and the second through hole 16 (inward-outward direction) state of being communicated with along the vertical direction.

A pair flexible wall member 29 is interconnected at two positions.The linking part that the pars intermedia on the length direction of flexible wall member 29 is linked in the linking part that a pair flexible wall member 29 is linked as shown in Fig. 7 ~ Fig. 9, as first sticking department 33 locking with the second sticking department 44 of the second connector shell 40.The locking face 32 locking with the second sticking department 44 in first sticking department 33 tilts with having the gradient equal with the lower surface of the second sticking department 44.And, the face (lower surface in Fig. 7) of the side contrary with locking face 32 in the first sticking department 33 becomes press-in guide surface 34 as described below, and this press-in guide surface 34 has makes the smooth and easy inclination carried out of this press-in action when detection means 50 is pressed into from position of readiness to detection position.It should be noted that, the both ends (and joint portion of flexible wall member 29) of the first sticking department 33 have the cross section larger than pars intermedia (being configured in the part between a pair flexible wall member 29) and are reinforced.

And the linking part connected to each other of the front end using flexible wall member 29 (rear end) in the linking part a pair flexible wall member 29 linked is as the top wall portion 35 formed substantially in parallel with basal wall portion 28.The rearward end of top wall portion 35 is formed as the wall-like erected upward on its whole width.

Further, between a pair flexible wall member 29, above and below the first sticking department 33, window portion 36 is formed respectively.The locking pawl 53 of detection means 50 described later is embedded in the window portion 36 of the top in these window portions 36 and engaging in the first sticking department 33, limits the displacement (from position of readiness to the displacement of detection position) forwards of detection means 50 thus.

Detection means 50 remains in position of readiness, when bar 20 arrival has been fitted together to position, allows the displacement to detection position.

As shown in Figure 5, detection means 50 possesses: the tabular long in fore-and-aft direction and the main part 51 that configures along the basal wall portion 28 of resettlement section 25; From the front end of main part 51 to the arm 52 that rear tiltedly erects.Arm 52 has the gradient equal with the flexible wall member 29 of resettlement section 25 in its natural state and tilts, and is configured between a pair flexible wall member 29.Locking pawl 53 outstanding is toward the front provided with in the front end (rising end) of arm 52.

The press operating part 54 carrying out when making detection means 50 be pressed into from position of readiness to detection position pressing is provided with in the rearward end of main part 51.As shown in Figure 5, press operating part 54, as shown in Figures 3 and 4, is given prominence to both sides from main part 51 in the square tube shape with general square shape cross section to the left and right when observing from side.Press operating part 54 is configured at the displacement limiting above-below direction between beam portion 27 and basal wall portion 28.

And, as shown in Figure 5, protuberance 55 is provided with, this protuberance 55 through first through hole 31 and second through hole 16 and outstanding and limit the displacement action of detection means 50 and the rotational action of bar 20 to the inner side of the first connector shell 10 when bar 20 is in initial position in detection means 50.In protuberance 55, the outstanding part in the inner side from the second through hole 16 to the first connector shell 10 is removed raised 42 with first of the second connector shell 40 and is abutted, and thus as shown in Figure 6, protuberance 55 displacement laterally, becomes the state of the rotation allowing bar 20.

The position of the projecting forward end in the lower surface of main part 51 of protuberance 55.As shown in Figure 4, protuberance 55 has: vertical portion 56, has the width dimensions equal with main part 51 and hangs down from the lower surface of main part 51; And abutting part 57, be arranged on the bottom of vertical portion 56, and remove projection 42 abut be located at the second connector shell 40 first.Abutting part 57 is given prominence to both sides to the left and right from vertical portion 56, oblong-shaped elongated in left and right directions from forward observation.

When bar 20 is in initial position, as shown in Figure 5, vertical portion 56 is configured in the first through hole 31, and abutting part 57 configures from the inner side to the first connector shell 10 in the second through hole 16.In this condition, when making bar 20 to when being fitted together to position rotation displacement, the front surface of protuberance 55 abuts with the front surface of the second through hole 16, does not carry out the rotation displacement of bar 20.

