CN102983457B - Connector - Google Patents

Abstract

The present invention discloses a kind of connector, and when the tabular or sheet object (such as, FPC) with locked portion are inserted in connector, described connector is connected to described object.Connector comprises housing and actuator.Housing is formed with sticking department and installation portion.Actuator is kept by housing and pivotable between the off-position that can be placed between actuator and installation portion at the object of the insertable open position of object and insertion.When object is inserted into, the locked portion of sticking department locking.Therefore, even if when actuator is positioned at open position, also can prevent object from departing from temporarily.

Description

Connector

Technical field

The present invention relates to one and can be connected to the such as tabular of flexible print circuit (FPC) or flexible flat cable (FFC) or the connector of sheet object.

Background technology

Usually, such connector has the mechanism preventing object from departing from.Such as in JP-A2004-71314, JP-A 2007-250524, JP-A 2007-179760 or JP-A 2010-244987, disclose above-mentioned connector, the content of described application is incorporated to for reference at this.

The connector of JP-A 2004-71314 or JP-A 2007-250524 comprises establishes bossed actuator.When actuator is operated with pivotable, the projection of actuator is inserted in the hole be formed on object, and target and connector are interconnected simultaneously, make it possible to prevent object from departing from.The connector of JP-A 2007-179760 comprises housing and is connected to the hardware of housing.Hardware has depressed part.When the projection of the end being formed in object is contained in depressed part, can prevent object from departing from.The connector of JP-A2010-244987 comprises housing.Housing has elastic engagement pieces, and described elastic engagement pieces is respectively formed at the opposed end place in the direction of the width of described housing.Object is placed between elastic engagement pieces and keeps to be connected device.

But, for the connector of JP-A 2004-71314 or JP-A 2007-250524, must prevent object from departing from before actuator pivotable.For the connector of JP-A 2007-179760, need object to be tilted to down to be inserted in the insertion opening of connector.If insertion opening is narrow, be then difficult to insertion objects.Therefore, need to make insertion opening wide, make it possible to easily insertion objects.But in this case, the size of connector becomes large.For the connector of JP-A 2010-244987, be difficult to reduce connector size in the direction of the width.

Summary of the invention

Therefore, even if the object of this invention is to provide a kind of connector that also can prevent object from departing from before actuator pivotable, even if wherein connector has the size of reduction, object also can easily insert in connector.

One aspect of the present invention provides a kind of connector that can be connected with the tabular or sheet object comprising contact site and locked portion.Described connector comprises insertion opening, housing, actuator and contact.Insertion opening is positioned at the front end place on front-rear direction of connector.Insertion opening is constructed such that object is inserted into along front-rear direction.Housing is formed with sticking department and installation portion.Sticking department is configured to the locked portion of the locking when object inserts from insertion opening.Sticking department prevents object from moving forward to the locking in locked portion temporarily.Actuator is kept by housing and can insert the open position in insertion opening at object and be placed in pivotable between the off-position between actuator and installation portion from the object that insertion opening is inserted.Contact keeps the contact site to be connected to object when actuator is positioned at off-position by housing.

Can by studying the following explanation of preferred embodiment and being familiar with object of the present invention with reference to accompanying drawing and understanding structure of the present invention more all sidedly.

Accompanying drawing explanation

Fig. 1 is the stereogram of display connector according to an embodiment of the invention and object, and wherein the actuator of connector is positioned at open position;

Fig. 2 is the stereogram of the connector of display Fig. 1, and wherein actuator is positioned at off-position; Fig. 3 is the stereogram of the rear side of the connector of display Fig. 1;

Fig. 4 is the vertical view of the object of display Fig. 1;

Fig. 5 is the cutaway view that the display connector of Fig. 1 and the V-V along the line of object intercept;

Fig. 6 is the enlarged schematic partial view of the profile near the sticking department of the connector of display Fig. 5;

Fig. 7 is the stereogram of the shell of the connector of display Fig. 1;

