CN101170229A

CN101170229A - Connector components

Info

Publication number: CN101170229A
Application number: CNA2007101944481A
Authority: CN
Inventors: 高桥俊晴; 大高一人
Original assignee: Yazaki Corp
Current assignee: Yazaki Corp
Priority date: 2006-10-10
Filing date: 2007-10-10
Publication date: 2008-04-30
Also published as: GB2442845A; JP4878535B2; GB2442845B; GB0718889D0; BRPI0703724A; JP2008097904A

Abstract

A connector assembly with level is provided, the assembly is capable of controlling the force applied to the level. The connector assembly includes: a convex connector, a concave connector, and a level rotary arranged on the convex connector. Rotating the level so as to allow the two connectors to close and separate each other. The level is arranged with pivot heave, when the two connectors mutually matching, the concave connector turns back the pivot heave. The concave connector is arranged with a pivot guiding groove for the pivot entering. The pivot guiding groove includes straight portion and incline portion. Partial control pivot heave on the end of incline portion locating at the inner surface of the pivot guiding groove moves along the connector width direction, the end portion is arranged far from the straight portion.

Description

Connector assembly

Technical field

The present invention relates to a kind of connector assembly, this assembly comprises first and second connectors that are suitable for being fitted to each other, and offers one of them lever of first and second connectors rotationally.

Background technology

The usually said lever-type connector assembly with lever is known (for example, referring to Japanese patent application No.2006-3474)

The usually said lever-type connector assembly with lever comprises that a convex connector is as first connector, one matrix connector is as the mat woven of fine bamboo strips two connectors, and the lever that is connected to the convex connector rotatably, and when rotating with respect to the convex connector, lever allow convex connector and matrix connector closer to each other and leave.

Lever is provided with outstanding from the end of the lever of contiguous matrix connector and fulcrum projection that form.The matrix connector is provided with sliding tray, and the fulcrum projection is slided along this groove.In addition, the center of the lever arc guide hole that is provided with the hole of operating point and separates each other.The convex connector is provided with projection and the guide projections that is used for operating point, and they stretch out from the convex connector, separates each other, and enters the hole and the guide hole of operating point respectively.

For the lever-type connector assembly, guide projections enters into guide hole, and the projection of operating point enters into the hole of operating point, and lever is connected to the convex connector with respect to the rotation of convex connector.Then, the fulcrum projection of lever enters engaging hole and lever rotates, thereby convex connector and matrix connector are fitted to each other.When the convex connector that is fitted to each other and matrix connector were separated from one another, the side of lever when being fitted to each other with convex connector and matrix connector rotated in the opposite direction.

In addition, for the lever-type connector assembly, when convex connector and matrix connector are fitted to each other or are separated from one another, fulcrum projection Width along connector in sliding tray moves (promptly, when convex connector and matrix connector are fitted to each other or are separated from one another, the direction that the closer to each other and direction that leave of convex connector and matrix connector intersects vertically), and guide projections and operating point projection move in guide hole and operating point respectively, thus the rotation direction of guiding lever.

Yet, as for above-mentioned traditional lever-type connector assembly, because fulcrum projection Width along connector in sliding tray moves, so in order to guide the direction of rotation with respect to the lever of convex connector, guide projections and guide hole are provided with the projection of operating point and the hole of operating point.Therefore, especially when convex connector and matrix connector were fitted to each other, for rotating lever must apply power to lever, described power comprised: the terminal of convex connector is connected necessary power with the terminal of matrix connector; The operating point projection moves the frictional force that causes in the operating point hole; Guide projections moves the frictional force that causes in guide hole; And the fulcrum projection moves the frictional force that causes in sliding tray.

Therefore, especially, comprise that guide projections moves the power of the frictional force that produces with rotating lever in a pair of guide hole owing to must apply, so for traditional lever-type connector assembly, when convex connector and matrix connector are fitted to each other when separating, be necessary lever is applied powerful to be operatively connected the device assembly.

Summary of the invention

Therefore, an object of the present invention is to provide a kind of connector assembly, can control the power that imposes on lever by this connector assembly with lever.