In the bottom of protuberance 55, as shown in Figure 5, the inclined plane 58 formed along the inclination (inclination of rising gradually toward the front) of the rotation direction of bar 20 is provided with.Inclined plane 58 is formed in the front-surface side of abutting part 57, is set to the form of the bight angular cutouts to lower end.Inclined plane 58 be formed in the part outstanding to the inner side of the first connector shell 10 from the second through hole 16 when bar 20 is in initial position in abutting part 57, by with first of the second connector shell 40 remove raised 42 abut and be positioned at outside time be configured at the part of the second through hole 16.

Next, an example of the chimeric operation of the connector C of subsidiary bar is described.

Subsidiary bar connector C chimeric before, as shown in Figure 1, in the first connector shell 10, detection means 50 is held in position of readiness and bar 20 is held in initial position.In this condition, with regard to detection means 50, press operating part 54 is clamped by beam portion 27 and basal wall portion 28 and is limited the displacement of above-below direction, and locking pawl 53 limits displacement forwards engaging in the first sticking department 33, protuberance 55 limits rearward displacement due to through first through hole 31.And bar 20 limits from initial position towards the rotation displacement being fitted together to position due to through second through hole 16 of protuberance 55 of detection means 50.

Next, two connector shells 10,40 are relatively shallowly fitted together to.So the cam pin 48 of the second connector shell 40 enters the entrance of the cam path of the first connector shell 10.And, as shown in Figure 6, second connector shell 40 first remove projection 42 enter inboard by the groove portion 15 of the first connector shell 10, in the near future abut with the inclined plane 58 of protuberance 55, make protuberance 55 upward (outside) displacement carry out the locking state of relieving rod 20.Now, detection means 50 becomes following state: the front part elastic displacement upward of main part 51, and press operating part 54 is clamped by beam portion 27 and basal wall portion 28, and protuberance 55 is given prominence to downwards from the first through hole 31.

Next, bar 20 is made to rotate from initial position to being fitted together to position.When making operating portion 22 be moved upward, the inclined plane 58 of protuberance 55 along the second through hole 16 upper end and bar 20 rotates swimmingly.And protuberance 55 is removed projection 42 from first and is separated, and the posture of detection means 50 carries out elastic recovery thus.Further, along with the rotation of bar 20, cam pin 48 along cam path displacement, the chimeric progress of two connector shells 10,40.In the near future, when bar 20 is close to when being fitted together to position, first sticking department 33 and second removes that projection 45 abuts and strain rearward occurs flexible wall member 29, when bar 20 arrival has been fitted together to position, as shown in Figure 7, first sticking department 33 enters the below of the second releasing projection 45 and the second sticking department 44 and flexible wall member 29 elastic recovery, and the first sticking department 33 and the second sticking department 44 become locking state.Thus, the first connector shell 10 remains can not be separated with the second connector shell 40.

And, simultaneously, second of second connector shell 40 removes the window portion 36 that projection 45 protrudes into the top of the first sticking department 33, and locking pawl 53 is rearward pressed by the second releasing projection 45 and elastic displacement rearward occurs arm 52, thus removes the locking state of detection means 50.

Next, detection means 50 is pressed into detection position.When the press operating part 54 of detection means 50 is pressed downwards, locking pawl 53 is crossed the second releasing projection 45 and arrives the press-in guide surface 34 of the first sticking department 33 as shown in Figure 8, cross the first sticking department 33 by this inclination, as shown in Figure 9, detection means 50 arrives detection position.Further, detection means 50 is by limiting further movement with the front surface in multi-functional portion 46 to touching, and locking pawl 53 arrives the below of the first sticking department 33, and press operating part 54 becomes the state be sandwiched between basal wall portion 28 and top wall portion 35.It should be noted that, protuberance 55 moves downwards in the first through hole 31.