Fig. 8 is the cutaway view that the shell VIII-VIII along the line of display Fig. 7 intercepts;

Fig. 9 is the stereogram of the actuator of the connector of display Fig. 1;

Figure 10 is the cutaway view that the actuator X-X along the line of display Fig. 9 intercepts;

Figure 11 sectional block diagram that to be the display connector of Fig. 1 and object intercept along the line of the line XI-XI corresponded in Fig. 4, the wherein locked portion of the sticking department lock object of connector;

Figure 12 is the installation portion of connector and the enlarged partial cross section of pressing portion and object of display Fig. 5; And

Figure 13 is the installation portion of connector and the enlarged partial cross section of sticking department and object of display Figure 11.

Although can carry out various amendment to the present invention and have optional form, specific embodiments of the invention be shown in an illustrative manner in the accompanying drawings and be here described in detail.But; it should be understood that accompanying drawing and detailed description of the invention are not intended to limit the invention to disclosed concrete form; on the contrary, object contains all distortion fallen in the spirit that is defined by the following claims of the present invention and protection range, equivalents and Alternative Form.

Embodiment

As Figure 1-5, connector 10 according to an embodiment of the invention can be connected with the tabular of such as FPC or FFC or sheet object 20.Connector 10 comprises insertion opening 30.Insertion opening 30 is positioned at the front end place in X-direction (front-rear direction) of connector 10.Insertion opening 30 be constructed such that object 20 along the X direction (that is, along negative X-direction) insert backward.

As shown in Figure 4, object 20 has upper surface (first type surface) 210 and lower surface 220 in Z-direction (previous-next direction).Upper surface 210 is provided with grounding pattern 212.Lower surface 220 is provided with the signal pattern (contact site) do not illustrated.Object 20 has the insertion end 230 of the front end (that is, negative X side) as object 20.When object 20 inserts in the insertion opening 30 of connector 10, insertion end 230 introductory object 20.Object 20 comprises two locked portions 250.In detail, object 20 has two recesses 240 on the opposed end that is respectively formed on (the L-R direction) in the Y direction of object 20.Each in recess 240 inwardly concaves to be formed with two edge parts (that is, front side edge edge and back side edge edge) perpendicular to X-direction along the Y direction.More specifically, according to the recess 240 of the present embodiment, there is rectangular shape.The front side edge edge (that is, closer to the edge part of insertion end 230) of recess 240 is used as locked portion 250.As described later, when object 20 inserts from insertion opening 30, locked portion 250 is locked in (see Figure 11) in connector 10.

As shown in figs. 1-3 and 5, according to the actuator 500 that the connector 10 of the present embodiment comprises each multiple contact 110 be made of metal, the housing 300 be made up of insulating material, the shell 400 be made of metal and is made up of insulating material.Contact 110 is kept by housing 300.A part for shell 400 (at least) covering shell 300.Actuator 500 is kept by housing 300, so as can between open position (see Fig. 1,3 and 5) and off-position (see Fig. 2) pivotable.

As shown in Figure 5, each in contact 110 has tuning fork-like shape.More specifically, contact 110 has portion of terminal 120, maintained portion 130, maxilla portion 140 and lower jaw portion 150.When connector 10 is arranged on circuit board (not shown), portion of terminal 120 is connected to the circuit pattern (not shown) of circuit board.Maintained portion 130 is fixed to housing 300 and is kept by housing 300.Maxilla portion 140 and lower jaw portion 150 extend along positive X-direction from maintained portion 130 and in z-direction toward each other.Lower jaw portion 150 is provided with contact site 160 in its front end.