In order to address the above problem and to reach this purpose, connector assembly according to the present invention comprises:

First connector;

Second connector with the assembling of first connector;

Be rotationally coupled to one of them lever of first and second connectors, and when this lever rotates, allow first and second connectors closer to each other with separate;

The fulcrum projection, they are an outstanding formation in another connector from the lever and first and second connectors, and this lever is blocked by in described another connector in another lever and the mat woven of fine bamboo strips one and second connector another when first and second connectors are fitted to each other; And

Displacement control device (or displacement holdout device), even when the mat woven of fine bamboo strips one and second connector assemble rotating lever each other, this displacement control device along with the be fitted to each other direction of direction quadrature of first and second connectors, the displacement of control fulcrum projection.

According to above-mentioned structure since displacement control device (or displacement holdout device) along and the be fitted to each other direction of direction quadrature of first and second connectors, the displacement of control fulcrum projection, that is, along the Width of connector, so the fulcrum projection supports rotating lever.Thereby even the rotation of an operating point projection and an operating point hole guiding lever is provided, lever also can rotate by the guiding of projection, hole and fulcrum projection.

Has above-mentioned structure, neither need to provide guide projections and guide hole, also do not need operating point projection and operating point hole to guide the rotation of lever, guide projections moves the frictional force that produces in guide hole when lever rotates, that is, when first and second connectors cooperatively interact or separate.Therefore, when assembling each other or separate, first and second connectors can control the power that imposes on lever.

Displacement control device is located at described another connector described on another of the lever and first and second connectors.

According to above-mentioned structure, because displacement control device is located at described another connector described on another of the lever and first and second connectors, promptly, be not provided with on the fulcrum projection at described another, therefore displacement control device disturbs the fulcrum projection reliably, thereby can control fulcrum projection moving along the connector Width reliably.Therefore, when assembling each other or separate, can guarantee by first and second connectors to control the power that imposes on lever.

Described another in described another connector in the lever and first and second connectors is provided with the groove that a fulcrum projection can enter, and displacement control device is the part of groove inner surface.

According to said structure, because displacement control device is the part of the groove inner surface that enters of fulcrum projection, so displacement control device disturbs the fulcrum projection reliably, thereby can control fulcrum projection moving along the connector Width reliably.Therefore, when assembling each other or separate, can guarantee by first and second connectors to control the power that imposes on lever.

Fulcrum convexes to form to cylindrical.

According to said structure, because fulcrum convexes to form to cylindrical, the power that therefore imposes on lever in the lever rotary course never changes suddenly.Therefore, when first and second connectors assemble each other or separate, can control the power that imposes on lever, and can stop the unexpected variation of the power that is applied on the lever.

Description of drawings

Fig. 1 is a decomposition diagram, and it shows connector assembly according to one preferred embodiment of the present invention;

Fig. 2 is the perspective view that connects a convex connector of the lever in the connector assembly shown in Figure 1, moves down a part except the wall of convex connector outer cover at this state;

Fig. 3 is the cross-sectional view of a state, and wherein the convex connector of connector assembly shown in Figure 1 and matrix connector are temporarily fixed;

Fig. 4 is the cross-sectional view of a state, and wherein the fulcrum projection that is provided with on the described lever of Fig. 3 is positioned at the end of the rake of pivot guide groove on the matrix connector, and described end is away from the straight part of pivot guide groove.

Fig. 5 is the cross-sectional view of a state, and convex connector and matrix connector wherein shown in Figure 4 are fitted to each other; And;

Fig. 6 is a perspective view, and it shows another example of the lever of convex connector shown in Figure 2 and connector assembly.

Embodiment

Below, will be with reference to figure 1-5 description connector assembly according to one preferred embodiment of the present invention.Shown in Fig. 1-5, connector assembly 1 comprises according to the preferred embodiment of the invention: as the convex connector 2 of first connector, it has the pivot guide groove 6 as groove; As the matrix connector 3 of second connector, it has fulcrum projection 7, and lever 4 is connected on the matrix connector 3.

Convex connector 2 comprises connector shell 9 and covers 10.As shown in Figure 1, connector shell 9 integral body comprise box-like inner casing 11 and cylinder outer cover 12.Inner casing 11 is provided with terminal receiving cavity 13 (see figure 2)s.Each container cavity 13 holds matrix terminal fittings (hereinafter, matrix link; Not shown).