At this, when bar 20 do not arrive be fitted together to position when, locking pawl 53 not by the pressing of locking releasing direction still engaging in the first sticking department 33, even if therefore want press-in detection means 50 also cannot be pressed into.Thus, operator can be known that bar 20 does not arrive and be fitted together to position, i.e. the chimeric situation normally not completing (half chimerism) of two connector shells 10,40.Further, operator has been fitted together to position by making bar 20 reliably turn to, and two connector shells 10,40 reliably become correct chimerism.

Next, the functions and effects of the present embodiment formed as described above are described.

The connector C of the subsidiary bar of the present embodiment possesses first connector shell 10 and second connector shell 40 that mutually can be fitted together to, bar 20 can be installed rotationally at the first connector shell 10, this bar 20 is from making two connector shells 10, 40 have relatively shallowly been fitted together to turn to from initial position and have been fitted together to position, thus by two connector shells 10, 40 further and reach correct chimerism, detection means 50 is possessed at the operating portion 22 of bar 20, this detection means 50 remains in position of readiness, when bar 20 arrival has been fitted together to position, be allowed to the displacement to detection position.And, detection means 50 is provided with protuberance 55, this protuberance 55 the first through hole 31 that the through operating portion 22 at bar 20 is arranged when bar 20 is in initial position and the second through hole 16 of arranging at the first connector shell 10 and inner side to the first connector shell 10 is outstanding, the restriction displacement action of detection means 50 and the rotational action of bar 20, and abutted and displacement laterally with the second connector shell 40 being relatively shallowly embedded in the first connector shell 10 by the part outstanding to the inner side of the first connector shell 10 from the second through hole 16, become the state of the rotation allowing bar 20.

According to this structure, the protuberance 55 being located at detection means 50 doubles as the maintenance structure for detection means 50 being held in position of readiness and bar 20 is held in the maintenance structure of initial position, and, this maintenance structure is located at the operating portion 22 of bar 20, compared with situation about therefore constructing with the maintenance arranging bar and detection means respectively in the lobe plate portion of bar, the maximization of bar 20 can be avoided.

And, the part outstanding to the inner side of the first connector shell 10 from the second through hole 16 when bar 20 is in initial position in protuberance 55, the part be configured at during displacement laterally by abutting with the second connector shell 40 in second through hole 16, be provided with the inclined plane 58 of the inclination of the rotation direction become along bar 20.

According to this structure, make bar 20 from initial position towards be fitted together to position rotate time, due to the inclined plane 58 of protuberance 55, protuberance 55 is easily given prominence to laterally from the second through hole 16, therefore, it is possible to make bar 20 rotate swimmingly.

Other embodiment > of <

The present invention is not defined through the embodiment of above-mentioned description and accompanying drawing explanation, and such as the following examples are also contained in technical scope of the present invention.

(1) in the above-described embodiments, inclined plane 58 is set in the bottom of protuberance 55, but is not limited thereto, such as, also can form the cascaded surface caved in the bottom of protuberance steppedly.

Claims (2)

1. a connector for subsidiary bar, possesses:

First connector shell that can mutually be fitted together to and the second connector shell;

Bar, can be installed on described first connector shell rotationally, after making described two connector shells relatively shallowly be fitted together to, being fitted together to position, being furthered by described two connector shells thus and reaching correct chimerism by turning to from initial position;

Detection means, is arranged at the operating portion of described bar and remains in position of readiness, when described bar arrive described be fitted together to position time be allowed to detection position displacement; And

Protuberance, be arranged at described detection means, when described bar is in described initial position, the first through hole that the through operating portion at described bar is arranged and the second through hole of arranging at described first connector shell and inner side to described first connector shell is outstanding, limit the displacement action of described detection means and the rotational action of described bar, and abutted and displacement laterally with the part outstanding to the inner side of described first connector shell from described through hole by described second connector shell being relatively shallowly embedded in described first connector shell, become the state of the rotation allowing described bar.

2. the connector of subsidiary bar according to claim 1, wherein,

The part outstanding to the inner side of described first connector shell from described second through hole when described bar is in described initial position in described protuberance, the part be configured at during displacement laterally by abutting with described second connector shell in described second through hole, be provided with the inclined plane formed along the inclination of the rotation direction of described bar.