As shown in figs. 1-3 and 5, housing 300 is formed to extend along Y-direction in length.Housing 300 has maintaining part 310, two sidepieces 320, bottom 340 and anterior 360.Maintaining part 310 keeps in touch the maintained portion 130 of part 110.Sidepiece 320 lays respectively at the opposite side in the Y direction of housing 300.Each in sidepiece 320 is provided with support portion 330 and protuberance 370.Support portion 330 supports actuator 500.As described later, protuberance 370 is configured to actuator 500 to be maintained in its closed position place.Front portion 360 is positioned at the top of insertion opening 30.The bottom 340 of housing 300 is formed with installation portion 342 and guide part 344.The flat surfaces being parallel to XY plane according to the installation portion 342 of the present embodiment.Guide part 344 is configured to object 20 to be directed to insertion opening 30.The object 20 inserted from insertion opening 30 is arranged on installation portion 342.Maintaining part 310 is formed with the antetheca 346 perpendicular to X-direction.Antetheca 346 limits the limit of the movement backward of the object 20 inserted.Housing 300 is formed with sticking department 350 further.The flat surfaces that sticking department 350 is formed in installation portion 342 projects upwards in z-direction.

As found out from Fig. 1 and Figure 11, according to the housing 300 of the present embodiment, there are two sticking departments 350.The opposed end being in the Y direction respectively formed at installation portion 342 according to the sticking department 350 of the present embodiment corresponds to the locked portion 250 of object 20.As shown in Figure 5 and Figure 6, each in sticking department 350 has top 352, rake 354, rear side rake 356 and locking surface 358.Top 352 is parts that sticking department 350 is the highest apart from installation portion 342.From top 352 towards installation portion 342, rake 354 turns forward that object 20 is directed to top 352 from installation portion 342.Locking surface 358 is positioned at after top 352.According to the present embodiment, rear side rake 356 tilts backwards from top 352 towards locking surface 358.Therefore, locking surface 358 is positioned at the rear end of sticking department 350.The plane (that is, crossing with X-direction plane) of X-direction is perpendicular to according to the locking surface 358 of the present embodiment.

As shown in Figure 6, be positioned at after sticking department 350 mid point M in the X direction according to the top 352 of the present embodiment.Therefore rake 354 can be designed to tilt gradually, and object 20 is inserted smoothly.

The gradient of rake 354 is designed to the gradient equaling guide part 344.If the gradient of rake 354 is less than the gradient of guide part 344, then the height of sticking department 350 becomes lower.Therefore, although connector 10 can be made thinner, be often easily released by the locking of sticking department 350 to locked portion 250.If the gradient of rake 354 is greater than the gradient of guide part 344, then the height of sticking department 350 becomes higher.Therefore, locked portion 250 can be locked portion 350 and locks securely.But the thickness of connector 10 becomes larger.In addition, object 20 may be stuck in the boundary between guide part 344 and rake 354.Therefore the easiness considering the thickness of connector 10, the reliability of locking and insertion is needed.Usually, be preferably similar to the present embodiment, the gradient of rake 354 is identical with the gradient of guide part 344.

As Fig. 1-3,5, shown in 7 and 8, be similar to housing 300, shell 400 is formed to extend along Y-direction in length.Shell 400 has upper plate 410, lower plate 420 and two side plates 430 and two compressing members 440.The front portion 360 (see Fig. 5) of upper plate 410 covering shell 300 of shell 400 to limit insertion opening 30 together with the bottom 340 of housing 300.Lower plate 420 is positioned at the below of the bottom 340 of housing 300.Upper plate 410 and lower plate 420 are parallel to and extend each other.Each in side plate 430 connects upper plate 410 and lower plate 420 in z-direction.Each in compressing member 440 stretches out from upper plate 410 along Y-direction.

The upper plate 410 of shell 400 is formed with multiple pressing portion 412.Pressing portion 412 is formed with upper plate 410 one (that is, with shell 400 one).Pressing portion 412 from the front end of upper plate 410 backward and to downward-extension (that is, extending towards installation portion 342) with through insertion opening 30.Pressing portion 412 is supported by upper plate 410, so that can strain in z-direction.Each in pressing portion 412 has adjacency section 414.Adjacency section 414 is formed on the front end of pressing portion 412.Adjacency section 414 is configured to adjoin with the upper surface 210 of object 20 and be electrically connected to grounding pattern 212.