Outer cover 12 integral body are formed with the inner casing 11 that inside holds inner casing 11.The outer surface interval of the inner surface of outer cover 12 and inner casing 11 also is provided with a plurality of connection ribs 15, and described connection rib is connected to outer cover shown in Figure 2 12 with inner casing 11.As shown in Figure 2, the inner surface of outer cover 12 is provided with from the outstanding lever supporting projections 14 of the inner surface of outer cover 12.This lever supporting projections 14 forms cylindrical.Lever supporting projections 14 is located at the centre on the Width of convex connector 2 of outer cover 12.

Here, Width is just to give when

connector

2 and 3 directions of assembling or the closer to each other and detaching direction of

connector

2 and 3 when separating (among Fig. 1 shown in the arrow S) each other with the right angle.That is to say that the direction shown in the arrow is the direction that

connector

2 and 3 cooperatively interacts.

Lid 10 forms flute profile and is connected to the end of the inner casing 11 of connector shell 9; Described end is away from matrix connector 3.Thereby lid 10 holds the electric wire protection electric wire that is connected to the matrix terminal.

The outer surface of the inner casing 11 of convex connector 2 (be arranged on the Width of this side of Fig. 1 and depth side a pair of side each) is provided with lever lock arm 16.When convex connector 2 and matrix connector 3 are closer to each other, the operation panel 30 of lever lock arm 16 engagement, levers 4 (hereinafter explanation).

The inner casing 11 of convex connector 2 is provided with interim junction surface (not shown), this junction surface engages with the interim copulational protuberance 23 of spill connector 3 provisionally, so that inner casing 11 enters into matrix connector 3, thereby when the terminal each interval, be temporarily fixed matrix connector 3.

The matrix connector comprises connector shell 22.This connector shell 22 comprises a terminal receiving cavity, and it mainly holds the electric wire connecting portion of convex terminal (not shown) and forms tubular.Connector shell 22 is provided with interim copulational protuberance 23.This interim copulational protuberance 23 stretches out and forms from the outer surface of connector shell 22.

About matrix connector 3, connector shell 22 enters between the inner casing 11 and shell 12 of convex connector 2, and the interim copulational protuberance 23 interim interim junction surface (not shown)s that engage, so that matrix connector 3 is fixed to convex connector 2 provisionally.When matrix connector 3 was fixed to convex connector 2 provisionally, the part of connector shell 22 entered between the flat part 29 (hereinafter explanation) and inner casing 11 of lever 4.

As shown in Figure 2, lever 4 comprises that pair of plates portion 29 and connects the operation board 30 of flat part 29 ends, and whole formation C shape.Each flat part 29 all forms band plate shape.Flat part 29 has certain distance ground to each other and is arranged in parallel.

Each flat part 29 is provided with the guide hole 31 of operating point.The guide hole 31 that is used for operating point passes flat part 29.

The guide hole 31 that is used for operating point be arranged on flat part 29 vertically and the center on the Width.The plan view shape of guide hole 31 forms ellipse, and its long diameter is vertical along flat part 29.The lever supporting projections 14 that forms on the inner surface of outer cover 12 enters in the guide hole 31.When lever supporting projections 14 entered guide hole 31, it is removable and rotatable that lever supporting projections 14 becomes in guide hole 31, and be connected to the convex connector 2 around the rotation of flat part 29 centers.

Enter in lever supporting projections 14 under the situation of guide hole 31, flat part 29 is arranged between inner casing 11 and the outer cover 12.

When flat part under the situation about being arranged at flat part 29 between inner casing 11 and the outer cover 12 29 rotated, operation board 30 was arranged on the position that operation board 30 can engage with lever lock arm 16.Operation board 30 is provided with lever locking projection 32, and it is outstanding towards lever lock arm 16.Lever locking projection 32 engages with lever lock arm 16.When lever locking projection 32 engages with lever lock arm 16, under the situation that

connector

2 and 3 cooperates each other fully, lever locking projection 32 positioning levers 4.

When convex and

matrix connector

2 and 3 cooperatively interacted, the fulcrum projection 7 (hereinafter explanation) that is formed on the lever 4 entered in the pivot guide groove 6 that forms on matrix connector 3.

When lever 4 rotated with respect to the connector case 9 of convex connector 2 around above-mentioned center, fulcrum projection 7 was slided in pivot guide groove 6 (that is, move and rotate), thereby permission matrix connector 3 and convex connector 2 are toward or away from mutually.

Can enter and when pivot guide groove 6 shifts out when fulcrum projection 7 becomes, lever 4 with respect to convex connector 2 at interim bonding station (shown in Fig. 3) be rotating between the cooperation position fully; Wherein at interim bonding station, connector 2 separates each other fully with 3, cooperates fully each other at

cooperation position connector

2 and 3 fully.At interim bonding station, lever 4 flat parts 29 are contained between outer cover 12 and the inner casing 11 in the part of fulcrum projection 7 sides.At complete cooperation position, almost can hold all flat parts 29.

Fulcrum projection 7 is arranged on the opposed end of lever 4 flat parts 29, and described end does not extend to operation board 30.Fulcrum projection 7 forms cylindrical and 29 approaching mutually directions are outstanding from flat part 29 along flat part.That is to say that the pivot guide groove 6 towards matrix connector 3 stretches out and forms fulcrum projection 7 from flat part 29.

Pivot guide groove 6 forms on the outer surface of the connector shell 22 of matrix connector.When

connector

2 and 3 cooperatively interacted, pivot guide groove 6 was arranged on the position of corresponding lever supporting projections 14.Each pivot guide groove 6 is formed in the recessed thing of flute profile from the outer surface of connector shell 22, and comprises straight portion 33 and rake 34.

Line part 33 along

connector

2 and 3 mutually near and the direction S straight-line extension that leaves.One end of line part 33 opens wide at an edge of the connector shell 22 of matrix connector 3, and described edge is adjacent to convex connector 2 and is provided with.Rake 34 extends to the opposite end of line part 33 and extends from the opposite end towards an end of line part 33 and the outside of matrix connector 3.Therefore, a pair of with the rake 34 of right-angle crossing on the direction of direction S along rake 34 along with the direction away from each other near convex connector 2 is extended.Rake 34 tilts with respect to direction S.

Fulcrum projection 7 enters into pivot guide groove 6 by near the edge of the line part 33 the convex connector 2.The fulcrum projection 7 that enters pivot guide groove 6 is movably in pivot guide groove 6.When lever 4 rotated, fulcrum projection 7 was adjacent to the adjacent portions 6a of the end of the rake 34 that is arranged on pivot guide groove 6 inner surfaces, and described end and line part 33 are away from setting.When

connector

2 and 3 cooperatively interacts, the adjacent portions 6a of pivot guide groove 6 plays the effect (that is, the displacement holdout device) of displacement control device, and this displacement control device control fulcrum projection 7 is along connector 2, the displacement of 3 Widths (that is, with the direction of right-angle crossing) in direction S.

When fulcrum projection 7 was adjacent to the adjacent portions 6a of pivot guide groove 6, this fulcrum projection 7 was positioned at the end parts of the rake 34 of pivot guide groove 6, and described end parts and line part 33 are away from setting.Then, because the rake 34 of pivot guide groove 6 extends as mentioned above, so even connector 2 and the 3 fulcrum projectioies 7 that also can stop separated from one another are come out from pivot guide groove 6.Therefore, when fulcrum projection 7 was adjacent to the adjacent portions 6a of pivot guide groove 6, fulcrum projection 7 was blocked by convex connector 3.

When the convex connector 2 of connector assembly 1 and matrix connector 3 cooperatively interact, at first, female terminal with electric wire is contained in the terminal receiving cavity 13 of connector shell 9, and lever 4 is connected between the connector shell 9 and outer cover 12 of convex connector 2.In this case, lever 4 is arranged on above-mentioned interim bonding station.Convex terminal 25 is connected in the connector shell 22.