According to the shell 400 of the present embodiment, also there are two fixed parts 442 and two press-fitted portions 446.Fixed part 442 extends back from the opposed end in the Y direction of upper plate 410 respectively.Each in press-fitted portions 446 extends back from compressing member 440.As shown in Figure 1, fixed part 442 and press-fitted portions 446 insert (according to the present embodiment, press-fit) in the sidepiece 320 of housing 300, make shell 400 be fixed to housing 300.Lower plate 420 has multiple terminal 422.When connector 10 is arranged on circuit board (not shown), terminal 422 is connected to the grounding pattern (not shown) of circuit.Compressing member 440 is fixed to the circuit board (not shown) of mounted connector 10 above, makes connector 10 be more fixed firmly to circuit board (not shown).

As shown in Figures 9 and 10, actuator 500 has in length along the plate-like shape that Y-direction extends.Actuator 500 has operating portion 510, multiple lifting parts 520, two pivots 530, two clamping parts 540 corresponding to corresponding contact part 110, accommodation section 550 and two projections (anti-pivot part) 570.Operating portion 510 operates to force actuator 500 pivotable.Each in lifting parts 520 is configured to the maxilla portion 140 promoting corresponding contact part 110.Pivot 530 is supported by the support portion 330 of housing 300 respectively.Clamping part 540 is configured to clamp object 20 together with installation portion 342.Accommodation section 550 is configured to the maxilla portion 140 partly holding each contact 110.Projection 570 is separately positioned on the opposed end place of operating portion 510.

As shown in Figure 1 and Figure 5, when actuator 500 is positioned at open position, operating portion 510 is given prominence to along Z-direction.When actuator 500 is positioned at open position, object 20 can be inserted in insertion opening 30 along guide part 344.When object 20 keeps inserting, the opposed end of the insertion end 230 of object 20 is directed to top 352 by the rake 354 (see Fig. 6) of sticking department 350 respectively.When the locked portion 250 (see Fig. 4) of object 20 be further inserted into exceed top 352 time, object 20 arrives insertion position, and lower surface 220 (see Fig. 4) is contacted with installation portion 342.As shown in figure 11, when object 20 is positioned at insertion position, sticking department 350 lays respectively in recess 240.If the object 20 being positioned at insertion position receives the power (that is, along the power of positive X-direction) be guided forward, then the locked portion 250 of object 20 adjoins with the locking surface 358 of sticking department 350.Can be moved forward by the adjacent object 20 that prevents of locking surface 358 with locked portion 250.In other words, sticking department 350 is configured to the locked portion 250 of the locking when object 20 inserts to be positioned in insertion position from insertion opening 30.As found out from above explanation, when object 20 is positioned at insertion position, connector 10 and object 20 are in the tentative holding condition that wherein sticking department 350 temporarily prevents object 20 from moving forward to the locking that locked portion 250 carries out.

As can be as can be seen from Figure 12, be configured to when actuator 500 is positioned at open position, the upper surface 210 of object 20 be pushed towards installation portion 342 according to the pressing portion 412 of the present embodiment.More specifically, when object 20 is not inserted into, the distance T2 between the adjacency section 414 of pressing portion 412 and the installation portion 342 of housing 300 on 0Z direction is less than the thickness T1 of object 20.Therefore, when object 20 inserts towards insertion position, the upper surface 210 of object 20 receives the downward force from pressing portion 412.In other words, the object 20 of insertion is pushed by towards installation portion 342.When top 352 is crossed in locked portion 250, object 20 declines to contact with installation portion 342.Meanwhile, produce sense of clicking and feel, make it possible to detect that object 20 is positioned at insertion position (that is, connector 10 and object 20 are in tentative holding condition).Even if under tentative holding condition, object 20 also can receive the power from pressing portion 412.Power from pressing portion 412 temporarily prevents the object 20 be pushed from moving up.In other words, under tentative holding condition, can prevent object 20 from crossing sticking department 350.According to the present embodiment, even if connector 10 tilts, also tentative holding condition can be kept.