Then, as shown in Figure 3, fulcrum projection 7 enters into the line part 33 of pivot guide groove 6, and the interim junction surface 23 of matrix connector 3 engages with the interim junction surface (not shown) of convex connector 2 temporarily, thereby

connector

2 and 3 is temporary fixed each other.Certainly, then, fulcrum projection 7 is arranged on the end of pivot guide groove 6 opposite ends, and lever supporting projections 14 is arranged near the end of the guide hole 31 of the operating point the operation board 30.Then, the operation board 30 of presses lever 4 is with towards second place rotating lever 4.

Then, as shown in Figure 4, fulcrum projection 7 is near the adjacent portions 6a of pivot guide groove 6.Between Fig. 3 and Fig. 4, lever 4 rotates, but

connector

2 and 3 is not mobile to each other.Therefore, between Fig. 3 and Fig. 4, there is not

connector

2 and 3 interoperation each other.

In addition, thus when pressing operation board 30 during towards second place rotating lever 4, because fulcrum projection 7 near adjacent portions 6a, so

connector

2 and 3 is closer to each other gradually, stops the Width superior displacement of fulcrum projection 7 at

connector

2,3 under this state.At this moment, lever supporting projections 14 moves from the end of the some guide hole 31 that is used to move, and described end is provided with near operation board 30, and towards the other end of operating point guide hole 31, the described other end is away from 30 settings of operation board.

When lever locking projection and lever lock arm 16 engage each other fully, so that lever 4 is when being positioned at above-mentioned complete cooperation position,

connector

2 and 3 is finished cooperation each other.Lid 10 at first is connected to convex connector 2 before

connector

2 and 3 cooperates.

When

connector

2 and 3 when separated from one another, lever 4 rotates towards primary importance from the second place.Between Figure 4 and 5, connector 2 with 3 toward each other near or separate.Therefore, between Fig. 4 and Fig. 5,

connector

2 and 3 is compounding practice to each other.That is to say, though connector 2 is fitted to each other with 3 or when separating lever 4 rotation has taken place, the adjacent portions 6a of pivot guide groove 6 also can stop the Width displacement of fulcrum projection 7 along

connector

2 and 3.

According to preferred embodiment, adjacent portions 6a (that is, displacement control device) stops fulcrum projection 7 to move along the Width of

connector

2 and 3, and this direction is orthogonal to above-mentioned direction S in

connector

2 and 3 engagement process, that is to say that fulcrum projection 7 is supported rotating lever 4.

Provide as the lever supporting projections 14 of operating point projection with as the rotation of the operating point guide hole 31 in operating point hole with guiding lever 4.The rotation direction of lever 4 can be directed, and, can pass through lever supporting projections 14, guide hole 31 and fulcrum projection 7 support lever 4 rotationally that is.

Therefore, because the guide hole 31 that only provides a lever supporting projections 14 and to be used for operating point guides the rotation of lever 4, therefore when lever 4 rotations, can reduce by the mobile frictional force that causes of lever supporting projections 14 in guide hole 31, that is to say, when connector 2 is fitted to each other with 3 or separates.Therefore, when being fitted to each other,

connector

2 and 3 can limit the power that imposes on lever 4 when separating.

Because displacement control device is arranged on the matrix connector 3, it is not included in the fulcrum projection 7 of lever 4 and matrix connector 3 outsides, so displacement control device disturbs fulcrum projection 7 reliably, thereby stop fulcrum projection 7 to move reliably along

connector

2,3 Widths.Therefore, when connector 2 is fitted to each other with 3 or separates, can limit the power that imposes on lever 4 reliably.

Because displacement control device is the adjacent portions 6a as pivot guide groove 6 inner surface parts, fulcrum projection 7 enters this pivot guide groove 6, so this displacement control device disturbs fulcrum projection 7 reliably, thereby stop fulcrum projection 7 to move reliably along

connector

2,3 Widths.Therefore, when connector 2 assembles each other with 3 or separates, can limit the power that imposes on lever 4 more reliably.