According to the present embodiment, even if when actuator 500 is positioned at open position, sticking department 350 locks locked portion 250, and object 20 is temporarily kept on installation portion 342.In other words, even if before actuator 500 is pivoted to off-position, also can prevent object 20 from departing from.Therefore, when actuator 500 operates to be pivoted to off-position, do not need operator's keeping object 20 itself.In addition, when object 20 inserts in insertion opening 30 simply along negative X-direction, sticking department 350 locks locked portion 250.Therefore, object 20 is inserted easily in connector 10.In addition, according to the present embodiment, connector 10 can be avoided to become large.

As found out from Fig. 1 and 2, when operating portion 510 towards connector 10 rear side rotate time, actuator 500 is pivoted to off-position from open position.As shown in Fig. 5 and Figure 11, lifting parts 520 has the cross section grown in the X direction when actuator 500 is positioned at open position.When actuator 500 is pivoted to off-position, the above-mentioned cross section of lifting parts 520 changes its direction.More specifically, lifting parts 520 has the cross section grown in z-direction when actuator 500 is positioned at off-position.Lifting parts 520 is constructed as mentioned above to be formed, to make under interim hold mode when actuator 500 is pivoted to off-position, lifting parts 520 upwards promotes the maxilla portion 140 of contact 110 while downward (that is, towards installation portion 342) pushing pressing portion 412.When maxilla portion 140 is promoted (that is, strain), lower jaw portion 150 upwards strain.Therefore, contact site 160 moves up to be electrically connected with the signal pattern (not shown) on the lower surface 220 being formed in object 20.As found out from above explanation, when actuator 500 is positioned at off-position, the contact 110 according to the present embodiment keeps by housing 300 the contact site (not shown) being connected to the object 20 inserted from insertion opening 30.

According to the present embodiment, when actuator 500 is positioned at off-position, object 20 is placed between the pressing portion 412 of strain and installation portion 342 to be kept more securely.In addition, as shown in figure 11, when actuator 500 is positioned at off-position, the object 20 inserted from insertion opening 30 is placed between the clamping part 540 of actuator 500 and installation portion 342.According to the present embodiment, from pressing portion 412 apply downward pressure and reliably prevent object 20 from moving up by the clamping that clamping part 540 and installation portion 342 carry out.Therefore, sticking department 350 can not be crossed to move forward by the locked portion 250 of object 20.According to the present embodiment, when actuator 500 is positioned at off-position, can more firmly prevent object 20 from departing from.

According to the present embodiment, when actuator 500 is positioned at off-position, the projection 570 be arranged on actuator 500 engages with the protuberance 370 be arranged on housing 300 respectively.Projection 570 and the above-mentioned joint of housing 300 can prevent actuator 500 to be surprisingly pivoted to open position.More specifically, when the actuator 500 being positioned at off-position receives the power pointed to towards open position, projection 570 adjoins with protuberance 370, makes it possible to prevent actuator 500 pivotable.Therefore, even if unexpected power to be applied to the actuator 500 being positioned at off-position, also can prevent the electrical connection between connector 10 and object 20 from disconnecting.In other words, the projection 570 of actuator 500 is as the anti-pivot part 570 prevented towards the unexpected pivotable of open position.

As shown in figure 13, sticking department 350 is designed to apart from height (that is, the distance between top 352 and the installation portion 342) T3 of installation portion 342 the thickness T1 being less than object 20.The above-mentioned low height T3 of sticking department 350 not only allows object 20 to insert smoothly, and allows object 20 to be removed smoothly by the power of having a mind to apply.Can consider that the reliability of the locking in the locked portion 250 of object 20 is to design the minimum value of the height T3 of sticking department 350.More specifically, the minimum value of height T3 can such as between 1/3rd and 1/2nd of the thickness T1 of object 20.As found out from Fig. 5 and 11, pressing portion 412 is designed to the Part I pushing object 20, and actuator 500 and installation portion 342 are designed to clamp and the Part II (that is, being different from the part of Part I) of keeping object 20 simultaneously.Part I and Part II are arranged in along on the same straight line of Y-direction extension.Therefore, can prevent the object 20 received from the various power of pivoted actuator 500 from reversing or sinking.

The application is based on the Japanese patent application of the JP2011-191893 filed an application to Japan Office on September 2nd, 2011, and the content of this application is incorporated to for reference at this.

The preferred embodiments of the present invention are described although existing; but person of skill in the art will appreciate that and can carry out other to the present invention when not deviating from spirit of the present invention and further revise, and object be all this embodiment advocating to fall within the scope of real protection of the present invention.

Claims (9)

1. a connector, described connector can be connected with tabular or sheet object, and described object comprises contact site and locked portion, and described connector comprises:

Insertion opening, described insertion opening is positioned at the front end place in the longitudinal direction of described connector, and described insertion opening is constructed such that described object inserts backward along described fore-and-aft direction;

Housing, described housing is formed with sticking department and installation portion, and described sticking department is configured to lock described locked portion when described object inserts from described insertion opening, and the locking of described sticking department to described locked portion prevents described object from moving forward temporarily;

Actuator, described actuator is kept by described housing and can pivotable between an open position and a closed, wherein in described open position, described object can insert in described insertion opening, at described off-position place, the described object inserted from described insertion opening is placed between described actuator and described installation portion;

Contact, described contact is kept by described housing, is connected to the contact site of described object when being positioned at described off-position with the described actuator of box lunch;

Pressing portion, described pressing portion is configured to be pushed towards described installation portion by the first type surface of described object when described actuator is positioned at described open position, and the described object be pushed is prevented from moving up on the above-below direction perpendicular to described fore-and-aft direction temporarily; With

Shell, described shell covers described housing at least in part to limit described insertion opening together with described housing,

Wherein, described pressing portion and described shell are integrally formed, described pressing portion from the front end of described shell backward and to downward-extension with through described insertion opening;

Described pressing portion is designed to the Part I pushing described object, and described actuator and described installation portion are designed to the Part II clamping and keep described object simultaneously; And

Described Part I and described Part II are arranged in along on the co-linear of the left and right directions extension perpendicular to described fore-and-aft direction and described above-below direction.

2. connector according to claim 1, wherein, described sticking department is formed on described installation portion and projects upwards along described above-below direction.

3. connector according to claim 2, wherein, described sticking department has top, rake and locking surface, described rake tilts so that described object is directed to described top from described installation portion, described locking surface is positioned at after described top, prevents described object from moving forward by described locking surface and the adjacent of described locked portion.

4. connector according to claim 3, wherein:

Described housing has guide part, and described guide part is configured to described object to be directed to described insertion opening; And

The gradient of described rake is designed to the gradient equaling described guide part.

5. connector according to claim 1, wherein:

Described pressing portion can on described above-below direction strain, described pressing portion has adjacency section, described adjacency section be configured to the described first type surface of described object adjoin; And

When described object is not inserted into, the distance between described adjacency section and described installation portion on described above-below direction is less than the thickness of described object.

6. connector according to claim 2, wherein:

Described housing has two described sticking departments, and described sticking department is respectively formed on the opposed end on the left and right directions perpendicular to described fore-and-aft direction and described above-below direction of described installation portion; And

Described object has two recesses be respectively formed on the opposed end on described left and right directions of described object, each in described recess inwardly concaves to be formed with edge part on described fore-and-aft direction along described left and right directions, and described edge part is used as described locked portion.

7. connector according to claim 2, wherein, described sticking department is less than the thickness of described object apart from the height of described installation portion.

8. connector according to claim 3, wherein, described top is positioned at after the mid point on described fore-and-aft direction of described sticking department.

9. connector according to claim 2, wherein, described actuator also has anti-pivot part, when described actuator is positioned at described off-position, described anti-pivot part engages with described housing, and the joint of described anti-pivot part and described housing prevents described actuator to be unexpectedly pivoted to described open position.