When

connector

2 and 3 assembled mutually, lever supporting projections 14 moved towards the end of guide hole 31 gradually, and when

connector

2 and 3 assembled each other, described end was provided with away from operation board 30.Therefore, the distance L 2 (shown in Figure 4) before the distance L 2a (shown in Figure 5) between

connector

2 and 3 assembling lever supporting projections 14 centers, back and fulcrum projection 7 centers becomes than

connector

2 and 3 assemblings between lever supporting projections 14 centers and fulcrum projection 7 centers is short.Therefore, if the distance between fulcrum projection 7 centers and the operation board 30 is made as L1 (shown in the Figure 4 and 5), it is bigger than the leverage (L2/L1) before

connector

2 and 3 assemblings that leverage (L2a/L1) after

connector

2 and 3 assemblings becomes, and is set up small and weak gradually along with

connector

2 and 3 assembles the power that imposes on lever 4 each other so.

In addition, cylindrical because fulcrum projection 7 forms, thus in

connector

2 and 3 assemblings or separating process, can limit the power that imposes on lever 4, and stop the power that imposes on lever 4 to change fast.

In above preferred embodiment, lever 4 is connected to convex connector 2.Yet alternately, lever 4 also can be connected to matrix connector 3.

In above preferred embodiment, the fulcrum projection 7 of giving prominence to from lever 4 is provided, this fulcrum projection 7 can be blocked by matrix connector 3, and matrix connector 3 is provided with the adjacent portions 6a of pivot guide groove 6, and it stops fulcrum projection 7 to move along the Width of connector 2,3.Yet, alternately, can provide from the outstanding fulcrum projection 7 of matrix connector 3, this fulcrum projection 7 can be blocked by lever 4, and lever 4 can be provided with displacement control device, and it stops fulcrum projection 7 to move along the Width of

connector

2,3.

That is to say, in this invention, convex connector 2 is connected lever 4 rotationally with a connector in the matrix connector 3, in lever 4 and convex connector 2 and the matrix connector 3 another is provided with fulcrum projection 7, it is blocked by in described another connector in lever 4 and convex connector 2 and the matrix connector 3 another, in described another connector in lever 4 and convex connector 2 and the matrix connector 3 described in addition-individually be provided with pivot guide groove 6, and be provided with displacement control device.

In addition, as shown in Figure 6, in the present invention, outer cover 12 cannot be located on the connector shell 9 of convex connector 2.In this case, lever supporting projections 14 forms from the outer surface of inner casing 11 is outstanding, and fulcrum projection 7 is given prominence to formation from the flat part 29 of lever 4 in flat part 29 direction away from each other.Pivot guide groove 6 forms spill from the inner surface of the connector shell 22 of matrix connector 3.

In addition, in the present invention, pivot guide groove 6 is not provided, displacement control device can be in described another connector in lever 4 and described convex connector 2 and the matrix connector 3 described in addition-individual projection or the groove that forms of going up, fulcrum projection 7 is described on another in described another connector in lever 4 and convex connector 2 and the matrix connector 3 not.In above-mentioned preferred facility example, fulcrum projection 7 forms cylindrical.Yet, interchangeablely be the fulcrum projection

Formation has the cylindrical of ellipse on the plan view.That is to say that fulcrum projection 7 can be to carry out the Any shape of its function.

The purpose of describing above preferred embodiment is to understand the present invention and those skilled in the art in the multiple modification of being done without departing from the spirit and scope of the present invention.

Claims

1. connector assembly, it comprises:

First connector;

Second connector with the assembling of first connector;

Lever, it is pivotally connected on the connector in first and second connectors, and allows first and second connectors closer to each other and leave when this lever rotates;

The fulcrum projection, one among its another connector from the lever and first and second connectors is stretched out, and this fulcrum projection is blocked by in described another connector in the lever and first and second connectors another when first and second connectors assemble each other; And

Displacement control device, even when lever is rotated when first and second connectors assemble each other, it is along the displacement that is orthogonal to the direction control fulcrum projection that first and second connectors assemble each other.

2. connector assembly according to claim 1 is characterized in that, displacement control device is located at described on another in described another connector in the lever and first and second connectors.

3. connector assembly according to claim 2, it is characterized in that, described another among described another connector in the lever and first and second connectors is provided with the groove that described fulcrum projection can enter, and displacement control device is the part of the inner surface of this groove.

4. according to each described connector assembly among the claim 1-3, it is characterized in that fulcrum convexes to form to cylindrical.